© Siemens AG 2014
LOHER Low-Voltage Motors
Type series 1MD5, 1PS0, 1PS1, 1PS4 and 1PS5
Frame sizes 71 to 500
Power range 0.25 to 1400 kW
Motors
Catalog
D 83.1
Edition
2014
Answers for industry.
© Siemens AG 2014
Related catalogs
SINAMICS G180
D 18.1
Converters – Compact Units, Cabinet Systems,
Cabinet Units Air-Cooled and Liquid-Cooled
www.siemens.com/motors/printmaterial
The listed documentation can be ordered here or it is available in
commonly used file formats (PDF, ZIP) for downloading.
E86060-K5518-A111-A2-7600
MOTOX Geared Motors
All information material, such as brochures, catalogs, manuals and
operating instructions for standard drive systems are available up-to-date
on the Internet at the following address:
Energy saving/Energy-saving program SinaSave
D 87.1
Further information on the subject of energy saving and the energysaving program SinaSave is available at the following address:
www.siemens.com/energysaving
Interactive Catalog CA 01 – Drive Technology Configurator
The Drive Technology Configurator is available in conjunction with
the electronic catalog CA 01 on DVD.
E86060-K5287-A111-A4-7600
Motion Control Drives
D 31
SINAMICS Inverters for Single-Axis Drives
and SIMOTICS Motors
E86060-K5531-A101-A1-7600
E86060-E5531-A101-A1-7600 (News)
SINAMICS Drives
SINAMICS G130
Drive Converter Chassis Units
SINAMICS G150
Drive Converter Cabinet Units
E86060-K5511-A101-A5-7600
D 11
Industrial Communication
SIMATIC NET
IK PI
In addition, the Drive Technology Configurator (DT Configurator) can be
used on the Internet without requiring any installation. The DT Configurator can be found in the Siemens Mall under the following address:
www.siemens.com/dt-configurator
E86060-K6710-A101-B7-7600
AC NEMA & IEC Motors
D 81.2
Further details available on the Internet
U.S./
at:
Canada
www.sea.siemens.com/motors
Products for Automation and Drives
Interactive Catalog, DVD
CA 01
The DT Configurator for motors, mechanical components, converters,
connection systems, control and licenses and system configuration can
be found in the CA 01 main menu, under drive systems, selection and
engineering tools.
• 2D/3D model generator for motors and drives
• Data sheet generator
• Start-up calculation
• Comprehensive product-specific documentationn
Hardware and software requirements
• PC with 1.5 GHz CPU or faster
• Operating systems
– Windows XP
– Windows NT 4.0 (SP6 and higher)
– Windows Vista
– Windows 7
• At least 1 GB RAM (2 GB recommended)
• Screen resolution 1024 x 768, graphics with more than 256 colors,
small fonts
• DVD drive for offline version (CA 01)
• Windows-compatible sound card
• Windows-compatible mouse
Installation
E86060-D4001-A510-D3-7600
Industry Mall
Information and Ordering Platform
in the Internet:
www.siemens.com/industrymall
The CA01 catalog can be directly installed on the hard disk or in the
network from the DVD as a partial or full version.
© Siemens AG 2014
LOHER Low-Voltage Motors
Type series 1MD5, 1PS0, 1PS1, 1PS4 and 1PS5
Motors
Introduction
LOHER motors
General information regarding efficiency
in accordance with International Efficiency
Guide to selecting and ordering the motors
General technical specifications
1
Motors with Explosion Protection
Orientation
SIMOTICS XP 1MD5 motor series
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
LOHER CHEMSTAR and VARIO 1PS1 motor series
2
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
3
Tools and Engineering
4
Appendix
5
Catalog D 83.1 · 2014
Refer to the Industry Mall for current updates of this
catalog:
www.siemens.com/industrymall
The products contained in this catalog can also be found
in the Interactive Catalog CA 01.
Article No.: E86060-D4001-A510-D3-7600
Please contact your local Siemens branch.
© Siemens AG 2014
Printed on paper
from sustainably
managed forests
and controlled
sources.
www.pefc.org
The products and systems described in
this catalog are manufactured/distributed
under application of a certified quality
management system in accordance with
DIN EN ISO 9001 (Certified Registration
No. 002241 QM08). The certificate is
recognized by all IQNet countries.
© Siemens AG 2014
2
Siemens D 83.1 · 2014
© Siemens AG 2014
Answers for industry.
Integrated technologies, vertical market expertise and services
for greater productivity, energy efficiency, and flexibility.
The Siemens Industry Sector is the
world's leading supplier of innovative
and environmentally friendly products
and solutions for industrial companies.
End-to-end automation technology and
industrial software, solid market expertise, and technology-based services are
the levers we use to increase our customers’ productivity, efficiency and
flexibility. With a global workforce of
more than 100 000 employees,
the Industry Sector comprises the
Industry Automation, Drive Technologies, and Customer Services divisions,
as well as the Metals Technologies
Business Unit.
We consistently rely on integrated technologies and, thanks to our bundled
portfolio, we can respond more quickly
and flexibly to our customers' wishes.
With our globally unmatched range of
automation technology, industrial
control and drive technology as well
as industrial software, we equip companies with exactly what they need over
their entire value chain – from product
design and development to production,
sales and service. Our industrial customers benefit from our comprehensive
portfolio, which is tailored to their
market and their needs.
Market launch times can be reduced
by up to 50 % due to the combination
of powerful automation technology
and industrial software from Siemens
Industry. At the same time, the costs for
energy or waste water for a manufacturing company can be reduced significantly. In this way, we increase our
customers’ competitive strength and
make an important contribution to environmental protection with our energyefficient products and solutions.
Siemens D 83.1 · 2014
3
© Siemens AG 2014
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Efficient automation starts with
efficient engineering.
Totally Integrated Automation: Efficiency driving productivity.
Efficient engineering is the first step toward better production that is faster,
more flexible, and more intelligent. With all components interacting efficiently,
Totally Integrated Automation (TIA) delivers enormous time savings right from
the engineering phase. The result is lower costs, faster time-to-market, and
greater flexibility.
4
Siemens D 83.1 · 2014
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© Siemens AG 2014
A unique complete approach for all industries
Totally Integrated Automation
Efficient interoperability of all automation components
As one of the world's leading automation suppliers,
Siemens provides an integrated, comprehensive portfolio
for all requirements in process and manufacturing industries.
All components are mutually compatible and system-tested.
This ensures that they reliably perform their tasks in industrial
use and interact efficiently, and that each automation solution can be implemented with little time and effort based
on standard products. The integration of many separate individual engineering tasks into a single engineering environment, for example, provides enormous time and cost savings.
With its comprehensive technology and industry-specific
expertise, Siemens is continuously driving progress in manufacturing industries – and Totally Integrated Automation plays
a key role.
Totally Integrated Automation creates real value added in
all automation tasks, especially for:
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Consistent, comprehensive engineering throughout the
entire product development and production process
• Industrial data management
Access to all important data occurring in productive
operation – along the entire value chain and across
all levels
• Industrial communication
Integrated communication based on international
cross-vendor standards that are mutually compatible
• Industrial security
Systematic minimization of the risk of an internal or
external attack on plants and networks
• Safety Integrated
Reliable protection of personnel, machinery, and the
environment thanks to seamless integration of safety
technologies into the standard automation
Making things right with Totally Integrated Automation
Totally Integrated Automation, industrial automation from
Siemens, stands for the efficient interoperability of all automation components. The open system architecture covers
the entire production process and is based on end-to-end
shared characteristics: consistent data management, global
standards, and uniform hardware and software interfaces.
Totally Integrated Automation lays the foundation for
comprehensive optimization of the production process:
• Time and cost savings due to efficient engineering
• Minimized downtime due to integrated diagnostic
functions
• Simplified implementation of automation solutions due
to global standards
• Better performance due to interoperability of systemtested components
Siemens D 83.1 · 2014
5
© Siemens AG 2014
Totally Integrated Power
We bring power to the point –
safely and reliably.
Efficient, reliable, safe: These are the demands placed on electrification and especially
power distribution. And our answer – for all application areas of the energy system –
is Totally Integrated Power (TIP). It’s based on our comprehensive range of products,
systems, and solutions for low and medium voltage, rounded out by our support
throughout the entire lifecycle – from planning with our own software tools to installation,
operation, and services.
Comprehensive answers for
power distribution in complex
energy systems – from Siemens
Smart interfaces allow linking to industrial or building automation, making it possible to fully
exploit all the optimization potential of an integrated solution. This is how we provide our
customers around the world with answers to their challenges. With highly efficient, reliable,
and safe power distribution, we lay the foundation for sustainable infrastructure and cities,
buildings, and industrial plants. We bring power to the point – wherever and whenever it is
needed.
More information: www.siemens.com/tip
6
Siemens D 83.1 · 2014
© Siemens AG 2014
Totally Integrated Power offers more:
• Consistency:
For simplified plant engineering and commissioning as well as smooth integration into automation solutions
for building or production processes
• One-stop-shop:
A reliable partner with a complete portfolio for the entire process and lifecycle – from the initial idea
to after-sales service
• Safety:
A comprehensive range of protection components for personnel safety and line and fire protection,
safety by means of type testing
• Reliability:
A reliable partner who works with customers to develop long-lasting solutions that meet the highest
quality standards
• Efficiency:
Bringing power to the point means greater plant availability and maximum energy efficiency in
power distribution
• Flexibility:
End-to-end consistency and modular design of Totally Integrated Power for any desired expansions and
adaptation to future requirements
• Advanced technology:
Reliable power distribution especially for applications in which supply is critical, continuous refinement of
the technology
Challenges are our speciality
Automation
Operation
&
Monitoring
Process/
Industrial
automation
Load
management
PROFINET
Load
curves
Forecast
Maintenance
PROFIBUS
Status
reporting/
failure management
...
Protocols
Power
Quality
Cost
center
Building
automation
Industrial Ethernet
Modbus
Electrification
Renewables
Medium-voltage switchgear
Storage
technologies and protection technology
Transformer
Low-voltage switchboard
with protection and measuring
technology
Low-voltage
distribution
≤ 110 kV
Products, systems and solutions
Consulting,
planning
Engineering
Order,
delivery
Installation,
commissioning
Operation
Service,
modernization
Siemens D 83.1 · 2014
7
© Siemens AG 2014
8
Siemens D 83.1 · 2014
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© Siemens AG 2014
Introduction
1/2
1/2
1/2
1/2
1/2
1/3
1/3
1/3
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1/5
1/5
1/5
1/5
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LOHER motors
Customized and industry-specific
drive solutions in the process industry
Overview
• Motors in all applicable types of
protection – from 0.1 kW
through to the Megawatt range
• Double protection for maximum safety
Application
• LOHER CHEMSTAR and LOHER VARIO
• Special solutions exclusively for
special cases
Design
1/16
1/16
General information regarding
efficiency in accordance
with International Efficiency
Efficiency classes and efficiencies
according to IEC 60034-30:2008
Overview
• Standardization of the efficiency classes
• IE efficiency classes
• Measuring method according to
IEC 60034-2-1:2007
for determining the efficiency
• Background information
• Dates on which the changes will
come into effect
• Explosion-proof motors also with
high efficiency
• Abbreviations
1/26
1/27
1/28
1/30
1/31
Guide to selecting and
ordering the motors
Drive selection and catalog orientation
Overview
• Steps for drive selection
• Range of motors with explosion
protection
• Range of motors without explosion
protection
Article number code
Special tests in the test bay
Overview
• Tests, test bay
1/17
1/19
1/20
1/22
1/23
1/24
1/25
1/26
1/33
1/46
1/48
1/49
1/50
1/51
1/58
1/59
1/68
1/68
1/88
General technical specifications
Cut-away diagram of a LOHER CHEMSTAR
low-voltage motor
Paint finishes
Packaging, safety notes, documentation
and test certificates
Designs in accordance with standards and
specifications
Motor protection
Voltages, currents and frequencies
Outputs and operating modes
Rating plates and extra rating plates
Efficiency, power factor, rated torque,
rated speed
Insulation and windings
Heating and ventilation
Types of construction
Motor connection and terminal box
Degrees of protection and
mechanical design
Bearings
Grease lifetime, relubrication intervals,
grease quantities
Position and design of the grounding
terminals
Measuring-surface sound pressure level
Information about
electric motor dimensioning
Coolant temperature and site altitudes
VIK design
Brakes and brake motors
Converter-fed operation
Special mechanical characteristics
Technical definitions for pole-changing
motors
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
LOHER motors
1
Customized and industry-specific drive solutions in the process industry
■ Overview
With the LOHER CHEMSTAR, LOHER VARIO and SIMOTICS XP
motor series, Siemens has a range of drive solutions that are
specifically tailored to customized or industry-specific requirements.
Building on well-proven standard platforms, the motors and converters are adapted to a specific project with considerable versatility in terms of mechanical and electrical design, as well as
special monitoring systems and cooling methods. Totally individual drive systems are generated as a consequence which are
tailor made for the respective plant, application or customer
specification, thus enabling even highly sophisticated drives to
be achieved over the complete output range.
Motors in all applicable types of protection –
from 0.1 kW through to the Megawatt range
LOHER CHEMSTAR and LOHER VARIO motors are available
depending on their classification from 0.1 to around 3000 kW in
all applicable types of protection. The motors ensure reliable
operation even in explosive atmospheres and provide maximum
safety for persons, machines and the environment.
The motors are available with the following types of protection:
• Dust explosion protection in hazardous zones 21 and 22
• "Non-sparking" Ex nA for Zone 2
• "Pressurized enclosure" Ex p for Zone 1
• "Increased safety" Ex e for Zone 1
• "Explosion-proof enclosure" Ex d for Zone 1
The portfolio comprises motors of Group II (EU directive
94/9/EC) for use in environments containing explosive gases in
the chemical, petrochemical and oil and gas industries, as well
as motors of Group I for firedamp protection in mining.
The motors are ATEX certified and also have country-specific
certificates such as EAC (Eurasian Customs Union), CCOE
(India) and NEPSI (China). The range of explosion-proof lowvoltage motors has been expanded with motors of the
SIMOTICS XP series. It represents the future standard product
series. The SIMOTICS XP motors are available in the type of protection "Explosion-proof enclosure" Ex d for an output range from
0.25 to 500 kW and supplement the LOHER CHEMSTAR series.
In comparison to the LOHER CHEMSTAR series, the smaller
range of products and fixed product characteristics ensure
significantly shorter delivery times and a considerably easier
ordering process.
1/2
Siemens D 83.1 · 2014
Double protection for maximum safety
LOHER CHEMSTAR and LOHER VARIO motors can also be
used for drive solutions with double protection. This involves, on
the one hand, a combination of gas and dust explosion protection for locations in which both fine dust and explosive gases
can occur, e.g. in the process industry or in mining. On the other
hand, this can be the double protection of the Ex d and Ex e
types of protection. This double protection is, for example,
appropriate onboard liquid gas tankers whereby electrical
equipment must be totally excluded as a possible ignition
source due to the hazardous load. For this purpose, the explosion-proof motors are mechanically designed with the type of
protection "Explosion-proof enclosure". At the same time, the
temperatures of the active parts correspond to the type of
protection "Increased safety".
Further products
This catalog contains explosion-proof motors in fin-cooled designs. In the case of high outputs up to 13.5 MW, tube-cooled
motors are available (normally in the type of protection "Explosion-proof enclosure" Ex d) as well as LOHER VARIO PLUS
motors with built-on heat exchangers (air-to-air or air-to-water).
The normal types of protection here are "Non-sparking" Ex n and
"Pressurized enclosure" Ex p. Specially designed motors are
also available in the larger frame sizes for converter-fed operation. They are characterized by subcritical operation, i.e. the
critical bending speed is higher than the rated speed. The full
control range can be utilized. The motors are designed with
sleeve bearings or roller bearings in accordance with their output and number of poles.
© Siemens AG 2014
Introduction
LOHER motors
Customized and industry-specific drive solutions in the process industry
■ Application
The drive solutions with LOHER motors are matched to application-specific requirements – whatever extreme the actual location of use. The range comprises, in particular:
• Explosion-proof drives of all common types of protection
• Winch drives that stand unprotected on the deck of a ship
• Subsea components for transporting mineral resources from
the deep sea
• Drill drives for drilling tunnels or for underground coal mining
• Smoke extraction motors that ensure fault-free fan operation
even under conditions of smoke at extremely high temperatures
• Vibration-proof, shock-resistant and earthquake-resistant
motors
• Motors for deserts – specially designed for heat, dust and
sand storms
• Low-temperature drives for drive tasks in polar climates
With motors of the LOHER CHEMSTAR series, there is often no
need for an anti-condensation heater even under conditions of
extremely high humidity. The motors operate reliably in a temperature range from -55 to +70 °C, even in zones with dust and gas.
The motors can therefore also be used in desert and polar regions. Versions with corrosion-resistant stainless steel screws
are available. Shaft seals in IP55 degree of protection are available as standard and provide protection against water and dust
to ensure problem-free outdoor installation.
Versions in industry-specific design are possible, for example
with a high-quality, particularly chemical-resistant finish or galvanized fan covers for corrosion protection in aggressive atmospheres.
Special solutions exclusively for special cases
Subsea components
LOHER CHEMSTAR and LOHER VARIO
LOHER CHEMSTAR and LOHER VARIO motors cover all common types of protection with outputs ranging from 0.25 to
1400 kW. The standard degree of protection is IP55. The range
of degrees of protection, however, extends as far as IP66. The
housing is made of rugged cast-iron or steel. Possible options
include reinforced bearings and integrated PTC thermistors.
LOHER CHEMSTAR and LOHER VARIO motors are supplied
with industry-specific documentation, including ATEX certificates for the chemical and petrochemical industries.
The subsea motors are developed especially for operation on
the seabed. They operate smoothly at depths of 1000 m. They
are used as drives for pumps, multi-phase pumps and compressors and therefore play an important role in the optimum exploitation of oil and gas fields.
Platform drives
Compliance with extremely stringent standards is necessary
here with regard to the requirements for the operation of drive
systems on drilling platforms. The platform motors satisfy the
requirements of these standards, both in general terms of
reliability, monitoring equipment and integration in platform-wide
monitoring systems, as well as in specific applications for example with requirements such as ice protection for polar regions.
The platform motors generally feature a special offshore paint
finish for protection against salty sea air. Bolts and other exposed parts are made of stainless steel.
Siemens D 83.1 · 2014
1/3
1
© Siemens AG 2014
Introduction
LOHER motors
1
Customized and industry-specific drive solutions in the process industry
■ Application (continued)
Integrated pump drives
In the chemical industry, special motors are used that are integrated into pumps. They operate reliably even under extreme
conditions of temperature and pressure. In this industry, temperatures can range from -50 to +400 °C and system pressures can
be as high as 1200 bar.
■ Design
The motors described in this catalog are surface-cooled, lowvoltage motors designed for the highest demands on availability
and reliability. The motors are extremely rugged and reliable and
are available as standard versions without explosion protection,
as well as in the Ex nA, Ex d(e), Ex p and Ex e types of protection.
For extreme requirements, motors are available with double protection against gas and dust.
The highly efficient motors cover the output range of 0.25 to
1400 kW in 2 to 16-pole versions (higher outputs are possible on
request) and, in compliance with IEC 60034-30, they achieve
efficiency class IE2 in the output range 0.75 to 375 kW in 2-, 4and 6-pole versions, and they are available for 50 Hz and 60 Hz.
The LOHER CHEMSTAR and SIMOTICS XP motor series are selfventilated, surface-cooled finned motors for mains-fed and converter-fed operation.
The LOHER VARIO series, which is also surface-cooled, is
characterized by its special internal air circulation / hollow fin
technology for an extremely high power density with a very high
degree of efficiency.
1/4
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© Siemens AG 2014
Introduction
General information regarding efficiency in accordance with International Efficiency
Efficiency classes and efficiencies according to IEC 60034-30:2008
■ Overview
Standardization of the efficiency classes
IE efficiency classes
The efficiency classes are grouped according to the following
nomenclature:
• IE1 (Standard Efficiency)
• IE2 (High Efficiency)
• IE3 (Premium Efficiency)
• IE4 (Super Premium Efficiency)
Super Premium
Efficiency *
Premium Efficiency
NEMA Premium Efficient
EISA 2007
since 12/2010
High Efficiency
NEMA Energy Efficient
EISA 2007
since 12/2010
G_D081_EN_00335
High
efficiency
Standard Efficiency
Low
efficiency
IEC motors
NEMA motors
* defined in IEC/TS 60034-31
IE efficiency classes depending on the output
Note: All efficiency classes are stated with reference to 50 Hz
data (unless specified otherwise).
Measuring method according to IEC 60034-2-1:2007 for
determining the efficiency
With the measuring method, the supplementary losses are no
longer applied as a percentage, but instead they are determined
with measurements (IEC 60034-2-1: 2007). The nominal efficiencies are therefore normally reduced from EFF1 to IE2 and from
EFF2 to IE1 for technically and physically identical motors.
100
%
90
G_D081_EN_00336
Efficiency
Different energy efficiency standards exist worldwide for induction
motors. To promote international standardization, the international
standard IEC 60034-30:2008 (Rotating electrical machines – Part
30: Efficiency classes of single-speed, three-phase, cage-induction motors (IE code)) was created. This groups low-voltage induction motors into new efficiency classes (valid since October
2008). The efficiencies of IEC 60034-30:2008 are based on losses
determined in accordance with the IEC 60034-2-1:2007 standard.
This has been valid since November 2007 and replaces standard
IEC 60034-2:1996 as of November 2010. The supplementary
losses are now measured and no longer added as a percentage.
80
Classification
acc. to IEC 60034-30:2008
70
0.75 1.5 3 5.5 11 18.5 30 45 75 110 200 kW
1.1 2.5 4 7.5 15 20 37 55 90 132 375 kW
Output
IE1 to IE3 efficiencies 4-pole 50 Hz
The following table shows examples of the efficiency values
according to the current and previous loss calculating methods.
EFF measuring method
(incl. percentage losses)
EN/IEC 60034-2:1996
50 Hz
Losses determined
according to
IEC 60034-2-1:2007
50 Hz
5.5 kW 4-pole
89.2 %
87.7 %
45 kW 4-pole
93.9 %
93.1 %
Background information
Comprehensive laws have been introduced in the European
Union with the objective of reducing energy consumption and
therefore CO2 emissions. EU Directive 640/2009 concerns the
energy consumption or efficiency of induction motors in the
industrial environment. This Directive is now in force in every
country of the European economic area.
For further details on internationally applicable standards and
legal requirements, visit:
www.siemens.com/international-efficiency
The EuP directive (Energy using Products) is implemented in the
domestic laws of EU countries. The framework conditions for the
European directives have already been agreed. The EU directive 2005/32/EC (=EuP directive) is based, regarding minimum
efficiencies, on IEC 60034-30:2008. This directive has been
implemented in Germany by means of the so-called "Energiebetriebene-Produkte-Gesetz (EBPG)" [Energy-using products
law]. Low-voltage motors and high-voltage motors are affected
by changes to the standard – but only the version for mains-fed
operation.
Previously: PLL = 0.5 % of Padded
Now:
PLL = Individual measurement
PLL = Load dependent supplementary losses
Siemens D 83.1 · 2014
1/5
1
© Siemens AG 2014
Introduction
General information regarding efficiency in accordance with International Efficiency
1
Efficiency classes and efficiencies according to IEC 60034-30:2008
■ Overview (continued)
CEMEP voluntary EU agreement
Description
NEMA
EuP directive based on standard
IEC 60034-30:2008
Voluntary agreement between the EU
The current legislature in USA/CAN/MX
commission and the European sector
also governs efficiencies
committee of manufacturers of electrical
machines (CEMEP)
The EuP directive must be implemented
in national law in all EU countries.
Losses are determined and therefore the
efficiency is determined in accordance
with IEC 60034-2-1:2007
Number of poles
2, 4
2, 4, 6
2, 4, 6
Output range
1.1 … 90 kW
0.75 … 150 kW
0.75 … 375 kW
Level
Standard – EFF3
Improved efficiency – EFF2
Highly efficient – EFF1
NEMA Energy Efficient
NEMA Premium Efficient
Standard Efficiency – IE1
High Efficiency – IE2
Premium Efficiency – IE3
Voltage
400 V, 50 Hz
230/460 V, 60 Hz
<1000 V, 50/60 Hz
Degree of protection
IP5x
Open + closed motors
All
Motors with brake
NO
YES
In agreement
Geared motors
NO
NO
YES
Ex motors
NO
YES
EuP directive – NO
IEC 60034-30 – YES (but explosion
protection always has a higher priority)
Validity
Voluntary agreement; will be
replaced on implementation of the
national measures
Before November 2010 EPACT (IE2)
From December 2010 EISA 2007
Premium (IE3) minimum efficiency
IEC 60034-30 standard, valid since
October 2008, EuP
Dates on which the changes will come into effect
Explosion-proof motors also with high efficiency
January 1, 2015
Compliance with the legally required minimum efficiency class
IE3 for outputs from 7.5 to 375 kW or, as an alternative, IE2 motor
plus frequency converter
International standard IEC 60034-30, which has been issued in
response to the increasing importance of the subject of energy
efficiency, also concerns explosion-proof motors. LOHER has
developed some series of explosion-proof motors especially for
this purpose in the Ex nA, Ex e and Ex de types of protection in
class "IE2". The rating plate is stamped with efficiency class "IE2"
and the efficiency values. On expiry of the transition phase, details of the voltage ranges are omitted. Only the rated voltage is
specified with the admissible line supply tolerances of ±10 %.
January 1, 2017
Compliance with the legally required minimum efficiency class
IE3 for outputs from 0.75 to 375 kW or, as an alternative, IE2
motor plus frequency converter
Abbreviations
CEMEP: Comité Européen de Constructeurs de Machines
Électriques et d'Électronique de Puissance (European sector
committee of manufacturers of electrical machines)
NEMA: National Electrical Manufacturers Association
IEC: International Electrotechnical Commission
IE: International Efficiency
EuP: Energy using Products
1/6
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
Drive selection and catalog orientation
■ Overview
Steps for drive selection
Step 1
Orientation and general technical information
Technical requirements
for the motor
Rated frequency and rated voltage
50/60 Hz 3 AC
400/500/690 V
Operating mode
Standard duty (continuous duty S1 according to EN 60034-1)
Degree of protection or type of explosion IP..
protection required
Step 2
Rated speed (No. of poles)
n = ….. rpm
Rated output
P = ….. kW
Rated torque
T = P · 9550/n = ……. Nm
Type of construction
IM..
Preselection in accordance with the application
Determination of the installa- Ambient temperature
tion conditions and definition Site altitude
of the application, if necessary
Factors for derating
≤ 40 °C
> 40 °C
≤ 1000 m
> 1000 m
None
Determine the factor for derating (for reduction
factor, see "Information about electric motor
dimensioning")
Cross-reference to other
motors
These can be SIMOTICS motors for special requirements and applications or motors to the NEMA standard
Step 3
Preliminary selection of the motor
Determination of the range of
possible motors
Select the frame size and therefore the possible motors on the basis of the following parameters: cooling method,
degree of protection, rated output, rated speed and rated torque range.
Note: The standard temperature range of the motors is from -20 to +40 °C.
Structure of the selection and ordering tables
Rated torque
at 50 Hz
A
ILR/
Irated
TB/
Trated
Article mIM B3 J
No.
kg
kgm2
Moment of inertia
Rated speed
at 50 Hz
A
TLR/
Trated
Weight for IM B3 type of
construction, approx.
Frame size
%
400 V
50 Hz,
690 V
Locked-rotor torque on
direct switch-on as a
multiple of the rated torque
Locked-rotor current on
direct switch-on as a
multiple of the rated current
Breakdown torque on direct
switch-on as a multiple
of the rated torque
Article number
Rated output
at 60 Hz
%
Irated,
Rated current at 690 V,
50 Hz
Rated output
at 60 Hz
%
Article No.,
add. data
Rated current at 400 V,
50 Hz
Nm
50 Hz,
4/4
Power factor at 50 Hz
4/4 load
rpm
2/4
Efficiency at 50 Hz
2/4 load
FS
3/4
Efficiency at 50 Hz
3/4 load
hp
4/4
Efficiency at 50 Hz
4/4 load
kW
Efficiency Class according
to IEC 60034-30 standard
kW
Rated output
at 50 Hz
Output, frame size,
Operating values at rated output
temperature class
Table header – Meaning
Prated, Prated, Prated, Frame nrated, Trated, IE
ηrated, ηrated, ηrated, cos- Irated,
size
class 50 Hz, 50 Hz, 50 Hz, ϕrated, 50 Hz,
50 Hz
60 Hz
60 Hz
50 Hz
50 Hz
Legend:
Primary key
Standard values for all motors
Specially for versions for converter-fed operation
Note on pole-changing motors:
The operating values are specified here for the rated output for the 2 or 3 different pole numbers.
Step 4
Detailed selection of the motors in the selection and ordering data tables
Determination of the basic
Article No. of the motor
Determine the motor Article No. according to the following parameters: rated output, rated speed, rated torque and
rated current from the "Selection and ordering data" for the motors that have already been identified as possibilities.
Step 5
Selection of the special versions or options
Completing the motor
Article No.
Determine special versions and the associated order codes (e.g. special voltages and types of construction, motor
protection and degrees of protection, windings and insulation, colors and paint finish, mountings and mounting
technology, etc.).
Step 6
Additional information for motor selection
Checking the required
measurements
The dimensions are specified in each catalog section under the paragraph of "Dimensions".
Selection of the frequency
converter, if required
Article No. of the converter as well as its selection, see Catalogs D 11, D 11.1, D 18.1, D 21.3, D 31 and DA 51.2.
Siemens D 83.1 · 2014
1/7
1
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
1
Drive selection and catalog orientation
■ Overview (continued)
Range of motors with explosion protection
Cata- Motor
log
version
section
2
Motor No. of
type poles
FreFrame size – rated output at 50 or 60 Hz
quency 71
80 90 100 112 132 160 180 200 225 250 280 315 355 400 450 500 560 1)
Motors with explosion protection 1PS1, 1PS4, 1PS5, 1MD5
High
Efficiency
IE2
High
Efficiency
High
Efficiency
IE2
1MD5 2-pole
50 Hz
0.75 … 360 kW
4-pole
50 Hz
0.75 … 360 kW
6-pole
50 Hz
0.75 … 360 kW
2-pole
50 Hz
0.37 ... 0.55 kW
460 kW
4-pole
50 Hz
0.25 ... 0.55 kW
460 kW
6-pole
50 Hz
1PS4 2-pole
50 Hz
4-pole
High
Efficiency 2)
355 kW
50 Hz
280 … 355 kW
60 Hz
315/355 kW
50 Hz
225 … 355 kW
2-pole
50 Hz
400 … 1200 kW
60 Hz
400 … 900 kW
50 Hz
400 … 1400 kW
60 Hz
400 … 1000 kW
6-pole
50 Hz
400 … 1120 kW
8-pole
50 Hz
200 … 950 kW
10-pole
50 Hz
160 … 750 kW
12-pole
50 Hz
140 … 600 kW
14-pole
50 Hz
110 … 500 kW
16-pole
50 Hz
1PS5 2-pole
4-pole
6-pole
2-pole
4-pole
6-pole
Polechanging
(50 Hz)
90 … 400 kW
50 Hz
0.75 … 355 kW
60 Hz
0.9 … 355 kW
50 Hz
0.75 … 355 kW
60 Hz
0.9 … 355 kW
50 Hz
60 Hz
High
Efficiency 2)
315 … 355 kW
60 Hz
6-pole
4-pole
High
Efficiency
IE2
0.25 ... 0.55 kW
0.75 … 355 kW, FS90 and above
0.75 … 200 kW; FS90 … 315
50 Hz
0.37 … 0.55 kW
400 … 1200 kW
60 Hz
0.44/0.66 kW
400 … 900 kW
50 Hz
0.25 … 0.55 kW
400 … 1400 kW
60 Hz
0.3 … 0.66 kW
400 … 1000 kW
50 Hz
0.25 … 0.55 kW
400 … 1120 kW
60 Hz
0.3 … 0.66 kW
8-pole
50 Hz
10-pole
50 Hz
160 … 750 kW
12-pole
50 Hz
140 … 600 kW
14-pole
50 Hz
110 … 500 kW
16-pole
50 Hz
4-/2-pole 50 Hz
0.12 … 950 kW
90 … 400 kW
Constant load torque: 0.65/0.85 … 150/200 kW
Square-law load torque for fan drive: 0.22/1.1 … 50/200 kW
8-/4-pole 50 Hz
Constant load torque: 0.5/0.8 … 145/220 kW
Fan output: 0.12/0.7 … 45/180 kW
6-/4-pole 50 Hz
Constant load torque: 0.6/0.9 … 125/180 kW
Square-law load torque for fan drive: 0.4/1.3 … 75/200 kW
8/6-pole
50 Hz
4-pole
50 Hz
0.75 … 30 kW
6-pole
50 Hz
0.6 … 22 kW
Constant load torque: 0.45/0.6 … 115/150 kW
Square-law load torque for fan drive: 0.32/0.75 … 70/150 kW
Brake
motors
with High
Efficiency
IE2
1)
Frame sizes 560 to 630 on request.
1/8
Siemens D 83.1 · 2014
2)
Outside the IE code classification according to IEC 60034-30.
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
Drive selection and catalog orientation
■ Overview (continued)
Range of motors with explosion protection (continued)
Cata- Motor
log
version
section
2
Motor No. of
type poles
FreFrame size – rated output at 50 or 60 Hz
quency 71
80 90 100 112 132 160 180 200 225 250 280 315 355 400 450 500 560 1)
Motors with explosion protection 1PS1, 1PS4, 1PS5, 1MD5 (continued)
High
Efficiency
IE2
1PS1 2-pole
4-pole
6-pole
High
Efficiency 2)
2-pole
4-pole
6-pole
50 Hz
1.5 … 355 kW
60 Hz
1.5 … 315 kW
50 Hz
1.1 … 355 kW
60 Hz
1.3 … 315 kW
50 Hz
0.75 … 355 kW
60 Hz
0.75 … 250 kW
50 Hz
400 … 1200 kW
60 Hz
400 … 900 kW
50 Hz
400 … 1400 kW
60 Hz
400 … 1000 kW
50 Hz
400 … 1120 kW
60 Hz
On request
8-pole
50 Hz
10-pole
50 Hz
180 … 1100 kW
12-pole
50 Hz
160 … 800 kW
14-pole
50 Hz
125 … 710 kW
16-pole
50 Hz
100 … 560 kW
0.37 … 1350 kW
Range of motors without explosion protection
Cata- Motor verlog
sion
section
3
Motor No. of
type poles
FreFrame size – rated output at 50 or 60 Hz
quency 71
80 90 100 112 132 160 180 200 225 250 280 315 355 400 450 500 560
1PS0 motors without explosion protection
High
Efficiency
IE2
1PS0 2-pole
4-pole
6-pole
High
Efficiency 2)
2-pole
4-pole
6-pole
50 Hz
1.5 … 355 kW
60 Hz
1.5 … 315 kW
50 Hz
1.1 … 355 kW
60 Hz
1.3 … 315 kW
50 Hz
0.75 … 355 kW
60 Hz
0.75 … 250 kW
50 Hz
400 … 1200 kW
60 Hz
400 … 900 kW
50 Hz
400 … 1400 kW
60 Hz
400 … 1000 kW
50 Hz
400 … 1250 kW
60 Hz
Polechanging
Brake
motors
with High
Efficiency
IE2
1)
On request
8-pole
50 Hz
10-pole
50 Hz
0.55 … 1100 kW
12-pole
50 Hz
0.37 … 800 kW
14-pole
50 Hz
16-pole
50 Hz
0.37 … 1350 kW
125 … 710 kW
100 … 560 kW
4-/2-pole 50 Hz
0.5/2 … 65/250 kW
8-/4-pole 50 Hz
0.35/1.3 … 60/275 kW
6-/4-pole 50 Hz
0.4/1.3 … 90/250 kW
8-/4-pole 50 Hz
0.32/0.75 … 85/190 kW
8-/6-/4pole
50 Hz
2-pole
50 Hz
4-pole
50 Hz
5.5 … 55 kW
6-pole
50 Hz
3 … 37 kW
Frame sizes 560 to 630 on request.
0.5/0.6/0.8 … 70/90/110 kW
5.5 … 11 kW
2)
Outside the IE code classification according to IEC 60034-30.
Siemens D 83.1 · 2014
1/9
1
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
1
Article number code
■ Overview
The Article No. consists of a combination of digits and letters
and is divided into three hyphenated blocks to provide a better
overview, e.g.:
1PS5070-0BD10-4AA0-Z
A15
The first block (positions 1 to 7) identifies the motor type complete with shaft height and overall length; the second block
(positions 8 to 12) defines the insulation, machine type, stator
frame and voltage/connection/frequency; and in the third block
(positions 13 to 16) the temperature class, number of poles,
bearing type and product version are encoded.
For deviations in the second and third block from the catalog
codes, either -Z or 9 should be used as appropriate.
Ordering data:
• Complete Article No. and order code(s) or plain text
• If a quotation is available, please specify the quotation
number in addition to the Article No.
• When ordering a complete motor as a spare part, please
specify the factors No. for the previously supplied motor as
well as the Article No.
Structure of the Article No.:
Position: 1 2 3 4 5 6 7 - 8 9 10
Motors with explosion protection 1PS1, 1PS4, 1PS5, 1MD5 and motors without explosion protection 1PS0
Positions 1 to 3:
Motor series
Digit, letter, letter, LOHER CHEMSTAR, LOHER VARIO
1 P S
digit
Position 4
Type of protection
Digit
• Without explosion protection
0
• "Non-sparking" Ex nA version
1
• "Explosion-proof enclosure" Ex de IIB/Ex d IIB
4
• "Explosion-proof enclosure" Ex de IIC/Ex d IIC
5
Positions 1 to 3:
Motor series
Digit, letter, letter, SIMOTICS XP
1 M D
digit
Position 4
Type of protection
Digit
"Explosion-proof enclosure" Ex de IIC/Ex d IIC
5
Positions 5 and 6 Frame size (FS)
Digits
07: FS 71; 08: FS 80; 09: FS 90; 10: FS 100; 11: FS 112; 13: FS 132;
0 7
...
20: FS 200; 22: FS 225; 25: FS 250; 28: FS 280; 16: FS 160; 18: FS 180;
31: FS 315; 35: FS 355; 40: FS 400; 45: FS 450; 56: FS 560
5 6
Position 7
Output identifier (encoded)
0
…
Digit
Length + output levels
9
Position 8
Insulation
Digit
0: Low-voltage, mains-fed operation; 1: Low-voltage, converter-fed operation, standard insulation; 0
...
2: Low-voltage, converter-fed operation, special insulation;
3: Low-voltage, mains-fed operation, pre-formed coil;
4
4: Low-voltage, converter-fed operation, pre-formed coil
Position 9
Type of machine
Letter
B: Induction motor, squirrel-cage rotor, enclosed machine;
B
...
F: Asynchronous generator, squirrel-cage rotor, enclosed machine;
N: Induction motor, pole-changing, fan design; R: Induction motor with built-on brake
R
Position 10
Housing and cooling
D
…
Letter
D: Cast-iron, TEFC (self-ventilated); F: Cast-iron, TEFV (forced-air cooled)
F: Steel, TEFC (self-ventilated); J: Steel, TEFV (forced-air cooled)
J
Position 11
Voltage, circuit and frequency
Digit
0: 690 VΔ, 50 Hz; 1: 230/400 VΔ/Y, 50 Hz; 3: 500 VY; 50 Hz; 4: 400 VΔ, 50 Hz; 5: 500 VΔ, 50 Hz;
6: 400/690 VΔ/Y, 50 Hz; 8: 690 VY, 50 Hz; 9: Other voltages
Position 12
Type of construction
Digit
0: IM B3; 1: IM B5; 2: IM B34; 3: IM B14; 4: IM V1 with protective cover;
6: IM B35; 8: IM V1 without protective cover (without explosion protection); 9: Other types of construction
Position 13
Temperature class
Digit
0: Without temperature class; 3: Temperature class T3;
4: Temperature class T4
Position 14
No. of poles
Letter
A: 2-pole; B: 4-pole; C: 6-pole; D: 8-pole; E: 10-pole; F: 12-pole; G: 14-pole; H: 16-pole;
N: 4-/2-pole; P: 6-/4-pole; Q: 8-/4-pole; R: 8-/6-pole; S: 8-/6-/4-pole
Position 15
Bearing type/rotor type
Letter
A: Roller bearing/standard rotor;
B: Roller bearing/special rotor
Position 16
Product version
Digit
0: Finned housing; 1: Cast-ingot housing (1MD5...1); 2: Finned housing IE2 design
3: Cast-ingot housing (1PS5…3)
11 12 - 13 14 15 16
0
…
9
0
…
9
0
…
4
Ordering example
Selection criteria
Motor type 1PS
Frame size
Output identifier
Mains-fed operation, induction motor with
squirrel-cage rotor, cast-iron (self-ventilated)
Voltage/delta connection/frequency
Type of construction
Temperature class
No. of poles
Bearing type/rotor
Product version
1/10
Siemens D 83.1 · 2014
Requirement
Industry motor LOHER CHEMSTAR with type of
protection "Explosion-proof enclosure"
071
S
690 VΔ, 50 Hz
IM B3
T4
2-pole
Roller bearing/standard rotor
Cast-ingot housing
Structure of the Article No.
1 P S 5 ■■■ - ■■■■■ - ■■■■
1 P S 5 0 7 ■ - ■■■■■ - ■■■■
1 P S 5 0 7 0 - ■■■■■ - ■■■■
1 P S 5 0 7 0 - 0 BD■■ - ■■■■
1 PS 5 0 7 0
1 PS 5 0 7 0
1 PS 5 0 7 0
1 PS 5 0 7 0
1 PS 5 0 7 0
1 PS 5 0 7 0
-
0 BD 1 ■ - ■■■■
0 BD 1 0 - ■■■■
0 BD 1 0 - 4 ■■■
0 BD 1 0 - 4 A■■
0 BD 1 0 - 4 AA■
0 BD 1 0 - 4 AA 3
A
…
S
A
B
0
…
3
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
Special tests in the test bay
■ Overview
Noise measurements are performed on request in a soundproof
room. Under normal circumstances, noise measurements are
performed under no-load conditions. On request, the measurements can also be taken under load conditions. So-called "hold
points" can be agreed in addition to the possibilities offered by
the test environments. These "hold points" are time points in
which semi-finished/finished motor parts are tested in accordance with requirements. These tests are performed at the installed test sections of the production facility or, if necessary, in
the test bays.
G_D083_EN_00001
400
350
300
250
200
150
100
50
0
350 350 350 350
220
160
60
100
80 90
65 70
180
120
110 110 110
250 300 375 500 750 1500 3000 5000 7500
272 333 428 600 1000 1800 3600 6000
Speed rpm
Overview of the range of tests available in the test bay for industrial motors
6000
5000
4800 4800 4800
4000
3600
3800 3800
G_D083_EN_00002
Tests are organized on the site ranging from acceptance tests in
the presence of the customer through to system acceptance
tests with supply equipment such as transformers and converters. Special tests are possible on request in accordance with
customer specifications or standard tests such as API compliance. In our submersion tanks, motors to IP68 can be submerged in water and tested under load conditions.
Test output kW
The Siemens Ruhstorf site is equipped with an ultra-modern test
bay to enable it to fulfill the stringent requirements of the chemical industry and the oil and gas sector. The quality and reliability
of the tests is also confirmed, for example, by the certification
authorities for Ex motors. The in-house motor test bays are
equipped for testing the complete range of options of the 1PS
and 1MD5 motor series in accordance with the latest standards
and regulations. Each motor is subjected to a short routine test
prior to delivery. Type testing, warm-up runs and special tests
are possible. The testing capacities are subdivided into two test
units according to motor output. The output classification is
shown in the following diagrams.
Test output kW
Tests, test bay
3000
2850
2400
2000
1000
0
1200 1300
1400
250
300
272
1600
1800
2000
375
333
500
428
600
750
1500 3000 5000
1000 1800 3600
Speed rpm
Overview of the range of tests available in the test bay for non-standard
motors
Siemens D 83.1 · 2014
1/11
1
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
1
Special tests in the test bay
■ Overview (continued)
Tests and acceptance tests for 1PS0, 1PS1, 1PS4 and 1PS5 motors
Additional identification code -Z
with order code
Documen- Test description
tation
Available for
For internal
tests
For acceptance
test with
customer or
inspector
Frame size
Standard
F01
U51
Routine test to IEC (sine-wave voltage)
71 ... 500
CHEMSTAR, VARIO
–
F03
1)
Visual inspection with test report review
71 ... 500
CHEMSTAR, VARIO
F14
F15
2)
Recording of no-load characteristic
71 ... 500
CHEMSTAR, VARIO
F16
F17
2)
Recording of short-circuit characteristic
71 ... 500
CHEMSTAR, VARIO
F28
F29
U55
No load noise measurement, without noise analysis
71 ... 500
CHEMSTAR, VARIO
F46
F47
U73
Partial discharge measurement on completed stator winding
F52
F53
1) 2)
Locked-rotor torque and current measurement
F54
F55
1) 2)
Polarization index measurement
Pre-formed
coil
VARIO
F56
F57
1) 2)
Measurement of shaft vibration (for sleeve bearings only)
355 ... 500
VARIO
F58
F59
U56 1) 2)
Vibration modal analysis (2-pole and V1 fixed mounted)
71 ... 500
CHEMSTAR, VARIO
F62
F63
U55
Noise level analysis – octave-band analysis in combination
with F28/29 or F74/75
71 ... 500
CHEMSTAR, VARIO
F70
–
U79
Ultrasonic test on motor shaft with certificate
71 ... 500
CHEMSTAR, VARIO
Standard
F71
U50
Rotor balancing
F74
F75
U55
Noise test under load, without noise analysis, in combination
with type test F82/83 or F92/93
F76
–
U76
Magnetic particle test on motor shaft
–
F77
U81
Painting inspection (order sample paint sheets separately
with V90)
F78
–
U77
Magnetic particle test on motor lifting lugs
–
F79
–
Packaging inspections
71 ... 500
CHEMSTAR, VARIO
F82
F83
U53
Type test with heat run for horizontal motors according to IEC
(sine wave voltage)
71 ... 500
CHEMSTAR, VARIO
F92
F93
U53
Type test with heat run for vertical motors according to IEC
(sine wave voltage)
71 ... 500
CHEMSTAR, VARIO
–
F95
U53
Type test, motor together with SINAMICS G180 converter
71 ... 500
CHEMSTAR, VARIO
–
F97
U53
Type test, motor together with SINAMICS G/S or PERFECT
HARMONY (max. 3 days service technician for converter
adjustment not included)
71 ... 500
CHEMSTAR, VARIO
–
F99
U53
Type test, motor together with non-Siemens converter
(max. 3 days service technician for converter adjustment
not included)
71 ... 500
CHEMSTAR, VARIO
–
–
Special test on request
71 ... 500
CHEMSTAR, VARIO
–
–
Special tests in combination with manufacturing of test equipment; special shafts and special mouning types on request
71 ... 500
CHEMSTAR, VARIO
1)
Only in combination with a type test F82/F83 or F92/F93:
document U53.
2)
Only in combination with a routine test, at acceptance F01:
document U51.
1/12
Siemens D 83.1 · 2014
Pre-formed
coil
71 ... 500
355 ... 500
3)
71 ... 500
LOHER type series
VARIO
CHEMSTAR, VARIO
VARIO
CHEMSTAR, VARIO
315 ... 500
CHEMSTAR, VARIO
71 ... 500
CHEMSTAR, VARIO
355 ... 500
Protocols according to separate order.
VARIO
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
Special tests in the test bay
■ Overview (continued)
Documentation for 1PS0, 1PS1, 1PS4 and 1PS5 motors
Additional
identification
code -Z
with order code
Documentation
Available for
U90
Document package NM1 (=U06+U15+U18+U58)
consisting of installation and operating instructions,
EC type-examination certificate, dimensional drawing, wiring
diagram(s)
De, En
71 ... 355
CHEMSTAR
U91
Document package NM2 (=U01+U04+U06+U15+U18+U40+U58)
consisting of installation and operating instructions, wiring
diagram(s), EC type-examination certificate, LOHER data sheet,
manufacturer's declaration, dimensional drawing, current-torque
characteristic
De, En
71 ... 355
CHEMSTAR
U92
Document package TM1 (=U01+U04+U06+U08+U15+U17+
De, En
U24+U25+U36+U43+U51+U56+U57+U58) consisting of data
sheet, current-torque characteristic, detail dimensional drawing,
terminal box drawing, wiring diagrams, installation and operating
instructions, set values
355 ... 500
U01
Standard data sheet
U02
Customer data sheet
U03
Current-starting time characteristic
U04
U05
Languages
De, En, Fr, It, Es, Ru
Frame size
LOHER type series
VARIO
71 ... 500
CHEMSTAR, VARIO
71 ... 500
CHEMSTAR, VARIO
De, En
71 ... 500
CHEMSTAR, VARIO
Current-torque characteristic (with load torque characteristic)
De, En, Fr, It, Es, Ru
71 ... 500
CHEMSTAR, VARIO
Transient air-gap torques
De, En
71 ... 500
CHEMSTAR, VARIO
U06
Circuit diagram
De, En, Fr
71 ... 500
CHEMSTAR, VARIO
U07
Equivalent circuit diagram
De, En, Fr, It, Es
71 ... 500
CHEMSTAR, VARIO
U08
Terminal box drawing
De, En
71 ... 500
U09
Wöhler curve
De, En
355 ... 500
U10
Indication of shock resistance
De, En
71 ... 500
U11
Shock resistance calculation
De, En
71 ... 500
CHEMSTAR, VARIO
U12
Foundation load
De, En, Fr, It, Es
280 ... 500
CHEMSTAR, VARIO
U13
Calculation of axial magnetic pull
De, En
355 ... 500
VARIO
U14
Lateral critical speed analysis
De, En
200 ... 500
CHEMSTAR, VARIO
U15
Dimensional drawing
De, En
71 ... 500
CHEMSTAR, VARIO
U16
Speed-starting time characteristic
De, En
71 ... 500
CHEMSTAR, VARIO
U17
Bearing and lubrication data sheet
De, En, Fr, It, Es, Ru
71 ... 500
CHEMSTAR, VARIO
U18
Operating instructions
De, En, Fr, It, Es, Ru
71 ... 500
CHEMSTAR, VARIO
U19
Shaft dimensional drawing with torsional stiffness values
De, En
200 ... 500
CHEMSTAR, VARIO
U20
Shaft dimensional drawing (without torsional stiffness values)
De, En
71 ... 500
CHEMSTAR, VARIO
U21
Instrument data sheet (all instruments combined)
De, En
71 ... 500
CHEMSTAR, VARIO
U22
Rating plate drawing
De, En
71 ... 500
CHEMSTAR, VARIO
U23
Noise characteristics report (standard)
De, En
71 ... 500
CHEMSTAR, VARIO
U24
Setpoint values (e.g. Pt100)
De, En
200 ... 500
CHEMSTAR, VARIO
U26
Spare parts list, order-specific (without prices)
De, En
71 ... 500
CHEMSTAR, VARIO
U28
Drawing of motor thermal growth
De, En
200 ... 500
CHEMSTAR, VARIO
U29
Winding data
De, En
71 ... 500
CHEMSTAR, VARIO
U30
Winding diagram
De, En
71 ... 500
CHEMSTAR, VARIO
U31
Shell record card
En
71 ... 500
CHEMSTAR, VARIO
U32
Test certificate 2.2 (EN 10204)
De, En, Fr, It, Es, Ru
71 ... 500
CHEMSTAR, VARIO
U33
SASO certificate
En
71 ... 500
CHEMSTAR, VARIO
U34
Calculation of the REED frequency
De, En
71 ... 500
CHEMSTAR, VARIO
U35
Lifting transport recommendation
De, En
71 ... 500
CHEMSTAR, VARIO
U36
Coating description
De, En
71 ... 500
CHEMSTAR, VARIO
U37
P & ID diagram
De, En
71 ... 500
CHEMSTAR, VARIO
U38
Power factor-efficiency characteristic
De, En
71 ... 500
CHEMSTAR, VARIO
CHEMSTAR, VARIO
VARIO
CHEMSTAR, VARIO
Siemens D 83.1 · 2014
1/13
1
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
1
Special tests in the test bay
■ Overview (continued)
Documentation for 1PS0, 1PS1, 1PS4 and 1PS5 motors (continued)
Additional
identification
code –Z
with order code
Documentation
U39
Power factor-speed characteristic
De, En
71 ... 500
CHEMSTAR, VARIO
U40
EC Declaration of Conformity
De, En
71 ... 500
CHEMSTAR, VARIO
U41
Certificate of conformity for mounting parts
De, En
71 ... 500
CHEMSTAR, VARIO
U42
Certificate of conformity for terminal box
De, En
71 ... 500
CHEMSTAR, VARIO
U43
Declaration of Incorporation
De, En
71 ... 500
CHEMSTAR, VARIO
U44
Certificate of conformity for IP degree of protection
De, En
71 ... 500
CHEMSTAR, VARIO
U45
Lifting lug calculation
De, En
71 ... 500
CHEMSTAR, VARIO
U46
Bearing life time calculation
De, En
71 ... 500
CHEMSTAR, VARIO
U50
Balance certificate (multi)
De, En
71 ... 500
CHEMSTAR, VARIO
U51
Inspection certificate 3.1 EN 10204 (multi)
De, En, Fr, Ru
71 ... 500
CHEMSTAR, VARIO
U52
Type test report (original motor)
De, En
71 ... 500
CHEMSTAR, VARIO
U53
Type test report (order-specific) –
only in combination with F82/F83 or F92/93
De, En
71 ... 500
CHEMSTAR, VARIO
U54
Load characteristics
De, En
71 ... 500
CHEMSTAR, VARIO
U55
Order-specific noise measurement report according to F
option selected
De, En
71 ... 500
CHEMSTAR, VARIO
U56
Vibration test report 3.1 (EN 10204) – at no load
De, En
71 ... 500
CHEMSTAR, VARIO
U57
Data information – for converter-fed operation
De, En
71 ... 500
CHEMSTAR, VARIO
U58
EC type-examination certificate
De, En
71 ... 500
CHEMSTAR, VARIO
U59
Acceptance test certificate
De, En
71 ... 500
CHEMSTAR, VARIO
U60
Shaft material certificate 3.1
De, En
71 ... 500
CHEMSTAR, VARIO
U62
Calibration certificates
De, En
71 ... 500
CHEMSTAR, VARIO
U63
Quality plan
De, En
71 ... 500
CHEMSTAR, VARIO
U64
Thermal limit curve
De, En
71 ... 500
CHEMSTAR, VARIO
U65
Temperature-rise curve
De, En
71 ... 500
CHEMSTAR, VARIO
U66
External certificate according to design option
De, En
71 ... 500
CHEMSTAR, VARIO
U67
Certificate flame path 3.1
De, En
71 ... 500
CHEMSTAR, VARIO
U68
Certificate of Compliance
De, En
71 ... 500
CHEMSTAR, VARIO
U69
Manufacturing Record Book
De, En
71 ... 500
CHEMSTAR, VARIO
U70
Tangent-delta measuring protocol (complete winding) 3.1
De, En
U71
Tangent-delta measuring protocol (10 % of the coils) 3.1
De, En
Pre-formed coil VARIO
U72
Sample coil test protocol 3.1
De, En
Pre-formed coil VARIO
U73
Partial discharge measurement report 3.1
De, En
Pre-formed coil VARIO
U74
Material certificate for lamination 2.2
De, En
71 ... 500
U75
Material certificate for copper 2.2
De, En
71 ... 500
CHEMSTAR, VARIO
U76
Magnetic particle test report for motor shaft
(frame size 315 and above)
De, En
315 ... 500
CHEMSTAR, VARIO
U77
Magnetic particle test report for lifting lugs 3.1
De, En
355 ... 500
VARIO
U78
Liquid-penetrant test report for motor shaft 3.1
(frame size 315 and above)
De, En
315 ... 500
CHEMSTAR, VARIO
U79
Ultrasonic test report for motor shaft 3.1
(only in combination with F70)
De, En
71 ... 500
CHEMSTAR, VARIO
U80
Air gap measurement report 3.1 (frame size 315 and above)
De, En
315 ... 500
CHEMSTAR, VARIO
U81
Layer thickness protocol 3.1 (total layer thickness only)
De, En
71 ... 500
CHEMSTAR, VARIO
U82
Protection level certificate
De, En
71 ... 500
CHEMSTAR, VARIO
U83
Shaft vibration and run out protocol
De, En
U84
Customer-specific dimension protocol
De, En
71 ... 500
CHEMSTAR, VARIO
U86
Standard test procedure
De, En
71 ... 500
CHEMSTAR, VARIO
Languages
Note: The delivery time for the factory test certificates may differ
from the delivery time for the motors.
1/14
Available for
Siemens D 83.1 · 2014
Frame size
LOHER type series
Pre-formed coil VARIO
CHEMSTAR, VARIO
© Siemens AG 2014
Introduction
Guide to selecting and ordering the motors
Special tests in the test bay
■ Overview (continued)
Documentation for 1PS0, 1PS1, 1PS4 and 1PS5 motors (continued)
Additional
identification
code –Z
with order code
Documentation
D00
Available for
Languages
Frame size
LOHER type series
Documentation in German 1)
71 ... 500
CHEMSTAR, VARIO
D54
Documentation in Czech (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D55
Documentation in Polish (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D56
Documentation in Russian (operating instructions, data sheet,
dimension sheet)
71 ... 500
CHEMSTAR, VARIO
D57
Documentation in Japanese (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D62
Documentation in Danish (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D71
Documentation in Rumanian (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D72
Documentation in Italian (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D73
Documentation in Finnish (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D74
Documentation in Dutch (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D75
Documentation in Turkish (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D76
Documentation in English 1)
71 ... 500
CHEMSTAR, VARIO
D77
Documentation in French (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D78
Documentation in Spanish (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D79
Documentation in Portuguese (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D80
Documentation in Bulgarian (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D81
Documentation in Norwegian (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D82
Documentation in Hungarian (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D83
Documentation in Swedish (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D84
Documentation in Chinese, simplified (operating instructions)
71 ... 500
CHEMSTAR, VARIO
D91
Documentation in Serbian (operating instructions)
71 ... 500
CHEMSTAR, VARIO
B00
No documentation
71 ... 500
CHEMSTAR, VARIO
B16
Photos for approval before shipment (rating plates + 2 views of
motor, delivery after approval by customer)
71 ... 500
CHEMSTAR, VARIO
B17
Expediting during production (per order position)
71 ... 500
CHEMSTAR, VARIO
B21
Documentation on CD
71 ... 500
CHEMSTAR, VARIO
B22
Documentation as Email (standard)
71 ... 500
CHEMSTAR, VARIO
B23
Documentation on paper, 1 set
71 ... 500
CHEMSTAR, VARIO
B24
Preliminary documentation only
71 ... 500
CHEMSTAR, VARIO
B29
Final documentation only
71 ... 500
CHEMSTAR, VARIO
On request
Customer entry in drawing:
• Adding of additional title blocks in all drawings (title block has to
made available by the customer in the form of a DXF file)
• Approval documentation
• Motor sectional drawing
• Special documentation
• Plant-specific or order-specific creation of operating instructions
• Compilation of final documentation in a folder
Languages for the main components (e.g. operating and
maintenance instructions):
Official EU languages (English/Spanish/French/Italian and
German) available to download!
Please consult the factory about availability/delivery time/
feasibility.
1)
All documents available.
Siemens D 83.1 · 2014
1/15
1
© Siemens AG 2014
Introduction
General technical specifications
Cut-away diagram of a LOHER CHEMSTAR low-voltage motor
■ Overview
LOHER CHEMSTAR motors,
standard version
LOHER CHEMSTAR motors
with option W09
Additional options
Enlarged connection system
Metric entry thread
acc. to DIN 42925
Terminal box, top, rotatable 4 × 90°
Auxiliary terminal box
RAL color variants
Stamped and certified
for converter-fed operation
Ex n, Ex e,
Ex de
SPM nipple in FS 132 and above
Stainless steel screws
IP55
Reinforced bearings
Item No.
Anti-condensation heater
Vibration severity level A
PTC thermistor
Shaft seal up to IP66
Permanent lubrication up to and incl. frame
size 280
Regreasing device in frame size 160 and
above
Paint finish N14A
highly resistant to chemicals
Ambient temperature from -55 to +70 °C
VIK design
LOHER CHEMSTAR motors, standard version
Vibration severity level A
Permanent lubrication up to and incl. frame size 280
Terminal box, top, rotatable 4 × 90°
Metric entry thread according to DIN 42925
Thermal utilization 155/130 (F/B)
Motor housing entirely of cast-iron
RAL color variants
Rating plate
Various fan materials
Zinc-galvanized fan cover
Thermal utilization 150/130 (F/B)
Motor housing entirely of cast-iron
Rating plate
LOHER CHEMSTAR motors with W09 option package
for applications in the chemical and petrochemical industry
VIK design
Vibration severity values such as level B
IP56 degree of protection for motor
IP66 for shaft seal
Zinc-galvanized fan cover
Paint finish N14A highly resistant to chemicals
Other options (with and without W09)
Stamped and certified for converter-fed operation with
standard and special insulation
SPM measuring nipple
Reinforced bearings
Regreasing device for frame size 160 and above
Stainless steel screws
Anti-condensation heater
Various fan materials
1/16
Siemens D 83.1 · 2014
Ambient temperatures from -55 to +70 °C
PTC thermistor as additional protection or sole protection
Auxiliary terminal box
Special paint finishes
Special paint colors
Cable glands also for shielded
or armored cables
Enlarged connection system
And much more
G_D083_EN_00081
1
© Siemens AG 2014
Introduction
General technical specifications
Paint finishes
■ Overview
Additional identification code –Z with order code
Standard
V09
V10 (W14)
V11
W15
–
K24
LOHER paint finish
Use
Use:
System N04
System N08
System N14/J08
(paint finish
System N14A)
System Z21/J08
Special prime
coat system Z05
with internal
corrosion protection system J08
System S10 –
ETO option
(Engineer To
Order) without
order code
System G04
Standard
paint finish,
indoor
installation,
standard for
1PS0, 1PS1
Outdoor
climate,
tropical
climate,
humid indoor
climate,
standard for
1PS4, 1PS5
Tropical climate,
humid indoor climate, VIK standard
paint finish, incl. J08
(N14A without J08)
highly aggressive
chemicals, decontamination capability, ships, onshore
Offshore, drilling
platforms, customer request,
incl. J08/optional
(V19) with layer
thickness 275 µm
complies with
C5-Mhigh
Customer
request
(top coat from
customer),
incl. J08
Underwater
paint (submersible
pumps),
incl. J08
Customer
request
(top coat from
customer)
Max. corrosiveness category
Internal
–
C3high
C5-Mlow
C5-Mmid
–
–
External
C3mid
C5-Imid
C5-Mlow
–
–
Layer thickness
µm
> 40
> 80
> 140
> 210
> 50
> 210
Resistance
Climate groups acc. to
Moderate
Worldwide
EN 60721-3
Condensation climate
+
+
++
++
+
acc. to KFW DIN 50017
Sulfur dioxide acc. to
0
+
+/++
++
+
DIN EN ISO 6988
Saltwater according to
0
+
+/++
++
+
+/++
DIN 53167
Resistance according to DIN EN ISO 2812-1
Ammonia ~10 %
+
++
++
++
+
++
Mineral oil, grease,
+
++
++
++
++
++
solvent, benzene/
benzol, alcohol
Sulfuric acid 10 %
0
+
++
++
+
Sulfuric acid 50 %
–
0
+
+
0
Bicarbonate of soda 10 % 0
+
++
++
+
Bicarbonate of soda 40 % –
0
++
++
+
Hydrochloric acid 37 %
0
0
+
+
–
Temperature range
-40 … +130 °C (temporarily -60 … +150 °C, at +180 °C possible slight discoloration)
Humidity
90 %
100 %
90 %
100 %
Ability to be painted
Good within 1 week, afterwards sanding down is necessary
Very good
Adhesion acc. to DIN EN ISO 2409
Characteristic value Gt 1
Pre-treatment of parts
All parts cleaned and degreased, steel and cast-iron parts sandblasted.
Drying
All layers oven dried.
Colors
Standard
Standard RAL 7030 (stone gray)
Gray 1)
Gray 1)
Available colors 2)
RAL 1004, 1018, 2004, 5009, 5010, 5012, 5015, 5018, 6002, 6003,
–
–
6011, 7000, 7011, 7031, 7032, 7036, 7038, 9010, other colors are
available on request
Surface treatment of unpainted parts, shaft extension and flange
Coated with special rust-protection oil that repells water and palm sweat
Miscellaneous
Abrasion-resistant, elastic, scratch-resistant, shock-proof, totally light resistant, physiologically harmless
++
+
0
–
––
1)
Long-term resistance
Good resistance
Limited resistance
Temporary resistance
No resistance
Color non-compliant with RAL.
Im 1h
Im 1h
> 40
+
0
0
+
+
0
–
–
––
–
90 %
Very good
RAL 7032
(pebble gray)
Order code W10 can be used to order an internal coating in the
color RAL 7032 (pebble gray). This internal coating is included
in the case of paint systems N14 (not N14A), Z21, Z05 and S10.
The maximum corrosiveness category of this paint finish is
C3mid.
2)
Colors with poor coverage, e.g. white or yellow, are not implemented in
N04, but instead with a greater layer thickness (e.g. N08).
Siemens D 83.1 · 2014
1/17
1
© Siemens AG 2014
Introduction
General technical specifications
Paint finishes
■ Overview (continued)
Paint system
Paint finish according to order code
250
N04
N08
N14
Z21
Z05
S10
G04
200
150
100
G_D083_EN_00056
Final coat in μm
1
50
0
30
Primer is omitted on aluminum and zinc-galvanized fan covers
1/18
Epoxy resin primer or intermediate coat
Synthetic resin primer (in some cases epoxy resin primer)
Epoxy resin iron mica intermediate coat
Polyurethane top coat (PUR)
Epoxy resin zinc dust primer
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Packaging, safety notes, documentation and test certificates
■ Overview
Packing weights
For 1PS0, 1PS1, 1PS4, 1PS5, 1MD5 motors
Frame For land transport
size
Packaging
Footmounted
type
Tare
kg
Flangemounted
type
Tare
kg
Air freight
Packaging
Footmounted
type
Tare
kg
Flangemounted
type
Tare
kg
Sea freight
Packaging
Footmounted
type
Tare
kg
Flangemounted
type
Tare
kg
5 1)
5 1)
5 1)
5 1)
5 1)
5 1)
80
5 1)
5 1)
5 1)
5 1)
5 1)
5 1)
90
5
1)
5
1)
5
1)
5
1)
5
1)
5 1)
5
1)
5
1)
5
1)
5
1)
5
1)
5 1)
5
1)
5
1)
5
1)
5
1)
5
1)
5 1)
8
2)
8
2)
9
2)
9
2)
160
8
2)
8
2)
9
2)
9
2)
180
10 2)
10 2)
11 2)
11 2)
200
5
2)
8
2)
5
2)
8
2)
6
2)
9
2)
6
2)
9
2)
7
2)
7
2)
8
2)
8
2)
71
Box
100
112
132
225
250
280
Crate
Planks
2)
10
2)
11
2)
30
3)
Box
Crate
Planks
11
2)
30
3)
315
15
355
35 3)
40 3)
35 3)
40 3)
400
50
3)
60
3)
50
3)
60
3)
70
3)
80
3)
70
3)
80
3)
80
3)
90
3)
80
3)
90
3)
450
500
15
2)
10
2)
Box
Plywood
crate
Wooden
crate
35
3)
45 3)
40
3)
50 3)
45 3)
60 3)
60
3)
60 3)
65
3)
65 3)
70
3)
80 3)
80
3)
95 3)
3)
O.R. 3)
O.R. 3)
O.R. 3)
O.R.
3)
O.R. 3)
O.R.
3)
O.R. 3)
O.R.
3)
O.R. 3)
O.R.
The packing weights for standard motors are not binding.
Weights may vary for special versions and components
specially built onto the motor.
Special packaging is possible, e.g. wooden crate for outdoor
storage or long-term storage.
Special packaging materials are possible on request, e.g. IPPC
heat-treated wood with certificate for China, or with Sirex
certificate.
Pallets for Germany are EURO pallets.
Pallets for export are non-returnable pallets.
1)
On pallet (more than one motor is possible on one pallet).
2)
Attached to pallet (more than one motor is possible on one pallet).
3)
Packaging can be transported with forklift trucks, in plywood crate for sea
freight several motors may be possible per packing unit.
Siemens D 83.1 · 2014
1/19
1
© Siemens AG 2014
Introduction
General technical specifications
1
Designs in accordance with standards and specifications
■ Overview
Quality assurance
Orders for electrical machines are processed throughout, from
the quotation through to delivery, on the basis of a recognized
quality assurance system that fulfills the requirements of the
following quality standards:
• DIN EN ISO 9001
• EN 29001
LOHER is certified in accordance with Directive 94/9/EC:
PTB 99 ATEX Q 003
For this certificate, an application for an extension of 3 years is
submitted before the validity of the current certificate expires.
CE marking
The motors bear the CE mark in accordance with the following
guidelines:
• Guideline 2006/95/EC (Low-Voltage Directive) supersedes
93/68/EEC and 73/23/EEC
• Directive 94/9/EC
Applicable standards and specifications
The motors comply with the appropriate standards and regulations, especially those listed in the table below.
Title
EN
IEC
Rotating electrical machines – Rating and performance
EN 60034-1
IEC 60034-1
IEC 60085
Rotating electrical machines – Standard methods for determining losses and efficiency from tests
EN 60034-2-1
IEC 60034-2-1
Rotating electrical machines – Degrees of protection provided by integral design of rotating
electrical machines (IP code)
EN 60034-5
IEC 60034-5
Rotating electrical machines – Methods of cooling (IC code)
EN 60034-6
IEC 60034-6
Rotating electrical machines – Classification of types of construction, mounting arrangements
and terminal box position (IM code)
EN 60034-7
IEC 60034-7
Rotating electrical machines – Terminal markings and direction of rotation
EN 60034-8
IEC 60034-8
Rotating electrical machines – Noise limits
EN 60034-9
IEC 60034-9
Acoustics: Test code for the measurement of airborne noise emitted by rotating electrical machines EN ISO 1680
–
Thermal protection
–
IEC 60034-11
Starting performance of single-speed three-phase cage induction motors
EN 60034-12
IEC 60034-12
Mechanical vibration of certain machines with shaft heights 56 mm and higher – Measurement,
evaluation and limits of vibrations severity
EN 60034-14
IEC 60034-14
CENELEC standard voltages
–
IEC 60038
General purpose three-phase induction motors having standard dimensions and outputs –
Frame numbers 56 to 315 and flange numbers 65 to 740
EN 50347
IEC 60072-1 1)
Center holes with thread
EN 332
–
Drive type fastenings without taper action; parallel keys, keyways, deep pattern
EN 6885-1
–
In addition, the following applies to Ex motors:
Explosive atmospheres – Electrical installations design, selection and erection
EN 60079-14
IEC 60079-14
Explosive atmospheres – Equipment protection by type of protection "n"
EN 60079-15
IEC 60079-15
Explosive atmospheres – Equipment protection by explosion-proof enclosures "d"
EN 60079-1
IEC 60079-1
Explosive atmospheres – Equipment dust ignition protection by enclosure "t"
EN 60079-31
IEC 60079-31
Explosive atmospheres – Equipment – General requirements
EN 60079-0
IEC 60079-0
Explosive atmospheres – Equipment protection by increased safety "e"
EN 60079-7
IEC 60079-7
Explosive atmospheres – Equipment protection by intrinsic safety "i"
EN 60079-11
IEC 60079-11
1)
IEC 60072-1 specifies dimensions only, there is no assignment of outputs.
More than one motor is possible per packing unit.
1/20
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Designs in accordance with standards and specifications
■ Overview (continued)
The following applies to explosion-proof motors:
Since the requirements of explosion-proof motors comply with
the European standards EN 60079-0, EN 60079-15,
EN 60079-31 and Directive 94/9/EC (ATEX 95), the certificates
issued by authorized testing agencies (PTB, DEKRA EXAM, etc.)
are accepted by all member states of the EU. The remaining
members of CENELEC, Switzerland in particular, also accept the
certificates.
Certifications
Product certifications are to be differentiated in terms of safetyrelated certificates and efficiency certificates. Since 2011, it has
been obligatory for low-voltage motors with outputs in the range
of 0.75 to 375 kW (2, 4 and 6-pole) to be classified in accordance with the IEC 60034-30 efficiency standard and to be
marked with the corresponding IE code (International Efficiency
IE1, IE2 or IE3). The efficiency is determined using the summed
losses method in accordance with IEC 60034-2-1.
Energy-saving motors for the European Economic Area in
accordance with EU Directive 640/2009
Since June 2011, all low-voltage motors that fall within the scope
of the EU directive must fulfill the specifications of international
efficiency class IE2.
• Line voltage ≤ 1000 V
• Line frequency 50 or 50/60 Hz
• Output range 0.75 to 375 kW
• Pole number 2, 4 and 6-pole
• Continuous duty S1
In January 2015, the efficiency requirements for motors within
the 7.5 to 375 kW range increased to IE3, otherwise IE2 motors
must be converter-fed.
This will also apply from January 2017 for 0.75 to < 7.5 kW
motors.
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
Motor protection
■ Overview
In the standard version, the motor is designed without motor
protection. The order variants for motor protection are coded by
means of the selected options.
A distinction is made between current dependent and motor
temperature dependent protection devices.
Current dependent protection devices
Fuses are only used to protect mains cables in the event of a
short-circuit. They are not suitable for overload protection of the
motor.
The motors are usually protected by thermally delayed overload
protection devices (circuit breakers for motor protection or overload relays). This protection is current dependent and is
particularly effective in the case of a locked rotor.
Option A12
Motor protection through PTC thermistor with 6 embedded
temperature sensors for warning and tripping In the terminal
box, 4 auxiliary terminals are required.
In order to achieve full thermal protection it is necessary to
combine a thermally delayed overcurrent release and a PTC
thermistor. For full motor protection implemented only with PTC
thermistors, please inquire.
Motor temperature detection with converter operation
PTC sensor
The PTC thermistor is a temperature dependent component.
In the region of the rated response temperature, the resistance
of the PTC increases very steeply.
For standard duty with short start-up times and starting currents
not too excessive and for low numbers of switching operations,
motor protection switches provide adequate protection.
Motor protection switches are not suitable for heavy starting duty
or large numbers of switching operations. Differences in the
thermal time constants for the protection equipment and the
motor result in unnecessary early tripping when the protection
switch is set to rated current.
Motor temperature dependent protection devices
104
lg RKL Ω
103
Temperature detectors installed in the motor winding are
suitable protection devices in the case of slowly rising motor
temperature.
Option A11
Motor protection with PTC thermistors with 3 embedded temperature sensors for tripping. In the terminal box, 2 auxiliary
terminals are required.
Two sets of three temperature sensors are used if a warning is
required before the motor is shut down (tripped). The warning is
normally set to 10 K below the tripping temperature.
1/22
Siemens D 83.1 · 2014
G_D081_XX_00376
TNAT +15 K
TNAT -5 K
TNAT
TNAT +5 K
TNAT -20 K
102
25 °C
The most comprehensive protection against thermal overloading of the motor is provided by PTC thermistors (thermistor motor
protection) installed in the motor winding. The temperature of the
winding can be accurately monitored thanks to its low heating
capacity and the excellent heat contact with the winding. When
a limit temperature is reached (rated tripping temperature), the
PTC thermistors undergo a step change in resistance. This is
evaluated by a tripping unit and can be used to open auxiliary
circuits. The PTC thermistors themselves cannot be subjected to
high currents and voltages. This would result in destruction of
the semiconductor. The switching hysteresis of the PTC thermistor and tripping unit is low, which supports fast restarting of the
drive. Motors with this type of protection are recommended for
heavy duty starting, switching duty, extreme changes in load,
high ambient temperatures or fluctuating supply systems.
-20 °C
1
101
TKL
PTC sensor characteristic
Option A15 or A16
For motors designed with explosion protection, the PTC sensors
must be tested in the installed state for correct operation (TMS
tests). For this test, the stator winding is heated to the tripping
temperature. The option of a PTC sensor including TMS test can
be ordered using Option A15 (3 PTCs for trip) and A16 (6 PTCs
for alarm and trip).
© Siemens AG 2014
Introduction
General technical specifications
Voltages, currents and frequencies
■ Overview
Standard voltages and tolerances
Rated current
The motors listed in this catalog are supplied with a fixed voltage
(e.g. 400 V). The tolerance band for rated voltage is ±10 %. This
tolerance is in compliance with the standard and is not stamped
on the rating plate. The tolerance band for frequency is ±2 %.
In some output tables, the rated currents are only specified at a
rated voltage of 400 V. At other voltages, the rated currents vary
in accordance with the inverse of the voltage:
The motors of the LOHER CHEMSTAR and LOHER VARIO series
can be designed without explosion protection and for Ex zones
with a non-standard winding for almost any frequency and any
required line voltage up to 1000 V. The operating data listed in
the output tables applies to the rated voltages specified with
tolerance bands according to EN 60034-1.
EN 60034-1 differentiates between Category A (sum of voltage
deviation and frequency deviation ±5 %) and Category B (sum
of voltage deviation and frequency deviation ±10 %) for voltage
and frequency fluctuations.
The motors can supply their rated torque in both Category A and
Category B.
Tolerance range A (voltage ±5 %):
Motor must be functionally stable in continuous duty.
The temperature rise is permitted to be 10 K higher than the limit
value.
Tolerance range B (voltage ±10 %):
The motor must be functionally stable and is permitted to exhibit
wide variations in characteristic data;
operation over long periods close to the limits of Category B is
not recommended.
Standard
Range
U I'
=
U' I
This means:
I' =
U I
U'
Example:
According to the output table, the pole-changing motor
ANGA-180MB-42 has a rated current of 31/37 A at 400 V. The
rated current at 230 V is therefore:
I' =
400 31 or 37
230
= 54/64 A
Tolerances for electrical values in the output tables
The following tolerances apply to the electrical values listed in
the output tables according to EN 60034-1:
Efficiency
≤ 150 kW: -0.15 (1 – η)
> 150 kW: -0.1 (1 – η)
Power factor
–
-15 % and +25 %
1 – cos
6
(minimum 0.02, maximum 0.07)
Range
EN 60034-1
A
B
Tightening torque
Voltage deviation
Frequency deviation
±5 %
±2 %
±10 %
+3 %/-5 %
Breakdown torque
-10 %
Locked-rotor current
+20 % (no lower limit)
Rating plate data stamped
with rated voltage a (e.g.
230 V)
a ±5 %
(e.g. 230 V ±5 %)
a ±10 %
(e. g. 230 V ±10 %)
Slip at
rated load and operating
temperature
≥ 1 kW ±20 % of the guaranteed slip
< 1 kW ±30 % of the guaranteed slip
Siemens D 83.1 · 2014
1/23
1
© Siemens AG 2014
Introduction
General technical specifications
1
Outputs and operating modes
■ Overview
The outputs specified in the output tables are valid for duty type
S1 (continuous duty at constant load) in accordance with
EN 60034-1. For duty types S4, S5, S7 and S8 in addition to the
values for cyclic duration factor and switching frequency, the
moment of inertia of the motor (JM) and driven machine (Jext)
must also be stamped. All moments of inertia must be referred
to the motor speed. EN 60034-1 categorizes the groups of duty
types as follows:
1. Duty types in which starting and electrical braking do not
affect the overtemperature of the stator winding of the motor:
S2: Short-time duty
Operating times of 10, 30, 60, and 90 minutes are
recommended. After each period of duty the motor
remains at zero current until the winding has cooled
down to the coolant temperature.
S3: Intermittent duty without the influence of starting on the
temperature.
Unless specified otherwise, the duty cycle time is
10 minutes. Values of 15, 25, 40, and 60 % are recommended for the cyclic duration factor.
S6: Continuous duty with intermittent load.
Unless specified otherwise, the duty cycle time is
10 minutes. Values of 15, 25, 40, and 60 % are recommended for the cyclic duration factor.
2. Duty types in which starting and braking have a corresponding effect on the overtemperature of the stator winding and
the rotor cage:
S4: Intermittent duty with the influence of starting on the
temperature – switching cycles per hour (c/h) refers to
starting cycles.
S5: Intermittent duty with the influence of starting and
braking on the temperature – switching cycles per hour
(c/h) refers to starting and braking cycles.
S7: Continuous duty with starting and braking – the load
during the operating period must be known.
S8: Continuous duty with pole changing – the load during
the operating period must be known.
S9: Continuous duty with non-periodic load and speed
changes (converter-fed operation)
S10: Duty with discrete constant loads.
Most of the intermittent operating conditions occurring in
practice are a combination of the duty types listed under 1. and
2. All of the operating conditions must be known in order to
precisely determine a suitable motor.
1/24
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Rating plate and extra rating plates
■ Overview
Note: The transition phase for harmonization of line voltages with
increased tolerance within the EU expired on January 1, 2008.
Since then the admissible mains tolerances are 230/400 V
±10 %, 50 Hz and 400/690 V ±10 %, 50 Hz. In general, the
country of manufacture only is specified. The designation
"D-94099 Ruhstorf" is omitted with the exception of explosionproof motors.
New, according to EuP:
• Efficiency classes IE1, IE2, IE3 according to IEC 60034-30
• Specification of the nominal efficiencies according to
IEC 60034-30:2008 and the rated current with the rating
plate values or list values of power factor and efficiency
(IEC 60034-30:2008 does not include any details regarding
current)
• No separate specification of the rated voltage range
Füllung der Lager:
Filling of the bearings:
Remplissage des paliers:
1MD5253-1BD60-48A1-Z
LOHER DNGW-250MM-04A
3~MOT. NO. 3417569
520kg
IM B3
IP55
101/59A
400/690∆/Y V
cos 0.84
Shell Gadus S3 T 100 2
1479min -1
55kW
Th Cl 155/130(FB)
G_D083_XX_00011
Due to IE changeover, the affected motors will be equipped with
new rating plates complete with modified technical data. There
is no requirement to specify a voltage range. Only the rated
voltages are specified. Unless specified otherwise, a voltage
tolerance of up to ±10 % acc. to EN 60034-1 Range B applies.
Extra rating plate: Bearing grease
50Hz
Ex de IIC T4 Gb
IE2
II 2 G
93.7 100
94.2 75
94.0 50
0 102
EN 60034/EN 60079/IEC 60079
Siemens AG, Hans-Loher-Str.32, DE-94099 Ruhstorf a.d. Rott
Made in Germany
G_D083_XX_00007a
η[%] P[%]
e
9-101A285.01
DATE: 20.09.12H
2xM63x1.5 + 2xM20x1.5
G_D083_XX_00012
BOX Ex
BVS 11 ATEX E045 X
Extra rating plate: Ex marking for terminal box
Main rating plate: Mains-fed operation
f
MO
0.04 – 51
14.5 – 45
3.3 – 36
40 – 400 ∆
133 – 400 ∆
40 – 400 ∆
37.5 – 94
84 – 84
71 – 71
145 – 1481
484 – 1484
137 – 1487
kW
V
A
min -1
5 – 50
3.3 – 329
16.3 – 50
291 – 291
5 – 50
232 – 232
Hz
Nm
J M = 0.96 kgm2
0102
Extra rating plate: Dust Ex protection
8
7
Rating plate: Converter-fed operation
9
Extra rating plate: Anti-condensation heater
G_D083_XX_00010
50 W
LOHER DNGW-250MM-04A
3~MOT. NO. 3417569
2
4
400/690∆/Y V
3
50Hz
cos 0.84
10
520kg
IM B3
IP55
55kW
1479min -1
101/59A
6
Th Cl 155/130(FBi)
BVS 11 ATEX E045 X
DATE: 20.09.12H
η[%] P[%]
5
Extra rating plate: PTC thermistor for sole protection, mains or
converter-fed operation
210-250 V
1MD5253-1BD60-48A1-Z
Ex de IIC T4 Gb
G_D083_XX_00009
Type DNGW–250MM–04A
Nr. 34 17569
x protected at sinusoidal supply
Us 400 V ∆ Is / Ir
7.2
f 50 Hz/20°C
protected at inverter supply only
Us
V
Is
A f
Hz/20°C
x
with
36
s
tS
rotor
without
Tripping device with
EC-Type-Examination certificate
PTC thermistors DIN44082-M155
Heizung
Heating
Chauffage
Calefacción
Scaldiglia
D
Ex t b IIC
T 120 °C D b IP6X
G_D083_XX_00008
P2
UN
IN
n
2
G_D083_XX_00013
II
Umrichterbetrieb / Inverter operation
34 17569
Mot. Nr.
IE2
93.7 100
94.2 75
94.0 50
II 2 G
0 102
EN 60034/EN 60079/IEC 60079
Siemens AG, Hans-Loher-Str.32, DE-94099 Ruhstorf a.d. Rott
1
Made in Germany
G_D083_EN_00014
1
2
3
4
5
Country of origin
Rated voltage
Frequency
Rated current
IE efficiency class and
standard rated efficiency
at 1/2, 3/4 and 4/4 load
6
7
8
9
10
Output
LOHER type
Article No.
Workshop ID/Serial number
Type of construction
Main rating plate: Mains-fed operation with legend
Siemens D 83.1 · 2014
1/25
1
© Siemens AG 2014
Introduction
General technical specifications
1
Efficiency, power factor, rated torque, rated speed / insulation and winding
■ Overview
■ Overview
Efficiency and power factor
The efficiency η and power factor cosϕ for each rated output are
listed in the selection tables in the individual sections of this
catalog.
Rated speed and direction of rotation
The rated speeds are applicable for the rated data. The synchronous speed changes proportionally with the line frequency.
The motors are suitable for clockwise and counter-clockwise
rotation.
If U1, V1, W1 are connected to L1, L2, L3, clockwise rotation
results as viewed onto the drive-end shaft extension. Counterclockwise rotation is achieved by swapping two phases (see
also "Heating and ventilation" on Page 1/27).
Rated torque
The rated torque in Nm delivered at the motor shaft is
T =
9.55 P 1000
n
P
n
Rated output in kW
Speed in rpm
If the voltage deviates from its rated value within the admissible
limits, the locked-rotor torque, the pull-up torque and the breakdown torque vary with the approximate square of the value, but
the locked-rotor current varies approximately linearly.
In the case of squirrel-cage motors, the locked-rotor torque and
breakdown torque are listed in the selection tables as multiples
of the rated torque.
1/26
Siemens D 83.1 · 2014
High-grade enameled wires, suitable insulating sheet materials,
and the type of impregnation (current UV or vacuum method)
form insulation systems for the motor windings that ensure a high
level of mechanical and electrical strength as well as good
serviceability and a long service life. The insulation system is
suitable for rated voltages up to 1000 V. These insulation systems protect the winding to a large degree against the effects of
aggressive gases, vapors, dust and oil. They resist the stress of
normal climates in accordance with EN 60721-3 and are suitable
for use in tropical climates. In the case of a damp alternation
climate, which also occurs in various tropical zones, the special
version for increased humidity protection is required.
Silicone rubber encapsulation
Silicone rubber encapsulation is recommended in the following
cases irrespective of the temperature class of the winding:
• When there is a heightened risk of condensation forming due
to the type of drive or application of the motor.
• If deposits of highly conductive dust on the winding heads
need to be prevented.
Encapsulation offers particular advantages in combination with
temperature classes F and H for the following requirements:
• Motors with high switching frequencies
• Motors for particularly difficult starting and braking conditions
• Motors with increased mechanical short-circuit strength
of the winding
© Siemens AG 2014
Introduction
General technical specifications
Heating and ventilation
■ Overview
Anti-condensation heater
Frame size
The motors can be equipped with anti-condensation heaters to
protect them against internal condensation. The standard supply voltages are listed in the table below. Other supply voltages
are possible on request. Anti-condensation heaters must not be
switched on during operation.
Anti-condensation heaters for 1PS1 motors in the type of protection "Non-sparking" are supplied with a self-limiter. The heater
output is listed in the adjacent table.
Alternatively, a voltage of between 5 and 10 % of the rated motor
voltage can be connected to terminals U1 and V1 (1-phase)
which will heat the stator winding sufficiently.
Supply voltage
V
Heater output per motor
1PS0, 1PS4, 1PS5
1PS1
W
W
LOHER CHEMSTAR motors
71 … 100
12
12
25
24
160 … 250
50
48
280 … 315 S/M
100
100
315 L … 355
200
200
250
250
280
280
350
350
112 … 132
110 … 120
or
210 … 250
LOHER VARIO motors
355 … 400
450
110 … 120
or
210 … 250
500
Cooling air flow and admissible back pressure
Frame size
3000 rpm
Cooling
air flow
m3/s
Admissible
back
pressure
Pa
1500 rpm
Cooling
air flow
m3/s
Admissible
back
pressure
Pa
1000 rpm
Cooling
air flow
m3/s
Admissible
back
pressure
Pa
750 rpm
Cooling
air flow
m3/s
Admissible
back
pressure
Pa
LOHER CHEMSTAR motors
71
0.03
1
80
0.04
2
0.02
1
90
0.06
40
0.03
10
0.02
6
100
0.08
50
0.04
12
0.03
8
112
0.10
50
0.05
12
0.03
8
0.02
132
0.15
70
0.1
18
0.07
10
0.05
5
160
0.25
90
0.15
30
0.1
15
0.08
8
180
0.35
100
0.2
40
0.15
20
0.1
10
200
0.4
120
0.3
50
0.2
25
0.15
12
225
0.5
120
0.45
50
0.3
30
0.23
15
250
0.6
140
0.55
60
0.33
35
0.28
20
280
0.8
160
0.7
80
0.45
45
0.33
25
315
1.0
160
0.9
80
0.6
45
0.45
25
355
1.5
160
1.5
80
1.0
45
0.8
25
200
1.8
100
1.4
60
1.1
30
LOHER VARIO motors
400
1.8
450
2.2
200
2
150
1.8
80
1.4
40
500
2.9
200
3
150
2.5
100
2.4
50
If motors are equipped with forced ventilation, pipes for infeed or
extraction of air, silencers, or similar, the values listed above
must be complied with depending on frame size.
They must also be used to calculate the static back pressure of
piping.
The values for static back pressure in Pa (1 Pascal = 0.102 mm
WS) are maximum values that must not be exceeded on selfventilation and with the specified cooling air flow in pipes,
silencers, or similar.
Siemens D 83.1 · 2014
1/27
1
© Siemens AG 2014
Introduction
General technical specifications
1
Types of construction
■ Overview
Installation of rotating electrical machines
according to EN 60034-7
The most common types of construction are shown in the table.
It can be seen from the option lists for which frame size range
the individual types of construction are supplied. Other types of
construction are available on request. The type of construction
is specified on the rating plate in accordance with Code I,
EN 60034-7, according to the type of construction ordered and
also appears as code letters in the type designation. This is not
the case with motor versions whose type of construction has not
been standardized according to Code I. In such cases, the type
of construction is specified in accordance with Code II. Standard
motors, that is frame sizes 90 to 315 M, that are ordered in the
basic (universal) types of construction IM B3, IM B5 or IM B14,
can also be operated in other mounting positions as follows:
Type of construction
acc. to EN 60034-7
Bearings
IM B3 in IM B6, IM B7, IM B8, IM V5 or IM V6,
IM B5 in IM V1 or IM V3,
IM B14 in IM V18 or IM V19.
For motors up to frame size 180 (standard version without condensation drain), this applies without constraints. With frame
size 200 and above, it is important that the motors are installed
with the condensation drainage holes at the lowest point. The
mains connection of the motors is suitable for all types of construction due to the ability to rotate the terminal box by 90°. The
motors in the version "without explosion protection" for vertical
installation with the shaft extension pointing downwards are
supplied without a protective cover over the fan cover, unless
specified otherwise.
Motor type
Type of construction Additional identificode 12th position
cation code with
of the Article No.
order code
Horizontal installation with bearing plates
Without flange
IM B3/IM 1001
2 bearing plates
A
0
IM B6/IM 1051
2 bearing plates
B
9
+M1A
IM B7/IM 1061
2 bearing plates
B
9
+M1B
IM B8/IM 1071
2 bearing plates
B
9
+M1C
IM B15/IM 1201
1 bearing plate – IM B3
no bearing plate
(also no roller bearing) at DE
J
9
+M2K
or
+M2L
IM B20/IM 1101
2 bearing plates
L
9
+M1Q
IM B35/IM 2001
2 bearing plates
D
6
IM B34/IM 2101
2 bearing plates
F
2
IM B5/IM 3001
2 bearing plates
C
1
IM B9/IM 9101
1 bearing plate – as for IM B5 or
IM B14, but no bearing plate
and no roller bearing at DE
G
9
IM B14/IM 3601
2 bearing plates
E
3
Without bearing
Y
9
With flange
Special type of construction
–/IM 5210 without shaft,
rotor sits on
external shaft
1/28
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Types of construction
■ Overview (continued)
Type of construction
acc. to EN 60034-7
Bearings
Motor type
Type of construction Additional identificode 12th position
cation code with
of the Article No.
order code
Vertical installation with bearing plates
Without flange
IM V5/IM 1011
2 bearing plates
R
9
+M1D
or
+M1F
IM V6/IM 1031
2 bearing plates
R
9
M1E
IM V1/IM 3011
2 bearing plates
M
8
or
4
IM V15/IM 2011
2 bearing plates
T
9
IM V2/IM 3231
2 bearing plates
N
9
IM V3/IM 3031
2 bearing plates
P
9
+M1G
IM V36/IM 2031
2 bearing plates
U
9
+M1J
IM V8/IM 9111
type of construction IM V 1
or IM V 18
1 bearing plate – IM V1 or IM V18
without bearing plate and
without roller bearing at DE
G
9
+M1L
or
+M1M
IM V9/IM 9131
type of construction IM V 3
or IM V 19
1 bearing plate – IM V3 or IM V19
without bearing plate and
without roller bearing at DE
Z
9
IM V18/IM 3611
2 bearing plates
S
9
IM V19/IM 3631
2 bearing plates
S
9
With flange
+M2K
or
+M2L
+M2M
or
+M2N
Flange designations
In accordance with EN 50347 or IEC 60072-1, the mounting
flanges are designated according to the nominal dimension of
the hole diameter. Their assignment to frame sizes can be
obtained from the dimensional drawings.
Flange with through holes, e.g. IM B5 EN 50347:
FF100, FF115, FF130, FF165, FF215, FF265, FF300, FF350,
FF400, FF500, FF600, FF740
Flange with tapped holes, e.g. IM B14 EN 50347:
FT65, FT75, FT85, FT100, FT115, FT130, FT165
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
1
Motor connection and terminal box
■ Overview
The terminal box housings are made of cast-iron and designed
to IP55 degree of protection (to IP56 in the case of LOHER
VARIO) in accordance with EN 60034-5. The terminals are therefore protected from touch, dust deposits and water jets from any
direction. The terminal boxes for explosion-proof motors correspond to the respective standards.
Explosion-proof motors are equipped as standard with terminal
boxes in type of protection Ex e in accordance with EN 60079-0
and EN 60079-7. For motors in type of protection "Non-sparking",
the terminal boxes are stamped with "Ex nA" in accordance with
EN 60079-15. The "Ex nA" terminal box design is identical to that
for "Ex e".
The position of the terminal box and cable entries can be obtained from the table below. The terminal boxes can be rotated
by 90° which allows the incoming supply cable to be fed in from
different sides. For motors in type of protection "explosion-proof
enclosure", subsequent rotation of the terminal box for frame
sizes 71 and 80 is only permitted to be performed in an authorized specialist workshop.
Monitoring devices or anti-condensation heaters are connected
via auxiliary terminals in the terminal box. In frame size 132 and
above, the auxiliary terminals can be installed in an auxiliary
terminal box that is mounted on the side of the terminal box
corresponding to the type of protection of the motor.
Position of the terminal box
Assignment of terminal box position to type of construction
Types of construction
IM B3/IM B5, IM B3/IM B14 –
terminal box on top
IM B3/IM B5, IM B3/IM B14 –
terminal box on side
IM B6 1)
IM B7 1)
IM B8 1)
IM V1, IM V18
IM V3, IM V19
IM V5 1)
IM V6 1)
IM V15, IM V17 1)
1)
For terminal box position on top, the design is as for IM B3/IM B5,
IM B3/IM B14 – terminal box on top.
1/30
Siemens D 83.1 · 2014
Terminal box position
© Siemens AG 2014
Introduction
General technical specifications
Degrees of protection and mechanical design
■ Overview
Degrees of protection acc. to EN 60034-5
Degree of
protection
Scope of protection
Shock hazard protection and protection against the ingress of
foreign bodies (1st digit)
Protection against water (2nd digit)
IP54
Total protection against touching of live parts and against getting
near such parts as well as touching of moving parts inside the
housing.
Protection against harmful dust deposits:
Ingress of dust is not totally prevented, but dust will not
penetrate in sufficient quantities for satisfactory operation of the
machine to be affected.
Water sprayed from all directions onto the machine must not
have a harmful effect.
IP55
IP56
IP65
A jet of water from a nozzle that is aimed at the machine from all
directions does not have a harmful effect.
Water due to heavy seas, or water in a powerful jet, will not
penetrate the housing in any quantities that may cause damage.
Total protection against touching of live parts and against getting A jet of water from a nozzle that is aimed at the machine from all
near such parts as well as touching of moving parts inside the
directions does not have a harmful effect.
housing.
Protection against ingress of dust (dust tight).
All motors in the standard version correspond to IP55 degree
of protection. Other degrees of protection are available as an
option.
For all types of construction with the shaft extension pointing
downwards, a suitable cover that prevents small parts from falling into the fan cover is essential. Exceptions to this rule are
cases in which the motor is mounted such that the machine performs the function of the cover. This type of cover must, however,
not adversely affect the cooling air flow. Motors that are installed
outdoors must be protected against intensive exposure to the
sun.
Motors to IP67 degree of protection
Special motor versions can be supplied for installation in plants
which can be flooded occasionally, such as pumping stations.
They are suitable for temporary submersion at standstill for up to
72 hours in a maximum depth of water of 8 m. During the entire
period of submersion, the motor must not be in operation. To ensure that the built-in fan of the motor or the external ventilation is
not destroyed, the motor must be switched off before the water
level reaches the fan.
Available types in IP67 degree of protection in frame size 160
and above:
• 1PS0 without explosion protection
• 1PS1 with type of protection Ex nA IIC
• 1PS5 with type of protection Ex de IIC
The technical specifications of the motors can be obtained from
the type descriptions.
Additional options that are appropriate for IP67 degree of
protection:
• PTC thermistor for winding monitoring
• Paint finish N14
• Stainless steel screws
• Anti-condensation heater
• Built-on level switch
(not included in the scope of supply of the motor)
Special measures, such as special sealing around the shaft and
static joints in accordance with IP67 ensure that no water can
enter the motor for the duration of submersion. After connecting
the motor, the terminal box must be tightly sealed using the
supplied casting resin in accordance with the installation instructions supplied with the motor.
Siemens D 83.1 · 2014
1/31
1
© Siemens AG 2014
Introduction
General technical specifications
1
Degrees of protection and mechanical design
■ Overview (continued)
IP66 shaft seal (optional)
Condensation drainage holes
A shaft seal to IP66 is available as an option for motors of the
LOHER CHEMSTAR 1PS series. It comprises an axial ring seal
(Gammaring 9RB). The sealing lip slides over a carefully prepared metal surface. The contact pressure reduces as the
speed increases. This reduces wear. The metal cage in combination with the housing forms a labyrinth gap which protects the
sealing lip from water jets, dust and mechanical damage. This
mechanical design prevents deposits of water in the vicinity of
the sealing lip.
For motors of frame size 180 and below, condensation drainage
holes are not provided due to the minimal empty internal space
and consequently minimal build-up of condensation. They will
only be implemented in response to a special request. Such a
request must be clearly stated when placing an order. Motors of
frame size 160 and above feature condensation drainage holes
as standard.
Bearing plate
Sliding surface
Metal cage
Sealing lip
Shaft
G_D083_EN_00025
The shaft seal is suitable for horizontal and vertical motor types
of construction. It is particularly suited to outdoor installations,
especially V3.
IP66/65 degree of protection has been verified for the seal by
DEKRA EXAM. The shaft seal has been successfully implemented under extreme conditions for 30 years.
LOHER VARIO motors are equipped as standard with a contactless, maintenance-free labyrinth sealing system. Degree of
protection up to IP66 can be achieved by means of the special
version with integrated seals. This sealing system is certified in
accordance with the strict requirements for dust explosion-proof
motors (Ex t).
1/32
Siemens D 83.1 · 2014
The location of the condensation drainage holes depends on the
type of construction. They are located at the lowest point of the
bearing plates. If the drainage holes are not at the lowest point
following installation and commissioning of the motor, new holes
must be drilled accordingly and the existing holes must be
sealed with plugs. For IP55 and IP56 degrees of protection, the
condensation drainage holes are sealed. For motors of the 1PS0
type series, the condensation drainage holes are sealed with a
plug that is compliant with the degree of protection and which
ensures condensation drainage. For motors of the 1PS1 type
series, condensation drainage holes are tightly sealed with a
bolt. The drilled hole must be opened regularly to allow the
accumulated condensation water to drain away.
For the 1PS4, 1PS5 and 1MD5 motor series, condensation drainage holes cannot be implemented, as this would not comply with
the type of protection "Explosion-proof enclosure".
In the case of vertical types of construction, the hole in the top
bearing plate is sealed with a plug.
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview
The motors are equipped with deep groove ball bearings at the
drive end (DE) and the non-drive end (NDE). For special versions with reinforced bearings, a cylindrical roller bearing is
fitted at the DE in some cases.
During commissioning, the bolts tightened with locknuts must be
slackened by several turns and then retightened. This releases
the shaft so that it can rotate freely in the bearings.
G_D083_XX_00032
To fix the rotor in the axial direction, a bearing must be designed
as a so-called located bearing. To prevent expansion of the shaft
in a warm motor in the direction of the driven machine, the located bearing is installed at the drive end. This does not apply
to motors with reinforced bearings (roller bearings). In accordance with the type of construction, the located bearing must be
mounted on the NDE fan end. In LOHER VARIO motors of the
1PS0 and 1PS1 type series for vertical installation, the located
bearing is also mounted at NDE.
The assignment and designation of bearings are shown in the
tables under the heading ""Selection of roller bearings".
Bearing shipping brace
Cylindrical roller bearings are sensitive to shock at standstill.
This can occur during transportation, or it can be caused after
installation by adjacent machines. This results in longitudinal
grooves on the inner ring of the roller bearing. To prevent this, all
motors with roller bearings are equipped with a special shipping
brace. The rotor shaft is totally blocked by tightening several
hexagon bolts. This prevents vibration on the moving surface of
the bearing from being transferred.
Example illustration
Standard bearings
Selection of roller bearings
Frame size
No. of poles
Drive end (DE) bearing
Type of construction
IM B3, IM B5
Non-drive end (NDE) bearing
V types of construction
Type of construction
IM B3, IM B5
V types of construction
LOHER CHEMSTAR 1PS0 and 1PS1 motors
90
All
6205-2Z C3
6205-2Z C3
6205-2Z C3
6205-2Z C3
100
All
6306-2Z C3
6306-2Z C3
6306-2Z C3
6306-2Z C3
112
All
6306-2Z C3
6306-2Z C3
6306-2Z C3
6306-2Z C3
132
All
6308-2Z C3
6308-2Z C3
6308-2Z C3
6308-2Z C3
160
All
6310-2Z C3
6310-2Z C3
6310-2Z C3
6310-2Z C3
180
All
6311-2Z C3
6311-2Z C3
6311-2Z C3
6311-2Z C3
200
All
6312-Z C3
6312-Z C3
6312-Z C3
6312-Z C3
225
All
6313-Z C3
6313-Z C3
6313-Z C3
6313-Z C3
250
All
6314-Z C3
6314-Z C3
6314-Z C3
6314-Z C3
280
2
6314-Z C3
6314-Z C3
6314-Z C3
6314-Z C3
280
≥4
6316-Z C3
6316-Z C3
6316-Z C3
6316-Z C3
315
2
6316 C3
6316 C3 1)
6316 C3
6316 C3
315
≥4
6219 C3
6219 C3
6219 C3
6219 C3
355
2
6316 C3
6316 C3 1)
6316 C3
6316 C3
355
≥4
6320 C3
6320 C3
6320 C3
6320 C3
6316 C3
6316 C3
7316 B 1)
LOHER VARIO 1PS0 and 1PS1 motors
355
2
6316 C3
355
≥4
6320 C3
6320 C3
6320 C3
7320 B
400
2
6317 C3
6317 C3 1)
6317 C3
7317 B 1)
400
≥4
6322 C3
6322 C3
6322 C3
7322 B
450
2
6318 C3 1)
2)
6318 C3 1)
2)
450
≥4
6324 C3
6324 C3
6324 C3
7324 B
500
2
2)
2)
2)
2)
500
≥4
6326 C3
6326 C3
6326 C3
7326 B
Continued on next page.
1)
For 50 Hz operation only, for 60 Hz with C4 bearings.
2)
On request, sleeve bearings may be necessary.
Siemens D 83.1 · 2014
1/33
1
© Siemens AG 2014
Introduction
General technical specifications
1
Bearings
■ Overview (continued)
Selection of roller bearings (continued)
Frame size
No. of poles
Drive end (DE) bearing
Type of construction
IM B3, IM B5
Non-drive end (NDE) bearing
V types of construction
Type of construction
IM B3, IM B5
V types of construction
6203-2Z
LOHER CHEMSTAR 1PS5 and SIMOTICS XP 1MD5 motors
71
All
6203-2Z
6203-2Z
6203-2Z
80
All
6204-2Z
6204-2Z
6204-2Z
6204-2Z
90
All
6205-2Z C3
6205-2Z C3
6205-2Z C3
6205-2Z C3
100
All
6306-2Z C3
6306-2Z C3
6306-2Z C3
6306-2Z C3
112
All
6306-2Z C3
6306-2Z C3
6306-2Z C3
6306-2Z C3
132
All
6308-2Z C3
6308-2Z C3
6308-2Z C3
6308-2Z C3
160
All
6310-2Z C3
6310-2Z C3
6310-2Z C3
6310-2Z C3
180
All
6311 C3
6311 C3
6311 C3
6311 C3
200
All
6312 C3
6312 C3
6312 C3
6312 C3
225
All
6313 C3
6313 C3
6313 C3
6313 C3
250
All
6314 C3
6314 C3
6314 C3
6314 C3
280
2
6314 C3
6314 C3
6314 C3
6314 C3
280
≥4
6316 C3
6316 C3
6316 C3
6316 C3
315
2
6316 C3
6316 C3 1)
6316 C3
6316 C3
315
≥4
6219 C3
6219 C3
6219 C3
6219 C3
355
2 2)
6316 C3
6316 C3
6316 C3
6316 C3
355
≥4
6320 C3
6320 C3
6320 C3
6320 C3
LOHER VARIO 1PS4 and 1PS5 motors
355
2
6316 C4
6318 C4
6316 C4
6316 C4
355
≥4
6320 C3
6320 C3
6320 C3
6320 C3
400
2
6317 C4
6320 C4
6317 C4
6320 C4
400
≥4
6322 C3
6322 C3
6322 C3
6322 C3
450
2
NU1022M C3+6022 C3 1)
7218+6218 C4 1)
NU1022M C3
NU1022M C3
450
≥4
6324 C3
7224+6324 C3
6324 C3
NU1022M
500
2
NU1022M C3+6022 C3 1)
3)
NU1022M C3
3)
500
≥4
6326M C3
7226+6226 C3
6326M C3
NU1022M
1)
For 50 Hz operation only, for 60 Hz with C4 bearings.
2)
Only applies for 1PS5.
1/34
Siemens D 83.1 · 2014
3)
On request, sleeve bearings may be necessary.
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
Admissible forces on shaft extension
FQ
FQ = Cantilever force in N
FA = Axial force in N
x = Distance between point of application of force and
shoulder of shaft in mm
l = Length of shaft extension in mm
x
G_D083_EN_00033
The values apply to the bearings and drive end shaft extensions
that are assigned in the following tables based on a calculated
service life of L10h = 20000 h.
They are applicable for horizontal and vertical shafts.
+FA -FA
xmax
x0
Admissible cantilever force
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Valid are: x0 values for x = 0, x0.5 values for x = 0.5 · l and xmax values for x = l (l = shaft extension)
Frame size Admissible cantilever force FQ
at x0
at speed
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
at x0.5
at xmax
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
90
0.75
0.94
0.93
0.93
0.69
0.64
0.60
0.60
0.63
0.47
0.44
0.44
100
1.39
0.57
2.00
2.00
1.27
0.38
1.48
1.48
1.11
0.29
1.11
1.11
112
1.36
1.72
1.96
1.96
1.24
1.48
1.48
1.48
1.11
1.11
1.11
1.11
132
2.14
2.70
3.08
3.08
1.93
2.43
2.77
2.77
1.23
1.91
2.26
2.26
160
3.42
4.33
4.99
4.99
3.11
3.93
4.56
4.56
2.87
3.31
3.31
3.31
180
4.21
5.30
6.08
6.08
3.84
4.84
5.55
5.55
3.53
4.21
4.21
4.21
200
4.46
5.60
6.42
6.42
4.08
5.14
5.90
5.90
3.78
4.75
5.36
5.36
225
5.10
6.37
7.21
7.21
4.73
5.79
6.57
6.57
4.41
5.32
5.74
5.74
250
5.53
7.00
8.01
8.91
5.03
6.36
7.28
8.10
4.61
5.83
6.68
7.43
280
5.32
7.96
9.09
10.23
4.89
7.31
8.35
9.41
4.52
6.77
7.73
8.70
315 S/M
6.20
6.80
7.70
8.70
5.70
6.30
7.20
8.00
5.40
5.80
6.70
7.50
315 L
5.90
6.20
7.00
8.00
5.60
6.00
6.30
7.50
5.30
5.70
6.30
7.20
355 LB
5.60
10.20
11.80
13.20
5.20
9.45
10.80
12.00
4.80
8.50
9.60
10.60
LOHER VARIO 1PS0 and 1PS1 motors
355 … 500
Values on request
The specified cantilever forces must not be exceeded to ensure
compliance with the maximum admissible shaft flexing in the
ignition gap.
Siemens D 83.1 · 2014
1/35
1
© Siemens AG 2014
Introduction
General technical specifications
1
Bearings
■ Overview (continued)
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Valid are: x0 values for x = 0, x0.5 values for x = 0.5 · l and xmax values for x = l (l = shaft extension)
Frame size Admissible cantilever force FQ
at x0
at speed
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
at x0.5
at xmax
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS5 motors
71
0.52
0.57
0.57
0.57
0.41
0.41
0.41
0.41
0.32
0.32
0.32
0.32
80
0.69
0.75
0.89
0.89
0.59
0.49
0.59
0.59
0.44
0.37
0.44
0.44
90
0.75
0.94
0.93
0.93
0.69
0.64
0.60
0.60
0.63
0.47
0.44
0.44
100
1.39
0.57
1.84
1.84
1.11
0.38
1.23
1.23
0.83
0.29
0.92
0.92
112
1.36
1.72
1.96
1.96
1.24
1.33
1.33
1.33
1.00
1.00
1.00
1.00
132
2.14
2.70
3.08
3.08
1.73
1.88
2.77
2.77
1.23
1.34
2.01
2.01
160
3.42
4.33
4.99
4.99
3.11
3.93
4.23
4.23
2.82
2.90
2.87
2.87
180
4.21
5.30
6.08
6.08
3.84
4.84
5.55
5.55
3.53
4.21
4.21
4.21
200
4.46
5.60
6.42
6.42
4.08
5.14
5.90
5.90
3.78
4.75
5.36
5.36
225
5.10
6.37
7.21
7.21
4.73
5.79
6.57
6.57
4.41
5.32
5.74
5.74
250
5.53
7.00
8.01
8.91
5.03
6.36
7.28
8.10
4.61
5.83
6.68
6.81
280
5.32
7.96
9.09
10.23
4.89
7.31
8.35
9.41
4.52
6.77
7.73
8.70
315 S/M
6.20
6.80
7.70
8.70
5.70
6.30
7.20
8.00
5.40
5.80
6.70
7.50
315 L
5.90
6.20
7.00
8.00
5.60
6.00
6.30
6.30
5.30
4.90
4.20
4.20
355
Values on request
LOHER VARIO 1PS4 and 1PS5 motors
355 … 500
Values on request
SIMOTICS XP 1MD5 motors
71
0.52
0.57
0.57
–
0.41
0.41
0.41
–
0.32
0.32
0.32
–
80
0.69
0.86
0.89
–
0.59
0.59
0.59
–
0.44
0.44
0.44
–
90
0.75
0.94
1.08
–
0.69
0.87
0.92
–
0.64
0.67
0.67
–
100
1.40
1.26
1.17
–
1.22
0.84
0.78
–
0.91
0.63
0.58
–
112
1.38
1.73
1.37
–
1.25
1.17
0.91
–
0.95
0.87
0.68
–
132
2.17
2.73
3.04
–
1.95
1.88
1.81
–
1.39
1.34
1.29
–
160
3.46
4.37
4.38
–
2.51
2.37
2.34
–
1.72
1.61
1.60
–
180
4.29
5.36
6.16
–
3.92
4.51
3.57
–
3.06
3.09
3.12
–
200
4.49
5.68
6.49
–
4.13
5.21
5.95
–
3.81
4.56
4.35
–
225
5.14
6.38
7.38
–
4.77
5.81
6.72
–
4.45
5.33
5.74
–
250
5.64
6.98
8.12
–
5.13
6.35
7.39
–
4.71
5.82
6.77
–
280
5.53
8.19
9.59
–
5.08
7.53
8.82
–
4.70
6.97
8.16
–
315 S/M
6.20
6.75
7.59
–
5.75
6.16
6.94
–
5.36
5.67
6.38
–
315 L
6.16
6.01
6.89
–
5.79
5.57
6.38
–
5.45
5.20
5.95
–
355
Values on request
The specified cantilever forces must not be exceeded to ensure
compliance with the maximum admissible shaft flexing in the
ignition gap.
1/36
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
Admissible axial force
In the case of exclusively axial loading, the values in the following tables are admissible. The values apply exclusively to the
bearings listed below. The data is based on a fatigue life of
L10h = 20000 h.
The specified values apply to operation at 50 Hz.
For a 60 Hz supply, the values must be reduced by 6 % to
achieve the same service life.
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Admissible axial force +FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
Vertical shaft – force acting upwards
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
Vertical shaft – force acting downwards
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
90
0.38
0.59
0.75
0.75
0.43
0.67
0.82
0.82
0.85
1.05
1.21
1.21
100
0.96
1.38
1.66
1.66
1.04
1.48
1.78
1.78
1.40
1.80
2.07
2.07
112
0.95
1.35
1.64
1.64
1.05
1.48
1.80
1.80
1.39
1.77
2.05
2.05
132
1.29
1.89
2.32
2.32
1.48
2.12
2.60
2.60
2.18
2.76
3.16
3.16
160
2.06
2.97
3.64
3.64
2.42
3.37
4.03
4.03
3.10
3.98
4.66
4.66
180
2.76
3.86
4.67
4.67
3.34
4.52
5.46
5.46
3.48
4.52
5.29
5.29
200
3.10
4.26
5.12
5.12
3.79
5.20
6.12
6.12
3.38
4.42
5.21
5.21
225
3.43
4.71
5.63
5.63
4.30
5.86
7.22
7.22
3.87
4.94
5.63
5.63
250 1)
3.20
4.67
5.75
6.66
4.27
6.01
7.29
8.21
4.89
6.19
7.15
8.07
280 1)
3.09
5.32
6.51
7.62
4.66
7.54
8.96
9.83
4.34
6.32
7.26
8.79
315 S/M
6.10
6.80
7.80
8.70
8.70
9.90
11.40
12.30
2.10
2.30
3.00
3.90
315 L
6.00
6.70
7.50
8.40
9.50
10.80
12.80
13.70
1.20
1.50
1.50
2.50
355 LB
5.40
9.40
10.90
12.30
10.20
15.90
18.90
20.40
0.45
2.90
3.70
5.20
LOHER VARIO 1PS0 and 1PS1 motors
355 … 500
Values on request
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Admissible axial force –FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
Vertical shaft – force acting upwards
Type of construction
IM V1, IM V5, IM V15, IM V18
Vertical shaft – force acting downwards
Type of construction
IM V1, IM V5, IM V15, IM V18
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
90
0.89
1.10
1.26
1.26
0.94
1.17
1.33
1.33
0.35
0.54
0.70
0.70
100
1.46
1.87
2.15
2.15
1.54
1.97
2.27
2.27
0.91
1.31
1.58
1.58
112
1.46
1.86
2.15
2.15
1.56
1.99
2.30
2.30
0.88
1.27
1.54
1.54
132
2.31
2.91
3.33
3.33
2.49
3.13
3.61
3.61
1.17
1.74
2.14
2.14
160
3.38
4.29
4.96
4.96
3.74
4.69
5.35
5.35
1.78
2.66
3.34
3.34
180
3.90
5.00
5.81
5.81
4.48
5.66
6.60
6.60
2.34
3.38
4.15
4.15
200
3.90
5.06
5.92
5.92
4.59
6.00
6.92
6.92
2.58
3.62
4.41
4.41
225
4.49
5.77
6.69
6.69
5.36
6.92
8.28
8.28
2.81
3.88
4.57
4.57
250 2)
5.60
7.07
8.15
9.06
6.67
8.41
9.69
10.61
2.49
3.79
4.75
5.67
280 2)
5.49
7.92
9.11
10.22
7.06
10.14
11.56
12.43
1.94
3.72
4.66
6.19
315 S/M
3.70
4.40
5.40
6.30
6.30
7.50
9.00
9.90
4.50
4.70
5.40
6.30
315 L
3.60
4.30
5.10
6.00
7.10
8.40
10.40
11.30
3.60
3.90
3.90
4.90
355 LB
3.80
7.60
9.10
10.50
8.60
14.10
17.10
18.60
2.05
4.70
5.50
7.00
LOHER VARIO 1PS0 and 1PS1 motors
355 … 500
Values on request
1)
For relubrication, see values for IMV1, IMV5, IMV15, IMV18.
2)
For relubrication, see values for IMV3, IMV6, IMV14, IMV19, IMV36.
Siemens D 83.1 · 2014
1/37
1
© Siemens AG 2014
Introduction
General technical specifications
1
Bearings
■ Overview (continued)
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Admissible axial force +FA
Horizontal shaft
at speed
3000 rpm 1500 rpm 1000 rpm
kN
kN
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS5 motors
71
0.25
0.39
0.49
0.49
0.28
0.43
0.53
0.53
0.53
0.66
0.76
0.76
80
0.37
0.55
0.68
0.68
0.40
0.61
0.74
0.74
0.67
0.84
0.97
0.97
90
0.38
0.59
0.75
0.75
0.43
0.67
0.82
0.82
0.85
1.05
1.21
1.21
100
0.96
1.38
1.66
1.66
1.04
1.48
1.78
1.78
1.40
1.80
2.07
2.07
112
0.95
1.35
1.64
1.64
1.05
1.48
1.80
1.80
1.39
1.77
2.05
2.05
132
1.29
1.89
2.32
2.32
1.48
2.12
2.60
2.60
2.18
2.76
3.16
3.16
160
2.06
2.97
3.64
3.64
2.42
3.37
4.03
4.03
3.10
3.98
4.66
4.66
180
2.76
3.86
4.67
4.67
3.34
4.52
5.46
5.46
3.48
4.52
5.29
5.29
200
3.10
4.26
5.12
5.12
3.79
5.20
6.12
6.12
3.38
4.42
5.21
5.21
225
3.43
4.71
5.63
5.63
4.30
5.86
7.22
7.22
3.87
4.94
5.63
5.63
250
5.60
7.07
8.15
9.06
6.67
8.41
9.69
10.61
2.49
3.79
4.75
5.67
280
5.49
7.92
9.11
10.22
7.06
10.14
11.56
12.43
1.94
3.72
4.66
6.19
315 S/M
6.10
6.80
7.80
8.70
8.70
9.90
11.40
12.30
2.10
2.30
3.00
3.90
315 L
6.00
6.70
7.50
8.40
9.50
10.80
12.80
13.70
1.20
1.50
1.50
2.50
LOHER VARIO 1PS4 and 1PS5 motors
355 … 500
Values on request
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Admissible axial force –FA
Horizontal shaft
at speed
3000 rpm 1500 rpm 1000 rpm
kN
kN
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS5 motors
71
0.55
0.68
0.79
0.79
0.57
0.72
0.82
0.82
0.24
0.36
0.47
0.47
80
0.69
0.87
1.00
1.00
0.72
0.93
1.06
1.06
0.35
0.52
0.65
0.65
90
0.89
1.10
1.26
1.26
0.94
1.17
1.33
1.33
0.35
0.54
0.70
0.70
100
1.46
1.87
2.15
2.15
1.54
1.97
2.27
2.27
0.91
1.31
1.58
1.58
112
1.46
1.86
2.15
2.15
1.56
1.99
2.30
2.30
0.88
1.27
1.54
1.54
132
2.31
2.91
3.33
3.33
2.49
3.13
3.61
3.61
1.17
1.74
2.14
2.14
160
3.38
4.29
4.96
4.96
3.74
4.69
5.35
5.35
1.78
2.66
3.34
3.34
180
3.90
5.00
5.81
5.81
4.48
5.66
6.60
6.60
2.34
3.38
4.15
4.15
200
3.90
5.06
5.92
5.92
4.59
6.00
6.92
6.92
2.58
3.62
4.41
4.41
225
4.49
5.77
6.69
6.69
5.36
6.92
8.28
8.28
2.81
3.88
4.57
4.57
250
3.20
4.67
5.75
6.66
4.27
6.01
7.29
8.21
4.89
6.19
7.15
8.07
280
3.09
5.32
6.51
7.62
4.66
7.54
8.96
9.83
4.34
6.32
7.26
8.79
315 S/M
3.70
4.40
5.40
6.30
6.30
7.50
9.00
9.90
4.50
4.70
5.40
6.30
315 L
3.60
4.30
5.10
6.00
7.10
8.40
10.40
11.30
3.60
3.90
3.90
4.90
LOHER VARIO 1PS4 and 1PS5 motors
355 … 500
1/38
Values on request
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Admissible axial force +FA
Horizontal shaft
at speed
3000 rpm 1500 rpm 1000 rpm
kN
kN
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
SIMOTICS XP 1MD5 motors
71
0.25
0.39
0.49
–
0.28
0.43
0.53
–
0.53
0.66
0.76
–
80
0.37
0.55
0.69
–
0.40
0.59
0.72
–
0.67
0.84
0.98
–
90
0.38
0.59
0.75
–
0.43
0.64
0.80
–
0.85
1.06
1.21
–
100
0.97
1.37
1.66
–
1.03
1.46
1.77
–
1.41
1.78
2.08
–
112
0.96
1.36
1.65
–
1.04
1.45
1.78
–
1.41
1.80
2.08
–
132
1.31
1.90
2.34
–
1.44
2.06
2.52
–
2.21
2.79
3.19
–
160
2.07
2.98
3.64
–
2.34
3.31
4.04
–
3.16
4.04
4.64
–
180
2.79
3.89
4.71
–
3.20
4.46
5.36
–
3.64
4.62
5.40
–
200
3.12
4.30
5.15
–
3.70
5.05
5.96
–
3.47
4.58
5.34
–
225
3.44
4.73
5.72
–
4.27
5.82
6.97
–
3.90
4.93
5.91
–
250
5.65
7.06
8.19
–
6.67
8.62
9.66
–
2.49
3.58
4.77
–
280
5.58
8.02
9.34
–
6.99
10.03
11.06
–
2.04
3.93
5.35
–
315 S/M
6.09
6.80
7.77
–
8.22
9.53
10.56
–
1.89
2.14
2.77
–
315 L
5.90
6.44
7.40
–
9.16
10.77
12.44
–
0.95
0.37
0.99
–
355
Values on request
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Admissible axial force –FA
Horizontal shaft
at speed
3000 rpm 1500 rpm 1000 rpm
kN
kN
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
SIMOTICS XP 1MD5 motors
71
0.55
0.68
0.79
–
0.57
0.72
0.82
–
0.24
0.36
0.47
–
80
0.69
0.87
1.01
–
0.72
0.91
1.04
–
0.35
0.53
0.66
–
90
0.89
1.10
1.25
–
0.93
1.15
1.31
–
0.34
0.55
0.70
–
100
1.46
1.86
2.15
–
1.52
1.95
2.27
–
0.92
1.29
1.58
–
112
1.46
1.87
2.16
–
1.54
1.96
2.28
–
0.90
1.30
1.57
–
132
2.32
2.92
3.35
–
2.45
3.08
3.53
–
1.20
1.78
2.18
–
160
3.39
4.30
4.96
–
3.66
4.63
5.36
–
1.84
2.72
3.32
–
180
3.93
5.03
5.85
–
4.34
5.60
6.50
–
2.50
3.48
4.26
–
200
3.92
5.10
5.95
–
4.50
5.85
6.76
–
2.67
3.78
4.54
–
225
4.50
5.79
6.78
–
5.33
6.88
8.03
–
2.84
3.87
4.85
–
250
3.25
4.66
5.79
–
4.27
6.22
7.26
–
4.89
5.98
7.17
–
280
3.18
5.42
6.74
–
4.59
7.43
8.46
–
4.44
6.53
7.95
–
315 S/M
3.69
4.40
5.37
–
5.82
7.13
8.16
–
4.29
4.54
5.17
–
315 L
3.50
4.04
5.00
–
6.76
8.37
10.04
–
3.35
2.77
3.39
–
355
Values on request
Siemens D 83.1 · 2014
1/39
1
© Siemens AG 2014
Introduction
General technical specifications
1
Bearings
■ Overview (continued)
Additional axial force with cantilever force on shaft extension
If the shaft extensions are loaded at x = l (l = shaft extension) with
the respective admissible cantilever force FQ, the following
additional forces are permitted to occur in the axial direction.
If the admissible cantilever forces are not exploited to the full,
higher loads are possible in the axial direction (values on
request).
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force +FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
Shaft extension at top
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
Shaft extension at top
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
90
0.04
0.26
0.41
0.41
0.09
0.33
0.48
0.48
0.51
0.72
0.87
0.87
100
0.47
1.10
0.91
0.91
0.45
1.20
0.90
0.90
0.75
1.52
1.23
1.23
112
0.38
0.67
0.99
0.99
0.48
0.70
1.01
1.01
0.75
1.00
1.28
1.28
132
0.59
1.00
1.07
1.07
0.64
0.83
1.35
1.35
1.20
1.46
1.75
1.75
160
0.46
1.30
1.85
1.85
0.85
1.74
2.07
2.07
1.49
2.11
2.56
2.56
180
1.08
1.58
2.26
2.26
1.58
2.24
3.03
3.03
1.71
2.23
2.86
2.86
200
1.34
1.85
2.26
2.26
1.92
2.66
3.17
3.17
1.52
1.88
2.20
2.20
225
1.45
2.07
2.48
2.48
2.21
3.06
4.03
4.03
1.78
2.16
2.45
2.45
250 1)
1.00
1.66
2.06
2.42
1.94
2.84
3.57
3.86
2.57
3.01
3.44
3.85
280 1)
1.02
1.99
2.62
2.96
2.44
4.00
4.77
4.87
2.14
2.82
3.13
3.87
315 S/M
3.80
4.10
4.70
5.10
6.20
7.10
8.10
8.50
–
–
–
0.10
–
–
–
315 L
3.80
4.10
4.60
5.00
7.10
8.20
9.80
10.20
–
355 LB
3.30
5.40
6.40
6.90
8.00
11.90
13.90
14.40
Values on request
LOHER VARIO 1PS0 and 1PS1 motors
355 … 500
Values on request
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force –FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
Shaft extension at bottom
Type of construction
IM V1, IM V5, IM V10, IM V15, IM V18
Shaft extension at bottom
Type of construction
IM V1, IM V5, IM V10, IM V15, IM V18
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
90
0.55
0.77
0.92
0.92
0.60
0.84
0.99
0.99
0.01
0.21
0.36
0.36
100
0.97
1.59
1.41
1.41
0.95
1.69
1.40
1.40
0.25
1.03
0.73
0.73
112
0.88
1.18
1.50
1.50
0.98
1.20
1.51
1.51
0.25
0.50
0.78
0.78
132
1.61
2.01
2.09
2.09
1.66
1.85
2.36
2.36
0.18
0.44
0.73
0.73
160
1.78
2.62
3.17
3.17
2.17
3.06
3.39
3.39
0.17
0.79
1.24
1.24
180
2.22
2.72
3.40
3.40
2.72
3.38
4.17
4.17
0.57
1.09
1.72
1.72
200
2.14
2.65
3.06
3.06
2.72
3.46
3.97
3.97
0.72
1.08
1.40
1.40
225
2.51
3.13
3.54
3.54
3.27
4.12
5.09
5.09
0.72
1.10
1.39
1.39
250 2)
3.40
4.06
4.46
4.82
4.34
5.24
5.97
6.26
0.17
0.61
1.04
1.45
280 2)
3.42
4.59
5.22
5.56
4.84
6.60
7.37
7.47
–
0.22
0.53
1.27
315 S/M
1.40
1.70
2.30
2.70
3.80
4.70
5.70
6.10
2.00
1.90
2.10
2.50
315 L
1.40
1.70
2.20
2.60
4.70
5.80
7.40
7.80
1.30
1.30
1.30
1.40
355 LB
1.70
3.60
4.60
5.10
6.40
10.10
12.10
12.60
Values on request
LOHER VARIO 1PS0 and 1PS1 motors
355 … 500
Values on request
1)
For relubrication, see values for IMV1, IMV5, IMV15, IMV18.
2)
For relubrication, see values for IMV3, IMV6, IMV14, IMV19, IMV36.
1/40
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force +FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
Shaft extension at top
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
Shaft extension at top
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS5 motors
71
0.07
0.18
0.27
0.27
0.09
0.22
0.31
0.31
0.34
0.45
0.54
0.54
80
0.09
0.26
0.37
0.37
0.12
0.31
0.42
0.42
0.39
0.54
0.65
0.65
90
0.04
0.26
0.41
0.41
0.09
0.33
0.48
0.48
0.51
0.72
0.87
0.87
100
0.47
1.10
1.02
1.02
0.55
1.20
1.13
1.13
0.91
1.52
1.43
1.43
112
0.38
0.67
0.99
0.99
0.48
0.80
1.15
1.15
0.81
1.09
1.65
1.65
132
0.59
1.00
1.07
1.07
0.78
1.22
1.35
1.35
1.48
1.86
1.91
1.91
160
0.46
1.30
1.85
1.85
0.85
1.74
2.28
2.28
1.49
2.31
2.85
2.85
180
1.08
1.58
2.26
2.26
1.58
2.24
3.03
3.03
1.71
2.23
2.86
2.86
200
1.34
1.85
2.26
2.26
1.92
2.66
3.17
3.17
1.52
1.88
2.20
2.20
225
1.45
2.07
2.48
2.48
2.21
3.06
4.03
4.03
1.78
2.16
2.45
2.45
250
3.40
4.06
4.46
4.97
4.34
5.24
5.97
6.49
0.17
0.61
1.04
1.55
280
3.42
4.59
5.22
5.56
4.84
6.60
7.37
7.47
–
0.22
0.53
1.27
315 S/M
3.80
4.10
4.70
5.10
6.20
7.10
8.10
8.50
–
–
–
0.10
315 L
3.80
4.10
4.60
5.00
7.10
8.20
9.80
10.20
–
–
–
–
LOHER VARIO 1PS4 and 1PS5 motors
355 … 500
Values on request
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force –FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
Shaft extension at bottom
Type of construction
IM V1, IM V5, IM V10, IM V15, IM V18
Shaft extension at bottom
Type of construction
IM V1, IM V5, IM V10, IM V15, IM V18
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
LOHER CHEMSTAR 1PS5 motors
71
0.36
0.47
0.57
0.57
0.38
0.51
0.60
0.60
0.05
0.16
0.25
0.25
80
0.41
0.57
0.69
0.69
0.44
0.63
0.74
0.74
0.07
0.22
0.33
0.33
90
0.55
0.77
0.92
0.92
0.60
0.84
0.99
0.99
0.01
0.21
0.36
0.36
100
0.97
1.59
1.51
1.51
1.04
1.69
1.63
1.63
0.42
1.03
0.94
0.94
112
0.88
1.18
1.50
1.50
0.98
1.31
1.65
1.65
0.30
0.58
0.89
0.89
132
1.61
2.01
2.09
2.09
1.79
2.23
2.36
2.36
0.47
0.84
0.89
0.89
160
1.78
2.62
3.17
3.17
2.17
3.06
3.60
3.60
0.17
0.99
1.53
1.53
180
2.22
2.72
3.40
3.40
2.72
3.38
4.17
4.17
0.57
1.09
1.72
1.72
200
2.14
2.65
3.06
3.06
2.72
3.46
3.97
3.97
0.72
1.08
1.40
1.40
225
2.51
3.13
3.54
3.54
3.27
4.12
5.09
5.09
0.72
1.10
1.39
1.39
250
1.00
1.66
2.06
2.57
1.94
2.84
3.57
4.09
2.57
3.01
3.44
3.95
280
1.02
1.99
2.62
2.96
2.44
4.00
4.77
4.87
2.14
2.82
3.13
3.87
315 S/M
1.40
1.70
2.30
2.70
3.80
4.70
5.70
6.10
2.00
1.90
2.10
2.50
315 L
1.40
1.70
2.20
2.60
4.70
5.80
7.40
7.80
1.30
1.30
1.30
1.40
LOHER VARIO 1PS4 and 1PS5 motors
355 … 500
Values on request
Siemens D 83.1 · 2014
1/41
1
© Siemens AG 2014
Introduction
General technical specifications
1
Bearings
■ Overview (continued)
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force +FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
Shaft extension at top
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
Shaft extension at top
Type of construction
IM V3, IM V6, IM V14, IM V19, IM V36
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
SIMOTICS XP 1MD5 motors
71
0.07
0.18
0.27
–
0.09
0.22
0.31
–
0.34
0.45
0.54
–
80
0.10
0.25
0.36
–
0.13
0.29
0.40
–
0.40
0.54
0.65
–
90
0.05
0.17
0.30
–
0.10
0.23
0.36
–
0.52
0.63
0.76
–
100
0.45
0.94
1.25
–
0.51
1.03
1.36
–
0.89
1.36
1.66
–
112
0.41
0.78
1.16
–
0.49
0.87
1.28
–
0.86
1.22
1.58
–
132
0.53
1.08
1.48
–
0.66
1.24
1.66
–
1.44
1.96
2.34
–
160
1.09
1.93
2.45
–
1.40
2.30
2.93
–
2.18
2.98
3.45
–
180
1.24
2.01
2.86
–
1.64
2.59
3.50
–
2.07
2.73
3.54
–
200
1.34
1.84
2.49
–
1.81
2.58
3.38
–
1.59
2.10
2.66
–
225
1.45
1.99
2.48
–
2.17
2.93
3.71
–
1.79
2.04
2.65
–
250
3.42
4.07
4.56
–
4.32
5.46
5.83
–
0.14
0.42
0.95
–
280
3.42
4.61
5.18
–
4.82
6.41
6.66
–
–
0.34
0.97
–
315 S/M
3.77
4.08
4.62
–
5.61
6.49
6.87
–
–
–
–
–
315 L
3.76
4.10
4.61
–
6.70
7.93
9.02
–
–
–
–
–
355
Values on request
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force –FA
Horizontal shaft
at speed
3000 rpm
kN
1500 rpm
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
Shaft extension at bottom
Type of construction
IM V1, IM V5, IM V10, IM V15, IM V18
Shaft extension at bottom
Type of construction
IM V1, IM V5, IM V10, IM V15, IM V18
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
3000 rpm
kN
1500 rpm
kN
1000 rpm
kN
750 rpm
kN
SIMOTICS XP 1MD5 motors
71
0.36
0.47
0.57
–
0.38
0.51
0.60
–
0.05
0.16
0.25
–
80
0.42
0.57
0.68
–
0.45
0.60
0.72
–
0.08
0.22
0.33
–
90
0.56
0.68
0.80
–
0.60
0.74
0.87
–
0.02
0.13
0.25
–
100
0.94
1.43
1.74
–
1.00
1.53
1.85
–
0.40
0.87
1.17
–
112
0.92
1.28
1.67
–
0.99
1.38
1.79
–
0.35
0.71
1.08
–
132
1.55
2.09
2.50
–
1.68
2.25
2.68
–
0.43
0.95
1.32
–
160
2.41
3.25
3.77
–
2.72
3.62
4.25
–
0.86
1.66
2.13
–
180
2.38
3.15
4.00
–
2.78
3.73
4.64
–
0.93
1.59
2.40
–
200
2.14
2.64
3.29
–
2.61
3.38
4.18
–
0.79
1.30
1.86
–
225
2.51
3.05
3.54
–
3.23
3.99
4.77
–
0.73
0.98
1.59
–
250
1.02
1.67
2.16
–
1.92
3.06
3.43
–
2.54
2.82
3.35
–
280
1.02
2.01
2.58
–
2.42
3.81
4.06
–
2.15
2.94
3.57
–
315 S/M
1.37
1.68
2.22
–
3.21
4.09
4.47
–
1.79
1.66
1.80
–
315 L
1.36
1.70
2.21
–
4.30
5.53
6.62
–
1.01
0.21
0.36
–
355
Values on request
1/42
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
Reinforced bearings
Motors of the 1PS0, 1PS1 1PS5 and 1MD5 type series can be
designed with cylindrical roller bearings at DE for higher cantilever forces, e.g. for belt drives. For frame size 160 and above, the
motors are equipped with a regreasing device at DE and NDE.
Selection of roller bearings
Frame size
No. of poles
Drive end (DE) bearing
Type of construction
IM B3, IM B5
Non-drive end (NDE) bearing
V types of construction
Type of construction
IM B3, IM B5
V types of construction
LOHER CHEMSTAR 1PS0 and 1PS1 motors
160
All
NU310E C3
NU310E C3
6310 C3
6310 C3
180
All
NU311E C3
NU311E C3
6311 C3
6311 C3
200
2
NU312E C3
NU312E C3
6312 C3
6312 C3
200
≥4
NU312E
NU312E
6312 C3
6312 C3
225
2
NU313E C3
NU313E C3
6313 C3
6313 C3
225
≥4
NU313E
NU313E
6313 C3
6313 C3
250
2
NU314E C3
NU314E C3
6314 C3
6314 C3
250
≥4
NU314E
NU314E
6314 C3
6314 C3
280
2
NU314E C3
NU314E C3
6314 C3
6314 C3
280
≥4
NU316E
NU316E
6316 C3
6316 C3
315
2
NU316E C3
NU316E C3
6316 C3
6316 C3 1)
315
≥4
NU219E
NU219E
6219 C3
6219 C3
355
2
NU316E C3 2)
NU316E C3 2)
6316 C3
6316 C3 1)
355
4
NU320E C3
NU320E
6320 C3
6320 C3
355
≥6
NU320E
NU320E
6320 C3
6320 C3
LOHER VARIO 1PS0 and 1PS1 motors
355 ... 500
All
Bearing types on request
LOHER CHEMSTAR 1PS5 and SIMOTICS XP 1MD5 motors
160
All
NU310E C3
NU310E C3
6310 C3
6310 C3
180
All
NU311E C3
NU311E C3
6311 C3
6311 C3
200
2
NU312E C3
NU312E C3
6312 C3
6312 C3
200
≥4
NU312E
NU312E
6312 C3
6312 C3
225
2
NU313E C3
NU313E C3
6313 C3
6313 C3
225
≥4
NU313E
NU313E
6313 C3
6313 C3
250
2
NU314E C3
NU314E C3
6314 C3
6314 C3
250
≥4
NU314E
NU314E
6314 C3
6314 C3
280
2
NU314E C3
NU314E C3
6314 C3
6314 C3
280
≥4
NU316E
NU316E
6316 C3
6316 C3
315
2
NU316E C3
NU316E C3
6316 C3
6316 C3 1)
315
≥4
NU219E
NU219E
6219 C3
6219 C3
LOHER VARIO 1PS4 and 1PS5 motors
355
All
Bearing sizes on request
For SIMOTICS XP motors, the version with cylindrical roller
bearings at DE and regreasing device at DE and NDE is an
alternative to the standard version.
The located bearing is at NDE. A regreasing device for DE and
NDE is standard.
1)
For operation at 60 Hz, C4 bearing.
2)
For operation at 50 Hz only, please inquire regarding operation at 60 Hz.
Siemens D 83.1 · 2014
1/43
1
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
Admissible forces on shaft extension
The following values are based on a calculated service life of
L10h = 20000 h. They are applicable for horizontal and vertical
shafts.
FQ
The cantilever forces specified in the tables must not be exceeded to ensure compliance with the maximum admissible
shaft flexing in the ignition gap. Where values are not specified
in the tables, an increase in admissible force cannot be
achieved by using a roller bearing in place of a normal bearing,
due to flexing of the shaft.
FQ = Cantilever force in N
FA = Axial force in N
x = Distance between point of application of force and
shoulder of shaft in mm
l = Length of shaft extension in mm
x
G_D083_EN_00033
1
+FA -FA
xmax
x0
Admissible cantilever force
Admissible cantilever forces
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Valid are: x0 values for x = 0, x0.5 values for x = 0.5 · l and xmax values for x = l (l = shaft extension)
Frame size Admissible cantilever force FQ
at x0
at speed
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
at x0.5
at xmax
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
160
9.67
9.74
9.74
9.74
5.21
5.21
5.21
5.21
3.31
3.31
3.31
3.31
180
11.85
12.66
12.66
–
6.85
6.85
6.85
–
4.68
4.68
4.68
4.21
200
13.19
15.59
15.59
–
8.63
8.63
8.63
–
5.96
5.96
5.96
5.36
225
16.24
18.85
18.85
–
10.67
9.53
9.53
–
7.42
6.37
6.37
5.74
250
17.40
20.41
20.41
20.41
11.04
11.04
11.04
11.04
7.57
7.57
7.57
7.57
280
17.29
26.58
28.72
28.72
10.69
15.96
15.96
15.96
7.40
11.05
11.05
11.05
315 S/M
18.90
19.60
22.10
24.30
15.90
18.00
20.30
22.30
9.60
14.80
14.80
14.80
315 L
18.70
19.50
21.90
24.10
15.90
18.20
20.50
22.60
9.60
18.80
18.80
14.80
355 LB
18.00
34.50
39.00
44.00
17.00
28.00
28.50
29.00
11.00
18.50
19.00
19.50
LOHER VARIO 1PS0 and 1PS1 motors
355 ... 500 Values on request
LOHER CHEMSTAR 1PS5 motors
160
4.98
5.12
5.45
5.45
–
–
–
–
–
–
–
–
180
11.39
11.39
11.39
11.39
6.15
6.15
6.15
6.15
4.21
4.21
4.21
4.21
200
13.19
14.03
14.03
14.03
7.55
7.77
7.77
7.77
5.21
5.36
5.36
5.36
225
16.24
16.97
16.97
16.97
9.16
8.57
8.57
8.57
6.40
5.74
5.74
5.74
250
11.39
18.37
18.37
18.37
6.16
9.94
9.94
9.94
–
6.81
6.81
6.81
280
13.40
25.85
25.85
25.85
7.44
14.36
14.36
14.36
5.15
9.94
9.94
9.94
315 S/M
13.10
19.60
22.10
22.10
7.30
16.80
16.80
16.80
–
11.20
11.20
11.20
315 L
10.60
19.40
21.90
21.90
5.90
13.00
12.50
12.50
–
8.60
8.50
8.50
355
Values on request
LOHER VARIO 1PS4 and 1PS5 motors
355 ... 500 Values on request
SIMOTICS XP 1MD5 motors
160
–
–
–
–
–
–
–
–
–
–
–
–
180
5.65
5.65
5.69
–
–
–
–
–
–
–
–
–
200
9.38
12.57
12.00
–
5.19
6.98
6.65
–
–
4.80
4.59
–
225
15.83
16.97
16.97
–
8.95
8.57
8.57
–
6.24
5.74
5.74
–
250
10.89
18.37
18.37
–
5.95
9.94
9.94
–
–
6.81
6.81
–
280
10.95
25.85
24.08
–
6.08
14.36
13.38
–
–
9.94
9.26
–
315 S/M
9.49
19.90
18.94
–
5.30
9.96
9.48
–
–
6.63
–
–
315 L
6.35
23.06
23.32
–
3.55
12.19
11.67
–
–
8.12
7.77
–
1/44
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Bearings
■ Overview (continued)
Additional axial force with cantilever force on shaft extension
If the shaft extensions are loaded at x = l with the respective
admissible cantilever force FQ, the following additional forces
are permitted to occur in the axial direction. If the admissible
cantilever forces are not exploited to the full, higher loads are
possible in the axial direction (values on request).
1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors
Frame size Additional axial force +FA or -FA
Horizontal shaft
at speed
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
Vertical shaft – force acting upwards
Vertical shaft – force acting downwards
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
3000 rpm 1500 rpm 1000 rpm 750 rpm
kN
kN
kN
kN
LOHER CHEMSTAR 1PS0 and 1PS1 motors
160
1.25
1.71
2.10
2.10
1.43
1.93
2.32
2.32
1.14
1.67
2.11
2.11
180
2.72
3.74
4.46
4.46
3.33
4.41
5.25
5.25
2.33
3.26
3.95
3.95
200
2.77
3.79
4.55
4.55
3.06
4.75
5.62
5.62
1.98
3.17
3.86
3.86
225
3.21
4.38
5.17
5.17
3.54
5.55
6.78
6.78
2.26
3.57
4.14
4.14
250
3.35
4.63
5.51
6.34
4.39
5.96
7.03
7.79
2.61
3.73
4.49
5.38
280
3.39
5.04
6.16
7.26
4.94
7.23
8.62
9.29
2.22
3.43
4.30
5.81
315 S/M
4.20
4.70
5.60
6.40
6.70
7.80
9.20
10.00
2.50
2.60
3.20
4.00
315 L
4.20
4.70
5.50
6.20
7.60
8.80
10.70
11.50
–
1.90
1.90
2.60
355
3.45
5.60
6.90
7.70
8.30
12.40
15.00
15.60
–
0.90
1.50
2.30
LOHER VARIO 1PS0 and 1PS1 motors
355 ... 500 Values on request
LOHER CHEMSTAR 1PS5 motors
160
2.42
3.25
3.76
3.76
–
–
–
–
–
–
–
–
180
2.72
3.74
4.46
4.46
3.33
4.41
5.25
5.25
2.33
3.26
3.95
3.95
200
2.77
3.79
4.55
4.55
3.50
4.75
5.62
5.62
2.27
3.17
3.86
3.86
225
3.21
4.38
5.17
5.17
4.11
5.55
6.78
6.78
2.62
3.57
4.14
4.14
250
3.82
4.76
5.65
6.49
4.86
6.06
7.17
7.94
–
3.86
4.63
5.53
280
3.65
5.20
6.32
7.34
5.22
7.38
8.77
9.46
2.48
3.59
4.46
5.81
315 S/M
4.40
4.70
5.60
6.40
6.90
7.80
9.20
10.00
–
2.60
3.20
4.00
315 L
4.40
4.70
5.50
6.20
7.90
8.80
10.70
11.50
–
1.90
1.90
2.60
355
Values on request
–
LOHER VARIO 1PS4 and 1PS5 motors
355 ... 500 Values on request
SIMOTICS XP 1MD5 motors
160
–
–
–
–
–
–
–
–
–
–
–
180
3.03
3.98
4.81
–
–
–
–
–
–
–
–
–
200
2.99
3.85
4.60
–
3.62
4.63
5.49
–
–
3.35
4.01
–
225
3.21
4.23
5.09
–
4.08
5.38
6.39
–
2.65
3.41
4.27
–
250
3.80
4.65
5.65
–
4.89
6.25
7.18
–
–
3.62
4.69
–
280
3.70
5.11
6.26
–
5.23
7.21
8.20
–
–
3.72
5.00
–
315 S/M
4.34
4.41
5.12
–
6.59
7.35
8.36
–
–
2.20
–
–
315 L
3.70
4.20
5.07
–
6.81
8.53
10.08
–
–
0.59
1.07
–
355
Values on request
Siemens D 83.1 · 2014
1/45
1
© Siemens AG 2014
Introduction
General technical specifications
1
Grease lifetime, relubrication intervals, grease quantities
■ Overview
Motors of the 1PS and 1MD5 type series up to frame size 280
have permanent lubrication. The grease reservoir is sufficient for
several years. Motors of frame size 315 and above are equipped
with a regreasing device and grease dosing control. A regreasing system is available for roller bearings as an option (K40) for
series 1PS and 1MD5 in frame sizes 160 … 280.
Standard bearings
Frame size
Grease lifetime/regreasing interval
for optional relubrication, see values in brackets
in operating hours at rated speed
Horizontal type of construction (B)
3000 rpm
1500 rpm
≤ 1000 rpm
Vertical type of construction (V)
3000 rpm
1500 rpm
≤ 1000 rpm
LOHER CHEMSTAR 1PS0, 1PS1, 1PS5 and SIMOTICS XP 1MD5 motors
71
33000
80
40000
(8000)
40000
(8000)
24000
33000
40000
(8000)
16000
(2800)
26000
(5600)
2800
5600
8000
4000
5600
4000
5600
1400
2800
4000
–
2000
90
100
112
132
160
24000
(4000)
180
200
225
250
280
315
4000
8000
11000
355
LOHER VARIO 1PS0, 1PS1, 1PS4 and 1PS5 motors
355
4000
400
450
2000
500
2000
1/46
Siemens D 83.1 · 2014
8000
11000
2800
5600
8000
2000
4000
5600
© Siemens AG 2014
Introduction
General technical specifications
Grease lifetime, relubrication intervals, grease quantities
■ Overview (continued)
Reinforced bearings
Frame size
Regreasing interval
in operating hours at rated speed
Horizontal type of construction (B)
3000 rpm
1500 rpm
≤ 1000 rpm
Vertical type of construction (V)
3000 rpm
1500 rpm
≤ 1000 rpm
2000
4000
5600
1400
2800
4000
LOHER CHEMSTAR 1PS0, 1PS1, 1PS5 and SIMOTICS XP 1MD5 motors
160
2800
5600
8000
4000
5600
180
200
225
250
2000
280
315
355
2800
LOHER VARIO 1PS0, 1PS1, 1PS4 and 1PS5 motors
355 … 500
Values on request
The specified regreasing intervals are valid for an ambient
temperature of max. 40 °C.
For every 10 °C increase in temperature, the greasing interval
is reduced by a factor of 0.7 of the value in the table (max. 20 °C
= factor 0.5). Intervals for operation on 60 Hz systems on request.
Special aspects of grease lifetime
For VARIO types in vertical types of construction, angular-contact ball bearings or combined bearings are sometimes installed
at NDE. This reduces the grease lifetime for the NDE bearings.
At an ambient temperature of ≤ 25 °C, the grease lifetime can be
expected to be doubled. Due to the durability of the grease in
years, it is limited to a maximum of 40000 h.
The grease lifetime or regreasing interval must be regarded
independently of the mechanical service life of the bearing. In
coupling operation with an elastic coupling, for example, the calculated mechanical service life of the bearing is L10h = 50000 h.
The grease lifetime for permanently lubricated bearings is, however, limited to 40000 h. Regreasing must be performed within
the specified intervals.
The intervals for operation on 60 Hz systems are available on
request. They can be estimated for higher speeds by means of
the following rule.
At speeds above the rated speed on 50 Hz systems, the grease
lifetime and regreasing intervals are reduced. With reference to
the time tf50 at 50 Hz, the reductions are as shown in the table
below.
Reduction in grease lifetime of regreasing interval
The specified regreasing intervals are valid for an ambient temperature of max. 40 °C. For every 15 °C increase in temperature,
the lubrication interval must be reduced to half of the value in the
table.
tf/tf50
Rated frequency
60 Hz
70 Hz
80 Hz
90 Hz
100 Hz
0.75
0.55
0.50
0.45
0.65
Siemens D 83.1 · 2014
1/47
1
© Siemens AG 2014
Introduction
General technical specifications
Position and design of the grounding terminals
■ Overview
2
1
3
G_D083_EN_00035
G_D083_EN_00034
2
1
1 Frame sizes 71
1 LOHER CHEMSTAR Frame sizes 71 to 355
2 Frame sizes 80 to 280
2 LOHER VARIO Frame sizes 355 to 500
3 Frame sizes 315 to 500
Motors with feet, frame sizes 71 to 500
Flange-mounting motors, frame sizes 71 to 500
a
s
Clamping bracket for frame sizes 71 to 112
Frame size
a
b
mm
mm
s
Flat terminal for frame sizes 132 to 500
Conductor
cross-section
mm²
LOHER CHEMSTAR 1PS0 and 1PS1 motors
71 … 112
5.75
–
M5
2.5 … 10
132
7.25
–
M6
6
160 … 180
–
23
M8
1.5 … 35
200 … 225
–
23
M8
1.5 … 70
250 … 280
–
35
M8
1.5 … 70
315 ... 355
–
40
M10
1.5 … 150
M10
1.5 … 120
… 25
LOHER VARIO 1PS0 and 1PS1 motors
355 … 500
–
40
LOHER CHEMSTAR 1PS5 and SIMOTICS XP 1MD5 motors
71 … 112
5.75
–
M5
2.5 … 10
132
–
18
M6
1.5 … 35
160
–
18
M6
1.5 … 35
180 … 225
–
26
M6
1.5 … 35
250 … 280
–
35
M8
1.5 … 70
315
–
40
M10
1.5 … 150
1/48
Siemens D 83.1 · 2014
G_D083_XX_00037
s
b
G_D083_XX_00036
1
© Siemens AG 2014
Introduction
General technical specifications
Measuring-surface sound pressure level
■ Overview
The table below lists the measuring-surface sound pressure
level LpfA as well as the sound power level LWA for motors of the
1PS0 type series without explosion protection and the 1PS4,
1PS5 and 1MD5 type series with the type of protection "Explosion-proof enclosure". The noise values apply to no-load operation at a rated frequency of 50 Hz. The noise measurements are
performed according to DIN EN ISO 1680 in a noise measuring
chamber under no-load conditions. The tolerance is +3 dB(A).
Noise values in converter-fed operation may differ from these
values, because the speed can vary and an increase in the
noise level can be expected due to the non-sinusoidal voltages
and currents.
For a rated frequency of 50 Hz and operation on the
SINAMICS G180 converter, the sound pressure level will increase by approximately 3 dB(A). Noise data is not available for
operation on other SINAMICS types. Noise values in converterfed operation are also dependent on the operating point of the
application and the parameter settings (e.g. clock frequency) of
the converter. Noise values can therefore only be given provisionally for a system controlled by a PWM converter (pulse width
modulation).
As the frequency/speed decreases, the noise level is reduced.
Experience has shown that, with high-quality converters, many
motors under real operating conditions that frequently involve
lower speeds and lower output, generate less noise than a comparable motor in mains-fed operation.
At 60 Hz, the values for 2-pole motors increase by approximately
5 dB(A), and for 4-pole motors or higher pole numbers by
approximately 4 dB(A).
Measuring-surface sound pressure level LpfA and sound power level LWA in no-load operation at fixed voltage for 1PS0, 1PS4, 1PS5 and
1MD5 motors
Frame size
Motors in standard design –
noise class 1
2-pole
3000 rpm
LpfA
LWA
dB
dB
Low-noise motors with fans for one
direction of rotation – noise class 3 1)
4-pole
1500 rpm
LpfA
LWA
dB
dB
6-pole
1000 rpm
LpfA
LWA
dB
dB
8-pole
750 rpm
LpfA
dB
LWA
dB
2-pole
3000 rpm
LpfA
LWA
dB
dB
4-pole
1500 rpm
LpfA
LWA
dB
dB
LOHER CHEMSTAR 1PS0, 1PS5 and SIMOTICS XP 1MD5 motors
71
54
65
46
57
48
59
45
56
–
–
–
–
80
57
68
49
60
48
59
50
61
–
–
–
–
90
62
74
50
61
52
63
52
63
–
–
–
–
100
64
76
54
66
52
64
52
64
–
–
–
–
112
65
77
54
66
55
67
55
67
–
–
–
–
132
68
80
62
74
57
69
57
69
56
68
–
–
160
70
82
65
77
60
72
60
72
61
73
–
–
180
71
84
66
79
61
74
63
76
62
75
–
–
200
75
88
66
79
61
74
63
76
66
79
–
–
225
76
89
69
82
62
75
64
77
67
80
–
–
250
76
90
71
85
62
76
64
78
67
81
–
–
280
78
92
73
87
66
80
66
80
68
82
–
–
315
80
94
73
87
68
82
71
85
70
84
–
–
355
82
97
76
91
74
89
72
87
77
92
–
–
–
LOHER VARIO 2) 1PS0, 1PS4 and 1PS5 motors
355
78
93
76
91
74
89
75
90
74
89.5
–
400
80
95.5
78
93.5
77
92.5
77
92.5
77
93
75
91
450
82
98
80
96
79
95
79
95
79
95
77
93
500
–
–
82
98.5
80
96.5
79
95.5
81
97.5
79
95.5
1)
The motor length (dimension L or LC) increases for noise class 3.
2)
LOHER VARIO 2-pole and 4-pole motors are equipped as standard with
unidirectional fans.
Siemens D 83.1 · 2014
1/49
1
© Siemens AG 2014
Introduction
General technical specifications
Information about electric motor dimensioning
■ Overview
Output
Conversion of output from kW to hp
The rated outputs and operating values specified in the
selection tables apply to duty type S1 in accordance with
EN 60034-1 at a rated frequency of 50 Hz at rated voltage, a
coolant temperature (CT) of up to 40 °C and a site altitude of up
to 1000 m above sea level.
The output can be converted from kW to hp as follows:
1 kW = 1.341 hp
Occasional current overload
In accordance with EN 60034-1, the motors with rated outputs
up to 315 kW are designed to withstand 1.5 times the rated
current for 2 minutes at operating temperature without adversely
affecting the service life. No specifications have been defined
for larger motors.
Site altitude above sea level
1000
100
1500
2000
2500
3000 m 3500
%
95
90
85
80
G_D083_EN_00038
The motors can also be used at a coolant temperature of
between 40 °C and 60 °C or a site altitude of between 1000 m
and 4000 m above sea level. In these cases, the rated output
specified in the selection tables must be reduced in accordance
with the diagram, or a sufficiently larger motor type or higher
temperature class should be selected. If the coolant temperature is reduced at site altitudes of over 1000 m above sea level,
there is no need for a reduction in the rating data.
Reduction factors for increased ambient temperature and site
altitude:
• The motor output can be approximated in accordance with the
following characteristic curve.
Power of the rated output
1
75
70
40
45
50
55 °C
Coolant temperature (CT)
60
• The following derating tables are superordinately applicable
for the 1PS motor series in mains-fed operation.
• In converter-fed operation, the derating factor applies in accordance with the curve.
1/50
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Coolant temperature and site altitudes
■ Overview
SIMOTICS XP 1MD5 motors
The rated output specified in the selection tables is applicable
for continuous duty in accordance with EN 60034-1 at the
frequency of 50 Hz, a coolant temperature (CT) or ambient
temperature of 40 °C and a site altitude (SA) up to 1000 m above
sea level.
Reduction factor kHT for different site altitudes and/or coolant
temperatures
Site altitude
above sea level
1000 m
Coolant temperature
40 °C
45 °C
50 °C
1.00
0.96
0.92
For higher coolant temperatures and/or site altitudes greater
than 1000 m above sea level, the specified motor output must be
reduced using the factor kHT .
The coolant temperature is rounded up to the next 5 °C.
This results in an admissible output of the motor of:
For motors of the LOHER CHEMSTAR series, the outputs or
reduced outputs listed in the following tables apply for the
specified coolant temperatures and site altitudes for a winding
utilization of 130 °C (B). The options specified here must be
explicitly ordered. The coolant temperature and output are
stamped on the rating plate.
Padm = Prated · kHT
Padm Admissible motor output in kW
Prated Rated output in kW
Factor for abnormal coolant temperature and/or
kHT
site altitude
LOHER CHEMSTAR
If the admissible motor output is no longer adequate for the
drive, it should be checked whether the motor with the next
higher rated output fulfills the requirements.
The motors are designed for temperature class 155 (F) and
utilized in temperature class 130 (B). Under non-standard
operating conditions, if they are to be used in this class, the
admissible output must be determined from the tables below.
If the coolant temperature differs from the standard +40 °C, for
compliance with explosion protection standards the option C22
for +45 °C or C23 for +50 °C must be selected for the applicable
coolant temperature. The maximum coolant temperature as well
as the reduced output are stamped on the rating plate.
Siemens D 83.1 · 2014
1/51
1
© Siemens AG 2014
Introduction
General technical specifications
1
Coolant temperature and site altitudes
■ Overview (continued)
1PS0 and 1PS1 motors
Derating tables for increased ambient temperatures and site altitudes
Type
Motor type
IE class
Rated output for
standard version
Rated output for ambient temperature and site altitude
Additional identification code -Z with appropriate order codes
≤ +40 °C, ≤ 1000 m
+45 °C, 1000 m
D11
+50 °C, 1000 m
D12
+55 °C, 1000 m
D13
+40 °C, 1500 m
D06
+45 °C, 1500 m
D11+D06
+50 °C, 1500 m
D12+D06
+40 °C, 2000 m
D07
+45 °C, 2000 m
D11+D07
+40 °C, 2500 m
D08
Winding utilization 130 °C (B)
Prated
Padm
Padm
Padm
kW
kW
kW
kW
1.5
1PS0 and 1PS1 motors – 2-pole
1PS.095-.BD..-.AA3
ANG.-090LR-02
IE2
1.5
1.5
1.5
1PS.096-.BD..-.AA3
ANG.-090LS-02
IE2
2.2
2.2
2.2
2.2
1PS.106-.BD..-.AA3
ANG.-100LS-02
IE2
3
3
3
3
1PS.113-.BD..-.AA3
ANG.-112MS-02
IE2
4
4
4
4
1PS.130-.BD..-.AA3
ANG.-132SR-02
IE2
5.5
5.5
5.5
5.5
1PS.132-.BD..-.AA3
ANG.-132SS-02
IE2
7.5
7.5
7.5
7.5
1PS.163-.BD..-.AA3
ANG.-160MR-02
IE2
11
11
11
11
1PS.165-.BD..-.AA3
ANG.-160MS-02
IE2
15
15
15
15
1PS.166-.BD..-.AA3
ANG.-160LS-02
IE2
18.5
18.5
18.5
18.5
1PS.183-.BD..-.AA3
ANG.-180MS-02
IE2
22
22
22
22
1PS.206-.BD..-.AA3
ANG.-200LR-02
IE2
30
30
30
30
1PS.208-.BD..-.AA3
ANG.-200LS-02
IE2
37
37
37
37
1PS.223-.BD..-.AA3
ANG.-225MS-02
IE2
45
45
45
45
1PS.253-.BD..-.AA3
ANG.-250MM-02
IE2
55
55
55
50
1PS.280-.BD..-.AA3
ANG.-280SL-02
IE2
75
75
75
75
1PS.283-.BD..-.AA3
ANG.-280MM-02
IE2
90
90
90
90
1PS.311-.BD..-.AA3
ANG.-315SL-02
IE2
110
110
110
110
1PS.313-.BD..-.AA3
ANG.-315ML-02
IE2
132
132
120 1)
110 1)
160
145
1)
135 1)
180
1)
170 1)
230
1)
210 1)
1PS.315-.BD..-.AA3
1PS.316-.BD..-.AA3
ANG.-315MN-02
ANG.-315LL-02
IE2
IE2
160
200
190
1)
1)
1PS.318-.BD..-.AA3
ANG.-315LN-02
IE2
250
240
1PS.356-.BD..-.AA0
ANG.-355LB-02
IE2
315
300
290
275
1PS.357-.BH..-.AA0
ANS.-355LC-02
IE2
355
340
325
310
1PS.358-.BH..-.AA0
ANS.-355LD-02
2)
400
380
365
350
1PS.358-.BJ..-.AA2
ANS.-355LX-02
2)
450
430
410
395
1PS.404-.BJ..-.AA0
ANS.-400LL-02
2)
450
430
410
395
1PS.405-.BJ..-.AA0
ANS.-400LN-02
2)
500
480
460
440
1PS.407-.BJ..-.AA0
ANS.-400LN-02
2)
560
535
515
490
1PS.408-.BJ..-.AA0
ANS.-400LX-02
2)
630
605
580
550
1PS.453-.BJ..-.AA0
ANS.-450LL-02
2)
630
605
580
550
1PS.455-.BJ..-.AA0
ANS.-450LL-02
2)
710
680
650
625
1PS.457-.BJ..-.AA0
ANS.-450LN-02
2)
800
765
735
700
1PS.458-.BJ..-.AA0
ANS.-450LN-02
2)
900
860
825
790
1PS.505-.BJ..-.AA0
ANS.-500LL-02
2)
1000
960
920
880
1PS.508-.BJ..-.AA0
ANS.-500LN-02
2)
1200
1150
1100
1055
For footnotes, see Page 1/54.
1/52
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Coolant temperature and site altitudes
■ Overview (continued)
Type
Motor type
IE class
Rated output for
standard version
Rated output for ambient temperature and site altitude
Additional identification code -Z with appropriate order codes
≤ +40 °C, ≤ 1000 m
+45 °C, 1000 m
D11
+50 °C, 1000 m
D12
+55 °C, 1000 m
D13
+40 °C, 1500 m
D06
+45 °C, 1500 m
D11+D06
+50 °C, 1500 m
D12+D06
+40 °C, 2000 m
D07
+45 °C, 2000 m
D11+D07
+40 °C, 2500 m
D08
Winding utilization 130 °C (B)
Prated
Padm
Padm
Padm
kW
kW
kW
kW
1PS0 and 1PS1 motors – 4-pole
1PS.095-.BD..-.BA3
ANG.-090LR-04
IE2
1.1
1.1
1.1
1.1
1PS.096-.BD..-.BA3
ANG.-090LS-04
IE2
1.5
1.5
1.5
1.5
1PS.106-.BD..-.BA3
ANG.-100LR-04
IE2
2.2
2.2
2.2
2.2
1PS.108-.BD..-.BA3
ANG.-100LS-04
IE2
3
3
3
3
1PS.113-.BD..-.BA3
ANG.-112MS-04
IE2
4
4
4
4
1PS.130-.BD..-.BA3
ANG.-132SR-04
IE2
5.5
5.5
5.5
5.5
1PS.133-.BD..-.BA3
ANG.-132MS-04
IE2
7.5
7.5
7.5
7.5
1PS.163-.BD..-.BA3
ANG.-160MR-04
IE2
11
11
11
11
1PS.166-.BD..-.BA3
ANG.-160LS-04
IE2
15
15
15
15
1PS.183-.BD..-.BA3
ANG.-180MR-04
IE2
18.5
18.5
18.5
18.5
1PS.186-.BD..-.BA3
ANG.-180LS-04
IE2
22
22
22
22
1PS.206-.BD..-.BA3
ANG.-200LS-04
IE2
30
30
30
30
1PS.220-.BD..-.BA3
ANG.-225SR-04
IE2
37
37
37
37
1PS.223-.BD..-.BA3
ANG.-225MS-04
IE2
45
45
45
45
1PS.253-.BD..-.BA3
ANG.-250MM-04
IE2
55
55
55
50
1PS.280-.BD..-.BA3
ANG.-280SL-04
IE2
75
75
75
75
1PS.283-.BD..-.BA3
ANG.-280MM-04
IE2
90
90
90
90
1PS.311-.BD..-.BA3
ANG.-315SL-04
IE2
110
110
110
100 1)
1PS.313-.BD..-.BA3
ANG.-315ML-04
IE2
132
132
132
1PS.315-.BD..-.BA3
1PS.316-.BD..-.BA3
1PS.317-.BD..-.BA3
1PS.356-.BD..-.BA2
1PS.356-.BD..-.BB2
ANG.-315MN-04
ANG.-315LL-04
ANG.-315LM-04
ANG.-355LB-04
ANG.-355LB-04
IE2
IE2
IE2
IE2
IE2
160
200
250
280
315
160
190
1)
240
1)
265
1)
300
1)
1)
120 1)
145
1)
135 1)
180
1)
170 1)
230
1)
210 1)
255
1)
240 1)
290
1)
275 1)
325
1)
310 1)
1PS.358-.BH..-.BA0
ANS.-355LC-04
IE2
355
340
1PS.350-.BH..-.BA0
ANS.-355LD-04
2)
400
380 1)
365 1)
350 1)
1PS.357-.BJ..-.BA0
ANS.-355LN-04
2)
450
430 1)
410 1)
395 1)
ANS.-355LX-04
2)
500
480
1)
460
1)
440 1)
ANS.-400LL-04
2)
480
1)
460
1)
440 1)
ANS.-400LN-04
2)
535
1)
515
1)
490 1)
ANS.-400LN-04
2)
600
1)
580
1)
550 1)
ANS.-400LX-04
2)
680
1)
650
1)
620 1)
ANS.-450LL-04
2)
765
1)
735
1)
700 1)
ANS.-450LN-04
2)
860
1)
825
1)
790 1)
1PS.458-.BJ..-.BA0
ANS.-450LN-04
2)
950
910
1)
870
1)
835 1)
1PS.504-.BJ..-.BA0
ANS.-500LL-04
2)
1000
690 1)
920 1)
880 1)
1PS.505-.BJ..-.BA0
ANS.-500LL-04
2)
1120
1075 1)
1030 1)
985 1)
ANS.-500LN-04
2)
1250
1200
1)
1150
1)
1100 1)
ANS.-500LN-04
2)
1340
1)
1280
1)
1230 1)
1PS.358-.BJ..-.BA0
1PS.404-.BJ..-.BA0
1PS.405-.BJ..-.BA0
1PS.407-.BJ..-.BA0
1PS.408-.BJ..-.BA0
1PS.455-.BJ..-.BA0
1PS.457-.BJ..-.BA0
1PS.507-.BJ..-.BA0
1PS.508-.BJ..-.BA0
500
560
630
710
800
900
1400
For footnotes, see Page 1/54.
Siemens D 83.1 · 2014
1/53
1
© Siemens AG 2014
Introduction
General technical specifications
1
Coolant temperature and site altitudes
■ Overview (continued)
Type
Motor type
IE class
Rated output for
standard version
Rated output for ambient temperature and site altitude
Additional identification code -Z with appropriate order codes
≤ +40 °C, ≤ 1000 m
+45 °C, 1000 m
D11
+50 °C, 1000 m
D12
+55 °C, 1000 m
D13
+40 °C, 1500 m
D06
+45 °C, 1500 m
D11+D06
+50 °C, 1500 m
D12+D06
+40 °C, 2000 m
D07
+45 °C, 2000 m
D11+D07
+40 °C, 2500 m
D08
Winding utilization 130 °C (B)
Prated
Padm
Padm
Padm
kW
kW
kW
kW
1PS0 and 1PS1 motors – 6-pole
1PS.095-.BD..-.CA3
ANG.-090LR-06
IE2
0.75
0.75
0.75
0.75
1PS.096-.BD..-.CA3
ANG.-090LS-06
IE2
1.1
1.1
1.1
1.1
1PS.106-.BD..-.CA3
ANG.-100LS-06
IE2
1.5
1.5
1.5
1.5
1PS.113-.BD..-.CA3
ANG.-112MS-06
IE2
2.2
2.2
2.2
2.2
1PS.130-.BD..-.CA3
ANG.-132SR-06
IE2
3
3
3
3
1PS.133-.BD..-.CA3
ANG.-132MR-06
IE2
4
4
4
4
1PS.135-.BD..-.CA3
ANG.-132MS-06
IE2
5.5
5.5
5.5
5 1)
1PS.163-.BD..-.CA3
ANG.-160MR-06
IE2
7.5
7.5
7.5
7.5
1PS.166-.BD..-.CA3
ANG.-160LS-06
IE2
11
11
11
11
1PS.186-.BD..-.CA3
ANG.-180LS-06
IE2
15
15
15
15
1PS.206-.BD..-.CA3
ANG.-200LR-06
IE2
18.5
18.5
18.5
18.5
1PS.208-.BD..-.CA3
ANG.-200LS-06
IE2
22
22
22
22
1PS.223-.BD..-.CA3
ANG.-225MS-06
IE2
30
30
30
30
1PS.253-.BD..-.CA3
ANG.-250MM-06
IE2
37
37
37
37
1PS.280-.BD..-.CA3
ANG.-280SL-06
IE2
45
45
45
45
1PS.283-.BD..-.CA3
ANG.-280MM-06
IE2
55
55
55
55
1PS.311-.BD..-.CA3
ANG.-315SL-06
IE2
75
75
75
75
1PS.313-.BD..-.CA3
ANG.-315ML-06
IE2
90
90
90
90
1PS.314-.BD..-.CA3
ANG.-315MM-06
IE2
110
110
110
110
1PS.315-.BD..-.CA3
ANG.-315MN-06
IE2
132
132
132
1PS.316-.BD..-.CA3
ANG.-315LL-06
1PS.317-.BD..-.CA3
ANG.-315LM-06
1PS.317-.BD..-.CB3
ANG.-315LM-06 3)
1PS.356-.BD..-.CB0
1PS.357-.BH..-.CB0
1PS.358-.BH..-.CB0
1PS.357-.BJ..-.CB0
1PS.358-.BJ..-.CB0
1PS.404-.BJ..-.CB0
1PS.405-.BJ..-.CB0
1PS.407-.BJ..-.CB0
1PS.453-.BJ..-.CB0
1PS.455-.BJ..-.CB0
1PS.457-.BJ..-.CB0
1PS.458-.BJ..-.CB0
1PS.505-.BJ..-.CB0
1PS.507-.BJ..-.CB0
1PS.508-.BJ..-.CB0
1)
ANG.-355LB-06
ANS.-355LC-06
ANS.-355LD-06
IE2
IE2
IE2
IE2
IE2
IE2
ANS.-355LN-06
IE2
ANS.-355LN-06
2)
ANS.-400LL-06
2)
ANS.-400LN-06
2)
ANS.-400LN-06
2)
ANS.-450LL-06
2)
ANS.-450LL-06
2)
ANS.-450LN-06
2)
ANS.-450LN-06
2)
ANS.-500LL-06
2)
ANS.-500LN-06
2)
ANS.-500LN-06
2)
160
200
200
250
280
315
355
400
400
450
500
560
630
710
800
900
1000
1120
Alternative combination with Option C29 "Rated output of the lower output
level". Please inquire regarding higher ambient temperatures and other
combinations.
1/54
Siemens D 83.1 · 2014
160
180
1)
190
1)
240
1)
265
1)
300
1)
340
1)
380
1)
380
1)
430
1)
480
1)
535
1)
600
1)
680
1)
765
1)
860
1)
960
1)
1075
1)
120 1)
145
1)
135 1)
170
1)
160 1)
180
1)
170 1)
230
1)
220 1)
255
1)
245 1)
290
1)
275 1)
325
1)
310 1)
365
1)
350 1)
365
1)
350 1)
410
1)
395 1)
460
1)
440 1)
515
1)
490 1)
580
1)
550 1)
650
1)
620 1)
735
1)
700 1)
825
1)
790 1)
920
1)
880 1)
1030
1)
985 1)
2)
Outside the IE code classification according to IEC 60034-30.
3)
Special rotors with copper bars.
© Siemens AG 2014
Introduction
General technical specifications
Coolant temperature and site altitudes
■ Overview (continued)
1PS4 and 1PS5 motors – type of protection "Explosion-proof enclosure"
Derating tables for increased ambient temperatures and site altitudes
Type
Motor type
IE class
Rated output for
standard version
Rated output for ambient temperature and site altitude
Additional identification code -Z with appropriate order codes
≤ +40 °C, ≤ 1000 m
≤ +45 °C, ≤ 1000 m ≤ +50 °C, ≤ 1000 m ≤ +55 °C, ≤ 1000 m
D11
D12
D13
≤ +40 °C, ≤ 1500 m ≤ +45 °C, ≤ 1500 m ≤ +50 °C, ≤ 1500 m
D06
D11+D06
D12+D06
≤ +40 °C, ≤ 2000 m ≤ +45 °C, ≤ 2000 m
D07
D11+D07
≤ +40 °C, ≤ 2500 m
D08
Winding utilization 130 °C (B)
Prated
Padm
Padm
Padm
kW
kW
kW
kW
1PS4 and 1PS5 motors – 2-pole
1PS5070-.BD..-4AA3
DNGW-071BR-02
1)
0.37
0.37
0.37
0.37
1PS5071-.BD..-4AA3
DNGW-071BS-02
1)
0.55
0.55
0.55
0.55
1PS5081-.BD..-4AA3
DNGW-080BR-02
IE2
0.75
0.75
0.75
0.75
1PS5081-.BD..-4AA3
DNGW-080BS-02
IE2
1.1
1.1
1.1
1.1
1PS5095-.BD..-4AA3
DNGW-090LR-02
IE2
1.5
1.5
1.5
1.5
1PS5098-.BD..-4AA3
DNGW-090LS-02
IE2
2.2
2.2
2.2
2.2
1PS5106-.BD..-4AA3
DNGW-100LS-02
IE2
3
3
3
3
1PS5113-.BD..-4AA3
DNGW-112MS-02
IE2
4
4
4
4
1PS5131-.BD..-4AA3
DNGW-132SR-02
IE2
5.5
5.5
5.5
5.5
1PS5132-.BD..-4AA3
DNGW-132SS-02
IE2
7.5
7.5
7.5
7.5
1PS5163-.BD..-4AA3
DNGW-160MR-02
IE2
11
11
11
11
1PS5165-.BD..-4AA3
DNGW-160MS-02
IE2
15
15
15
15
1PS5166-.BD..-4AA3
DNGW-160LS-02
IE2
18.5
18.5
18.5
18.5
1PS5183-.BD..-4AA3
DNGW-180MS-02
IE2
22
22
22
22
1PS5206-.BD..-4AA3
DNGW-200LR-02
IE2
30
30
30
30
1PS5208-.BD..-4AA3
DNGW-200LS-02
IE2
37
37
37
37
1PS5223-.BD..-4AA3
DNGW-225MS-02
IE2
45
45
45
45
1PS5253-.BD..-4AA3
DNGW-250MM-02
IE2
55
55
55
50
1PS5280-.BD..-4AA3
DNGW-280SL-02
IE2
75
75
75
75
1PS5283-.BD..-4AA3
DNGW-280MM-02
IE2
90
90
90
90
1PS5311-.BD..-4AA3
DNGW-315SL-02
IE2
110
110
110
110
1PS5313-.BD..-4AA3
DNGW-315ML-02
IE2
132
132
120 2)
110 2)
160
145
2)
135 2)
180
2)
170 2)
230
2)
210 2)
290
2)
275 2)
1PS5315-.BD..-4AA3
1PS5316-.BD..-4AA3
1PS5318-.BD..-4AA3
DNGW-315MN-02
DNGW-315LL-02
DNGW-315LN-02
IE2
IE2
IE2
160
200
250
190
2)
240
2)
2)
1PS5353-.BD..-4AA3
DNGW-355MR-02
IE2
315
300
1PS5355-.BD..-4AA3
DNGW-355MS-02
IE2
360
340
330
315
1PS5357-.BD..-4AA3
DNGW-355MT-02
1)
460
440
430
405
1PS.358-.BH..-4AA0
DNS.-355LD-02
1)
400
380 2)
365 2)
350 2)
1PS.358-.BJ..-4AA0
DNS.-355LX-02
1)
450
430 2)
410 2)
395 2)
1PS.404-.BJ..-4AA0
DNS.-400LL-02
1)
450
430 2)
410 2)
395 2)
DNS.-400LN-02
1)
500
480
2)
460
2)
440 2)
DNS.-400LN-02
1)
535
2)
515
2)
490 2)
DNS.-400LX-02
1)
605
2)
580
2)
550 2)
DNS.-450LL-02
1)
605
2)
580
2)
550 2)
DNS.-450LL-02
1)
680
2)
650
2)
625 2)
DNS.-450LN-02
1)
765
2)
735
2)
700 2)
1PS.458-.BJ..-4AA0
DNS.-450LN-02
1)
900
860
2)
825
2)
790 2)
1PS.505-.BJ..-4AA0
DNS.-500LL-02
1)
1000
960 2)
920 2)
880 2)
1PS.508-.BJ..-4AA0
DNS.-500LN-02
1)
1200
1150 2)
1100 2)
1055 2)
1PS.405-.BJ..-4AA0
1PS.407-.BJ..-4AA0
1PS.408-.BJ..-4AA0
1PS.453-.BJ..-4AA0
1PS.455-.BJ..-4AA0
1PS.457-.BJ..-4AA0
560
630
630
710
800
For footnotes, see Page 1/57.
Siemens D 83.1 · 2014
1/55
1
© Siemens AG 2014
Introduction
General technical specifications
1
Coolant temperature and site altitudes
■ Overview (continued)
Type
Motor type
IE class
Rated output for
standard version
Rated output for ambient temperature and site altitude
Additional identification code -Z with appropriate order codes
≤ +40 °C, ≤ 1000 m
≤ +45 °C, ≤ 1000 m ≤ +50 °C, ≤ 1000 m ≤ +55 °C, ≤ 1000 m
D11
D12
D13
≤ +40 °C, ≤ 1500 m ≤ +45 °C, ≤ 1500 m ≤ +50 °C, ≤ 1500 m
D06
D11+D06
D12+D06
≤ +40 °C, ≤ 2000 m ≤ +45 °C, ≤ 2000 m
D07
D11+D07
≤ +40 °C, ≤ 2500 m
D08
Winding utilization 130 °C (B)
Prated
Padm
Padm
Padm
kW
kW
kW
kW
1PS4 and 1PS5 motors – 4-pole
1PS5070-.BD..-4BA3
DNGW-071BR-04
1)
0.25
0.25
0.25
0.25
1PS5071-.BD..-4BA3
DNGW-071BS-04
1)
0.37
0.37
0.37
0.37
1PS5080-.BD..-4BA3
DNGW-080BR-04
1)
0.55
0.55
0.55
0.55
1PS5081-.BD..-4BA3
DNGW-080BS-04
IE2
0.75
0.75
0.75
0.75
1PS5095-.BD..-4BA3
DNGW-090LR-04
IE2
1.1
1.1
1.1
1.1
1PS5098-.BD..-4BA3
DNGW-090LS-04
IE2
1.5
1.5
1.5
1.5
1PS5106-.BD..-4BA3
DNGW-100LR-04
IE2
2.2
2.2
2.2
2.2
1PS5108-.BD..-4BA3
DNGW-100LS-04
IE2
3
3
3
3
1PS5113-.BD..-4BA3
DNGW-112MS-04
IE2
4
4
4
4
1PS5131-.BD..-4BA3
DNGW-132SR-04
IE2
5.5
5.5
5.5
5.5
1PS5133-.BD..-4BA3
DNGW-132MS-04
IE2
7.5
7.5
7.5
7.5
1PS5163-.BD..-4BA3
DNGW-160MR-04
IE2
11
11
11
11
1PS5166-.BD..-4BA3
DNGW-160LS-04
IE2
15
15
15
15
1PS5183-.BD..-4BA3
DNGW-180MR-04
IE2
18.5
18.5
18.5
18.5
1PS5186-.BD..-4BA3
DNGW-180LS-04
IE2
22
22
22
22
1PS5206-.BD..-4BA3
DNGW-200LS-04
IE2
30
30
30
30
1PS5220-.BD..-4BA3
DNGW-225SR-04
IE2
37
37
37
37
1PS5223-.BD..-4BA3
DNGW-225MS-04
IE2
45
45
45
45
1PS5253-.BD..-4BA3
DNGW-250MM-04
IE2
55
55
55
50
1PS5280-.BD..-4BA3
DNGW-280SL-04
IE2
75
75
75
75
1PS5283-.BD..-4BA3
DNGW-280MM-04
IE2
90
90
90
90
1PS5311-.BD..-4BA3
DNGW-315SL-04
IE2
110
110
110
100 2)
1PS5313-.BD..-4BA3
DNGW-315ML-04
IE2
132
132
132
1PS5315-.BD..-4BA3
1PS5316-.BD..-4BA3
1PS5317-.BD..-4BA3
DNGW-315MN-04
DNGW-315LL-04
DNGW-315LM-04
IE2
IE2
IE2
160
200
250
160
190
2)
240
2)
2)
120 2)
145
2)
135 2)
180
2)
170 2)
230
2)
210 2)
290
2)
275 2)
1PS5353-.BD..-4BA3
DNGW-355MR-04
IE2
315
300
1PS5355-.BD..-4BA3
DNGW-355MS-04
IE2
360
340
330
315
1PS5357-.BD..-4BA3
DNGW-355MT-04
1)
450
440
430
405
1PS.350-.BH..-4BA0
DNS.-355LD-04
1)
400
380 2)
365 2)
350 2)
DNS.-355LN-04
1)
450
430
2)
410
2)
395 2)
DNS.-355LX-04
1)
480
2)
460
2)
440 2)
DNS.-400LL-04
1)
480
2)
460
2)
440 2)
DNS.-400LN-04
1)
535
2)
515
2)
490 2)
1PS.407-.BJ..-4BA0
DNS.-400LN-04
1)
630
600
2)
580
2)
550 2)
1PS.408-.BJ..-4BA0
DNS.-400LX-04
1)
710
680 2)
650 2)
620 2)
1PS.455-.BJ..-4BA0
DNS.-450LL-04
1)
800
765 2)
735 2)
700 2)
1PS.457-.BJ..-4BA0
DNS.-450LN-04
1)
900
860 2)
825 2)
790 2)
DNS.-450LN-04
1)
950
910
2)
870
2)
835 2)
DNS.-500LL-04
1)
960
2)
920
2)
880 2)
DNS.-500LL-04
1)
DNS.-500LN-04
1)
DNS.-500LN-04
1)
1PS.357-.BJ..-4BA0
1PS.358-.BJ..-4BA0
1PS.404-.BJ..-4BA0
1PS.405-.BJ..-4BA0
1PS.458-.BJ..-4BA0
1PS.504-.BJ..-4BA0
1PS.505-.BJ..-4BA0
1PS.507-.BJ..-4BA0
1PS.508-.BJ..-4BA0
For footnotes, see Page 1/57.
1/56
Siemens D 83.1 · 2014
500
500
560
1000
1120
1250
1400
1075
2)
1200
2)
1340
2)
1030
2)
985 2)
1150
2)
1100 2)
1280
2)
1230 2)
© Siemens AG 2014
Introduction
General technical specifications
Coolant temperature and site altitudes
■ Overview (continued)
Type
Motor type
1PS4 and 1PS5 motors – 6-pole
1PS5071-.BD..-4CA3
DNGW-071BS-06
1PS5080-.BD..-4CA3
DNGW-080BR-06
1PS5081-.BD..-4CA3
DNGW-080BS-06
1PS5095-.BD..-4CA3
DNGW-090LR-06
1PS5098-.BD..-4CA3
DNGW-090LS-06
1PS5106-.BD..-4CA3
DNGW-100LS-06
1PS5113-.BD..-4CA3
DNGW-112MS-06
1PS5131-.BD..-4CA3
DNGW-132SR-06
1PS5133-.BD..-4CA3
DNGW-132MR-06
1PS5135-.BD..-4CA3
DNGW-132MS-06
1PS5163-.BD..-4CA3
DNGW-160MR-06
1PS5166-.BD..-4CA3
DNGW-160LS-06
1PS5186-.BD..-4CA3
DNGW-180LS-06
1PS5206-.BD..-4CA3
DNGW-200LR-06
1PS5208-.BD..-4CA3
DNGW-200LS-06
1PS5223-.BD..-4CA3
DNGW-225MS-06
1PS5253-.BD..-4CA3
DNGW-250MM-06
1PS5280-.BD..-4CA3
DNGW-280SL-06
1PS5283-.BD..-4CA3
DNGW-280MM-06
1PS5311-.BD..-4CA3
DNGW-315SL-06
1PS5313-.BD..-4CA3
DNGW-315ML-06
1PS5314-.BD..-4CA3
DNGW-315MM-06
1PS5315-.BD..-4CA3
DNGW-315MN-06
1PS5316-.BD..-4CA3
DNGW-315LL-06
1PS5317-.BD..-4CA3
DNGW-315LM-06 3)
1PS5353-.BD..-4CA3
DNGW-355MR-06
1PS5355-.BD..-4CA3
DNGW-355MS-06
1PS5357-.BD..-4CA3
DNGW-355MT-06
1PS.357-.BJ..-4CA0
DNS.-355LN-06
1PS.358-.BJ..-4CA0
DNS.-355LN-06
1PS.404-.BJ..-4CA0
DNS.-400LL-06
1PS.405-.BJ..-4CA0
DNS.-400LN-06
1PS.407-.BJ..-4CA0
DNS.-400LN-06
1PS.453-.BJ..-4CA0
DNS.-450LL-06
1PS.455-.BJ..-4CA0
DNS.-450LL-06
1PS.457-.BJ..-4CA0
DNS.-450LN-06
1PS.458-.BJ..-4CA0
DNS.-450LN-06
1PS.505-.BJ..-4CA0
DNS.-500LL-06
1PS.507-.BJ..-4CA0
DNS.-500LN-06
1PS.508-.BJ..-4CA0
DNS.-500LN-06
IE class
1)
1)
1)
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
IE2
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
Rated output for
standard version
≤ +40 °C, ≤ 1000 m
Prated
kW
Rated output for ambient temperature and site altitude
Additional identification code -Z with appropriate order codes
≤ +45 °C, ≤ 1000 m ≤ +50 °C, ≤ 1000 m ≤ +55 °C, ≤ 1000 m
D11
D12
D13
≤ +40 °C, ≤ 1500 m ≤ +45 °C, ≤ 1500 m ≤ +50 °C, ≤ 1500 m
D06
D11+D06
D12+D06
≤ +40 °C, ≤ 2000 m ≤ +45 °C, ≤ 2000 m
D07
D11+D07
≤ +40 °C, ≤ 2500 m
D08
Winding utilization 130 °C (B)
Padm
Padm
Padm
kW
kW
kW
0.25
0.37
0.55
0.75
1.1
1.5
2.2
3
4
5.5
7.5
11
15
18.5
22
30
37
45
55
75
90
110
132
160
200
280
315
360
355
400
400
450
500
560
630
710
800
900
1000
1120
0.25
0.37
0.55
0.75
1.1
1.5
2.2
3
4
5.5
7.5
11
15
18.5
22
30
37
45
55
75
90
110
132
160
180 2)
260 2)
300
340
340 2)
380 2)
380 2)
430 2)
480 2)
535 2)
600 2)
680 2)
765 2)
860 2)
960 2)
1075 2)
1)
Outside the IE code classification according to IEC 60034-30.
2)
Alternative combination with Option C29 "Rated output of the lower output
level". Please inquire regarding higher ambient temperatures and other
combinations.
3)
0.25
0.37
0.55
0.75
1.1
1.5
2.2
3
4
5.5
7.5
11
15
18.5
22
30
37
45
55
75
90
110
132
145 2)
170 2)
250 2)
280
330
325 2)
365 2)
365 2)
410 2)
460 2)
515 2)
580 2)
650 2)
735 2)
825 2)
920 2)
1030 2)
0.25
0.37
0.55
0.75
1.1
1.5
2.2
3
4
5 2)
7.5
11
15
18.5
22
30
37
45
55
75
90
110
120 2)
135 2)
160 2)
240 2)
270
305
310 2)
350 2)
350 2)
395 2)
440 2)
490 2)
550 2)
620 2)
700 2)
790 2)
880 2)
985 2)
For +40 °C/+1000 m utilization F.
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
1
VIK design
■ Overview
On request, three-phase motors of the LOHER CHEMSTAR 1PS
and SIMOTICS XP 1MD5 series can be designed in accordance
with VIK guidelines ("Verband der Industriellen Energie- und
Kraftwirtschaft e. V.", the Association of the Industrial Energy and
Power Industry). VIK motors have the same output as the motors
of this list, but also satisfy the VIK recommendation both mechanically and electrically. The most important points of the
minimum design to the VIK recommendation of March 2011 are
outlined in the table below.
VIK recommendation
1PS or 1MD5 design
Motor housing and terminal box in cast-iron, steel is permitted for
frame size 355 and above
LOHER CHEMSTAR in cast-iron as standard
LOHER VARIO in steel as standard
Standard temperature range -20 to +40 °C
Standard
Paint finish suitable for industrial climates with corrosive gases and vapors
Paint system N14A or higher quality
Fan covers must be designed with corrosion protection
Fan cover of zinc-plated sheet steel or increased wall thickness
The motor compartment must be protected to prevent any small parts
entering through the terminal box
Flexible implementation for 1PS0 and 1PS1. For 1PS5 and 1MD5 this
separation is standard due to the Ex type of protection.
Terminal box of minimum size and rotatable 4 × 90°, observe derating
factors regarding the load on cables and wires
The required size and conductor cross-sections as well as rotation
capability correspond to the standard design of 1PS and 1MD5,
wire cross-sections are adapted
Nominal bearing lifetime 40000 h for coupling drive, the grease lifetime
can be different or use of regreasing device
Standard for 1PS and 1MD5
Flat grease nipples are used with regreasing device
Efficiency at least IE2 also for explosion-proof motors
Standard
Defined noise emission limits
Standard
Motors in explosion-proof enclosures and optionally selected PTC
thermistors must be designed for sole protection
1PS5 and 1MD5 with PTC thermistors (A11) are designed for VIK (K30)
with sole protection (no converter rating plates).
In larger industrial motors, sole protection is only provided and stamped
as such for converter-fed operation.
For converter-fed operation, the bearing at NDE must be insulated in
frame size 315 and above
Options for converter-fed operation are not included in the VIK options
and must be ordered separately. If mains-operated motors with
explosion-proof enclosures and PTC thermistors are subsequently used
for converter-fed operation, insulated bearings must be retrofitted by the
customer.
Motors in type of protection Ex d must be constructed with Ex e terminal
boxes and must fulfill IIC type of protection in frame size 315 and below
Standard
Minimum requirements for the documentation
Documentation is not included with the VIK design (K30 or W09) and
must be ordered separately
1/58
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview
Three-phase brake motors with cage rotor
Due to the demands of modern manufacturing systems, the
brake motor has become a special drive component in machine
construction. In the rationalization of machines, in addition to the
requirement for higher working speeds in switching operation,
there is a demand for shortening the non-productive intervals.
The brake motor ensures short braking times for the rotating
masses, even with a high switching frequency. Another important application of brake motors is in stopping loads and reversing torques. The 1PS0 brake motor comprises a three-phase
induction motor that is combined with a brake in a single unit.
Benefits
Thanks to its compact design, the brake motor is a useful
component in drive technology wherever minimum braking time
is a priority. The familiar advantages of the three-phase induction
motor with a squirrel-cage rotor are also retained. This brake
motor is suitable for multi-faceted customer-specific application
cases. It can be used both for switching operation at a high
switching frequency, a high follow-on accuracy and longer service life and as a high-power brake motor with a large operating
capacity. The right brake size must be selected for the application. The brake motor is also particularly suitable for driving
hoists and traversing gear.
The brake motors have the following properties:
7 Short switching times
7 High operational reliability
7 A low motor flywheel effect
7 Favorable dimensions
7 Low space requirements
Application
The main application areas are as follows:
• Braking of loads and centrifugal masses
• Braking in the event of danger
• Shortening of follow-on times
• Increased setting accuracy
Brake motors are available as shown in the selection tables, but
also with higher outputs, different voltages, frequencies and
numbers of poles as well as in pole-changing versions.
Design
1
2
3
4
5
6
1
Toothed hub
2
NDE bearing plate
3
Rotor with brake pads
8
4
Complete manual release lever
7
9
5
Dust protection ring
10
6
Adjustment sleeve
11
7
Armature disk
8
Fan cover
9
Fan
12
10 Complete solenoid assembly
11 Adjustment ring
12 Seeger rings
G_D083_EN_00039
Sectional drawing of brake motor type 1PS020 frame size 200 with single-disk spring-operated brake
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
1
Brakes and brake motors
■ Overview (continued)
The surface-cooled brake motors are equipped with a quiescent
current-operated (fail-safe) single-disk spring-operated brake
with two asbestos-free brake pads. The bearing plate at the nondrive end is specially shaped and it is made of cast-iron in every
motor. Refer to the table for the size of the bearings. Otherwise,
in terms of their mechanical design, the brake motors correspond
to the surface-cooled three-phase motors.
The brakes and fans of the brake motors are suitable for both
directions of rotation. The degree of protection for the brake motors is IP55. Other degrees of protection are possible on request.
If it is necessary to rotate the shaft in the zero current state, the
brake can be specially ordered with a manual release. All brakes
feature torque adjustment.
Single-disk spring-operated brake
Design
Single-disk spring-operated brakes are fail-safe brakes with 2
frictional surfaces in which an electromagnetic field is used to
release the brake which is applied using spring force. The
spring-operated brake brakes in the zero current state and
releases when current is flowing.
Special characteristics of the single-disk spring-operated brake:
• Braking in accordance with DIN VDE 0580 "Electromagnetic
devices and components – General specifications"
• Holding brake with spring-loaded operation
• Microswitch for air gap monitoring as an option
(brake size 12 and above)
• Braking torque is active in zero current state
(fail-safe brake)
• Rugged and simple design
• High level of operational reliability due to long service life
• Brakes are designed for temperature class F
• Large operating air gap makes automatic readjustment
superfluous
• Under conditions of extremely high wear, the operating air gap
is easily adjusted
• Braking torque can be adjusted between 100 % and
approximately 60 %
• Manual release with automatic return
• Brakes are corrosion-protected, asbestos-free friction pads
• The brakes are designed for 100 % duty ratio
• The brakes will operate in any position
1/60
Siemens D 83.1 · 2014
The standard voltages for the brake coils are: 24 V, 103 V, 180 V,
205 V +5 to 10 %. For the relationship between brake control
voltage, rectifier type and brake coil voltage, see the section
"Circuit diagrams".
Electrical connection
In the terminal box, apart from the motor connection terminals,
there is also a bridge rectifier for the standard 230 V brake control voltage. For higher brake control voltages, either a half-wave
rectifier with zero diodes can be installed or connection can be
performed via an intermediate transformer that is, however, not
included in the scope of supply. For cases in which the motor
operating voltage does not comply with the brake control voltage, a separate brake control voltage must be supplied via an
additional contact.
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
Switching times
The switching times are given in the table below. The times are
shown in the diagram.
Characteristic torque
T
0.1 TB
TB
t11
Time t
t2
t12
t1
U
Time t
G_D083_EN_00040
Excitation
t3
t11
t12
t1
t2
t3
= Response time on engaging
= Rise time of braking torque
= Engaging time
= Disengaging time
= Sliding time
Torque/time curve as a function of excitation voltage
• AC-side switching – extended engaging time (delayed
response of the brake). The disengaging time is the same
as for DC-side switching.
• DC-side switching – short activation time, short engaging time
(quick response of the brake).
The switching times for DC-side switching are as follows:
Brake size
Brake
characteristic
torque
TB
1)
Maximum admissible
switching energy for
single switching
Transitional
switching
frequency
Switching times for sGapRated
DC engage
Disengage
QE
Sft
t11
t12
t1
t2
Nm
J
h-1
ms
ms
ms
ms
12
32
24000
30
28
25
53
115
14
60
30000
28
17
25
42
210
16
80
36000
27
27
30
57
220
18
150
36000
20
33
45
78
270
20
260
80000
19
65
100
165
340
25
400
120000
15
110
120
230
390
With AC-side switching, the t1 values increase for the brakes to
about 6 times the values.
1)
Minimum braking torque for run-in frictional surfaces.
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
Circuit diagrams for brake motor with single-disk spring-operated brake
W2 U2
Brake release coil
V2
Rectifier
V1
W1
U1
V1
W1
L1
L2
L3
Rectifier
G_D083_EN_00042
U1
Black
Brake release coil
V2
Black
W2 U2
G_D083_EN_00041
1
K
L1
L2
L3
L1
N (L2)
Brake control voltage
Brake switched at AC side (as delivered).
Note control voltage on rating plate of the brake.
Rectifier type
V
DC brake coil
voltage
V
230
Bridge
205
400
Half-wave
180
Pole-changing brake motors and brake motors with higher
switching frequency: On request.
The ambient temperature range for brake motors is:
-20 to +40 °C.
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Siemens D 83.1 · 2014
N (L2)
Brake switched at DC side and AC side (additional switching contact K
required; reconnect brake connection cable from + to 1).
The control voltage of the brake on the rating plate
must be observed
Alternating voltage
(brake control voltage)
L1
Brake control voltage
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
Technical specifications
Brake size
Characteristic torque
TB
1)
Braking torque in %
• at 1500 rpm
• at 3000 rpm
Speed, max.
Input power
P20 °C
Weight, approx.
Moment of inertia
J 2)
10
12
14
16
18
20
25
Nm
16
32
60
80
150
260
400
%
%
83
76
81
74
80
73
79
72
77
70
75
68
73
68
rpm
3000
3000
3000
3000
3000
1500
1500
W
30
40
50
55
85
100
110
kg
2.5
3.5
5.2
7.9
12
19.3
29.1
kg m2
0.0002
0.00045
0.00063
0.0015
0.0029
0.0073
0.02
Air gap adjustment, max.
mm
1.5
2.0
2.5
3.5
3.0
4.0
4.5
Brake rotor thickness, min.
mm
7.5
8.0
7.5
8.0
10.0
12.0
15.5
24
30
36
60
80
120
0.3
0.75
0.3
0.75
0.3
0.75
0.4
1.0
0.4
1.0
0.5
1.25
Operating energy, max. adm.
(per switching operation)
WE
kJ
12
Operating energy
(up to 0.1 mm abrasion)
WR 0.1
Nm
On request
mm
mm
0.3
0.75
Operating air gap
• min.
• max.
The brake coil has a supply voltage of 205 V. Other standard
voltages for the coil are 24 V, 103 V and 180 V. Supply voltages
other than those specified here are available at an additional
charge. Voltage tolerance 10 % according to DIN IEC 60038.
Torque adjustment
The rotor with brake pads is connected to the motor shaft via the
toothed hub. The armature disk is pressed firmly against the
rotor in the zero-current state by means of springs. The braking
torque is applied by means of this pressure.
The braking torque that can be transferred can be altered by
adjusting the spring force. The brake is equipped with an adjustment ring. The spring force, and therefore the braking torque,
can be adjusted by rotating the adjustment ring.
1)
For possible assignment to motor frame sizes, see the output tables.
2)
Rotating parts of the brake
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
Brake with manual release
The brake can also be supplied with manual release as an option. When the manual release lever is pulled under zero current
conditions, the armature disk is pulled by means of the tension
bolts against the pressure springs in the solenoid assembly.
An air gap is created between the rotor and the armature disk.
The brake is mechanically released and the shaft can rotate
easily. The pressure spring on the tension bolts holds the manual
release lever in its normal position during operation.
Manual release
Cover ring
Sleeve screw
Solenoid assembly
Armature disk
Shaft
Adjustment ring
Armature disk
G_D083_EN_00043
1
Disk
Toothed hub
s
sGap
Rotor
Pressure spring
Adapter flange
sGap
h1 max
The air gap "s" is the distance between the armature disk and the
disk. The dimension "s" must be taken into consideration when
the manual release is installed.
Brake size
12
Air gap
sGap
s+0.1
mm
mm
0.3
1.5
Operating brake
(sGap max. ca. 2.5 × sGap)
0.4
2
0.5
2.5
Holding brake with
emergency stop function
(sGap max. approx. 1.5 ×
sGap)
14
16
18
20
25
Important:
Even with reduced characteristic torque, the release distance
must be adjusted when the maximum air gap sGap max. is
reached.
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Siemens D 83.1 · 2014
Noise behavior
During operation, the noise response of the brake motor is hardly
affected by the brake. The measuring-surface sound pressure
level can therefore be obtained from the noise value tables for
1PS0, 1PS4, 1PS5 and 1MD5 motors (without brakes) in the
section "Measuring-surface sound pressure level".
When the brake is released or engaged, however, sudden
noises arise. These are recorded by means of the A-weighted
emission sound pressure level (impulse sound pressure level)
according to DIN EN ISO 1680 – see Table.
Frame size
A-weighted emission sound pressure level
(guide values)
LpAF
dB (A)
132
76
160
80
180 ... 250
83
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
Basis for the calculation
Abbreviations and definitions used
A brake is designed mainly in accordance with the required
braking torque Treq.
P
Drive power in kW
TB
Characteristic torque for the brake in Nm
TL
Load torque in Nm
Treq
Required braking torque in Nm
Ta
Deceleration torque in Nm
Δn0
Initial relative speed of the brake in rpm
JL
Moment of inertia of all drive components referred
to the shaft to be braked in kgm2
The masses to be braked (moments of inertia), relative speeds,
braking times and the switching frequencies must be included
in the calculations. The boundary conditions, such as ambient
temperature, air humidity, dust accumulation and mounting
position must be known. In the case of extreme/critical operating
conditions, the manufacturer should be consulted. Dimensioning must be in accordance with VDI guideline 2241.
The friction surfaces must be kept free of grease and oil at all
times.
t1
Engaging time, t1 = t11 + t12 in s
t2
Disengaging time (time from the start of torque removal
until the value 0.1 TB is reached) in s
t3
Sliding time (time during which a relative movement
occurs between the input and the output with the brake
engaged) in s. This time depends on the delay required
by the application case e.g. switching frequency
t11
Responding delay on engaging (time from voltage
switch-off up to the moment when the torque begins to
rise) in s
t12
Time taken for the braking torque to rise in s
K
Safety factor
Treq = (Ta ± TL) · K + TB
Q
Calculated switching energy per switching cycle in J
+TL
–TL
Qadm
Max. admissible switching energy per switching cycle
in J
Sn
Switching frequency, i.e. the number of braking
operations distributed evenly over the time unit in h-1
Safety factor
In order to ensure that mechanical transmission is reliable even
under extreme operating conditions, the calculated braking
torque should include the safety factor K which must be selected
in accordance with the operating conditions.
Load types
In practice, the following main types of load occur:
Treq = Ta · K + TB
Dynamic and static loading
Most application cases involve a mixture of loads, because a
dynamic load is added to a static load torque.
is used, for example, when lowering a load
is used for normal braking
Rough determination of the required braking torque or
frame size
If only the drive power to be transferred is known, the required
torque or braking torque can be determined as follows:
P
Treq = 9550 —— × K ≤ TB
∆n0
Thermal load capacity
If high switching frequencies and increased friction energy per
switching cycle are expected, thermal recalculation of the brake
is recommended.
The friction energy per switching cycle is calculated as follows:
JL+ ∆ n²
TB
Q = ————
× ————
182.5 T B + T L
–TL
+TL
is used, for example, when lowering a load
is used for normal braking
The admissible friction energy per switching cycle for a
known switching frequency can be obtained from the following
diagram. For a known friction energy per switching cycle, the
admissible switching frequency can similarly be obtained from
this diagram.
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
10 6
Admissible switching energy Q adm
2LM8 25
10 5
2LM8 20
2LM8 18
2LM8 16
2LM8 14
2LM8 12
2LM8 10
10
4
2LM8 08
2LM8 06
10 3
10 2
G_D083_EN_00044
1
10
1
10
10 2
10 3
Switching frequency S n
Admissible switching energy Qadm as a function of the switching frequency Sn
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Siemens D 83.1 · 2014
10 4
© Siemens AG 2014
Introduction
General technical specifications
Brakes and brake motors
■ Overview (continued)
Further characteristics of the solenoid double-disk springoperated brake of type 4BZFM
• Seawater-protected solenoid double-disk spring-operated
brake
• Torque range: 100 to 1600 Nm (static torque)
• For use in cranes and offshore
• A cast-iron cover ensures IP67 degree of protection, so it can
be used under the most difficult climatic conditions
• All surfaces finished
• When the cover is removed, the braking function is maintained
• Minimal wear, brake pads are easy to replace
• Emergency release
• IEC – mounting flange
• As an option: switching status indication, terminal box,
anti-condensation heater, prepared for tachometer mounting
• Type approval: Germanisch Lloyd, Lloyds Register of
Shipping, American Bureau of Shipping
G_D083_XX_00082
Seawater-protected spring-operated brake IP67
The solenoid double-disk spring-operated brake of type 4BZFM
(Stromag) brakes the motor if the supply is disconnected or in
the event of power failure. Motors with built-on brakes are mainly
used in cranes to drive traversing, trolley and hoisting gear, but
also in marine winch drives. The size of the brake depends on
the external moment of inertia, brake speed and the required
braking time.
Solenoid double-disk spring-operated brake of type 4BZFM
Brake size
10
16
25
40
63
100
160
100
160
250
400
630
1000
1600
275
440
690
1100
1750
0.4
0.4
0.4
0.5
0.5
1.2
1.5
1.8
2.1
2.4
6000
5500
4700
4000
3600
3200
0.0026
0.0050
0.0133
0.0271
0.0366
Switchable torque
TSN
Nm
Transmittable torque
Ttrans
Nm
110
176
Air gap, normal
sGap
mm
0.4
0.4
Air gap, max.
sGap max. mm
1.2
1.2
Speed, max.
n
rpm
6000
Moment of inertia
J
kg m2
0.0019
Weight, approx.
m
kg
32
40
56
73
107
138
Rated DC voltage
U
V
110
110
110
110
110
110
Rated output
P
W
122
142
164
214
249
332
Rated current
I
A
1.11
1.29
1.49
1.95
2.27
3.02
110
Brakes for explosion-proof motors
Special information for brakes for explosion-proof motors,
see catalog section 2.
Siemens D 83.1 · 2014
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1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview
Basics
Due to optimized design and manufacturing, most 1PS0 motors
(without explosion protection) and 1PS1, 1PS4, 1PS5, 1MD5
motors (with explosion protection) can also be used for converter-fed operation without the need to modify the electrical and
mechanical design. The maximum limits and parameters for
converter-fed operation are summarized in this catalog. The
special mechanical characteristics which must be taken into
account that result from the higher speeds are listed below.
Bearing currents
It is known that in motors supplied from the mains, a voltage can
form along the mechanical shaft due to magnetic unbalance.
If this shaft voltage exceeds a threshold value of approximately
500 mV, bearing currents that can damage the bearings start to
flow. This phenomenon only occurs with larger motors. Therefore, to prevent bearing currents, the non-drive end bearing is
insulated as of frame size 315. However, we recommend that
motors of frame size 225 and above be equipped with insulated
bearings on the non-drive end. The bearing insulation is performed by insulating the bearing seat on the motor shaft or
through the use of current-insulated rolling-contact bearings.
The minimum requirement for the ordering options is described
in detail under "Output tables for converter-fed operation".
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Siemens D 83.1 · 2014
Converter-fed operation can increase these shaft voltages and
bearing currents (typically by approximately 30 to 50 %). Additional high-frequency bearing voltages and currents can occur
during operation with pulse converters (common mode bearing
currents and circulating currents). The bearing currents depend
on the motor size and the converter version (clock frequency,
pulse modulation, output filter).
Previous experience shows that drives with SINAMICS G180
pulse converters (clock frequency 3 to 7.5 kHz, pulse modulation through voltage vector control, standard dv/dt output filter)
and 1PS0, 1PS1, 1PS4, 1PS5 and 1MD5 motors are not damaged by the bearing currents that occur.
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Mechanical limit speeds
When the motor is operated above its rated frequency, it is important to note that the maximum speeds are limited by the limits
for the roller bearings, the critical rotor speed and the rigidity of
the rotating parts. In the case of motors for use in potentially
explosive areas of Zone 1 or 2, in accordance with EN 60079-0,
the peripheral speed and therefore the speed of plastic fans is
also limited.
For the limit speeds listed in the tables below, further special
measures may be required.
Mechanical limit speeds for standard version:
1PS0 and 1PS1 motors without explosion protection and with
type of protection "Non-sparking"
Frame size
No. of poles
2
n
f
rpm Hz
4
n
rpm
f
Hz
6
n
rpm
f
Hz
8
n
rpm
f
Hz
LOHER CHEMSTAR 1PS0 and 1PS1 motors
Mechanical limit speeds for standard version:
1PS5 motors with
type of protection "Ex d"
Frame size
No. of poles
2
n
f
rpm Hz
4
n
rpm
f
Hz
6
n
rpm
f
Hz
8
n
rpm
f
Hz
LOHER CHEMSTAR 1PS5 motors
71
9300
155
9300
310
9100
455
9100
606
80
9300
155
9300
310
9100
455
9100
606
90
9200
153
8500
273
8500
425
8500
567
100
6900
115
8500
273
9000
450
9000
600
112
6300
105
9200
306
6800
340
6800
453
132
6500
108
5900
197
7500
375
7500
500
160
5900
98
6200
207
6200
310
6200
413
180
4800
80
5600
187
4750
238
4750
317
90
9200
153
8500
273
8500
425
8500
567
200
5000
83
3600
120
4300
215
4300
287
100
6900
115
8500
273
9000
450
9000
600
225
5300
88
4200
140
4200
210
4200
280
112
6300
105
9200
306
6800
340
6800
453
250
4200
70
3600
120
4000
200
4000
267
132
6500
108
5900
197
7500
375
7500
500
280
4800
80
3550
118
3800
190
3800
253
160
5900
98
6200
207
6200
310
6200
413
315
4000
67
3450
115
3700
185
3700
247
180
4800
80
5600
187
4750
238
4750
317
LOHER VARIO 1PS5 motors
200
5000
83
3600
120
4300
215
4300
287
355
3600
60
2700
90
2400
120
2400
160
225
5300
88
4200
140
4200
210
4200
420
400
3000
50
2250
75
2200
110
2100
140
250
4200
70
3600
120
4000
200
4000
267
450
3000
50
2100
70
2000
100
1900
127
280
4800
80
3550
118
3800
190
3800
253
500
3000
50
1800
60
1600
80
1500
100
315
4000
67
3450
115
3700
185
3700
247
SIMOTICS XP 1MD5 motors
355
3800
63
3200
106
3200
160
3000
200
71
6000
100
4500
150
4000
200
3000
200
80
6000
100
4500
150
4000
200
3000
200
LOHER VARIO 1PS0 and 1PS1 motors
355
3600
60
2700
90
2400
120
2400
160
90
6000
100
4500
150
4000
200
3000
200
400
3000
50
2250
75
2200
110
2100
140
100
6000
100
4200
140
3600
180
3000
200
450
3000
50
2100
70
2000
100
1900
127
112
6000
100
4200
140
3600
180
3000
200
500
3000
50
1800
60
1600
80
1500
100
132
5400
90
4200
140
3600
180
3000
200
160
4800
80
4200
140
3600
180
3000
200
180
4600
76
4200
140
3600
180
3000
200
200
4500
75
4200
140
3600
180
3000
200
225
4500
75
4500
150
4400
220
4400
293
250
3900
65
3700
123
3700
185
3700
247
280
3600
60
3000
100
3000
150
3000
200
315
3600
60
2600
87
2600
130
2600
173
355
3600
60
2600
87
2600
130
2600
173
Fans made of special plastic or metal are used for explosionproof motors.
Siemens D 83.1 · 2014
1/69
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Operating explosion-proof motors on a converter
For the safe operation of explosion-proof motors on a converter,
some basic rules must be observed. These rules are summarized in the R20000 guideline. The current version of R20000 is
stamped on the rating plate.
Siemens R20000 guideline for converter-fed operation
of explosion-proof, low-voltage, three-phase motors
Converter-fed operation of explosion-proof, low-voltage, threephase motors with type of protection "Explosion-proof enclosure"
and "Non-sparking" for temperature classes T1 – T4
The guideline must be complied with regardless of the type and
manufacturer of the converter.
Explosion-proof three-phase motors may be operated on a
converter if the following conditions are satisfied:
If explosion-proof motors are to be operated at frequencies
above 60 Hz or 10 % above the cutoff frequency, it may be
necessary to perform a system test of the motor with the converter.
1. The output voltage of the converter shall be controlled such
that within the frequency range below the rated frequency of
the motor, an approximately linear relationship is maintained
between the voltage (fundamental component) and the frequency (fundamental component), i.e. practically constant
machine flux in accordance with the rated data.
Operation above 1.1. times the rated frequency is only admissible when the motor has an appropriate rating plate for converter-fed operation.
The minimum requirement for the ordering options is described in
detail under "Output tables for converter-fed operation". The
customer is responsible for fulfillment of the regulations which may
be affected by the use of sine-wave filters, long cables, etc.
Operating dust explosion-proof motors on a converter
Dust explosion-proof motors can be operated on a converter if
suitable monitoring equipment is used (e.g. PTC thermistor for
sole protection and certified evaluation units). The boundary
conditions described above also apply in this case and compliance with the R20000 guideline, in particular, is essential. For
motors in the admissible type of protection for Zone 21, the limits
of the control range between 5 and 50 (60 Hz) also apply. The
maximum possible output in converter-fed operation must not
exceed the output for mains-fed operation even in the case of
higher thermal utilization on the converter. In special cases, it
may be necessary to test the original system comprising the
motor with the converter, or a system comprising the same
types.
If the motor is operated on SINAMICS G180 or on a different
SINAMICS converter with a suitable filter (e.g. dv/dt filter),
operation on line supplies from 500 V to 690 V is possible.
Operation on converters with vector control is admissible.
Compliance with the boundary conditions described in the
guideline No. 20000h must be ensured by the operating
company.
2. Icontinuous is the value to which the current is restricted by converter control in continuous duty.
The maximum value which can be set for Icontinuous is the continuously admissible rated motor current in accordance with
the rating plate on the motor or the value specified in the
documents that describe converter-fed operation (R No.).
3. Itemp is the value to which the current is limited by converter
control in the case of temporary overloads of a maximum
duration of ttemp.
The maximum value which can be set for Itemp is
1.5 × Icontinuous.
4. The time ttemp is the maximum time for which the converter
permits Icontinuous to be exceeded.
ttemp is to be set for a maximum of 60 seconds.
5. The installed thermistors (e.g. PTC thermistors), which must
be suitable as sole protection, are to be connected to a
tripping device conforming to guideline 94/9/EC with a prototype test certificate such as CK140: PTB 04 ATEX 3038 or
CK144/145: PTB 02 ATEX 3059.
6. Voltage peaks (especially for pulse inverters with long motor
cable)
a) The assessment of the terminal box in relation to clearances and creepage distances allows for converter-fed
operation with voltage peaks (ÛLL and ÛLE) of up to
Û = 1866 V. This may not be exceeded in the interests of
explosion protection.
b) To prevent partial discharges arising, with Ex nA machines
the voltage at the motor terminals must also be limited in
relation to the rise time to values which fall below the
characteristic curve of the "withstand voltage curve"
diagram (see picture below). With Ex d motors, this is
recommended so as not to limit the service life.
Ruhstorf, 2012-09-10
Siemens Aktiengesellschaft
1/70
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Typical voltage stress of motors for operation on the
SINAMICS G180 converter at 690 V
Motors of the 1PS or 1MD5 series with standard insulation
are designed for peak voltage in accordance with
IEC/TS 60034-25:2007 Curve A (1560 V), see the diagram below.
G_D083_EN_00045
Peak voltage U
2000
Competitor
product
without filter
V
1600
1200
SINAMICS
G180 standard
filter
SINAMICS
G180 reinforced
filter
Typical
cable lengths up to
150 m
Typical
cable lengths
up to 300 m
The maximum voltage is influenced by the rise time of the pulses
and by the length of cable used between motor and converter.
A dv/dt output filter at the converter can reduce the maximum
motor voltage to uncritical values. With the SINAMICS G180 converters, a high-quality dv/dt output filter is included as standard.
With converters without dv/dt output filters, inadmissible voltage
peaks can occur even with a relatively short motor cable (approx. 10 m). With the dv/dt output filters of the SINAMICS G180
converter, depending on the supply voltage, cable lengths of
150 m (at 690 V) to 300 m (at 400 to 500 V) are possible. The
admissible voltage stress for the motor depends on the rise time
tr of the converter output voltage. The admissible voltage stress
for our motors with standard insulation (1.56 kV curve) is shown
in the diagram below. Special insulation is necessary for higher
voltage stress (2.15 kV curve; on request, additional charge).
800
0
0.0
0.4
0.8
1.2
1.6
ÛLLmax
Characteristic A
from IEC/TC 60034-25:2007
(standard motor)
400
2.0
2.4
2.8 μs 3.0
Rise time tr
As an option, 1PS motors are also available with special
insulation for peak voltages of 2.25 kV. In this case, the winding
is suitable for peak voltages in accordance with
IEC/TS 60034-25:2007 Curve B. Due to the space required by
the special winding insulation, this option can only be ordered
for frame size 160 and above. The possible output of the motor
is then 5 % lower than a motor with standard insulation. The limits
for peak voltage with regard to explosion protection, especially
for the terminal box, are applicable as specified in the R20000
regulation.
without filter for motors up to 690 V AC
2.15 kV
without filter for motors up to 500 V AC
1.6
1.56 kV
1.2
100 %
90 %
UMotor
0.8
10 %
0.4
Time t
tA
0
0.01
0.2
0.4
0.6
0.8
1.0 μs 1.2
tA
Admissible voltage stress for motors with standard insulation
(ÛLLmax = Maximum value of phase-to-phase voltage)
Motor operation on converter with sine-wave filter
Engineering information for converter-fed operation
Admissible voltage stress
More stress is placed on the insulation of the motor winding with
converter-fed operation than with mains-fed operation. The
voltage stress also depends on the type of converter used.
Voltage stress on a converter with pulse width modulation (PWM)
The PWM converter subjects the motor windings to wear and
tear mainly by quickly applying voltage pulses. Each switching
process of the converter releases a voltage wave onto the motor
supply cable that can result in excessive motor voltages due to
reflection (see diagram).
UMotor
G_D083_EN_00047
2.4
kV
2.0
In special applications, e.g. with extremely long motor cables,
so-called sine-wave filters are used which result in a smoother
converter voltage than dv/dt filters. When a sine-wave filter is
used, it is important to note that a significant drop in motor
voltage of up to 15 % occurs. Under these operating conditions,
derating is necessary to prevent the motors from overheating.
For operation with sine-wave filters and the consequent reduction of 10 to 15 % in motor voltage, the admissible outputs for
converter-fed operation must be similarly reduced by 10 to 15 %.
For the LOHER CHEMSTAR and LOHER VARIO series, it is
possible to dimension the motors for the reduced voltage at the
motor terminals that results from the converter, which can
prevent a reduction in output due to reduced voltage.
G_D083_EN_00046
without filter
UFC
with filter
Time t
Typical progression of converter voltage UFC and motor voltage UMotor on
the PWM converter (converter with and without output filter, length of
motor cable 100 m)
Siemens D 83.1 · 2014
1/71
1
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Output tables for converter-fed operation
T
TL
T
TL
P rated
P rated
P1
T
T
TL2
TL3
TL4
TL
T
Limit curve for motors with their own fan
P rated Rated output of motor in mains-fed operation
P1
Listed output of motor in converter-fed operation
Motors with their own fan for pump and fan operation (TL ~ n2)
Siemens D 83.1 · 2014
P2
P3
P4
G_D083_EN_00084
f
1/72
P1
G_D083_EN_00083
1
5
TL2
TL3
TL4
10
16,7
50 f/Hz
Constant load torque in speed setting range 1:3
Constant load torque in speed setting range 1:5
Constant load torque in speed setting range 1:10
Reduction in torque as a result of reduced cooling effect in motors with
their own fan (TL = constant)
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS4 and 1PS5 motors (Ex de)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR 1PS5 motors
0.37
2780
1PS5070-1BD..-4AA3
0.41
1.4
0.87
0.25
0.9
0.61
0.30
1.0
0.69
0.35
1.2
0.76
0.55
2780
1PS5071-1BD..-4AA3
0.60
2.1
1.32
0.38
1.3
0.89
0.45
1.6
1.02
0.50
1.8
1.15
0.75
2810
1PS5080-1BD..-4AA3
0.80
2.9
1.68
0.50
1.8
1.15
0.60
2.1
1.32
0.70
2.4
1.47
1.1
2810
1PS5081-1BD..-4AA3
1.2
4.2
2.55
0.75
2.6
1.74
0.90
3.1
1.99
1.05
3.6
2.25
1.5
2865
1PS5095-1BD..-4AA3
1.6
5.7
3.25
1.05
3.5
2.20
1.2
4.2
2.50
1.4
4.8
2.80
2.2
2845
1PS5098-1BD..-4AA3
2.4
8.3
4.80
1.5
5.2
3.35
1.8
6.2
3.80
2.1
7.1
4.25
3
2900
1PS5106-1BD..-4AA3
3.3
11.2
6.4
2.1
7.1
4.55
2.5
8.5
5.1
2.9
9.6
5.7
4
2890
1PS5113-1BD..-4AA3
4.4
14.9
8.1
2.8
9.5
5.3
3.4
11.3
6.2
3.8
12.8
7.0
5.5
2910
1PS5131-1BD..-4AA3
6.0
20.4
11.2
4.0
13.0
7.5
4.7
15.5
8.7
5.3
17.6
9.8
7.5
2910
1PS5132-1BD..-4AA3
8.0
28
14.9
5.4
18
10.0
6.0
21
11.6
7.0
24
13.0
11
2955
1PS5163-1BD..-4AA3
12.0
40
22.0
8.0
26
14.8
9.5
31
17.1
10.5
35
19.1
15
2955
1PS5165-1BD..-4AA3
16.5
55
30.0
11.0
36
20.0
13.0
42
23.0
14.5
48
26.0
18.5
2955
1PS5166-1BD..-4AA3
20
67
36.5
13.5
44.1
24.5
16.0
52
28.5
18.0
59
32.0
22
2960
1PS5183-1BD..-4AA3
24
80
42.5
16.0
52
29.0
19.0
62
33.5
21
70
37.5
30
2955
1PS5206-1BD..-4AA3
33
109
58
22
72
39.5
26
84
46.0
29
95
51
37
2960
1PS5208-1BD..-4AA3
39
127
68
26
83
46.0
30
98
53
34
110
60
45
2965
1PS5223-1BD..-4AA3
47
154
84
34
109
61
38
124
69
42
136
75
55
2975
1PS5253-1BD..-4AA3
55
178
99
39
126
74
44
143
82
49
157
89
75
2980
1PS5280-1BD..-4AA3
84
272
143
60
193
104
68
218
116
74
240
127
90
2980
1PS5283-1BD..-4AA3
100
326
171
72
231
124
80
262
139
90
289
152
110
2980
1PS5311-1BD..-4AA3
116
376
200
82
267
148
94
302
165
102
332
180
132
2980
1PS5313-1BD..-4AA3
126
408
220
90
290
161
102
329
179
112
362
195
160
2980
1PS5315-1BD..-4AA3
154
495
260
108
352
192
124
398
215
136
438
235
200
2980
1PS5316-1BD..-4AA3
184
594
315
132
422
230
148
478
260
164
526
285
250
2985
1PS5318-1BD..-4AA3
230
741
390
164
528
285
186
597
320
205
657
350
315
2984
1PS5353-1BD..-4AA3
290
934
500
205
665
375
235
752
415
255
828
450
360
2984
1PS5355-1BD..-4AA3
330
1069
570
235
760
420
265
860
465
295
947
510
460
2985
1PS5357-1BD..-4AA3
425
1365
710
300
971
520
340
1099
580
375
1209
630
LOHER VARIO 1PS4 and 1PS5 motors
400
2984
1PS . 358-1BH..-4AA0
380
1220
630
281
894
470
316
1006
530
346
1100
570
450
2977
1PS . 358-1BJ ..-4AA0
430
1370
710
301
959
510
346
1102
580
384
1221
630
500
2981
1PS . 405-1BJ ..-4AA0
475
1520
780
348
1107
580
394
1253
650
432
1374
710
560
2982
1PS . 407-1BJ ..-4AA0
530
1700
870
385
1226
650
439
1396
730
482
1534
790
630
2983
1PS . 408-1BJ ..-4AA0
600
1920
575 1)
435
1385
423 1)
496
1578
475 1)
545
1735
522 1)
710
2985
1PS . 455-1BJ ..-4AA0
670
2150
645 1)
493
1571
481 1)
560
1782
539 1)
614
1953
586 1)
1)
560
1782
545
1)
637
2028
614
1)
699
2225
667 1)
637
2028
614 1)
721
2295
690 1)
788
2510
748 1)
800
2985
1PS . 457-1BJ ..-4AA0
760
2450
730
900
2984
1PS . 458-1BJ ..-4AA0
860
2750
817 1)
For LOHER CHEMSTAR type series, PTC thermistor must be
selected for sole protection of the winding with Option A15 or
A16 and with frame size 315 and above Option L27 (insulated
bearing, fan side).
The current values specified in the lists are calculated for 400 V.
1)
Not possible with 400 V, current values apply to 690 V.
Siemens D 83.1 · 2014
1/73
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS4 and 1PS5 motors (Ex de)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR 1PS5 motors
0.25
1350
1PS5070-1BD..-4BA3
0.27
1.9
0.73
0.17
1.2
0.54
0.20
1.4
0.60
0.23
1.6
0.65
0.37
1360
1PS5071-1BD..-4BA3
0.41
2.9
1.01
0.25
1.7
0.78
0.31
2.1
0.85
0.35
2.4
0.92
0.55
1400
1PS5080-1BD..-4BA3
0.60
4.2
1.49
0.38
2.6
1.10
0.46
3.1
1.22
0.50
3.6
1.33
0.75
1455
1PS5081-1BD..-4BA3
0.80
5.5
1.82
0.50
3.6
1.40
0.60
4.2
1.53
0.70
4.8
1.65
1.1
1460
1PS5095-1BD..-4BA3
1.2
8.1
2.35
0.80
5.2
1.71
0.95
6.2
1.92
1.05
7.0
2.10
1.5
1460
1PS5098-1BD..-4BA3
1.6
11.1
3.35
1.05
7.1
2.55
1.2
8.4
2.80
1.4
9.6
3.05
2.2
1450
1PS5106-1BD..-4BA3
2.4
16.3
4.85
1.6
10.4
3.45
1.8
12.4
3.90
2.1
14.1
4.30
3
1455
1PS5108-1BD..-4BA3
3.3
22.3
6.8
2.1
14
5.2
2.5
17
5.7
2.9
19.2
6.2
4
1460
1PS5113-1BD..-4BA3
4.5
29.6
8.6
2.9
19
6.1
3.4
23
6.9
3.9
25.5
7.6
5.5
1455
1PS5131-1BD..-4BA3
6.0
40.8
11.7
4.0
26
8.1
4.7
31
9.3
5.3
35.2
10.3
7.5
1470
1PS5133-1BD..-4BA3
8.0
55
15.8
5.5
36
11.3
6.5
42
12.8
7.0
48
14.0
11
1460
1PS5163-1BD..-4BA3
12.0
81
23.5
8.0
52
16.3
9.5
62
18.6
10.5
70
20.5
15
1460
1PS5166-1BD..-4BA3
16.5
110
31.0
11.0
71
22.0
13.0
84
25.0
14.5
95
27.5
18.5
1470
1PS5183-1BD..-4BA3
20
135
38.0
13.5
88
26.0
16.0
104
30.0
18.0
117
33.5
22
1470
1PS5186-1BD..-4BA3
24
161
45.0
16.0
105
31.5
19.0
124
36.0
21
139
40.0
30
1470
1PS5206-1BD..-4BA3
33
219
61
22
143
43.5
26
168
49
29
190
54
37
1480
1PS5220-1BD..-4BA3
41
270
72
29
190
54
33
216
60
36
238
65
45
1480
1PS5223-1BD..-4BA3
50
328
91
35
231
68
40
263
75
44
290
82
55
1480
1PS5253-1BD..-4BA3
55
358
99
39
252
74
44
286
82
49
316
89
75
1480
1PS5280-1BD..-4BA3
84
545
151
60
385
113
68
437
125
74
482
136
90
1480
1PS5283-1BD..-4BA3
94
617
170
68
436
127
76
495
141
84
545
153
110
1485
1PS5311-1BD..-4BA3
110
713
205
78
504
156
88
572
172
98
630
186
132
1485
1PS5313-1BD..-4BA3
132
855
240
94
605
180
106
686
200
116
756
215
160
1485
1PS5315-1BD..-4BA3
154
994
275
108
703
205
124
798
230
136
879
250
200
1488
1PS5316-1BD..-4BA3
184
1191
330
130
844
250
148
957
275
164
1054
300
250
1488
1PS5317-1BD..-4BA3
230
1488
415
164
1055
320
186
1196
350
205
1317
375
315
1488
1PS5353-1BD..-4BA3
290
1872
530
205
1330
405
253
1506
445
255
1657
480
360
1488
1PS5355-1BD..-4BA3
330
2141
600
235
1520
455
265
1721
500
295
1895
540
460
1488
1PS5357-1BD..-4BA3
425
2737
760
300
1942
570
340
2200
630
375
2422
680
LOHER VARIO 1PS4 and 1PS5 motors
400
1491
1PS . 350-1BH..-4BA0
380
2450
670
288
1831
520
323
2059
570
352
2243
620
450
1491
1PS . 357-1BJ ..-4BA0
430
2750
760
322
2052
590
363
2311
650
396
2519
700
500
1492
1PS . 358-1BJ ..-4BA0
475
3050
840
359
2283
660
403
2569
730
439
2797
780
560
1492
1PS . 405-1BJ ..-4BA0
530
3400
910
401
2556
700
451
2872
780
491
3124
840
630
1492
1PS . 407-1BJ ..-4BA0
600
3850
1030
454
2890
800
511
3250
880
556
3537
950
710
1492
1PS . 408-1BJ ..-4BA0
670
4300
1140
510
3248
890
572
3644
990
622
3960
1060
800
1493
1PS . 455-1BJ ..-4BA0
760
4850
1290
576
3666
1010
646
4114
1110
702
4468
1200
900
1493
1PS . 457-1BJ ..-4BA0
860
5500
846 1)
651
4145
655 1)
732
4659
725 1)
796
5065
783 1)
5800
893
1)
4376
696
1)
4916
765
1)
839
5343
829 1)
939
1)
730
1)
812
1)
882
5613
875 1)
812
1)
899
1)
984
6266
974 1)
950
1000
1120
1)
1493
1494
1493
1PS . 458-1BJ ..-4BA0
1PS . 504-1BJ ..-4BA0
1PS . 505-1BJ ..-4BA0
900
950
1060
Not possible with 400 V, current values apply to 690 V.
1/74
Siemens D 83.1 · 2014
6100
6800
1049
1)
687
720
805
4582
5128
772
810
905
5158
5764
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS4 and 1PS5 motors (Ex de)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR 1PS5 motors
0.25
895
1PS5071-1BD..-4CA3
0.27
3.0
0.74
0.16
1.7
0.75
0.20
2.1
0.74
0.23
2.5
0.74
0.37
895
1PS5080-1BD..-4CA3
0.41
4.5
1.18
0.24
2.5
0.91
0.30
3.2
0.99
0.34
3.7
1.06
0.55
900
1PS5081-1BD..-4CA3
0.60
6.6
1.65
0.37
3.8
1.31
0.45
4.7
1.41
0.50
5.5
1.51
0.75
960
1PS5095-1BD..-4CA3
0.80
8.4
2.00
0.50
5.3
1.62
0.60
6.3
1.74
0.70
7.2
1.85
1.1
950
1PS5098-1BD..-4CA3
1.1
11.8
2.90
0.70
7.3
2.40
0.85
8.8
2.55
1.00
10.1
2.70
1.5
955
1PS5106-1BD..-4CA3
1.6
17
4.15
1.05
10.6
3.55
1.2
12.7
3.75
1.4
14.5
3.90
2.2
950
1PS5113-1BD..-4CA3
2.4
25
5.6
1.5
16
4.30
1.8
19
4.70
2.1
21
5.1
3
955
1PS5131-1BD..-4CA3
3.3
34
7.0
2.1
21
5.1
2.5
25
5.7
2.9
29
6.2
4
955
1PS5133-1BD..-4CA3
4.4
45
9.0
2.8
28
6.5
3.4
34
7.3
3.8
39
8.0
5.5
955
1PS5135-1BD..-4CA3
5.5
55
12.1
3.5
35
9.3
4.2
42
10.1
4.7
48
10.9
7.5
965
1PS5163-1BD..-4CA3
8.0
84
16.8
5.4
53
12.2
6.0
63
13.6
7.0
72
15.0
11
970
1PS5166-1BD..-4CA3
12.0
122
25.5
8.0
78
18.4
9.0
93
20.5
10.5
106
22.5
15
980
1PS5186-1BD..-4CA3
16.5
165
32.0
11.0
107
23.0
13.0
126
26.0
14.5
143
28.5
18.5
980
1PS5206-1BD..-4CA3
20
204
40.5
13.5
132
29.0
16.0
156
32.5
18.0
176
36.0
22
980
1PS5208-1BD..-4CA3
23
228
46.5
15.0
148
35.0
18.0
175
38.5
20
198
42.0
30
985
1PS5223-1BD..-4CA3
33
329
63
23
231
47.5
27
263
53
29
290
57
37
985
1PS5253-1BD..-4CA3
39
382
75
27
269
58
31
306
63
34
337
68
45
985
1PS5280-1BD..-4CA3
50
493
93
35
347
71
40
394
78
44
435
84
55
990
1PS5283-1BD..-4CA3
62
600
112
44
424
84
49
481
93
54
530
101
75
990
1PS5311-1BD..-4CA3
84
818
148
60
578
110
68
656
122
74
723
133
90
990
1PS5313-1BD..-4CA3
100
981
180
72
694
133
80
787
148
88
868
161
110
990
1PS5314-1BD..-4CA3
124
1199
220
88
848
160
98
962
178
108
1061
195
132
990
1PS5315-1BD..-4CA3
132
1283
235
94
908
176
106
1030
195
116
1135
210
160
990
1PS5316-1BD..-4CA3
154
1490
270
108
1055
200
124
1196
225
136
1318
245
200
990
1PS5317-1BD..-4CA3
184
1788
340
130
1267
260
148
1436
285
164
1582
305
280
994
1PS5353-1BD..-4CA3
255
2496
485
184
1773
370
205
2008
410
230
2210
410
315
994
1PS5355-1BD..-4CA3
290
2808
530
205
1994
405
235
2258
445
255
2485
445
360
994
1PS5357-1BD..-4CA3
360
3206
610
235
2279
470
265
2580
510
295
2839
550
LOHER VARIO 1PS4 and 1PS5 motors
315
994
1PS5354-1BD..-4CA3
300
2900
540
226
2156
430
255
2432
470
278
2654
500
355
993
1PS . 357-1BJ ..-4CA0
335
3250
600
257
2453
470
288
2751
520
313
2989
560
400
992
1PS . 358-1BJ ..-4CA0
380
3650
690
272
2602
520
313
2994
580
346
3306
630
450
994
1PS . 405-1BJ ..-4CA0
425
4100
770
325
3102
600
364
3478
660
396
3777
710
500
994
1PS . 407-1BJ ..-4CA0
475
4550
850
360
3436
670
404
3857
740
439
4191
790
560
995
1PS . 453-1BJ ..-4CA0
530
5100
940
404
3854
740
453
4326
810
492
4699
870
630
995
1PS . 455-1BJ ..-4CA0
600
5700
1050
452
4315
830
507
4841
910
550
5256
980
710
995
1PS . 457-1BJ ..-4CA0
670
6500
1190
515
4921
940
578
5522
1030
628
5996
1110
800
995
1PS . 458-1BJ ..-4CA0
740
7100
765 1)
569
5430
614 1)
635
6067
672 1)
688
6570
719 1)
8200
875
1)
6219
684
1)
6976
754
1)
793
7572
812 1)
968
1)
759
1)
835
1)
880
8399
899 1)
900
1000
995
995
1PS . 505-1BJ ..-4CA0
1PS . 507-1BJ ..-4CA0
860
950
9100
651
721
6887
730
810
7733
For LOHER CHEMSTAR type series, PTC thermistor must be
selected for sole protection of the winding with Option A15 or
A16 and with frame size 315 and above Option L27 (insulated
bearing, fan side).
The current values specified in the lists are calculated for 400 V.
1)
Not possible with 400 V, current values apply to 690 V.
Siemens D 83.1 · 2014
1/75
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS4/5 motors (Ex de)
Utilization of the winding according to F (155 °C)
Converter infeed with extremely motor-friendly output signal and slightly reduced rated voltage at the motor terminal (modulation depth < 1)
Valid, for example, for SINAMICS G120 PM230, SINAMICS G120 PM240, SINAMICS G130, SINAMICS S120
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR 1PS5 motors
0.37
2780
1PS5070-1BD..-4AA3
0.43
1.52
0.96
0.26
0.903
0.65
0.32
1.1
0.74
0.37
1.28
0.55
2780
1PS5071-1BD..-4AA3
0.6
2.25
1.46
0.39
1.34
0.95
0.48
1.64
1.11
0.55
1.9
1.26
0.75
2810
1PS5080-1BD..-4AA3
0.85
3.04
1.88
0.55
1.84
1.24
0.65
2.23
1.44
0.75
2.58
1.63
1.1
2810
1PS5081-1BD..-4AA3
1.2
4.46
2.8
0.8
2.7
1.85
0.95
3.27
2.15
1.1
3.78
2.4
1.5
2865
1PS5095-1BD..-4AA3
1.7
6
3.6
1.1
3.72
2.35
1.3
4.46
2.75
1.5
5.1
3.1
2.2
2845
1PS5098-1BD..-4AA3
2.5
8.8
5.3
1.6
5.4
3.65
1.9
6.5
4.2
2.2
7.5
4.65
3
2900
1PS5106-1BD..-4AA3
3.5
11.8
7.1
2.2
7.5
4.9
2.7
8.9
5.6
3
10.1
6.2
4
2890
1PS5113-1BD..-4AA3
4.7
15.8
9
3
10
5.8
3.6
11.9
6.9
4
13.5
7.8
5.5
2910
1PS5131-1BD..-4AA3
6.5
21.5
12.4
4.2
13.7
8.2
4.9
16.3
9.6
5.5
18.5
10.8
7.5
2910
1PS5132-1BD..-4AA3
8.5
29.3
16.5
5.5
18.7
11
6.5
22.3
12.8
7.5
25.3
14.4
11
2955
1PS5163-1BD..-4AA3
13
42.4
24.5
8.5
27.7
16.2
10
32.6
18.9
11
36.8
21
15
2955
1PS5165-1BD..-4AA3
17.5
58
33
11.5
37.7
22
13.5
44.4
26
15.5
50
29
18.5
2955
1PS5166-1BD..-4AA3
22
71
41
14
46.5
27.5
16.5
55
32
19
62
35.5
22
2960
1PS5183-1BD..-4AA3
26
85
47.5
17
55
32
20
65
37
22
73
41.5
30
2955
1PS5206-1BD..-4AA3
35
115
65
23
76
44
27
89
51
31
100
57
37
2960
1PS5208-1BD..-4AA3
41
134
76
27
88
51
32
103
59
36
116
67
45
2965
1PS5223-1BD..-4AA3
50
163
93
35
115
67
40
131
75
44
144
83
55
2975
1PS5253-1BD..-4AA3
58
188
110
41
133
81
47
151
90
51
166
98
75
2980
1PS5280-1BD..-4AA3
88
287
157
63
203
114
71
230
128
78
254
140
90
2980
1PS5283-1BD..-4AA3
106
344
189
76
244
137
86
277
154
94
305
169
110
2980
1PS5311-1BD..-4AA3
122
396
225
86
281
163
98
319
182
108
351
199
132
2980
1PS5313-1BD..-4AA3
134
431
240
94
306
175
108
347
195
118
382
215
160
2980
1PS5315-1BD..-4AA3
162
523
290
116
371
210
130
420
235
144
463
260
200
2980
1PS5316-1BD..-4AA3
194
627
350
138
445
255
156
504
285
172
555
310
250
2985
1PS5318-1BD..-4AA3
240
783
430
174
557
315
196
630
350
215
693
385
315
2987
1PS5353-1BD..-4AA3
245
799
440
178
569
330
200
643
365
220
708
395
360
2987
1PS5355-1BD..-4AA3
285
913
495
200
650
365
230
735
405
250
809
440
460
2988
1PS5357-1BD..-4AA3
365
1167
620
260
831
465
290
940
510
320
1034
560
LOHER VARIO 1PS4 and 1PS5 motors
315
2981
1PS . 356-1BH..-4AA0
355
2982
1PS . 357-1BH..-4AA0
400
2984
1PS . 358-1BH..-4AA0
450
2977
1PS . 358-1BJ ..-4AA0
500
2981
1PS . 405-1BJ ..-4AA0
560
2982
1PS . 407-1BJ ..-4AA0
630
2983
1PS . 408-1BJ ..-4AA0
710
2985
1PS . 455-1BJ ..-4AA0
800
2985
1PS . 457-1BJ ..-4AA0
900
2984
1PS . 458-1BJ ..-4AA0
Values on request
For LOHER CHEMSTAR type series, PTC thermistor must be
selected for sole protection of the winding with Option A15 or
A16 and with frame size 315 and above Option L27 (insulated
bearing, fan side).
The current values specified in the lists are calculated for 400 V.
1/76
Siemens D 83.1 · 2014
0.83
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS4/5 motors (Ex de)
Utilization of the winding according to F (155 °C)
Converter infeed with extremely motor-friendly output signal and slightly reduced rated voltage at the motor terminal (modulation depth < 1)
Valid, for example, for SINAMICS G120 PM230, SINAMICS G120 PM240, SINAMICS G130, SINAMICS S120
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR 1PS5 motors
0.25
1350
1PS5070-1BD..-4BA3
0.29
2.06
0.8
0.18
1.22
0.56
0.21
1.49
0.63
0.25
1.73
0.7
0.37
1360
1PS5071-1BD..-4BA3
0.43
3.01
1.12
0.27
1.81
0.81
0.32
2.2
0.91
0.37
2.55
1
0.55
1400
1PS5080-1BD..-4BA3
0.6
4.48
1.65
0.4
2.69
1.16
0.48
3.28
1.31
0.55
3.79
1.45
0.75
1455
1PS5081-1BD..-4BA3
0.85
5.9
2
0.55
3.75
1.48
0.65
4.45
1.65
0.75
5
1.8
1.1
1460
1PS5095-1BD..-4BA3
1.3
8.6
2.65
0.8
5.5
1.86
1
6.5
2.1
1.1
7.4
2.35
1.5
1460
1PS5098-1BD..-4BA3
1.7
11.7
3.7
1.1
7.5
2.7
1.3
8.9
3.05
1.5
10.1
3.3
2.2
1450
1PS5106-1BD..-4BA3
2.6
17.2
5.3
1.6
11
3.7
1.9
13.1
4.25
2.2
14.8
4.7
3
1455
1PS5108-1BD..-4BA3
3.5
23.5
7.5
2.2
15
5.5
2.7
17.8
6.2
3
20.2
6.7
4
1460
1PS5113-1BD..-4BA3
4.7
31.2
9.6
3
20
6.6
3.6
23.7
7.6
4.1
26.9
8.4
5.5
1455
1PS5131-1BD..-4BA3
6.5
43.1
12.9
4.2
27.5
8.8
4.9
32.6
10.1
5.5
37.1
11.3
7.5
1470
1PS5133-1BD..-4BA3
8.5
58
17.5
5.5
37.6
12.2
6.5
44.5
13.9
7.5
50
15.4
11
1460
1PS5163-1BD..-4BA3
13
86
26
8
55
17.6
10
65
20.5
11
74
22.5
15
1460
1PS5166-1BD..-4BA3
17.5
116
34.5
11.5
75
23.5
13.5
89
27.5
15
101
30.5
18.5
1470
1PS5183-1BD..-4BA3
22
143
42
14
93
28.5
16.5
110
33
19
124
36.5
22
1470
1PS5186-1BD..-4BA3
26
170
50
17
111
34
20
130
39.5
22
147
44
30
1470
1PS5206-1BD..-4BA3
35
231
68
23
151
47
27
178
54
31
201
60
37
1480
1PS5220-1BD..-4BA3
44
285
83
31
200
61
35
228
68
38
252
74
45
1480
1PS5223-1BD..-4BA3
53
346
101
37
244
74
42
277
82
47
306
90
55
1480
1PS5253-1BD..-4BA3
58
377
109
41
266
80
46
302
89
51
333
97
75
1480
1PS5280-1BD..-4BA3
88
576
168
63
407
123
71
461
137
78
509
150
90
1480
1PS5283-1BD..-4BA3
100
651
188
71
460
138
80
522
154
88
576
168
110
1485
1PS5311-1BD..-4BA3
116
751
225
82
532
171
94
603
188
102
664
205
132
1485
1PS5313-1BD..-4BA3
140
901
265
98
639
197
112
724
220
124
797
235
160
1485
1PS5315-1BD..-4BA3
162
1047
305
114
742
225
130
841
250
144
926
275
200
1488
1PS5316-1BD..-4BA3
194
1257
370
138
891
275
156
1010
305
172
1112
330
250
1487
1PS5317-1BD..-4BA3
240
1570
455
172
1114
340
196
1262
380
215
1389
410
315
1490
1PS5353-1BD..-4BA3
250
1603
460
178
1138
350
200
1289
385
220
1419
415
360
1490
1PS5355-1BD..-4BA3
285
1831
520
200
1301
400
230
1473
440
250
1622
470
460
1490
1PS5357-1BD..-4BA3
365
2340
650
255
1662
495
290
1882
550
320
2072
590
LOHER VARIO 1PS4, 1PS5 motors
280
1484
1PS . 356-1BH..-4BA0
315
1489
1PS . 357-1BH..-4BA0
355
1490
1PS . 358-1BH..-4BA0
400
1491
1PS . 350-1BH..-4BA0
450
1491
1PS . 357-1BJ ..-4BA0
500
1492
1PS . 358-1BJ ..-4BA0
560
1492
1PS . 405-1BJ ..-4BA0
630
1492
1PS . 407-1BJ ..-4BA0
710
1492
1PS . 408-1BJ ..-4BA0
800
1493
1PS . 455-1BJ ..-4BA0
900
1493
1PS . 457-1BJ ..-4BA0
950
1493
1PS . 458-1BJ ..-4BA0
1000
1494
1PS . 504-1BJ ..-4BA0
1120
1493
1PS . 505-1BJ ..-4BA0
Values on request
Siemens D 83.1 · 2014
1/77
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS4/5 motors (Ex de)
Utilization of the winding according to F (155 °C)
Converter infeed with extremely motor-friendly output signal and slightly reduced rated voltage at the motor terminal (modulation depth < 1)
Valid, for example, for SINAMICS G120 PM230, SINAMICS G120 PM240, SINAMICS G130, SINAMICS S120
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR 1PS5 motors
0.25
895
1PS5071-1BD..-4CA3
0.29
3.13
0.88
0.17
1.81
0.64
0.21
2.23
0.71
0.24
2.61
0.37
895
1PS5080-1BD..-4CA3
0.43
4.63
1.22
0.26
2.68
0.91
0.31
3.31
1
0.36
3.87
0.78
1.09
0.55
900
1PS5081-1BD..-4CA3
0.6
6.9
1.77
0.39
3.98
1.33
0.47
4.92
1.46
0.5
5.8
1.59
0.75
960
1PS5095-1BD..-4CA3
0.85
8.9
2.2
0.55
5.6
1.69
0.65
6.7
1.86
0.75
7.6
2
1.1
950
1PS5098-1BD..-4CA3
1.2
12.4
3.15
0.75
7.7
2.45
0.9
9.3
2.7
1.05
10.6
2.9
1.5
955
1PS5106-1BD..-4CA3
1.7
17.9
4.55
1.1
11.2
3.65
1.3
13.4
3.95
1.5
15.3
4.2
2.2
950
1PS5113-1BD..-4CA3
2.5
26.4
6.3
1.6
16.3
4.55
1.9
19.6
5.1
2.2
22.5
5.6
3
955
1PS5131-1BD..-4CA3
3.5
36
7.8
2.2
22.2
5.5
2.6
26.8
6.2
3
30.7
6.9
4
955
1PS5135-1BD..-4CA3
4.7
47.7
10
3
29.7
6.8
3.5
35.7
7.8
4
40.8
8.7
5.5
955
1PS5135-1BD..-4CA3
5.5
58
13.2
3.7
36.7
9.7
4.4
43.9
10.8
5
50
11.8
7.5
965
1PS5163-1BD..-4CA3
8.5
89
18.6
5.5
56
13
6.5
67
14.8
7.5
76
16.4
11
970
1PS5166-1BD..-4CA3
13
129
26.5
8
82
18.9
9.5
98
21.5
11
111
23.5
15
980
1PS5186-1BD..-4CA3
17.5
174
35.5
11.5
113
24.5
13.5
133
28
15
151
31.5
18.5
980
1PS5206-1BD..-4CA3
21
216
45
14
139
31
16.5
165
35.5
19
186
39.5
22
980
1PS5208-1BD..-4CA3
24
242
51
16
156
35.5
18.5
185
40.5
21
209
45
30
985
1PS5223-1BD..-4CA3
35
347
70
25
244
52
28
277
58
31
306
63
37
985
1PS5253-1BD..-4CA3
41
403
83
29
284
63
33
322
69
36
356
75
45
985
1PS5280-1BD..-4CA3
53
518
102
37
366
75
43
415
84
47
458
91
55
990
1PS5283-1BD..-4CA3
65
634
124
46
447
91
52
508
102
57
560
111
75
990
1PS5311-1BD..-4CA3
88
863
165
63
610
120
71
692
135
78
763
147
90
990
1PS5313-1BD..-4CA3
106
1036
200
74
732
146
86
830
163
94
916
179
110
990
1PS5314-1BD..-4CA3
130
1266
240
92
894
175
104
1015
197
114
1119
215
132
990
1PS5315-1BD..-4CA3
140
1354
260
98
958
191
112
1086
215
124
1198
230
160
990
1PS5316-1BD..-4CA3
162
1573
300
114
1113
220
130
1262
245
144
1391
270
200
990
1PS5317-1BD..-4CA3
194
1888
375
138
1336
280
156
1515
310
172
1670
335
280
994
1PS5353-1BD..-4CA3
220
2134
430
158
1517
335
178
1718
365
196
1890
390
315
994
1PS5355-1BD..-4CA3
250
2401
470
178
1707
365
300
1932
400
220
2126
425
360
994
1PS5357-1BD..-4CA3
285
2741
540
200
2950
420
230
2207
455
250
2428
490
LOHER VARIO 1PS4 and 1PS5 motors
225
993
1PS . 353 1BH..-4CA0
250
994
1PS . 356-1BH..-4CA0
280
993
1PS . 357-1BH..-4CA0
315
994
1PS . 358-1BH..-4CA0
355
993
1PS . 357-1BJ ..-4CA0
400
992
1PS . 358-1BJ ..-4CA0
450
994
1PS . 405-1BJ ..-4CA0
500
994
1PS . 407-1BJ ..-4CA0
560
995
1PS . 453-1BJ ..-4CA0
630
995
1PS . 455-1BJ ..-4CA0
710
995
1PS . 457-1BJ ..-4CA0
800
995
1PS . 458-1BJ ..-4CA0
900
995
1PS . 505-1BJ ..-4CA0
1000
995
1PS . 507-1BJ ..-4CA0
1120
995
1PS . 508-1BJ ..-4CA0
Values on request
For LOHER CHEMSTAR type series, PTC thermistor must be
selected for sole protection of the winding with Option A15 or
A16 and with frame size 315 and above Option L27 (insulated
bearing, fan side).
1/78
Siemens D 83.1 · 2014
For LOHER VARIO type series and welded steel types 355LC,
355LD, without further options, sole winding protection is
implemented with 3 PTC thermistors for winding and bearing
insulation at the fan side.
The current values specified in the lists are calculated for 400 V.
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:10
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:3
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
SIMOTICS XP 1MD5 motors (Ex de)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
2-pole: 3000 rpm at 50 Hz
0.37
2840
1MD5070- . BD . . -4AA1
0.34
1.15
0.95
0.21
0.720
0.76
0.29
0.985
0.87
0.55
2835
1MD5071- . BD . . -4AA1
0.50
1.71
1.35
0.32
1.07
1.01
0.44
1.47
1.21
0.75
2805
1MD5080- . BD . . -4AA1
0.65
2.36
1.58
0.44
1.46
1.18
0.60
2.02
1.42
1.1
2835
1MD5081- . BD . . -4AA1
1.00
3.44
2.25
0.65
2.15
1.72
0.85
2.94
2.05
1.5
2885
1MD5095- . BD . . -4AA1
1.3
4.60
3.00
0.90
2.93
2.40
1.2
3.96
2.75
2.2
2890
1MD5098- . BD . . -4AA1
2.0
6.8
4.30
1.3
4.32
3.45
1.7
5.8
3.95
3
2905
1MD5106- . BD . . -4AA1
2.7
9.2
5.8
1.8
5.9
4.25
2.4
7.9
5.2
4
2950
1MD5113- . BD . . -4AA1
3.6
12.0
7.3
2.4
7.8
5.3
3.2
10.4
6.6
5.5
2950
1MD5131- . BD . . -4AA1
5.1
16.5
9.9
3.3
10.8
7.2
4.4
14.3
8.8
7.5
2950
1MD5132- . BD . . -4AA1
6.5
22.5
13.2
4.5
14.7
9.7
6.0
19.5
11.8
11
2955
1MD5163- . BD . . -4AA1
10.0
32.9
19.2
6.5
21.6
14.1
8.5
28.6
17.2
15
2955
1MD5165- . BD . . -4AA1
13.5
45.0
25.5
9.0
29.4
18.3
12.0
39.0
22.5
18.5
2955
1MD5166- . BD . . -4AA1
17.0
56
31.5
11.0
36.4
22.5
14.5
48.3
28.0
22
2940
1MD5183- . BD . . -4AA1
20
66
37.5
13.0
42.9
26.5
17.5
57
33.0
30
2955
1MD5206- . BD . . -4AA1
27
90
51
18.0
59
36.0
24
78
44.5
37
2960
1MD5208- . BD . . -4AA1
34
110
62
22
72
43.0
29
96
55
45
2965
1MD5223- . BD . . -4AA1
41
134
74
29
95
55
36
119
67
55
2970
1MD5253- . BD . . -4AA1
51
164
90
36
116
67
45
145
81
75
2978
1MD5280- . BD . . -4AA1
69
222
124
49
158
95
61
197
113
90
2975
1MD5283- . BD . . -4AA1
82
268
147
59
190
109
73
237
131
110
2982
1MD5311- . BD . . -4AA1
100
326
174
72
232
128
90
289
156
132
2982
1MD5313- . BD . . -4AA1
122
392
205
86
279
149
108
347
182
160
2982
1MD5315- . BD . . -4AA1
148
475
245
104
337
178
130
420
220
200
2982
1MD5316- . BD . . -4AA1
184
593
305
130
422
220
164
525
275
250
2985
1MD5318- . BD . . -4AA1
230
742
385
164
528
280
205
657
345
315
2984
1MD5353- . BD . . -4AA1
290
934
500
205
665
375
255
828
450
360
2984
1MD5355- . BD . . -4AA1
330
1068
570
235
760
420
295
946
510
460
2985
1MD5357- . BD . . -4AA1
425
1365
720
300
971
530
375
1209
640
For SIMOTICS XP type series, PTC thermistor must be selected
for sole protection of the winding with Option A15 and with frame
size 315 and above Option L27 (insulated bearing, fan side).
Infeed via the converter with peak voltage in accordance with
IEC 60034-25:2007 Curve A (1560 V).
Siemens D 83.1 · 2014
1/79
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:10
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:3
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
SIMOTICS XP 1MD5 motors (Ex de)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
4-pole: 1500 rpm at 50 Hz
0.25
1410
1MD5070- . BD . . -4BA1
0.23
1.57
0.80
0.14
0.974
0.71
0.20
1.34
0.76
0.37
1385
1MD5071- . BD . . -4BA1
0.34
2.36
0.98
0.21
1.44
0.87
0.29
2.01
0.94
0.55
1440
1MD5080- . BD . . -4BA1
0.50
3.38
1.32
0.33
2.15
1.13
0.44
2.91
1.24
0.75
1440
1MD5081- . BD . . -4BA1
0.65
4.61
1.72
0.44
2.93
1.41
0.60
3.97
1.59
1.1
1425
1MD5095- . BD . . -4BA1
1.00
6.9
2.40
0.65
4.32
1.95
0.85
5.9
2.20
1.5
1435
1MD5098- . BD . . -4BA1
1.3
9.3
3.15
0.85
5.9
2.55
1.2
8.0
2.90
2.2
1455
1MD5106- . BD . . -4BA1
2.0
13.3
4.40
1.3
8.6
3.35
1.7
11.5
3.95
3
1455
1MD5108- . BD . . -4BA1
2.7
18.3
5.9
1.8
11.8
4.40
2.4
15.8
5.3
4
1460
1MD5113- . BD . . -4BA1
3.7
24.3
7.8
2.4
15.7
6.2
3.2
21.0
7.1
5.5
1465
1MD5131- . BD . . -4BA1
5.1
33.3
10.7
3.3
21.6
8.1
4.4
28.8
9.6
7.5
1465
1MD5133- . BD . . -4BA1
6.5
45.3
13.8
4.5
29.4
10.1
6.0
39.2
12.3
11
1470
1MD5163- . BD . . -4BA1
10.0
66
19.8
6.5
42.9
14.7
8.5
57
17.8
15
1475
1MD5166- . BD . . -4BA1
13.5
90
26.5
9.0
59
19.5
12.0
78
23.5
18.5
1465
1MD5183- . BD . . -4BA1
17.0
112
33.0
11.0
73
24.0
14.5
97
29.0
22
1465
1MD5186- . BD . . -4BA1
20
133
39.0
13.0
86
28.5
17.5
115
35.0
30
1470
1MD5206- . BD . . -4BA1
27
181
53
18.0
118
38.0
24
157
47.0
37
1470
1MD5220- . BD . . -4BA1
34
222
61
24
156
45.0
30
196
54
45
1475
1MD5223- . BD . . -4BA1
41
270
75
29
190
56
36
238
67
55
1480
1MD5253- . BD . . -4BA1
51
329
94
36
232
71
45
291
84
75
1485
1MD5280- . BD . . -4BA1
69
447
123
49
316
91
61
395
110
90
1486
1MD5283- . BD . . -4BA1
82
536
149
59
380
113
73
474
134
110
1490
1MD5311- . BD . . -4BA1
102
654
183
72
464
138
90
579
165
132
1490
1MD5313- . BD . . -4BA1
122
784
215
86
557
160
108
694
193
160
1490
1MD5315- . BD . . -4BA1
148
950
260
104
675
196
130
841
235
200
1490
1MD5316- . BD . . -4BA1
184
1188
325
132
844
245
164
1052
295
250
1487
1MD5317- . BD . . -4BA1
230
1488
410
164
1055
310
205
1317
370
315
1488
1MD5353- . BD . . -4BA1
290
1874
520
205
1330
395
255
1659
470
360
1488
1MD5355- . BD . . -4BA1
330
2141
600
235
1520
450
295
1895
540
460
1488
1MD5357- . BD . . -4BA1
425
2737
750
300
1942
560
375
2422
670
For SIMOTICS XP type series, PTC thermistor must be selected
for sole protection of the winding with Option A15 and with frame
size 315 and above Option L27 (insulated bearing, fan side).
Infeed via the converter with peak voltage in accordance with
IEC 60034-25:2007 Curve A (1560 V).
1/80
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:10
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:3
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
SIMOTICS XP 1MD5 motors (Ex de)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
6-pole: 1000 rpm at 50 Hz
0.25
860
1MD5070- . BD . . -4CA1
0.23
2.58
0.77
0.13
1.44
0.76
0.19
2.13
0.76
0.37
925
1MD5080- . BD . . -4CA1
0.34
3.54
1.04
0.21
2.16
0.90
0.29
3.01
0.98
0.55
930
1MD5081- . BD . . -4CA1
0.50
5.2
1.58
0.32
3.19
1.35
0.43
4.42
1.48
0.75
935
1MD5095- . BD . . -4CA1
0.70
7.1
1.97
0.44
4.41
1.64
0.60
6.1
1.84
1.1
935
1MD5098- . BD . . -4CA1
1.00
10.4
2.80
0.60
6.4
2.30
0.85
8.9
2.60
1.5
970
1MD5106- . BD . . -4CA1
1.3
13.7
3.50
0.90
8.8
2.80
1.2
11.9
3.25
2.2
965
1MD5113- . BD . . -4CA1
2.0
20.2
4.95
1.3
12.9
3.90
1.7
17.4
4.55
3
970
1MD5131- . BD . . -4CA1
2.7
27.3
6.7
1.8
17.6
5.4
2.4
23.6
6.1
4
970
1MD5133- . BD . . -4CA1
3.7
36.5
8.2
2.4
23.5
6.3
3.2
31.5
7.5
5.5
970
1MD5135- . BD . . -4CA1
5.0
50
11.4
3.3
32.2
8.8
4.4
43.2
10.3
7.5
975
1MD5163- . BD . . -4CA1
6.5
68
15.3
4.5
43.8
11.6
6.0
59
13.9
11
975
1MD5166- . BD . . -4CA1
10.0
100
21.0
6.5
65
15.7
8.5
87
19.1
15
975
1MD5186- . BD . . -4CA1
13.5
136
29.5
9.0
88
23.5
12.0
118
27.0
18.5
978
1MD5206- . BD . . -4CA1
17.0
168
34.0
11.0
109
25.0
14.5
145
30.5
22
978
1MD5208- . BD . . -4CA1
20
199
40.0
13.0
130
31.5
17.5
173
36.5
30
980
1MD5223- . BD . . -4CA1
27
271
54
19.5
190
40.5
24
239
48.5
37
982
1MD5253- . BD . . -4CA1
34
334
65
24
235
49.0
30
295
59
45
985
1MD5280- . BD . . -4CA1
41
404
78
29
285
59
36
357
70
55
985
1MD5283- . BD . . -4CA1
51
494
92
36
348
69
45
436
83
75
988
1MD5311- . BD . . -4CA1
69
672
130
49
475
99
61
594
117
90
988
1MD5313- . BD . . -4CA1
82
806
154
59
570
116
73
713
139
110
988
1MD5314- . BD . . -4CA1
102
985
183
72
697
136
90
871
164
132
988
1MD5315- . BD . . -4CA1
122
1183
220
86
836
164
108
1046
197
160
988
1MD5316- . BD . . -4CA1
148
1433
265
104
1013
200
130
1267
240
200
990
1MD5317- . BD . . -4CA1
184
1788
345
130
1267
270
164
1582
315
280
993
1MD5353- . BD . . -4CA1
255
2496
485
184
1773
370
230
2210
440
315
993
1MD5355- . BD . . -4CA1
290
2808
530
205
1994
405
255
2486
485
360
994
1MD5357- . BD . . -4CA1
330
3206
610
235
2279
470
295
2839
550
For SIMOTICS XP type series, PTC thermistor must be selected
for sole protection of the winding with Option A15 and with frame
size 315 and above Option L27 (insulated bearing, fan side).
Infeed via the converter with peak voltage in accordance with
IEC 60034-25:2007 Curve A (1560 V).
Siemens D 83.1 · 2014
1/81
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:10
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:3
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
SIMOTICS XP 1MD5 motors (Ex de)
Utilization of the winding according to F (155 °C)
Converter infeed with extremely motor-friendly output signal and slightly reduced rated voltage at the motor terminal (modulation depth < 1)
Valid, for example, for SINAMICS G120 PM230, SINAMICS G120 PM240, SINAMICS G130, SINAMICS S120
2-pole: 3000 rpm at 50 Hz
0.37
2840
1MD5070- . BD . . -4AA1
0.36
1.21
0.98
0.23
0.758
0.77
0.31
1.04
0.90
0.55
2835
1MD5071- . BD . . -4AA1
0.50
1.81
1.41
0.34
1.13
1.03
0.46
1.55
1.26
0.75
2805
1MD5080- . BD . . -4AA1
0.70
2.50
1.65
0.46
1.53
1.21
0.60
2.13
1.47
1.1
2835
1MD5081- . BD . . -4AA1
1.05
3.63
2.35
0.65
2.26
1.77
0.90
3.10
2.10
1.5
2885
1MD5095- . BD . . -4AA1
1.4
4.85
3.10
0.90
3.09
2.45
1.2
4.18
2.85
2.2
2890
1MD5098- . BD . . -4AA1
2.1
7.1
4.40
1.3
4.55
3.50
1.8
6.2
4.10
3
2905
1MD5106- . BD . . -4AA1
2.9
9.7
6.0
1.9
6.2
4.40
2.5
8.4
5.4
4
2950
1MD5113- . BD . . -4AA1
3.9
12.6
7.6
2.5
8.2
5.5
3.3
10.9
6.8
5.5
2950
1MD5131- . BD . . -4AA1
5.3
17.4
10.3
3.5
11.4
7.5
4.6
15.1
9.2
7.5
2950
1MD5132- . BD . . -4AA1
7.0
23.8
13.9
4.8
15.5
10.0
6.0
20.6
12.3
11
2955
1MD5163- . BD . . -4AA1
10.5
34.7
20.0
7.0
22.7
14.5
9.0
30.1
17.9
15
2955
1MD5165- . BD . . -4AA1
14.5
47.5
26.5
9.5
31.1
19.0
12.5
41.2
23.5
18.5
2955
1MD5166- . BD . . -4AA1
18.0
59
33.0
11.5
38.4
23.0
15.5
51
29.0
22
2940
1MD5183- . BD . . -4AA1
21
69
39.0
14.0
45.2
27.5
18.5
60
34.5
30
2955
1MD5206- . BD . . -4AA1
29
95
53
19.0
62
37.0
25
82
46.5
37
2960
1MD5208- . BD . . -4AA1
36
116
64
23
76
45.0
31
101
57
45
2965
1MD5223- . BD . . -4AA1
44
142
78
31
100
58
39
125
69
55
2970
1MD5253- . BD . . -4AA1
53
173
94
38
123
70
47
153
84
75
2978
1MD5280- . BD . . -4AA1
73
235
131
52
167
99
64
208
118
90
2975
1MD5283- . BD . . -4AA1
88
283
154
62
201
114
78
250
138
110
2982
1MD5311- . BD . . -4AA1
106
344
183
76
245
134
94
305
164
132
2982
1MD5313- . BD . . -4AA1
128
414
215
92
294
156
114
367
192
160
2982
1MD5315- . BD . . -4AA1
156
501
260
110
356
188
138
444
230
200
2982
1MD5316- . BD . . -4AA1
194
626
325
138
445
235
172
555
290
250
2985
1MD5318- . BD . . -4AA1
240
783
405
174
557
295
215
693
360
315
2984
1MD5353- . BD . . -4AA1
245
799
440
178
569
330
220
708
395
360
2984
1MD5355- . BD . . -4AA1
285
913
495
200
650
365
250
809
440
460
2985
1MD5357- . BD . . -4AA1
365
1167
620
260
831
465
320
1034
560
For SIMOTICS XP type series, PTC thermistor must be selected
for sole protection of the winding with Option A15 and with frame
size 315 and above Option L27 (insulated bearing, fan side).
Infeed via the converter with peak voltage in accordance with
IEC 60034-25:2007 Curve A (1560 V).
1/82
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:10
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:3
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
SIMOTICS XP 1MD5 motors (Ex de)
Utilization of the winding according to F (155 °C)
Converter infeed with extremely motor-friendly output signal and slightly reduced rated voltage at the motor terminal (modulation depth < 1)
Valid, for example, for SINAMICS G120 PM230, SINAMICS G120 PM240, SINAMICS G130, SINAMICS S120
4-pole: 1500 rpm at 50 Hz
0.25
1410
1MD5070- . BD . . -4BA1
0.24
1.65
0.81
0.15
1.02
0.72
0.21
1.41
0.77
0.37
1385
1MD5071- . BD . . -4BA1
0.36
2.50
1.00
0.22
1.51
0.88
0.31
2.12
0.95
0.55
1440
1MD5080- . BD . . -4BA1
0.50
3.57
1.36
0.34
2.27
1.14
0.46
3.07
1.27
0.75
1440
1MD5081- . BD . . -4BA1
0.70
4.86
1.77
0.47
3.09
1.43
0.60
4.18
1.63
1.1
1425
1MD5095- . BD . . -4BA1
1.05
7.2
2.45
0.65
4.54
1.99
0.90
6.2
2.25
1.5
1435
1MD5098- . BD . . -4BA1
1.4
9.8
3.25
0.90
6.2
2.60
1.2
8.4
3.00
2.2
1455
1MD5106- . BD . . -4BA1
2.1
14.1
4.60
1.3
9.1
3.45
1.8
12.2
4.10
3
1455
1MD5108- . BD . . -4BA1
2.9
19.3
6.1
1.9
12.4
4.50
2.5
16.6
5.5
4
1460
1MD5113- . BD . . -4BA1
3.9
25.6
8.1
2.5
16.5
6.3
3.4
22.2
7.4
5.5
1465
1MD5131- . BD . . -4BA1
5.3
35.1
11.1
3.5
22.8
8.3
4.6
30.4
10.0
7.5
1465
1MD5133- . BD . . -4BA1
7.0
47.8
14.4
4.7
31.0
10.4
6.0
41.4
12.9
11
1470
1MD5163- . BD . . -4BA1
10.5
69
20.5
7.0
45.2
15.2
9.0
60
18.4
15
1475
1MD5166- . BD . . -4BA1
14.5
95
27.5
9.5
62
20.0
12.5
82
24.5
18.5
1465
1MD5183- . BD . . -4BA1
18.0
118
34.5
11.5
77
24.5
15.5
102
30.5
22
1465
1MD5186- . BD . . -4BA1
21
140
41.0
14.0
91
30.0
18.5
121
36.5
30
1470
1MD5206- . BD . . -4BA1
29
191
55
19.0
124
39.5
25
165
49.0
37
1470
1MD5220- . BD . . -4BA1
36
235
64
25
165
47.0
31
207
57
45
1475
1MD5223- . BD . . -4BA1
43
285
79
31
200
58
38
251
70
55
1480
1MD5253- . BD . . -4BA1
53
347
98
38
245
74
47
307
88
75
1485
1MD5280- . BD . . -4BA1
73
472
129
52
334
96
64
417
116
90
1486
1MD5283- . BD . . -4BA1
88
566
156
62
401
117
76
500
140
110
1490
1MD5311- . BD . . -4BA1
106
690
191
76
490
144
94
611
172
132
1490
1MD5313- . BD . . -4BA1
128
828
225
90
588
168
114
733
200
160
1490
1MD5315- . BD . . -4BA1
156
1003
275
110
712
205
138
888
245
200
1490
1MD5316- . BD . . -4BA1
194
1254
345
138
891
255
172
1111
310
250
1487
1MD5317- . BD . . -4BA1
240
1570
425
172
1113
325
215
1390
385
315
1488
1MD5353- . BD . . -4BA1
250
1603
455
178
1138
350
220
1419
415
360
1488
1MD5355- . BD . . -4BA1
285
1831
520
200
1301
400
250
1621
470
460
1488
1MD5357- . BD . . -4BA1
365
2340
650
255
1662
495
320
2072
590
For SIMOTICS XP type series, PTC thermistor must be selected
for sole protection of the winding with Option A15 and with frame
size 315 and above Option L27 (insulated bearing, fan side).
Infeed via the converter with peak voltage in accordance with
IEC 60034-25:2007 Curve A (1560 V).
Siemens D 83.1 · 2014
1/83
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:10
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
Setting range 1:3
T = constant
Output
Torque
50 Hz
50 Hz
kW
Nm
Current
400 V
A
SIMOTICS XP 1MD5 motors (Ex de)
Utilization of the winding according to F (155 °C)
Converter infeed with extremely motor-friendly output signal and slightly reduced rated voltage at the motor terminal (modulation depth < 1)
Valid, for example, for SINAMICS G120 PM230, SINAMICS G120 PM240, SINAMICS G130, SINAMICS S120
6-pole: 1000 rpm at 50 Hz
0.25
860
1MD5070- . BD . . -4CA1
0.24
2.72
0.77
0.14
1.50
0.76
0.20
2.24
0.76
0.37
925
1MD5080- . BD . . -4CA1
0.36
3.74
1.06
0.22
2.27
0.91
0.31
3.17
1.00
0.55
930
1MD5081- . BD . . -4CA1
0.50
5.5
1.62
0.33
3.35
1.37
0.45
4.66
1.51
0.75
935
1MD5095- . BD . . -4CA1
0.70
7.5
2.00
0.46
4.63
1.66
0.60
6.4
1.87
1.1
935
1MD5098- . BD . . -4CA1
1.05
11.0
2.85
0.65
6.7
2.30
0.90
9.3
2.65
1.5
970
1MD5106- . BD . . -4CA1
1.4
14.5
3.65
0.95
9.3
2.90
1.2
12.5
3.35
2.2
965
1MD5113- . BD . . -4CA1
2.1
21.3
5.1
1.3
13.6
4.00
1.8
18.4
4.65
3
970
1MD5131- . BD . . -4CA1
2.9
28.9
6.9
1.9
18.6
5.5
2.5
24.9
6.3
4
970
1MD5133- . BD . . -4CA1
3.9
38.6
8.6
2.5
24.8
6.5
3.3
33.3
7.7
5.5
970
1MD5135- . BD . . -4CA1
5.3
53
11.8
3.4
34.0
9.0
4.6
45.6
10.7
7.5
975
1MD5163- . BD . . -4CA1
7.0
71
15.8
4.7
46.2
12.0
6.0
62
14.3
11
975
1MD5166- . BD . . -4CA1
10.5
106
22.0
7.0
68
16.2
9.0
91
19.7
15
975
1MD5186- . BD . . -4CA1
14.5
144
30.5
9.5
93
24.0
12.5
124
28.0
18.5
978
1MD5206- . BD . . -4CA1
18.0
177
35.5
11.5
115
26.0
15.5
153
31.5
22
978
1MD5208- . BD . . -4CA1
21
210
42.0
14.0
137
32.0
18.5
182
38.0
30
980
1MD5223- . BD . . -4CA1
29
286
56
20
200
42.0
25
252
50
37
982
1MD5253- . BD . . -4CA1
36
352
69
25
247
51
32
311
62
45
985
1MD5280- . BD . . -4CA1
44
427
82
31
301
61
38
377
73
55
985
1MD5283- . BD . . -4CA1
53
522
97
38
367
72
47
461
87
75
988
1MD5311- . BD . . -4CA1
73
709
135
52
501
103
64
627
122
90
988
1MD5313- . BD . . -4CA1
88
851
162
62
601
121
76
753
146
110
988
1MD5314- . BD . . -4CA1
106
1040
192
76
735
142
94
920
172
132
988
1MD5315- . BD . . -4CA1
128
1249
230
90
882
171
114
1104
205
160
988
1MD5316- . BD . . -4CA1
156
1513
280
110
1069
210
138
1337
250
200
990
1MD5317- . BD . . -4CA1
194
1888
360
138
1336
280
172
1670
325
280
993
1MD5353- . BD . . -4CA1
220
2134
430
158
1517
335
196
1890
390
315
993
1MD5355- . BD . . -4CA1
250
2401
470
178
1707
365
220
2126
425
360
994
1MD5357- . BD . . -4CA1
285
2741
540
200
1950
420
250
2428
490
For SIMOTICS XP type series, PTC thermistor must be selected
for sole protection of the winding with Option A15 and with frame
size 315 and above Option L27 (insulated bearing, fan side).
Infeed via the converter with peak voltage in accordance with
IEC 60034-25:2007 Curve A (1560 V).
1/84
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS0 motors (non Ex)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR 1PS0 motors
1.5
2865
1PS 0 095-1BD..-4AA3
2.2
2845
1PS 0 098-1BD..-4AA3
2.4
8.3
4.80
1.5
5.2
3.35
1.8
6.2
3.80
2.1
7.1
4.25
3
2900
1PS 0 106-1BD..-4AA3
3.3
11.2
6.4
2.1
7.1
4.55
2.5
8.5
5.1
2.9
9.6
5.7
4
2890
1PS 0 113-1BD..-4AA3
4.4
14.9
8.1
2.8
9.5
5.3
3.4
11.3
6.2
3.8
12.8
7.0
5.5
2910
1PS 0 131-1BD..-4AA3
6.0
20.4
11.2
4.0
13.0
7.5
4.7
15.5
8.7
5.3
17.6
9.8
7.5
2910
1PS 0 132-1BD..-4AA3
8.0
27.8
14.9
5.4
17.8
9.9
6.0
21.1
11.5
7.0
24.0
13.0
11
2955
1PS 0 163-1BD..-4AA3
12.0
40.2
22.0
8.0
26.2
14.8
9.5
30.9
17.1
10.5
34.8
19.1
15
2955
1PS 0 165-1BD..-4AA3
16.5
55
30.0
11.0
35.8
20.0
13.0
42.1
23.0
14.5
47.5
26.0
18.5
2955
1PS 0 166-1BD..-4AA3
20
67
36.5
13.5
44.1
24.5
16.0
52
28.5
18.0
59
32.0
22
2960
1PS 0 183-1BD..-4AA3
24
80
42.5
16.0
52
29.0
19.0
62
33.5
21
70
37.5
30
2955
1PS 0 206-1BD..-4AA3
33
109
58
22
72
39.5
26
84
46.0
29
95
51
37
2960
1PS 0 208-1BD..-4AA3
39
127
68
26
83
46.0
30
98
53
34
110
60
45
2965
1PS 0 223-1BD..-4AA3
47
154
84
34
109
61
38
124
69
42
136
75
55
2975
1PS 0 253-1BD..-4AA3
55
178
99
39
126
74
44
143
82
49
157
89
75
2980
1PS 0 280-1BD..-4AA3
84
272
143
60
193
104
68
218
116
74
240
127
90
2980
1PS 0 283-1BD..-4AA3
100
326
171
72
231
124
80
262
139
90
289
152
110
2980
1PS 0 311-1BD..-4AA3
116
376
200
82
267
148
94
302
165
102
332
180
132
2980
1PS 0 313-1BD..-4AA3
126
408
220
90
290
160
102
329
179
112
362
195
160
2980
1PS 0 315-1BD..-4AA3
154
495
260
108
352
192
124
398
215
136
438
235
200
2980
1PS 0 316-1BD..-4AA3
184
594
315
132
422
230
148
478
260
164
526
285
250
2985
1PS 0 318-1BD..-4AA3
230
741
390
164
528
285
186
597
320
205
657
350
1.6
5.7
3.30
1.05
3.53
2.20
1.2
4.24
2.55
1.4
4.85
2.85
LOHER VARIO 1PS0 motors
315
2981
1PS 0 356-1BH..-4AA0
300
960
510
218
695
390
245
781
430
269
855
460
355
2982
1PS 0 357-1BH..-4AA0
335
1080
550
238
758
400
272
866
450
301
957
490
400
2984
1PS 0 358-1BH..-4AA0
380
1220
630
281
894
470
316
1006
530
346
1100
570
450
2977
1PS 0 358-1BJ ..-4AA0
430
1370
710
301
959
510
346
1102
580
384
1221
630
500
2981
1PS 0 405-1BJ ..-4AA0
475
1520
780
348
1107
580
394
1253
650
432
1374
710
560
2982
1PS 0 407-1BJ ..-4AA0
530
1700
870
385
1226
650
439
1396
730
482
1534
790
630
2983
1PS 0 408-1BJ ..-4AA0
600
1920
990
435
1385
730
496
1578
820
545
1735
900
710
2985
1PS 0 455-1BJ ..-4AA0
670
2150
1110
493
1571
830
560
1782
930
614
1953
1010
800
2985
1PS 0 457-1BJ ..-4AA0
760
2450
1260
560
1782
940
637
2028
1060
699
2225
1150
900
2984
1PS 0 458-1BJ ..-4AA0
860
2750
1410
637
2028
1060
721
2295
1190
788
2510
1290
Siemens D 83.1 · 2014
1/85
1
© Siemens AG 2014
Introduction
General technical specifications
1
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS0 motors (non Ex)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR 1PS0 motors
1.1
1460
1PS 0 095-1BD..-4BA3
1.2
8.1
2.35
0.80
5.2
1.71
0.95
6.2
1.92
1.05
7.0
1.5
1460
1PS 0 098-1BD..-4BA3
1.6
11.1
3.35
1.05
7.1
2.55
1.2
8.4
2.80
1.4
9.6
3.05
2.2
1450
1PS 0 106-1BD..-4BA3
2.4
16.3
4.85
1.6
10.4
3.45
1.8
12.4
3.90
2.1
14.1
4.30
3
1455
1PS 0 108-1BD..-4BA3
3.3
22.3
6.8
2.1
14.2
5.2
2.5
16.9
5.7
2.9
19.2
6.2
4
1460
1PS 0 113-1BD..-4BA3
4.5
29.6
8.5
2.9
19.0
6.1
3.4
22.5
6.8
3.9
25.5
7.5
5.5
1455
1PS 0 131-1BD..-4BA3
6.0
40.8
11.7
4.0
26.1
8.1
4.7
31.0
9.3
5.3
35.2
10.3
7.5
1470
1PS 0 133-1BD..-4BA3
8.0
55
15.7
5.5
35.7
11.5
6.5
42.2
12.9
7.0
47.7
14.1
11
1460
1PS 0 163-1BD..-4BA3
12.0
81
23.5
8.0
52
16.3
9.5
62
18.6
10.5
70
20.5
15
1460
1PS 0 166-1BD..-4BA3
16.5
110
31.0
11.0
71
22.0
13.0
84
25.0
14.5
95
27.5
18.5
1470
1PS 0 183-1BD..-4BA3
20
135
38.0
13.5
88
26.0
16.0
104
30.0
18.0
117
33.5
22
1470
1PS 0 186-1BD..-4BA3
24
161
44.5
16.0
105
31.0
19.0
124
35.5
21
139
39.5
30
1470
1PS 0 206-1BD..-4BA3
33
219
61
22
143
43.5
26
168
49.0
29
190
54
37
1480
1PS 0 220-1BD..-4BA3
41
270
74
29
190
56
33
216
62
36
238
67
45
1480
1PS 0 223-1BD..-4BA3
50
328
90
35
231
67
40
263
74
44
290
81
55
1480
1PS 0 253-1BD..-4BA3
55
358
99
39
252
74
44
286
82
49
316
89
75
1480
1PS 0 280-1BD..-4BA3
84
545
151
60
385
113
68
437
125
74
482
136
90
1480
1PS 0 283-1BD..-4BA3
94
617
170
68
436
127
76
495
141
84
545
153
110
1485
1PS 0 311-1BD..-4BA3
110
711
205
78
504
158
88
572
173
98
630
187
132
1485
1PS 0 313-1BD..-4BA3
132
854
240
94
605
183
106
686
200
116
755
220
160
1485
1PS 0 315-1BD..-4BA3
154
992
275
108
703
210
124
797
230
136
878
250
200
1488
1PS 0 316-1BD..-4BA3
184
1191
335
130
844
255
148
957
280
164
1054
300
250
1487
1PS 0 317-1BD..-4BA3
230
1487
415
164
1055
315
186
1196
350
205
1316
375
2.10
LOHER VARIO 1PS0 motors
280
1484
1PS 0 356-1BH..-4BA0
265
1710
470
200
1275
370
225
1432
410
245
1560
440
315
1489
1PS 0 357-1BH..-4BA0
300
1920
530
225
1434
410
253
1610
450
275
1754
490
355
1490
1PS 0 358-1BH..-4BA0
335
2150
590
254
1615
460
284
1811
510
309
1969
540
400
1491
1PS 0 350-1BH..-4BA0
380
2450
670
288
1831
520
323
2059
570
352
2243
620
450
1491
1PS 0 357-1BJ ..-4BA0
430
2750
760
322
2052
590
363
2311
650
396
2519
700
500
1492
1PS 0 358-1BJ ..-4BA0
475
3050
840
359
2283
660
403
2569
730
439
2797
780
560
1492
1PS 0 405-1BJ ..-4BA0
530
3400
910
401
2556
700
451
2872
780
491
3124
840
630
1492
1PS 0 407-1BJ ..-4BA0
600
3850
1030
454
2890
800
511
3250
880
556
3537
950
710
1492
1PS 0 408-1BJ ..-4BA0
670
4300
1140
510
3248
890
572
3644
990
622
3960
1060
800
1493
1PS 0 455-1BJ ..-4BA0
760
4850
1290
576
3666
1010
646
4114
1110
702
4468
1200
900
1493
1PS 0 457-1BJ ..-4BA0
860
5500
1460
651
4145
1130
732
4659
1250
796
5065
1350
950
1493
1PS 0 458-1BJ ..-4BA0
900
5800
1540
687
4376
1200
772
4916
1320
839
5343
1430
1000
1494
1PS 0 504-1BJ ..-4BA0
950
6100
1620
720
4582
1260
810
5158
1400
882
5613
1510
1120
1493
1PS 0 505-1BJ ..-4BA0
1060
6800
1810
805
5128
1400
905
5764
1550
984
6266
1680
1/86
Siemens D 83.1 · 2014
© Siemens AG 2014
Introduction
General technical specifications
Converter-fed operation – Special mechanical characteristics
■ Overview (continued)
Prated nrated Type
Mains Mains
50 Hz 50 Hz
kW
rpm
Setting range 1:10
T ~ n2
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:10
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:5
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
Setting range 1:3
T = constant
Output Torque Current
50 Hz 50 Hz 400 V
kW
Nm
A
LOHER CHEMSTAR/VARIO 1PS0 motors (non Ex)
Utilization of the winding according to B (130 °C)
Converter infeed with extremely motor-friendly output signal and full rated voltage at the motor terminal (modulation depth = 1)
Valid, for example, for SINAMICS G180
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR 1PS0 motors
0.75
960
1PS 0 095-1BD..-4CA0
0.80
8.4
2.00
0.50
5.3
1.62
0.60
6.3
1.74
0.70
7.2
1.85
1.1
950
1PS 0 098-1BD..-4CA0
1.2
12.5
3.00
0.75
7.8
2.45
0.90
9.3
2.60
1.05
10.7
2.75
1.5
955
1PS 0 106-1BD..-4CA0
1.6
17.0
4.20
1.05
10.6
3.60
1.2
12.7
3.75
1.4
14.5
3.95
2.2
950
1PS 0 113-1BD..-4CA0
2.4
25.0
5.6
1.5
15.5
4.30
1.8
18.6
4.70
2.1
21.4
5.1
3
955
1PS 0 131-1BD..-4CA0
3.3
34.1
7.0
2.1
21.2
5.1
2.5
25.4
5.7
2.9
29.1
6.2
4
955
1PS 0 133-1BD..-4CA0
4.4
45.2
9.1
2.8
28.3
6.4
3.4
33.9
7.2
3.8
38.7
8.0
5.5
955
1PS 0 135-1BD..-4CA0
5.5
55
12.1
3.5
34.9
9.3
4.2
41.7
10.1
4.7
47.5
10.9
7.5
965
1PS 0 163-1BD..-4CA3
8.0
84
16.8
5.4
53
12.2
6.0
63
13.6
7.0
72
15.0
11
970
1PS 0 166-1BD..-4CA3
12.0
122
24.0
8.0
78
17.7
9.0
93
19.8
10.5
106
21.5
15
980
1PS 0 186-1BD..-4CA3
16.5
165
32.0
11.0
107
23.0
13.0
126
26.0
14.5
143
28.5
18.5
980
1PS 0 206-1BD..-4CA3
20
204
40.5
13.5
132
28.5
16.0
156
32.5
18.0
177
36.0
22
980
1PS 0 208-1BD..-4CA3
23
229
46.0
15.0
148
33.0
17.5
175
37.0
20
198
41.0
30
985
1PS 0 223-1BD..-4CA3
33
329
63
23
231
47.5
27
263
53
29
290
57
37
985
1PS 0 253-1BD..-4CA3
39
382
75
27
269
58
31
306
63
34
337
68
45
985
1PS 0 280-1BD..-4CA3
50
491
92
36
347
70
40
394
77
44
434
83
55
990
1PS 0 283-1BD..-4CA3
62
601
112
43
424
84
49
481
93
54
531
101
75
990
1PS 0 311-1BD..-4CA3
84
818
148
60
578
110
68
656
122
74
723
133
90
990
1PS 0 313-1BD..-4CA3
100
981
180
72
694
133
80
787
148
88
868
161
110
990
1PS 0 314-1BD..-4CA3
124
1199
215
88
848
158
98
962
177
108
1061
193
132
990
1PS 0 315-1BD..-4CA3
132
1283
235
94
908
176
106
1030
195
116
1135
210
160
990
1PS 0 316-1BD..-4CA3
154
1490
270
108
1055
200
124
1196
225
136
1318
245
200
990
1PS 0 317-1BD..-4CA3
184
1788
340
130
1267
260
148
1436
285
164
1582
305
LOHER VARIO 1PS0 motors
225
993
1PS 0 353 1BH..-4CA0
215
2050
390
161
1540
310
181
1726
330
197
1877
360
250
994
1PS 0 356-1BH..-4CA0
235
2300
430
180
1718
340
202
1932
370
220
2104
400
280
993
1PS 0 357-1BH..-4CA0
265
2550
470
200
1907
370
225
2145
410
245
2336
440
315
994
1PS 0 358-1BH..-4CA0
300
2900
540
226
2156
430
255
2432
470
278
2654
500
355
993
1PS 0 357-1BJ ..-4CA0
335
3250
600
257
2453
470
288
2751
520
313
2989
560
400
992
1PS 0 358-1BJ ..-4CA0
380
3650
690
272
2602
520
313
2994
580
346
3306
630
450
994
1PS 0 405-1BJ ..-4CA0
425
4100
770
325
3102
600
364
3478
660
396
3777
710
500
994
1PS 0 407-1BJ ..-4CA0
475
4550
850
360
3436
670
404
3857
740
439
4191
790
560
995
1PS 0 453-1BJ ..-4CA0
530
5100
940
404
3854
740
453
4326
810
492
4699
870
630
995
1PS 0 455-1BJ ..-4CA0
600
5700
1050
452
4315
830
507
4841
910
550
5256
980
710
995
1PS 0 457-1BJ ..-4CA0
670
6500
1190
515
4921
940
578
5522
1030
628
5996
1110
800
995
1PS 0 458-1BJ ..-4CA0
740
7100
1320
569
5430
1060
635
6067
1160
688
6570
1240
900
995
1PS 0 505-1BJ ..-4CA0
860
8200
1510
651
6219
1180
730
6976
1300
793
7572
1400
1000
995
1PS 0 507-1BJ ..-4CA0
950
9100
1670
721
6887
1310
810
7733
1440
880
8399
1550
For LOHER CHEMSTAR 1PS0 type series, PTC thermistor must
be selected for protection of the winding with Option A11 or A12
and with frame size 315 and above Option L27 (insulated
bearing, fan side).
The current values specified in the lists are calculated for 400 V.
For LOHER VARIO type series and welded steel types 355LC,
355LD, without further options, sole winding protection is
implemented with 3 PTC thermistors for winding and bearing
insulation at the fan side.
Siemens D 83.1 · 2014
1/87
1
© Siemens AG 2014
Introduction
General technical specifications
1
Technical definitions for pole-changing motors
■ Overview
General information
Torque
Mechanically, all pole-changing motors correspond to the
single-speed motors. Pole-changing motors in frame size 225
and above of the 2-pole level have the same bearings and the
same shaft extensions as the corresponding frame sizes of the
single-speed 2-pole motors.
The pole-changing motors can be started up from standstill
whatever the number of poles. In the output tables, the starting
torques are specified for direct switch-on and the rotor classes.
The high speed levels can have pull-up torques; so where
possible start-up must be performed at the lower speed levels.
Starting is improved as a result, and with heavy starting the
temperature rise is reduced.
Voltage and frequency
The pole-changing motors in this catalog are supplied for the
following voltages in 50 Hz supply systems: 400 V, 500 V or
690 V.
Within the range of these voltages, motors can be supplied with
abnormal windings for any rated voltage required. For rated voltages below 400 V as well as different frequencies, it is essential
to inquire.
The pole-changing motors included in the output tables are
supplied for 2 or 3 fixed speed levels. If output levels are
required other than those listed in the catalog, the motors in
Dahlander circuits can also be supplied with 2 separate windings. The output will, however, be considerably lower than for a
motor with a Dahlander circuit. The following variants are available:
Output
The outputs specified in the selection tables apply to duty type
S1 according to EN 60034-1.
With regard to coolant temperatures above 40 °C and site
altitudes above 1000 m above sea level, the same points apply
as for single-speed motors.
Circuit diagrams for two speeds
X 1301
X 1302
1W
1V
1U
(U1)
(V1)
(W1)
(U2)
(V2)
(W2)
(U3)
(V3)
(W3)
(U4)
(V4)
(W4)
1W
2U
2V
2W
∆ low speed
L1
1V
1U
(U1)
(V1)
(W1)
(U2)
(V2)
(W2)
(U3)
(V3)
(W3)
(U4)
(V4)
(W4)
low speed
high speed
high speed
1U
1V
1W
1U
1V
1W
1U
1V
1W
2U
2V
2W
2U
2V
2W
2U
2V
2W
L2
L1
L3
L2
2U
2V
2W
L3
L1
L2
1U
1V
2U
L1
L3
1V
1W
2U
2V
L2
1U
1V
2U
1W
2V
2W
(1U1)
(1V1)
(1W1)
(2U1)
(2V1)
(2W1)
(1U2)
(1V2)
(1W2)
(2U2)
(2V2)
(2W2)
∆ low speed
∆ high speed
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
L2
L3
L1
L2
L3
G_D083_EN_00050
Speed ratio 1:1.5 and 1:1.33; 2 separate windings in Y/Y or Y/Δ or Δ/Y
circuit for constant torque 6-/4-pole and 8-/6-pole, for torque that reduces
in accordance with the square law 6-/4-pole and 8-/6-pole
1/88
L3
Speed ratio 1:2; 1 winding (Dahlander) circuit Y/YY for torque that reduces in
accordance with the square law (fan drive) 4-/2-pole, 8-/4-pole and 12-/6-pole
2W
high speed
low speed
L1
2W
X 1401
X 1401
1U
2V
G_D083_EN_00049
G_D083_EN_00048
Speed ratio 1:2; 1 winding (Dahlander) circuit Δ/YY for constant torque
4-/2-, 8-/4- and 12-/6-pole
1W
Siemens D 83.1 · 2014
L1
L2
L3
L1
L2
L3
G_D083_EN_00051
Speed ratio 1:1.5 and 1:1.33; 2 separate windings in Δ/Δ or Y/Δ or Δ/Y
circuit for constant torque 6-/4-pole and 8-/6-pole, for torque that reduces
in accordance with the square law 6-/4-pole and 8-/6-pole
© Siemens AG 2014
Introduction
General technical specifications
Technical definitions for pole-changing motors
■ Overview (continued)
Circuit diagrams for three speeds
X 1502
X 1501
1U
1V
1W
2W
1U
2U
(1U1)
(1V1)
(1W1)
(2U1)
(2V1)
(2W1)
(1U2)
(1V2)
(1W2)
(2U2)
(2V2)
(2W2)
(2U3)
(2V3)
(2W3)
(2U4)
(2V4)
(2W4)
low speed
L1
2V
3U
3V
3W
1W
2W
2V
2U
(1V1)
(1W1)
(2U1)
(2V1)
(2W1)
(1U2)
(1V2)
(1W2)
(2U2)
(2V2)
(2W2)
(2U3)
(2V3)
(2W3)
(2U4)
(2V4)
(2W4)
low speed
high speed
∆ medium speed
1V
(1U1)
medium speed
high speed
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
3U
3V
3W
3U
3V
3W
3U
3V
3W
3U
3V
3W
3U
3V
3W
3U
3V
3W
L2
L1
L3
L2
L1
L3
L2
L3
L1
L2
L1
L3
L2
L3
L1
L2
Speed ratio 1:2:4; Dahlander circuit, 4-/2-pole, separate winding 8-pole,
Y/Δ/YY circuit – 2 separate windings also possible in Δ circuit for constant
torque 8-/4-/2-pole
X 1503
L3
G_D083_EN_00053
G_D083_EN_00052
Speed ratio 1:2:4; Dahlander circuit, 4-/2-pole, separate winding 8-pole,
Y/Y/YY circuit – 2 separate windings also possible in Δ circuit for torque
that reduces in accordance with the square law (fan drive) 8-/4-/2-pole
X 1504
1W
1V
1U
2U
(1U1)
(1V1)
(1W1)
(1U2)
(1V2)
(1W2)
(1U3)
(1V3)
(1W3)
(1U4)
(1V4)
(1W4)
∆ low speed
L1
3U
3V
3W
3U
3V
3W
2V
2W
1W
1V
1U
2U
(2U1)
(2V1)
(2W1)
(1U1)
(1V1)
(1W1)
(2U2)
(2V2)
(2W2)
(1U2)
(1V2)
(1W2)
(1U3)
(1V3)
(1W3)
(1U4)
(1V4)
(1W4)
medium speed
high speed
low speed
3U
3V
3W
2V
2W
(2U1)
(2V1)
(2W1)
(2U2)
(2V2)
(2W2)
medium speed
high speed
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
1U
1V
1W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
2U
2V
2W
3U
3V
3W
3U
3V
3W
3U
3V
3W
3U
3V
3W
3U
3V
3W
3U
3V
3W
L2
L3
L1
L2
L3
L1
L2
L3
G_D083_EN_00054
Speed ratio 1:1.33:2; Dahlander circuit, 8-/4-pole, separate winding
6-pole, Y/Δ/YY circuit – 2 separate windings also possible in Δ circuit for
constant torque 8-/6-/4-pole
L1
L2
L3
L1
L2
L3
L1
L2
L3
G_D083_EN_00055
Speed ratio 1:1.33:2; Dahlander circuit, 8-/4-pole, separate winding
6-pole, Y/Y/YY circuit – 2 separate windings also possible in Δ circuit for
torque that reduces in accordance with the square law (fan drive)
8-/6-/4-pole
Siemens D 83.1 · 2014
1/89
1
© Siemens AG 2014
Introduction
General technical specifications
1
Notes
1/90
Siemens D 83.1 · 2014
2
© Siemens AG 2014
Motors with Explosion Protection
2/2
2/2
2/2
2/3
2/4
2/5
2/5
2/6
2/7
2/7
2/9
2/9
2/9
2/9
2/10
2/14
2/15
2/15
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2/18
2/19
2/19
2/22
2/22
2/24
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2/26
2/26
2/27
2/27
2/27
2/27
2/28
2/33
2/33
2/34
2/34
2/35
Orientation
Overview
• Classification of zones
• Hazardous areas
• Types of protection
• Overview of standards for explosion
protection
• Device marking
• Temperature classes and groups
• Operation of motors with type of
protection "Dust explosion protection"
• Maintaining explosion protection
during normal operation
SIMOTICS XP 1MD5 motor series
General information
Technical specifications
• SIMOTICS XP 1MD5 motor series, type
of protection "Explosion-proof enclosure"
• Mechanical design
• Electrical design
Motors in cast-iron version
Selection and ordering data
Article No. supplements
Selection and ordering data
Special versions
Selection and ordering data
Dimensions for frame sizes 71 B to 250 M
Dimensional drawings
Dimensions for frame sizes 280 S to 355 M
Dimensional drawings
Flange dimensions
Dimensional drawings
LOHER CHEMSTAR and
VARIO 1PS4 and 1PS5 motor series
General information
Technical specifications
• LOHER CHEMSTAR and VARIO 1PS4
and 1PS5 motor series, type of protection
"Explosion-proof enclosure"
• Mechanical design
• Electrical design
• Three-phase motors with external
cables
• Motors with built-on backstop
• Axially-mounted forced ventilation
• Built-on single-disk spring-operated
brake
2/36
2/36
2/42
2/42
2/45
2/45
2/53
2/53
2/54
2/54
2/55
2/55
2/69
2/69
2/71
2/71
2/73
2/73
2/75
2/75
2/77
2/77
2/77
2/77
2/78
2/81
2/82
2/82
2/91
2/91
2/92
2/92
2/104
2/104
2/106
2/106
2/108
2/108
2/110
2/110
Motors in cast-iron and steel versions
Selection and ordering data
Motors with High Efficiency IE2
in cast-iron and steel versions
Selection and ordering data
Pole-changing motors
in cast-iron and steel versions
Selection and ordering data
Brake motors with High Efficiency IE2
in cast-iron and steel versions
Selection and ordering data
Article No. supplements
Selection and ordering data
Special versions
Selection and ordering data
Dimensions for frame sizes 71 B to 250 M
Dimensional drawings
Dimensions for frame sizes 280 S to 355 M
Dimensional drawings
Dimensions for frame sizes 355 L to 500 L
Dimensional drawings
Flange dimensions
Dimensional drawings
LOHER CHEMSTAR and
VARIO 1PS1 motor series
General information
Technical specifications
• LOHER CHEMSTAR and VARIO 1PS1
motor series, type of protection
"Non-sparking"
• Mechanical design
• Electrical design
Motors with High Efficiency IE2
in cast-iron and steel versions
Selection and ordering data
Article No. supplements
Selection and ordering data
Special versions
Selection and ordering data
Dimensions for frame sizes 90 L to 250 M
Dimensional drawings
Dimensions for frame sizes 280 S to 355 L
Dimensional drawings
Dimensions for frame sizes 355 L to 500 L
Dimensional drawings
Flange dimensions
Dimensional drawings
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview
Classification of zones
Areas subject to explosion hazard are divided into zones. Division into zones depends on the chronological and geographical
probability of the presence of a hazardous, potentially explosive
atmosphere. Information and specifications for classification of
the zones are laid down in the following standards:
• IEC/EN 60079-10-1 for gas atmospheres
• IEC/EN 60079-10-2 for dust atmospheres
2
Further, a distinction is made between various explosion groups
as well as temperature classes and these are included in the
hazard assessment.
Zone classification
Gas atmosphere
Zone classification
Dust atmosphere
Zone 22
In many industrial and public sectors, explosion protection or
explosion hazards are ever-present, e.g. in the chemicals industry, in refineries, on drilling platforms, at gas stations, in feed
manufacturing and in sewage treatment plants.
The risk of explosion is always present when gases, fumes, mist
or dust are mixed with oxygen in the air in an explosive ratio
close to sources of ignition that are able to release the so-called
minimum ignition energy.
In the chemical and petrochemical industries in particular, when
crude oil and natural gas are transported, or in mining, milling
(e.g. grain and granular solids), this can result in serious injury
to persons and damage to equipment.
To ensure maximum safety in these areas, legislators in most countries have implemented appropriate stipulations in the form of laws
and regulations based on national and international standards.
Explosion-protected equipment is designed such that an explosion can be prevented when it is used properly.
The explosion-protected equipment can be designed in accordance with various types of protection.
The local conditions must be subdivided into specified zones by
the user with the assistance of the responsible authorities in
accordance with the frequency of occurrence of an explosion
hazard. Device (equipment) categories are assigned to these
zones. The zones are then subdivided into possible types of protection and therefore into possible equipment (product) types.
Zone
Gas Dust
1) 2)
1) 2)
0
–
1
–
2
–
–
20
–
21
–
22
1)
Zone 20
Zone 0
Zone 1
G_D081_EN_00339
Depending on the particular zone and therefore the associated
hazard, operating equipment must comply with defined minimum requirements regarding the type of protection. The different
types of protection require corresponding measures to prevent
ignition that should be implemented at the motor in order to
prevent that a surrounding explosive atmosphere is ignited.
Assigned
types of protection
An area in which there is an explosive gas atmosphere constantly,
over a long period or frequently.
An area in which it is expected that an explosive gas atmosphere
will occur occasionally during normal operation.
An area in which in normal operation it is expected that an explosive gas
atmosphere will occur only rarely and then only briefly.
An area in which there is an explosive gas atmosphere comprising a
dust-air mixture constantly, over a long period or frequently.
An area in which it is expected that an explosive gas atmosphere comprising a
dust-air mixture will occur occasionally during normal operation.
An area in which in normal operation it is expected that an explosive gas
atmosphere in the form of a cloud of flammable dust in air will occur only
rarely and then only briefly.
Siemens D 83.1 · 2014
Safe Area
Zone 2
Zone definition acc. to
IEC/EN 60079-10-1 for gas atmospheres
IEC/EN 60079-10-2 for dust atmospheres
Motors of
- Zone 1 can also be used in Zone 2
- Zone 21 can also be used in Zone 22
2/2
Zone 21
Safe Area
Category
according to
94/9/EC
1
Equipment protection
level acc. to
IEC/EN 60079-0
Ga
2
Gb
3
Gc
Low voltage motors
not permitted
Ex tb
1
Da
2
Db
Ex tc 3)
3
Dc
Low voltage motors
not permitted
Ex e
Ex de
Ex d
Ex nA
2)
Motors which are certified for gas or dust protection must not be used in
hybrid mixtures! Hybrid mixtures:
When explosive gas and dust atmospheres occur simultaneously.
3)
Motors are not approved for operation in environments containing
conductive dust.
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview (continued)
Hazardous areas
Zone acc. to Explanations
EN 60079-14
Examples
Permissible electrical equipment
General
Motors
Gases, vapors and mist
Zone 0
Areas in which there is an
explosive gas atmosphere
constantly or over a long
period.
This normally only applies to
Electrical equipment is only
the internal space of containers permitted to be used in Zone 0
or apparatus.
which is explicitly certified for
use in this zone.
Explosion-proof motors are
not permitted to be used here
whatever their type of protection. Exceptions can only be
applied by the monitoring
authorities.
Zone 1
Areas in which it is to be
expected that a hazardous,
potentially explosive atmosphere will only occur
occasionally.
These include, for example:
Close proximity to Zone 0, the
internal space of equipment,
close proximity to
• Feed openings
• Filling and draining facilities
• Fragile apparatus or pipes
made of glass or ceramics,
etc.
In Zone 1, explosion-proof
motors must be used that have
type of protection "Explosionproof enclosure", "Increased
safety" or "Pressurized enclosure".
Zone 2
Areas in which it is to be
expected that a hazardous,
potentially explosive atmosphere will occur only rarely
and then only for a short
period.
This may also include:
Areas surrounding Zones 0
and 1.
Areas surrounding flange
connections with flat seals
for pipes in closed rooms.
Zone 20
Areas in which a potentially
explosive gaseous atmosphere
in the form of a cloud of combustible dust is present
constantly over long periods,
or frequently.
This normally only applies to
the internal space of apparatus
(mills, dryers, mixers, pipelines,
silos, etc.)
Zone 21
Areas in which a potentially
explosive atmosphere in the
form a cloud of combustible
dust is occasionally present
in normal operation.
This zone may also include:
Areas in the immediate vicinity
of filling and draining stations
and areas in which dust deposits build up that could occasionally result in an explosive mixture of combustible dust and air
during normal operation
Motors with type of protection
"Explosion-proof enclosure",
"Increased safety" or "Nonsparking" can be used in
Zone 21 provided that they
comply with IP6x degree of
protection and fulfill the requirements of EN 60079-0 and
EN 60079-31.
Zone 22
Areas in which a dangerous
explosive atmosphere in the
form of a cloud in the air containing flammable dust does
not usually occur or occurs
only briefly during normal
operation.
These may also include:
Areas in the vicinity of apparatus when dust may be expelled
from unsealed areas (e.g. mill
rooms).
Motors without EC type-examination certificate (with EC
Declaration of Conformity of
the manufacturer) are also permitted to be used in Zone 22.
For non-conductive dust, IP5x
degree of protection must be
implemented as a minimum and
the requirements of EN 60079-0
and EN 60079-31 must be fulfilled.
In the case of conductive dust,
the requirements for Zone 21
apply.
Electrical equipment must be
explosion-proof in accordance
with one of the EN 60079-0
types of protection.
Explosion-proof motors in the
type of protection "Non-sparking" Ex nA can be used in
Zone 2.
Dust
Note:
The installation regulations of VDE 0118 apply to firedamp
protection equipment. In mining, the areas are not subdivided
into Zones.
Electrical equipment is only
permitted to be used in
Zone 20 which is explicitly
certified for use in this zone.
Explosion-proof motors are
not permitted to be used here.
Exceptions can only be applied
by the monitoring authorities.
Note I:
Layers, deposits and accumulations of combustible dust must
be taken into consideration like any other possible cause of an
explosive atmosphere.
Note II:
Normal operation refers to the state in which the equipment is
used within its design parameters.
Siemens D 83.1 · 2014
2/3
2
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview (continued)
2
Types of protection
SIMOTICS XP motors
Type of protection "Non-sparking" Ex nA acc. to IEC/EN 60079-15
The SIMOTICS XP 1MD5 motor series are positioned in the
range of explosion-proof motors alongside the LOHER motor
series and represent the future standard product series.
SIMOTICS XP motors are characterized by significantly shorter
delivery times, as well as by a considerable simplification of order processing, but in comparison to the 1PS5 motor series the
variety of products is limited and the product characteristics are
fixed. The components with relevance for the type of protection,
such as housing, bearing plate and terminal box, are identical in
design in the 1MD5 and 1PS5 motor series. These two series are
therefore mechanically interchangeable and offer a well-rounded
portfolio ranging from 1MD5 standard applications to 1PS5
special applications.
For motors with type of protection "Non-sparking", the type of
construction prevents the occurrence of arcing, sparks or hot
surfaces during normal operation. Motors of this type of protection are occasionally located in a potentially explosive atmosphere whereby the atmosphere can achieve a level that poses
a risk. These motors are assigned to device group II – category
3G (corresponding to Zone 2).
The LOHER CHEMSTAR and LOHER VARIO Ex nA series are
generally certified for the highest class "IIC". They are marked in
accordance with the EC directive (94/9/EC) with II 3G Ex nA IIC
T3 Gc. Compliance with the regulations is documented with an
EC Declaration of Conformity.
The motor terminal boxes are also marked and certified as "Nonsparking". The terminal boxes of the LOHER CHEMSTAR and
LOHER VARIO Ex nA series are identical in construction to the
Ex e "Increased safety" connection system. In accordance with
the current, harmonized edition, EN 60079-0 Edition 2009, the
gas for the type of protection test must be specified in the case
of type of protection "Non-sparking".
Type of protection "Explosion-proof enclosure" Ex d acc. to
IEC/EN 60079-1
For motors in type of protection "Explosion-proof enclosure", it is
ensured that any explosion will be restricted to within the motor.
The housing must resist the pressure of the explosion and also
prevent ignition from the internal to the external atmospheres.
Motors in type of protection "Explosion-proof enclosure Ex d" are
used in a potentially explosive atmosphere whereby this atmosphere can achieve a level that poses a risk. These motors are
assigned to device group II – category 2G (corresponding to
Zone 1). They ensure a high degree of safety.
To define the risk posed by a potentially explosive gas, the minimum ignition temperature of a dust cloud is required as well as
details of the possibility of a flame exiting through a narrow slit in
the motor housing. This is achieved by classification in explosion
groups IIA, IIB and IIC, whereby IIC represents the highest
requirements (see the table "Assignment of combustible gases
and vapors").
LOHER CHEMSTAR Ex d(e) motors
The LOHER CHEMSTAR 1PS5 motor series in type of protection
Ex d(e) are approved for use in potentially explosive atmospheres of Zone 1 according to EN 60079-0, EN 60079-1 and
EN 60079-7. They are marked in accordance with the EC directive (94/9/EC) with II 2G Ex d IIB T3-T6 Gb and II 2G Ex d IIC
T3-T6 Gb. If the terminal box is in type of protection "Increased
safety", they are marked with II 2G Ex de IIB T3-T6 Gb and
II 2G Ex de IIC T3-T6 Gb.
Compliance with the regulations is ensured in every case with an
EC type-examination certificate.
2/4
Siemens D 83.1 · 2014
The SIMOTICS XP 1MD5 motors are explosion-proof, 3-phase
induction motors with squirrel-cage rotors. They are suitable for
use under ambient conditions in which there is a high risk of an
explosive atmosphere being generated as a result of gas, vapor
or mist (Zone 1). The motors comply with directive ATEX 94/9/EC
and are marked with II 2G Ex de IIC T3-T6 Gb.
Type of protection "Dust explosion protection" Ex t acc. to
IEC/EN 60079-31
The motor series in types of protection "Non-sparking" and
"Explosion-proof enclosure" already described can also be
designed for dust explosion protection. Atmospheres with potentially explosive dust are classified as frequently occurring
(Zone 21) and rarely occurring (Zone 22). Further classification
differentiates between conductive and non-conductive dust. In
general, motors of the 1PS and 1MD5 series can be used in
Zone 21 for non-conductive and conductive dust and in Zone 22
for non-conductive dust. The motors are marked in accordance
with EN 60079-0 and EN 60079-31 with II 3D Ex tc IIIB T130 °C
Dc (Zone 22, non-conductive dust) or II 2D Ex tb IIIC T130 °C
(Zone 21, conductive dust). The installed terminal boxes are
marked and certified in accordance with the dust and gas
explosion protection class.
Suitability of the motors is confirmed for Zone 21 with an EC
type-examination certificate and for Zone 22 with an EC
Declaration of Conformity.
Motors with dual labeling for gas and dust may only be used in
applications in which gas and dust occur simultaneously after
prior examination of the properties of the hybrid mixtures by the
user.
For further information, see Chapter "Operation of motors with
type of protection "Dust explosion protection""
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview (continued)
Overview of standards for explosion protection
The explosion-proof three-phase motors comply with the European standards. The European standards are recognized by all
member states of CENELEC (European Committee for Electrotechnical Standardization). The national electrotechnical committees of Austria, Belgium, Czech Republic, Denmark, Finland,
France, Germany, Greece, Iceland, Ireland, Italy, Luxembourg,
Netherlands, Norway, Spain, Sweden, Switzerland, Portugal,
and United Kingdom (UK) are affiliated to CENELEC.
Equipment
General provisions
Flameproof enclosures
Increased safety
Classification of areas
(gases, vapors and mist)
Classification of areas (dust)
Intrinsic safety
Electrical equipment in potentially explosive
atmospheres (gases, vapors, mist)
Type of protection "n" (Zone 2)
Maintenance of Ex equipment
Intrinsically safe electrical systems
Equipment "Dust"
(dust ignition protection by enclosure)
Equipment "Dust"
Equipment "Dust"
Basic concepts and methodology
European standard
EN 60079-0
EN 60079-1
EN 60079-7
EN 60079-10-1
EN 60079-10-2
EN 60079-11
EN 60079-14
EN 60079-15
EN 60079-17
EN 60079-25
EN 60079-31
EN 50281-2-1
EN 61241-2-2
EN 1127-1
Explosion protection directive 94/9/EC – ATEX 100a
Explosion protection has been fully harmonized by directive
94/9/EC in Germany and in the other member states of the European Union. The requirements of the new law came into force on
July 1, 2003 and since then only those devices and protection
systems that comply with directive 94/9/EC are permitted to be
marketed.
Directive 94/9/EC and directive 1999/92/EC specify that only
specific electrical equipment and devices are permitted to be
used in the zones.
The devices are assigned to device groups and categories.
Certifications
German Federal Testing Laboratory. EC type-examination
certificates from the German Federal Testing Laboratory for
explosion-proof electrical equipment in accordance with EN
standards are valid in all EU member states. Any deviations from
the certified electrical and mechanical design specified in this
list require a supplement to be issued, or re-certification.
Use of electrical equipment in accordance with EN 60079-14
Electrical equipment used in potentially explosive workshops and
storage areas must comply with EN 60079-14/ VDE 0165-1
"Explosive atmospheres - Part 14: Electrical installations design,
selection and erection". All other general regulations issued by the
responsible supervisory authorities and the Employer's Liability
Insurance Association or any specifically issued for individual
case are also applicable.
A plant subject to inspection is not permitted to be commissioned
initially or following a significant modification until the plant has
been inspected by an approved testing agency for correctness of
assembly, installation, site conditions and safe operation taking
into account the intended mode of operation. Devices compliant
with directive 94/9/EC are permitted to be commissioned in accordance with the responsible supervisory authority. (see BetrSichV,
Section 3, § 14)
Device marking
The device group and category are specified in the device
marking.
The device marking is specified as follows:
e.g. CE 0102
II 2G Ex d IIC T4 Gb
• CE conformity mark, CE stands for "Communauté
Européenne" (French for "European Community")
The manufacturer declares by means of CE marking that the
relevant product has been manufactured in accordance with all
applicable regulations and requirements of directive 94/9/EC
and the product has been subjected to the relevant conformity
evaluation process.
-0102 Identification number for the supervisory authority,
in the case of the products 1PS and 1MD5 this is the
German Federal Testing Laboratory (PTB)
• Marking for prevention of explosions in accordance with
directive 94/9/EC
With the exception of the dust explosion proof motors certified
by EXAM (BVS), the motors in this catalog are certified by the
Example "Non-sparking":
CE 0158
II
3
G
CE marking
Number of the certifying "notified" body (0158 = EXAM)
Explosion protection marking
Device group: I = Underground
II = All other areas
Category:
2 (Zone 1/21)
3 (Zone 2/22)
Ex atmosphere G = Gas
D = Dust
Explosion-proof equipment – Explosion protection (protection method) in accordance with European standards
Type of protection nA, d, de, e, tb or tc (de = Motor enclosure Ex d with terminal box Ex e) – see types of protection
Explosion group and explosion subgroup
II = Gas (IIA, IIB or IIC)
III = Dust (IIIA, IIIB or IIIC)
see Table "Examples of the assignment of combustible gases and vapors"
Temperature class with max. surface temperature T1 = 450 °C
T4 = 135 °C
(see the following section)
T2 = 300 °C
T5 = 100 °C
"Temperature classes and groups"
T3 = 200 °C
T6 = 85 °C
Equipment protection level:
G = Gas
D = Dust
Ga = Very high protection,
Da = Very high protection,
Gb = High protection,
Db = High protection,
Gc = Increased protection,
Dc = Increased protection
Ex
nA
IIC
T3
Gc
Additional information on the subject of explosion protection, types of protection and zones is provided in the Siemens brochure
"Explosion Protection".
Siemens D 83.1 · 2014
2/5
2
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview (continued)
2
Temperature classes and groups
Temperature classes
Combustible gases and vapors are divided into temperature
classes according to their ignitability and into groups according
to their spark ignition capacity. The marking of a three-phase
motor with the codes for the type of protection, group and temperature class specifies that it can be used without danger in
hazardous areas depending on the zone classification. The numerical sequence of the codes for the group and temperature
class has been selected so that motors that satisfy the requirements for a certain group and temperature class also satisfy the
requirements for lower groups and classes.
Temperature class
of electrical
equipment
Maximum surface
temperature of
electrical equipment
Ignition temperature
of gases or vapors
T1
450 °C
> 450 °C
T2
300 °C
> 300 °C
T3
200 °C
> 200 °C
T4
135 °C
> 135 °C
T5
100 °C
> 100 °C
T6
85 °C
> 85 °C
Examples of the assignment of combustible gases and vapors
Group
Temperature classes
T1
IIA 1)
T2
T3
Material
designation
Minimum Material
ignition
designatempera- tion
ture
°C
Minimum Material
ignition
designatempera- tion
ture
°C
Acetone
540
380
Ethane
515
i-amyl
acetate
T4
Minimum Material
ignition
designatempera- tion
ture
°C
Benzine
n-butane
365
Gasoline 2)
Ethyl acetate 460
n-butyl
alcohol
340
Special
benzine
2)
Ethyl chloride 510
Cyclohexanone
430
Diesel
fuel
2)
Ammonia
630
1.2dichloroethane
440
Heating
oils
2)
Benzene
555
n-hexane 240
Acetic acid
485
Acetic acid 330
anhydride
Carbon
monoxide
605
Ethyl
alcohol
425
Ethylene
425
Hydrogen
sulfide
Ethylene
oxide
440
Acetylene
305
Methane
595
Methanol
455
Methyl
chloride
625
T5
Minimum Material
ignition
designatempera- tion
ture
°C
Acetaldehyde
140
Ethyl
ether
180
T6
Minimum Material
ignition
designatempera- tion
ture
°C
Minimum
ignition
temperature
°C
Naphthalene 520
IIB 1)
IIC 1)
1)
Phenol
595
Propane
470
Toluene
535
Town gas
(illuminating
gas)
560
Hydrogen
560
Subgroups IIA, IIB and IIC must be specified for the Ex nA and Ex de
types of protection described in this list in accordance with EN 60079-0
(2009).
2/6
Siemens D 83.1 · 2014
270
Carbon
disulfide
2)
95
The minimum ignition temperature depends on the composition and lies
between 220 and 300 °C, over 300 °C in special cases.
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview (continued)
Operation of motors with type of protection
"Dust explosion protection"
Potentially explosive atmospheres with dust can arise in industry
and in agriculture. For a specific environment (Zone), a product
(device or motor) is permitted to be used only if it is assigned to the
appropriate device group and category (see the following table).
An important feature of dust protection is the IP degree of protection. Depending on the environmental conditions, differing
requirements are placed on the dust-tightness of the enclosure.
For dust explosion protection, it is important to ensure that the
surface temperature of the motors is limited to a value below the
minimum ignition temperature of the combustible dust or a dust
layer.
• Surface temperature of motors < 2/3 the minimum ignition
temperature of the dust/air mixture.
• Surface temperature of the motors < minimum ignition
temperature of dust layer (of 5 mm depth) -75 K.
The user determines the category and maximum permissible
surface temperature based on the hazardous area and the type
of dust.
Note:
Conductive or non-conductive dust changes the device
category (see table below).
2
The motors are designed for ambient temperatures between
-20 and +40 °C.
Dust explosion protection EN 50281-1-1/EN 50281-1-2
Equipment group
Category
Zone
Dust group
IP degree of protection
Max. surface temperature
Marking
ATEX certification
IECEx certification
II
2D
21
IIIC
Conductive dust
IP6x
T130 °C
II 2D Ex tb IIIC T130 °C Db
EC type-examination certificate
IECEx Certificate of Conformity
Zone 22 non-conductive dust:
Can be ordered as an option (Zone 22 options) with
LOHER CHEMSTAR 1PS0, 1PS1, 1PS5 and SIMOTICS XP 1MD5
motor series.
Zone 22 conductive dust:
Implemented and certified normally as Zone 21, the option for
Zone 21 must be selected in this case.
Zone 21 non-conductive dust:
Handled and certified as for Zone 21 conductive dust.
Zone 21 conductive dust:
Can be ordered as an option (Zone 21 options) with
LOHER CHEMSTAR 1PS1, 1PS5 and SIMOTICS XP 1MD5 motor
series.
Hybrid mixtures
When dust explosion protection is combined with gas explosion
protection, it is important to consider the possibility that hybrid
mixtures can occur: hybrid mixtures are mixtures of flammable
dusts with explosive gas/air atmospheres which can together
create a dangerous explosive atmosphere if they occur at the
same time. Changes can arise in the safety characteristics here,
such as a change in the zone classification, increase in the
explosion pressure, reduction in the minimum ignition energy
and a reduction in the maximum temperatures to be observed.
For this reason, the relative characteristics must be considered
both for gas (Zones 0, 1 and 2) and for dust (Zones 20, 21 and
22) where hybrid mixtures arise. It is necessary for a competent
assessor to determine in the individual case whether the parameters determining ignition are unfavorably affected in a particular
hybrid mixture. Motors with dual labeling for gas (G) and dust (D)
may only be used in applications in which gas and dust occur
simultaneously after prior examination of the properties of the
hybrid mixtures by the user.
3D
22
IIIB
Non-conductive dust
IP5x
IIIC
Conductive dust
IP6x
II 3D Ex tc IIIB T130 °C Dc
II 3D Ex tc IIIC T130 °C Dc
EC Declaration of Conformity of the manufacturer
No IECEx certificate available
Maintaining explosion protection during normal operation
Electrical machines must be protected against overheating as a
result of overload. The protection devices that can be considered depend on the operating mode, but also on the design and
suitability of the electrical machine.
Overcurrent protection devices with inverse-time delayed tripping in accordance with EN 60947, e.g. motor circuit breakers in
all phase conductors, must be set to the rated current of the
motor. Furthermore, they should be selected such that the motor
is thermally protected even under short-circuit conditions (i.e.
with a blocked rotor). This requirement is regarded as fulfilled
when the tripping time obtained from the tripping characteristic
(starting temperature 20 °C) for the ratio IA/IN does not exceed
the warm-up time tE for the relevant ignition group.
Windings in a Δ connection should preferably be protected in
such a way that the trip unit or relay is connected in series with
the winding phases. When selecting and configuring the trip
unit, the rated value of the phase current (i.e. 0.58 times the
rated motor current) is to be taken as a basis. If, however, the trip
unit is connected in the mains supply conductor, protective
measures must be taken to ensure that sufficient motor protection is afforded when only one phase fails.
For pole-changing motors, inverse-time delayed trip units or
relays must be provided for each speed level that must be
mutually interlocked.
Thermal motor protection for direct temperature monitoring, e.g. with
PTC thermistors, in combination with a certified monitoring device
alone or in addition to overcurrent protection. Motors with thermal
motor protection as sole protection are available on request.
The motors are only permitted to be used for continuous duty
and not for normal, infrequently repeated start-ups in which no
significant start-up temperature rise occurs. The values for temperature rise time tE for the individual ignition groups and for the
inrush current ratio IA/IN are specified on the rating plate of the
respective motor and are stated in the test certificate from the
German Federal Testing Laboratory.
Siemens D 83.1 · 2014
2/7
© Siemens AG 2014
Motors with Explosion Protection
Orientation
■ Overview (continued)
Overview of explosion-proof motors
Type of protection "d"
2
Type of protection "n"
Motor series
1MD5
1PS5
1PS1
Motor type
DNGW
D..L/D..W
A..K
Frame size
71 … 355
71 … 500
90 … 500
Outputs
0.25 … 460 kW
0.25 … 1120 kW
0.25 … 1120 kW
Temperature class
T4
T1 … T6
T3
Type of protection
II 2G Ex d(e) IIC Gb
IEC/EN 60079-0
IEC/EN 60079-1
II 2G Ex d(e) IIC Gb
IEC/EN 60079-0
IEC/EN 60079-1
II 3G Ex nA IIC Gc
IEC/EN 60079-15
Ex zones
Gas Zone 1 optional
Dust Zone 22/21
Gas Zone 1 optional
Dust Zone 22/21
Gas Zone 2 optional
Dust Zone 22/21
Guidelines
94/9/EC (ATEX 95)
Cooling
Surface-cooled IC 411
No. of poles
2- … 6-pole
2- … 12-pole, multi-pole + pole-changing on request
Voltage/frequency
400, 500, 690 V/50 Hz
All common voltages in 50 Hz; 60 Hz special designs on request
Degree of protection
IP55, IP56, IP65
IP55 to IP68
Type of construction
All common types of construction
All common types of construction + special types of construction
Housing
Cast-iron
Cast-iron or steel
Insulation
Class F utilized according to B
Class F utilized according to B
Special versions
For outdoor temperature
-20 to +50 °C
For outdoor temperature -55 to +60 °C (other temperatures on request)
Surface-cooled, water-jacket-cooled on request
Site altitude 1000 m above sea level Site altitude up to 3000 m (> 3000 m on request)
Modified windings, for example, for increased ambient temperatures,
site altitude for optimum electrical values
Permanent load S1
Permanent load S1 as well as partial load operation, e.g. S2/S3/S6
Version for mains-fed and/or
converter-fed operation
Version for mains-fed and/or converter-fed operation
IE2 efficiency class (≥ 0.75 kW)
IE2 efficiency class (≥ 0.75 … 375 kW), IE3 on request
Drive-end located bearing
Drive-end located bearing; special bearing for increased axial/radial forces
Large electrical variance, such as reduced starting current, modified
torque curve, star-delta start-up, etc.
LOHER CHEMSTAR copper rotor as an option LOHER VARIO copper rotor
as standard
Metal fan in aluminum, steel or brass
Monitoring devices such as Pt100, PTC, KTY winding/bearing, vibration
monitoring, etc.
Country-specific certificate
according to EAC (Eurasian
Customs Union)
PESO (CCOE India)
Country-specific certificates such as EAC (Eurasian Customs Union),
NEPSI (China), China Energy Label, CCOE (India), IECEX (international)
Version for offshore, on-deck and/or marine classifications
Combination with brakes + rotary encoder + forced ventilation
Enlarged connection system and/or larger terminal box for large cable
cross-sections
Designs true to the specification, excellent project capability
Customized documentation, excellent project capability
2/8
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
General information
■ Technical specifications
SIMOTICS XP 1MD5 motor series, type of protection
"Explosion-proof enclosure"
General technical specifications
SIMOTICS XP motors of the 1MD5 series are surface-cooled,
fully enclosed motors in type of protection "Explosion-proof
enclosure" Ex d. They can be designed in accordance with the
current VIK recommendation ("Verband der Industriellen
Energie- und Kraftwirtschaft e. V.", the Association of the
Industrial Energy and Power Industry).
Motor type
DNGW
Frame size
71 … 355
Outputs
0.25 … 460 kW
Temperature class
T4
Type of protection
II 2G Ex d(e) IIC Gb, IEC/EN 60079-0,
IEC/EN 60079-1
Ex zones
Gas Zone 1 optional Dust Zone 22/21
The motors are marked in accordance with EN 60079-0 Ed. 2009
and EN 60079-1 with II 2G Ex de IIC T4 Gb for operation in
Zone 1.
SIMOTICS XP 1MD5 motors
Guidelines
94/9/EC (ATEX 95)
Cooling
Surface-cooled IC 411
No. of poles
2-, 4-, 6-pole
Voltage/frequency
400, 500, 690 V/50 Hz
Degree of protection
IP55, IP56, IP65
Type of construction
All common types of construction
Housing
Cast-iron
Insulation
Class F utilized according to B
Special versions
• For outdoor temperatures -20 to +50 °C
• Permanent load S1
• Drive-end located bearing
• Country-specific certificates such as EAC (Eurasian Customs Union),
China Energy Label, PESO (CCOE India)
Siemens D 83.1 · 2014
2/9
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
General information
■ Technical specifications (continued)
Mechanical design
G_D083_XX_00065
G_D083_XX_00066
2
Sectional view of 1MD5 three-phase motor, frame sizes 71 to 132
Example: 1MD5131-0BD60-4AA1 (motor type: DNGW-132SR-02)
7.5 kW, 2-pole
Sectional view of 1MD5 three-phase motor, frame sizes 160 to 355
Example: 1MD5315-0BD60-4AA1 (motor type: DNGW-315LL-02)
200 kW, 2-pole
Housing and ventilation
Housing and fan for motors of the SIMOTICS XP 1MD5 series
Frame size
71 … 90
Housing
Bearing plates
Fan cover
Material
Design of
housing feet 1)
Surface
Material
Flange ring on
bearing plate
Cast-iron
Cast
With
cooling fins
Cast-iron
Screwed on
100
112
Cast
180 … 280
Screwed on
Material
Suitable for
Plastic 3)
Both directions
of rotation
Cast
Screwed on 2)
Screwed on
132 … 160
Sheet steel
Fan
315
Aluminum 3)
355
Steel 4)
1)
For designs with feet only.
2)
Special version for frame size 132.
2/10
Siemens D 83.1 · 2014
3)
For specific operating conditions, the external fans can be constructed
in aluminum for frame sizes 71 to 225 and in sheet steel for frame sizes 250
to 315. This applies in the case of increased coolant temperature in
particular. The cooling air flow from NDE to DE must not be obstructed.
The intake area in front of the fan cover must not be obstructed.
4)
Only one direction of rotation for 2-pole and 4-pole version.
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
General information
■ Technical specifications (continued)
Protection against ingress of condensation
Terminal boxes
Condensation drainage holes must not be drilled into encapsulated explosion-proof motors, otherwise the type of protection
can no longer be ensured. In frame size 250 and above, the explosion-proof encapsulated motors have separate chambers at
the drive end (DE) and non-drive end (NDE) for collection of any
condensation that may arise. This prevents possible damage to
the winding as a result of condensation in the winding overhang
spaces. In the case of smaller motors (frame sizes 71 to 225), the
risk of adverse effects from condensation is countered by applying increased humidity protection to the winding insulation.
The design of the terminal boxes can be seen in the following
figures. The number and size of the main and auxiliary terminals
as well as their characteristic data can be obtained from the
tables below. Terminal boxes in type of protection "Explosionproof enclosure" Ex d IIC according to EN 60079-0 and
EN 60079-1 can be supplied on request. Separate terminal
boxes for main connections and accessories are available in
type of protection "Explosion-proof enclosures" for auxiliary
terminals for frame sizes 200 to 355 only.
In the standard version, the motor can be used in environments
with up to 80 % relative humidity without the need for further
measures. With an appropriate coating of internal corrosion
protection (e.g. order code V10), anti-condensation heater and
stainless steel screws and plates (order codes M13 and W71),
the motor can be upgraded for a relative humidity of up to 100 %.
Figure 2 Terminal box for frame sizes 132 to 225
Figure 4 Terminal box for frame sizes 315 to 355
G_D083_XX_00090
G_D083_XX_00089
Figure 3 Terminal box for frame sizes 250 to 280
G_D083_XX_00088
G_D083_XX_00087
Figure 1 Terminal box for frame sizes 71 to 112
Siemens D 83.1 · 2014
2/11
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
General information
■ Technical specifications (continued)
Terminal box for 1MD5…1 motor
Degree of protection: IP55
Type of protection:
Ex e II, alternatively Ex d IIC acc. to EN 60079-0/EN 60079-1/EN 60079-7
Housing material:
Cast-iron
Frame size
Standard terminal box
Terminal studs
2
71
Conductor
cross-section
Auxiliary terminals in main terminal box
PE/ground
connection
min.
max.
Number × max. cross-section 1)
max.
mm2
mm2
mm2
mm2
4 × 2.5
4
2)
6 × M4
1
4 (6)
6 × M5
1
10 (25) 2)
6 x M6
2.5
35 (50) 2)
6 × M10
6 … 70
315 S/M
6 × M12
16 … 150
315 L
6 × M16/M20 3)
16 … 300
Fig. No. on
Page 2/11
6 2)
Fig. 1
80
90
100
112
132
25
Fig. 2
70
Fig. 2
95
Fig. 3
150
Fig. 4
160
180
12 × 4
200
225
250
280
16 × 4
355
Number and size of entry threads and cable glands (to be ordered specially), see table "Cable glands for 1MD5 motors".
The terminals are designed for the connection of 1 conductor per terminal. For connection of 2 conductors per terminal,
please inquire at Siemens Ruhstorf specifying the conductor cross-sections.
Cable glands for 1MD5 motors
Frame size
Standard cable glands
Entry thread 4)
Cable diameter 5)
Type HSK-M-Ex
6) for
Ex e
Type ADE 1F
mm
mm
1 × M25 × 1.5
10 … 16
10 … 16
100
1 × M32 × 1.5
13 … 20
18 … 27.5
112
2 × M32 × 1.5
2 × M40 × 1.5
22 … 32
23 … 34
2 × M50 × 1.5
32 … 38
29 … 41
2 × M63 × 1.5
37 … 44
42 … 56
71
7) for
Ex d
Removable gland plate
(for Ex e terminal box only)
None
80
90
132
160
180
200
None
225
250
With
280
315
355
Auxiliary entry threads, e.g. for PTC thermistor and heating:
• Ex e II: M20 × 1.5/D = 6 up to 12 mm
• Ex d IIC: M20 × 1.5/D = 6 up to 12 mm
Entry threads are sealed on delivery with certified plugs,
cable glands can be ordered separately.
2/12
Siemens D 83.1 · 2014
1)
Rated voltage / max. working voltage 400 V / 440 V.
2)
Maximum conductor cross-section with cable lug.
3)
Alternatively, larger studs for higher rated current.
4)
Number and size of entry threads according to DIN 42925.
5)
Cable glands suitable for unshielded/non-reinforced cables and leads.
Option K54 (Ex e), W91 (Ex d).
6)
Cable glands from the company Hummel.
7)
Cable gland from the company RST.
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
General information
■ Technical specifications (continued)
Auxiliary terminal box
Degree of protection: IP55
Type of protection:
Ex e II, alternatively Ex d IIC acc. to EN 60079-0/EN 60079-1/EN 60079-7
Housing material:
Cast-iron
Frame size
Standard terminal box
Main terminal box
Auxiliary terminal box
Max. connections 1)
(number × max. cross-section)
Max. auxiliary connections
Fig. No. on Page 2/11
Design
2
Fig. 1
–
–
6
Fig. 2
Cast
6 × 2.5
12
Fig. 2
Screwed on
12 × 4
20
Fig. 3
Screwed on
36 × 4
36
Fig. 4
Screwed on
42 × 4
mm
71
80
90
100
112
132
160
180
200
225
250
280
315 L
355
Explosion-proof terminal boxes with a cast auxiliary terminal box only (max. 12 × 4 mm2),
for number and size of entry threads, see "Cable glands" table.
1)
Rated voltage/max. working voltage 400/440V
Siemens D 83.1 · 2014
2/13
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
General information
■ Technical specifications (continued)
2
Electrical design
Mains-fed operation
The SIMOTICS XP 1MD5 explosion-proof motors are equipped
with 6 terminals. They can be operated in star or delta. The standard connection for all 400 V motors is delta connection. They
are therefore suitable for 400 VΔ/690 VY. The 500 V motors are
available both for 500 VY and for 500 VΔ, provided that one of
the two variants is not preferred for winding reasons.
Selection of the PTC thermistor for full motor protection (sole
protection) in mains-fed operation is more complex because the
load case "blocked shaft, motor draws full starting current" also
has to be monitored. To protect the rotor, it may be necessary here
to use only PTC thermistors with low tripping temperatures. The
advantage is that all line duty types (S1 to S7) and converter-fed
operation (S9) are covered. These motors are therefore stamped
with S1 to S7 and S9. The larger the motor and the smaller the
number of poles, the more difficult it is to achieve sole protection
using PTC thermistors in mains-fed operation: due to the laws of
increasing size, larger machines become ever more "rotor-critical".
The sole protection limit for 4-pole motors typically lies in the
region of frame size 280.
SIMOTICS XP motors are wound in accordance with temperature class F (155 °C). Normally, they are only utilized according
to class B (130 °C). In accordance with EN 60034-1, in addition
to the temperature class, the thermal utilization is also stamped
on the rating plate if this value lies below that of the temperature
class. The fixed-voltage motors of this series are stamped with
"F – B". Temperature class F is only used by a few exceptions.
They are indicated in the output tables and are stamped with "F".
The standard also requires that even with an unfavorable constellation, the temperature on the outer surface of the explosionproof enclosure must not exceed the maximum permissible temperature for the respective temperature class. The 1MD5 motors
are certified for T4. The maximum permissible surface temperature is therefore 120 °C.
Operation on a frequency converter
SIMOTICS XP motors can also be operated on frequency converters without any modifications to the electrical design because of the used type of winding with insulation system and
impregnation. The maximum limits and parameters for converter-fed operation are summarized in this catalog.
For operation on a frequency converter, the motor must be fitted
with PTC thermistors. These are installed in the stator winding
and, in combination with a trip unit certified by the German
Federal Testing Laboratory, they perform sole motor protection in
the case of converter-fed operation. Motor circuit breakers can
be dispensed with. PTC thermistors with a rated shutdown temperature of 145 °C (KL145) are normally used. Converter-fed
motors of this type are normally stamped with duty type S1 or S9.
2/14
Siemens D 83.1 · 2014
Voltage tolerances
The motors are tested at -10 % of rated voltage and 100 % of
rated torque, as well as at +10 % of rated voltage and 100 % of
rated torque which is determined at rated output and mean voltage. It is assumed that the voltage can vary within the range of
specified tolerance, but during operation the mean voltage is
mainly applied to the motor (e.g. 400 V). The rated current is
therefore stamped as the current that flows at rated output and
mean voltage. It is sufficient to verify during testing that all temperature limits are complied with at rated torque throughout the
voltage range. The motor is permitted to be operated continuously within this range.
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Motors in cast-iron version
■ Selection and ordering data
Operating values at rated output
Pra- Frame nrated, size
ted,
50 Hz
kW
•
•
•
•
FS
Tra-
50 Hz
ted,
50 Hz
rpm
Nm
IE
ηraclass ted,
–
Motor type
ηra- ηra- cosϕ Ira-
Ira-
Ira-
rated, ted,
ted,
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
4/4
3/4
2/4
400 V 500 V 690 V
ted
ted
%
–
–
%
%
–
A
A
A
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
–
m
J
IM B3
kg
kgm2
Cooling: self-ventilated (IC 411)
Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
2-pole: 3000 rpm at 50 Hz
0.37 071 B 2840 1.24
1)
69.5 69.5 68.0 0.77 1.00 0.8
0.58 3.6 6.5 3.1 DNGW-071BR-02
1MD5070-■BD■■-4AA1 24
0.0004
0.55 071 B 2835 1.85
1)
74.1 74.1 70.0 0.75 1.43 1.14 0.83 3.6 6.3 2.9 DNGW-071BS-02
1MD5071-■BD■■-4AA1 25
0.0005
0.75 080 B 2805 2.55 IE2
77.4 79.5 78.8 0.84 1.67 1.34 0.97 1.9 4.9 2.3 DNGW-080BR-02
1MD5080-■BD■■-4AA1 26
0.0008
1.1
080 B 2835 3.71 IE2
79.6 81.3 80.8 0.83 2.40 1.92 1.39 2.4 6.0 2.7 DNGW-080BS-02
1MD5081-■BD■■-4AA1 28
0.0011
1.5
090 L 2885 4.96 IE2
81.3 82.3 80.8 0.84 3.15 2.52 1.83 2.7 6.9 3.6 DNGW-090LR-02
1MD5095-■BD■■-4AA1 36
0.0017
2.2
090 L 2890 7.3
IE2
83.2 83.9 82.3 0.85 4.50 3.6
2.61 2.5 7.1 3.7 DNGW-090LS-02
1MD5098-■BD■■-4AA1 36
0.0021
3
100 L 2905 9.9
IE2
84.6 85.2 84.7 0.84 6.1
4.9
3.54 2.3 7.0 3.3 DNGW-100LS-02
1MD5106-■BD■■-4AA1 51
0.0044
4
112 M 2950 12.9 IE2
85.8 86.7 86.1 0.86 7.8
6.2
4.5
2.4 7.4 3.3 DNGW-112MS-02
1MD5113-■BD■■-4AA1 66
0.0092
5.5
132 S 2950 17.8 IE2
87.0 88.0 87.4 0.87 10.5 8.4
6.1
1.8 6.6 2.9 DNGW-132SR-02
1MD5131-■BD■■-4AA1 83
0.020
7.5
132 S 2950 24.3 IE2
88.1 88.7 88.6 0.87 14.1 11.3 8.2
2.2 7.5 3.1 DNGW-132SS-02
1MD5132-■BD■■-4AA1 95
0.024
11
160 M 2955 35.5 IE2
89.4 90.0 89.1 0.87 20.5 16.4 11.9 2.1 7.4 3.2 DNGW-160MR-02
1MD5163-■BD■■-4AA1 168 0.045
15
160 M 2955 48.5 IE2
90.3 90.9 90.3 0.88 27.0 21.6 15.7 2.4 7.6 3.4 DNGW-160MS-02
1MD5165-■BD■■-4AA1 177 0.045
18.5 160 L 2955 59.8 IE2
90.9 91.2 90.4 0.88 33.5 26.8 19.4 2.9 7.9 3.6 DNGW-160LS-02
1MD5166-■BD■■-4AA1 185 0.057
22
180 M 2940 71.5 IE2
91.3 91.8 91.4 0.87 40.0 32.0 23.2 2.7 7.4 3.6 DNGW-180MS-02
1MD5183-■BD■■-4AA1 231 0.094
30
200 L 2955 96.9 IE2
92.0 92.3 91.7 0.87 54.0 43.2 31.3 2.5 6.9 3.3 DNGW-200LR-02
1MD5206-■BD■■-4AA1 311 0.18
37
200 L 2960 119 IE2
92.5 92.8 92.3 0.88 66.0 52.8 38.3 2.7 7.4 3.5 DNGW-200LS-02
1MD5208-■BD■■-4AA1 311 0.20
45
225 M 2965 145 IE2
92.9 93.1 92.5 0.88 79.0 63.2 45.8 2.7 7.8 3.7 DNGW-225MS-02
1MD5223-■BD■■-4AA1 390 0.23
55
250 M 2970 177 IE2
93.2 93.3 92.4 0.89 96.0 76.8 55.7 2.3 6.8 3.1 DNGW-250MM-02
1MD5253-■BD■■-4AA1 469 0.40
75
280 S 2978 240 IE2
93.8 93.6 92.4 0.87 133 106 77.1 2.5 7.2 3.2 DNGW-280SL-02
1MD5280-■BD■■-4AA1 672 0.71
90
280 M 2975 289 IE2
94.1 94.2 93.5 0.88 157 126 91.0 2.5 7.1 3.1 DNGW-280MM-02
1MD5283-■BD■■-4AA1 732 0.83
110 315 S 2982 352 IE2
94.3 94.2 93.3 0.90 187 150 108 2.4 7.3 3.0 DNGW-315SL-02
1MD5311-■BD■■-4AA1 1004 1.3
132 315 M 2982 423 IE2
94.6 94.7 94.1 0.91 220 176 128 2.4 7.2 3.1 DNGW-315ML-02
1MD5313-■BD■■-4AA1 1088 1.6
160 315 M 2982 512 IE2
94.8 94.9 94.3 0.92 265 212 154 2.3 7.0 3.1 DNGW-315MN-02
1MD5315-■BD■■-4AA1 1132 1.8
200 315 L 2982 640 IE2
95.0 95.2 94.8 0.92 330 264 191 2.4 7.1 3.0 DNGW-315LL-02
1MD5316-■BD■■-4AA1 1367 2.2
250 315 L 2985 800 IE2
95.0 95.5 95.2 0.92 415 332 241 3.2 8.6 3.5 DNGW-315LN-02
1MD5318-■BD■■-4AA1 1561 3.5
315 355 M 2984 1008 IE2
95.6 95.4 94.5 0.88 540 432 313 1.6 6.8 2.3 DNGW-355MR-02 2) 1MD5353-■BD■■-4AA1 2520 4.8
360 355 M 2984 1152 IE2
95.9 95.6 95.0 0.89 610 488 354 1.7 6.8 2.4 DNGW-355MS-02 2) 1MD5355-■BD■■-4AA1 2660 5.3
460 355 M 2985 1472
1)
96.3 96.3 95.7 0.90 770 616 446 1.9 6.8 2.6 DNGW-355MT-02 2) 1MD5357-■BD■■-4AA1 2800 6.4
Operating modes
Frame size
Mains-fed operation
71 ... 355
0
–
Converter-fed operation, standard insulation
71 ... 355
1
–
Voltages
Frame size
690 VΔ, 50 Hz
355
0
–
230 V/400 V, 50 Hz
71 ... 200
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
71 ... 355
5
–
400 V/690 V, 50 Hz
71 ... 355
6
–
For other voltages see Page 2/18
71 ... 355
9
…
Types of construction
Frame size
IM B3
71 ... 355
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 355
4
–
IM B35
71 ... 355
6
–
Other types of construction see Page 1/28 and 2/18
71 ... 355
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Order code
Order code
Order code
Direction of rotation must be specified (order code K97 or K98).
Siemens D 83.1 · 2014
2/15
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Motors in cast-iron version
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nrated, size
ted,
50 Hz
kW
2
•
•
•
•
FS
Tra-
50 Hz
ted,
50 Hz
rpm
Nm
IE
ηraclass ted,
–
Motor type
ηra- ηra- cosϕ Ira-
Ira-
Ira-
rated, ted,
ted,
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
4/4
3/4
2/4
400 V 500 V 690 V
ted ted
%
–
%
%
–
A
A
A
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
–
m
J
IM B3
–
kg
kgm2
Cooling: self-ventilated (IC 411)
Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
4-pole: 1500 rpm at 50 Hz
0.25 071 B 1410 1.69
1)
68.5 68.5 60.0 0.64 0.68 0.54 0.39 3.6 4.3 3.1 DNGW-071BR-04
1MD5070-■BD■■-4BA1 24
0.0007
0.37 071 B 1385 2.55
1)
72.7 72.7 63.0 0.73 0.85 0.68 0.49 3.3 4.2 3.0 DNGW-071BS-04
1MD5071-■BD■■-4BA1 24
0.0009
0.55 080 B 1440 3.65
1)
78.1 78.9 76.1 0.74 1.14 0.91 0.66 2.2 5.3 3.1 DNGW-080BR-04
1MD5080-■BD■■-4BA1 27
0.0017
0.75 080 B 1440 4.97 IE2
79.6 80.2 78.0 0.76 1.49 1.19 0.86 2.2 5.6 3.1 DNGW-080BS-04
1MD5081-■BD■■-4BA1 28
0.0021
1.1
090 L 1425 7.4
IE2
81.4 81.7 79.9 0.78 2.15 1.72 1.25 2.3 5.6 2.9 DNGW-090LR-04
1MD5095-■BD■■-4BA1 34
0.0028
1.5
090 L 1435 10.0 IE2
82.8 83.5 82.0 0.79 2.80 2.24 1.62 2.6 6.4 3.4 DNGW-090LS-04
1MD5098-■BD■■-4BA1 37
0.0036
2.2
100 L 1455 14.4 IE2
84.3 85.1 84.3 0.81 3.75 3.0
2.17 2.1 6.9 3.3 DNGW-100LR-04
1MD5106-■BD■■-4BA1 53
0.0086
3
100 L 1455 19.7 IE2
85.5 86.7 86.0 0.82 4.8
3.84 2.78 2.0 6.9 3.1 DNGW-100LS-04
1MD5108-■BD■■-4BA1 55
0.011
4
112 M 1460 26.2 IE2
86.6 87.3 86.5 0.81 6.8
5.4
3.94 2.5 7.1 3.2 DNGW-112MS-04
1MD5113-■BD■■-4BA1 66
0.014
5.5
132 S 1465 35.9 IE2
87.7 89.0 87.7 0.80 8.9
7.1
5.2
2.3 6.9 2.9 DNGW-132SR-04
1MD5131-■BD■■-4BA1 93
0.027
7.5
132 M 1465 48.9 IE2
88.7 90.3 88.8 0.83 11.4 9.1
6.6
2.3 6.9 2.9 DNGW-132MS-04
1MD5133-■BD■■-4BA1 102 0.034
11
160 M 1470 71
IE2
89.8 90.9 90.8 0.85 21.0 16.8 12.2 2.1 6.7 2.8 DNGW-160MR-04
1MD5163-■BD■■-4BA1 168 0.077
15
160 L 1475 97
IE2
90.6 91.3 91.0 0.85 28.0 22.4 16.2 2.3 7.3 3.0 DNGW-160LS-04
1MD5166-■BD■■-4BA1 185 0.098
91.2 92.0 91.9 0.84 35.0 28.0 20.3 2.5 7.2 3.4 DNGW-180MR-04
1MD5183-■BD■■-4BA1 231 0.16
18.5 180 M 1465 121 IE2
22
180 L 1465 143 IE2
91.6 92.2 91.9 0.84 41.5 33.2 24.1 2.6 7.3 3.5 DNGW-180LS-04
1MD5186-■BD■■-4BA1 242 0.16
30
200 L 1470 195 IE2
92.3 92.8 92.6 0.84 56.0 44.8 32.5 2.5 6.7 3.3 DNGW-200LS-04
1MD5206-■BD■■-4BA1 311 0.27
37
225 S 1470 240 IE2
92.7 93.5 93.5 0.88 65.0 52.0 37.7 2.3 6.6 2.9 DNGW-225SR-04
1MD5220-■BD■■-4BA1 390 0.42
45
225 M 1475 291 IE2
93.1 93.8 93.7 0.87 80.0 64.0 46.4 2.5 6.9 3.1 DNGW-225MS-04
1MD5223-■BD■■-4BA1 420 0.46
55
250 M 1480 355 IE2
93.5 93.9 93.5 0.85 100 80.0 57.0 2.7 6.8 3.0 DNGW-250MM-04
1MD5253-■BD■■-4BA1 518 0.75
75
280 S 1485 482 IE2
94.0 94.2 93.8 0.87 132 106 76.5 2.5 6.8 3.0 DNGW-280SL-04
1MD5280-■BD■■-4BA1 752 1.3
90
280 M 1486 578 IE2
94.2 94.3 93.6 0.87 159 127 92.2 2.6 7.3 3.1 DNGW-280MM-04
1MD5283-■BD■■-4BA1 785 1.4
110 315 S 1490 705 IE2
94.5 94.6 94.0 0.86 195 156 113 2.7 7.4 3.0 DNGW-315SL-04
1MD5311-■BD■■-4BA1 1001 2.0
132 315 M 1490 846 IE2
94.7 94.9 94.6 0.87 230 184 133 2.7 7.1 2.9 DNGW-315ML-04
1MD5313-■BD■■-4BA1 1033 2.3
160 315 M 1490 1025 IE2
94.9 95.0 94.5 0.87 280 224 162 2.8 7.2 3.1 DNGW-315MN-04
1MD5315-■BD■■-4BA1 1126 2.8
200 315 L 1490 1282 IE2
95.1 95.3 94.7 0.87 350 280 203 3.1 7.5 3.2 DNGW-315LL-04
1MD5316-■BD■■-4BA1 1341 3.5
250 315 L 1487 1605 IE2
95.1 95.4 95.0 0.87 435 348 252 2.6 7.5 2.6 DNGW-315LM-04
1MD5317-■BD■■-4BA1 1449 4.2
315 355 M 1488 2022 IE2
95.5 95.6 95.0 0.85 560 448 325 2.0 6.8 2.2 DNGW-355MR-04 2) 1MD5353-■BD■■-4BA1 2480 6.1
360 355 M 1488 2310 IE2
95.7 95.8 95.2 0.85 640 512 371 2.2 6.9 2.2 DNGW-355MS-04 2) 1MD5355-■BD■■-4BA1 2610 6.8
460 355 M 1488 2952
1)
96.0 96.1 95.8 0.86 800 640 464 2.2 7.1 2.2 DNGW-355MT-04 2) 1MD5357-■BD■■-4BA1 2750 8.5
Operating modes
Frame size
Mains-fed operation
71 ... 355
0
–
Converter-fed operation, standard insulation
71 ... 355
1
–
Voltages
Frame size
690 VΔ, 50 Hz
355
0
–
230 V/400 V, 50 Hz
71 ... 200
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
71 ... 355
5
–
400 V/690 V, 50 Hz
71 ... 355
6
–
For other voltages see Page 2/18
71 ... 315
9
…
Types of construction
Frame size
IM B3
71 ... 355
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 355
4
–
IM B35
71 ... 355
6
–
Other types of construction see Page 1/28 and 2/18
71 ... 355
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2/16
Siemens D 83.1 · 2014
2)
Order code
Order code
Order code
Direction of rotation must be specified (order code K97 or K98).
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Motors in cast-iron version
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nrated, size
ted,
ted,
50 Hz 50 Hz
50 Hz
kW
•
•
•
•
Tra-
FS
rpm Nm
IE
ηraclass ted,
–
ηra-
ηra-
Motor type
cosϕ Ira-
Ira-
Ira-
rated, ted,
ted,
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
4/4
3/4
2/4
400 V 500 V 690 V
ted ted
%
–
%
%
–
A
A
A
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
–
m
J
IM B3
–
kg
kgm2
Cooling: self-ventilated (IC 411)
Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
6-pole: 1000 rpm at 50 Hz
0.25 071 B
860 2.78
1)
1MD5070-■BD■■-4CA1 24
0.0008
0.37 080 B
925 3.82
1)
71.4 71.0 67.5 0.70 1.07 0.86 0.62 2.1 4.0 2.4 DNGW-080BR-06 1MD5080-■BD■■-4CA1 27
0.0020
0.55 080 B
930 5.6
1)
74.0 74.2 71.0 0.66 1.63 1.30 0.94 2.5 4.4 2.9 DNGW-080BS-06
1MD5081-■BD■■-4CA1 30
0.0030
0.75 090 L
935 7.7
IE2
75.9 76.1 74.0 0.70 2.05 1.64 1.19 2.0 4.1 2.5 DNGW-090LR-06
1MD5095-■BD■■-4CA1 36
0.0038
1.1
090 L
935 11.2 IE2
78.1 78.0 76.5 0.70 2.90 2.32 1.68 2.2 4.4 2.6 DNGW-090LS-06
1MD5098-■BD■■-4CA1 42
0.0054
1.5
100 L
970 14.8 IE2
79.8 80.2 79.0 0.73 3.70 2.96 2.14 2.0 6.2 2.9 DNGW-100LS-06
1MD5106-■BD■■-4CA1 55
0.011
2.2
112 M
965 21.8 IE2
81.8 82.5 81.3 0.75 5.2
4.2
3.01 2.1 6.0 3.1 DNGW-112MS-06 1MD5113-■BD■■-4CA1 66
0.014
3
132 S
970 29.5 IE2
83.3 84.0 82.8 0.74 7.0
5.6
4.1
1.6 5.6 2.6 DNGW-132SR-06
1MD5131-■BD■■-4CA1 92
0.024
4
132 M
970 39.4 IE2
84.6 85.8 85.0 0.78 8.7
7.0
5.0
1.6 5.6 2.5 DNGW-132MR-06 1MD5133-■BD■■-4CA1 96
0.029
5.5
132 M
970 54
IE2
86.0 87.4 87.0 0.77 12.0 9.6
7.0
1.9 6.1 2.8 DNGW-132MS-06 1MD5135-■BD■■-4CA1 104 0.037
7.5
160 M
975 73
IE2
11
160 L
975 108 IE2
88.7 89.6 89.2 0.76 23.5 18.0 13.0 1.9 4.8 2.2 DNGW-160LS-06
1MD5166-■BD■■-4CA1 177 0.144
15
180 L
975 147 IE2
89.7 90.1 90.2 0.78 31.0 24.8 18.0 2.5 6.0 3.1 DNGW-180LS-06
1MD5186-■BD■■-4CA1 242 0.138
18.5 200 L
978 181 IE2
90.4 91.3 91.2 0.82 36.0 28.8 20.9 2.4 5.8 2.6 DNGW-200LR-06
1MD5206-■BD■■-4CA1 311 0.33
22
200 L
978 215 IE2
90.9 91.6 91.2 0.82 42.5 34.0 24.6 2.5 6.2 2.6 DNGW-200LS-06
1MD5208-■BD■■-4CA1 311 0.33
30
225 M
980 292 IE2
91.7 92.5 92.3 0.83 57.0 45.6 33.0 2.5 6.1 2.8 DNGW-225MS-06 1MD5223-■BD■■-4CA1 395 0.58
37
250 M
982 360 IE2
92.2 93.1 93.1 0.83 70.0 56.0 40.6 2.8 6.0 2.5 DNGW-250MM-06 1MD5253-■BD■■-4CA1 524 0.86
45
280 S
985 436 IE2
92.7 93.4 93.2 0.84 83.0 66.4 48.1 2.7 6.3 2.6 DNGW-280SL-06
55
280 M
985 533 IE2
93.1 93.9 94.0 0.86 99.0 79.2 57.4 2.5 6.4 2.6 DNGW-280MM-06 1MD5283-■BD■■-4CA1 704 1.4
75
315 S
988 725 IE2
93.7 94.0 93.6 0.84 138
110
80.0 2.5 6.7 2.8 DNGW-315SL-06
90
315 M
988 870 IE2
94.0 94.3 93.6 0.84 165
132
95.7 2.6 6.9 2.8 DNGW-315ML-06 1MD5313-■BD■■-4CA1 952 2.5
110 315 M
988 1063 IE2
94.3 94.6 94.5 0.86 196
157
114
2.7 7.0 2.8 DNGW-315MM-06 1MD5314-■BD■■-4CA1 1111 3.6
132 315 M
988 1276 IE2
94.6 94.9 94.7 0.86 235
188
136
3.0 7.5 2.9 DNGW-315MN-06 1MD5315-■BD■■-4CA1 1165 4.0
160 315 L
988 1546 IE2
94.8 94.7 94.4 0.86 285
228
165
3.1 7.7 3.3 DNGW-315LL-06
200 315 L
990 1929 IE2
95.0 95.3 94.9 0.83 365
292
212
2.8 7.5 3.3 DNGW-315LM-06 1MD5317-■BD■■-4CA1 1671 7.6
280 355 M
993 2693 IE2
95.7 95.7 95.2 0.82 520
416
301
2.1 7.1 2.8 DNGW-355MR-06 1MD5353-■BD■■-4CA1 2460 13
315 355 M
993 3029 IE2
95.9 95.9 95.5 0.83 570
456
330
2.1 7.1 2.8 DNGW-355MS-06 1MD5355-■BD■■-4CA1 2590 15
360 355 M
994 3458 IE2
96.0 96.1 95.7 0.83 650
520
377
2.2 7.2 2.9 DNGW-355MT-06
61.6 60.0 55.0 0.76 0.77 0.62 0.45 2.2 3.0 2.0 DNGW-071BS-06
87.2 88.0 87.3 0.74 16.8 12.9 9.33 1.9 4.7 2.2 DNGW-160MR-06 1MD5163-■BD■■-4CA1 168 0.125
1MD5280-■BD■■-4CA1 638 1.1
1MD5311-■BD■■-4CA1 905 2.1
1MD5316-■BD■■-4CA1 1319 4.7
1MD5357-■BD■■-4CA1 2730 16
Operating modes
Frame size
Mains-fed operation
71 ... 355
0
–
Converter-fed operation, standard insulation
71 ... 355
1
–
Voltages
Frame size
690 VΔ, 50 Hz
355
0
–
230 V/400 V, 50 Hz
71 ... 200
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
71 ... 355
5
–
400 V/690 V, 50 Hz
71 ... 355
6
–
For other voltages see Page 2/18
71 ... 315
9
…
Types of construction
Frame size
IM B3
71 ... 355
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 355
4
–
IM B35
71 ... 355
6
–
Other types of construction see Page 1/28 and 2/18
71 ... 355
9
…
1)
Order code
Order code
Order code
Outside the IE code classification according to IEC 60034-30.
Siemens D 83.1 · 2014
2/17
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Article No. supplements
■ Selection and ordering data
Voltages
Voltage
code
11th
position
of the
Article
No.
Additional
identification code
with order
code and
plain text
if required
1MD5. . . - . . . ■ . - . . . .
2
Motor series
SIMOTICS XP
Frame size
71
80
90
100
112
132
160
180
200
225
250
280
315
355
Optional voltages
415 VY, 50 Hz
9
L1C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
415 VΔ, 50 Hz
9
L1D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
380 VΔ/660 VY, 50 Hz
9
L1L
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
Type
of construction
code
12th
position
of the
Article
No.
Additional Motor series
identification code SIMOTICS XP
with order
code and
plain text
if required
✓
With additional charge
Not possible
–
Types of construction
Frame size
1MD5. . . - . . . . ■ - . . . .
71
80
90
100
112
132
160
180
200
225
250
280
315
355
Optional types of construction
IM V6
9
M1E













✓
IM V5, with protective cover
9
M1F
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IM V3
9
M1G
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IM V15, with protective cover
9
M2K
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IM V18, with protective cover
9
M2M
✓
✓
✓
✓
✓
–
–
–
–
–
–
–
–
–
✓
–

With additional charge
Not possible
Without additional charge
For dual voltages 230 V/400 V, 220 V/380 V, 400 V/690 V
or 380 V/660 V:
– For motors for converter-fed operation, the converter rating
plate is stamped with 380 V or 400 V.
2/18
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Special versions
■ Selection and ordering data
Special versions
Additional
Motor series
identification
SIMOTICS XP
code -Z
with order
code and
plain text
Frame size
if required
1MD5. . . - . . . . . - . . . . -Z
71
80
90
100
112
132
160
180
200
225
250
280
315
355
Special electrical designs/winding protection
Motor protection with 3 PTC thermistors
for tripping – without surge arresters,
sole protection not included
A11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
Motor protection with 2 × 3 PTC
thermistors for prewarning/tripping –
without surge arresters, sole protection
not included
A12
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Motor protection with 3 PTC thermistors
for tripping as sole protection on
converter (TMS)
A15
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
Motor protection with 2 × 3 PTC
thermistors for prewarning/tripping as
sole protection on converter (TMS)
A16
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
2 Pt100 double resistance thermometers A42
for 4-wire connection from terminal box
for roller bearings – 1 × DE and 1 × NDE
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
6 Pt100 resistance thermometers in stator A64
winding, 3-wire connection from auxiliary
terminal box
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Ambient temperature +45 °C, insulation
class F, utilization B, derating 4 %
C22
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Ambient temperature +50 °C, insulation
class F, utilization B, derating 8 %
C23
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system N08 – 110 µm
(C3 medium) – standard finish with
corrosion resistance acc. to
EN/ISO 12944-5 = C3














Coating system N14/J08 – 170 µm
V10
(chemical industry + onshore, C5
industrial climate) – corrosion resistance
acc. to EN/ISO 12944-5 = C5
(5 to 15 years) for industrial climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system (chemical industry +
W14
onshore, C5 industry) – corrosion
resistance acc. to EN/ISO 12944-5 = C5
(5 to 15 years) for industrial climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system Z21/J08 – 210 µm
V11
(offshore, C5M-M) – corrosion resistance
acc. to EN/ISO 12944-5 = C5
(5 to 15 years) – sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Unpainted, only primed
K24
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Unpainted
K23














Special finish in RAL 1004, 1018, 2000,
2004, 5009, 5012, 5015, 6003, 6011,
7000, 7011, 7031, 7038, 9002 – specify
special coating system in addition, e.g.
V10, V11, W14, etc.
Y54 • and
✓
special finish
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
RAL colors, other than those offered
above
Y51 • and
✓
special finish
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Colors and paint finish
Siemens D 83.1 · 2014
2/19
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Special versions
Special versions
Additional
Motor series
identification
SIMOTICS XP
code -Z
with order
code and
plain text
Frame size
if required
71
80
90
100
112
132
160
180
200
225
250
280
315
355
Design in double protection additionally W20
for dust, Zone 22 for mains-fed operation,
no hybrid certification – non-conductive
dust
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design in double protection additionally W21
for dust, Zone 21 for mains-fed operation,
no hybrid certification – design and
certification for conductive dust (incl.
non-conductive dust)
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
China Energy Efficiency Label – relevant D34
for outputs from 0.75 to 375 kW
–













Certificate EAC for
Eurasian Customs Union
D35
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IECEx certificate
D37














Ex certification for India (PESO – CCOE) D38
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
1MD5. . . - . . . . . - . . . . -Z
Design for Zones according to ATEX
2
Individual certifications
Special mechanical designs
Terminal box on right-hand side
(view onto DE)
K09
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
Terminal box on left-hand side
(view onto DE)
K10
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
Terminal box on top














1 × cable gland for non-armored cable – K54
one cable gland for supply cable in main
terminal box, non-armored cable
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cable gland, standard thread size for
auxiliary connection, 1 unit –
for connection cable of accessories in
main or auxiliary terminal box
W33
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Explosion-proof main terminal box, Ex d IIC K53
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Auxiliary terminal box Ex d IIC of cast-iron V43
– only in combination with K53
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Cable gland, standard Ex d (non-armored W91
cable) 1 unit – only in combination with
K53, specify exact cable data
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Auxiliary terminal box Ex e version/cast- W72
iron – not in combination with order code
K53 (Ex d terminal box)
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
Separate auxiliary terminal box for
anti-condensation heater – only in
combination with M13
M52
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Cable entry from DE
K83














Cable entry from NDE
K84














Rotation of the terminal box by 180°
K85














Vibration quantity level A – IEC 60034-14














Vibration quantity level B – IEC 60034-14 K02
– for converter-fed operation only at
lowest and highest speed of speed range
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Bearing for increased cantilever forces
K20
(roller bearing DE) with regreasing device
– comprising K40
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
Metal external fan
K35
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓


Regreasing device DE/NDE
K40
✓
✓
✓
✓
✓
✓


–
–
–
✓
✓
✓
✓
✓
Bearing insulation NDE for roller bearing – L27
binding for frame sizes 315 to 355 and
converter-fed operation
2/20
Siemens D 83.1 · 2014
–
–
–
–
–
–
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Special versions
Special versions
Additional
Motor series
identification
SIMOTICS XP
code -Z
with order
code and
plain text
Frame size
if required
1MD5. . . - . . . . . - . . . . -Z
71
80
90
100
112
132
160
180
200
225
250
280
315
355
Special mechanical designs (continued)














VIK design
K30
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
Second rating plate, supplied loose
K31
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Second rating plate installed in terminal
box
W47
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extra rating plate with rated data for
converter-fed operation - data for quadratic load torque in speed range 1:10
and constant load torque in speed
range 1:3 and 1:10
Y80 • and

identification
code













Extra rating plate for customer data
(each plate) – data must be specified
as text in the order
Y82 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Supplementary data on the rating plate
and on the packaging label –
max. 20 characters possible
Y84
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater 210 to 250 V
(min. 200 V, max. 264 V)
M13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IP56 degree of protection
K51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IP65 degree of protection
K50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Operation in both directions of rotation













–
Clockwise – direction of rotation must be K97
specified for motors of FS 355 and above
2-/4-pole
–
–
–
–
–
–
–
–
–
–
–
–
–

Counter-clockwise – direction of rotation
must be specified for motors of FS 355
and above 2-/4-pole
K98
–
–
–
–
–
–
–
–
–
–
–
–
–

Noise reduction: silencer for air inlet
(DW, NMA) – only in combination with
K97 or K98
L20
–
–
–
–
–
–
–
–
–
–
–
–
–

Stainless steel screws and plates
W71
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
SPM bearing monitoring: measuring
nipple system 32 - thread M8, DE and
NDE
G50
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓














Located bearing DE
Version for gas – Group IIC, but stamped M99
IIB
Documentation
U08
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Inspection certificate 3.1 EN10204 (multi) U51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Type test report (original motor)
U52
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Documentation package NM2
U91
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Documentation in English
D76














Documentation in German
D00














F00














Extension of the liability for defects by
12 months to a total of 24 months from
delivery
Q80
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
18 months to a total of 30 months from
delivery
Q81
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
24 months to a total of 36 months from
delivery
Q82
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Terminal box drawing
Test options
Routine test to IEC (sine-wave voltage)
Extension of the liability for defects


•
Standard version
Without additional charge
This order code only determines the price of the version –
Additional plain text is required.
✓
–
With additional charge
Not possible
Siemens D 83.1 · 2014
2/21
2
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Dimensions for frame sizes 71 B to 250 M
■ Dimensional drawings
Type of construction IM B3
For flange dimensions, see Page 2/26.
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
EA
HD
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
FA
DA
2
AA
DC
A
AB
EE
B
BB
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/26.
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
71 B
2, 4, 6
112
30
140
148
–
138
69
90
30
125
10
45
71
10
271
7
345
80 B
2, 4, 6
125
35
160
168
–
138
69
100
35
130
13
50
80
10
289
10
358
90 L
2, 4, 6
140
40
180
186
–
138
69
125
40
155
15
56
90
13
303
10
426
100 L
2, 4, 6
160
45
205
213
–
138
69
140
45
170
15
63
100
18
327
12
482
112 M
2, 4, 6
190
50
240
237
–
138
69
140
60
170
15
70
112
18
352
12
465
132 S
2, 4, 6
216
50
260
278
274
186
92
140
88
228
25
89
132
18
406
12
574
132 M
2, 4, 6
216
50
260
278
274
186
92
178
88
228
25
89
132
18
406
12
574
160 M
2, 4, 6
254
60
310
331
304
186
92
210
61
307
21
108
160
27
465
15
786
160 L
2, 4, 6
254
60
310
331
304
186
92
254
61
307
21
108
160
27
465
15
786
180 M
2, 4, 6
279
70
349
363
349
254
123
241
99
359
24
121
180
19
529
15
822
180 L
2, 4, 6
279
70
349
363
349
254
123
279
99
359
24
121
180
19
529
15
822
200 L
2, 4, 6
318
80
400
402
367
254
123
305
120
425
32
133
200
25
569
19
884
225 S
2
4, 6
356
90
446
451
384
254
123
286
136
438
34
149
225
26
609
19
966
996
225 M
2
4, 6
356
90
446
451
384
254
123
311
136
438
34
149
225
26
609
19
966
996
250 M
2
4, 6
406
100
505
490
522
382
176
349
110
420
36
168
250
35
772
25
1028
SIMOTICS XP
2/22
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Dimensions for frame sizes 71 B to 250 M
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/26.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
2
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/26.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
GA
M
GC
ZxS
DB
EC
ED
DC
EE
Dimension designation acc. to
IEC
DE shaft extension
No. of poles
LC
LE
LF
LL
D
DB
E
EB
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
71 B
2, 4, 6
385
135
377
138
14
M5
30
22
4
5
16
14
M5
30
22
4
5
16
80 B
2, 4, 6
408
158
391
138
19
M6
40
32
4
6
21.5 19
M6
40
32
4
6
22
90 L
2, 4, 6
486
173
459
138
24
M8
50
40
5
8
27
24
M8
50
40
5
8
27
100 L
2, 4, 6
552
205
520
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
Frame size
NDE shaft extension
SIMOTICS XP
112 M
2, 4, 6
535
210
505
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
132 S
2, 4, 6
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
132 M
2, 4, 6
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
160 M
2, 4, 6
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
160 L
2, 4, 6
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
180 M
2, 4, 6
942
415
912
246
48
M16 110
100
5
14
51.5 48
M16 110
100
5
14
52
180 L
2, 4, 6
942
415
912
246
48
M16 110
100
5
14
51.6 48
M16 110
100
5
14
52
200 L
2, 4, 6
1004 460
974
246
55
M20 110
100
5
16
59
55
M20 110
100
5
16
59
225 S
2
4, 6
1086 480
1146 510
1062 246
1092
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
225 M
2
4, 6
1086 480
1146 510
1062 246
1092
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
250 M
2
4, 6
1178 496
1140 354
60
65
M20 140
125
7.5
18
64
69
60
65
M20 140
125
7.5
18
64
69
Siemens D 83.1 · 2014
2/23
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Dimensions for frame sizes 280 S to 355 M
■ Dimensional drawings (continued)
Type of construction IM B3
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
EA
HD
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
FA
DA
2
AA
DC
A
AB
EE
B
BB
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/26.
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
280 S
2
4, 6
457
110
570
550
552
382
176
368
150
520
51
190
280
40
832
25
1119
280 M
2
4, 6
457
110
570
550
552
382
176
419
150
520
51
190
280
40
832
25
1119
315 S
2
4, 6
508
125
630
622
660
509
196
406
165
575
59
216
315
40
975
28
1304
1334
315 M
2
4, 6
508
125
630
622
660
509
196
457
165
575
59
216
315
40
975
28
1304
1334
315 LL
2
4, 6
508
125
630
622
676
509
196
508
165
575
59
216
315
40
991
28
1491
1521
315 L
2
4, 6
508
125
630
622
676
509
196
560
165
575
59
216
315
40
991
28
1491
1521
355 M
2
4, 6
630
150
780
734
–
509
196
800
220
980
90
254
355
35
1182 35
1781
1840
SIMOTICS XP
2/24
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Dimensions for frame sizes 280 S to 355 M
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/26.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
2
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/26.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
M
GA
GC
ZxS
DB
EC
ED
DC
EE
Dimension designation acc. to
IEC
DE shaft extension
No. of poles
LC
D
DB
280 S
2
4, 6
1269 582
1231 354
65
75
280 M
2
4, 6
1269 582
1231 354
315 S
2
4, 6
1494 630
1554 660
315 M
2
4, 6
315 LL
Frame size
LE
LF
LL
E
NDE shaft extension
EB
ED
F
GA
DA
M20 140
125
7.5
18
20
69
65
79.5 75
65
75
M20 140
125
7.5
18
20
1422 401
1452
65
80
M20 140
170
125
140
7.5
15
1494 630
1554 660
1422 401
1452
65
80
M20 140
170
125
140
2
4, 6
1694 630
1741 660
1609 401
1639
65
80
M20 140
170
315 L
2
4, 6
1694 630
1741 660
1609 401
1639
65
80
355 M
2
4, 6
1986 793
2115 863
1947 401
2006
75
100
DC
EA
EC
EE
FA
GC
M20 140
125
7.5
18
20
69
79.5
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
18
22
69
65
79.5 80
M20 140
170
125
140
7.5
15
18
22
69
80
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
M20 140
M24 210
125
180
7.5
15
20
28
79.5 75
106 75
M20 140
140
125
7.5
7.5
20
20
79.5
79.5
SIMOTICS XP
Siemens D 83.1 · 2014
2/25
© Siemens AG 2014
Motors with Explosion Protection
SIMOTICS XP 1MD5 motor series
Flange dimensions
■ Dimensional drawings
In EN 50347, the frame sizes
are allocated flange FF with
through holes and flange FT
with tapped holes.
(Z = the number of retaining
holes)
2
G_D083_XX_00064
P
N
G_D083_XX_00063
E
T
M
ZxS
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
LA
E
M
N
P
S
T
Z
SIMOTICS XP
71 B
2, 4
FF130
FT85
10
15
30
30
130
85
110
70
160
105
9.5
M6
3.5
2.5
4
4
80 B
2, 4
FF165
FT100
10
15
40
40
165
100
130
80
200
120
11.5
M6
3.5
3
4
4
90 L
2, 4
FF165
FT115
10
10
50
50
165
115
130
95
200
140
11.5
M8
3.5
3
4
4
100 L
2, 4
FF215
FT130
11
10
60
60
215
130
180
110
250
160
14
M8
4
3.5
4
4
112 M
2, 4
FF215
FT130
11
10
60
60
215
130
180
110
250
160
14
M8
4
3.5
4
4
132 S
2, 4
FF265
12
80
265
230
300
14
4
4
132 M
2, 4
FF265
12
80
265
230
300
14
4
4
160 M
2, 4, 6
FF300
20
110
300
250
350
18
5
4
160 L
2, 4, 6
FF300
20
110
300
250
350
18
5
4
180 M
2, 4, 6
FF300
16
110
300
250
350
18
5
4
180 L
2, 4, 6
FF300
16
110
300
250
350
18
5
4
200 L
2, 4, 6
FF350
20
110
350
300
400
18
5
8
225 S
2
4, 6
FF400
16
110
140
400
350
450
18
5
8
225 M
2
4, 6
FF400
16
110
140
400
350
450
18
5
8
250 M
2, 4, 6
FF500
18
140
500
450
550
18
5
8
280 S
2, 4, 6
FF500
18
140
500
450
550
18
5
8
280 M
2, 4, 6
FF500
18
140
500
450
550
18
5
8
315 S
2
4, 6
FF600
22
140
170
600
550
660
24
6
8
315 M
2
4, 6
FF600
22
140
170
600
550
660
24
6
8
315 LL
2
4, 6
FF600
22
140
170
600
550
660
24
6
8
315 L
2
4, 6
FF600
22
140
170
600
550
660
24
6
8
355 M
2
4, 6
FF740
25
140
210
740
680
800
24
6
8
2/26
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series,
type of protection "Explosion-proof enclosure"
General technical specifications
LOHER CHEMSTAR and VARIO motors of the 1PS4 and 1PS5
series are surface-cooled motors in type of protection "Explosion-proof enclosure" Ex d. The CHEMSTAR motors can be
designed in accordance with the current VIK recommendation
("Verband der Industriellen Energie- und Kraftwirtschaft e. V.",
the Association of the Industrial Energy and Power Industry).
Motor type
D..L/D..W
Frame size
71 … 500
The motors are marked in accordance with EN 60079-0 Ed.2009
and EN 60079-1 with II 2G Ex de IIB T3-6 Gb or
II 2G Ex de IIC T3-6 Gb for operation in Zone 1.
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motors
Outputs
0.25 … 1120 kW
Temperature class
T1 … T6
Type of protection
II 2G Ex d(e) IIC Gb, IEC/EN 60079-0,
IEC/EN 60079-1
Ex Zones
Gas Zone 1 optional, Dust Zone 22/21
Guidelines
94/9/EC (ATEX 95)
Cooling
Surface-cooled, water-jacket-cooled on
request
No. of poles
2- … 12-pole, multi-pole + pole-changing
versions on request
Voltage/frequency
All common voltages, and in 50 Hz and
60 Hz special designs on request
Degree of protection
IP55 to IP68
Type of construction
All common types of construction +
special types of construction
Housing
Cast-iron or steel
Insulation
Class F utilized according to B
Special versions
• For outdoor temperatures -55 to +60 °C
(other temperatures on request)
• Site altitude up to 3000 m (> 3000 m on request)
• Modified windings, for example, for increased ambient temperatures,
site altitude for optimum electrical values
• Permanent load S1 as well as partial load operation, e.g. S2/S3/S6
• Drive-end located bearing; special bearing for increased axial/
radial forces
• Large electrical variance, such as reduced starting current,
modified torque curve, star-delta start-up, etc.
• CHEMSTAR: copper rotor as an option
• Metal fan in aluminum, steel or brass
• Monitoring devices such as Pt100, PTC, KTY winding/bearing,
vibration monitoring, etc.
• Country-specific certificates such as EAC (Eurasian Customs Union) ,
NEPSI (China), China Energy Label, CCOE (India),
IECEX (international)
• Version for offshore, on-deck and/or marine classifications
• Combination with brakes + rotary encoder + forced ventilation
• Enlarged connection system and/or larger terminal box for large cable
cross-sections
Siemens D 83.1 · 2014
2/27
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Mechanical design
G_D083_XX_00065
G_D083_XX_00066
2
Sectional view of CHEMSTAR 1PS5 three-phase motor,
frame sizes 160 to 315
Example: 1PS5316-0BD6.-4AA3 (motor type: DNGW-315LL-02)
200 kW, 2-pole
G_D083_XX_00071
Sectional view of CHEMSTAR 1PS5 three-phase motor,
frame sizes 71 to 132
Example: 1PS5131-0BD6.-4AA3 (motor type: DNGW-132SR-02)
7.5 kW, 2-pole
Sectional view of VARIO 1PS4/5 three-phase motor,
frame sizes 355 to 500
Example: 1PS4356-0BH6.-4AA0 (motor type: DNGL-355LB-02)
315 kW, 2-pole
Housing, ventilation
Housing and fan for motors of the LOHER CHEMSTAR and VARIO 1PS5/1PS5 series
Frame size
Bearing plates
Fan cover
Fan 2)
Surface
Material
Material
Material
With cooling fins
Cast-iron
Sheet steel
Plastic
Housing
Material
Design of housing feet
1)
LOHER CHEMSTAR
71 … 160
Cast-iron
Cast
180 ... 315
Screwed on
Aluminum
355
Cast
Steel
LOHER VARIO
355 … 450
Steel
Welded
With cooling fins
500 3)
Sheet steel
Steel
Steel, bearing hub
in cast-iron
1)
For designs with feet only.
2)
For specific operating conditions, the external fans can be constructed
in aluminum for frame sizes 71 to 225 and in sheet steel for frame sizes 250
to 315. This applies in the case of increased coolant temperature in particular. The cooling air flow from NDE to DE must not be obstructed. The
intake area in front of the fan cover must not be obstructed.
2/28
Cast-iron
Siemens D 83.1 · 2014
3)
Suitable for both directions of rotation, but LOHER VARIO 2- and 4-pole are
only suitable for one direction of rotation.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Protection against ingress of condensation
Condensation drainage holes must not be drilled into encapsulated explosion-proof motors, otherwise the type of protection
can no longer be ensured. In frame size 250 and above, the
explosion-proof encapsulated motors have separate chambers
at the drive end (DE) and non-drive end (NDE) for collection
of any condensation that may arise. This prevents possible
damage to the winding as a result of condensation in the winding
overhang spaces. In the case of smaller motors (frame size
range 71 to 225), the risk of adverse effects from condensation
is countered by applying increased humidity protection to the
winding insulation.
In the standard version, the motor can be used in environments
with up to 80 % relative humidity without the need for further
measures. For operation at higher humidity levels, the hollow
spaces and internal parts can be finished with special paint,
which enables operation at up to 100 % humidity to be achieved
as an option. In the CHEMSTAR motor series, an anti-condensation heater is not necessary in most cases. This is known as a
"tropical insulation version".
Explosion-proof three-phase motors in type of protection Ex d
for ambient temperatures down to -55 °C
Motors of the 1PS4/1PS5 series can also be designed for
hazardous areas with ambient temperatures down to
-55 °C.
Advantages
The motors can be used in hazardous
areas at ambient temperatures down to
-55 °C without the need for expensive
additional heating. This saves on expensive switching and monitoring devices,
the associated cables and leads, as well
as heating energy.
Explosion protection
In accordance with European standards
EN 60079-0, EN 60079-1, EN 60079-7
Marking
II 2G Ex de IIB T3-6 Gb or
II 2G Ex de IIC T3-6 Gb
Certifications
EC type-examination certificate
Ambient temperature range -55 to +60 °C
Type series
CHEMSTAR and VARIO 1PS4/1PS5
motors
Rated voltage Urated
Up to 690 V
Design
Selection of materials for temperatures
down to -55 °C
Group IIC or IIB
Optional version possible
Motors with built-on components, such
as brakes and speed encoders, cannot
be supplied for ambient temperatures
down to -55 °C.
Note
The fan must not be blocked by ice or
snow.
Siemens D 83.1 · 2014
2/29
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Terminal boxes
The terminal boxes comply with the type of protection "Increased
safety" Ex e in accordance with EN 60079-0 and EN 60079-7.
The housings are made of cast-iron and designed to
IP55 degree of protection in accordance with EN 60034-5. The
terminals are therefore protected from touch, dust deposits and
water jets from any direction.
Figure 2 Terminal box for LOHER CHEMSTAR frame sizes 132 to 225
Auxiliary terminal box is not possible.
Frame sizes 132 to 160, 1 auxiliary terminal box Ex e (W72, M52)
is possible, frame sizes 180 to 225, 2 auxiliary terminal boxes Ex e
(W72, M52) are possible.
Figure 3 Terminal box for LOHER CHEMSTAR frame sizes 250 to 280
Figure 4 Terminal box for LOHER CHEMSTAR frame sizes 315 to 355
G_D083_XX_00090
3 auxiliary terminal boxes Ex e (W72, M52) are possible.
25
Figure 5 Terminal box for LOHER VARIO frame sizes 355 to 500
G_D083_XX_00072
With the VARIO connection system, the auxiliary terminal boxes
(max. 3) are mounted on the housing.
2/30
G_D083_XX_00088
G_D083_XX_00087
Figure 1 Terminal box for LOHER CHEMSTAR frame sizes 71 to 112
G_D083_XX_00089
2
The position of the terminal box and cable entries can be obtained from the tables below. In frame size 90 and above, the
terminal boxes can be rotated by 90° which allows the incoming
supply cable to be fed in from different sides. In frame sizes 71
and 80, the terminal box can only be rotated subsequently in an
authorized specialist workshop (due to opening the explosionproof enclosure).
Monitoring devices or anti-condensation heaters are connected
via auxiliary terminals in the terminal box. In frame size 132 and
above, the auxiliary terminals can be installed in an auxiliary
terminal box in type of protection Ex e II mounted on the side of
the terminal box. The design of the terminal boxes can be seen
in the schematic diagrams. The number and size of the main and
auxiliary terminals as well as their characteristic data can be
obtained from the tables below. Terminal boxes in type of
protection "Explosion-proof enclosure" Ex d IIC according to
EN 60079-0 and EN 60079-1 can be supplied on request.
Separate terminal boxes for main connections and accessories
are available in type of protection "Explosion-proof enclosure" for
auxiliary terminals for frame sizes 200 to 500 only.
Siemens D 83.1 · 2014
3 auxiliary terminal boxes Ex e (W72, M52) are possible.
For versions with terminal box Ex d, no auxiliary terminal
boxes are possible for frame sizes 71 to 112 and 1 auxiliary
terminal box Ex d (V43) is possible for frame sizes 132 to
355.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Terminal boxes for 1PS4 and 1PS5 motors
Degree of protection: IP55
Type of protection:
Ex e II, alternatively Ex d IIC acc. to EN 60079-0/EN 60079-1/EN 60079-7
Housing material:
Cast-iron
Frame size
Standard terminal box
Terminal
studs
Enlarged terminal box – Option L00
Conductor
cross-section
Auxiliary terminals
in main terminal box
PE/ground
connection
min.
max.
Number × max.
cross-section 1)
max.
mm2
mm2
mm2
mm2
6 × M4
1
2.5 (6) 2)
4 × 2.5
4
6 × M5
1
10 (25) 2)
6 x M6
2.5
35 (50) 2)
6 × M10
6 … 70
Fig. No.
on Page
2/30
Terminal
studs
Conductor
cross-section
min.
max.
mm2
mm2
Fig. No.
on Page
2/30
2
LOHER CHEMSTAR
71
6 2)
Fig. 1
6 × M5
1
10
(25) 2)
Fig. 2
25
Fig. 2
6 x M6
2.5
35 (50) 2)
Fig. 2
70
Fig. 2
6 × M10
6
70
Fig. 3
95
Fig. 3
6 × M12
16
150
Fig. 4
150
Fig. 4
6 × M16
16
300
Fig. 4
80
90
100
112
132
160
180
12 × 4
200
225
250
280
315 S/M
6 × M12
16 … 150
315 L
6 × M16/M20 3)
16 … 300
16 × 4
Special connection system on request
LOHER VARIO
355 … 500
Fig. 5
Number and size of entry threads and cable glands (to be ordered specially), see table "Cable glands for 1PS4 and 1PS5 motors".
Cable glands for 1PS4 and 1PS5 motors
Frame size
Max. entry threads 6)
Standard cable glands
Entry thread
4)
Cable diameter
5)
Type HSK-M-Ex
for Ex e
Type ADE 1F
for Ex d
mm
mm
1 × M25 × 1.5
10 … 16
8.5 … 16
100
1 × M32 × 1.5
13 … 20
18 … 27.5
112
2 × M32 × 1.5
2 × M40 × 1.5
22 … 32
23 … 34
2 × M50 × 1.5
32 … 38
29 … 41
2 × M63 × 1.5
37 … 44
42 … 56
Removable gland plate
(for Ex e terminal box only)
Ex e terminal box
Ex d terminal box
Metric
Metric
NPT
None
1 × M32 × 1.5 2 × 1"
2 × M40 × 1.5
2 × 11/4"
2 × M50 × 1.5 2 × 2"
2 × M63 × 1.5
2 × 2"
2 × M100 × 2
2 × 4"
NPT
LOHER CHEMSTAR
71
80
90
132
160
180
200
None
2 × M63 × 1.5
225
250
With
280
315
2 × M100 × 2
2 × 4"
Additional entry threads, e.g. for PTC thermistor, heating:
• Ex e II: M20 × 1.5/D = 6 up to 12 mm
• Ex d IIC: M20 × 1.5/D = 6 up to 12 mm
Entry threads are sealed on delivery with certified plugs,
cable glands can be ordered separately.
1)
Rated voltage / max. working voltage 400 V / 440 V.
4)
Number and size of entry threads according to DIN 42925.
2)
Maximum conductor cross-section with cable lug.
5)
3)
Alternatively, larger studs for higher rated current.
Cable glands suitable for unshielded/non-reinforced cables and leads.
Option K54 (Ex e), W91 (Ex d).
6)
Other threads, number and size on request.
Siemens D 83.1 · 2014
2/31
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Auxiliary terminal box
Degree of protection: IP55
Type of protection:
Ex e II, alternatively Ex d IIC acc. to EN 60079-0/EN 60079-1/EN 60079-7
Housing material:
Cast-iron
Frame size
2
Max. configuration of auxiliary terminal boxes 2)
Standard terminal box
Main terminal box
Auxiliary terminal box
Max. auxiliary
connections
Design
Fig. No.
on Page
2/30
Max. connections 1)
(number × max.
cross-section)
Max. auxiliary Fig. No.
connections
on Page
2/30
Auxiliary terminal box
Design
mm
Max. connections 1)
(number × max.
cross-section)
mm
LOHER CHEMSTAR
71
2
Fig. 1
–
–
6
Fig. 2
Cast
6 × 2.5
6
Fig. 2
Cast
6 × 2.5
12
Fig. 2
Screwed on
12 × 4
12
Fig. 2
Screwed on
12 × 4
20
Fig. 3
Screwed on
36 × 4
20
Fig. 3
Screwed on
36 × 4
36
Fig. 4
Screwed on
42 × 4
36
Fig. 4
Screwed on
42 × 4
Special solution on request
80
90
100
112
132
160
180
200
225
250
280
315 L
Explosion-proof terminal boxes with a cast auxiliary terminal box only (max. 12 × 4 mm2),
for number and size of entry threads, see table "Cable glands for 1PS5 motors".
1)
Rated voltage / max. working voltage 400 V / 440 V.
2/32
Siemens D 83.1 · 2014
2)
Only in conjunction with enlarged terminal box.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Electrical design
Voltage tolerances
The outputs and electrical values listed in the selection tables
can be changed by modifying the configuration. For example,
if a copper cage rotor is used in place of a die-cast aluminum
rotor, an even higher degree of efficiency can be achieved.
The motors are tested at -10 % of rated voltage and 100 % of
rated torque, as well as at +10 % of rated voltage and 100 % of
rated torque which is determined at rated output and mean voltage. It is assumed that the voltage can vary within the range of
specified tolerance, but during operation the mean voltage is
mainly applied to the motor (e.g. 400 V). The rated current is
therefore stamped as the current that flows at rated output and
mean voltage. It is sufficient to verify during testing that all temperature limits are complied with at rated torque throughout the
voltage range. The motor is permitted to be operated continuously within this range.
The insulation system of this motor series is suitable for line
voltages up to 1000 V. The connection system (terminal box,
terminals) is designed for rated voltages up to 1000 V.
The explosion-proof motors are equipped with 6 terminals. They
can be operated in star or delta. The standard connection for all
400 V motors is delta connection. They are therefore suitable for
400 VΔ/690 VY. The 500 V motors are available both for 500 VY
and for 500 VΔ, provided that one of the two variants is not
preferred for winding reasons.
Motors of the 1PS5 series are wound in accordance with temperature class F (155 °C). Normally, they are only utilized according
to class B (130 °C). In accordance with EN 60034-1, in addition
to the temperature class, the thermal utilization is also stamped
on the rating plate if this value lies below that of the temperature
class. The fixed-voltage motors of this series are therefore
stamped with "F – B". Temperature class F is only used by a few
exceptions. They are indicated in the selection and ordering
data and are stamped with "F".
Three-phase motors with external cables
Three-phase motors with externally routed connecting cables are
used in machines or ventilation systems in which the electrical connections are routed via a separately mounted terminal box due to
the space constraints.
Design
The motors correspond to the surface-cooled versions in this
catalog. A gland plate is mounted in place of the terminal box
(Options G48/G49).
The standard also requires that even with an unfavorable constellation, the temperature on the outer surface of the explosionproof enclosure must not exceed the maximum permissible temperature for the respective temperature class. The motors in this
list are certified for T4. The maximum permissible surface temperature is therefore 135 °C.
Operation on a frequency converter
For operation on a frequency converter, the motor must be fitted
with PTC thermistors. These are installed in the stator winding
and, in combination with a trip unit certified by the German
Federal Testing Laboratory, they perform sole motor protection in
the case of converter-fed operation. Motor circuit breakers can
be dispensed with. PTC thermistors with a rated shutdown temperature of 145 °C ("KL145") are normally used. Converter-fed
motors of this type are normally stamped with duty type S1 or S9.
Mains-fed operation
Selection of the PTC thermistor for full motor protection (sole
protection) in mains-fed operation is more complex because the
load case "blocked shaft, motor draws full starting current" also
has to be monitored.
To protect the rotor, it may be necessary here to use only PTC
thermistors with low tripping temperatures. The advantage is that
all line duty types (S1 to S7) and converter-fed operation (S9) are
covered. These motors are therefore stamped with S1 to S7 and
S9. The larger the motor and the smaller the number of poles, the
more difficult it is to achieve sole protection using PTC thermistors
in mains-fed operation: due to the laws of increasing size, larger
machines become ever more "rotor-critical". The sole protection
limit for 4-pole motors typically lies in the region of frame size 280.
G_D083_XX_00073
General use of "Overcoat" double-layer enameled wire, optimized impregnation techniques and partial use of pre-formed
coils with VARIO motors ensures that most motors can be
converter-fed without modification of the electrical design.
The maximum limits and parameters for converter-fed operation
are summarized in this catalog.
Explosion protection: II 2G Ex d IIC T4 Gb
Frame sizes and types of construction: see dimensional
drawings
Permissible coolant temperature: -20 to +50 °C
Connection cable (standard design): NSSHöu-J
The free length of connection cable must be specified when ordering. The standard length is 1.5 m. Two or more cable entries
are used in the case of pole-changing or single-speed motors
with rated current > 70 A.
Rated voltage: 1000 V
Max. operating temperature at conductor: -20 to +80 °C
Siemens D 83.1 · 2014
2/33
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
2
Motors with built-on backstop
Backstops for motors of frame sizes 132 to 355
If reverse motion of the drive has to be prevented following
switch-off, three-phase motors with mechanical backstop can
be used. Backstops are maintenance-free and have individual
spring-loaded clamping elements. The backstops of the type
CSK are supplied with permanent lubrication. The clamping
elements have a tendency to lift. In backstops of the FXM type
series, the clamping elements lift automatically after approach
due to the centrifugal force. Wear therefore does not occur at
rated speed of the motor.
Motor
The backstop is not permitted to be used as protection against
rotation in the wrong direction caused by switching despite the
interlock. The direction of rotation must be specified on ordering.
The motor outputs are as specified in the selection tables in this
catalog. The assignment of backstops to frame sizes is specified
in the table below. Frame sizes 90 to 112 have the same dimensions as standard motors. Dimensional drawings are available
for the larger types on request.
Backstop
Frame size
No. of poles
Type
Mt
132
2, 4, 6
FXM 51-25 DX
On request
160
2, 4, 6
FXM 66-25 DX
400
180
2, 4, 6
FXM 66-25 DX
400
200
2, 4, 6, 8
FXM 86-25 DX
430
225
2, 4, 6, 8
FXM 86-25 DX
430
250
2, 4, 6, 8
FXM 100-50 DX
860
280
2, 4, 6, 8
FXM 120-50 SX
860
315
2, 4, 6, 8
FXM 120-50 SX
On request
355
2
FXM 120-50 SX
On request
355
4, 6
FXM 140-50 SX
On request
Nm
With the backstops listed in the table above, motors of frame
sizes 90 to 355 can be supplied in IP55 or IP56 degree of
protection. Higher degrees of protection on request.
Axially-mounted forced ventilation
Forced ventilation with axially-mounted fans is mainly used with
converter-fed operation. It serves to increase the motor utilization while lowering the sound level in accordance with the synchronous speed. Motors with forced ventilation are designed for
rated voltage ranges in accordance with the following table. The
data is shown on the rating plate on the external fan or on the
motor with forced ventilation.
Special versions for higher ambient temperatures, increased
vibration loading on request.
Retrofitting of forced ventilation is only possible following the
prior consent of Siemens Ruhstorf.
Degree of protection: IP55, available as a special version
up to IP66.
Rated voltage ranges for forced ventilation on motors of the 1PS4 and 1PS5 series
Motor
Motor type
Mains/
connection
Frame size
Rated voltage range
Frequency
Rated output
Rated current max.
V
Hz
kW
A
LOHER CHEMSTAR
132 … 225
DN.W-071BG-04
Y
DN.W-071BH-04
250
DN.W-071BG-04
Y
DN.W-080BH-04
280 … 315
DN.W-080BG-04
Y
DN.W-080BH-04
355
DN.W-090LX-04
400
50
0.25
0.70
440
60
0.44
1.05
400
50
0.25
0.70
440
60
0.90
1.90
400
50
0.75
1.70
440
60
0.90
1.90
D
400
50
1.1
2.60
D
400
50
3
6.60
60 Hz on request
LOHER VARIO
355 … 500
DN.W100LD04
60 Hz on request
2/34
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
General information
■ Technical specifications (continued)
Built-on single-disk spring-operated brake
Design
G_D083_XX_00074
The explosion-proof single-disk spring-operated brake is attached
to the reinforced fan cover and the extended motor shaft. Otherwise, in terms of their mechanical design, the motors are identical
to the surface-cooled motors in this catalog.
The brake is equipped with a microswitch and 2 thermostatic
switches. These switching elements are dimensioned for 250 V
AC, 2.5 A inductive. In the control line of the motor contactor, the
microswitch prevents the motor starting in opposition to the unreleased brake. The microswitch is not permitted to be used in
lifting gear and elevators. The thermostatic switches (NC) connected in series with the microswitch (NO) interrupt the control
circuit as soon as an impermissible temperature rise occurs in
the brake. The motor is only permitted to be controlled via the
microswitch of the spring-operated brake to ensure that it can
never start in opposition to the unreleased brake. The brake can
be equipped with a manual release on request, which allows the
brake to be released manually.
If the motor is only ordered and used for S1 duty type and the
built-on brake is only required as a holding brake, the motor can
be protected with a motor circuit breaker in accordance with
DIN VDE 0165.
Mechanical design with brake
Voltage and frequency: Motors with a built-on brake are
supplied for the voltages and frequencies specified in the output
tables.
Dust and explosion protection II for DC or single-phase AC
General technical specifications
Brake designs
Output: The outputs specified in the selection tables are
applicable to S4 duty type in accordance with EN 60034-1.
Thermal motor protection: The motors have 3 embedded PTC
thermistors and are designed for sole protection in combination
with a trip unit.
76 24E..B00 – DC
(direct current)
76 24G..B00 – AC
(alternating current)
230 V AC
Standard
rated voltage
V
205 V DC
Degree of
protection
–
IP67
Connection: The brake is connected in the terminal box
mounted on the brake.
Temperature
class
–
T5 (according to EN 60079)
Brake: Type 76...-..B
Rated torque
Nm
10 … 270
Possible brake size: See table of outputs
Degree of protection acc. to EN 60034-5: IP67
Permissible ambient temperatures: -20 to +40 °C
Type of protection acc. to EN 60079-0, EN 60079-1 and
EN 60079-7: II 2G Ex de IIC T5 Gb
Terminal box: II 2G Ex e II Gb
In special version with dust protection II 2D T100_C,
DMT02 ATEX E 122 approval
AC connection:
Preferred voltage 230 V 1 AC, frequency 40 to 60 Hz or
DC connection:
Preferred voltages 24 V DC, 205 V DC
The single-disk spring-operated brake is an electromagnetic
unit for dry-running operation. An electromagnetic field is used
to release the brake which is applied using spring force.
The spring-operated brake brakes at zero current and releases
when an AC or DC voltage is applied. The brake can be operated on the AC or DC side when alternating current is flowing.
Technical specifications
Brake size
10
11
13
16
19
24
Braking torque
T2
Nm
10
20
50
100
150
270
Max. speed
nmax
rpm
6000
6000
3000
3000
3000 3000
Maximum
switching power
Pmax
kJ/h
270
270
400
400
570
570
Maximum
kJ
operating energy
(Z = 1) Wmax
41
41
55
55
80
80
Rated power
Prated
W
56
56
82
82
91
91
Apparent power
PS
VA
62
62
88
88
95
95
Application time
t1
ms
80
70
110
90
180
140
Release time t2
ms
80
110
170
230
240
350
Moment of
inertia of brake
(driver and
friction disk)
kg
m2
0.0025 0.0025 0.0215 0.0215 0.125 0.125
Weight m
kg
14.5
14.5
29
29
57
Siemens D 83.1 · 2014
57
2/35
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted,
ted, class ted,
ted,
ted,
50 Hz
2
50 Hz 50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
rated, ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
400 V 500 V 690 V
4/4
Article No.
m
J
IM B3
ted ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR
0.37 071 B 2780 1.27 1)
77.5 78.5 78.3 0.87 0.79 0.63 0.46 2.5 5.0 2.5 DNGW -071BR-02 2) 1PS 5 070-■BD■■-4AA3 24 0.0006
0.55 071 B 2780 1.89 1)
77.5 78.5 78.3 0.86 1.19 0.95 0.69 2.5 5.0 2.5 DNGW -071BS-02 2) 1PS 5 071-■BD■■-4AA3 25 0.0006
0.75 080 B 2810 2.55 IE2 81.6 83.0 82.0 0.87 1.52 1.22 0.88 2.7 5.8 2.9 DNGW -080BR-02 2) 1PS 5 080-■BD■■-4AA3 26 0.0008
1.1 080 B 2810 3.74 IE2 81.5 82.8 82.7 0.86 2.30 1.84 1.33 2.8 5.5 2.9 DNGW -080BS-02 2) 1PS 5 081-■BD■■-4AA3 28 0.0008
1.5 090 L 2865 5.00 IE2 84.0 85.1 84.3 0.88 2.90 2.32 1.68 3.0 6.8 2.8 DNGW -090LR-02 1PS 5 095-■BD■■-4AA3 36 0.0020
2.2 090 L 2850 7.4 IE2 84.6 85.6 85.1 0.86 4.4 3.52 2.55 3.0 6.5 3.0 DNGW -090LS-02 1PS 5 098-■BD■■-4AA3 36 0.002
3
100 L 2900 9.9 IE2 86.0 86.3 85.8 0.87 5.8 4.6 3.36 2.7 7.5 3.0 DNGW -100LS-02 1PS 5 106-■BD■■-4AA3 51 0.0041
4
112 M 2890 13.2 IE2 86.5 86.8 86.8 0.93 7.2 5.8 4.2 2.7 7.0 3.1 DNGW -112MS-02 1PS 5 113-■BD■■-4AA3 66 0.0075
5.5 132 S 2910 18.0 IE2 88.5 89.9 89.2 0.90 10.0 8.0 5.8 2.6 6.7 3.1 DNGW -132SR-02 1PS 5 131-■BD■■-4AA3 83 0.014
7.5 132 S 2915 24.6 IE2 89.5 90.1 89.5 0.91 13.3 10.6 7.7 2.7 6.8 3.0 DNGW -132SS-02 1PS 5 132-■BD■■-4AA3 95 0.020
11
160 M 2955 36 IE2 90.7 91.0 90.0 0.90 19.5 15.6 11.3 2.1 7.5 2.8 DNGW -160MR-02 1PS 5 163-■BD■■-4AA3 176 0.045
15
160 M 2955 48 IE2 91.3 92.1 91.9 0.89 26.5 21.5 15.4 2.1 7.0 2.8 DNGW -160MS-02 1PS 5 165-■BD■■-4AA3 176 0.092
18.5 160 L 2955 60 IE2 91.4 92.2 91.9 0.89 33.0 26.5 19.0 2.1 70 2.8 DNGW -160LS-02 1PS 5 166-■BD■■-4AA3 192 0.092
22
180 M 2960 71 IE2 92.5 93.0 92.8 0.90 38.0 30.5 22.0 2.2 6.8 2.9 DNGW -180MS-02 1PS 5 183-■BD■■-4AA3 246 0.16
30
200 L 2955 97 IE2 92.0 92.3 91.7 0.87 54.0 43.5 31.5 2.5 6.9 3.3 DNGW -200LR-02 1PS 5 206-■BD■■-4AA3 333 0.20
37
200 L 2960 119 IE2 92.5 92.8 92.3 0.88 66.0 52.0 38.0 2.7 7.4 3.5 DNGW -200LS-02 1PS 5 208-■BD■■-4AA3 349 0.23
45
225 M 2965 145 IE2 92.9 93.1 92.5 0.88 79.0 64.0 46.0 2.3 7.8 2.6 DNGW -225MS-02 1PS 5 223-■BD■■-4AA3 420 0.34
55
250 M 2975 177 IE2 93.8 93.9 93.2 0.86 98.0 79.0 57.0 2.1 8.0 2.9 DNGW -250MM-02 1PS 5 253-■BD■■-4AA3 540 0.45
75
280 S 2980 240 IE2 94.4 93.9 92.4 0.89 129 103 75.0 2.1 7.3 3.0 DNGW -280SL-02 1PS 5 280-■BD■■-4AA3 775 0.88
90
280 M 2980 288 IE2 94.4 94.1 92.6 0.90 153 122 89.0 2.0 6.3 2.5 DNGW -280MM-02 1PS 5 283-■BD■■-4AA3 830 1.03
110 315 S 2980 352 IE2 94.8 94.3 92.9 0.88 190 152 110 2.2 6.7 2.5 DNGW -315SL-02 1PS 5 311-■BD■■-4AA3 1030 1.55
132 315 M 2980 423 IE2 95.1 95.0 94.2 0.89 225 180 130 2.0 6.3 2.4 DNGW -315ML-02 1PS 5 313-■BD■■-4AA3 1080 1.85
160 315 M 2980 513 IE2 95.6 95.6 95.0 0.89 270 215 157 2.3 6.8 2.6 DNGW -315MN-02 1PS 5 315-■BD■■-4AA3 1160 2.2
200 315 L 2980 641 IE2 95.8 95.8 95.2 0.89 340 270 196 2.6 7.3 2.7 DNGW -315LL-02
1PS 5 316-■BD■■-4AA3 1390 2.8
250 315 L 2985 800 IE2 95.8 96.1 95.8 0.90 420 335 245 2.6 7.3 2.7 DNGW -315LN-02 1PS 5 318-■BD■■-4AA3 1570 3.5
3)
315 355 M 2984 1008 IE2 95.6 95.4 94.5 0.88 540 432 313 1.6 6.8 2.3 DNGW -355MR-02 1PS 5 353-■BD■■-4AA3 2520 4.8
360 355 M 2984 1152 IE2 95.9 95.6 95.0 0.89 610 488 354 1.7 6.8 2.4 DNGW -355MS-02 3) 1PS 5 355-■BD■■-4AA3 2660 5.3
96.3 96.3 95.7 0.90 770 616 446 1.9 6.8 2.6 DNGW -355MT-02 3) 1PS 5 357-■BD■■-4AA3 2800 6.4
460 355 M 2985 1472 1)
LOHER VARIO
400 355 L 2985 1279 1)
96.7 96.7 96.1 0.91 655 525 380 1.4 7.9 3.2 DNS ■ -355LD-02 1PS ■358-■BH■■-4AA0 2250 4.0
450 355 L 2978 1443 1)
96.4 96.5 96.0 0.91 740 590 430 0.95 6.2 2.55 DNS ■ -355LX-02 1PS ■358-■BJ ■■-4AA0 2600 5.0
1)
450 400 L 2984 1440
96.5 96.5 95.9 0.90 745 595 430 0.80 6.2 2.8 DNS ■ -400LL-02
1PS ■404-■BJ ■■-4AA0 3000 6.0
1)
96.6 96.7 96.2 0.91 820 655 475 0.80 5.9 2.55 DNS ■ -400LN-02 1PS ■405-■BJ ■■-4AA0 3200 7.0
500 400 L 2982 1601
1)
560 400 L 2983 1792
96.8 96.8 96.3 0.91 915 730 530 0.85 6.2 2.7 DNS ■ -400LN-02 1PS ■407-■BJ ■■-4AA0 3200 7.0
96.8 96.8 96.3 0.91 –
825 595 0.85 6.2 2.6 DNS ■ -400LX-02 1PS ■408-■BJ ■■-4AA0 3500 8.5
630 400 L 2984 2016 1)
96.7 96.6 96.0 0.91 –
830 600 0.75 6.2 2.7 DNS ■ -450LL-02
1PS ■453-■BJ ■■-4AA0 4200 11
630 450 L 2986 2014 1)
710 450 L 2986 2270 1)
96.8 96.8 96.2 0.91 –
925 670 0.80 6.3 2.8 DNS ■ -450LL-02
1PS ■455-■BJ ■■-4AA0 4200 11
96.9 96.9 96.3 0.91 –
1050 760 0.80 6.3 2.8 DNS ■ -450LN-02 1PS ■457-■BJ ■■-4AA0 4500 13
800 450 L 2986 2557 1)
900 450 L 2985 2879 1)
97.0 97.0 96.5 0.91 –
1170 850 0.85 6.4 2.7 DNS ■ -450LN-02 1PS ■458-■BJ ■■-4AA0 4500 13
96.6 96.5 95.6 0.90 –
–
960 0.85 6.4 2.8 DNS ■ -500LL-02
1PS ■505-■BJ ■■-4AA0 6400 24
1000 500 L 2986 3198 1)
1200 500 L 2990 3831 1)
96.9 96.8 96.1 0.91 –
–
1135 0.75 6.6 2.8 DNS ■ -500LN-02 1PS ■508-■BJ ■■-4AA0 6400 35
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 500
L
4
–
Ex de IIC/Ex d IIC
71 ... 500
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
71 ... 450 (≤ 800 kW)
0
–
Converter-fed operation, standard insulation
71 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW) ... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
71 ... 112
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
71 ... 400
6
–
690 VY, 50 Hz
71 ... 400
8
–
For other voltages see Page 2/54
71 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
71 ... 500
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 400
4
–
IM B35
71 ... 500
6
–
For other types of construction see from Page 1/28
71 ... 500
9
…
1)
2)
Outside the IE code classification according to IEC 60034-30.
Variant can be supplied as Ex nA, Loher type changes to ANGK….
2/36
Siemens D 83.1 · 2014
3)
Direction of rotation must be specified (order code K97 or K98).
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrasize
class ted, ted, ted,
ted,
ted,
ted,
50 Hz
50 Hz
50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
4/4
3/4
2/4
400 V 500 V 690 V
m
J
IM B3
ted ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR
0.25 071 B 1385 1.72 1)
71.0 72.3 72.0 0.76 0.67 0.54 0.39 2.0 4.0 2.1 DNGW -071BR-04 2) 1PS 5 070-■BD■■-4BA3 24 0.0015
0.37 071 B 1400 2.52 1)
74.7 75.6 73.2 0.76 0.94 0.75 0.54 2.2 4.2 2.0 DNGW -071BS-04 2) 1PS 5 071-■BD■■-4BA3 24 0.0020
0.55 080 B 1400 3.75 1)
77.5 79.0 78.0 0.75 1.37 1.10 0.79 2.2 4.2 2.2 DNGW -080BR-04 2) 1PS 5 080-■BD■■-4BA3 27 0.0030
0.75 080 B 1460 4.91 IE2 84.9 84.9 82.9 0.77 1.68 1.34 0.97 2.0 6.3 2.5 DNGW -080BS-04 2) 1PS 5 081-■BD■■-4BA3 28 0.0030
1.1 090 L 1460 7.2 IE2 86.4 87.2 86.3 0.85 2.15 1.72 1.25 1.9 6.8 2.8 DNGW -090LR-04
1PS 5 095-■BD■■-4BA3 34 0.0044
1.5 090 L 1455 9.8 IE2 86.1 86.5 85.2 0.81 3.10 2.48 1.80 1.9 6.7 2.8 DNGW -090LS-04
1PS 5 098-■BD■■-4BA3 37 0.0044
2.2 100 L 1455 14.4 IE2 87.1 87.8 86.8 0.83 4.4 3.52 2.55 1.7 6.4 2.4 DNGW -100LR-04
1PS 5 106-■BD■■-4BA3 53 0.0060
3
100 L 1455 19.7 IE2 86.0 86.3 84.7 0.80 6.3 5.0 3.65 2.0 6.3 2.6 DNGW -100LS-04
1PS 5 108-■BD■■-4BA3 55 0.0071
4
112 M 1460 26.2 IE2 88.8 89.4 88.8 0.84 7.8 6.2 4.5 1.9 6.8 2.5 DNGW -112MS-04 1PS 5 113-■BD■■-4BA3 66 0.0126
5.5 132 S 1455 36.1 IE2 89.0 89.7 89.2 0.85 10.5 8.4 6.1 2.6 7.6 2.7 DNGW -132SR-04
1PS 5 131-■BD■■-4BA3 93 0.030
7.5 132 M 1470 48.7 IE2 90.2 90.7 90.1 0.84 14.3 11.4 8.3 2.0 7.6 2.8 DNGW -132MS-04 1PS 5 133-■BD■■-4BA3 102 0.030
11 160 M 1460 71 IE2 90.5 91.4 91.6 0.81 21.7 16.7 12.1 2.1 6.8 2.6 DNGW -160MR-04 1PS 5 163-■BD■■-4BA3 176 0.077
15 160 L 1460 98 IE2 91.4 92.0 92.2 0.81 29.4 22.5 16.3 2.1 6.5 2.7 DNGW -160LS-04
1PS 5 166-■BD■■-4BA3 192 0.098
18.5 180 M 1470
IE2 92.3 92.8 92.4 0.83 34.9 27.5 20.0 3.3 7.6 3.0 DNGW -180MR-04 1PS 5 183-■BD■■-4BA3 246 0.16
22 180 L 1470 143 IE2 93.0 92.3 92.0 0.83 41.7 32.5 23.5 3.0 7.0 2.6 DNGW -180LS-04
1PS 5 186-■BD■■-4BA3 255 0.16
1PS 5 206-■BD■■-4BA3 333 0.27
30 200 L 1470 195 IE2 92.3 93.2 93.4 0.83 56.5 45.0 33.0 1.5 6.0 2.5 DNGW -200LS-04
37 225 S 1480 240 IE2 93.5 93.9 93.4 0.81 71.0 52.0 38.0 3.0 7.3 2.9 DNGW -225SR-04
1PS 5 220-■BD■■-4BA3 415 0.37
45 225 M 1480 291 IE2 93.5 93.9 93.4 0.81 71.0 65.0 47.5 3.0 7.3 2.9 DNGW -225MS-04 1PS 5 223-■BD■■-4BA3 445 0.37
55 250 M 1480 355 IE2 93.7 93.9 93.5 0.85 97.0 78.0 56.0 2.7 6.8 3.0 DNGW -250MM-04 1PS 5 253-■BD■■-4BA3 560 0.75
75 280 S 1480 484 IE2 94.4 94.2 93.8 0.87 137 109 79.0 2.5 6.8 3.0 DNGW -280SL-04
1PS 5 280-■BD■■-4BA3 820 1.3
90 280 M 1480 581 IE2 94.5 94.3 93.6 0.87 162 129 94.0 2.6 7.3 3.1 DNGW -280MM-04 1PS 5 283-■BD■■-4BA3 870 1.4
110 315 S 1485 707 IE2 94.6 94.6 94.0 0.86 200 164 119 2.7 7.4 3.0 DNGW -315SL-04
1PS 5 311-■BD■■-4BA3 1020 2.0
132 315 M 1485 848 IE2 95.0 94.9 94.6 0.87 240 191 138 2.7 7.1 2.9 DNGW -315ML-04 1PS 5 313-■BD■■-4BA3 1110 2.3
160 315 M 1485 1028 IE2 95.3 95.8 95.7 0.85 290 230 165 2.8 7.2 3.1 DNGW -315MN-04 1PS 5 315-■BD■■-4BA3 1190 2.8
200 315 L 1488 2184 IE2 95.5 95.8 95.8 0.85 360 285 205 3.1 7.5 3.2 DNGW -315LL-04
1PS 5 316-■BD■■-4BA3 1400 3.5
250 315 L 1487 1602 IE2 95.6 95.9 95.8 0.85 460 355 260 3.1 7.7 3.2 DNGW -315LM-04 1PS 5 317-■BD■■-4BA3 1520 4.2
3)
315 355 M 1488 2022 IE2 95.5 95.6 95.0 0.85 560 448 325 2.0 6.8 2.2 DNGW -355MR-04 1PS 5 353-■BD■■-4BA3 2480 6.1
360 355 M 1488 2310 IE2 95.7 95.8 95.2 0.85 640 512 371 2.2 6.9 2.2 DNGW -355MS-04 3) 1PS 5 355-■BD■■-4BA3 2610 6.8
460 355 M 1488 2952 1)
96.0 96.1 95.8 0.86 800 640 464 2.2 7.1 2.2 DNGW -355MT-04 3) 1PS 5 357-■BD■■-4BA3 2750 8.5
LOHER VARIO
96.7 96.7 96.1 0.86 690 552 400 1.25 6.7 2.4 DNS ■ -355LD-04
1PS ■350-■BH■■-4BA0 2500 8.5
400 355 L 1491 2561 1)
450 355 L 1491 2880 1)
96.6 96.7 96.1 0.86 785 630 457 1.1 6.2 2.4 DNS ■ -355LN-04
1PS ■357-■BJ ■■-4BA0 2900 9.0
1)
500 355 L 1492 3200
96.7 96.7 96.2 0.85 875 700 505 1.0 6.2 2.4 DNS ■ -355LX-04
1PS ■358-■BJ ■■-4BA0 3000 9.5
1)
500 400 L 1492 3200
96.6 96.6 96.0 0.87 855 685 495 1.1 6.2 2.6 DNS ■ -400LL-04
1PS ■404-■BJ ■■-4BA0 3500 13.0
1)
560 400 L 1492 3583
96.7 96.7 96.1 0.88 950 760 550 1.1 6.2 2.5 DNS ■ -400LN-04
1PS ■405-■BJ ■■-4BA0 3700 15.0
96.8 96.8 96.2 0.88 1070 855 620 1.1 6.3 2.5 DNS ■ -400LN-04
1PS ■407-■BJ ■■-4BA0 3700 15.0
630 400 L 1492 4031 1)
710 400 L 1492 4544 1)
96.9 96.9 96.4 0.88 1200 960 695 1.05 6.3 2.5 DNS ■ -400LX-04
1PS ■408-■BJ ■■-4BA0 3900 17.0
96.9 96.9 96.3 0.88 1355 1085 785 1.0 6.6 2.5 DNS ■ -450LL-04
1PS ■455-■BJ ■■-4BA0 4500 24.5
800 450 L 1493 5114 1)
900 450 L 1493 5755 1)
97.0 97.0 96.4 0.88 –
1215 880 1.05 6.6 2.5 DNS ■ -450LN-04
1PS ■457-■BJ ■■-4BA0 5000 29.0
950 450 L 1493 6076 1)
97.0 97.0 96.5 0.88 –
1285 930 1.05 6.6 2.6 DNS ■ -450LN-04
1PS ■458-■BJ ■■-4BA0 5000 29.0
96.9 96.9 96.2 0.88 –
–
980 0.85 6.2 2.6 DNS ■ -500LL-04
1PS ■504-■BJ ■■-4BA0 6000 43.0
1000 500 L 1494 6390 1)
1120 500 L 1493 7160 1)
97.0 97.0 96.4 0.88 –
–
1095 0.80 6.0 2.6 DNS ■ -500LL-04
1PS ■505-■BJ ■■-4BA0 6000 43.0
1250 500 L 1494 7990 1)
97.0 96.9 96.3 0.88 –
–
–
0.80 6.5 2.6 DNS ■ -500LN-04
1PS ■507-■BJ ■■-4BA0 6700 54.0
1400 500 L 1494 8940 1)
97.0 97.0 96.3 0.87 –
–
1385 0.90 7.2 2.6 DNS ■ -500LN-04
1PS ■508-■BJ ■■-4BA0 6700 54.0
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 500
L
4
–
Ex de IIC/Ex d IIC
71 ... 500
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
71 ... 450 (≤ 800 kW)
0
–
Converter-fed operation, standard insulation
71 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW) ... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
71 ... 112
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
71 ... 400
6
–
690 VY, 50 Hz
71 ... 400
8
–
For other voltages see Page 2/54
71 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
71 ... 500
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 400
4
–
IM B35
71 ... 500
6
–
For other types of construction see from Page 1/28
71 ... 500
9
…
1)
2)
Outside the IE code classification according to IEC 60034-30.
Variant can be supplied as Ex nA, Loher type changes to ANGK….
3)
Direction of rotation must be specified (order code K97 or K98).
Siemens D 83.1 · 2014
2/37
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted,
ted, class ted,
ted,
ted,
50 Hz
2
50 Hz 50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
4/4
400 V 500 V 690 V
Article No.
m
J
IM B3
ted ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR
0.25 071 B 910 2.62 1)
65.0 67.0 63.5 0.75 0.74 0.59 0.43 1.7 3.2 2.0 DNGW -071BS-06 2) 1PS 5 071-■BD■■-4CA3 24 0.0015
0.37 080 B 910 3.88 1)
69.5 70.0 68.0 0.74 1.04 0.83 0.60 1.9 3.5 2.1 DNGW -080BR-06 2) 1PS 5 080-■BD■■-4CA3 27 0.0020
0.55 080 B 910 5.8 1)
73.5 73.8 71.0 0.70 1.51 1.21 0.88 2.0 3.3 2.1 DNGW -080BS-06 2) 1PS 5 081-■BD■■-4CA3 30 0.0030
0.75 090 L 960 7.5 IE2 80.0 80.4 78.0 0.72 1.88 1.50 1.09 1.5 4.5 2.2 DNGW -090LR-06
1PS 5 095-■BD■■-4CA3 36 0.0044
1.1 090 L 950 11.1 IE2 78.1 77.9 75.4 0.72 2.80 2.24 1.62 1.4 4.1 2.0 DNGW -090LS-06
1PS 5 098-■BD■■-4CA3 42 0.0044
1.5 100 L 955 15.0 IE2 80.0 79.0 75.0 0.68 3.95 3.16 2.29 2.5 4.5 2.7 DNGW -100LS-06
1PS 5 106-■BD■■-4CA3 55 0.010
2.2 112 M 950 22.1 IE2 82.7 83.7 82.3 0.74 5.2 4.2 3.01 2.0 5.0 2.2 DNGW -112MS-06 1PS 5 113-■BD■■-4CA3 66 0.019
1PS 5 131-■BD■■-4CA3 92 0.033
3
132 S 950 30.2 IE2 85.4 86.1 85.1 0.79 6.4 5.1 3.71 2.5 5.7 2.5 DNGW -132SR-06
4
132 M 955 40.0 IE2 85.7 86.7 86.1 0.82 8.2 6.6 4.8 2.3 6.0 2.5 DNGW -132MR-06 1PS 5 133-■BD■■-4CA3 96 0.045
5.5 132 M 955 55 IE2 86.1 86.1 85.5 0.77 12.0 9.6 7.0 2.4 6.0 2.6 DNGW -132MS-06 1PS 5 135-■BD■■-4CA3 104 0.045
7.5 160 M 965 74 IE2 88.2 88.5 88.0 0.80 15.3 12.3 8.9 1.5 6.0 2.4 DNGW -160MR-06 1PS 5 163-■BD■■-4CA3 176 0.088
1PS 5 166-■BD■■-4CA3 192 0.11
11
160 L 970 108 IE2 88.9 89.4 88.7 0.78 23.0 18.3 13.3 1.6 6.0 2.6 DNGW -160LS-06
15
180 L 980 146 IE2 90.5 91.2 90.7 0.82 29.0 23.5 16.9 2.1 6.5 2.5 DNGW -180LS-06
1PS 5 186-■BD■■-4CA3 255 0.28
1PS 5 206-■BD■■-4CA3 333 0.45
18.5 200 L 980 180 IE2 91.2 91.5 90.9 0.80 36.5 29.5 21.0 2.5 7.0 2.6 DNGW -200LR-06
22
200 L 980 214 IE2 91.5 92.0 91.4 0.78 44.5 35.5 26.0 2.5 7.0 2.6 DNGW -200LS-06
1PS 5 208-■BD■■-4CA3 349 0.49
30
225 M 985 291 IE2 91.7 92.5 92.0 0.81 58.0 46.5 34.0 2.0 7.0 2.8 DNGW -225MS-06 1PS 5 223-■BD■■-4CA3 430 0.92
37
250 M 985 359 IE2 92.8 92.8 91.9 0.79 73.0 58.0 42.0 1.5 6.6 2.5 DNGW -250MM-06 1PS 5 253-■BD■■-4CA3 560 1.0
45
280 S 985 436 IE2 93.2 93.4 93.1 0.83 84.0 67.0 48.5 2.5 7.0 2.8 DNGW -280SL-06
1PS 5 280-■BD■■-4CA3 780 2.5
55
280 M 990 531 IE2 93.5 93.6 93.2 0.84 101 81.0 59.0 2.6 7.0 2.8 DNGW -280MM-06 1PS 5 283-■BD■■-4CA3 850 2.9
1PS 5 311-■BD■■-4CA3 1030 3.3
75
315 S 990 723 IE2 94.5 94.8 94.5 0.86 133 107 77.0 2.0 7.2 2.1 DNGW -315SL-06
90
315 M 990 868 IE2 94.8 95.2 95.1 0.85 161 129 93.0 2.1 6.9 2.3 DNGW -315ML-06 1PS 5 313-■BD■■-4CA3 1100 4.0
110 315 M 990 1061 IE2 94.5 94.8 94.4 0.86 195 156 113 2.0 7.1 2.2 DNGW -315MM-06 1PS 5 314-■BD■■-4CA3 1190 4.9
132 315 M 990 1273 IE2 94.7 95.0 94.7 0.86 235 187 136 2.2 7.0 2.2 DNGW -315MN-06 1PS 5 315-■BD■■-4CA3 1180 4.9
1PS 5 316-■BD■■-4CA3 1400 6.0
160 315 L 990 1543 IE2 94.8 95.0 95.0 0.87 280 225 162 2.1 7.0 2.3 DNGW -315LL-06
200 315 L 990 1929 IE2 95.0 95.2 95.0 0.84 360 290 210 2.3 7.0 2.5 DNGW -315LM-06 1PS 5 317-■BD■■-4CA3 1600 6.8
280 355M 993 2693 IE2 95.7 95.7 95.2 0.82 520 416 301 2.1 7.1 2.8 DNGW -355MR-06 1PS 5 353-■BD■■-4CA3 2460 13
315 355M 993 3029 IE2 95.9 95.9 95.5 0.83 570 456 330 2.1 7.1 2.8 DNGW -355MS-06 1PS 5 355-■BD■■-4CA3 2590 15
360 355M 994 3458 IE2 96.0 96.1 95.7 0.83 650 520 377 2.2 7.2 2.9 DNGW -355MT-06
1PS 5 357-■BD■■-4CA3 2730 16
LOHER VARIO
1PS ■358-■BH■■-4CA0 2600 11.5
315 355 L 994 3027 IE2 96.2 96.2 95.5 0.84 560 450 325 1.35 6.6 2.5 DNS ■ -355LD-06
355 355 L 993 3415 IE2 96.3 96.3 95.8 0.85 630 505 360 1.0 5.6 2.3 DNS ■ -355LN-06
1PS ■357-■BJ ■■-4CA0 2700 12.5
96.3 96.4 95.9 0.84 715 575 415 1.0 5.6 2.25 DNS ■ -355LN-06
1PS ■358-■BJ ■■-4CA0 2700 12.5
400 355 L 992 3849 1)
400 400 L 994 3844 1)
96.3 96.4 95.8 0.84 715 575 415 1.0 5.6 2.3 DNS ■ -400LL-06
1PS ■404-■BJ ■■-4CA0 3400 18.0
450 400 L 994 4323 1)
96.4 96.4 95.9 0.84 800 640 465 1.0 5.5 2.25 DNS ■ -400LN-06
1PS ■405-■BJ ■■-4CA0 3700 21.5
500 400 L 994 4805 1)
96.5 96.5 96.0 0.84 890 710 515 1.05 5.7 2.3 DNS ■ -400LN-06
1PS ■407-■BJ ■■-4CA0 3700 21.5
96.7 96.7 96.2 0.85 980 785 570 0.95 5.8 2.3 DNS ■ -450LL-06
1PS ■453-■BJ ■■-4CA0 4700 34.0
560 450 L 995 5374 1)
630 450 L 995 6046 1)
96.8 96.8 96.3 0.85 1105 885 640 0.95 5.7 2.3 DNS ■ -450LL-06
1PS ■455-■BJ ■■-4CA0 4700 34.0
96.9 97.0 96.5 0.85 1240 995 720 0.95 5.7 2.25 DNS ■ -450LN-06
1PS ■457-■BJ ■■-4CA0 5000 40.0
710 450 L 995 6813 1)
97.0 97.0 96.5 0.85 –
1125 815 1.0 5.9 2.35 DNS ■ -450LN-06
1PS ■458-■BJ ■■-4CA0 5000 40.0
800 450 L 995 7676 1)
900 500 L 995 8635 1)
96.8 96.8 96.2 0.85 –
–
915 1.0 5.8 2.25 DNS ■ -500LL-06
1PS ■505-■BJ ■■-4CA0 6200 60.0
1000 500 L 995 9592 1)
96.9 96.8 96.2 0.85 –
–
1015 1.0 6.0 2.25 DNS ■ -500LN-06
1PS ■507-■BJ ■■-4CA0 6900 72.0
1120 500 L 995 10746 1)
96.9 96.9 96.4 0.86 –
–
1120 1.0 5.7 2.15 DNS ■ -500LN-06
1PS ■508-■BJ ■■-4CA0 6900 72.0
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 500
L
4
–
Ex de IIC/Ex d IIC
71 ... 500
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
71 ... 450
0
–
Converter-fed operation, standard insulation
71 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
71 ... 112
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
71 ... 400
6
–
690 VY, 50 Hz
71 ... 400
8
–
For other voltages see Page 2/54
71 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
71 ... 500
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 450
4
–
IM B35
71 ... 500
6
–
For other types of construction see from Page 1/28
71 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2/38
Siemens D 83.1 · 2014
2)
Variant can be supplied as Ex nA, Loher type changes to ANGK….
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted,
ted, class ted,
ted,
ted,
50 Hz
50 Hz 50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
4/4
400 V 500 V 690 V
m
J
IM B3
ted ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
8-pole: 750 rpm at 50 Hz
LOHER CHEMSTAR
0.12 071 B 680 1.69 1)
51.0 51.5 45.0 0.66 0.51 0.41 0.30 1.9 2.4 2.0 DNGW -071BS-08 2) 1PS 5 071-■BD■■-4DA3 20 0.0015
0.25 080 B 680 3.51 1)
56.0 55.4 50.0 0.66 0.98 0.78 0.57 1.7 2.3 2.0 DNGW -080BS-08 2) 1PS 5 081-■BD■■-4DA3 27 0.0020
0.37 090 L 700 5.0 1)
67.0 67.5 64.0 0.60 1.33 1.06 0.77 1.7 2.5 2.0 DNGW -090LR-08
1PS 5 095-■BD■■-4DA3 35 0.0036
0.55 090 L 700 7.5 1)
69.5 69.5 65.0 0.60 1.90 1.52 1.10 1.7 2.8 2.0 DNGW -090LS-08
1PS 5 098-■BD■■-4DA3 35 0.0044
1)
0.75 100 L 700 10.2
71.9 70.2 66.0 0.70 2.15 1.72 1.25 2.0 3.7 2.1 DNGW -100LR-08
1PS 5 106-■BD■■-4DA3 55 0.010
1.1 100 L 710 14.8 1)
74.7 72.2 68.5 0.70 3.05 2.44 1.77 1.5 4.0 2.0 DNGW -100LS-08
1PS 5 108-■BD■■-4DA3 55 0.010
1.5 112 M 710 20.2 1)
78.0 78.5 76.5 0.73 3.80 3.04 2.20 1.8 4.0 2.0 DNGW -112MS-08
1PS 5 113-■BD■■-4DA3 65 0.016
2.2 132 S 715 29.4 1)
82.5 83.2 81.5 0.73 5.3 4.2 3.07 1.7 4.5 2.1 DNGW -132SR-08
1PS 5 131-■BD■■-4DA3 90 0.033
3
132 M 715 40.1 1)
83.8 84.5 82.9 0.74 7.0 5.6 4.1 1.8 4.5 2.2 DNGW -132MR-08
1PS 5 133-■BD■■-4DA3 90 0.045
4
160 M 720 53 1)
87.3 88.0 87.5 0.80 8.3 6.6 4.8 1.8 5.5 2.2 DNGW -160MR-08
1PS 5 163-■BD■■-4DA3 176 0.12
87.3 88.0 87.5 0.80 11.4 9.1 6.6 1.7 5.6 2.2 DNGW -160MS-08
1PS 5 165-■BD■■-4DA3 176 0.12
5.5 160 M 720 73 1)
7.5 160 L 720 99 1)
87.6 88.7 88.5 0.80 15.4 12.4 9.0 1.7 5.6 2.2 DNGW -160LS-08
1PS 5 166-■BD■■-4DA3 192 0.16
87.6 88.5 88.0 0.80 22.5 18.1 13.1 1.8 5.0 2.0 DNGW -180LS-08
1PS 5 186-■BD■■-4DA3 255 0.28
11
180 L 720 146 1)
15
200 L 725 198 1)
89.8 90.0 89.5 0.78 31.0 24.5 17.9 2.4 5.2 2.2 DNGW -200LR-08
1PS 5 206-■BD■■-4DA3 333 0.49
18.5 225 S 735 240 1)
90.0 90.5 89.8 0.78 38.0 30.5 22.0 2.3 5.5 2.5 DNGW -225SR-08
1PS 5 220-■BD■■-4DA3 395 0.82
91.0 91.2 90.5 0.78 44.5 36.0 26.0 2.3 5.8 2.5 DNGW -225MS-08
1PS 5 223-■BD■■-4DA3 430 0.92
22
225 M 735 286 1)
91.3 91.5 90.4 0.80 59.0 47.5 34.5 1.9 5.3 2.2 DNGW -250MM-08 1PS 5 253-■BD■■-4DA3 560 1.1
30
250 M 735 390 1)
37
280 S 740 477 1)
92.0 92.1 91.0 0.80 73.0 58.0 42.0 2.0 5.3 2.1 DNGW -280SL-08
1PS 5 280-■BD■■-4DA3 780 1.9
92.4 92.5 91.5 0.80 88.0 70.0 51.0 2.0 5.2 2.1 DNGW -280MM-08 1PS 5 283-■BD■■-4DA3 850 2.2
45
280 M 740 581 1)
55
315 S 743 707 1)
94.0 94.4 94.3 0.78 108 87.0 63.0 1.6 6.2 2.1 DNGW -315SL-08
1PS 5 311-■BD■■-4DA3 1000 3.4
75
315 M 742 965 1)
93.8 94.3 94.2 0.79 146 117 85.0 1.6 6.2 2.0 DNGW -315ML-08
1PS 5 313-■BD■■-4DA3 1170 4.1
94.0 94.2 94.0 0.79 175 140 101 1.7 6.3 2.0 DNGW -315MM-08 1PS 5 314-■BD■■-4DA3 1240 4.8
90
315 M 742 1158 1)
110 315 M 742 1416 1)
94.2 94.3 94.0 0.80 210 169 122 1.6 6.0 2.0 DNGW -315MN-08 3) 1PS 5 315-■BD■■-4DA3 1240 5.2
94.4 94.7 94.6 0.79 255 205 148 1.6 6.5 2.0 DNGW -315LL-08
1PS 5 316-■BD■■-4DA3 1390 6.8
132 315 L 742 1699 1)
160 315 L 742 2059 1)
94.6 94.6 94.0 0.79 310 245 179 1.5 6.5 2.5 DNGW -315LM-08 3) 1PS 5 317-■BD■■-4DA3 1530 7.2
LOHER VARIO
95.2 95.4 94.8 0.82 370 295 214 1.15 5.8 2.35 DNS ■ -355LB-08
1PS■356-■BH■■-4DA0 2250 14.7
200 355 L 744 2566 1)
225 355 L 744 2886 1)
95.3 95.4 94.8 0.81 420 335 243 1.15 5.8 2.4 DNS ■ -355LC-08
1PS■357-■BH■■-4DA0 2500 15.7
1)
95.3 95.4 94.8 0.81 466 373 270 1.2 5.8 2.45 DNS ■ -355LD-08
1PS■358-■BH■■-4DA0 2600 17.0
250 355 L 744 3206
1)
95.8 96.0 95.6 0.81 520 415 300 1.15 5.2 2.3 DNS ■ -355LN-08
1PS■357-■BJ ■■-4DA0 2700 12.5
280 355 L 743 3597
1)
315 355 L 743 4049
95.8 96.0 95.6 0.81 580 465 335 1.05 5.1 2.2 DNS ■ -355LX-08
1PS■358-■BJ ■■-4DA0 2850 13.5
355 400 L 743 4559 1)
96.0 96.1 95.6 0.81 655 525 380 1.0 5.1 2.3 DNS ■ -400LL-08
1PS■404-■BJ ■■-4DA0 3400 17.5
400 400 L 744 5136 1)
96.1 96.2 95.8 0.82 735 585 425 0.95 5.2 2.25 DNS ■ -400LN-08
1PS■407-■BJ ■■-4DA0 3700 21.0
96.1 96.3 95.9 0.81 830 665 480 0.95 5.0 2.25 DNS ■ -400LX-08
1PS■408-■BJ ■■-4DA0 3900 23.0
450 400 L 743 5779 1)
500 450 L 745 6411 1)
96.5 96.6 96.1 0.83 900 720 520 0.85 5.2 2.2 DNS ■ -450LL-08
1PS■455-■BJ ■■-4DA0 4700 35.5
96.5 96.6 96.1 0.84 1000 800 580 0.85 5.4 2.25 DNS ■ -450LN-08
1PS■457-■BJ ■■-4DA0 5100 42.0
560 450 L 745 7178 1)
96.6 96.7 96.2 0.83 1130 905 655 0.90 5.3 2.25 DNS ■ -450LN-08
1PS■458-■BJ ■■-4DA0 5100 42.0
630 450 L 745 8075 1)
670 450 L 746 8579 1)
96.7 96.7 96.3 0.83 1210 965 700 0.85 5.2 2.3 DNS ■ -450LX-08
1PS■450-■BJ ■■-4DA0 5300 46.0
96.7 96.8 96.2 0.85 1240 995 720 0.85 5.8 2.55 DNS ■ -500LL-08
1PS■504-■BJ ■■-4DA0 6200 73.0
710 500 L 746 9086 1)
800 500 L 746 10242 1)
96.7 96.8 96.4 0.85 –
1120 810 0.85 5.6 2.45 DNS ■ -500LL-08
1PS■505-■BJ ■■-4DA0 6200 73.0
96.5 96.6 96.1 0.84 –
1285 930 1.0 5.5 2.2 DNS ■ -500LN-08
1PS■507-■BJ ■■-4DA0 6900 88.0
900 500 L 745 11530 1)
950 500 L 746 12152 1)
96.7 96.7 96.1 0.83 –
–
990 0.95 5.9 2.4 DNS ■ -500LX-08
1PS■508-■BJ ■■-4DA0 7100 96.0
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 500
L
4
–
Ex de IIC/Ex d IIC
71 ... 500
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
71 ... 450
0
–
Converter-fed operation, standard insulation
71 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
71 ... 112
1
–
500 VY, 50 Hz
71 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
71 ... 400
6
–
690 VY, 50 Hz
71 ... 400
8
–
For other voltages see Page 2/54
71 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
71 ... 500
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 450
4
–
IM B35
71 ... 500
6
–
For other types of construction see from Page 1/28
71 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Variant can be supplied as Ex nA, Loher type changes to ANGK….
3)
Rated output, partial utilization up to 155 °C (F).
Siemens D 83.1 · 2014
2/39
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Prated,
50 Hz
2
Operating values at rated output
Frame nra- TraIE
ηra- ηra- ηrasize
class ted, ted, ted,
ted,
ted,
50 Hz 50 Hz
Motor type
cosϕ Ira-
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
4/4
400 V 500 V 690 V
Article No.
m
J
IM B3
ted ted
kW FS
rpm Nm
–
%
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
10-pole: 600 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
160 355 L 594 2570 1)
94.4 94.5 94.0 0.82 298 238 172 1.0 5.0 2.0 DNS ■ -355LB-10 1PS■356-■BH■■-4EA0 2250 15.0
180 355 L 594 2889 1)
94.6 94.7 94.0 0.81 338 271 196 1.05 5.3 2.15 DNS ■ -355LC-10 1PS■357-■BH■■-4EA0 2500 16.5
94.6 94.8 94.1 0.81 376 300 218 1.05 5.1 2.05 DNS ■ -355LD-10 1PS■358-■BH■■-4EA0 2600 18.0
200 355 L 594 3211 1)
225 355 L 593 3620 1)
95.2 95.5 95.1 0.80 425 340 245 1.1 4.8 2.15 DNS ■ -355LX-10 1PS■358-■BJ ■■-4EA0 2850 19.0
95.4 95.7 95.2 0.80 475 380 275 0.95 4.7 2.05 DNS ■ -400LL-10 1PS■404-■BJ ■■-4EA0 3400 27.0
250 400 L 594 4014 1)
280 400 L 595 4495 1)
95.6 95.8 95.3 0.81 520 415 300 0.95 4.7 2.05 DNS ■ -400LN-10 1PS■405-■BJ ■■-4EA0 3700 32.0
315 400 L 595 5058 1)
95.6 95.8 95.4 0.80 595 475 345 0.95 4.7 2.05 DNS ■ -400LN-10 1PS■407-■BJ ■■-4EA0 3700 32.0
95.8 96.0 95.6 0.80 665 530 385 0.95 4.8 2.1 DNS ■ -400LX-10 1PS■408-■BJ ■■-4EA0 3900 35.0
355 400 L 595 5700 1)
96.0 96.1 95.5 0.80 750 600 435 1.0 4.9 2.1 DNS ■ -450LL-10 1PS■454-■BJ ■■-4EA0 4700 42.0
400 450 L 595 6418 1)
450 450 L 595 7221 1)
96.1 96.2 95.6 0.81 835 670 485 0.95 4.8 2.05 DNS ■ -450LN-10 1PS■455-■BJ ■■-4EA0 5100 50.0
500 450 L 595 8020 1)
96.2 96.3 95.7 0.80 940 750 545 0.95 5.0 2.15 DNS ■ -450LN-10 1PS■457-■BJ ■■-4EA0 5100 50.0
96.2 96.2 95.6 0.79 985 785 570 1.0 5.1 2.2 DNS ■ -450LX-10 1PS■458-■BJ ■■-4EA0 5300 55.0
520 450 L 595 8336 1)
96.1 96.1 95.3 0.80 1050 840 610 0.85 5.3 2.35 DNS ■ -500LL-10 1PS■504-■BJ ■■-4EA0 6200 82.0
560 500 L 596 8965 1)
630 500 L 596 10082 1)
96.2 96.2 95.4 0.80 1180 945 685 0.90 5.3 2.4 DNS ■ -500LN-10 1PS■505-■BJ ■■-4EA0 7000 98.0
670 500 L 597 10719 1)
96.3 96.2 95.4 0.80 1260 1005 730 0.95 5.5 2.45 DNS ■ -500LN-10 1PS■507-■BJ ■■-4EA0 7000 98.0
96.4 96.3 95.5 0.79 –
–
820 0.95 5.5 2.45 DNS ■ -500LX-10 1PS■508-■BJ ■■-4EA0 7200 108
750 500 L 597 11998 1)
12-pole: 500 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
140 355 L 492 2713 1)
93.8 94.0 93.2 0.74 292 235 170 0.90 4.4 1.95 DNS ■ -355LB-12 1PS■356-■BH■■-4FA0 2250 15.0
94.1 94.3 93.8 0.78 313 250 181 0.95 4.6 2.1 DNS ■ -355LC-12 1PS■357-■BH■■-4FA0 2500 17.0
160 355 L 493 3097 1)
180 355 L 494 3481 1)
94.3 94.5 93.9 0.77 355 285 205 1.0 4.7 2.15 DNS ■ -355LD-12 1PS■358-■BH■■-4FA0 2600 19.0
94.5 94.7 94.3 0.77 375 300 218 0.95 4.6 2.2 DNS ■ -355LX-12 1PS■358-■BJ ■■-4FA0 2850 18.5
190 355 L 494 3672 1)
200 400 L 494 3861 1)
94.9 95.1 94.7 0.78 390 310 225 0.95 4.6 2.05 DNS ■ -400LL-12 1PS■404-■BJ ■■-4FA0 3400 26.5
225 400 L 495 4341 1)
95.1 95.3 94.9 0.79 430 345 250 1.0 4.7 2.15 DNS ■ -400LN-12 1PS■405-■BJ ■■-4FA0 3700 32.0
95.2 95.4 95.0 0.78 485 390 282 1.0 4.6 2.1 DNS ■ -400LN-12 1PS■407-■BJ ■■-4FA0 3700 32.0
250 400 L 495 4824 1)
280 400 L 495 5402 1)
95.2 95.4 95.0 0.78 545 435 315 1.0 4.8 2.15 DNS ■ -400LX-12 1PS■408-■BJ ■■-4FA0 3900 35.0
95.5 95.7 95.3 0.78 610 490 355 0.90 4.5 1.95 DNS ■ -450LL-12 1PS■454-■BJ ■■-4FA0 4700 42.0
315 450 L 495 6075 1)
355 450 L 495 6842 1)
95.6 95.8 95.4 0.78 690 550 400 0.90 4.6 2.0 DNS ■ -450LN-12 1PS■455-■BJ ■■-4FA0 5100 50.0
95.7 95.9 95.4 0.78 785 630 455 0.95 4.6 2.0 DNS ■ -450LN-12 1PS■457-■BJ ■■-4FA0 5100 50.0
400 450 L 495 7709 1)
95.7 95.9 95.4 0.78 810 650 470 0.95 4.7 2.05 DNS ■ -450LX-12 1PS■458-■BJ ■■-4FA0 5300 55.0
420 450 L 495 8095 1)
450 500 L 496 8662 1)
95.8 95.8 95.2 0.80 845 675 490 0.90 4.8 2.05 DNS ■ -500LL-12 1PS■504-■BJ ■■-4FA0 6200 82.0
95.8 95.8 95.1 0.79 950 760 550 0.95 5.1 2.2 DNS ■ -500LN-12 1PS■505-■BJ ■■-4FA0 7000 98.0
500 500 L 496 9617 1)
560 500 L 496 10779 1)
95.9 96.0 95.3 0.80 1055 840 610 0.90 4.9 2.1 DNS ■ -500LN-12 1PS■507-■BJ ■■-4FA0 7000 98.0
600 500 L 496 11546 1)
96.0 96.1 95.5 0.80 –
905 655 0.90 5.1 2.15 DNS ■ -500LX-12 1PS■508-■BJ ■■-4FA0 7200 108
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 500
L
4
–
Ex de IIC/Ex d IIC
355 ... 500
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
355 ... 450
0
–
Converter-fed operation, standard insulation
355 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
355 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
355 ... 400
6
–
690 VY, 50 Hz
355 ... 400
8
–
For other voltages see Page 2/54
355 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
355 ... 500
0
–
IM V1/cover
355 ... 450
4
–
IM B35
355 ... 500
6
–
For other types of construction see from Page 1/28
355 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2/40
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
J
Pra- Frame
ted, size
50 Hz
kW FS
kgm2
• Cooling: self-ventilated (IC 411)
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
14-pole: 430 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
110 355 L
DNS ■ -355LB-14 1PS■356-■BH■■-4GA0
2250
125 355 L
DNS ■ -355LC-14 1PS■357-■BH■■-4GA0
2500
2600
140 355 L
DNS ■ -355LD-14 1PS■358-■BH■■-4GA0
160 400 L
DNS ■ -400LL-14 1PS■404-■BJ ■■-4GA0
3400
3700
180 400 L
DNS ■ -400LN-14 1PS■405-■BJ ■■-4GA0
200 400 L
DNS ■ -400LN-14 1PS■407-■BJ ■■-4GA0
3700
225 400 L
DNS ■ -400LX-14 1PS■408-■BJ ■■-4GA0
3900
4700
250 450 L
DNS ■ -450LL-14 1PS■454-■BJ ■■-4GA0
5100
280 450 L
DNS ■ -450LN-14 1PS■455-■BJ ■■-4GA0
315 450 L
DNS ■ -450LN-14 1PS■457-■BJ ■■-4GA0
5100
340 450 L
DNS ■ -450LX-14 1PS■458-■BJ ■■-4GA0
5300
6200
355 500 L
DNS ■ -500LL-14 1PS■504-■BJ ■■-4GA0
7000
400 500 L
DNS ■ -500LN-14 1PS■505-■BJ ■■-4GA0
450 500 L
DNS ■ -500LN-14 1PS■507-■BJ ■■-4GA0
7000
500 500 L
DNS ■ -500LX-14 1PS■508-■BJ ■■-4GA0
7200
16-pole: 375 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
90 355 L
DNS ■ -355LB-16 1PS■356-■BH■■-4HA0
2250
100 355 L
DNS ■ -355LC-16 1PS■357-■BH■■-4HA0
2500
2600
110 355 L
DNS ■ -355LD-16 1PS■358-■BH■■-4HA0
132 400 L
DNS ■ -400LL-16 1PS■405-■BJ ■■-4HA0
3400
3700
160 400 L
DNS ■ -400LN-16 1PS■407-■BJ ■■-4HA0
180 400 L
DNS ■ -400LX-16 1PS■408-■BJ ■■-4HA0
3900
200 450 L
DNS ■ -450LL-16 1PS■454-■BJ ■■-4HA0
4700
5100
225 450 L
DNS ■ -450LN-16 1PS■455-■BJ ■■-4HA0
250 450 L
DNS ■ -450LN-16 1PS■457-■BJ ■■-4HA0
5100
5300
265 450 L
DNS ■ -450LX-16 1PS■458-■BJ ■■-4HA0
280 500 L
DNS ■ -500LL-16 1PS■504-■BJ ■■-4HA0
6200
7000
315 500 L
DNS ■ -500LN-16 1PS■505-■BJ ■■-4HA0
7000
355 500 L
DNS ■ -500LN-16 1PS■507-■BJ ■■-4HA0
400 500 L
DNS ■ -500LX-16 1PS■508-■BJ ■■-4HA0
7200
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 500
L
4
–
Ex de IIC/Ex d IIC
355 ... 500
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
355 ... 450
0
–
Converter-fed operation, standard insulation
355 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
355 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
355 ... 400
6
–
690 VY, 50 Hz
355 ... 400
8
–
For other voltages see Page 2/54
355 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
355 ... 500
0
–
IM V1/cover
355 ... 450
4
–
IM B35
355 ... 500
6
–
For other types of construction see from Page 1/28
355 ... 500
9
…
Siemens D 83.1 · 2014
2/41
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Prated,
60 Hz
2
Operating values at rated output
Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted, class ted,
ted,
ted,
60 Hz
60 Hz
cosϕ Irated,
rated, 60 Hz,
60 Hz, 60 Hz, 60 Hz, 60 Hz, 480 V
4/4
3/4
2/4
4/4
Motor type
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
m
J
IM B3
ted ted
kW FS
rpm Nm –
%
%
%
–
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
2-pole: 3600 rpm at 60 Hz
LOHER CHEMSTAR
0.44 071 B 3360 1.25 1)
76.5 77.5 75.6 0.88 0.79
2.7 5.5 2.9 DNGW -071BR-02 2) 1PS 5 070-■BD■■-4AA3 24 0.0006
0.66 071 B 3360 1.88 1)
76.5 77.5 75.6 0.88 1.18
2.7 5.5 2.9 DNGW -071BS-02 2) 1PS 5 071-■BD■■-4AA3 25 0.0006
0.9 080 B 3370 2.55 IE2 80.1 80.8 79.2 0.89 1.52
2.7 6.0 2.9 DNGW -080BR-02 2) 1PS 5 080-■BD■■-4AA3 26 0.0008
1.2 080 B 3400 3.37 IE2 82.5 82.7 81.5 0.82 2.15
2.9 6.0 2.7 DNGW -080BS-02 2) 1PS 5 081-■BD■■-4AA3 28 0.0008
1.8 090 L 3460 4.97 IE2 85.4 85.6 84.5 0.88 2.85
3.0 7.0 2.8 DNGW -090LR-02
1PS 5 095-■BD■■-4AA3 36 0.0020
2.6 090 L 3460 7.2 IE2 85.5 85.8 84.7 0.84 4.4
3.0 7.0 3.0 DNGW -090LS-02
1PS 5 098-■BD■■-4AA3 36 0.0020
1PS 5 106-■BD■■-4AA3 51 0.0041
3.6 100 L 3510 9.8 IE2 87.5 87.1 85.2 0.85 5.8
2.9 8.0 3.0 DNGW -100LS-02
4.5 112 M 3490 12.3 IE2 87.5 87.7 87.2 0.94 6.6
2.7 7.8 3.0 DNGW -112MS-02 1PS 5 113-■BD■■-4AA3 66 0.0075
6.6 132 S 3510 18.0 IE2 89.5 88.7 87.2 0.89 10.0
3.0 7.8 3.0 DNGW -132SR-02
1PS 5 131-■BD■■-4AA3 83 0.014
9
132 S 3510 24.5 IE2 90.1 91.0 90.1 0.91 13.1
2.7 7.0 3.0 DNGW -132SS-02
1PS 5 132-■BD■■-4AA3 95 0.020
13.2 160 M 3550 36 IE2 90.8 91.2 91.0 0.88 19.9
2.0 7.5 2.6 DNGW -160MR-02 1PS 5 163-■BD■■-4AA3 176 0.045
18
160 M 3550 48 IE2 91.5 91.8 91.2 0.89 26.5
1.9 7.0 2.6 DNGW -160MS-02 1PS 5 165-■BD■■-4AA3 176 0.092
22
160 L 3550 59 IE2 91.5 91.8 91.2 0.89 32.5
2.0 7.0 2.7 DNGW -160LS-02
1PS 5 166-■BD■■-4AA3 192 0.092
26
180 M 3560 70 IE2 92.5 93.0 92.4 0.89 38.0
2.6 7.0 2.6 DNGW -180MS-02 1PS 5 183-■BD■■-4AA3 246 0.16
36
200 L 3565 96 IE2 92.6 92.8 92.0 0.89 53.0
2.0 7.2 2.6 DNGW -200LR-02
1PS 5 206-■BD■■-4AA3 333 0.20
44
200 L 3565 118 IE2 93.0 93.1 92.4 0.89 64.0
2.0 7.2 2.6 DNGW -200LS-02
1PS 5 208-■BD■■-4AA3 349 0.23
54
225 M 3565 145 IE2 93.2 93.4 92.8 0.88 79.0
2.2 7.6 2.6 DNGW -225MS-02 1PS 5 223-■BD■■-4AA3 420 0.34
66
250 M 3575 176 IE2 93.8 93.7 92.6 0.88 96.0
1.9 7.5 2.6 DNGW -250MM-02 1PS 5 253-■BD■■-4AA3 540 0.45
90
280 S 3575 240 IE2 94.5 94.5 93.0 0.90 127
1.7 7.0 2.4 DNGW -280SL-02
1PS 5 280-■BD■■-4AA3 775 0.88
110 280 M 3580 293 IE2 95.1 95.0 93.9 0.89 156
2.4 7.7 2.7 DNGW -280MM-02 1PS 5 283-■BD■■-4AA3 830 1.03
1PS 5 311-■BD■■-4AA3 1030 1.55
125 315 S 3580 333 IE2 94.6 94.4 93.2 0.87 183
1.9 7.0 2.5 DNGW -315SL-02
145 315 M 3580 387 IE2 95.1 95.0 93.8 0.89 205
2.0 7.7 2.6 DNGW -315ML-02 1PS 5 313-■BD■■-4AA3 1080 1.85
180 315 M 3581 480 IE2 95.4 95.4 94.4 0.88 260
2.2 7.5 2.7 DNGW -315MN-02 1PS 5 315-■BD■■-4AA3 1160 2.2
220 315 L 3580 587 IE2 95.8 95.9 95.4 0.90 305
2.5 7.3 2.7 DNGW -315LL-02
1PS 5 316-■BD■■-4AA3 1390 2.8
270 315 L 3580 720 IE2 95.8 95.9 95.4 0.90 375
2.6 7.7 2.7 DNGW -315LN-02
1PS 5 318-■BD■■-4AA3 1570 3.5
LOHER VARIO
355 355 L 3581 947 IE2 96.1 95.9 94.9 0.89 500
2.2 6.8 2.6 DNS ■ -355LB-02
1PS 5 356-■BH■■-4AA0 2000 3.6
400 355 L 3583 1066 1)
96.4 96.3 95.6 0.92 541
1.15 6.7 2.75 DNS ■ -355LC-02
1PS■357-■BH■■-4AA0 2150 3.6
450 355 L 3585 1198 1)
96.6 96.5 95.7 0.92 610
1.2 7.4 3.0 DNS ■ -355LD-02
1PS■358-■BH■■-4AA0 2250 4.0
500 355 L 3579 1334 1)
96.3 96.2 95.5 0.91 683
0.90 6.3 2.65 DNS ■ -355LX-02
1PS■358-■BJ ■■-4AA0 2600 5.0
96.4 96.3 95.5 0.90 688
0.65 5.7 2.45 DNS ■ -400LL-02
1PS■404-■BJ ■■-4AA0 3000 6.0
500 400 L 3581 1333 1)
560 400 L 3584 1492 1)
96.6 96.5 95.7 0.91 765
0.80 6.5 2.8 DNS ■ -400LN-02
1PS■405-■BJ ■■-4AA0 3200 7.0
630 400 L 3583 1679 1)
96.7 96.6 96.0 0.91 862
0.75 6.1 2.65 DNS ■ -400LN-02
1PS■407-■BJ ■■-4AA0 3200 7.0
710 400 L 3585 1891 1)
96.7 96.6 95.9 0.91 675 3)
0.80 6.5 2.75 DNS ■ -400LX-02
1PS■408-■BJ ■■-4AA0 3500 8.3
710 450 L 3586 1890 1)
96.3 96.1 95.1 0.90 685 3)
0.70 6.2 2.7 DNS ■ -450LL-02
1PS■455-■BJ ■■-4AA0 4200 12
96.5 96.3 95.3 0.91 762 3)
0.80 6.4 2.85 DNS ■ -450LN-02
1PS■457-■BJ ■■-4AA0 4500 14
800 450 L 3586 2130 1)
3)
900 450 L 3586 2396 1)
96.6 96.4 95.6 0.90 865
0.80 6.4 2.8 DNS ■ -450LN-02
1PS■458-■BJ ■■-4AA0 4500 14
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 450
L
4
–
Ex de IIC/Ex d IIC
71 ... 450
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
71 ... 450 (≤ 900 kW)
0
–
Converter-fed operation, standard insulation
71 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 450
2
–
Mains-fed operation, pre-formed coil
450 (> 900 kW)
3
–
Converter-fed operation, pre-formed coil
450
4
–
Voltages
Frame size
Order code
For other voltages see Page 2/54
71 ... 450
9
…
Types of construction
Frame size
Order code
IM B3
71 ... 450
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 400
4
–
IM B35
71 ... 450
6
–
For other types of construction see from Page 1/28
71 ... 450
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Variant can be supplied as Ex nA, Loher type changes to ANGK….
2/42
Siemens D 83.1 · 2014
3)
Only possible with 690 V, 60 Hz (values apply to 690 V).
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Prated,
60 Hz
Operating values at rated output
Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted, class ted,
ted,
ted,
60 Hz
60 Hz
cosϕ Irated,
rated, 60 Hz,
60 Hz, 60 Hz, 60 Hz, 60 Hz, 480 V
4/4
3/4
2/4
4/4
Motor type
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
4-pole: 1800 rpm at 60 Hz
LOHER CHEMSTAR
0.3 071 B 1700 1.69 1)
75.0 76.5 74.0 0.73 0.66
2.2 4.3 2.3 DNGW -071BR-04 2) 1PS 5 070-■BD■■-4BA3 24 0.0015
0.44 071 B 1700 2.47 1)
78.0 78.5 76.8 0.73 0.93
2.5 4.8 2.5 DNGW -071BS-04 2) 1PS 5 071-■BD■■-4BA3 24 0.0020
0.66 080 B 1700 3.71 1)
79.0 80.0 78.8 0.75 1.34
2.5 5.0 2.5 DNGW -080BR-04 2) 1PS 5 080-■BD■■-4BA3 27 0.0030
0.9 080 B 1760 4.88 IE2 86.2 86.0 83.5 0.74 1.71
2.1 7.0 2.5 DNGW -080BS-04 2) 1PS 5 081-■BD■■-4BA3 28 0.0030
1.3 090 L 1760 7.1 IE2 85.6 85.2 82.0 0.82 2.25
2.2 7.2 2.7 DNGW -090LR-04
1PS 5 095-■BD■■-4BA3 34 0.0044
1.8 090 L 1760 9.8 IE2 87.8 88.0 86.6 0.80 3.10
2.2 7.4 2.7 DNGW -090LS-04
1PS 5 098-■BD■■-4BA3 37 0.0044
1PS 5 106-■BD■■-4BA3 53 0.0060
2.6 100 L 1755 14.1 IE2 88.0 88.3 87.2 0.83 4.3
1.9 7.0 2.5 DNGW -100LR-04
3.6 100 L 1760 19.5 IE2 87.5 87.0 85.2 0.79 6.3
1.8 7.0 2.4 DNGW -100LS-04
1PS 5 108-■BD■■-4BA3 55 0.0071
4.8 112 M 1760 26.0 IE2 89.9 90.3 89.5 0.83 7.8
1.9 7.0 2.5 DNGW -112MS-04 1PS 5 113-■BD■■-4BA3 66 0.0126
6.6 132 S 1750 36.0 IE2 89.8 90.4 89.9 0.86 10.3
2.4 7.5 2.7 DNGW -132SR-04
1PS 5 131-■BD■■-4BA3 93 0.03
9
132 M 1765 48.7 IE2 90.1 90.5 89.7 0.86 14.0
2.0 7.5 2.2 DNGW -132MS-04 1PS 5 133-■BD■■-4BA3 102 0.03
13
160 M 1765 70.0 IE2 91.1 91.5 91.0 0.85 20.0
3.0 7.5 2.6 DNGW -160MR-04 1PS 5 163-■BD■■-4BA3 176 0.10
18
160 L 1770 97.0 IE2 92.4 92.1 91.8 0.85 27.5
3.0 7.5 2.6 DNGW -160LS-04
1PS 5 166-■BD■■-4BA3 192 0.13
22
180 M 1775 118 IE2 92.5 93.0 92.2 0.84 34.0
1.8 7.5 2.8 DNGW -180MR-04 1PS 5 183-■BD■■-4BA3 246 0.20
26
180 L 1775 140 IE2 93.7 94.0 93.5 0.85 39.5
1.8 7.5 2.6 DNGW -180LS-04
1PS 5 186-■BD■■-4BA3 255 0.23
36
200 L 1780 193 IE2 94.2 94.4 93.9 0.83 55.0
3.0 7.5 2.9 DNGW -200LS-04
1PS 5 206-■BD■■-4BA3 333 0.37
44
225 S 1780 236 IE2 93.7 94.0 93.5 0.85 66.0
2.0 7.0 2.6 DNGW -225SR-04
1PS 5 220-■BD■■-4BA3 415 0.64
54
225 M 1780 290 IE2 94.2 94.7 94.6 0.85 81.0
2.0 7.0 2.6 DNGW -225MS-04 1PS 5 223-■BD■■-4BA3 445 0.72
66
250 M 1780 354 IE2 94.5 94.4 94.2 0.86 98.0
2.1 7.7 2.7 DNGW -250MM-04 1PS 5 253-■BD■■-4BA3 560 0.79
90
280 S 1785 481 IE2 94.6 94.8 94.5 0.84 136
2.2 7.0 2.5 DNGW -280SL-04
1PS 5 280-■BD■■-4BA3 820 1.44
110 280 M 1785 588 IE2 95.2 95.2 94.8 0.84 165
2.5 7.0 2.7 DNGW -280MM-04 1PS 5 283-■BD■■-4BA3 870 1.66
125 315 S 1787 668 IE2 95.0 95.0 94.0 0.82 193
2.2 7.0 2.5 DNGW -315SL-04
1PS 5 311-■BD■■-4BA3 1020 2.2
145 315 M 1787 775 IE2 95.1 95.2 94.7 0.84 220
2.0 7.0 2.2 DNGW -315ML-04 1PS 5 313-■BD■■-4BA3 1110 2.9
180 315 M 1787 962 IE2 95.4 95.4 94.8 0.83 275
2.4 7.5 2.5 DNGW -315MN-04 1PS 5 315-■BD■■-4BA3 1190 3.4
220 315 L 1787 1176 IE2 95.4 95.6 95.0 0.84 330
2.3 7.5 2.5 DNGW -315LL-04
1PS 5 316-■BD■■-4BA3 1400 3.9
270 315 L 1787 1443 IE2 95.8 95.8 95.5 0.85 400
2.3 7.5 2.4 DNGW -315LM-04 1PS 5 317-■BD■■-4BA3 1520 4.2
LOHER VARIO
315 355 L 1789 1681 IE2 95.9 95.6 94.4 0.85 463
2.1 6.7 2.4 DNS ■ -355LB-04
1PS■356-■BH■■-4BA0 2200 6.5
355 355 L 1791 1891 IE2 96.4 96.3 95.5 0.85 518
1.2 6.8 2.5 DNS ■ -355LB-04
1PS■357-■BH■■-4BA0 2200 7.0
400 355 L 1791 2133 1)
96.4 96.3 95.5 0.86 578
1.1 6.5 2.3 DNS ■ -355LB-04
1PS■358-■BH■■-4BA0 2350 7.7
96.5 96.4 95.6 0.86 651
1.1 6.5 2.3 DNS ■ -355LB-04
1PS■350-■BH■■-4BA0 2500 8.5
450 355 L 1791 2399 1)
500 355 L 1791 2664 1)
96.6 96.5 95.9 0.86 724
1.05 6.3 2.45 DNS ■ -355LB-04
1PS■357-■BJ ■■-4BA0 2900 9.0
560 355 L 1792 2984 1)
96.7 96.6 95.9 0.85 820
1.0 6.5 2.5 DNS ■ -355LB-04
1PS■358-■BJ ■■-4BA0 3000 9.5
560 400 L 1791 2984 1)
96.5 96.4 95.6 0.88 793
1.0 6.2 2.55 DNS ■ -400LL-04
1PS■404-■BJ ■■-4BA0 3500 13
630 400 L 1791 3357 1)
96.6 96.5 95.8 0.89 885
1.0 6.0 2.45 DNS ■ -400LN-04
1PS■405-■BJ ■■-4BA0 3700 15
96.7 96.6 96.0 0.89 995
0.95 5.7 2.3 DNS ■ -400LN-04
1PS■407-■BJ ■■-4BA0 3700 15
710 400 L 1791 3784 1)
800 400 L 1792 4263 1)
96.8 96.8 96.1 0.88 1123
0.95 6.1 2.31 DNS ■ -400LX-04
1PS■408-■BJ ■■-4BA0 3900 17
900 450 L 1793 4792 1)
96.9 96.8 96.1 0.88 1265
0.90 6.4 2.32 DNS ■ -450LL-04
1PS■455-■BJ ■■-4BA0 4500 24.5
1000 450 L 1793 5324 1)
96.9 96.8 96.2 0.88 980 3)
0.85 6.0 2.33 DNS ■ -450LN-04
1PS■457-■BJ ■■-4BA0 5000 29
Enclosures
Frame size
Order code
Ex de IIB/Ex d IIB
355 ... 450
L
4
–
Ex de IIC/Ex d IIC
71 ... 450
W
5
–
Operating modes
Frame size
Order code
Mains-fed operation
71 ... 450 (≤ 800 kW)
0
–
Converter-fed operation, standard insulation
71 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 450
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW)
3
–
Converter-fed operation, pre-formed coil
450
4
–
Voltages
Frame size
Order code
For other voltages see Page 2/54
71 ... 450
9
…
Types of construction
Frame size
Order code
IM B3
71 ... 450
0
–
IM B5
71 ... 315
1
–
IM B34
71 ... 112
2
–
IM B14
71 ... 112
3
–
IM V1/cover
71 ... 400
4
–
IM B35
71 ... 450
6
–
For other types of construction see from Page 1/28
71 ... 450
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Variant can be supplied as Ex nA, Loher type changes to ANGK….
3)
Only possible with 690 V, 60 Hz (values apply to 690 V).
Siemens D 83.1 · 2014
2/43
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Prated,
60 Hz
2
Operating values at rated output
Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted, class ted,
ted,
ted,
60 Hz
60 Hz
Motor type
cosϕ Irated,
rated, 60 Hz,
60 Hz, 60 Hz, 60 Hz, 60 Hz, 480 V
4/4
4/4
3/4
2/4
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
6-pole: 1200 rpm at 60 Hz
LOHER CHEMSTAR
0.3 071 B 1110 2.58 1)
69.0 69.5 65.5 0.69 0.76
2.2 4.0 2.1 DNGW-071BS-06 2) 1PS5071-■BD■■-4CA3 24 0.0015
0.44 080 B 1110 3.79 1)
70.0 71.0 70.0 0.70 1.08
2
4.0 2.2 DNGW-080BR-06 2) 1PS5080-■BD■■-4CA3 27 0.0020
1)
75.0 75.0 72.0 0.66 1.64
2.3 4.5 2.4 DNGW-080BS-06 2) 1PS5081-■BD■■-4CA3 30 0.0030
0.66 080 B 1130 5.6
0.75 090 L 1160 6.2 IE2 81.8 82.0 80.1 0.72 1.53
1.5 5.0 2.5 DNGW-090LR-06
1PS5095-■BD■■-4CA3 36 0.0044
0.9 090 L 1160 7.4 IE2 82.0 82.0 80.2 0.72 1.83
1.4 5.1 2.4 DNGW-090LS-06
1PS5098-■BD■■-4CA3 42 0.0044
1PS5106-■BD■■-4CA3 55 0.010
1.25 100 L 1175 10.2 IE2 85.5 85.2 82.3 0.73 2.4
1.5 5.6 2.4 DNGW-100LS-06
1.8 112 M 1180 14.6 IE2 86.6 86.5 83.0 0.73 3.4
1.3 5.8 2.5 DNGW-112MS-06
1PS5113-■BD■■-4CA3 66 0.019
3
132 S 1170 24.5 IE2 87.9 87.6 85.3 0.74 5.5
2.4 6.6 3.0 DNGW-132SR-06
1PS5131-■BD■■-4CA3 92 0.033
4
132 M 1160 32.9 IE2 88.3 88.9 88.1 0.79 6.9
2.1 6.6 2.7 DNGW-132MR-06
1PS5133-■BD■■-4CA3 96 0.045
5.5 132 M 1180 44.5 IE2 90.0 90.2 89.0 0.80 9.2
1.5 6.5 2.3 DNGW-132MS-06
1PS5135-■BD■■-4CA3 104 0.045
7.5 160 M 1170 61 IE2 89.6 89.7 88.0 0.80 12.6
1.3 6.2 2.4 DNGW-160MR-06
1PS5163-■BD■■-4CA3 176 0.088
11
160 L 1170 90 IE2 90.2 90.4 89.0 0.80 18.3
1.3 6.5 2.4 DNGW-160LS-06
1PS5166-■BD■■-4CA3 192 0.11
15
180 L 1180 121 IE2 91.0 91.4 90.7 0.81 24.5
2.4 7.0 2.5 DNGW-180LS-06
1PS5186-■BD■■-4CA3 255 0.28
18.5 200 L 1180 150 IE2 91.7 91.7 90.8 0.80 30.5
2.5 7.0 2.6 DNGW-200LR-06
1PS5206-■BD■■-4CA3 333 0.45
22
200 L 1180 178 IE2 91.8 91.8 91.0 0.80 36.0
2.5 7.0 2.6 DNGW-200LS-06
1PS5208-■BD■■-4CA3 349 0.49
30
225 M 1180 243 IE2 93.0 93.0 92.0 0.82 47.5
2.0 7.0 2.8 DNGW-225MS-06
1PS5223-■BD■■-4CA3 430 0.92
37
250 M 1185 298 IE2 93.2 93.2 92.3 0.80 60.0
1.4 7.0 2.6 DNGW-250MM-06 1PS5253-■BD■■-4CA3 560 1.0
45
280 S 1189 361 IE2 93.6 93.6 93.2 0.85 68.0
2.3 6.5 2.5 DNGW-280SL-06
1PS5280-■BD■■-4CA3 780 2.5
55
280 M 1190 441 IE2 93.8 93.8 93.0 0.84 84.0
2.5 7.2 2.8 DNGW-280MM-06 1PS5283-■BD■■-4CA3 850 2.9
75
315 S 1190 602 IE2 94.8 94.9 94.3 0.86 111
2.2 7.2 2.4 DNGW-315SL-06
1PS5311-■BD■■-4CA3 1030 3.3
90
315 M 1190 722 IE2 94.3 94.4 94.0 0.86 133
2.0 7.2 2.2 DNGW-315ML-06
1PS5313-■BD■■-4CA3 1100 4.0
110 315 M 1190 883 IE2 95.0 95.2 95.0 0.87 160
1.8 7.1 2.2 DNGW-315MM-06 1PS5314-■BD■■-4CA3 1190 4.9
132 315 M 1190 1059 IE2 95.2 95.2 95.0 0.86 194
2.0 7.2 2.3 DNGW-315MN-06 1PS5315-■BD■■-4CA3 1180 4.9
160 315 L 1190 1284 IE2 95.2 95.3 95.0 0.86 235
2.2 7.5 2.5 DNGW-315LL-06
1PS5316-■BD■■-4CA3 1400 6.0
1PS5317-■BD■■-4CA3 1600 6.8
200 315 L 1190 1605 IE2 95.2 95.2 95.0 0.84 300
2.4 7.6 2.6 DNGW-315LM-06
LOHER VARIO on request
Enclosures
Ex de IIB/Ex d IIB
Ex de IIC/Ex d IIC
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Converter-fed operation with special insulation (derating approx. 5 %)
Voltages
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Outside the IE code classification according to IEC 60034-30.
2/44
Siemens D 83.1 · 2014
Frame size
71 ... 315
71 ... 315
Frame size
71 ... 315
71 ... 315
160 ... 315
Frame size
71 ... 315
Frame size
71 ... 315
71 ... 315
71 ... 112
71 ... 112
71 ... 315
71 ... 315
71 ... 315
2)
0
1
2
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
Order code
…
Order code
–
–
–
–
–
–
…
Variant can be supplied as Ex nA, Loher type changes to ANGK….
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for constant load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
4-/2-pole: 1500/3000 rpm at 50 Hz with one winding connected in Dahlander circuit
LOHER CHEMSTAR
0.65/0.85 80 B
DNGW-080BS-42
1PS5081-■BD■■-4NA3 28
1.45/1.9 90 L
DNGW-090LS-42
1PS5098-■BD■■-4NA3 37
1PS5106-■BD■■-4NA3 53
2/2.4
100 L
DNGW-100LR-42
2.6/3.2
100 L
DNGW-100LS-42
1PS5108-■BD■■-4NA3 55
3.6/4.3
112 M
DNGW-112MS-42 1) 1PS5113-■BD■■-4NA3 66
4.9/6
132 S
DNGW-132SR-42 1) 1PS5131-■BD■■-4NA3 93
6.5/9
132 M
DNGW-132MR-42
1PS5133-■BD■■-4NA3 102
9/11
160 M
DNGW-160MR-42
1PS5163-■BD■■-4NA3 176
13/16
160 L
DNGW-160LS-42
1PS5166-■BD■■-4NA3 192
16.5/20
180 M
DNGW-180MR-42
1PS5183-■BD■■-4NA3 246
18.5/25
180 L
DNGW-180LS-42
1PS5186-■BD■■-4NA3 255
26/31
200 L
DNGW-200LS-42
1PS5206-■BD■■-4NA3 333
32/38
225 S
DNGW-225SR-42
1PS5220-■BD■■-4NA3 415
38/46
225 M
DNGW-225MS-42
1PS5223-■BD■■-4NA3 420
45/55
250 M
DNGW-250MM-42
1PS5253-■BD■■-4NA3 540
60/75
280 S
DNGW-280SL-42
1PS5280-■BD■■-4NA3 775
73/90
280 M
DNGW-280MM-42
1PS5283-■BD■■-4NA3 830
82/96
315 S
DNGW-315SL-42
1PS5311-■BD■■-4NA3 1020
1PS5313-■BD■■-4NA3 1120
100/124 315 M
DNGW-315ML-42
120/145 315 M
DNGW-315MN-42
1PS5315-■BD■■-4NA3 1190
142/172 315 L
DNGW-315LL-42
1PS5316-■BD■■-4NA3 1430
1PS5317-■BD■■-4NA3 1520
150/200 315 L
DNGW-315LM-42
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Frame size
80 ... 315
80 ... 315
Frame size
80 ... 312
80 ... 315
80 ... 315
80 ... 315
80 ... 315
Frame size
80 ... 315
80 ... 315
80 ... 312
80 ... 312
80 ... 315
80 ... 315
80 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Rated output, partial utilization up to 155 °C (F).
Siemens D 83.1 · 2014
2/45
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
2
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for constant load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
8-/4-pole: 750/1500 rpm at 50 Hz with one winding connected in Dahlander circuit
LOHER CHEMSTAR
0.5/0.8
90 L
DNGW-090LS-84
1PS5098-■BD■■-4QA3 37
0.9/1.3
100 L
DNGW-100LR-84
1PS5106-■BD■■-4QA3 53
1PS5108-■BD■■-4QA3 55
1/1.6
100 L
DNGW-100LS-84
1.4/2.2
112 M
DNGW-112MS-84
1PS5113-■BD■■-4QA3 66
2.3/3.4
132 S
DNGW-132SR-84
1PS5131-■BD■■-4QA3 93
1PS5133-■BD■■-4QA3 102
3/5
132 M
DNGW-132MR-84
4/5.5
160 M
DNGW-160MR-84
1PS5163-■BD■■-4QA3 176
5/7.5
160 M
DNGW-160MS-84
1PS5165-■BD■■-4QA3 176
7/11
160 L
DNGW-160LS-84
1PS5166-■BD■■-4QA3 192
11/18
180 L
DNGW-180LS-84 1) 1PS5186-■BD■■-4QA3 255
17/25
200 L
DNGW-200LR-84
1PS5206-■BD■■-4QA3 333
22/31
225 S
DNGW-225SR-84 1) 1PS5220-■BD■■-4QA3 405
26/38
225 M
DNGW-225MS-84 1) 1PS5223-■BD■■-4QA3 445
32/46
250 M
DNGW-250MM-84
1PS5253-■BD■■-4QA3 560
42/60
280 S
DNGW-280SL-84
1PS5280-■BD■■-4QA3 780
50/72
280 M
DNGW-280MM-84 1) 1PS5283-■BD■■-4QA3 850
60/83
315 S
DNGW-315SL-84
1PS5311-■BD■■-4QA3 1020
72/110
315 M
DNGW-315ML-84
1PS5313-■BD■■-4QA3 1170
1PS5315-■BD■■-4QA3 1240
90/132
315 M
DNGW-315MN-84
115/160 315 L
DNGW-315LL-84 1) 1PS5316-■BD■■-4QA3 1430
145/220 315 L
DNGW-315LM-84 1) 1PS5317-■BD■■-4QA3 1530
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
2/46
Siemens D 83.1 · 2014
Frame size
90 ... 315
90 ... 315
Frame size
90 ... 112
90 ... 315
90 ... 315
90 ... 315
90 ... 315
Frame size
90 ... 315
90 ... 315
90 ... 112
90 ... 112
90 ... 315
90 ... 315
90 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for constant load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
6-/4-pole: 1000/1500 rpm at 50 Hz with two separate windings
LOHER CHEMSTAR
0.6/0.9
90 L
DNGW-090LS-64
1PS5098-■BD■■-4PA3 37
0.9/1.3
100 L
DNGW-100LR-64
1PS5106-■BD■■-4PA3 53
1PS5108-■BD■■-4PA3 55
1.1/1.5
100 L
DNGW-100LS-64
1.5/2.2
112 M
DNGW-112MS-64
1PS5113-■BD■■-4PA3 66
2.2/3.3
132 S
DNGW-132SR-64
1PS5131-■BD■■-4PA3 93
1PS5133-■BD■■-4PA3 102
3/4.5
132 M
DNGW-132MR-64
4.5/6.5
160 M
DNGW-160MR-64
1PS5163-■BD■■-4PA3 176
6.5/9.5
160 M
DNGW-160LS-64
1PS5166-■BD■■-4PA3 192
11/16
160 L
DNGW-180LS-64
1PS5186-■BD■■-4PA3 255
13/19
180 L
DNGW-200LR-64
1PS5206-■BD■■-4PA3 333
15/23
200 L
DNGW-200LS-64
1PS5208-■BD■■-4PA3 349
18/27
225 S
DNGW-225SR-64
1PS5220-■BD■■-4PA3 395
21/31
225 M
DNGW-225MS-64
1PS5223-■BD■■-4PA3 445
28/40
250 M
DNGW-250MM-64
1PS5253-■BD■■-4PA3 560
43/65
280 S
DNGW-280SL-64
1PS5280-■BD■■-4PA3 820
52/78
280 M
DNGW-280MM-64
1PS5283-■BD■■-4PA3 870
60/90
315 S
DNGW-315SL-64
1PS5311-■BD■■-4PA3 1020
70/100
315 M
DNGW-315ML-64 1) 1PS5313-■BD■■-4PA3 1020
1PS5315-■BD■■-4PA3 1190
80/115
315 M
DNGW-315MN-64
100/140 315 L
DNGW-315LL-64 1) 1PS5316-■BD■■-4PA3 1430
125/180 315 L
DNGW-315LM-64 1) 1PS5317-■BD■■-4PA3 1550
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Frame size
90 ... 315
90 ... 315
Frame size
90 ... 112
90 ... 315
90 ... 315
90 ... 315
90 ... 315
Frame size
90 ... 315
90 ... 315
90 ... 112
90 ... 112
90 ... 315
90 ... 315
90 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Rated output, partial utilization up to 155 °C (F).
Siemens D 83.1 · 2014
2/47
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
2
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for constant load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
8-/6-pole: 750/1000 min at 50 Hz with two separate windings
LOHER CHEMSTAR
0.45/0.6 90 L
DNGW-090LS-86
1PS5098-■BD■■-4RA3 37
0.6/0.8
100 L
DNGW-100LR-86
1PS5106-■BD■■-4RA3 53
1PS5108-■BD■■-4RA3 55
0.7/0.9
100 L
DNGW-100LS-86
0.9/1.4
112 M
DNGW-112MS-86
1PS5113-■BD■■-4RA3 66
1.5/2
132 S
DNGW-132SR-86
1PS5131-■BD■■-4RA3 93
1PS5133-■BD■■-4RA3 102
2.2/3
132 M
DNGW-132MR-86
4/5.5
160 M
DNGW-160MR-86
1PS5163-■BD■■-4RA3 176
5.5/7.5
160 L
DNGW-160LS-86
1PS5166-■BD■■-4RA3 192
8.5/11
180 L
DNGW-180LS-86
1PS5186-■BD■■-4RA3 255
14.5/19
200 L
DNGW-200LR-86 1) 1PS5206-■BD■■-4RA3 333
16/21
225 S
DNGW-225SR-86
1PS5220-■BD■■-4RA3 395
19/25
225 M
DNGW-225MS-86
1PS5223-■BD■■-4RA3 445
24/32
250 M
DNGW-250MM-86
1PS5253-■BD■■-4RA3 560
33/44
280 S
DNGW-280SL-86
1PS5280-■BD■■-4RA3 780
40/53
280 M
DNGW-280MM-86
1PS5283-■BD■■-4RA3 850
50/65
315 S
DNGW-315SL-86 1) 1PS5311-■BD■■-4RA3 1010
60/80
315 M
DNGW-315ML-86 1) 1PS5313-■BD■■-4RA3 1170
70/95
315 M
DNGW-315MN-86 1) 1PS5315-■BD■■-4RA3 1240
80/110
315 L
DNGW-315LL-86 1) 1PS5316-■BD■■-4RA3 1400
115/150 315 L
DNGW-315LM-86 1) 1PS5317-■BD■■-4RA3 1550
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
2/48
Siemens D 83.1 · 2014
Frame size
90 ... 315
90 ... 315
Frame size
90 ... 112
90 ... 315
90 ... 315
90 ... 315
90 ... 315
Frame size
90 ... 315
90 ... 315
90 ... 112
90 ... 112
90 ... 315
90 ... 315
90 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
4-/2-pole: 1500/3000 rpm at 50 Hz with one winding connected in Dahlander circuit for fan drive
LOHER CHEMSTAR
0.22/1.1 80 B
DVGW-080BS-42
1PS5081-■ND■■-4NA3 28
0.5/2
90 L
DVGW-090LS-42
1PS5098-■ND■■-4NA3 37
1PS5106-■ND■■-4NA3 53
0.65/2.4 100 L
DVGW-100LR-42
0.8/3
100 L
DVGW-100LS-42
1PS5108-■ND■■-4NA3 55
1.1/4.1
112 M
DVGW-112MS-42
1PS5113-■ND■■-4NA3 66
1PS5131-■ND■■-4NA3 93
1.6/6
132 S
DVGW-132SR-42
2.2/9
132 M
DVGW-132MR-42
1PS5133-■ND■■-4NA3 102
3/12
160 M
DVGW-160MR-42
1PS5163-■ND■■-4NA3 176
4/16
160 L
DVGW-160LS-42
1PS5166-■ND■■-4NA3 192
5.5/20
180 M
DVGW-180MR-42
1PS5183-■ND■■-4NA3 246
6.3/25
180 L
DVGW-180LS-42 1) 1PS5186-■ND■■-4NA3 255
8.5/33
200 L
DVGW-200LS-42
1PS5206-■ND■■-4NA3 333
10.5/38
225 S
DVGW-225SR-42
1PS5220-■ND■■-4NA3 415
13/46
225 M
DVGW-225MS-42
1PS5223-■ND■■-4NA3 420
15/55
250 M
DVGW-250MM-42
1PS5253-■ND■■-4NA3 540
20/75
280 S
DVGW-280SL-42
1PS5280-■ND■■-4NA3 775
24/90
280 M
DVGW-280MM-42
1PS5283-■ND■■-4NA3 830
27/110
315 S
DVGW-315SL-42
1PS5311-■ND■■-4NA3 1020
1PS5313-■ND■■-4NA3 1120
33/132
315 M
DVGW-315ML-42
37/145
315 M
DVGW-315MN-42
1PS5315-■ND■■-4NA3 1190
44/172
315 L
DVGW-315LL-42
1PS5316-■ND■■-4NA3 1430
1PS5317-■ND■■-4NA3 1520
50/200
315 L
DVGW-315LM-42
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Frame size
80 ... 315
80 ... 315
Frame size
80 ... 112
80 ... 315
80 ... 315
80 ... 315
80 ... 315
Frame size
80 ... 315
80 ... 315
80 ... 112
80 ... 112
80 ... 315
80 ... 315
80 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Rated output, partial utilization up to 155 °C (F).
Siemens D 83.1 · 2014
2/49
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
2
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
8-/4-pole: 750/1500 rpm at 50 Hz with one winding connected in Dahlander circuit for fan drive
LOHER CHEMSTAR
0.12/0.7 80 B
DVGW-080BS-84 1) 1PS5081-■ND■■-4QA3 28
0.35/1.3 90 L
DVGW-090LS-84
1PS5098-■ND■■-4QA3 37
1PS5106-■ND■■-4QA3 53
0.45/2
100 L
DVGW-100LR-84
0.55/2.5 100 L
DVGW-100LS-84
1PS5108-■ND■■-4QA3 55
0.9/3.7
112 M
DVGW-112MS-84
1PS5113-■ND■■-4QA3 66
1PS5131-■ND■■-4QA3 93
1.3/5
132 S
DVGW-132SR-84
1.7/6.8
132 M
DVGW-132MR-84
1PS5133-■ND■■-4QA3 102
3/10
160 M
DVGW-160MR-84
1PS5163-■ND■■-4QA3 176
3.5/13
160 L
DVGW-160LS-84
1PS5166-■ND■■-4QA3 192
4/16
180 M
DVGW-180MR-84
1PS5183-■ND■■-4QA3 246
5/20
180 L
DVGW-180LS-84
1PS5186-■ND■■-4QA3 255
7/28
200 L
DVGW-200LR-84
1PS5206-■ND■■-4QA3 333
8/33
225 S
DVGW-225SR-84
1PS5220-■ND■■-4QA3 405
9.5/39
225 M
DVGW-225MS-84 1) 1PS5223-■ND■■-4QA3 445
11/49
250 M
DVGW-250MM-84
1PS5253-■ND■■-4QA3 560
17/68
280 S
DVGW-280SL-84
1PS5280-■ND■■-4QA3 780
20/80
280 M
DVGW-280MM-84
1PS5283-■ND■■-4QA3 850
22/95
315 S
DVGW-315SL-84
1PS5311-■ND■■-4QA3 1030
1PS5313-■ND■■-4QA3 1120
26/110
315 M
DVGW-315ML-84
30/130
315 M
DVGW-315MN-84
1PS5315-■ND■■-4QA3 1190
38/160
315 L
DVGW-315LL-84
1PS5316-■ND■■-4QA3 1450
1PS5317-■ND■■-4QA3 1520
45/180
315 L
DVGW-315LM-84
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
2/50
Siemens D 83.1 · 2014
Frame size
80 ... 315
80 ... 315
Frame size
80 ... 112
80 ... 315
80 ... 315
80 ... 315
80 ... 315
Frame size
80 ... 315
80 ... 315
80 ... 112
80 ... 112
80 ... 315
80 ... 315
80 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
Article No.
mIM B3
Frame
size
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
6-/4-pole: 1000/1500 rpm at 50 Hz with two separate windings for fan drive
LOHER CHEMSTAR
0.4/1.3
90 L
DVGW-090LS-64
1PS5098-■ND■■-4PA3 37
0.6/1.8
100 L
DVGW-100LR-64
1PS5106-■ND■■-4PA3 53
1PS5108-■ND■■-4PA3 55
0.75/2.4 100 L
DVGW-100LS-64
0.9/3
112 M
DVGW-112MS-64
1PS5113-■ND■■-4PA3 66
1.25/4.2 132 S
DVGW-132SR-64
1PS5131-■ND■■-4PA3 93
1PS5133-■ND■■-4PA3 102
1.65/5.5 132 M
DVGW-132MR-64
2.2/7.5
160 M
DVGW-160MR-64
1PS5163-■ND■■-4PA3 176
3/9
160 M
DVGW-160MS-64
1PS5165-■ND■■-4PA3 176
3.5/12
160 L
DVGW-160LS-64
1PS5166-■ND■■-4PA3 192
4.5/14
180 M
DVGW-180MR-64
1PS5183-■ND■■-4PA3 246
5.5/16.5 180 L
DVGW-180LS-64
1PS5186-■ND■■-4PA3 255
7/20
200 L
DVGW-200LR-64
1PS5206-■ND■■-4PA3 333
9/26
200 L
DVGW-200LS-64
1PS5208-■ND■■-4PA3 349
10/31
225 S
DVGW-225SR-64
1PS5220-■ND■■-4PA3 395
13/38
225 M
DVGW-225MS-64
1PS5223-■ND■■-4PA3 445
17/48
250 M
DVGW-250MM-64
1PS5253-■ND■■-4PA3 560
25/70
280 S
DVGW-280SL-64
1PS5280-■ND■■-4PA3 820
30/82
280 M
DVGW-280MM-64
1PS5283-■ND■■-4PA3 870
1PS5311-■ND■■-4PA3 1030
32/95
315 S
DVGW-315SL-64
37/115
315 M
DVGW-315ML-64
1PS5313-■ND■■-4PA3 1120
47/135
315 M
DVGW-315MN-64
1PS5315-■ND■■-4PA3 1190
55/160
315 L
DVGW-315LL-64 1) 1PS5316-■ND■■-4PA3 1430
75/200
315 L
DVGW-315LM-64 1) 1PS5317-■ND■■-4PA3 1520
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/54
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Frame size
90 ... 315
90 ... 315
Frame size
90 ... 112
90 ... 315
90 ... 315
90 ... 315
90 ... 315
Frame size
90 ... 315
90 ... 315
90 ... 112
90 ... 112
90 ... 315
90 ... 315
90 ... 315
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Rated output, partial utilization up to 155 °C (F).
Siemens D 83.1 · 2014
2/51
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
2
Frame
size
Article No.
mIM B3
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
8-/6-pole: 750/1000 rpm at 50 Hz with two separate windings for fan drive
LOHER CHEMSTAR
1PS5098-■ND■■-4RA3 37
0.32/0.75 90 L
DVGW-090LS-86
0.45/1
100 L
DVGW-100LR-86
1PS5106-■ND■■-4RA3 53
0.55/1.3 100 L
DVGW-100LS-86
1PS5108-■ND■■-4RA3 55
1PS5113-■ND■■-4RA3 66
0.8/1.9
112 M
DVGW-112MS-86
1.1/2.6
132 S
DVGW-132SR-86
1PS5131-■ND■■-4RA3 93
1.6/3.8
132 M
DVGW-132MR-86
1PS5133-■ND■■-4RA3 102
1PS5163-■ND■■-4RA3 176
2.5/6
160 M
DVGW-160MR-86
3.5/8
160 L
DVGW-160LR-86
1PS5166-■ND■■-4RA3 192
1PS5186-■ND■■-4RA3 255
5.5/12.5 180 L
DVGW-180LS-86
9.5/20
200 L
DVGW-200LS-86
1PS5206-■ND■■-4RA3 333
11/24
225 S
DVGW-225SS-86
1PS5220-■ND■■-4RA3 395
1PS5223-■ND■■-4RA3 445
13/28
225 M
DVGW-225MS-86
16/34
250 M
DVGW-250MM-86
1PS5253-■ND■■-4RA3 560
1PS5280-■ND■■-4RA3 780
25/50
280 S
DVGW-280SL-86
30/60
280 M
DVGW-280MM-86
1PS5283-■ND■■-4RA3 850
33/70
315 S
DVGW-315SL-86
1PS5311-■ND■■-4RA3 1010
1PS5313-■ND■■-4RA3 1090
40/85
315 M
DVGW-315ML-86
47/100
315 M
DVGW-315MN-86
1PS5315-■ND■■-4RA3 1180
55/120
315 L
DVGW-315LL-86
1PS5316-■ND■■-4RA3 1390
70/150
315 L
DVGW-315LM-86 1) 1PS5317-■ND■■-4RA3 1550
LOHER VARIO on request
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 315
0
–
Converter-fed operation, standard insulation
90 ... 315
1
–
Voltages
Frame size
Order code
230 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
400 V, 50 Hz
90 ... 315
6
–
690 VY, 50 Hz
90 ... 315
8
–
For other voltages see Page 2/54
90 ... 315
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 315
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 315
4
–
IM B35
90 ... 315
6
–
For other types of construction see from Page 1/28
90 ... 315
9
…
1)
Rated output, partial utilization up to 155 °C (F).
2/52
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Brake motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Motor type
Pra- Frame nra- Tra- TB c/h · J IE
ηra- ηra- cosϕ Ira- Ira- Ira- TLR/ ILR/ TB/
S4- class ted, ted, rated, ted, ted, ted, Tra- Ira- Trated, size
ted,
ted,
40 %
50 Hz
50 Hz 50 Hz
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted ted ted
1)
4/4
3/4
4/4
Article No.
m
J
IM B3
400 V 500 V 690 V
kW FS
rpm Nm Nm –
–
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Explosion-proof enclosure" according to EN 60079-1; 2007: CE 0102 II 2G Ex d(e) IIC T4 Gb
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR
0.75 80 B 1455 4.9 10 2.2 IE2 81.3 81.5 0.77 1.73 1.34 0.97 1.7 6.0 2.5 DBGW-080BS-04 1PS5081- ■RD■■-4BA3 33 0.0030
1.1 90 L 1460 7.2 10 2.0 IE2 86.4 87.1 0.83 2.20 1.73 1.25 2.0 6.8 2.8 DBGW-090LR-04 1PS5095- ■RD■■-4BA3 42 0.0044
1.5 90 L 1460 9.8 20 3.0 IE2 85.6 85.7 0.79 3.20 2.50 1.80 2.0 6.7 2.8 DBGW-090LS-04 1PS5098- ■RD■■-4BA3 45 0.0044
2.2 100 L 1450 14.4 20 6.25 IE2 86.9 87.9 0.85 4.30 3.50 2.55 1.6 6.4 2.5 DBGW-100LR-04 1PS5106- ■RD■■-4BA3 64 0.0060
3.0 100 L 1455 19.7 50 7.5 IE2 85.6 85.8 0.79 6.40 5.00 3.65 2.0 6.3 2.7 DBGW-100LS-04 1PS5108- ■RD■■-4BA3 66 0.0071
4.0 112 M 1460 26 50 7.5 IE2 88.3 89.1 0.83 7.90 6.20 4.50 1.9 6.8 2.5 DBGW-112MS-04 1PS5113- ■RD■■-4BA3 80 0.0126
5.5 132 S 1455 36.2 50 10.0 IE2 89.5 89.9 0.85 10.4 8.40 6.10 2.6 7.9 2.7 DBGW-132SR-04 1PS5131- ■RD■■-4BA3 110 0.030
7.5 132 M 1470 48.7 100 12.5 IE2 90.2 90.7 0.84 14.5 11.4 8.30 2.0 7.6 2.8 DBGW-132MS-04 1PS5133- ■RD■■-4BA3 115 0.030
11 160 M 1465 72 100 15.0 IE2 90.5 91.4 0.84 21.0 16.7 12.1 2.8 6.5 2.7 DBGW-160MR-04 1PS5163- ■RD■■-4BA3 176 0.10
15 160 L 1470 97 150 12.5 IE2 91.4 92.3 0.84 28.0 22.5 16.3 3.0 6.5 2.7 DBGW-160LS-04 1PS5166- ■RD■■-4BA3 192 0.13
18.5 180 M 1475 120 150 20.0 IE2 92.3 92.8 0.84 34.5 27.5 20.0 1.8 7.5 2.5 DBGW-180MR-04 1PS5183- ■RD■■-4BA3 246 0.20
22 180 L 1477 142 270 22.5 IE2 92.5 93.0 0.85 40.5 32.5 23.5 1.8 7.5 2.5 DBGW-180LS-04 1PS5186- ■RD■■-4BA3 255 0.23
30 200 L 1470 195 270 24.0 IE2 92.3 93.2 0.83 57.0 45.0 33.0 3.0 7.0 2.8 DBGW-200LS-04 1PS5206- ■RD■■-4BA3 333 0.37
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR
73.2 73.4 0.70 1.55 1.24 0.90 2.0 3.5 2.1 DBGW-080BS-06 1PS5081- ■RD■■-4CA3 33 0.0030
0.55 80 B 900 5.8 10 3.5 1)
0.75 90 L 960 7.5 10 3.75 IE2 80
80.4 0.72 1.88 1.50 1.09 1.5 4.5 2.2 DBGW-090LR-06 1PS5095- ■RD■■-4CA3 42 0.0044
1.1 90 L 950 11.1 20 6.25 IE2 78.1 77.9 0.72 2.80 2.25 1.64 1.4 4.1 2.0 DBGW-090LS-06 1PS5098- ■RD■■-4CA3 45 0.0044
1.5 100 L 955 15 20 8.75 IE2 80.4 79.5 0.68 3.95 3.15 2.30 2.5 5.0 2.7 DBGW-100LS-06 1PS5106- ■RD■■-4CA3 64 0.010
2.2 112 M 950 22 50 10.0 IE2 82.7 83.7 0.74 5.20 4.15 3.00 2.0 5.0 2.2 DBGW-112MS-06 1PS5113- ■RD■■-4CA3 80 0.019
3
132 S 950 30 50 13.75 IE2 85.4 86.1 0.79 6.40 5.10 3.70 2.3 6.0 2.5 DBGW-132SR-06 1PS5131- ■RD■■-4CA3 110 0.033
4
132 M 955 40 50 17.5 IE2 85.7 86.7 0.82 8.20 6.60 4.75 2.3 6.0 2.5 DBGW-132MR-06 1PS5133- ■RD■■-4CA3 115 0.045
5.5 132 M 955 55 100 20.0 IE2 86.1 86.3 0.77 12.0 9.60 6.90 2.4 6.0 2.6 DBGW-132MS-06 1PS5135- ■RD■■-4CA3 115 0.045
7.5 160 M 965 74 100 27.5 IE2 88.2 88.5 0.80 15.3 12.3 8.90 1.5 6.0 2.4 DBGW-160MR-06 1PS5163- ■RD■■-4CA3 176 0.088
11 160 L 970 108 150 42.5 IE2 88.9 89.4 0.78 23.0 18.3 13.3 1.6 6.0 2.6 DBGW-160LS-06 1PS5166- ■RD■■-4CA3 192 0.11
15 180 L 980 146 270 35.0 IE2 90.5 91.2 0.82 29.0 23.5 16.9 2.1 6.5 2.5 DBGW-180LS-06 1PS5186- ■RD■■-4CA3 255 0.28
18.5 200 L 980 180 270 65.0 IE2 91.2 91.5 0.80 36.5 29.5 21.0 2.5 7.0 2.6 DBGW-200LR-06 1PS5206- ■RD■■-4CA3 333 0.45
22 200 L 980 214 270 65.0 IE2 91.5 92.0 0.78 44.5 35.5 26.0 2.5 7.0 2.6 DBGW-200LS-06 1PS5208- ■RD■■-4CA3 349 0.49
Operating modes
Frame size
Order code
Mains-fed operation
80 ... 200
0
–
Converter-fed operation, standard insulation
80 ... 200
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 200
2
–
Voltages
Frame size
Order code
230 V/400 V, 50 Hz
80 ... 112
1
–
500 VY, 50 Hz
80 ... 200
3
–
400 V/690 V, 50 Hz
Standard
6
–
690 VY, 50 Hz
80 ... 200
8
–
For other voltages see Page 2/54
80 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
Standard
0
–
IM B5
80 ... 200
1
–
IM B34
80 ... 200
2
–
IM B14
80 ... 200
3
–
IM V1/cover
80 ... 200
4
–
IM B35
80 ... 200
6
–
For other types of construction see from Page 1/28
80 ... 200
9
…
TB = Braking torque in Nm
The maximum permissible number of starts is limited for all
motors to 20 c/h. For conditions for a higher number of starts,
please inquire.
In the case of a number of starts of > 1 per hour, the brake
dimensioning must be checked.
Conversion factor "c/h · J" depending on the duty cycle.
Standard brake supply: 230 V, 1-phase AC
1)
Outside the IE code classification according to IEC 60034-30.
Example 1
Motor:
1PS5113-. RB..-4BA0
(motor type: DBGW-112MB-04), S4, 40 %, 120 c/h
Required: ΣJ
Solution: c/h · J = 7.5 from table
ΣJ = 7.5/120 = 0.0625 kgm2
Example 2
Motor:
1PS5113-. RB..-4BA0
(motor type: DBGW-112MB-04), S4, 40 %
Required: c/h
Solution: ΣJ = 0.05 kgm2
c/h · J = 7.5
c/h = 7.5/0.05 = 150
Siemens D 83.1 · 2014
2/53
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Article No. supplements
■ Selection and ordering data
Voltages
Voltage
code
11.
position of
the
Article
No.
2
AddiMotor series
tional
identifi- LOHER CHEMSTAR
cation
code
with
order
code
and
plain
text if
required
LOHER VARIO
1PS4. . . - . . . ■ . - . . . .
Frame size
1PS5. . . - . . . ■ . - . . . .
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Optional voltages
690 VΔ, 50 Hz
0
–
–
–
–
–
–












230 VΔ/400 VY, 50 Hz
1












–
–
–
–
–
–
500 VY, 50 Hz
3













–
–
–
–
–
400 VΔ, 50 Hz
4
















–
–
500 VΔ, 50 Hz
5


















400 VΔ/690 VY, 50 Hz
6
















–
–
690 VY, 50 Hz
8














–
–
–
–
415 VY, 50 Hz
9
L1C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
415 VΔ, 50 Hz
9
L1D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
380 VΔ/660 VY, 50 Hz
9
L1L
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
220 VΔ/380 VY, 50 Hz
9
L1R
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
–
–
1000 VΔ, 50 Hz
9
L1V
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Other voltages
9
L1Y •
and
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
220 VΔ/380 VY, 60 Hz
(50 Hz output)
9
L2A
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
–
–
220 VΔ/380 VY, 60 Hz
(60 Hz output)
9
L2B
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
–
–
380 VΔ/660 VY, 60 Hz
(50 Hz output)
9
L2C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
–
380 VΔ/660 VY, 60 Hz
(60 Hz output)
9
L2D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. –
–
–
–
460 VY, 60 Hz (60 Hz output)
9
L2E
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
–
460 VΔ, 60 Hz (60 Hz output)
9
L2F
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
575 VY, 60 Hz (60 Hz output)
9
L2L
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
575 VΔ, 60 Hz (60 Hz output)
9
L2M
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
✓
✓
✓
✓
✓
✓
–
440 VY, 60 Hz (50 Hz output)
9
L2Q
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
440 VΔ, 60 Hz (50 Hz output)
9
L2R
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
460 VY, 60 Hz (50 Hz output)
9
L2S
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
–
460 VΔ, 60 Hz (50 Hz output)
9
L2T
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
–
575 VY, 60 Hz (50 Hz output)
9
L2U
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
–
575 VΔ, 60 Hz (50 Hz output)
9
L2V
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
440 VY, 60 Hz (60 Hz output)
9
L2W
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. –
440 VΔ, 60 Hz (60 Hz output)
9
L2X
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.

Without additional charge
This order code only determines the price of the version –
Additional plain text is required.
✓
With additional charge
O. R. On request
–
Not possible
•
2/54
Siemens D 83.1 · 2014
–
–
For dual voltages 230 V/400 V, 220 V/380 V, 400 V/690 V or
380 V/660 V:
– For motors for converter-fed operation, the converter rating
plate is stamped with 380 V or 400 V.
– For motors with a Dahlander circuit, the lower voltage is
generally specified.
Voltages not listed in the catalog are only available on request.
Standard brake supply voltage: 230 V, 1-phase AC
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
■ Selection and ordering data
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection
Design with reduced starting current –
factory clarification required and maybe
type test needed, ETO option (Engineer
To Order) without order code
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Special design according to load curve –
of driven machine or customer requirements – factory clarification required and
maybe type test needed, ETO option
without order code
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Adjustment of rating in response to
customer requirements – factory clarification required and maybe type test
needed, ETO option without order code
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Motor protection with 3 PTC thermistors
for tripping – without surge arresters,
sole protection not included
A11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Motor protection with 2 × 3 PTC
thermistors for prewarning/tripping –
without surge arresters, sole protection
not included
A12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Motor protection with 3 PTC thermistors
for tripping as sole protection on
converter (TMS)
A15
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Motor protection with 2 × 3 PTC
thermistors for prewarning/tripping as
sole protection on converter (TMS)
A16
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Measuring of winding temperature by
means of embedded KTY84-130
temperature sensor
A23
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Measuring of winding temperature by
means of 2 × embedded KTY84-130
temperature sensors
A25
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Monitoring of winding temperature using A60
3 Pt100 resistance thermometers –
in 2-wire design
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Monitoring of winding temperature using A61
2 × 3 Pt100 resistance thermometers –
2-wire design, for round-wire winding
only
–
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
3 Pt100 resistance thermometers in stator A63
winding, 3-wire connection from auxiliary
terminal box
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 resistance thermometers in stator A64
winding, 3-wire connection from auxiliary
terminal box
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
without surge arresters for 4-wire
connection from terminal box –
for pre-formed coil winding only
A65
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
A66
6 Pt100 slot resistance thermometers
with surge arresters for 4-wire connection
from terminal box – for pre-formed coil
winding only
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
in shielded design without surge
arresters for 4-wire connection –
for pre-formed coil winding only
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
A67
Siemens D 83.1 · 2014
2/55
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
LOHER VARIO
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection (continued)
2
Q40
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 Pt100 double resistance thermometers V80
in shielded design (Ex i) for roller
bearing or sleeve bearings – 2-wire
from element, 4-wire from terminal box
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Winding Pt100 in 3- or 4-wire type
from sensor instead of from terminal
(not Ex i Pt100!) – Optionally possible
for A60, A61, A65, A66
Q43
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing Pt100 in 3- or 4-wire type from
sensor instead of from terminal –
optionally possible for V80, A40, A42
Q44
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
One thermocouple per bearing
Q49
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring
(preferred brand), with loose cable –
for each sensor
V14
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring V15
(preferred brand), without terminal box –
for each sensor
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
3 transmitters, 4 to 20 mA for Pt100
winding
P20
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
1 transmitter with digital display with
Ex d or Ex i approval
V88
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Pt100 winding in tolerance class A with
calibration certificate
V78
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Site altitude max. 1500 m
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D06
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 2000 m
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D07
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 2500 m (observe
D08
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
in shielded design to Ex i with surge
arresters for 3- and 4-wire connection
from terminal box – for pre-formed coil
winding only
2/56
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
LOHER VARIO
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection (continued)
Site altitude max. 3000 m
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D09
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 45 °C
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 50 °C
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 55 °C
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 60 °C
(observe derating) – derating in
accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D14
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coolant temperature below +40 °C with
increased output – factory clarification
required, not applicable for IE2.
D18
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
Utilization to temperature class 155 (F)
with higher output – higher output on
request, not applicable for IE2.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
C12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
✓
✓
✓
✓
Rated output of the lower output level – C29
IEC output levels are maintained, only in
combination with D06 to D18.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Temperature class F
W00
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Temperature class H
W01
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
Siemens D 83.1 · 2014
2/57
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
LOHER VARIO
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection (continued)
2
Special insulation for increased voltage
load in converter-fed operation
(phase/phase 2250 VPeak/derating) –
for LOHER CHEMSTAR at 8th position
of the Article No. = 2
1)
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
Sealing of winding overhangs with
silicone rubber
W03
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
O. R. O. R. O. R. O. R.
Sealing of cable duct with silicone rubber W04
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
Efficiency according to efficiency class
IE3 (Premium Efficiency) – factory
clarification required
D25
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
Non-standard voltage and/or frequency
for separate fan motor
Y81 • and
–
identification
code
✓
✓
✓
✓
Other special electrical designs/
configurations
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Colors and paint finish
Internal corrosion protection system J08
W10
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Coating system N08 – 110 µm
(C3 medium) – corrosion resistance
acc. to EN/ISO 12944-5 = C3
V09


















Coating system N14/J08 – 170 µm
V10
(chemical industry + onshore, C5
industrial climate) – corrosion resistance
acc. to EN/ISO 12944-5 = C5
(5 to 15 years) for industrial climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system N14A (chemical industry W14
+ onshore, C5 industry) – corrosion
resistance acc. to EN/ISO 12944-5 = C5
(5 to 15 years) for industrial climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Special prime coat system Z05 with
internal corrosion protection system J08
W15
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Coating system Z21/J08 – 210 µm
V11
(offshore, C5M-M) – corrosion resistance
acc. to EN/ISO 12944-5 = C5
(5 to 15 years) – sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Increased layer thickness 275 µm for
coating system Z21 (C5M-high) –
only in combination with V11 –
corrosion resistance acc. to EN/ISO
12944-5 = C5 high (> 15 years) –
sea climate
V19
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special offshore paint finish S13 with
V12
reference to NORSOK M501 (C5M-high)
with comments and deviations –
corrosion resistance acc. to EN/ISO
12944-5 = C5 high (> 15 years) –
sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special coating system S11/J08
(e.g. submerged motors)
V13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Unpainted, only primed
K24
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Unpainted
K23














–
–
–
–
Outer coating 110 µm for zincgalvanized noise cabinet
V98
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special colors according to Munsell
or British Standard
Y50 • and
–
identification
code
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2/58
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
LOHER VARIO
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Standard paint finish in RAL 1004, 1018, Y53 • and
✓
2000, 2004, 5009, 5012, 5015, 6003,
special finish
6011, 7000, 7011, 7031, 7038, 9002
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special paint finish in RAL 1004, 1018,
2000, 2004, 5009, 5012, 5015, 6003,
6011, 7000, 7011, 7031, 7038, 9002
(specify special coating system in
addition, e.g. V10, V11, W14, etc.)
Y54 • and
✓
special finish
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
RAL colors, other than those offered
above
Y51 • and
✓
special finish
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special non-RAL colors
Y71 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Colors and paint finish (continued)
Other paint combinations/systems or
RAL colors to customer specification
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Design for Zones according to ATEX
Design for Zone 21 (conductive dust)
for mains-fed operation
M34
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design for Zone 22 (non-conductive dust) M35
for mains-fed operation
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Design for Zone 21 (conductive dust)
for converter-fed operation
M38
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design for Zone 22 (non-conductive dust) M39
for converter-fed operation
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design in double protection additionally W20
for dust, Zone 22 for mains-fed operation,
no hybrid certification – non-conductive
dust
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design in double protection additionally W21
for dust, Zone 21 for mains-fed operation,
no hybrid certification – version and
certification for conductive dust (incl.
non-conductive dust)
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design in double protection additionally
for dust, Zone 22 for converter-fed
operation, no hybrid certification –
non-conductive dust, select options
for converter-fed operation separately
W22
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design in double protection additionally
for dust, Zone 21 for converter-fed
operation, no hybrid certification –
version and certification for conductive
dust (incl. non-conductive dust), select
options for converter-fed operation
separately
W23
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
W24
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design acc. to LRoS (Lloyds Register of W25
Shipping), CT 45 °C with manufacturer's
declaration – non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design acc. to BV (Bureau Veritas),
CT 45 °C with manufacturer's
declaration – non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
✓
✓
✓
Ship design "Operation below deck"
Design acc. to GL (Germanischer
Lloyd), CT 45 °C with manufacturer's
declaration – non essential
W26
Siemens D 83.1 · 2014
2/59
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Design acc. to DNV (Det Norske Veritas), W27
CT 45 °C with manufacturer's declaration
– non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
Design acc. to ABS (American Bureau of W28
Shipping), CT 50 °C with manufacturer's
declaration – non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
Design acc. to RINa (Registro Italiano
Novale), CT 50 °C with manufacturer's
declaration – non essential
W29
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R.
Other certifications, motors for upper
deck mounting and acceptance tests
to classification – factory clarification
required
W99
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
Ship design "Operation below deck" (continued)
2
–
–
–
Design acc. to GL (Germanischer Lloyd), Q60
CT 45 °C, essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to LRoS (Lloyds Register of Q61
Shipping), CT 45 °C with manufacturer's
declaration, essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to BV (Bureau Veritas),
Q62
CT 45 °C with manufacturer's declaration,
2)
essential drive
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to DNV (Det Norske Veritas), Q63
CT 45 °C with manufacturer's declaration,
essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to ABS (American Bureau of Q64
Shipping), CT 50 °C with manufacturer's
declaration, essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to RINa (Registro Italiano
Novale), CT 50 °C with manufacturer's
declaration, essential drive 2)
Q65
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to CCS (China) CT 45 °C
with manufacturer's declaration,
essential drive 2)
Q66
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to USSR (Russia) CT xx °C
with manufacturer's declaration,
essential drive 2)
Q67
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to PR (Poland) CT xx °C
with manufacturer's declaration,
essential drive 2)
Q68
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to NKK (Japan) CT xx °C
with manufacturer's declaration,
essential drive 2)
Q69
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Coolant temperature in temperature range D02
-50 to +40 °C – roller bearing design
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Coolant temperature in temperature range D03
-40 to +40 °C – roller bearing design
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Coolant temperature in temperature range D04
-30 to +40 °C – roller bearing design
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Electrical design according to NEMA
MG1-12
D30
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Certification acc. to NEPSI – design may D32
differ (different cover size)
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
China Energy Efficiency Label
D34














–
Certificate EAC for
Eurasian Customs Union
D35
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Individual certifications
2/60
Siemens D 83.1 · 2014
–
–
–
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Ex certification for India (PESO – CCOE) D38
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
IEC Ex certificate
D37














O. R. O. R. O. R. O. R.
Terminal box on right-hand side
(view onto DE)
K09
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓




Terminal box on left-hand side
(view onto DE)
K10
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓




Terminal box on top
K11


















Terminal box to IP65
Q71
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Cable entry thread metrically different
from standard – thread dimension must
be specified
W30
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Enlarged connection system for main
terminal box – not in combination with
K53 (Ex d terminal box)
L00
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Undrilled cable gland plate – for main
terminal box
L01
–
–
–
–
–
–
–
–
–
–
–
–
–
–




Main terminal box in Ex d version with
standard terminals
Q31
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
1 × NPT thread – specify size in plain text, W32
cable gland not in our supply
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
1 × cable gland for non-armored cable – K54
for main terminal box
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
1 × cable gland, standard thread size,
for non-armored cable – for additional
connection
W33
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Saddle terminal for connection without
cable lug
W35
–
–
–
–
–
–
–
–
–
–
–
–
–
–




Individual certifications (continued)
Special mechanical designs
Special cable gland – one cable gland
Y97 • and
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
for supply cable in the main terminal box, identification
code
non-armored cable
Cable gland, standard Ex d (non-armored W91
cable) 1 unit – only in combination with
K53
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Cable gland for accessories Ex d –
1 unit (non-armored cable) –
W92
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Explosion-proof main terminal box
Ex d IIC – for connection cable of
accessories in main or auxiliary terminal
box
K53
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Auxiliary terminal box Ex d IIC, cast-iron – V43
with standard thread according to
catalog; specify size if different (W30),
because cable glands with reduction
are only permitted in certain cases
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Siemens D 83.1 · 2014
2/61
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Auxiliary terminal box Ex e, cast-iron –
not in combination with K53
(Ex d terminal box)
W72
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Material of auxiliary terminal box:
Stainless steel – not in combination
with K53 (Ex d terminal box)
M51
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Separate auxiliary terminal box for
anti-condensation heater
M52
–
–
–
–
–
–
–
–
–
–
–
–
–

✓
✓
✓
✓
Auxiliary terminal box in cast-iron design Q75
with "undrilled" removable cable gland
plate – not in combination with K53
(Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Auxiliary terminal box in cast-iron design Q76
with removable cable gland plate "drilled
with metric thread and sealed with metal
plug" – not in combination with K53
(Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Cable outlet radially without terminal box W38
with 1 m free cable length (4- or 7-core)
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Additional price for each additional meter W39
of cable – only in combination with W38
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Connection cable for accessories –
only in combination with W38, length
as power cable
W40
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Additional separately supplied terminal
box made of cast-iron with baseplate –
main terminal box certified acc. to Ex e
W41
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Cable entry from DE
K83


















Cable entry from NDE
K84


















Rotation of the terminal box by 180°
K85


















Vibration quantity level A – IEC 60034-14 K01


















Vibration quantity level B – IEC 60034-14 K02
– for converter-fed operation only at
lowest and highest speed of speed
range
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft and flange with increased accuracy K04
according to DIN 42955-R
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Radial sealing ring at DE for horizontal
flange-mounting types (oil-tight)
K17
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. –
–
–
–
Radial sealing ring at DE for vertical
flange-mounting types (oil-tight)
W43
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. –
–
–
–
Labyrinth sealing for external bearing
seal
W44
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓




Bearing for increased cantilever forces
(roller bearing DE) with regreasing
device – comprising K40
K20
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Bearings for increased axial forces
V20
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Regreasing device DE/NDE
K40
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓



2/62
Siemens D 83.1 · 2014



© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
Bearing insulation NDE for roller
bearings – binding for frame sizes 315
to 500 for converter-fed operation
L27
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft grounding device – up to -20 °C
only
V36
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Located bearing DE
K94


















Located bearing NDE
L04
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. –
–
–
–
Pt100 bearing in tolerance class A
with calibration certificate – only in
combination with Q44
V76
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing ventilation at DE for lower
bearing temperature for roller bearing
design grease-lubricated
V17
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing insulation at both ends for roller
bearing design motors (DE linked to
ground) – for horizontal mounting only
(vertical mounting on request)
V18
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Grease extractors for DE and NDE
V21
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Automatic grease lubricator at DE and
NDE (permissible temperature range
from -15 to +50 °C)
V22
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Enlarged spent grease chamber at
DE and NDE
V25
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
External grounding (additionally)
W46
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
VIK design – including W14, W69
K30
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
✓
✓
–
–
LOHER CHEMSTAR Plus design,
including VIK design – including K30,
K51, W14, W69 and IP66 bearing seal,
vibration quantity level as grade B
W09
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
Second rating plate, supplied loose
K31
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Second rating plate installed in terminal
box
W47
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Y80 • and

Extra rating plate stamped with data
identification
for converter-fed operation – data for
code
quadratic torque in speed range 1:10
and constant torque in speed ranges 1:3
and 1:10













–
–
–
–
Extra rating plate for customer data
(each plate) – data must be specified
as text in the order
Y82 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Rating plates made of stainless steel
W48
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Rating plates in languages other than
W49
English or German – main rating plate or
extra rating plates O. R. factory clarification required
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Additional measures for 2 to 4 years
storage in accordance with storage
regulations
W50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater 230 V
K45
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
✓
✓
✓
✓
Anti-condensation heater 115 V
K46
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
✓
✓
✓
✓
Anti-condensation heater, 110 to 120 V
(min. 100 V, max. 132 V) – preferred
M12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater, 210 to 250 V
(min. 200 V, max. 264 V) – preferred
M13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater rated voltage
range 110 to 120 V (min. 100 V,
max. 132 V) Ex e II T3
M14
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Siemens D 83.1 · 2014
2/63
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Anti-condensation heater rated voltage
range 220 to 240 V (min. 200 V,
max. 264 V) Ex e II T3
M15
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Heater in main terminal box
P84
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Second standard shaft extension –
for 100 % torque; VARIO 50 % torque
K16
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Second shaft extension for IM B3 up to
100 % torque; cylindrical with feather
key
Q21
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Non-standard cylindrical shaft extension Y55 • and
✓
(standard diameter or smaller) – in case identification
of significantly different diameters,
code
especially high-pole motors due to the
maximum permissible torque stress,
factory clarification required
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft of material 1.7225
W51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Shaft of material 1.4021
W52
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. –
–
–
–
Shaft end of stainless steel butt-welded
(material 1.4571)
W53
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. –
–
–
–
Shaft made of special steel – for
increased torque loading, e.g.
1.7225-42CrMo4
L72
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Welded standard stator housing for
surface-cooled motors – factory
clarification required because of
possible dimension deviations
W54
–
–
–
–
O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓




Welded copper bar rotors
W55
–
–
–
–
–
O. R. ✓
✓
✓
✓
✓
✓
✓
✓




Special rotors for heavy duty starting
(e.g. double-cage rotor or brass rotor) –
testing needed
Q22
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Generator design (asynchronous) with
1.8 times runaway speed – only 4-pole
and higher
W56
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. –
–
–
–
IP56 degree of protection
K51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓




IP65 degree of protection
K50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IP66 degree of protection
L94
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Increased tropicalization, humidity
≥ 80 % – LOHER CHEMSTAR incl. V10
and W71, LOHER VARIO incl. V10 and
P45
W61
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Tropical design for outdoor onshore
installation
L28
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Design without fan and fan cover –
motor mounted in air stream. Without
external air stream cooling, factory
clarification required due to derating
W62
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Fan with plastic coating in case of
metal fan
W63
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Fan of aluminum
W64
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. 
–
–
–
–
–
Fan of steel
W65
O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓





External fan of brass
W66
O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
External fan of stainless steel
V94
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2/64
Siemens D 83.1 · 2014
–
–
–
–
–
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
–
–
–
Special mechanical designs (continued)
Special ventilation for on-deck motors
W67
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Fan cover of steel sheet (3 mm thick)
W68
O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Galvanized fan cover – included in K30
and W09
W69
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
✓
✓
O. R. O. R.
Noise class 3 for clockwise direction of
rotation viewed onto DE – for 2-pole
motors only
K37
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
Noise class 3 for counter-clockwise
direction of rotation viewed onto DE –
for 2-pole motors only
K38
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
Clockwise – direction of rotation must
be specified for motors of FS 355 and
above 2-/4-pole
K97
–
–
–
–
–
–
–
–
–
–
–
–
–





Counter-clockwise – direction of rotation
must be specified for motors of FS 355
and above 2-/4-pole
K98
–
–
–
–
–
–
–
–
–
–
–
–
–





Noise reduction: Silencer for air inlet
(DW, NMA) – only in combination with
K97 or K98
L20
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
Stainless steel grid for air inlet silencer – L25
only in combination with L20
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Noise cabinet with inspection door –
zinc-galvanized, unpainted – noise
reduction approx. 15 dB(A) for GG1
V32
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Noise cabinet with inspection door –
V4A unpainted – noise reduction
approx. 15 dB(A) for GG1
V35
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Operation in both directions of rotation – K99
FS 355 and above 2-/4-pole on request,
increased noise values and derating


















Higher number of starts (up to 3000 starts Q23
per year)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Full-key balancing
L68
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Support ring for coupling guard
L15
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Fitting of coupling halves (customersupplied, finish-machined and
balanced) – supplied 4 weeks ahead
of testing date
L17
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
Motor mounting material: bolts for
mounting on steel foundation with
shims (V2A), taper pins
L31
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Motor mounting material: T-head bolts,
anchor sleeves and soleplates for
mounting on concrete foundation
L33
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Half-key balancing
L69
–
–
–
–
–
–
–
–
–
–
–
–
–
–




Stainless steel screws and plates
W71
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Stainless steel external bolts
P45
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Ambient temperatures down to -40 °C;
W73
preheating before operation necessary –
factory clarification required regarding
the heating power required, heating via
the winding may be necessary. Installed
heating elements in motor at additional
charge.
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Siemens D 83.1 · 2014
2/65
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Ambient temperatures down to -40 °C;
no preheating before operation
W97
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Ambient temperatures down to -55 °C;
no preheating before operation
W98
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Mounting of rotary pulse encoder,
1024 pulses per revolution -10 to 30 V,
HTL level – explosion-proof version
W96
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Mounting of rotary pulse encoder Ex
version (preferred brand) – 1024 pulses
per revolution -10 to 30 V, HTL level –
explosion-proof version
V72
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Mounting of rotary pulse encoder Ex
version with integrated shaft grounding
(preferred brand) – 1024 pulses per
revolution -10 to 30 V, HTL level –
explosion-proof version; up to 20 °C;
select bearing insulation separately
V77
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Mechanical protection for rotary pulse
encoder – in combination with V72, V77
M68
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Mounted axial forced ventilation –
forced ventilation should preferably be
specified in the 10th position of the
Article No.
G17
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Mounted radial forced ventilation
W81
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. –
–
–
–
Forced ventilation at NDE – for Ex motors V28
– axial forced ventilation
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Backstop for clockwise direction of
rotation viewed onto DE (counter-clockwise blocked) – dimensions may differ
G48
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Backstop for counter-clockwise direction G49
of rotation viewed onto DE (clockwise
blocked)
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Manual mechanical release for standard K82
brake
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
–
–
–
–
Brake supply voltage 400 V AC/50 Hz
C01
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
–
–
–
–
Brake supply voltage 24 V DC
C00
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
–
–
–
–
Tapered shaft extension with shaft nut
T36
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Microswitch for brake – optionally
W83
deselectable if monitoring is implemented
differently
–








–
–
–
–
–
✓
✓
✓
✓
Sun protection shield – fixing parts of
mild steel, cover unpainted stainless
steel for vertical motors
V87
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
Sun protection shield – fixing parts of
mild steel, cover of unpainted stainless
steel for horizontal motors
V99
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
Preparation for SPM bearing monitoring, W84
only M8 drilled hole for measuring
nipple
–
–
–
–
–
✓
✓
✓
✓
2/66
Siemens D 83.1 · 2014
✓
✓
✓
✓
✓
✓
✓
✓
✓
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Q77
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Condensation drain valve (drain and
Q78
breather) for main terminal box – not in
combination with K53 (Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Machined surface on motor foot with
dowel pin holes
Q94
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Base frame for height adaptation of
max. 2 frame sizes difference
Q96
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Adaptation of foot and shaft dimensions
to next higher frame size (no adaptation
of terminal box!)
Q97
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Adaptation of flange dimensions and
drilled holes in flange
Q98
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Preparation for later installation of sun
protection shield
Q99
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
SPM bearing monitoring: Measuring
nipple system 32 – thread M8, DE and
NDE
G50
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shock pulse measurement (SPM), fixed
sensor and distribution box
H05
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
SPM bearing monitoring: Fixed sensor
system 40 – thread M8
W85
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
–
–
–
–
Bearing temperature monitoring with
PTC thermistors at DE/NDE
W86
–
–
–
–
–
–
O. R. O. R. ✓
✓
✓
✓
✓
✓
–
–
–
–
Speed monitoring by inductive proximity A03
switches, Pepperl + Fuchs
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 Pt100 resistance thermometers for
A40
3- or 4-wire connection from terminal box
for roller bearings – 1 × DE and 1 × NDE
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R. ✓
✓
✓
✓
2 Pt100 double resistance thermometers
for 4-wire connection from terminal box
for roller bearings – 1 × DE and 1 × NDE
A42
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
2 dial-type thermometers without
contacts, capillary principle
A70
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 dial-type thermometers with 2 NO
contacts, capillary principle
A71
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing temperature monitoring with
1 × Pt100 per bearing in 2-wire
connection – 2-wire from terminal box
A72
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
–
–
–
–
One dial-type thermometer with 2 contacts, capillary principle – Ex i design
without supply unit!
V89
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Engraved tag plate fixed on terminal box V96
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
4 mm shims, stainless-steel base
(V4A/AISI 316) – not laminated
Q92
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
4 mm shims, brass base – not laminated V31
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special mechanical designs (continued)
Condensation drain valve (drain and
breather) for auxiliary terminal box to
IP55 – not in combination with V43
(Ex d terminal box)
Siemens D 83.1 · 2014
2/67
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
1PS4. . . - . . . . . - . . . . -Z
Frame size
1PS5. . . - . . . . . - . . . . -Z
71
80
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Slotted feet holes
Q95
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Pre-formed coil for LV motors
V01
–
–
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
✓
✓
✓
2 metal test sheets (100 × 150 mm) with
paint layer for special acceptance test
V08
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Impact protection – for built-on devices,
per device
M81
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
"High-speed motors" for speed range
W87
3600 < n ≤ 6000 rpm – only on request;
torque curve and cutoff frequency affect
the design; test with original converter
may be required
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
"High-speed motors" for speed range
> 6000 rpm – only on request; torque
curve and cutoff frequency affect the
design; test with original converter may
be required, ETO option (Engineer To
Order) without order code
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
Retrofit (description of special design
separately) – adaptation to an existing
motor
B15
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Extension of the liability for defects by
12 months to a total of 24 months from
delivery
Q80
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
18 months to a total of 30 months from
delivery
Q81
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
24 months to a total of 36 months from
delivery
Q82
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
30 months to a total of 42 months from
delivery
Q83
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
36 months to a total of 48 months from
delivery
Q84
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
48 months to a total of 60 months from
delivery
Q85
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects


Standard version
Without additional charge
•
This order code only determines the price of the version –
Additional plain text is required.
✓
With additional charge
O. R. Possible on request
–
Not possible
1)
Coding in 8th position of the article number, for
LOHER CHEMSTAR = 2.
2/68
Siemens D 83.1 · 2014
2)
Acceptance tests must be selected additionally. For example, for the first
motor select F83 or F93, and for each additional motor F01. Inclusive of
costs for certification authority and inspector, and shaft test if specified by
certification authority. LOHER CHEMSTAR for essential drive is possible on
request as an ETO option (Engineer To Order) without an option code.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Dimensions for frame sizes 71 B to 250 M
■ Dimensional drawings
Type of construction IM B3
For flange dimensions, see Page 2/75.
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
EA
HD
FA
DA
2
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
AA
DC
A
AB
EE
B
BB
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/75.
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER CHEMSTAR
71 B
2 … 16
112
30
140
148
–
138
69
90
30
125
10
45
71
10
271
7
345
80 B
2 … 16
125
35
160
168
–
138
69
100
35
130
13
50
80
10
289
10
358
90 L
2 … 16
140
40
180
186
–
138
69
125
40
155
15
56
90
13
303
10
426
100 L
2 … 16
160
45
205
213
–
138
69
140
45
170
15
63
100
18
327
12
482
112 M
2 … 16
190
50
240
237
–
138
69
140
60
170
15
70
112
18
352
12
465
132 S
2 … 16
216
50
260
278
274
186
92
140
88
228
25
89
132
18
406
12
574
132 M
2 … 16
216
50
260
278
274
186
92
178
88
228
25
89
132
18
406
12
574
160 M
2 … 16
254
60
310
331
304
186
92
210
61
307
21
108
160
27
465
15
786
160 L
2 … 16
254
60
310
331
304
186
92
254
61
307
21
108
160
27
465
15
786
180 M
2 … 16
279
70
349
363
349
254
123
241
99
359
24
121
180
19
529
15
822
180 L
2 … 16
279
70
349
363
349
254
123
279
99
359
24
121
180
19
529
15
822
200 L
2 … 16
318
80
400
402
367
254
123
305
120
425
32
133
200
25
569
19
884
225 S
2
4 … 16
356
90
446
451
384
254
123
286
136
438
34
149
225
26
609
19
966
996
225 M
2
4 … 16
356
90
446
451
384
254
123
311
136
438
34
149
225
26
609
19
966
996
250 M
2
4 … 16
406
100
505
490
522
382
176
349
110
420
36
168
250
35
772
25
1028
Siemens D 83.1 · 2014
2/69
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Dimensions for frame sizes 71 B to 250 M
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/75.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
2
AD'
AD
AG
AS
LA
EA
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/75.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
M
GA
GC
ZxS
DB
Frame size
No. of poles
EC
ED
DC
EE
Dimension designation acc. to IEC
DE shaft extension
LC
LE
LF
LL
D
DB
E
EB
ED
F
GA
NDE shaft extension
DA
DC
EA
EC
EE
FA
GC
LOHER CHEMSTAR
71 B
2 … 16
385
135
377
138
14
M5
30
22
4
5
16
14
M5
30
22
4
5
16
80 B
2 … 16
408
158
391
138
19
M6
40
32
4
6
21.5 19
M6
40
32
4
6
22
90 L
2 … 16
486
173
459
138
24
M8
50
40
5
8
27
24
M8
50
40
5
8
27
100 L
2 … 16
552
205
520
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
112 M
2 … 16
535
210
505
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
132 S
2 … 16
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
132 M
2 … 16
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
160 M
2 … 16
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
160 L
2 … 16
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
180 M
2 … 16
942
415
912
246
48
M16 110
100
5
14
51.5 48
M16 110
100
5
14
52
180 L
2 … 16
942
415
912
246
48
M16 110
100
5
14
51.6 48
M16 110
100
5
14
52
200 L
2 … 16
1004 460
974
246
55
M20 110
100
5
16
59
55
M20 110
100
5
16
59
225 S
2
4 … 16
1086 480
1146 510
1062 246
1092
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
225 M
2
4 … 16
1086 480
1146 510
1062 246
1092
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
250 M
2
4 … 16
1178 496
1140 354
60
65
M20 140
125
7.5
18
64
69
60
65
M20 140
125
7.5
18
64
69
2/70
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Dimensions for frame sizes 280 S to 355 M
■ Dimensional drawings (continued)
Type of construction IM B3
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
EA
HD
FA
DA
2
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
AA
DC
A
AB
EE
B
BB
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/75.
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER CHEMSTAR
280 S
2
4 … 16
457
110
570
550
552
382
176
368
150
520
51
190
280
40
832
25
1119
280 M
2
4 … 16
457
110
570
550
552
382
176
419
150
520
51
190
280
40
832
25
1119
315 S
2
4 … 16
508
125
630
622
660
509
196
406
165
575
59
216
315
40
975
28
1304
1334
315 M
2
4 … 16
508
125
630
622
660
509
196
457
165
575
59
216
315
40
975
28
1304
1334
315 LL
2
4 … 16
508
125
630
622
676
509
196
508
165
575
59
216
315
40
991
28
1491
1521
315 L
2
4 … 16
508
125
630
622
676
509
196
560
165
575
59
216
315
40
991
28
1491
1521
355 M
2
4, 6
630
150
780
734
–
509
196
800
220
980
90
254
355
35
1182 35
1781
1840
Siemens D 83.1 · 2014
2/71
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Dimensions for frame sizes 280 S to 355 M
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/75.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
2
AD'
AD
AG
AS
LA
EA
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/75.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
GA
M
GC
ZxS
DB
Frame size
No. of poles
EC
ED
DC
EE
Dimension designation acc. to IEC
DE shaft extension
LC
LE
LF
LL
D
DB
E
NDE shaft extension
EB
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER CHEMSTAR
280 S
2
4 … 16
1269
582
1231
354
65
75
M20 140
125
7.5
18
20
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
280 M
2
4 … 16
1269
582
1231
354
65
75
M20 140
125
7.5
18
20
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
315 S
2
4 … 16
1494
1554
630
660
1422
1452
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
65
79.5 80
M20 140
170
125
140
7.5
15
18
22
69
80
315 M
2
4 … 16
1494
1554
630
660
1422
1452
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
315 LL
2
4 … 16
1694
1741
630
660
1609
1639
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
315 L
2
4 … 16
1694
1741
630
660
1609
1639
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
355 M
2
4 … 16
1986
2115
793
863
1947
2006
401
401
75
100
M20 140
M24 210
125
180
7.5
15
20
28
79.5 75
106 75
M20 140
M20 140
125
125
7.5
7.5
20
20
80
79.5
2/72
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Dimensions for frame sizes 355 L to 500 L
■ Dimensional drawings (continued)
Type of construction IM B3
Design of terminal box and position for LOHER VARIO
G_D083_EN_00062
L (2 pole)
L (4-pole to 16-pole)
LE
LL
AD'
AD'
DB
EB
ED
E
BA
ØK
AA
C
BC
HD'
HB
HD
H
HA
HB'
GA
HB'
AC
D
F
HD'
2
A
AB
B
BB
AF
AF
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/75.
Design of terminal box and position for LOHER VARIO
G_D083_XX_00058
LC
LF
L
LE
AG
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
AS
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AF
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER VARIO
355 LB
2
4 … 16
610
120
700
698
630
150
720
254
355
30
1062 28
1870
1775
355 LC/LD
2
4 … 16
610
120
700
698
800
150
890
254
355
30
1062 28
1950
1855
355 L
2
4 … 16
630
140
780
740
511
800
210
950
254
355
35
1240 33
2016
1900
400 L
2
4 … 16
710
185
860
820
511
900
210
1090
280
400
30
1305 33
2131
2025
450 L
2
4 … 16
800
230
900
920
511
1000 260
1260
315
450
30
1430 39
2251
2180
500 L
2
4 … 16
900
220
1030 1015
511
1120 280
1400
335
500
40
1530 39
2421
2375
Siemens D 83.1 · 2014
2/73
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Dimensions for frame sizes 355 L to 500 L
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/75.
Design of terminal box and position for LOHER VARIO
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
2
AD'
AD
AG
AS
LA
EA
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/75.
Design of terminal box and position for LOHER VARIO
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
GA
M
GC
ZxS
DB
Frame size
No. of poles
EC
ED
DC
EE
Dimension designation acc. to IEC
DE shaft extension
LC
D
DB
LE
LF
LL
E
NDE shaft extension
EB
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER VARIO
355 LB
2
4 … 16
779
809
1870
1935
75
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5 75
95
90
M20 140
M24 170
125
140
7.5
15
20
25
80
95
355 LC/LD
2
4 … 16
779
809
1950
2015
75
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5 75
95
90
M20 140
M24 170
125
140
7.5
15
20
25
80
95
355 L
2
4 … 16
750
780
2016
2066
75
90
M20 170
M24 210
125
140
7.5
15
20
25
79.5 75
95
90
M20 170
M24 210
125
140
7.5
15
20
25
80
95
400 L
2
4 … 16
780
820
2131
2191
80
100
M20 170
M24 210
140
180
15
22
28
85
106
80
100
M20 170
M24 210
140
180
15
22
28
85
106
450 L
2
4 … 16
780
820
2251
2346
85
110
M20 170
M24 210
140
180
15
22
28
90
116
85
110
M20 170
M24 210
140
180
15
22
28
90
116
500 L
2
4 … 16
780
820
2421
2541
90
120
M24 170
210
140
180
15
25
32
95
127
90
120
M24 170
210
140
180
15
25
32
95
127
2/74
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Flange dimensions
■ Dimensional drawings
In EN 50347, the frame sizes
are allocated flange FF with
through holes and flange FT
with tapped holes.
(Z = the number of retaining
holes)
G_D083_XX_00064
P
N
G_D083_XX_00063
E
T
M
2
ZxS
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
Selectable flange
LA
E
M
N
P
S
T
Z
FF130
10
30
130
110
160
9.5
3.5
4
FT85
15
30
85
70
105
M6
2.5
4
FT115 1)
15
–
115
95
140
M8
3
4
FT100 1)
15
–
100
80
120
M6
3
4
FT130 1)
15
–
130
110
160
M8
3.5
4
FF165
10
40
165
130
200
11.5
3.5
4
FT100
15
40
100
80
120
M6
3
4
FT130 1)
10
–
130
110
160
M8
3.5
4
FT85 1)
15
–
85
70
105
M6
2.5
4
4
LOHER CHEMSTAR
71 B
80 B
2 … 16
2 … 16
FT115
90 L
100 L
112 M
2 … 16
2 … 16
2 … 16
1)
15
–
115
95
140
M8
3
FF165
10
50
165
130
200
11.5
3.5
4
FT115
10
50
115
95
140
M8
3
4
FT130 1)
13.5
–
130
110
160
M8
3.5
4
FT110 1)
13.5
–
110
80
140
M6
3
4
FF215
11
60
215
180
250
14
4
4
FT130
10
60
130
110
160
M8
3.5
4
FT115 1)
10
–
115
95
140
M8
3
4
FT165 1)
12
–
165
130
200
M10
3.5
4
FF215
11
60
215
180
250
14
4
4
FT130
10
60
130
110
160
M8
3.5
4
FT165 1)
12
165
130
200
M10
3.5
4
132 S
2 … 16
FF265
12
80
265
230
300
14
4
4
132 M
2 … 16
FF265
12
80
265
230
300
14
4
4
160 M
2 … 16
FF300
20
110
300
250
350
18
5
4
160 L
2 … 16
FF300
20
110
300
250
350
18
5
4
180 M
2 … 16
FF300
16
110
300
250
350
18
5
4
180 L
2 … 16
FF300
16
110
300
250
350
18
5
4
200 L
2 … 16
FF350
20
110
350
300
400
18
5
8
225 S
2
FF400
16
110
400
350
450
18
5
8
4 … 16
225 M
2
140
FF500 1)
22
–
500
450
550
18
5
8
FF400
16
110
400
350
450
18
5
8
FF500 1)
22
–
500
450
550
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
16
–
400
350
450
18
5
8
FF600 1)
22
–
600
550
660
22
6
8
4 … 16
250 M
1)
2 … 16
140
Flange is selectable at no additional cost.
Siemens D 83.1 · 2014
2/75
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS4 and 1PS5 motor series
Flange dimensions
■ Dimensional drawings (continued)
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
Selectable flange
LA
E
M
N
P
S
T
Z
LOHER CHEMSTAR (continued)
280 S
2 … 16
18
140
500
450
550
18
5
8
1)
16
–
400
350
450
18
5
8
FF600 1)
22
–
600
550
660
22
6
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
16
–
400
350
450
18
5
8
FF600 1)
22
–
600
550
660
22
6
8
FF600
22
140
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
170
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
140
600
550
660
24
6
8
FF500 1)
22
500
450
550
18.5
5
8
FF600
22
170
600
550
660
24
6
8
500
450
550
18.5
5
8
140
600
550
660
24
6
8
740
680
800
24
6
8
600
550
660
24
6
8
740
680
800
24
6
8
140
600
550
660
24
6
8
740
680
800
24
6
8
170
600
550
660
24
6
8
740
680
800
24
6
8
FF500
FF400
2
280 M
315 S
2 … 16
2
4 … 16
315 M
2
4 … 16
FF500
315 LL
2
4 … 16
315 L
2
355 M
2
4 … 16
22
FF600
22
FF740 1)
25
FF600
22
FF740 1)
25
FF600
22
FF740
4 … 16
1)
1)
170
25
FF600
22
FF740 1)
25
FF740
25
140
210
740
680
800
24
6
8
LOHER VARIO
355 LB
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
355 LC/LD
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
355 L
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
400 L
2
4 … 16
FF940
28
170
210
940
880
1000
24
6
8
450 L
2
4 … 16
FF1080
30
170
210
1080
1000
1150
28
6
8
500 L
2
4 … 16
FF1180
30
170
210
1180
1120
1250
28
7
8
1)
Flange is selectable at no additional cost.
2/76
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
General information
■ Technical specifications
LOHER CHEMSTAR and VARIO 1PS1 motor series,
type of protection "Non-sparking"
General technical specifications
The LOHER CHEMSTAR and VARIO motors of the 1PS1 series
are fully-enclosed, surface-cooled motors in the "Non-sparking"
type of protection Ex nA II. In these motors, the type of construction prevents the occurrence of arcing, sparks or hot surfaces
during normal operation, ensuring that the required level of
safety is maintained. The CHEMSTAR motors can be designed
in accordance with the applicable VIK specifications ("Verband
der Industriellen Energie- und Kraftwirtschaft e. V.", the Association of the Industrial Energy and Power Industry).
Motor type
A..K
Frame size
90 … 500
Outputs
0.25 … 1120 kW
Temperature class
T3
Type of protection
II 3G Ex nA IIC Gc IEC/EN 60079-15
Ex Zones
Gas Zone 2 optional, Dust Zone 22/21
Guidelines
94/9/EC (ATEX 95)
Cooling
Surface-cooled, water-jacket-cooled
on request
No. of poles
2 … 12-pole, multi-pole + pole-changing
versions on request
Voltage/frequency
All common voltages, and in 50 Hz and
60 Hz special designs on request
Degree of protection
IP55 to IP68
Type of construction
All common types of construction +
special types of construction
The motors are assigned to device group II – category 3G
(corresponding to Zone 2) and are approved and optimized
for use in hazardous areas of Zone 2 in accordance with
EN 60079-0 and EN 60079-15. The motors are marked according to EN 60079-15 with II 3G Ex nA IIC Gc for use in Zone 2.
LOHER CHEMSTAR and VARIO 1PS1 motors
Housing
Cast-iron or steel
Insulation
Class F utilized according to B
Special versions
• For outdoor temperatures -55 to +60 °C
(other temperatures on request)
• Site altitude up to 3000 m (> 3000 m on request)
• Modified windings, for example, for increased ambient temperatures,
site altitude for optimum electrical values
• Permanent load S1 as well as partial load operation, e.g. S2/S3/S6
• Drive-end located bearing; special bearing for increased axial/
radial forces
• Large electrical variance, such as reduced starting current,
modified torque curve, star-delta start-up, etc.
• CHEMSTAR: copper rotor as an option
• Metal fan in aluminum, steel or brass
• Monitoring devices such as Pt100, PTC, KTY winding/bearing,
vibration monitoring, etc.
• Country-specific certificates such as EAC (Eurasian Customs Union),
NEPSI (China), China Energy Label, CCOE (India), IECEX (international)
• Version for offshore, on-deck and/or marine classifications
• Combination with brakes + encoder + forced ventilation
• Enlarged connection system and/or larger terminal box for large
cable cross-sections
Siemens D 83.1 · 2014
2/77
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
General information
■ Technical specifications (continued)
Mechanical design
G_D083_XX_00075
G_D083_XX_00076
2
Sectional view of CHEMSTAR 1PS1 three-phase motor,
frame sizes 225 to 355
with regreasing device (frame size 315 and above)
Example: 1PS1316-0BD0.-0AA3 (motor type: ANGK-315LL-02)
200 kW, 2-pole
G_D083_XX_00071
Sectional view of CHEMSTAR 1PS1 three-phase motor,
frame sizes 90 to 200 LB
Example: 1PS1131-0BD0.-0AA3 (motor type: ANGK-132SR-02)
7.5 kW, 2-pole
Sectional view of VARIO three-phase motor, frame sizes 355 to 500,
with regreasing device
Example: 1PS1357-0BH0.-0AA2 (motor type: ANSK-355LC-02)
355 kW, 2-pole
Housing, ventilation
Housing and fan for motors of the LOHER CHEMSTAR and VARIO 1PS1 series
Frame size
Housing
Material
Bearing plates
Fan cover
Fan 2)
Design of
housing feet 1)
Surface
Material
Material
Material
Cast
With cooling fins
Cast-iron
Sheet steel
Plastic
LOHER CHEMSTAR
90 … 160
Cast-iron
180 ... 280
Screwed on
315
Aluminum
355
Cast
Steel
LOHER VARIO
355 … 450
Steel
Welded
With cooling fins
500 3)
Sheet steel
Steel
Steel, bearing hub
in cast-iron
1)
For designs with feet only.
2)
For specific operating conditions, the external fans can be constructed
in aluminum for frame sizes 71 to 225 and in sheet steel for frame sizes
250 to 315. This applies in the case of increased coolant temperature in
particular. The cooling air flow from NDE to DE must not be obstructed.
The intake area in front of the fan cover must not be obstructed.
2/78
Cast-iron
Siemens D 83.1 · 2014
3)
Suitable for both directions of rotation, but LOHER VARIO 2- and 4-pole are
only suitable for one direction of rotation.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
General information
■ Technical specifications (continued)
Terminal boxes
The installed terminal boxes are also marked and certified as
"Non-sparking". Ex nA terminal boxes of the CHEMSTAR and
VARIO series are identical in construction to the Ex e "Increased
safety" connection system. In accordance with the current, harmonized edition, EN 60079-0 Edition 2009, the gas for the type of protection Ex test must be specified in the case of type of protection
"Non-sparking". The CHEMSTAR and VARIO series are generally
certified for the highest class as per "IIC". They are marked in
accordance with the EC directive (94/9/EC) with II 3G Ex nA IIC T3
Gc. Compliance with the regulations is documented here with an
EC Declaration of Conformity.
The terminal boxes comply with type of protection "Increased
safety" Ex e II. The housings are made of cast-iron and designed
to IP55 degree of protection in accordance with EN 60034-5. The
terminals are therefore protected from touch, dust deposits and
water jets from any direction.
Monitoring devices or anti-condensation heaters are connected
via auxiliary terminals in the terminal box. In frame size 132 and
above, the auxiliary terminals can be installed in an auxiliary
terminal box that is mounted on the side of the terminal box
corresponding to the type of protection of the motor. The design
of the terminal boxes can be seen in the schematic diagrams.
The number and size of the main and auxiliary terminals as well
as their characteristic data can be obtained from the tables
below.
Figure 2 Terminal box for LOHER CHEMSTAR frame sizes 132 to 225
G_D083_XX_00096
G_D083_XX_00095
Figure 1 Terminal box for LOHER CHEMSTAR frame sizes 90 to 112
The position of the terminal box and cable entries can be
obtained from the tables below. Terminal boxes can be rotated
by 90° which allows the incoming supply cable to be fed in from
different sides.
No auxiliary terminal boxes Ex e (W72, M52) are possible.
Figure 4 Terminal box for LOHER CHEMSTAR frame sizes 315 to 355
G_D083_XX_00098
G_D083_XX_00097
Figure 3 Terminal box for LOHER CHEMSTAR frame sizes 250 to 280
Frame sizes 132 to 160, 1 auxiliary terminal box Ex e (W72, M52)
is possible, frame sizes 180 to 225, 2 auxiliary terminal boxes Ex e
(W72, M52) are possible.
3 auxiliary terminal boxes Ex e (W72, M52) are possible.
For motors of type series 1PS1 CHEMSTAR and VARIO, the
terminal pins are fitted with round terminals in accordance with
DIN 46223.
25
Figure 5 Terminal box for LOHER VARIO frame sizes 355 to 500
3 auxiliary terminal boxes Ex e (W72, M52) are possible.
G_D083_XX_00072
With the VARIO connection system, the auxiliary terminal boxes
(max. 3) are mounted on the housing.
Siemens D 83.1 · 2014
2/79
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
General information
■ Technical specifications (continued)
Terminal box for 1PS1 motors
Degree of protection: IP55
Type of protection:
Ex e II, acc. to EN 60079-7
Housing material:
Cast-iron
Frame size
Standard terminal box
Terminal
studs
2
Enlarged terminal box – Option L00
Conductor
cross-section
Auxiliary terminals in
main terminal box
PE/ground
connection
min.
Number ×
max. cross-section 1)
max.
mm2
mm2
4 × 2.5
4
max.
mm2 mm2
Fig. No.
on Page
2/79
Terminal
studs
Conductor
cross-section
min.
max.
mm2
mm2
Fig. No.
on Page
2/79
LOHER CHEMSTAR
6 × M4
1
2.5 (6) 2)
6 × M5
1
10 (25) 2)
6 x M6
2.5
35 (50) 2) 12 × 4
6 × M10
6 … 70
315 S/M
6 × M12
16 … 150
315 L
6 × M16/M20 3)
16 … 300
90
6 2)
Fig. 1
6 × M5
1
10 (25) 2) Fig. 2
25
Fig. 2
6 x M6
2.5
35 (50) 2) Fig. 2
70
Fig. 2
6 × M10
6
70
Fig. 3
95
Fig. 3
6 × M12
16
150
Fig. 4
150
Fig. 4
6 × M16
16
300
Fig. 4
100
112
132
160
180
200
225
250
280
16 × 4
Special connection system on request
LOHER VARIO
355 … 500
Fig. 5
Number and size of entry thread and cable glands (to be ordered specially), see table "Cable glands for 1PS1 motors".
Cable glands for 1PS1 motors
Standard cable glands 4)
Frame size
Entry thread
6)
Max. entry thread 5)
Cable diameter, type HSK-K
7)
Metric
NPT 8)
mm
LOHER CHEMSTAR
90
1 × M25 × 1.5
9 … 16
1 × M25 × 1.5
1 × 1"
100
1 × M32 × 1.5
13 … 20
1 × M32 × 1.5
2 × 1"
112
2 × M32 × 1.5
2 × M32 × 1.5
132
160
2 × M40 × 1.5
22 … 32
2 × M50 × 1.5
32 … 38
2 × M63 × 1.5
37 … 44
180
200
2 × M40 × 1.5
2 × 11/2"
2 × M63 × 1.5
2 × 2"
2 × M100 × 1.5
2 × 31/2"
9)
9)
225
250
280
315 S/M
315 L
355
LOHER VARIO
355 … 500
9)
9)
Entry thread for PTC thermistor, heating: M20 × 1.5/D = 6 up to 12 mm
The entry threads are sealed on delivery with certified plugs.
The terminal boxes will only be supplied with cable glands in accordance with the table if specially ordered.
Special cable glands can be fitted on request.
1)
Rated voltage / max. working voltage 400 V/440 V
6)
Number and size of entry threads according to DIN 42925.
2)
Maximum conductor cross-section with cable lug.
7)
3)
Alternatively, larger studs for higher rated current.
Cable glands suitable for the infeed of unshielded/non-reinforced cables
and leads.
4)
Materials used for standard gland: polyamide
8)
Cable glands for NPT thread on request.
5)
Other threads, number and size on request.
9)
Undrilled gland plate.
2/80
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
General information
■ Technical specifications (continued)
Electrical design
The outputs and electrical values listed in the selection tables
can be changed by modifying the configurations. For example,
if a copper cage rotor is used in place of a die-cast aluminum
rotor, an even higher degree of efficiency can be achieved.
The insulation system of this motor series is suitable for line
voltages up to 1000 V. The connection system (terminal boxes,
terminals) is designed for rated voltages up to 1000 V, including
frame size 355 for CHEMSTAR motors.
The motors are equipped with 6 terminals. They can be operated
in star or delta. The standard connection for all 400 V motors is
delta connection. They are therefore suitable for 400 VΔ/690 VY
and for Y-Δ starting at 400 V. The 500 V motors are available both
for 500 VY and for 500 VΔ, provided that one of the two variants
is not preferred for winding reasons.
Motors of the 1PS1 series are wound in accordance with temperature class F (155 °C). Normally, they are only utilized according
to Class B (130 °C). Exceptions are indicated in the selection
and ordering data. In accordance with EN 60034-1, in addition
to the temperature class, the thermal utilization is also stamped
on the rating plate if this value lies below that of the temperature
class. The motors of this series are therefore stamped with
"F – B", and those indicated are stamped with "F".
Operation on a frequency converter
General use of "Overcoat" double-layer enameled wires and
optimized impregnation techniques ensures that most motors in
this series can be converter-fed without modification of the electrical design. The standard requires that the motor manufacturer
conducts an initial type test using the original converter. Converter-fed motors of the 1PS1 series are fitted with PTC thermistors (CHEMSTAR) or Pt100 (VARIO). These temperature sensors
in combination with a trip unit certified by the German Federal
Testing Laboratory perform sole temperature monitoring in the
case of converter-fed operation. Motor circuit breakers can be
dispensed with. PTC thermistors with a rated shutdown temperature of 145 °C ("KL145") are normally used. Other PTC thermistors can also be installed in the motor, e.g. prewarning sensors.
Acceptance testing of explosion-proof motors of
type of protection Ex nA II T
For dimensioning and for acceptance testing, with regard to the
heat rise of all parts of the machine, the most unfavorable value is
used. Motors of the 1PS1 series are certified for temperature class
T3. None of the components, even those inside the housing
(e.g. rotor cage winding), are permitted to exceed a temperature
of 200 °C. The winding temperature is limited by the temperature
class (e.g. "F": 145 °C). The reason for the above-mentioned initial
test on the original converter is normally to establish compliance
with the temperature limits for the motor with type of protection
Ex nA II T.
Special cases "blocked shaft" and "starting":
Type of protection Ex nA II T excludes these two special cases.
Limit temperatures are permitted here that do not take into
account the temperature class. Even though "blocked shaft" and
"starting" are excluded, a motor of the type of protection Ex nA II
T is not permitted to be implemented for heavy starting. These
motors are only permitted to be operated on soft-starting devices under the following conditions:
• The soft-starting device has been function-tested by the
German Federal Testing Laboratory
• A motor circuit breaker must be provided as a minimum of
protection
• The duty type does not give rise to expectations of a
significant increase in temperature as a result of the starting
procedure (e.g. pump drives with a low moment of inertia)
Siemens D 83.1 · 2014
2/81
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrated, size
ted,
ted, class ted,
ted,
ted,
50 Hz
2
50 Hz
50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
4/4
400 V 500 V 690 V
ted
Article No.
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR
1.5 090 L 2865 5.00 IE2 84.0 85.1 84.3 0.88 2.90 2.32 1.68 3.0 6.8 2.8 ANGK-090LR-02
1PS1095-■BD■■-3AA3 36 0.0020
2.2 090 L 2850 7.4 IE2 84.6 85.6 85.1 0.86 4.4 3.52 2.55 3.0 6.5 3.0 ANGK-090LS-02
1PS1098-■BD■■-3AA3 36 0.0020
1PS1106-■BD■■-3AA3 51 0.0041
3
100 L 2900 9.9 IE2 86.0 86.3 85.8 0.87 5.8 4.6 3.36 2.7 7.5 3.0 ANGK-100LS-02
4
112 M 2890 13.2 IE2 86.5 86.8 86.8 0.93 7.2 5.8 4.2 2.7 7.0 3.1 ANGK-112MS-02 1PS1113-■BD■■-3AA3 66 0.0075
5.5 132 S 2910 18.0 IE2 88.5 89.9 89.2 0.90 10.0 8.0 5.8 2.6 6.7 3.1 ANGK-132SR-02
1PS1131-■BD■■-3AA3 83 0.014
1PS1132-■BD■■-3AA3 95 0.020
7.5 132 S 2915 24.6 IE2 89.5 90.1 89.5 0.91 13.3 10.6 7.7 2.7 6.8 3.0 ANGK-132SS-02
11 160 M 2930 36 IE2 90.7 91.0 90.0 0.90 19.5 15.6 11.3 2.1 7.5 2.8 ANGK-160MR-02 1PS1163-■BD■■-3AA3 176 0.045
15 160 M 2925 48 IE2 91.3 92.1 91.9 0.89 26.5 21.5 15.4 2.1 7.0 2.8 ANGK-160MS-02 1PS1165-■BD■■-3AA3 176 0.092
18.5 160 L 2925 60 IE2 91.4 92.2 91.9 0.89 33.0 26.5 19.0 2.1 7.0 2.8 ANGK-160LS-02
1PS1166-■BD■■-3AA3 192 0.092
22 180 M 2960 71 IE2 92.5 93.0 92.8 0.90 38.0 30.5 22.0 2.2 6.8 2.9 ANGK-180MS-02 1PS1183-■BD■■-3AA3 246 0.16
30 200 L 2960 97 IE2 92.0 92.3 91.7 0.87 54.0 43.5 31.5 2.5 6.9 3.3 ANGK-200LR-02
1PS1206-■BD■■-3AA3 333 0.20
37 200 L 2960 119 IE2 92.5 92.8 92.3 0.88 66.0 52.0 38.0 2.7 7.4 3.5 ANGK-200LS-02
1PS1208-■BD■■-3AA3 349 0.23
45 225 M 2965 145 IE2 92.9 93.1 92.5 0.88 79.0 64.0 46.0 2.3 7.8 2.6 ANGK-225MS-02 1PS1223-■BD■■-3AA3 420 0.34
55 250 M 2975 177 IE2 93.8 93.9 93.2 0.86 98.0 79.0 57 2.1 8
2.9 ANGK-250MM-02 1PS1253-■BD■■-3AA3 540 0.45
75 280 S 2980 240 IE2 94.4 93.9 92.4 0.89 129 103 75 2.1 7.3 3.0 ANGK-280SL-02
1PS1280-■BD■■-3AA3 775 0.88
90 280 M 2980 288 IE2 94.4 94.1 92.6 0.90 153 122 89 2.0 6.3 2.5 ANGK-280MM-02 1PS1283-■BD■■-3AA3 830 1.03
110 315 S 2980 352 IE2 94.8 94.3 92.9 0.88 190 152 110 2.2 6.7 2.5 ANGK-315SL-02
1PS1311-■BD■■-3AA3 960 1.55
132 315 M 2980 423 IE2 95.1 95.0 94.2 0.89 225 180 130 2.0 6.3 2.4 ANGK-315ML-02 1PS1313-■BD■■-3AA3 1020 1.85
160 315 M 2980 513 IE2 95.6 95.6 95.0 0.89 270 215 157 2.3 6.8 2.6 ANGK-315MN-02 1PS1315-■BD■■-3AA3 1100 2.2
200 315 L 2980 641 IE2 95.8 95.8 95.2 0.89 340 270 196 2.6 7.3 2.7 ANGK-315LL-02
1PS1316-■BD■■-3AA3 1310 2.8
250 315 L 2985 800 IE2 95.8 96.1 95.8 0.90 420 335 245 2.6 7.3 2.7 ANGK-315LN-02
1PS1318-■BD■■-3AA3 1450 3.5
1PS1356-■BD■■-3AA3 1580 4.7
315 355 L 2985 1008 IE2 96.1 96.3 96.0 0.89 530 425 310 2.3 7
2.7 ANGK-355LB-02
LOHER VARIO
355 355 L 2983 1136 IE2 96.5 96.5 96.0 0.92 575 460 333 1.20 6.80 2.80 ANSK-355LC-02
1PS1357-■BH■■-3AA0 2100 3.6
400 355 L 2985 1279 1)
96.7 96.7 96.1 0.91 655 525 380 1.40 7.90 3.20 ANSK-355LD-02
1PS1358-■BH■■-3AA0 2200 4.0
450 355 L 2978 1443 1)
96.4 96.5 96.0 0.91 740 590 430 0.95 6.20 2.55 ANSK-355LX-02
1PS1358-■BJ ■■-3AA0 2300 5.0
450 400 L 2984 1440 1)
96.5 96.5 95.9 0.90 745 595 430 0.80 6.20 2.80 ANSK-400LL-02
1PS1404-■BJ ■■-3AA0 2400 6.0
500 400 L 2982 1601 1)
96.6 96.7 96.2 0.91 820 655 475 0.80 5.9 2.55 ANSK-400LN-02
1PS1405-■BJ ■■-3AA0 2600 7.0
560 400 L 2983 1792 1)
96.8 96.8 96.3 0.91 915 730 530 0.85 6.2 2.7 ANSK-400LN-02
1PS1407-■BJ ■■-3AA0 2600 7.0
1)
630 400 L 2984 2016
96.8 96.8 96.3 0.91 –
825 595 0.85 6.2 2.6 ANSK-400LX-02
1PS1408-■BJ ■■-3AA0 2900 8.5
1)
630 450 L 2986 2014
96.7 96.6 96.0 0.91 –
830 600 0.75 6.2 2.7 ANSK-450LL-02
1PS1453-■BJ ■■-3AA0 3500 11.0
1)
710 450 L 2986 2270
96.8 96.8 96.2 0.91 –
925 670 0.80 6.3 2.8 ANSK-450LL-02
1PS1455-■BJ ■■-3AA0 3500 11.0
800 450 L 2986 2557 1)
96.9 96.9 96.3 0.91 –
1050 760 0.80 6.3 2.8 ANSK-450LN-02
1PS1457-■BJ ■■-3AA0 3700 13.0
97.0 97.0 96.5 0.91 –
1170 850 0.85 6.4 2.7 ANSK-450LN-02
1PS1458-■BJ ■■-3AA0 3700 13.0
900 450 L 2985 2879 1)
96.6 96.5 95.6 0.90 –
–
960 0.85 6.4 2.8 ANSK-500LL-02
1PS1507-■BJ ■■-3AA0 6300 24.0
1000 500 L 2986 3198 1)
1200 500 L 2990 3831 1)
96.9 96.8 96.1 0.91 –
–
1135 0.75 6.6 2.8 ANSK-500LN-02
1PS1508-■BJ ■■-3AA0 6300 35.0
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450 (≤ 800 kW)
0
–
Converter-fed operation, standard insulation 2)
90 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 2) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW)... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 2/91
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 400
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2/82
Siemens D 83.1 · 2014
2)
Can only be ordered with additional identification code -Z and order code
M73.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrated, size
ted,
ted, class ted,
ted,
ted,
50 Hz
50 Hz
50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
4/4
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR
1.1 090 L 1460 7.2 IE2 86.4 87.2 86.3 0.85 2.15 1.72 1.25 1.9 6.8 2.8 ANGK-090LR-04
1PS1095-■BD■■-3BA3 34 0.0044
1PS1098-■BD■■-3BA3 37 0.0044
1.5 090 L 1455 9.8 IE2 86.1 86.5 85.2 0.81 3.10 2.48 1.80 1.9 6.7 2.8 ANGK-090LS-04
2.2 100 L 1455 14.4 IE2 87.1 87.8 86.8 0.83 4.4 3.52 2.55 1.7 6.4 2.4 ANGK-100LR-04
1PS1106-■BD■■-3BA3 53 0.0060
3
100 L 1455 19.7 IE2 86.0 86.3 84.7 0.80 6.3 5.0 3.65 2.0 6.3 2.6 ANGK-100LS-04
1PS1108-■BD■■-3BA3 55 0.0071
4
112 M 1460 26.2 IE2 88.8 89.4 88.8 0.84 7.8 6.2 4.5 1.9 6.8 2.5 ANGK-112MS-04 1PS1113-■BD■■-3BA3 66 0.0126
5.5 132 S 1455 36.1 IE2 89.0 89.7 89.2 0.85 10.5 8.4 6.1 2.6 7.6 2.7 ANGK-132SR-04
1PS1131-■BD■■-3BA3 93 0.030
7.5 132 M 1470 48.7 IE2 90.2 90.7 90.1 0.84 14.3 11.4 8.3 2.0 7.6 2.8 ANGK-132MS-04 1PS1133-■BD■■-3BA3 102 0.030
11 160 M 1460 71 IE2 90.5 91.4 91.6 0.81 21.7 16.7 12.1 2.1 6.8 2.6 ANGK-160MR-04 1PS1163-■BD■■-3BA3 176 0.077
15 160 L 1460 98 IE2 90.9 92.0 92.2 0.81 29.4 22.5 16.3 2.1 6.5 2.7 ANGK-160LS-04
1PS1166-■BD■■-3BA3 192 0.098
18.5 180 M 1470 120 IE2 92.3 92.8 92.4 0.83 34.9 27.5 20.0 3.3 7.6 3.0 ANGK-180MR-04 1PS1183-■BD■■-3BA3 246 0.16
22 180 L 1470 143 IE2 91.8 92.3 92.0 0.83 41.7 32.5 23.5 3.0 7.0 2.6 ANGK-180LS-04
1PS1186-■BD■■-3BA3 255 0.16
30 200 L 1470 195 IE2 92.3 93.2 93.4 0.83 56.5 45.0 33.0 1.5 6.0 2.5 ANGK-200LS-04
1PS1206-■BD■■-3BA3 333 0.27
37 225 S 1480 239 IE2 93.5 93.9 93.4 0.81 71.0 52.0 38.0 3.0 7.3 2.9 ANGK-225SR-04
1PS1220-■BD■■-3BA3 415 0.37
45 225 M 1475 291 IE2 93.5 93.9 93.4 0.81 71.0 65.0 47.5 3.0 7.3 2.9 ANGK-225MS-04 1PS1223-■BD■■-3BA3 445 0.37
55 250 M 1480 355 IE2 93.7 94.4 94.4 0.87 97.0 78.0 56.0 2.5 7.7 2.9 ANGK-250MM-04 1PS1253-■BD■■-3BA3 560 0.75
75 280 S 1480 484 IE2 94.4 94.8 95.0 0.84 137 109 79.0 2.4 7.0 2.6 ANGK-280SL-04
1PS1280-■BD■■-3BA3 820 1.3
90 280 M 1480 581 IE2 94.5 94.4 93.5 0.85 162 129 94.0 2.5 7.2 2.7 ANGK-280MM-04 1PS1283-■BD■■-3BA3 870 1.4
1PS1311-■BD■■-3BA3 960 2.2
110 315 S 1485 707 IE2 94.6 94.6 93.5 0.82 205 164 119 2.0 6.6 2.5 ANGK-315SL-04
132 315 M 1485 849 IE2 95.0 95.1 94.5 0.84 240 191 138 2.0 6.4 2.5 ANGK-315ML-04 1PS1313-■BD■■-3BA3 1040 2.9
160 315 M 1485 1029 IE2 95.1 95.3 95.0 0.85 285 230 166 2.1 6.9 2.5 ANGK-315MN-04 1PS1315-■BD■■-3BA3 1120 3.4
200 315 L 1488 1284 IE2 95.2 95.4 95.3 0.85 355 285 205 2.3 6.9 2.5 ANGK-315LL-04
1PS1316-■BD■■-3BA3 1340 3.9
250 315 L 1487 1605 IE2 95.2 95.4 95.2 0.83 455 365 265 2.6 7.5 2.6 ANGK-315LM-04 1PS1317-■BD■■-3BA3 1420 4.2
315 355 L 1488 2022 IE2 95.1 95.2 95.0 0.85 560 450 340 2.0 7.7 2.5 ANGK-355LB-04
1PS1356-■BD■■-3BA2 1730 6.8
315 355 L 1493 2015 IE2 96.3 96.3 96.0 0.85 560 445 320 1.3 7.7 2.6 ANGK-355LB-04 2) 1PS1356-■BD■■-3BB2 1730 6.8
LOHER VARIO
355 355 L 1491 2273 IE2 96.6 96.6 96.0 0.86 615 492 357 1.25 6.7 2.4 ANSK-355LC-04
1PS1358-■BH■■-3BA0 2300 7.7
400 355 L 1491 2561 1)
96.7 96.7 96.1 0.86 690 552 400 1.25 6.7 2.4 ANSK-355LD-04
1PS1350-■BH■■-3BA0 2350 8.5
450 355 L 1491 2880 1)
96.6 96.7 96.1 0.86 785 630 457 1.1 6.2 2.4 ANSK-355LN-04
1PS1357-■BJ ■■-3BA0 2400 9.0
500 355 L 1492 3200 1)
96.7 96.7 96.2 0.85 875 700 505 1.0 6.2 2.4 ANSK-355LX-04
1PS1358-■BJ ■■-3BA0 2500 9.5
1)
96.6 96.6 96.0 0.87 855 685 495 1.1 6.2 2.6 ANSK-400LL-04
1PS1404-■BJ ■■-3BA0 2700 13
500 400 L 1492 3200
1)
560 400 L 1492 3583
96.7 96.7 96.1 0.88 950 760 550 1.1 6.2 2.55 ANSK-400LN-04
1PS1405-■BJ ■■-3BA0 2900 15
1)
630 400 L 1492 4031
96.8 96.8 96.2 0.88 1070 855 620 1.1 6.3 2.6 ANSK-400LN-04
1PS1407-■BJ ■■-3BA0 2900 15
96.9 96.9 96.4 0.88 1200 960 695 1.05 6.3 2.5 ANSK-400LX-04
1PS1408-■BJ ■■-3BA0 3500 17
710 400 L 1492 4544 1)
96.9 96.9 96.3 0.88 1355 1085 785 1.0 6.6 2.6 ANSK-450LL-04
1PS1455-■BJ ■■-3BA0 3800 24.5
800 450 L 1493 5114 1)
900 450 L 1493 5755 1)
97.0 97.0 96.4 0.88 –
1215 880 1.05 6.6 2.5 ANSK-450LN-04
1PS1457-■BJ ■■-3BA0 4300 29.0
950 450 L 1493 6076 1)
97.0 97.0 96.5 0.88 –
1285 930 1.05 6.6 2.5 ANSK-450LN-04
1PS1458-■BJ ■■-3BA0 4800 29.0
1)
1000 500 L 1494 6390
96.9 96.9 96.2 0.88 –
–
980 0.85 6.2 2.55 ANSK-500LL-04
1PS1504-■BJ ■■-3BA0 5200 43.0
1)
97.0 97.0 96.4 0.88 –
–
1095 0.80 6.0 2.4 ANSK-500LL-04
1PS1505-■BJ ■■-3BA0 5200 43.0
1120 500 L 1493 7160
1)
3)
1250 500 L 1494 7990
97.0 96.9 96.3 0.88 –
–
0.80 6.5 2.4 ANSK-500LN-04
1PS1507-■BJ ■■-3BA0 6600 54.0
1400 500 L 1494 8940 1)
97.1 97.0 96.3 0.87 –
–
1385 0.90 7.2 2.7 ANSK-500LN-04
1PS1508-■BJ ■■-3BA0 6600 54.0
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450 (≤ 800 kW)
0
–
3)
Converter-fed operation, standard insulation
90 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 3) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW)... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 2/91
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 400
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Motor with special rotor (Cu).
3)
Can only be ordered with additional identification code -Z and order code
M73.
Siemens D 83.1 · 2014
2/83
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrasize
class ted, ted, ted,
ted,
ted,
ted,
50 Hz
2
50 Hz 50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
4/4
3/4
2/4
400 V 500 V 690 V
ted
Article No.
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR
0.75 090 L 960 7.5 IE2 80.0 80.4 78.0 0.72 1.88 1.5 1.09 1.5 4.5 2.2 ANGK-090LR-06
1PS1095-■BD■■-3CA3 36 0.0044
1.1 090 L 950 11.1 IE2 78.1 77.9 75.4 0.72 2.80 2.24 1.62 1.4 4.1 2.0 ANGK-090LS-06
1PS1098-■BD■■-3CA3 42 0.0044
1.5 100 L 955 15.0 IE2 80.0 79.0 75.0 0.68 3.95 3.16 2.29 2.5 4.5 2.7 ANGK-100LS-06
1PS1106-■BD■■-3CA3 55 0.010
2.2 112 M 950 22.1 IE2 82.7 83.7 82.3 0.74 5.2 4.2 3.01 2.0 5.0 2.2 ANGK-112MS-06 1PS1113-■BD■■-3CA3 66 0.019
3
132 S 950 30.2 IE2 85.4 86.1 85.1 0.79 6.4 5.1 3.71 2.5 5.7 2.5 ANGK-132SR-06
1PS1131-■BD■■-3CA3 92 0.033
4
132 M 955 40.0 IE2 85.7 86.7 86.1 0.82 8.2 6.6 4.8 2.3 6.0 2.5 ANGK-132MR-06 1PS1133-■BD■■-3CA3 96 0.045
5.5 132 M 955 55 IE2 86.1 86.1 85.5 0.77 12.0 9.6 7.0 2.4 6.0 2.6 ANGK-132MS-06 1PS1135-■BD■■-3CA3 104 0.045
7.5 160 M 965 74 IE2 88.2 88.5 88.0 0.80 15.3 12.3 8.90 1.5 6.0 2.4 ANGK-160MR-06 1PS1163-■BD■■-3CA3 176 0.088
11
160 L 970 108 IE2 88.9 89.4 88.7 0.78 23.0 18.3 13.3 1.6 6.0 2.6 ANGK-160LS-06
1PS1166-■BD■■-3CA3 192 0.11
15
180 L 980 148 IE2 90.5 91.2 90.7 0.82 29.0 23.5 16.9 2.1 6.5 2.5 ANGK-180LS-06
1PS1186-■BD■■-3CA3 255 0.28
18.5 200 L 980 180 IE2 91.2 91.5 90.9 0.80 36.5 29.5 21.0 2.5 7.0 2.6 ANGK-200LR-06
1PS1206-■BD■■-3CA3 333 0.45
22
200 L 980 214 IE2 91.5 92.0 91.4 0.78 44.5 35.5 26.0 2.5 7.0 2.6 ANGK-200LS-06
1PS1208-■BD■■-3CA3 349 0.49
30
225 M 980 292 IE2 91.7 92.5 92.0 0.81 58.0 46.5 34.0 2.0 7.0 2.8 ANGK-225MS-06 1PS1223-■BD■■-3CA3 430 0.92
37
250 M 985 359 IE2 92.2 92.3 91.1 0.77 75.0 60.0 43.5 2.1 6.0 2.1 ANGK-250MM-06 1PS1253-■BD■■-3CA3 560 1.0
45
280 S 985 436 IE2 92.9 93.0 93.1 0.85 82.0 66.0 47.5 2.0 6.0 2.3 ANGK-280SL-06
1PS1280-■BD■■-3CA3 780 2.5
55
280 M 985 533 IE2 93.4 93.6 93.0 0.88 97.0 77.0 56.0 2.4 7.0 2.8 ANGK-280MM-06 1PS1283-■BD■■-3CA3 850 2.9
75
315 S 990 723 IE2 94.0 94.1 93.5 0.86 134 107 78.0 2.0 6.7 2.1 ANGK-315SL-06
1PS1311-■BD■■-3CA3 960 3.3
90
315 M 990 868 IE2 94.8 95.2 95.1 0.85 161 129 93.0 2.1 6.9 2.3 ANGK-315ML-06 1PS1313-■BD■■-3CA3 1030 4.0
110 315 M 990 1061 IE2 94.5 94.6 94.3 0.86 195 156 113 2.0 7.1 2.2 ANGK-315MM-06 1PS1314-■BD■■-3CA3 1110 4.9
132 315 M 990 1273 IE2 94.7 94.8 94.5 0.86 235 187 136 2.0 7.0 2.1 ANGK-315MN-06 1PS1315-■BD■■-3CA3 1110 4.9
160 315 L 990 1543 IE2 94.8 95.0 94.6 0.87 280 225 162 2.0 6.8 2.1 ANGK-315LL-06
1PS1316-■BD■■-3CA3 1300 6.0
200 315 L 990 1929 IE2 95.0 95.0 94.6 0.84 360 290 210 2.1 7.0 2.3 ANGK-315LM-06 1PS1317-■BD■■-3CA3 1410 6.8
3)
200 315 L 992 1925 IE2 95.4 95.6 95.3 0.88 345 275 199 1.5 6.9 2.3 ANGK-315LM-06
1PS1317-■BD■■-3CB3 1420 6.8
250 355 L 995 2399 IE2 95.9 96.1 95.8 0.86 440 350 255 1.5 7.3 2.3 ANGK-355LB-06
1PS1356-■BD■■-3CB2 1730 9.1
LOHER VARIO
280 355 L 993 2691 IE2 96.1 96.1 95.5 0.85 495 395 286 1.2 6.4 2.35 ANSK-355LC-06
1PS1357-■BH■■-3CA0 2350 10.5
315 355 L 994 3027 IE2 96.2 96.2 95.5 0.84 560 450 325 1.35 6.6 2.5 ANSK-355LD-06
1PS1358-■BH■■-3CA0 2400 11.5
355 355 L 993 3415 IE2 96.3 96.3 95.8 0.85 630 505 360 1.0 5.6 2.3 ANSK-355LN-06
1PS1357-■BJ ■■-3CA0 2400 12.5
1)
400 355 L 992 3849
96.3 96.4 95.9 0.84 715 575 415 1.0 5.6 2.25 ANSK-355LN-06
1PS1358-■BJ ■■-3CA0 2400 12.5
400 400 L 994 3844 1)
96.3 96.4 95.8 0.84 715 575 415 1.0 5.6 2.3 ANSK-400LL-06
1PS1404-■BJ ■■-3CA0 2800 18.0
96.4 96.4 95.9 0.84 800 640 465 1.0 5.5 2.25 ANSK-400LN-06
1PS1405-■BJ ■■-3CA0 3100 21.5
450 400 L 994 4323 1)
500 400 L 994 4805 1)
96.5 96.5 96.0 0.84 890 710 515 1.05 5.7 2.3 ANSK-400LN-06
1PS1407-■BJ ■■-3CA0 3100 21.5
560 450 L 995 5374 1)
96.7 96.7 96.2 0.85 980 785 570 0.95 5.8 2.3 ANSK-450LL-06
1PS1453-■BJ ■■-3CA0 4100 34.0
1)
630 450 L 995 6046
96.8 96.8 96.3 0.85 1105 885 640 0.95 5.7 2.3 ANSK-450LL-06
1PS1455-■BJ ■■-3CA0 4100 34.0
1)
710 450 L 995 6813
96.9 97.0 96.5 0.85 1240 995 720 0.95 5.7 2.25 ANSK-450LN-06
1PS1457-■BJ ■■-3CA0 4400 40.0
97.0 97.0 96.5 0.85 –
1125 815 1.0 5.9 2.35 ANSK-450LN-06
1PS1458-■BJ ■■-3CA0 4400 40.0
800 450 L 995 7676 1)
900 500 L 995 8635 1)
96.8 96.8 96.2 0.85 –
–
915 1.0 5.8 2.25 ANSK-500LL-06
1PS1505-■BJ ■■-3CA0 5400 60.0
1000 500 L 995 9592 1)
96.9 96.8 96.2 0.85 –
–
1015 1.0 6.0 2.25 ANSK-500LN-06
1PS1507-■BJ ■■-3CA0 6100 72.0
1120 500 L 995 10746 1)
96.9 96.9 96.4 0.86 –
–
1120 1.0 5.7 2.15 ANSK-500LN-06
1PS1508-■BJ ■■-3CA0 6100 72.0
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450
0
–
Converter-fed operation, standard insulation 3)
90 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 3) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 2/91
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 450
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Motor with special rotor (Cu).
2/84
Siemens D 83.1 · 2014
3)
Can only be ordered with additional identification code -Z and order code
M73.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηrasize
ted,
ted,
ted, class ted,
ted,
ted,
50 Hz
50 Hz 50 Hz
cosϕ Ira-
Motor type
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
4/4
3/4
2/4
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
8-pole: 750 rpm at 50 Hz
LOHER CHEMSTAR
0.37 090 L 700 5.0 1)
67.0 67.5 64.0 0.60 1.33 1.06 0.77 1.7 2.5 2.0 ANGK-090LR-08
1PS1095-■BD■■-3DA3 36 0.0036
0.55 090 L 700 7.5 1)
69.5 69.5 65.0 0.60 1.90 1.52 1.10 1.7 2.8 2.0 ANGK-090LS-08
1PS1098-■BD■■-3DA3 42 0.0044
1)
0.75 100 L 700 10.2
71.9 70.2 66.0 0.70 2.15 1.72 1.25 2.0 3.7 2.1 ANGK-100LR-08
1PS1106-■BD■■-3DA3 55 0.010
1)
74.7 72.2 68.5 0.70 3.05 2.44 1.77 1.5 4.0 2.0 ANGK-100LS-08
1PS1108-■BD■■-3DA3 56 0.010
1.1 100 L 710 14.8
1)
1.5 112 M 710 20.2
78.0 78.5 76.5 0.73 3.80 3.04 2.20 1.8 4.0 2.0 ANGK-112MS-08 1PS1113-■BD■■-3DA3 66 0.016
2.2 132 S 715 29.4 1)
82.5 83.2 81.5 0.73 5.3 4.2 3.07 1.7 4.5 2.1 ANGK-132SR-08 1PS1131-■BD■■-3DA3 96 0.033
83.8 84.5 82.9 0.74 7.0 5.6 4.1 1.8 4.5 2.2 ANGK-132MR-08 1PS1133-■BD■■-3DA3 104 0.045
3
132 M 715 40.1 1)
4
160 M 715 53 1)
85.9 86.0 83.9 0.74 9.10 7.3 5.3 1.8 5.0 2.2 ANGK-160MR-08 1PS1163-■BD■■-3DA3 176 0.12
1)
5.5 160 M 720 73
86.0 86.3 84.4 0.74 12.5 10.0 7.2 1.8 5.3 2.3 ANGK-160MS-08 1PS1165-■BD■■-3DA3 176 0.12
1)
86.0 86.4 84.5 0.74 17.0 13.6 9.9 2.0 5.4 2.3 ANGK-160LS-08
1PS1166-■BD■■-3DA3 192 0.16
7.5 160 L 720 99
1)
11
180 L 720 146
87.1 87.9 87.0 0.81 22.5 18.0 13.0 1.8 5.0 2.6 ANGK-180LS-08
1PS1186-■BD■■-3DA3 255 0.28
15
200 L 720 199 1)
88.5 88.9 88.7 0.76 32.0 26.0 18.7 1.8 4.0 2.1 ANGK-200LS-08
1PS1206-■BD■■-3DA3 333 0.49
18.5 225 S 725 244 1)
88.7 89.5 88.8 0.77 39.0 31.5 22.5 2.4 5.0 2.4 ANGK-225SR-08 1PS1220-■BD■■-3DA3 395 0.82
22
225 M 730 288 1)
89.3 89.8 88.8 0.76 47.0 37.5 27.0 2.5 5.1 2.5 ANGK-225MS-08 1PS1223-■BD■■-3DA3 430 0.92
30
250 M 735 390 1)
90.8 91.2 90.4 0.80 60.0 47.5 34.5 1.9 5.3 2.2 ANGK-250MM-08 1PS1253-■BD■■-3DA3 560 1.0
1)
37
280 S 735 481
90.9 91.9 91.7 0.80 73.0 59.0 42.5 1.8 5.0 2.2 ANGK-280SL-08
1PS1280-■BD■■-3DA3 780 1.9
1)
45
280 M 740 581
91.0 91.2 90.1 0.78 92.0 73.0 53.0 2.2 5.0 2.1 ANGK-280MM-08 1PS1283-■BD■■-3DA3 850 2.2
55
315 S 740 710 1)
93.7 94.0 93.6 0.78 109 87.0 63.0 1.6 6.0 2.1 ANGK-315SL-08
1PS1311-■BD■■-3DA3 950 3.4
75
315 M 740 968 1)
93.8 94.3 94.2 0.79 146 117 85.0 1.6 5.8 2.0 ANGK-315ML-08 1PS1313-■BD■■-3DA3 1030 4.1
90
315 M 740 1161 1)
93.8 94.4 94.3 0.79 175 140 102 1.7 5.8 2.5 ANGK-315MM-08 1PS1314-■BD■■-3DA3 1110 4.8
93.9 94.5 94.5 0.79 215 171 124 1.7 5.8 2.0 ANGK-315MN-08 2) 1PS1315-■BD■■-3DA3 1110 4.8
110 315 M 740 1419 1)
1)
132 315 L 740 1703
94.1 94.7 94.7 0.79 255 205 149 1.6 5.8 2.0 ANGK-315LL-08
1PS1316-■BD■■-3DA3 1300 6.0
160 315 L 742 2059 1)
94.4 94.4 93.6 0.79 310 250 180 1.5 6.0 2.5 ANGK-315LM-08 3) 1PS1317-■BD■■-3DA3 1410 7.2
200 355 L 740 2580 1)
95.2 95.5 95.2 0.80 355 280 205 1.5 6.4 2.7 ANGK-355LB-08 3) 1PS1356-■BD■■-3DB0 1420 14.7
LOHER VARIO
225 355 L 744 2886 1)
95.3 95.4 94.8 0.81 420 335 243 1.15 5.8 2.4 ANSK-355LC-08
1PS1357-■BH■■-3DA0 2350 15.7
250 355 L 744 3206 1)
95.3 95.4 94.8 0.81 466 373 270 1.2 5.8 2.45 ANSK-355LD-08
1PS1358-■BH■■-3DA0 2400 17.0
1)
280 355 L 743 3597
95.8 96.0 95.6 0.81 520 415 300 1.15 5.2 2.3 ANSK-355LN-08
1PS1357-■BJ ■■-3DA0 2400 12.5
1)
315 355 L 743 4049
95.8 96.0 95.6 0.81 580 465 335 1.05 5.1 2.2 ANSK-355LX-08
1PS1358-■BJ ■■-3DA0 2550 13.5
355 400 L 743 4559 1)
96.0 96.1 95.6 0.81 655 525 380 1.0 5.1 2.3 ANSK-400LL-08
1PS1404-■BJ ■■-3DA0 2800 17.5
400 400 L 744 5136 1)
96.1 96.2 95.8 0.82 735 585 425 0.95 5.2 2.25 ANSK-400LN-08
1PS1407-■BJ ■■-3DA0 3100 21.0
450 400 L 743 5779 1)
96.1 96.3 95.9 0.81 830 665 480 0.95 5.0 2.25 ANSK-400LX-08
1PS1408-■BJ ■■-3DA0 3250 23.0
96.5 96.6 96.1 0.83 900 720 520 0.85 5.2 2.2 ANSK-450LL-08
1PS1455-■BJ ■■-3DA0 4100 35.5
500 450 L 745 6411 1)
1)
560 450 L 745 7178
96.5 96.6 96.1 0.84 1000 800 580 0.85 5.4 2.25 ANSK-450LN-08
1PS1457-■BJ ■■-3DA0 4400 42.0
1)
96.6 96.7 96.2 0.83 1130 905 655 0.90 5.3 2.25 ANSK-450LN-08
1PS1458-■BJ ■■-3DA0 4400 42.0
630 450 L 745 8075
670 450 L 746 8579 1)
96.7 96.7 96.3 0.83 1210 965 700 0.85 5.2 2.3 ANSK-450LX-08
1PS1450-■BJ ■■-3DA0 4600 46.0
96.7 96.8 96.2 0.85 1240 995 720 0.85 5.8 2.55 ANSK-500LL-08
1PS1504-■BJ ■■-3DA0 5400 73.0
710 500 L 746 9086 1)
800 500 L 746 10242 1)
96.7 96.8 96.4 0.85 –
1120 810 0.85 5.6 2.45 ANSK-500LL-08
1PS1505-■BJ ■■-3DA0 5400 73.0
96.5 96.6 96.1 0.84 –
1285 930 1.0 5.5 2.2 ANSK-500LN-08
1PS1507-■BJ ■■-3DA0 6100 88.0
900 500 L 745 11530 1)
1)
950 500 L 746 12152
96.7 96.7 96.1 0.83 –
–
990 0.95 5.9 2.4 ANSK-500LX-08
1PS1508-■BJ ■■-3DA0 6400 96.0
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450
0
–
Converter-fed operation, standard insulation 4)
90 ... 450
1
–
4)
Converter-fed operation with special insulation (derating approx. 5 %) 160 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 2/91
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 450
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
3)
Motor with special rotor (Cu).
2)
Rated output, partial utilization up to 155 °C (F).
4)
Can only be ordered with additional identification code -Z and order code M73.
Siemens D 83.1 · 2014
2/85
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
2
50 Hz 50 Hz
Motor type
cosϕ Ira-
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
rated, ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, 50 Hz, ted
4/4
3/4
2/4
4/4
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
10-pole: 600 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
94.6 94.7 94.0 0.81 338 271 196 1.05 5.3 2.15 ANSK-355LC-10 1PS1357-■BH■■-3EA0 2350 16.5
180 355 L 594 2889 1)
200 355 L 594 3211 1)
94.6 94.8 94.1 0.81 376 300 218 1.05 5.1 2.05 ANSK-355LD-10 1PS1358-■BH■■-3EA0 2400 18.0
95.2 95.5 95.1 0.80 425 340 245 1.1 4.8 2.15 ANSK-355LX-10 1PS1358-■BJ ■■-3EA0 2550 19.0
225 355 L 593 3620 1)
250 400 L 594 4014 1)
95.4 95.7 95.2 0.80 475 380 275 0.95 4.7 2.05 ANSK-400LL-10 1PS1404-■BJ ■■-3EA0 2800 27.0
280 400 L 595 4495 1)
95.6 95.8 95.3 0.81 520 415 300 0.95 4.7 2.05 ANSK-400LN-10 1PS1405-■BJ ■■-3EA0 3100 32.0
95.6 95.8 95.4 0.80 595 475 345 0.95 4.7 2.05 ANSK-400LN-10 1PS1407-■BJ ■■-3EA0 3100 32.0
315 400 L 595 5058 1)
355 400 L 595 5700 1)
95.8 96.0 95.6 0.80 665 530 385 0.95 4.8 2.1 ANSK-400LX-10 1PS1408-■BJ ■■-3EA0 3300 35.0
400 450 L 595 6418 1)
96.0 96.1 95.5 0.80 750 600 435 1.0 4.9 2.1 ANSK-450LL-10 1PS1454-■BJ ■■-3EA0 4100 42.0
450 450 L 595 7221 1)
96.1 96.2 95.6 0.81 835 670 485 0.95 4.8 2.05 ANSK-450LN-10 1PS1455-■BJ ■■-3EA0 4400 50.0
500 450 L 595 8020 1)
96.2 96.3 95.7 0.80 940 750 545 0.95 5.0 2.15 ANSK-450LN-10 1PS1457-■BJ ■■-3EA0 4400 50.0
520 450 L 595 8336 1)
96.2 96.2 95.6 0.79 985 785 570 1.0 5.1 2.2 ANSK-450LX-10 1PS1458-■BJ ■■-3EA0 4700 55.0
560 500 L 596 8965 1)
96.1 96.1 95.3 0.80 1050 840 610 0.85 5.3 2.35 ANSK-500LL-10 1PS1504-■BJ ■■-3EA0 5400 82.0
630 500 L 596 10082 1)
96.2 96.2 95.4 0.80 1180 945 685 0.90 5.3 2.4 ANSK-500LN-10 1PS1505-■BJ ■■-3EA0 6100 98.0
670 500 L 597 10719 1)
96.3 96.2 95.4 0.80 1260 1005 730 0.95 5.5 2.45 ANSK-500LN-10 1PS1507-■BJ ■■-3EA0 6100 98.0
750 500 L 597 11998 1)
96.4 96.3 95.5 0.79 –
–
820 0.95 5.5 2.45 ANSK-500LX-10 1PS1508-■BJ ■■-3EA0 6500 108
12-pole: 500 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
160 355 L 493 3097 1)
94.1 94.3 93.8 0.78 313 250 181 0.95 4.6 2.1 ANSK-355LC-12 1PS1357-■BH■■-3FA0 2350 17.0
180 355 L 494 3481 1)
94.3 94.5 93.9 0.77 355 285 205 1.0 4.7 2.15 ANSK-355LD-12 1PS1358-■BH■■-3FA0 2400 19.0
190 355 L 494 3672 1)
94.5 94.7 94.3 0.77 375 300 218 0.95 4.6 2.2 ANSK-355LX-12 1PS1358-■BJ ■■-3FA0 2550 18.5
200 400 L 494 3861 1)
94.9 95.1 94.7 0.78 390 310 225 0.95 4.6 2.05 ANSK-400LL-12 1PS1404-■BJ ■■-3FA0 2800 26.5
225 400 L 495 4341 1)
95.1 95.3 94.9 0.79 430 345 250 1.0 4.7 2.15 ANSK-400LN-12 1PS1405-■BJ ■■-3FA0 3100 32.0
250 400 L 495 4824 1)
95.2 95.4 95.0 0.78 485 390 282 1.0 4.6 2.1 ANSK-400LN-12 1PS1407-■BJ ■■-3FA0 3100 32.0
280 400 L 495 5402 1)
95.2 95.4 95.0 0.78 545 435 315 0.95 4.8 2.2 ANSK-400LX-12 1PS1408-■BJ ■■-3FA0 3300 35.0
315 450 L 495 6075 1)
95.5 95.7 95.3 0.78 610 490 355 0.90 4.5 1.95 ANSK-450LL-12 1PS1454-■BJ ■■-3FA0 4100 42.0
355 450 L 495 6842 1)
95.6 95.8 95.4 0.78 690 550 400 0.90 4.6 2.0 ANSK-450LN-12 1PS1455-■BJ ■■-3FA0 4400 50.0
95.7 95.9 95.4 0.78 785 630 455 0.95 4.6 2.0 ANSK-450LN-12 1PS1457-■BJ ■■-3FA0 4400 50.0
400 450 L 495 7709 1)
420 450 L 495 8095 1)
95.7 95.9 95.4 0.78 810 650 470 0.95 4.7 2.05 ANSK-450LX-12 1PS1458-■BJ ■■-3FA0 4600 55.0
450 500 L 496 8662 1)
95.8 95.8 95.2 0.80 845 675 490 0.90 4.8 2.05 ANSK-500LL-12 1PS1504-■BJ ■■-3FA0 5400 82.0
500 500 L 496 9617 1)
95.8 95.8 95.1 0.79 950 760 550 0.95 5.1 2.2 ANSK-500LN-12 1PS1505-■BJ ■■-3FA0 6100 98.0
560 500 L 496 10779 1)
95.9 96.0 95.3 0.80 1055 840 610 0.90 4.9 2.1 ANSK-500LN-12 1PS1507-■BJ ■■-3FA0 6100 98.0
600 500 L 496 11546 1)
96.0 96.1 95.5 0.80 –
905 655 0.90 5.1 2.15 ANSK-500LX-12 1PS1508-■BJ ■■-3FA0 6350 108
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation 2)
Converter-fed operation with special insulation (derating approx. 5 %) 2)
Mains-fed operation, pre-formed coil
Converter-fed operation, pre-formed coil
Voltages
690 VΔ, 50 Hz
500 VY, 50 Hz
500 VΔ, 50 Hz
400 V/690 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/91
Types of construction
IM B3
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Outside the IE code classification according to IEC 60034-30.
2/86
Siemens D 83.1 · 2014
Frame size
355 ... 400
355 ... 400
355 ... 500
450 ... 500
450 ... 500
Frame size
355 ... 500
355 ... 500
355 ... 450
355 ... 500
355 ... 500
355 ... 500
Frame size
355 ... 500
355 ... 450
355... 500
355 ... 500
2)
0
1
2
3
4
0
3
5
6
8
9
0
4
6
9
Order code
–
–
–
–
–
Order code
–
–
–
–
–
…
Order code
–
–
–
…
Can only be ordered with additional identification code -Z and order code
M73.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
m
Pra- Frame
ted, size
IM B3
50 Hz
kW FS
kg
• Cooling: self-ventilated (IC 411)
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
14-pole: 430 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
125 355 L
ANSK-355LC-14 1PS1357-■BH■■-3GA0 2350
140 355 L
ANSK-355LD-14 1PS1358-■BH■■-3GA0 2400
160 400 L
ANSK-400LL-14 1PS1404-■BJ ■■-3GA0 2800
180 400 L
ANSK-400LN-14 1PS1405-■BJ ■■-3GA0 3100
200 400 L
ANSK-400LN-14 1PS1407-■BJ ■■-3GA0 3100
225 400 L
ANSK-400LX-14 1PS1408-■BJ ■■-3GA0 3250
250 450 L
ANSK-450LL-14 1PS1454-■BJ ■■-3GA0 4100
280 450 L
ANSK-450LN-14 1PS1455-■BJ ■■-3GA0 4400
315 450 L
ANSK-450LN-14 1PS1457-■BJ ■■-3GA0 4400
340 450 L
ANSK-450LX-14 1PS1458-■BJ ■■-3GA0 4600
355 500 L
ANSK-500LL-14 1PS1504-■BJ ■■-3GA0 5400
400 500 L
ANSK-500LN-14 1PS1505-■BJ ■■-3GA0 6100
450 500 L
ANSK-500LN-14 1PS1507-■BJ ■■-3GA0 6100
500 500 L
ANSK-500LX-14 1PS1508-■BJ ■■-3GA0 6500
16-pole: 375 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
100 355 L
ANSK-355LC-16 1PS1357-■BH■■-3HA0 2350
110 355 L
ANSK-355LD-16 1PS1358-■BH■■-3HA0 2400
132 400 L
ANSK-400LL-16 1PS1405-■BJ ■■-3HA0 2800
160 400 L
ANSK-400LN-16 1PS1407-■BJ ■■-3HA0 3100
180 400 L
ANSK-400LX-16 1PS1408-■BJ ■■-3HA0 3250
200 450 L
ANSK-450LL-16 1PS1454-■BJ ■■-3HA0 4100
225 450 L
ANSK-450LN-16 1PS1455-■BJ ■■-3HA0 4400
250 450 L
ANSK-450LN-16 1PS1457-■BJ ■■-3HA0 4400
265 450 L
ANSK-450LX-16 1PS1458-■BJ ■■-3HA0 4650
280 500 L
ANSK-500LL-16 1PS1504-■BJ ■■-3HA0 5400
315 500 L
ANSK-500LN-16 1PS1505-■BJ ■■-3HA0 6100
355 500 L
ANSK-500LN-16 1PS1507-■BJ ■■-3HA0 6100
400 500 L
ANSK-500LX-16 1PS1508-■BJ ■■-3HA0 6650
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation 1)
Converter-fed operation with special insulation (derating approx. 5 %) 1)
Mains-fed operation, pre-formed coil
Converter-fed operation, pre-formed coil
Voltages
690 VΔ, 50 Hz
500 VY, 50 Hz
500 VΔ, 50 Hz
400 V/690 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 2/91
Types of construction
IM B3
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Frame size
355 ... 500
355 ... 500
355 ... 500
450 ... 500
450 ... 500
Frame size
355 ... 500
355 ... 500
355 ... 450
355 ... 500
355 ... 500
355 ... 500
Frame size
355 ... 500
355 ... 500
355 ... 500
355 ... 500
0
1
2
3
4
0
3
5
6
8
9
0
4
6
9
Order code
–
–
–
–
–
Order code
–
–
–
–
–
…
Order code
–
–
–
…
Can only be ordered with additional identification code -Z and order code
M73.
Siemens D 83.1 · 2014
2/87
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
60 Hz
2
60 Hz
60 Hz
Motor type
cosϕ Irated,
rated, 60 Hz,
60 Hz, 60 Hz, 60 Hz, 60 Hz, 480 V
4/4
3/4
2/4
4/4
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
Article No.
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
2-pole: 3000 rpm at 60 Hz
LOHER CHEMSTAR
1.8 090 L 3460 4.97 IE2 85.4 85.6 84.5 0.88 2.85
3.0 7.0 2.8 ANGK-090LR-02 1PS1095-■BD■■-3AA3 36 0.0020
2.6 090 L 3460 7.2
IE2 85.5 85.8 84.7 0.84 4.4
3.0 7.0 3.0 ANGK-090LS-02 1PS1098-■BD■■-3AA3 36 0.0020
3.6 100 L 3510 9.8
IE2 87.5 87.1 85.2 0.85 5.8
2.9 8.0 3.0 ANGK-100LS-02 1PS1106-■BD■■-3AA3 51 0.0041
4.5 112 M 3490 12.3 IE2 87.5 87.7 87.2 0.94 6.6
2.7 7.8 3.0 ANGK-112MS-02 1PS1113-■BD■■-3AA3 66 0.0075
6.6 132 S 3510 18.0 IE2 89.5 88.7 87.2 0.89 10.0
3.0 7.8 3.0 ANGK-132SR-02 1PS1131-■BD■■-3AA3 83 0.014
9
132 S 3510 24.5 IE2 90.1 91.0 90.1 0.91 13.1
2.7 7.0 3.0 ANGK-132SS-02 1PS1132-■BD■■-3AA3 95 0.020
13.2 160 M 3550 36
IE2 90.8 91.2 91.0 0.88 19.9
2.0 7.5 2.6 ANGK-160MR-02 1PS1163-■BD■■-3AA3 176 0.045
18 160 M 3550 46
IE2 91.5 91.8 91.2 0.89 26.5
1.9 7.0 2.6 ANGK-160MS-02 1PS1165-■BD■■-3AA3 176 0.092
22 160 L 3550 59
IE2 91.5 91.8 91.2 0.89 32.5
2.0 7.0 2.7 ANGK-160LS-02 1PS1166-■BD■■-3AA3 192 0.092
26 180 M 3560 70
IE2 92.5 93.0 92.4 0.89 38.0
2.6 7.0 2.6 ANGK-180MS-02 1PS1183-■BD■■-3AA3 246 0.16
36 200 L 3560 96
IE2 92.6 92.8 92.0 0.89 53.0
2.0 7.2 2.6 ANGK-200LR-02 1PS1206-■BD■■-3AA3 333 0.20
44 200 L 3560 118 IE2 93.0 93.1 92.4 0.89 64.0
2.0 7.2 2.6 ANGK-200LS-02 1PS1208-■BD■■-3AA3 349 0.23
54 225 M 3565 145 IE2 93.2 93.4 92.8 0.88 79.0
2.2 7.6 2.6 ANGK-225MS-02 1PS1223-■BD■■-3AA3 420 0.34
66 250 M 3575 176 IE2 93.8 93.7 92.6 0.88 96.0
1.9 7.5 2.6 ANGK-250MM-02 1PS1253-■BD■■-3AA3 540 0.45
90 280 S 3575 240 IE2 94.5 94.5 93.0 0.90 127
1.7 7.0 2.4 ANGK-280SL-02 1PS1280-■BD■■-3AA3 775 0.88
110 280 M 3580 293 IE2 95.1 95.0 93.9 0.89 156
2.4 7.7 2.7 ANGK-280MM-02 1PS1283-■BD■■-3AA3 830 1.03
125 315 S 3580 333 IE2 94.6 94.4 93.2 0.87 183
1.9 7.0 2.5 ANGK-315SL-02 1PS1311-■BD■■-3AA3 960 1.55
145 315 M 3580 387 IE2 95.1 95.0 93.8 0.89 205
2.0 7.7 2.6 ANGK-315ML-02 1PS1313-■BD■■-3AA3 1020 1.85
180 315 M 3581 480 IE2 95.4 95.4 94.4 0.88 260
2.2 7.5 2.7 ANGK-315MN-02 1PS1315-■BD■■-3AA3 1100 2.2
220 315 L 3580 587 IE2 95.8 95.9 95.4 0.90 305
2.5 7.3 2.7 ANGK-315LL-02 1PS1316-■BD■■-3AA3 1310 2.8
270 315 L 3580 720 IE2 95.8 95.9 95.4 0.90 375
2.6 7.7 2.7 ANGK-315LN-02 1PS1318-■BD■■-3AA3 1450 3.5
315 355 L 3580 840 IE2 95.5 95.3 94.6 0.90 440
2.0 7.2 2.7 ANGK-355LB-02 1PS1356-■BD■■-3AA2 1580 4.7
LOHER VARIO
96.4 96.3 95.6 0.92 540
1.15 6.7 2.75 ANSK-355LC-02 1PS1357-■BH■■-3AA0 2100 3.6
400 355 L 3583 1066 1)
450 355 L 3585 1198 1)
96.6 96.5 95.7 0.92 610
1.2 7.4 3.0 ANSK-355LD-02 1PS1358-■BH■■-3AA0 2200 4.0
500 355 L 3579 1334 1)
96.3 96.2 95.5 0.91 680
0.90 6.3 2.65 ANSK-355LX-02 1PS1358-■BJ ■■-3AA0 2300 5.0
96.4 96.3 95.5 0.90 690
0.65 5.7 2.45 ANSK-400LL-02 1PS1404-■BJ ■■-3AA0 2400 6.0
500 400 L 3581 1333 1)
560 400 L 3584 1492 1)
96.6 96.5 95.7 0.91 770
0.80 6.5 2.8 ANSK-400LN-02 1PS1405-■BJ ■■-3AA0 2600 7.0
96.7 96.6 96.0 0.91 860
0.75 6.1 2.65 ANSK-400LN-02 1PS1407-■BJ ■■-3AA0 2600 7.0
630 400 L 3583 1679 1)
96.7 96.6 95.9 0.91 675 2)
0.80 6.5 2.75 ANSK-400LX-02 1PS1408-■BJ ■■-3AA0 2900 8.3
710 400 L 2585 1891 1)
710 450 L 3586 1890 1)
96.3 96.1 95.1 0.90 685 2)
0.70 6.2 2.7 ANSK-450LL-02 1PS1455-■BJ ■■-3AA0 3500 12
96.5 96.3 95.3 0.91 762 2)
0.80 6.4 2.85 ANSK-450LN-02 1PS1457-■BJ ■■-3AA0 3900 14
800 450 L 3586 2130 1)
96.6 96.4 95.6 0.90 865 2)
0.80 6.4 2.8 ANSK-450LN-02 1PS1458-■BJ ■■-3AA0 3900 14
900 450 L 3586 2396 1)
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450
0
–
Converter-fed operation, standard insulation 3)
90 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 3)
160 ... 450
2
–
Mains-fed operation, pre-formed coil
450
3
–
Converter-fed operation, pre-formed coil
450
4
–
Voltages
Frame size
Order code
230 V/400 V, 60 Hz
90 ... 112
1
–
500 VY, 60 Hz
90 ... 450
3
–
400 V/690 V, 60 Hz
90 ... 450
6
–
690 VY, 60 Hz
90 ... 450
8
–
For other voltages see Page 2/91
90 ... 450
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 450
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 450
4
–
IM B35
90 ... 450
6
–
For other types of construction see from Page 1/28
90 ... 450
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Only possible with 690 V (values apply to 690 V).
2/88
Siemens D 83.1 · 2014
3)
Can only be ordered with additional identification code -Z and order code
M73.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nraTra- IE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
60 Hz
60 Hz
60 Hz
Motor type
cosϕ Irated,
rated, 60 Hz,
60 Hz, 60 Hz, 60 Hz, 60 Hz, 480 V
4/4
3/4
2/4
4/4
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
4-pole: 1800 rpm at 60 Hz
LOHER CHEMSTAR
1.3 090 L 1760 7.1 IE2 85.6 85.2 82.0 0.82 2.25
2.2 7.2 2.7 ANGK-090LR-04 1PS1095-■BD■■-3BA3 34 0.0044
1.8 090 L 1760 9.8 IE2 87.8 88.0 86.6 0.80 3.1
2.2 7.4 2.7 ANGK-090LS-04 1PS1098-■BD■■-3BA3 37 0.0044
2.6 100 L 1755 14.1 IE2 88.0 88.3 87.2 0.83 4.3
1.9 7.0 2.5 ANGK-100LR-04 1PS1106-■BD■■-3BA3 53 0.0060
3.6 100 L 1760 19.5 IE2 87.5 87.0 85.2 0.79 6.3
1.8 7.0 2.4 ANGK-100LS-04 1PS1108-■BD■■-3BA3 55 0.0071
4.8 112 M 1760 26.0 IE2 89.9 90.3 89.5 0.83 7.8
1.9 7.0 2.5 ANGK-112MS-04 1PS1113-■BD■■-3BA3 66 0.0126
6.6 132 S 1750 36.0 IE2 89.8 90.4 89.9 0.86 10.3
2.4 7.5 2.7 ANGK-132SR-04 1PS1131-■BD■■-3BA3 93 0.03
9
132 M 1765 48.7 IE2 90.1 90.5 89.7 0.86 14.0
2.0 7.5 2.2 ANGK-132MS-04 1PS1133-■BD■■-3BA3 102 0.03
13 160 M 1765 70.0 IE2 91.1 91.5 91.0 0.85 20.0
3.0 7.5 2.6 ANGK-160MR-04 1PS1163-■BD■■-3BA3 176 0.10
18 160 L 1770 97.0 IE2 92.4 92.1 91.8 0.85 27.5
3.0 7.5 2.6 ANGK-160LS-04 1PS1166-■BD■■-3BA3 192 0.13
22 180 M 1775 118 IE2 92.5 93.0 92.2 0.84 34.0
1.8 7.5 2.8 ANGK-180MR-04 1PS1183-■BD■■-3BA3 246 0.20
16 180 L 1775 140 IE2 93.7 94.0 93.5 0.85 39.5
1.8 7.5 2.6 ANGK-180LS-04 1PS1186-■BD■■-3BA3 255 0.23
26 200 L 1780 193 IE2 94.2 94.4 93.9 0.83 55.0
3.0 7.5 2.9 ANGK-200LS-04 1PS1206-■BD■■-3BA3 333 0.37
44 225 S 1780 236 IE2 93.7 94.0 93.5 0.85 66.0
2.0 7.0 2.6 ANGK-225SR-04 1PS1220-■BD■■-3BA3 415 0.64
54 225 M 1780 290 IE2 94.2 94.7 94.6 0.85 81.0
2.0 7.0 2.6 ANGK-225MS-04 1PS1223-■BD■■-3BA3 445 0.72
66 250 M 1780 354 IE2 94.5 94.4 94.2 0.86 98.0
2.1 7.7 2.7 ANGK-250MM-04 1PS1253-■BD■■-3BA3 560 0.79
90 280 S 1785 481 IE2 94.6 94.8 94.5 0.84 136
2.2 7.0 2.5 ANGK-280SL-04 1PS1280-■BD■■-3BA3 820 1.44
110 280 M 1785 588 IE2 95.2 95.2 94.8 0.84 165
2.5 7.0 2.7 ANGK-280MM-04 1PS1283-■BD■■-3BA3 870 1.66
125 315 S 1787 668 IE2 95.0 95.0 94.0 0.82 193
2.2 7.0 2.5 ANGK-315SL-04 1PS1311-■BD■■-3BA3 960 2.2
145 315 M 1787 775 IE2 95.1 95.2 94.7 0.84 220
2.0 7.0 2.2 ANGK-315ML-04 1PS1313-■BD■■-3BA3 1040 2.9
180 315 M 1787 962 IE2 95.4 95.4 94.8 0.83 275
2.4 7.5 2.5 ANGK-315MN-04 1PS1315-■BD■■-3BA3 1120 3.4
220 315 L 1787 1176 IE2 95.4 95.6 95.0 0.84 330
2.3 7.5 2.5 ANGK-315LL-04 1PS1316-■BD■■-3BA3 1340 3.9
270 315 L 1787 1443 IE2 95.8 95.8 95.5 0.85 400
2.3 7.5 2.4 ANGK-315LM-04 1PS1317-■BD■■-3BA3 1420 4.2
315 355 L 1790 1680 IE2 95.4 95.5 95.2 0.85 465
1.8 7.0 2.5 ANGK-355LB-04 1PS1356-■BD■■-3BA2 1730 6.8
315 355 L 1791 1680 IE2 95.6 96 95.5 0.86 460
1.1 7.0 2.4 ANGK-355LB-04 3) 1PS1357-■BD■■-3BB2 1730 6.8
LOHER VARIO
400 355 L 1791 2133 1)
96.4 96.3 95.5 0.86 –
1.1 6.5 2.30 ANSK-355LC-04 1PS1358-■BH■■-3BA0 2300 7.7
96.5 96.4 95.6 0.86 –
1.1 6.5 2.30 ANSK-355LD-04 1PS1350-■BH■■-3BA0 2350 8.5
450 355 L 1791 2399 1)
500 355 L 1791 2664 1)
96.6 96.5 95.9 0.86 –
1.05 6.3 2.45 ANSK-355LN-04 1PS1357-■BJ ■■-3BA0 2400 9.0
96.7 96.6 95.9 0.85 –
1.0 6.5 2.50 ANSK-355LX-04
1PS1358-■BJ ■■-3BA0 2500 9.5
560 355 L 1792 2984 1)
96.5 96.4 95.6 0.88 –
1.0 6.2 2.55 ANSK-400LL-04
1PS1404-■BJ ■■-3BA0 2700 13
560 400 L 1791 2984 1)
630 400 L 1791 3357 1)
96.6 96.5 95.8 0.89 –
1.0 6.0 2.45 ANSK-400LN-04 1PS1405-■BJ ■■-3BA0 2900 15
96.7 96.6 96.0 0.89 –
0.95 5.7 2.30 ANSK-400LN-04 1PS1407-■BJ ■■-3BA0 2900 15
710 400 L 1791 3784 1)
96.8 96.8 96.1 0.88 –
0.95 6.1 2.45 ANSK-400LX-04
1PS1408-■BJ ■■-3BA0 3100 17
800 400 L 1792 4263 1)
900 450 L 1793 4792 1)
96.9 96.8 96.1 0.88 –
0.90 6.4 2.55 ANSK-450LL-04
1PS1455-■BJ ■■-3BA0 3800 24.5
1000 450 L 1793 5324 1)
96.9 96.8 96.2 0.88 980 2)
0.85 6.0 2.40 ANSK-450LN-04 1PS1457-■BJ ■■-3BA0 4300 29
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 500
0
–
Converter-fed operation, standard insulation 4)
90 ... 500
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 4)
160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 ... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
230 V/400 V, 60 Hz
90 ... 112
1
–
500 VY, 60 Hz
90 ... 500
3
–
400 V/690 V, 60 Hz
90 ... 500
6
–
690 VY, 60 Hz
90 ... 500
8
–
For other voltages see Page 2/91
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 500
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
3)
Motor with special rotor (Cu).
2)
Only possible with 690 V (values apply to 690 V).
4)
Can only be ordered with additional identification code -Z and order code
Siemens D 83.1 · 2014
2/89
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nraTraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
60 Hz
2
60 Hz
60 Hz
Motor type
cosϕ Irated,
rated, 60 Hz,
60 Hz, 60 Hz, 60 Hz, 60 Hz, 480 V
4/4
4/4
3/4
2/4
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
• Type of protection: "Non-sparking" in accordance with EN 60079-15; 2010: CE 0102 II 3G Ex nA IIC T3 Gc
6-pole: 1200 rpm at 60 Hz
LOHER CHEMSTAR
0.75 090 L 1160 6.2
IE2 81.8 82.0 80.1 0.72 1.53
1.5 5.0 2.5 ANGK-090LR-06 1PS1095-■BD■■-3CA3 36 0.0044
0.9 090 L 1160 7.4
IE2 82.0 82.0 80.2 0.72 1.83
1.4 5.1 2.4 ANGK-090LS-06 1PS1098-■BD■■-3CA3 42 0.0044
1.25 100 L 1175 10.2 IE2 85.5 85.2 82.3 0.73 2.4
1.5 5.6 2.4 ANGK-100LS-06 1PS1106-■BD■■-3CA3 55 0.010
1.8 112 M 1180 14.6 IE2 86.6 86.5 83.0 0.73 3.4
1.3 5.8 2.5 ANGK-112MS-06 1PS1113-■BD■■-3CA3 66 0.019
3
132 S 1170 24.5 IE2 87.9 87.6 85.3 0.74 5.5
2.4 6.6 3.0 ANGK-132SR-06 1PS1131-■BD■■-3CA3 92 0.033
4
132 M 1160 32.9 IE2 88.3 88.9 88.1 0.79 6.9
2.1 6.6 2.7 ANGK-132MR-06 1PS1133-■BD■■-3CA3 96 0.045
5.5 132 M 1180 44.5 IE2 90.0 90.2 89.0 0.80 9.2
1.5 6.5 2.3 ANGK-132MS-06 1PS1135-■BD■■-3CA3 104 0.045
7.5 160 M 1180 61
IE2 89.6 89.7 88.0 0.80 12.6
1.3 6.2 2.4 ANGK-160MR-06 1PS1163-■BD■■-3CA3 176 0.088
11 160 L 1175 89
IE2 90.2 90.4 89.0 0.80 18.3
1.3 6.5 2.4 ANGK-160LS-06 1PS1166-■BD■■-3CA3 192 0.11
15 180 L 1170 122 IE2 91.0 91.4 90.7 0.81 24.5
2.4 7.0 2.5 ANGK-180LS-06 1PS1186-■BD■■-3CA3 255 0.28
18.5 200 L 1180 150 IE2 91.7 91.7 90.8 0.80 30.5
2.5 7.0 2.6 ANGK-200LR-06 1PS1206-■BD■■-3CA3 333 0.45
22 200 L 1180 178 IE2 91.8 91.8 91.0 0.80 36.0
2.5 7.0 2.6 ANGK-200LS-06 1PS1208-■BD■■-3CA3 349 0.49
30 225 M 1180 243 IE2 93.0 93.0 92.0 0.82 47.5
2.0 7.0 2.8 ANGK-225MS-06 1PS1223-■BD■■-3CA3 430 0.92
37 250 M 1185 298 IE2 93.2 93.2 92.3 0.80 60.0
1.4 7.0 2.6 ANGK-250MM-06 1PS1253-■BD■■-3CA3 560 1.0
45 280 S 1185 363 IE2 93.6 93.6 92.5 0.80 37.5
2.3 6.5 2.5 ANGK-280SL-06 1PS1280-■BD■■-3CA3 780 2.5
55 280 M 1188 442 IE2 93.8 93.6 93.0 0.90 45.5
2.4 7.0 2.8 ANGK-280MM-06 1PS1283-■BD■■-3CA3 850 2.9
75 315 S 1190 602 IE2 94.5 94.6 94.3 0.90 62
2.3 7.2 2.4 ANGK-315SL-06 1PS1311-■BD■■-3CA3 1030 3.3
90 315 M 1190 722 IE2 94.5 94.6 94.3 0.90 75
2.2 7.2 2.3 ANGK-315ML-06 1PS1313-■BD■■-3CA3 1100 4.0
110 315 M 1190 883 IE2 95.0 95.0 94.3 0.90 90
1.8 7.1 2.2 ANGK-315MM-06 1PS1314-■BD■■-3CA3 1190 4.9
132 315 M 1190 1059 IE2 95.2 95.2 94.3 0.90 108
1.8 7.2 2.2 ANGK-315MN-06 1PS1315-■BD■■-3CA3 1180 4.9
160 315 L 1190 1284 IE2 95.2 95.2 94.6 0.90 134
2.0 7.5 2.3 ANGK-315LL-06 1PS1316-■BD■■-3CA3 1400 6.0
200 315 L 1192 1602 IE2 95.1 95.2 94.6 0.80 172
2.4 7.4 2.6 ANGK-315LM-06 1PS1317-■BD■■-3CA3 1600 6.8
250 355 L 1194 1999 IE2 95.4 95.5 94.7 0.90 210
1.1 7.1 2.4 ANGK-355LB-06 1PS1356-■BD■■-3CB2 1730 9.1
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation 2)
Converter-fed operation with special insulation (derating approx. 5 %) 2)
Voltages
230 V/400 V, 60 Hz
500 VY, 60 Hz
400 V/690 V, 60 Hz
690 VY, 60 Hz
For other voltages see Page 2/91
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Motor with special rotor (Cu).
2/90
Siemens D 83.1 · 2014
Frame size
90 ... 355
90 ... 355
160 ... 355
Frame size
90 ... 112
90 ... 355
90 ... 355
90 ... 355
90 ... 355
Frame size
90 ... 355
90 ... 315
90 ... 112
90 ... 112
90 ... 355
90 ... 355
90 ... 355
2)
0
1
2
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Can only be ordered with additional identification code -Z and order code
M73.
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Article No. supplements
■ Selection and ordering data
Voltages
Voltage
code
11.
position
of the
Article
No.
Additional Motor series
identification code LOHER CHEMSTAR
with order
code and
plain text
if required Frame size
1PS1. . . - . . . ■ . - . . . .
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Optional voltages
690 VΔ, 50 Hz
0
–
–
–
–
–
–
–
–
–
–
–





230 VΔ/400 VY, 50 Hz
1










–
–
–
–
–
–
500 VY, 50 Hz
3











–
–
–
–
–
400 VΔ, 50 Hz
4














–
–
500 VΔ, 50 Hz
5
















400 VΔ/690 VY, 50 Hz
6














–
–
690 VY, 50 Hz
8












–
–
–
–
415 VY, 50 Hz
9
L1C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
–
415 VΔ, 50 Hz
9
L1D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
380 VΔ/660 VY, 50 Hz
9
L1L
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
–
–
220 VΔ/380 VY, 50 Hz
9
L1R
✓
✓
✓
O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
–
–
1000 VΔ, 50 Hz
9
L1V
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Other voltages
9
L1Y • and ✓
identification code
✓
✓
✓
✓
✓
✓
✓
✓
✓
220 VΔ/380 VY, 60 Hz
(50 Hz output)
9
L2A
✓
✓
✓
O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
–
–
220 VΔ/380 VY, 60 Hz
(60 Hz output)
9
L2B
✓
✓
✓
O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
–
–
380 VΔ/660 VY, 60 Hz
(50 Hz output)
9
L2C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
380 VΔ/660 VY, 60 Hz
(60 Hz output)
9
L2D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
460 VY, 60 Hz (60 Hz output)
9
L2E
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
–
460 VΔ, 60 Hz (60 Hz output)
9
L2F
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
575 VY, 60 Hz (60 Hz output)
9
L2L
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
575 VΔ, 60 Hz (60 Hz output)
9
L2M
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
440 VY, 60 Hz (50 Hz output)
9
L2Q
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
440 VΔ, 60 Hz (50 Hz output)
9
L2R
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
460 VY, 60 Hz (50 Hz output)
9
L2S
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
460 VΔ, 60 Hz (50 Hz output)
9
L2T
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
575 VY, 60 Hz (50 Hz output)
9
L2U
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
575 VΔ, 60 Hz (50 Hz output)
9
L2V
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
440 VY, 60 Hz (60 Hz output)
9
L2W
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
440 VΔ, 60 Hz (60 Hz output)
9
L2X
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.

Without additional charge
•
This order code only determines the price of the version –
Additional plain text is required.
✓
With additional charge
O. R. On request
–
Not possible
✓
✓
✓
✓
✓
✓
–
–
–
–
–
For dual voltages 230 V/400 V, 220 V/380 V, 400 V/690 V or
380 V/660 V:
– For motors for converter-fed operation, the converter rating
plate is stamped with 380 V or 400 V.
– For motors with a Dahlander circuit, the lower voltage is
generally specified.
Voltages not listed in the catalog are only available on request.
Siemens D 83.1 · 2014
2/91
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
■ Selection and ordering data
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
90
1PS1. . . - . . . . . - . . . . -Z
2
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection
Design with reduced starting current –
–
factory clarification required (type test may
be necessary), ETO option (Engineer To Order)
without order code
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Special design according to load curve of
driven machine or customer requirements –
factory clarification required and maybe type
test needed, ETO option without order code
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Adjustment of rating in response to customer
requirements – factory clarification required
and maybe type test needed, ETO option
without order code
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Motor protection with 3 PTC thermistors for
tripping – without surge arresters, sole
protection not included
A11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Motor protection with 2 × 3 PTC thermistors for A12
prewarning/tripping – without surge arresters,
sole protection not included
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Motor protection with 3 PTC thermistors for
tripping as sole protection on converter (TMS)
A15
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Motor protection with 2 × 3 PTC thermistors
for prewarning/tripping as sole protection on
converter (TMS)
A16
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Measuring of winding temperature by means of A23
embedded KTY84-130 temperature sensor
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Measuring of winding temperature by means
of 2 × embedded KTY84-130 temperature
sensors
A25
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Monitoring of winding temperature using 3
Pt100 resistance thermometers – 2-wire from
element and terminal box; for round-wire
windings only
A60
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Monitoring of winding temperature using 2 × 3 A61
Pt100 resistance thermometers – 2-wire from
element and terminal box; for round-wire
windings only
–
–
–
–
O.R. O.R. O.R. O.R. O.R. ✓
✓
✓
✓
✓
✓
✓
3 Pt100 resistance thermometers in stator
winding, 3-wire connection from auxiliary
terminal box
A63
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 resistance thermometers in stator
winding, 3-wire connection from auxiliary
terminal box
A64
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers without A65
surge arresters for 4-wire connection from
terminal box – for pre-formed coil winding only
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers with
A66
surge arresters for 4-wire connection from
terminal box – for pre-formed coil winding only
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers in
shielded design without surge arrester for
4-wire connection from terminal box – for preformed coil winding only
A67
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers in
Q40
shielded design to Ex i with surge arresters for
3- and 4-wire connection from terminal box –
for pre-formed coil winding only
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2/92
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
V80
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Winding Pt100 in 3- or 4-wire type from sensor Q43
instead of from terminal (not Ex i Pt100!)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing Pt100 in 3- or 4-wire type from sensor Q44
instead of from terminal – optionally possible
for V80, A40, A42
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
One thermocouple per bearing
Q49
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring
(preferred brand), with loose cable –
for each sensor
V14
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring
(preferred brand), without terminal box –
for each sensor
V15
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
3 transmitters, 4 to 20 mA for Pt100 winding
P20
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
1 transmitter with digital display with
Ex d or Ex i approval
V88
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Pt100 winding in tolerance class A with
calibration certificate
V78
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Site altitude max. 1500 m (observe derating) – D06
derating in accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 2000 m (observe derating) – D07
derating in accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 2500 m (observe derating) – D08
derating in accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 3000 m (observe derating) – D09
derating in accordance with reduction table,
efficiency class of motor is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 45 °C (observe
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
D11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 50 °C (observe
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
D12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
1PS1. . . - . . . . . - . . . . -Z
Special electrical designs/winding protection (continued)
2 Pt100 double resistance thermometers in
shielded design (Ex i) for roller bearing or
sleeve bearing
Siemens D 83.1 · 2014
2/93
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection (continued)
2
Cooling air temperature max. 55 °C (observe
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
D13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 60 °C (observe
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
D14
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coolant temperature below +40 °C with
increased output – factory clarification
required, not applicable for IE2.
D18
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Utilization to temperature class 155 (F) with
higher output – higher output on request, not
applicable for IE2.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
C12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Rated output of the lower output level – IEC
output levels are maintained, only in
combination with D06 to D18.
No additional charge when special voltage
is selected (11th position of Article No. = 9).
C29
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Temperature class F
W00
–
–
–
–
–
–
–
–
–
–
–
–




–
–
–
✓
✓
✓
Temperature class H
W01
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
Special insulation for increased voltage load
in converter-fed operation (phase/phase
2250 VPeak/derating) – for LOHER CHEMSTAR
at 8th position of the Article No. = 2
1)
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
Sealing of winding overhangs with silicone
rubber
W03
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Sealing of cable duct with silicone rubber
W04
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Efficiency according to efficiency class IE3
(Premium Efficiency) – factory clarification
required
D25
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
Non-standard voltage and/or frequency for
separate fan motor
Y81 • and
–
identification
code
✓
✓
✓
✓
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Other special electrical designs/configurations
Colors and paint finish
Internal corrosion protection system J08
W10
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Coating system N08 – 110 µm (C3 medium) –
corrosion resistance acc. to EN/ISO 12944-5
= C3
V09
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system N14/J08 – 170 µm (chemical
industry + onshore, C5 industrial climate) –
corrosion resistance acc. to EN/ISO 12944-5
= C5 (5 to 15 years) for industrial climate
V10
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system N14A (chemical industry +
onshore, C5 industry) – corrosion resistance
acc. to EN/ISO 12944-5 = C5 (5 to 15 years)
for industrial climate
W14
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
2/94
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Colors and paint finish (continued)
Special prime coat system Z05 with internal
corrosion protection system J08
W15
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Coating system Z21/J08 – 210 µm (offshore,
C5M-M) – corrosion resistance acc. to EN/ISO
12944-5 = C5 (5 to 15 years) – sea climate
V11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Increased layer thickness 275 µm for coating
system Z21 (C5M-high) – only in combination
with V11 – corrosion resistance acc. to EN/ISO
12944-5 = C5 high (> 15 years) – sea climate
V19
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special offshore paint finish S13 with reference V12
to NORSOK M501 (C5M-high) with comments
and deviations – corrosion resistance acc. to
EN/ISO 12944-5 = C5 high (> 15 years) –
sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special coating system S11/J08 (e.g. submerged motors)
V13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Unpainted, only primed
K24
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Unpainted
K23












–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Y50 • and
–
identification
code
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Standard paint finish in RAL 1004, 1018, 2000, Y53 • and
✓
2004, 5009, 5012, 5015, 6003, 6011, 7000,
special finish
7011, 7031, 7038, 9002
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special paint finish in RAL 1004, 1018, 2000, Y54 • and
✓
2004, 5009, 5012, 5015, 6003, 6011, 7000,
special finish
7011, 7031, 7038, 9002 – (specify special
RAL….
coating system in addition, e.g. V10, V11, W14,
etc.)
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
RAL colors, other than those offered above
Y51 • and
✓
special finish
RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special non-RAL colors
Y71 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Outer coating 110 µm for zinc-galvanized noise V98
cabinet – V98 = Outer coating 110 µm for
zinc-galvanized noise cabinet
Special colors according to Munsell or British
Standard
Other paint combinations/systems or RAL
colors to customer specification
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Design for Zones according to ATEX
Ex nA II T3 (Zone 2) design according to
IEC 60079-15 for converter-fed operation –
system test on original converter
M73
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Design for Zone 21 (conductive dust) for
mains-fed operation
M34
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design for Zone 21 (conductive dust) for
converter-fed operation
M38
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design in double protection additionally for
dust, Zone 22 for mains-fed operation, no
hybrid certification – non-conductive dust
W20
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design in double protection additionally for
dust, Zone 21 for converter-fed operation,
no hybrid certification – non-conductive and
conductive dust
W21
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design in double protection additionally for
dust, Zone 22 for converter-fed operation,
no hybrid certification – non-conductive dust,
select options for converter-fed operation
separately
W22
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Siemens D 83.1 · 2014
2/95
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
W23
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design acc. to GL (Germanischer Lloyd),
CT 45 °C with manufacturer's declaration –
non essential
W24
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design acc. to LRoS (Lloyds Register of
Shipping), CT 45 °C with manufacturer's
declaration – non essential
W25
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design acc. to BV (Bureau Veritas), CT 50 °C W26
with manufacturer's declaration – non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design acc. to DNV (Det Norske Veritas),
CT 45 °C with manufacturer's declaration –
non essential
W27
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design acc. to ABS (American Bureau of
Shipping), CT 50 °C with manufacturer's
declaration – non essential
W28
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Design acc. to RINa (Registro Italiano Novale), W29
CT 50 °C with manufacturer's declaration –
non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Other certifications, motors for upper deck
mounting and acceptance tests to classification – factory clarification required
W99
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Design acc. to GL (Germanischer Lloyd),
CT 45 °C, essential drive 1)
Q60
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to LRoS (Lloyds Register of
Shipping), CT 45 °C with manufacturer's
declaration, essential drive 1)
Q61
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to BV (Bureau Veritas), CT 45 °C
with manufacturer's declaration, essential
drive 1)
Q62
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to DNV (Det Norske Veritas),
CT 45 °C with manufacturer's declaration,
essential drive 1)
Q63
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to ABS (American Bureau of
Shipping), CT 50 °C with manufacturer's
declaration, essential drive 1)
Q64
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to RINa (Registro Italiano Novale), Q65
CT 50 °C with manufacturer's declaration,
essential drive 1)
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to CCS (China) CT 45 °C with
manufacturer's declaration, essential drive 1)
Q66
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to USSR (Russia) CT xx °C with
manufacturer's declaration, essential drive 1)
Q67
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to PR (Poland) CT xx °C with
manufacturer's declaration, essential drive 1)
Q68
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Design acc. to NKK (Japan) CT xx °C with
manufacturer's declaration, essential drive 1)
Q69
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Coolant temperature in temperature range
-50 to +40 °C – roller bearing design
D02
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Coolant temperature in temperature range
-40 to +40 °C – roller bearing design
D03
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Coolant temperature in temperature range
-30 to +40 °C – roller bearing design
D04
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Electrical design according to NEMA MG1-12 D30
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
1PS1. . . - . . . . . - . . . . -Z
Design for Zones according to ATEX (continued)
2
Design in double protection additionally for
dust; Zone 21 for converter-fed operation;
no hybrid certification – select options for
converter-fed operation separately
Ship design "Operation below deck"
Individual certifications
2/96
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Individual certifications (continued)












–
–
–
–
Certification acc. to NEPSI – design may differ D32
(different cover size)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Certificate EAC for Eurasian Customs Union
D35
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IEC Ex certificate
D37












✓
✓
✓
✓
Terminal box on right-hand side
(view onto DE)
K09
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓




Terminal box on left-hand side (view onto DE)
K10
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓




Terminal box on top
K11
















Terminal box to IP65
Q71
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Cable entry thread metrically different from
W30
standard – thread dimension must be specified
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Enlarged connection system for main terminal L00
box – not in combination with K53 (Ex d
terminal box)
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Undrilled cable gland plate – for main
terminal box
L01
–
–
–
–
–
–
–
–
–
–
–
–




Split terminal box
W31
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
NPT thread – specify size in plain text, gland
cannot be supplied
W32
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Cable gland, standard – one cable gland for
supply cable in the main terminal box, nonarmored cable
K54
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Cable gland, standard thread size for auxiliary W33
connection (1 unit) – for connection cable of
accessories in main or auxiliary terminal box
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Main terminal with tinned cable lug for copper W34
cable
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Saddle terminal for connection without cable lug W35
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
China Energy Efficiency Label
D34
Special mechanical designs
Special cable gland – special sizes or
armored cable, exact cable data needed
Y97 • and
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
identification
code
Material of auxiliary terminal box: Stainless
steel – not in combination with K53 (Ex d
terminal box)
M51
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Separate auxiliary terminal box for anticondensation heater
M52
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Heater in main terminal box
P84
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Auxiliary terminal box in cast-iron design with Q75
"undrilled" removable cable gland plate – not in
combination with K53 (Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Auxiliary terminal box in cast-iron design with Q76
removable cable gland plate "drilled with metric
thread and sealed with metal plug" – not in
combination with K53 (Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Siemens D 83.1 · 2014
2/97
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Auxiliary terminal box Ex e/cast-iron – not in
combination with K53 (Ex d terminal box)
W72
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cable outlet radially without terminal box with
1 m free cable length (4- or 7-core)
W38
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Additional price for each additional meter of
cable – only in combination with W38
W39
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Connection cable for accessories – only in
W40
combination with W38, length as power cable
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Additional separately supplied terminal box
made of cast-iron with baseplate – main
terminal box certified acc. to Ex e
W41
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Cable entry from DE
K83
















Cable entry from NDE
K84
















Rotation of the terminal box by 180°
K85
















Vibration quantity level A – IEC 60034-14
K01
















Vibration quantity level B – IEC 60034-14 –
for converter-fed operation only at lowest and
highest speed of speed range
K02
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft and flange with increased accuracy
according to DIN 42955-R
K04
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Radial sealing ring at DE for horizontal
flange-mounting types (DE oil-tight)
K17
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Radial sealing ring at DE for vertical
flange-mounting types (DE oil-tight)
W43
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Labyrinth sealing for external bearing seal
W44
O.R. O.R. O.R. O.R. O.R. O.R. O.R. ✓
✓
✓
✓
✓




Bearing for increased cantilever forces
(roller bearing DE) with regreasing device –
comprising K40
K20
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Bearings for increased axial forces
V20
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Regreasing device DE/NDE
K40
–
–
–
–
✓
✓
✓
✓
✓
✓






Grease-collecting chamber if regreasing is
applied
W45
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Bearing insulation NDE for roller bearings –
binding for frame sizes 315 to 500 for
converter-fed operation
L27
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. ✓
✓
✓
✓
✓
✓
✓
✓
Shaft grounding device – up to -20 °C only
V36
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Located bearing DE
K94
















Located bearing NDE
L04
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special grease Klüber Staburags NBU8EP –
ETO option (Engineer To Order) without
order code
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special grease Klüber Isoflex SL2 – ETO option –
(Engineer To Order) without order code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special grease Barierta L55/2 – ETO option
(Engineer To Order) without order code
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Other special grease – ETO option
(Engineer To Order) without order code
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Pt100 bearing in tolerance class A with
calibration certificate – only in combination
with Q44
V76
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring
Bently Nevada Accelerometers plus separate
terminal box – for each sensor
V16
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2/98
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
V17
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing insulation at both ends for roller
V18
bearing design motors (DE linked to ground) –
for horizontal mounting only (vertical mounting
on request)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Grease extractors for DE and NDE
V21
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
Automatic grease lubricator at DE and NDE
(permissible temperature range from -15 to
+50 °C)
V22
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Enlarged spent grease chamber at DE and
NDE
V25
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
External grounding (additionally)
W46
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
VIK design – including W14, W69
1PS1. . . - . . . . . - . . . . -Z
Special mechanical designs (continued)
Bearing ventilation at DE for lower bearing
temperature for roller bearing design
grease-lubricated
K30
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
W09
LOHER CHEMSTAR Plus design, including
VIK design – including K30, K51, W14, W69
and IP66 bearing seal, vibration quantity level
as grade B
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Second rating plate, supplied loose
K31
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Second rating plate installed in terminal box
W47
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extra rating plate for customer data (each
plate) – data must be specified as text in the
order
Y82 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Rating plates made of stainless steel
W48
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Rating plates in languages other than English
or German – main rating plate or extra rating
plates O.R. factory clarification required
W49
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Additional measures for 2 to 4 years storage
in accordance with storage regulations
W50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater 230 V
K45
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Anti-condensation heater 115 V
K46
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Anti-condensation heater rated voltage range
110 to 120 V (min. 100 V, max. 132 V)
Ex e II T3
M14
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Anti-condensation heater rated voltage range
220 to 240 V (min. 200 V, max. 264 V)
Ex e II T3
M15
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Anti-condensation heater 208 to 254 V –
1-phase (self-limiting for Ex e, Ex n)
W88
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Heater with thermostat (e.g. Elmess)
V75
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Second standard shaft extension – for 100 %
torque
K16
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Non-standard cylindrical shaft extension
(standard diameter or smaller) – in case of
significantly different diameters, especially
high-pole motors due to the maximum
permissible torque stress, factory clarification
required
Y55 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft of material 1.7225
W51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Shaft of material 1.4021
W52
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R. O.R. –
–
–
–
Siemens D 83.1 · 2014
2/99
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Shaft end of stainless steel butt-welded
(material 1.4571)
W53
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R. O.R. –
–
–
–
Shaft made of special steel – for increased
torque loading, e.g. 1.7225-42CrMo4
L72
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Welded standard stator housing for surfacecooled motors – factory clarification required
because of possible dimension deviations
W54
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. 



Welded copper bar rotors
–
–
–
–
W55
–
–
–
O.R. ✓
✓
✓
✓
✓
✓
✓
✓




Second shaft extension for IM B3 up to 100 % Q21
Trated; cylindrical with feather key
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special rotor for heavy duty starting (e.g.
double-cage rotor or brass rotor) – testing
needed
Q22
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Generator design (asynchronous) with
1.8 times runaway speed
W56
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
IP56 degree of protection
K51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓




IP65 degree of protection
K50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IP66 degree of protection
L94
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
IP67 degree of protection
K93
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
IP67 degree of protection without level switch W58
(resin material for terminal box protection will
be shipped as extra package, 8 m submerged,
72 h max.)
O.R. O.R. O.R. O.R. O.R. O.R. O.R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
Condensation drainage holes sealed with
screw
W60
–
–
–
–








✓
✓
✓
✓
Increased tropicalization, humidity ≥ 80 % –
LOHER CHEMSTAR incl. V10 and W71,
LOHER VARIO incl. V10 and P45
W61
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Tropical design for outdoor onshore installation L28
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Design without fan and fan cover – motor
mounted in air stream of driven fan; without
external air stream cooling, due to derating
W62
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
Fan with plastic coating in case of metal fan
W63
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Fan of aluminum
W64
✓
✓
✓
✓
✓
✓
✓
✓
–
–

–
–
–
–
–
Fan of steel
W65
O.R. O.R. O.R. ✓
✓
✓
✓
✓
✓
✓
✓
✓




External fan of brass
W66
O.R. O.R. O.R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
External fan of stainless steel
V94
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special ventilation for on-deck motors
W67
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Fan cover of steel sheet (3 mm thick)
W68
O.R. O.R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Galvanized fan cover – included in K30 and
W09
W69
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Noise class 3 for clockwise direction of rotation K37
viewed onto DE – for 2-pole motors only
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Noise class 3 for counter-clockwise direction of K38
rotation viewed onto DE – for 2-pole motors only
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Clockwise – direction of rotation must be
specified for LOHER VARIO 2-/4-pole motors
K97
–
–
–
–
–
–
–
–
–
–
–





Counter-clockwise – direction of rotation must
K98
be specified for LOHER VARIO 2-/4-pole motors
–
–
–
–
–
–
–
–
–
–
–





Noise reduction: Silencer for air inlet (DW,
NMA) – only in combination with K97 or K98
L20
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Stainless steel grid for air inlet silencer –
only in combination with L20
L25
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2/100
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Operation in both directions of rotation –
K99
for LOHER VARIO (frame sizes 355 to 500)
2-/4-pole increased noise values and possible
derating












✓
✓
✓
O.R.
Higher number of starts (up to 3000 starts per Q23
year) – factory testing is necessary
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Full-key balancing
L68
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Support ring for coupling guard
L15
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Fitting of coupling halves (customer-supplied, L17
finish-machined and balanced) – supplied
4 weeks ahead of testing date
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. ✓
✓
✓
✓
Motor mounting material: bolts for mounting on L31
steel foundation with shims (V2A), taper pins
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Motor mounting material: T-head bolts, anchor L33
sleeves and soleplates for mounting on
concrete foundation
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Half-key balancing
L69
















Heavy duty bearing design for extreme
cantilever forces
L96
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
1PS1. . . - . . . . . - . . . . -Z
Special mechanical designs (continued)
Noise cabinet with inspection door – zincgalvanized, unpainted – noise reduction
approx. 15 dB(A) based on GG1
V32
Stainless steel screws and plates
W71
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Stainless steel external bolts
P45
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Ambient temperatures down to -40 °C;
preheating before operation necessary
W73
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Ambient temperatures down to -40 °C;
preheating before operation necessary
(factory clarification required)
W77
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Ambient temperatures down to -60 °C;
preheating before operation necessary –
factory clarification required
W78
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R. O.R. O.R.
Ambient temperatures down to -40 °C Ex nA II W79
and Ex e II; no preheating before operation
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Mounting of rotary pulse encoder, 1024 pulses W96
per revolution -10 to 30 V, HTL level –
explosion-proof version
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Ambient temperatures down to -55 °C;
no preheating before operation
W98
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Mounting of rotary pulse encoder Ex version
V72
(preferred brand) – 1024 pulses per revolution
-10 to 30 V, HTL level – explosion-proof version
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Mounting of rotary pulse encoder Ex version
V77
with integrated shaft grounding (preferred
brand) – 1024 pulses per revolution –10 to 30 V,
HTL level – explosion-proof version; up to
20 °C; select bearing insulation separately
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
Mechanical protection for rotary pulse encoder M68
–
–
–
–
–
–
–
–
–
–
–
–
✓
Mounted axial forced ventilation – forced
ventilation should preferably be specified in
the 10th position of the Article No.
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
G17
✓
Siemens D 83.1 · 2014
✓
✓
2/101
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
2
Mounted radial forced ventilation
W81
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R. O.R. –
–
–
–
Forced ventilation at NDE
V28
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Backstop for clockwise direction of rotation
viewed onto DE (counter-clockwise blocked)
G48
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Backstop for counter-clockwise direction of
rotation viewed onto DE (clockwise blocked)
G49
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Tapered shaft extension with shaft nut
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
T36
–
–
–
–
Sun canopy mounting in normal steel, cover
V87
in unpainted stainless steel for vertical motors
–
–
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Sun canopy mounting in normal steel, cover in V99
unpainted stainless steel for horizontal motors
–
–
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Preparation for SPM bearing monitoring, only
M8 drilled hole for measuring nipple
W84
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Machined surface on motor foot with dowel
pin holes
Q94
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Base frame for height adaptation of max.
2 frame sizes difference
Q96
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Adaptation of foot and shaft dimensions to next Q97
higher frame size (no adaptation of terminal
box!)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Adaptation of flange dimensions and drilled
holes in flange
Q98
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Preparation for later installation of sun
protection shield
Q99
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
SPM bearing monitoring: Measuring nipple
system 32 - thread M8, DE and NDE
G50
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shock pulse measurement (SPM), fixed sensor H05
and distribution box
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
SPM bearing monitoring: Fixed sensor system W85
40 thread M8
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Bearing temperature monitoring with PTC
thermistors at DE/NDE
W86
–
–
–
–
O.R. O.R. ✓
✓
✓
✓
✓
✓
–
–
–
–
Speed monitoring by inductive proximity
switches, Pepperl + Fuchs
A03
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 Pt100 resistance thermometers for 3- or
4-wire connection from terminal box for roller
bearings – 1 × DE and 1 × NDE
A40
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R. ✓
✓
✓
✓
2 Pt100 double resistance thermometers for
4-wire connection from terminal box for roller
bearings – 1 × DE and 1 × NDE
A42
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 dial-type thermometers for roller bearings
and sleeve bearings with meter unit without
contacts
A70
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 dial-type thermometers for roller bearings
and sleeve bearings with meter unit on stator
housing and 2 NO contacts
A71
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2/102
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
Frame size
1PS1. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
Bearing temperature monitoring with
1 × Pt100 per bearing in 2-wire connection
A72
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
–
–
–
–
One dial-type thermometer with 2 contacts,
capillary principle – Ex i design without
supply unit!
V89
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Engraved tag plate fixed on terminal box
V96
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
4 mm shims, stainless-steel base
(V4A/AISI 316) – not laminated
Q92
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
4 mm shims, brass base – not laminated
V31
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Slotted feet holes
Q95
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Pre-formed coil for LV motors
V01
–
–
–
–
–
–
–
–
–
–
–
–
O.R. O.R. O.R. O.R.
2 metal test sheets (100 × 150 mm)
with paint layer for special acceptance test
V08
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Impact protection – for built-on devices,
per device
M81
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
"High-speed motors" for speed range
3600 < n ≤ 6000 rpm – factory clarification
required; torque characteristic and cutoff
frequency affect the design
W87
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. ✓
✓
✓
✓
"High-speed motors" for speed range
> 6000 rpm – factory clarification required;
torque characteristic and cutoff frequency
affect the design; ETO option (Engineer To
Order) without order code
–
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Retrofit (description of special design
separately) – adaptation to an existing motor
B15
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Extension of the liability for defects by
12 months to a total of 24 months from
delivery
Q80
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
18 months to a total of 30 months from
delivery
Q81
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
24 months to a total of 36 months from
delivery
Q82
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
30 months to a total of 42 months from
delivery
Q83
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
36 months to a total of 48 months from
delivery
Q84
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
48 months to a total of 60 months from
delivery
Q85
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects


•
✓
O. R.
–
1)
Standard version
Without additional charge
This order code only determines the price of the version –
Additional plain text is required.
With additional charge
Possible on request
Not possible
Coding in 8th position of the article number, for
LOHER CHEMSTAR = 2.
Siemens D 83.1 · 2014
2/103
2
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Dimensions for frame sizes 90 L to 250 M
■ Dimensional drawings
Type of construction IM B3
For flange dimensions, see Page 2/110.
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
EA
HD
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
FA
DA
2
AA
DC
A
AB
EE
B
BB
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/110.
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD/AD' AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER CHEMSTAR
90 L
2 … 16
140
40
180
186
–
138
69
125
62
155
15
56
90
13
303
10
426
100 L
2 … 16
160
40
205
213
–
138
69
140
45
170
15
63
100
18
327
12
482
112 M
2 … 16
190
45
240
237
–
138
69
140
45
170
18
70
112
18
352
12
465
132 S
2 … 16
216
50
260
278
274
186
92
140
92
228
25
89
132
18
406
12
574
132 M
2 … 16
216
50
260
278
274
186
92
178
92
228
25
89
132
18
406
12
574
160 M
2 … 16
254
60
310
331
305
186
92
210
60
307
21
108
160
27
465
15
786
160 L
2 … 16
254
60
310
331
305
186
92
254
60
307
21
108
160
27
465
15
786
180 M
2 … 16
279
70
349
364
349
254
123
241
99
359
24
121
180
19
529
15
822
180 L
2 … 16
279
70
349
364
349
254
123
279
99
359
24
121
180
19
529
15
822
200 L
2 … 16
318
80
400
404
367
254
123
305
120
425
32
133
200
25
569
19
884
225 S
2
4 … 16
356
90
446
451
384
254
123
286
136
438
34
149
225
26
609
19
966
996
225 M
2
4 … 16
356
90
446
451
384
254
123
311
136
438
34
149
225
26
609
19
966
996
250 M
2
4 … 16
406
100
505
489
522
382
176
349
110
420
35.5
168
250
35
772
25
1028
2/104
Siemens D 83.1 · 2014
522
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Dimensions for frame sizes 90 L to 250 M
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/110.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
2
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/110.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
M
GA
GC
ZxS
DB
Frame size
No. of poles
EC
ED
DC
EE
Dimension designation acc. to IEC
DE shaft extension
LC
LE
LF
LL
D
DB
E
EB
NDE shaft extension
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER CHEMSTAR
90 L
2 … 16
486
173
459
138
24
M8
50
40
5
8
27
24
M8
50
40
5
8
27
100 L
2 … 16
552
205
520
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
112 M
2 … 16
535
210
505
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
132 S
2 … 16
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
132 M
2 … 16
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
160 M
2 … 16
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
160 L
2 … 16
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
180 M
2 … 16
942
415
912
246
48
M16 110
100
5
14
51.5 48
M16 110
100
5
14
51.5
180 L
2 … 16
942
415
912
246
48
M16 110
100
5
14
51.5 48
M16 110
100
5
14
51.5
200 L
2 … 16
1004
460
974
246
55
M20 110
100
5
16
59
55
M20 110
100
5
16
59
225 S
2
4 … 16
1086
1146
480
510
1062
1092
246
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
225 M
2
4 … 16
1086
1146
480
510
1062
1092
246
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
250 M
2
4 … 16
1178
496
1140
354
60
65
M20 140
125
7.5
18
64
69
60
65
M20 140
125
7.5
18
64
69
Siemens D 83.1 · 2014
2/105
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Dimensions for frame sizes 280 S to 355 L
■ Dimensional drawings (continued)
Type of construction IM B3
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
EA
HD
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
FA
DA
2
AA
DC
A
AB
EE
B
BB
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/110.
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD/AD' AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER CHEMSTAR
280 S
2
4 … 16
457
110
570
550
552
382
176
368
120
520
51
190
280
40
768
26
1119
280 M
2
4 … 16
457
110
570
550
552
382
196
419
120
520
51
190
280
40
768
26
1119
315 S
2
4 … 16
508
125
630
622
660
509
196
406
165
575
59
216
315
40
955
28
1304
1334
315 M
2
4 … 16
508
125
630
622
660
509
196
457
165
575
59
216
315
40
955
28
1304
1334
315 LL
2
4 … 16
508
125
630
622
676
509
196
508
165
575
59
216
315
40
971
28
1491
1521
315 L
2
4 … 16
508
125
630
622
676
509
196
560
165
575
59
216
315
40
971
28
1491
1521
355 M
2
4 … 16
610
120
730
700
729
560
150
650
45
254
355
50
1084 30
1400
1430
355 L
2
4 … 16
610
120
730
700
729
630
150
720
45
254
355
50
1084 30
1470
1500
2/106
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Dimensions for frame sizes 280 S to 355 L
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/110.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
2
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/110.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
GA
M
GC
ZxS
DB
Frame size
No. of poles
EC
ED
DC
EE
Dimension designation acc. to IEC
DE shaft extension
LC
LE
LF
LL
D
DB
E
NDE shaft extension
EB
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER CHEMSTAR
280 S
2
4 … 16
1269
582
1231
354
65
75
M20 140
125
7.5
18
20
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
280 M
2
4 … 16
1269
582
1231
354
65
75
M20 140
125
7.5
18
20
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
315 S
2
4 … 16
1494
1554
630
660
1422
1452
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
65
79.5 80
M20 140
170
125
140
7.5
15
18
22
69
79.5
315 M
2
4 … 16
1494
1554
630
660
1422
1452
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
315 LL
2
4 … 16
1694
1741
630
660
1609
1639
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
315 L
2
4 … 16
1694
1741
630
660
1609
1639
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
355 M
2
4 … 16
1550
1610
674
704
1563
1593
401
75
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5 75
95
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5
95
355 L
2
4 … 16
1620
1680
709
739
1633
1663
401
75
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5 75
95
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5
95
Siemens D 83.1 · 2014
2/107
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Dimensions for frame sizes 355 L to 500 L
■ Dimensional drawings (continued)
Type of construction IM B3
Design of terminal box and position for LOHER VARIO
G_D083_EN_00062
L (2 pole)
L (4-pole to 16-pole)
LE
LL
AD'
AD'
DB
EB
ED
E
BA
ØK
HD'
HB
HD
AA
C
BC
H
HA
HB'
GA
HB'
AC
D
F
HD'
2
A
AB
B
BB
AF
AF
Types of construction IM B5 and IM V1
For flange dimensions, see Page 2/110.
Design of terminal box and position for LOHER VARIO
G_D083_XX_00058
LC
LF
L
LE
AG
AS
LL
LA
EA
FA
M
P
N
D
AC
F
DA
HD
E
T
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD/AD' AF
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER VARIO
355 L
2
4 … 16
630
140
780
740
500
800
210
950
254
355
35
1190 33
1860
1890
400 L
2
4 … 16
710
185
860
820
500
900
210
1090
280
400
30
1297 33
1975
2015
450 L
2
4 … 16
800
230
900
920
500
1000 260
1260
315
450
30
1375 39
2095
2135
500 L
2
4 … 16
900
220
1030 1015
500
1120 280
1400
335
500
40
1479 39
–
2305
2/108
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Dimensions for frame sizes 355 L to 500 L
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 2/110.
Design of terminal box and position for LOHER VARIO
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
2
EA
HD
FA
M
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 2/110.
Design of terminal box and position for LOHER VARIO
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
FA
AC
F
DA
HD
EA
GA
M
GC
ZxS
DB
Frame size
No. of poles
EC
ED
DC
EE
Dimension designation acc. to IEC
DE shaft extension
LC
D
DB
LE
LF
LL
E
EB
NDE shaft extension
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER VARIO
355 L
2
4 … 16
657
687
75
90
M20 140
M24 170
20
25
79.5 75
95
90
M20 140
M24 170
20
25
79.5
95
400 L
2
4 … 16
695
732
80
100
M20 170
M24 210
22
28
85
106
80
100
M20 170
M24 210
22
28
85
106
450 L
2
4 … 16
707
747
85
110
M20 170
M24 210
22
28
90
116
85
110
M20 170
M24 210
22
28
90
116
500 L
2
4 … 16
–
747
–
120
–
–
M24 210
–
32
–
127
–
120
–
–
M24 210
–
32
–
127
Siemens D 83.1 · 2014
2/109
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Flange dimensions
■ Dimensional drawings
In EN 50347, the frame sizes
are allocated flange FF with
through holes and flange FT
with tapped holes.
(Z = the number of retaining
holes)
2
G_D083_XX_00064
P
N
G_D083_XX_00063
E
T
M
ZxS
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
Selectable flange
LA
E
M
N
P
S
T
Z
FF165
10
50
165
130
200
11.5
3.5
4
FF215 1)
11
–
215
180
250
14
4
4
FT115
15
50
115
95
140
M8
3
4
FT100 1)
8
–
100
80
120
M6
3
4
FT130 1)
10
–
130
110
160
M8
3.5
4
FF215
11
60
215
180
250
14
4
4
FT130
11
60
130
110
160
M8
3.5
4
FT115 1)
10
–
115
95
140
M8
3
4
FT130 1)
12
–
165
130
200
M10
3.5
4
FF215
11
60
215
180
250
14
4
4
FT165 1)
13
–
265
230
300
14
4
4
FT130
11
60
130
110
160
M8
3.5
4
FT165 1)
12
–
165
130
200
M10
3.5
4
FF265
12
80
265
230
300
14
4
4
FF215 1)
11
–
215
180
250
14
4
4
FF265
12
80
265
230
300
14
4
4
FF215 1)
11
–
215
180
250
14
4
4
FF300
20
110
300
250
350
18
5
4
FF215 1)
11
–
215
180
250
14
4
4
FF265 1)
12
–
265
230
300
14
4
4
FF300
20
110
300
250
350
18
5
4
FF215 1)
11
–
215
180
250
14
4
4
FF265 1)
12
–
265
230
300
14
4
4
FF300
13
110
300
250
350
18
5
4
FF265 1)
12
–
265
230
300
14
4
4
FF400 1)
16
–
400
350
450
18
5
8
FF300
13
110
300
250
350
18
5
4
FF265 1)
12
–
265
230
300
14
4
4
FF400 1)
16
–
400
350
450
18
5
8
FF350
15
110
350
300
400
18
5
8
FF300 1)
15
–
300
250
350
18
5
4
FF400 1)
16
–
400
350
450
18
5
8
FF400
16
110
400
350
450
18
5
8
FF350 1)
15
–
350
300
400
18
5
8
FF400
17
140
400
350
450
18
5
8
FF350 1)
15
–
350
300
400
18
5
8
LOHER CHEMSTAR
90 L
100 L
112 M
132 S
132 M
160 M
160 L
180 M
180 L
200 L
225 S
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2
4 … 16
1)
Flange is selectable at no additional cost.
2/110
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Flange dimensions
■ Dimensional drawings (continued)
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
Selectable flange
LA
E
M
N
P
S
T
Z
16
110
400
350
450
18
5
8
LOHER CHEMSTAR (continued)
225 M
2
FF400
FF350
4 … 16
250 M
280 S
280 M
315 S
2 … 16
2 … 16
2 … 16
2
4 … 16
315 M
2
4 … 16
315 LL
2
4 … 16
315 L
2
4 … 16
1)
15
–
350
300
400
18
5
8
FF400
16
140
400
350
450
18
5
8
FF350 1)
15
–
350
300
400
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
16
–
400
350
450
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
22
–
400
350
450
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
22
–
400
350
450
18
5
8
FF600
22
140
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
170
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
140
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
170
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
140
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
FF600
22
170
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
FF600
22
140
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
FF600
22
170
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
355 M
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
355 L
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
2
LOHER VARIO
355 L
2
4 … 16
FF740
25
140
170
740
680
800
22
6
8
400 L
2
4 … 16
FF940
28
170
210
940
880
1000
22
6
8
450 L
2
4 … 16
FF1080
30
170
210
1080
1000
1150
26
6
8
500 L
2
4 … 16
FF1180
30
–
210
1180
1120
1250
26
7
8
1)
Flange is selectable at no additional cost.
Siemens D 83.1 · 2014
2/111
© Siemens AG 2014
Motors with Explosion Protection
LOHER CHEMSTAR and VARIO 1PS1 motor series
Notes
2
2/112
Siemens D 83.1 · 2014
3
© Siemens AG 2014
Motors without Explosion Protection
3/2
3/2
3/2
3/2
3/3
3/6
3/6
3/6
3/6
3/7
3/7
3/17
3/17
3/22
3/22
3/23
3/23
3/24
3/24
3/37
3/37
3/39
3/39
3/41
3/41
3/43
3/43
LOHER CHEMSTAR
and VARIO 1PS0 motor series
General information
Technical specifications
• LOHER CHEMSTAR and VARIO 1PS0
motor series without explosion protection
• Mechanical design
• Electrical design
• Operation on a frequency converter
• Three-phase motors with external cables
• Motors with built-on backstop
Motors in cast-iron and steel
versions
Selection and ordering data
Pole-changing motors in cast-iron and
steel versions
Selection and ordering data
Brake motors with High Efficiency IE2
in cast-iron and steel versions
Selection and ordering data
Article No. supplements
Selection and ordering data
Special versions
Selection and ordering data
Dimensions for frame sizes 90 L to 250 M
Dimensional drawings
Dimensions for frame sizes 280 S to 355 L
Dimensional drawings
Dimensions for frame sizes 355 L to 500 L
Dimensional drawings
Flange dimensions
Dimensional drawings
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
General information
■ Technical specifications
LOHER CHEMSTAR and VARIO 1PS0 motor series
without explosion protection
General technical specifications
The motors of series 1PS0 without explosion protection are available as LOHER CHEMSTAR and VARIO motors. Motors that
operate in a "safe" or "non-explosive" environment do not require
any special mechanical and electrical protection against explosive gas, vapor or dust. There is no risk of explosion in this case.
The CHEMSTAR motors can be mechanically designed in accordance with VIK specifications ("Verband der Industriellen Energie- und Kraftwirtschaft e. V.", the Association of the Industrial
Energy and Power Industry). These motors therefore correspond
mechanically to the VIK recommendation, they have no Ex marking and are not permitted to be used in potentially explosive
atmospheres of Zone 2. VIK motors with Ex certification are
available for selection in series 1PS1.
Motor type
In general, these motors are suitable for applications in production plants or process engineering equipment in factories (conveyor belts, elevators and cranes, escalators and water pumps).
3
3/2
Siemens D 83.1 · 2014
LOHER CHEMSTAR and VARIO 1PS0 motors
A...A
Frame size
90 … 500
Output range
(50 Hz types)
0.37 ... 1400 kW (thermal utilization in
accordance with temperature class B
at ambient temperature = 40 °C)
Number of poles
2 to 12-pole, also higher number of poles
for special versions
Pole-changing:
• 2 speeds, e.g. 4-/2-pole, 8-/4-pole,
12-/6-pole
• 3 speeds, e.g. 8-/4-/2-pole,
8-/6-/4-pole Dahlander or separate
windings for square-law or constant
torques
Voltage range
Up to 1000 V
Rated voltage
Normal low voltage
Non-standard voltage and/or frequency
as required by the customer
Operating mode
S1 and others
Degree of protection
IP55, IP56 and IP65 to IP68
Cooling method
IC 411, IC 416,
special cooling methods such as
non-ventilated
IC 410, IC 71W water-jacket-cooled
Type of construction
All common types of construction +
special types of construction
Housing
Cast-iron or steel
Bearings
Roller bearings (standard) and special
bearings for high axial and radial forces
Types of protection
None
Noise level
All motors are noise-optimized (noise
values in accordance with EN 60034-9)
low-noise version for 2-pole motors
(GG3) is possible as an option
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
General information
■ Technical specifications (continued)
G_D083_XX_00076
G_D083_XX_00075
Mechanical design
Sectional view of CHEMSTAR 1PS0 three-phase motor,
frame sizes 225 to 355
Example: 1PS0316-0BD60-0AA3 (motor type: ANGA-315LL-02)
200 kW, 2-pole
3
G_D083_XX_00071
Sectional view of CHEMSTAR 1PS0 three-phase motor,
frame sizes 90 to 200 LB
Example: 1PS0132-0BD60-0AA3 (motor type: ANGA-132SR-02)
7.5 kW, 2-pole
Sectional view of VARIO 1PS0 three-phase motor, frame sizes 355 to 500,
with regreasing device
Example: 1PS0357-0BH0.-0AA2 (motor type: ANSA-355LC-02)
355 kW, 2-pole
Housing, ventilation
Housing and fan for motors of the LOHER CHEMSTAR and VARIO 1PS0 series
Frame size
Housing
Bearing plates
Fan cover
Fan 2)
Material
Design of
housing feet 1)
Surface
Material
Material
Material
Cast-iron
Cast
With cooling fins
Cast-iron
Sheet steel
Plastic 3)
LOHER CHEMSTAR
90 … 280
315
Screwed on
Aluminum 3)
355
Cast
Steel
LOHER VARIO
355 … 450
500
Steel
Welded
With cooling fins
2)
1)
For designs with feet only.
2)
Suitable for both directions of rotation, but LOHER VARIO 2- and 4-pole are
only suitable for one direction of rotation.
Cast-iron
Sheet steel
Steel
Steel, bearing hub
in cast-iron
3)
For specific operating conditions, the external fans can be constructed
in aluminum for frame sizes 90 to 225 and in sheet steel for frame sizes
250 to 315. This applies in the case of increased coolant temperature in
particular and a high number of starts. The cooling air flow from NDE to DE
must not be obstructed. The intake area in front of the fan cover must not
be obstructed.
Siemens D 83.1 · 2014
3/3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
General information
■ Technical specifications (continued)
The position of the terminal box and cable entries can be obtained from the tables below. The terminal boxes can be rotated
by 90° which allows the incoming supply cable to be fed in from
different sides.
Frame sizes 132 to 160, 1 auxiliary terminal box (M50) is possible,
Frame sizes 180 to 225, 2 auxiliary terminal boxes (M50) are possible
Figure 3 Terminal box for LOHER CHEMSTAR frame sizes 250 to 280
Figure 4 Terminal box for LOHER CHEMSTAR frame sizes 315 to 355
G_D083_XX_00094
Auxiliary terminal box is not possible
G_D083_XX_00093
3 auxiliary terminal boxes (M50) are possible
3 auxiliary terminal boxes (M52) are possible
Figure 5 Terminal box for LOHER VARIO frame sizes 355 to 500
25
3
Figure 2 Terminal box for LOHER CHEMSTAR frame sizes 132 to 225
G_D083_XX_00091
Figure 1 Terminal box for LOHER CHEMSTAR frame sizes 90 to 112
Monitoring devices or anti-condensation heaters are connected
via auxiliary terminals in the terminal box. In frame size 132 and
above, the auxiliary terminals can be installed in an auxiliary
terminal box that is mounted on the side of the terminal box
corresponding to the type of protection of the motor. The design
of the terminal boxes can be seen in the schematic diagrams.
The number and size of the main and auxiliary terminals as well
as their characteristic data can be obtained from the tables
below.
G_D083_XX_00092
Terminal boxes
G_D083_XX_00072
With the VARIO connection system, the auxiliary terminal boxes (max. 3)
are mounted on the housing
3/4
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
General information
■ Technical specifications (continued)
Terminal box for 1PS0 motors
Degree of protection: IP55
Type of protection:
–
Housing material:
Cast-iron
Frame size
Standard terminal box
Terminal studs
Enlarged terminal box – Option L00
Conductor
cross-section
Auxiliary terminals in main
terminal box
PE/ground
connection
Fig. No.
on Page
3/4
Terminal
studs
Conductor
cross-section
min.
max.
Number × max.
cross-section 1)
max.
min.
max.
mm2
mm2
mm2
mm2
mm2
mm2
6 × M4
1
2.5 (6) 2)
4 × 2.5
4
6 × M5
1
10 (25) 2)
6 x M6
2.5
35 (50) 2)
6 × M10
6 … 70
Fig. No.
on Page
3/4
LOHER CHEMSTAR
90
6 2)
Fig. 1
6 × M5
1
10
Fig. 2
(25) 2)
25
Fig. 2
6 x M6
2.5
35
Fig. 2
(50) 2)
70
Fig. 2
6 × M10
6
70
Fig. 3
95
Fig. 3
6 × M12
16
150
Fig. 4
150
Fig. 4
6 × M16
16
300
Fig. 4
100
112
132
160
180
12 × 4
200
3
225
250
280
315 S/M
6 × M12
16 … 150
315 L
6 × M16/M20 3)
16 … 300
16 × 4
Special connection system on request
LOHER VARIO
355 … 500
Fig. 5
Number and size of entry thread and cable glands (to be ordered specially), see table "Cable glands for 1PS0 motors".
Cable glands for 1PS0 motors
Frame size
Standard cable glands 4)
Entry thread
6)
Max. entry thread 5)
Cable diameter, type HSK-K
7)
Metric
NPT 8)
2 × 1"
mm
LOHER CHEMSTAR
90
1 × M25 × 1.5
9 … 16
1 × M25 × 1.5
100
1 × M32 × 1.5
13 … 20
1 × M32 × 1.5
112
2 × M32 × 1.5
2 × M32 × 1.5
132
160
2 × M40 × 1.5
22 … 32
2 × M50 × 1.5
32 … 38
2 × M63 × 1.5
37 … 44
180
200
2 × M40 × 1.5
2 × 1½"
2 × M63 × 1.5
2 × 2"
2 × M100 × 1.5
2 × 3½"
9)
9)
225
250
280
315 S/M
315 L
355
LOHER VARIO
355 … 500
9)
9)
Entry thread for PTC thermistor, heating:
M20 × 1.5/D = 6 up to 12 mm
The entry threads are sealed on delivery with certified plugs.
The terminal boxes will only be supplied with cable glands in
accordance with the table if specially ordered. Special cable
glands can be fitted on request.
1)
Rated voltage/max. working voltage 400 V/440 V.
2)
Maximum conductor cross-section with cable lug.
3)
Alternatively, larger studs for higher rated current.
4)
Materials used for standard gland: polyamide
5)
Other threads, number and size on request.
6)
Number and size of entry threads according to DIN 42925.
7)
Cable glands suitable for the infeed of unshielded/non-reinforced cables
and leads.
8)
Cable glands for NPT thread on request.
9)
Undrilled gland plate.
Siemens D 83.1 · 2014
3/5
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
General information
■ Technical specifications (continued)
Electrical design
The outputs and electrical values listed in the selection tables
can be changed by modifying the configurations. For example,
if a copper cage rotor is used in place of a die-cast aluminum
rotor, an even higher degree of efficiency can be achieved.
The insulation system (stator winding) and the connection system (terminal boxes, terminals) of this motor series are designed
for rated voltages up to 1000 V.
The motors are equipped with 6 terminals. They can be operated
in star or delta. The standard connection for all 400 V motors is
delta connection. They are therefore suitable for 400 VΔ/690 VY
and for Y-Δ starting at 400 V. The 500 V motors are available both
for 500 VY and for 500 VΔ, provided that one of the two variants
is not preferred for winding reasons.
Operation on a frequency converter
Most motors in this series can also be operated on frequency converters without any modifications to the electrical design, due to
the use of "Overcoat" double-layer enameled wires and optimized
impregnation techniques. On ordering, if it is known that the motor
will be converter-fed, the motors will be equipped with 3 PTC
thermistors with a rated shutdown temperature of 145 °C (KL145).
The temperature sensors, in combination with specific parameter
settings on the converter, perform sole thermal monitoring of the
motor. Motor circuit breakers can be dispensed with. The PTC
thermistors can be connected to the thermistor connections
provided in the converter or to a trip unit.
Connection cables: The free length of connection cable
must be specified when ordering. The standard length is 1.5 m.
Two or more cable entries are used in the case of pole-changing
motors or single-speed motors with rated current > 70 A.
The permissible coolant temperature is dependent on the
connection cables used.
Cable types (standard version)
Temperature
class of the
motor
Cable
F
Ölflex
F
NSSHöu-J
1000
-20 ... +80
F
EWKF/SIHF
500
-50 ... +180
Type
Max. rated voltage
Urated
Max. temperature
at conductor
V
°C
500
-40 ... +80
Motors with built-on backstop
If reverse motion of the drive has to be prevented following
switch-off, three-phase motors with mechanical backstop can
be used. Backstops are maintenance-free and have individual
spring-loaded clamping elements. The backstops of the type
CSK are supplied with permanent lubrication. The clamping
elements have a tendency to lift. In backstops of the FXM type
series, the clamping elements lift automatically after approach
due to the centrifugal force. Wear therefore does not occur at
rated speed of the motor.
The backstop is not permitted to be used as protection against
rotation in the wrong direction caused by switching despite the
interlock. The direction of rotation must be specified on ordering.
The motor outputs are as specified in the selection tables in this
catalog. The assignment of backstops to frame sizes is specified
in the table below. Frame sizes 90 to 112 have the same dimensions as standard motors. Dimensional drawings are available
for the larger types on request.
Backstops for motors of frame sizes 132 to 355
Three-phase motors with external cables
Motor
Three-phase motors with externally routed connecting cables are
used in machines or ventilation systems in which the electrical connections are routed via a separately mounted terminal box due to
the space constraints.
Frame size
No. of poles
Type
Mt
132
2, 4, 6
FXM 51-25 DX
680
160
2, 4, 6
FXM 66-25 DX
1480
180
2, 4, 6
FXM 66-25 DX
1480
200
2, 4, 6, 8
FXM 86-25 DX
2410
225
2, 4, 6, 8
FXM 86-25 DX
2410
250
2, 4, 6, 8
FXM 100-50 DX
6000
280
2, 4, 6, 8
FXM 120-50 SX
10400
315
2, 4, 6, 8
FXM 120-50 SX
10400
355
2
FXM 120-50 SX
10400
355
4, 6
FXM 140-50 SX
15200
Design
The motors correspond to the surface-cooled versions in this
catalog. A gland plate is mounted in place of the terminal box
(Options G48/G49).
G_D083_XX_00073
3
Motors of the 1PS0 series are wound in accordance with temperature class F (155 °C). Thermal utilization is only according to
class B (130 °C). For a fixed voltage motor, therefore, increased
output of 12 % on average is possible for continuous duty at a
coolant temperature of 40 °C without the need for prior consultation. To maintain the IE2 efficiency class, the rating plate will be
stamped with temperature class B (130 °C) only. An increase in
coolant temperature from 40 °C to 60 °C for rated output and full
utilization of temperature class F (155 °C) is permissible. Exceptions, such as utilization of temperature class F at rated output
and 40 °C coolant temperature, are indicated in the selection
tables.
Frame sizes and types of construction: See dimensional
drawings
3/6
Siemens D 83.1 · 2014
Backstop
Nm
With the backstops listed in the table above, motors of frame
sizes 132 to 355 can be supplied in IP55 or IP56 degree of
protection. Higher degrees of protection on request.
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
50 Hz 50 Hz
cosϕ
rated,
50 Hz, 50 Hz, 50 Hz, 50 Hz,
4/4
3/4
2/4
4/4
Motor type
Ira-
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR
1.5 090 L 2865 5.00 IE2 84.0 85.1 84.3 0.88 2.90 2.32 1.68 3.0 6.8 2.8 ANGA-090LR-02 1PS0095-■BD■■-0AA3 36 0.0020
2.2 090 L 2850 7.4 IE2 84.6 85.6 85.1 0.86 4.4 3.52 2.55 3.0 6.5 3.0 ANGA-090LS-02 1PS0098-■BD■■-0AA3 36 0.0020
3
100 L 2900 9.9 IE2 86.0 86.3 85.8 0.87 5.8 4.6 3.36 2.7 7.5 3.0 ANGA-100LS-02 1PS0106-■BD■■-0AA3 51 0.0041
4
112 M 2890 13.2 IE2 86.5 86.8 86.8 0.93 7.2 5.8 4.2 2.7 7.0 3.1 ANGA-112MS-02 1PS0113-■BD■■-0AA3 66 0.0075
5.5 132 S 2910 18.0 IE2 88.5 89.9 89.2 0.90 10.0 8.0 5.8 2.6 6.7 3.1 ANGA-132SR-02 1PS0131-■BD■■-0AA3 83 0.014
7.5 132 S 2915 24.6 IE2 89.5 90.1 89.5 0.91 13.3 10.6 7.7 2.7 6.8 3.0 ANGA-132SS-02 1PS0132-■BD■■-0AA3 95 0.020
11 160 M 2955 35.5 IE2 90.7 91.0 90.0 0.90 19.5 15.6 11.3 2.1 7.5 2.8 ANGA-160MR-02 1PS0163-■BD■■-0AA3 176 0.075
15 160 M 2955 48.5 IE2 91.3 92.1 91.9 0.89 26.5 21.2 15.4 2.1 7.0 2.8 ANGA-160MS-02 1PS0165-■BD■■-0AA3 176 0.092
18.5 160 L 2960 60
IE2 92.0 92.5 92.0 0.89 32.5 26.0 18.8 2.1 7.0 2.6 ANGA-160LS-02 1PS0166-■BD■■-0AA3 192 0.092
22 180 M 2960 71
IE2 92.5 93.0 92.8 0.90 38.0 30.4 22.0 2.2 6.8 2.9 ANGA-180MS-02 1PS0183-■BD■■-0AA3 246 0.16
30 200 L 2970 96
IE2 93.2 93.6 93.2 0.89 52.0 41.6 30.1 2.2 6.9 2.6 ANGA-200LR-02 1PS0206-■BD■■-0AA3 333 0.20
37 200 L 2970 119 IE2 93.5 94.2 94.1 0.89 64.0 51.0 37.1 2.0 7.2 2.6 ANGA-200LS-02 1PS0208-■BD■■-0AA3 349 0.23
45 225 M 2970 145 IE2 93.6 93.7 93.0 0.88 79.0 63.0 45.8 2.3 7.5 2.6 ANGA-225MS-02 1PS0223-■BD■■-0AA3 420 0.34
55 250 M 2975 177 IE2 93.8 93.9 93.2 0.86 98.0 79.0 57.0 2.1 8.0 2.9 ANGA-250MM-02 1PS0253-■BD■■-0AA3 540 0.45
75 280 S 2980 240 IE2 94.4 93.9 92.4 0.89 129 103 75.0 2.1 7.3 3.0 ANGA-280SL-02 1PS0280-■BD■■-0AA3 775 0.88
90 280 M 2980 288 IE2 94.4 94.1 92.6 0.90 153 122 89.0 2.0 6.3 2.5 ANGA-280MM-02 1PS0283-■BD■■-0AA3 830 1.03
110 315 S 2980 352 IE2 94.8 94.3 92.9 0.88 190 152 110 2.2 6.7 2.5 ANGA-315SL-02 1PS0311-■BD■■-0AA3 960 1.55
132 315 M 2980 423 IE2 95.1 95.0 94.2 0.89 225 180 130 2.0 6.3 2.4 ANGA-315ML-02 1PS0313-■BD■■-0AA3 1020 1.85
160 315 M 2980 513 IE2 95.6 95.6 95.0 0.89 270 215 157 2.3 6.8 2.6 ANGA-315MN-02 1PS0315-■BD■■-0AA3 1100 2.2
200 315 L 2980 641 IE2 95.8 95.8 95.2 0.89 340 270 196 2.6 7.3 2.7 ANGA-315LL-02 1PS0316-■BD■■-0AA3 1310 2.8
250 315 L 2985 800 IE2 95.8 96.1 95.8 0.90 420 335 245 2.6 7.3 2.7 ANGA-315LN-02 1PS0318-■BD■■-0AA3 1450 3.5
315 355 L 2985 1008 IE2 96.1 96.3 96.0 0.89 530 425 310 2.3 7.0 2.7 ANGA-355LB-02 1PS0356-■BD■■-0AA2 1580 4.7
LOHER VARIO
355 355 L 2983 1136 IE2 96.5 96.5 96.0 0.92 575 460 333 1.2 6.8 2.8 ANSA-355LC-02 1PS0357-■BH■■-0AA0 2100 3.6
400 355 L 2985 1279 1)
96.7 96.7 96.1 0.91 655 525 380 1.4 7.9 3.2 ANSA-355LD-02 1PS0358-■BH■■-0AA0 2200 4.0
96.4 96.5 96.0 0.91 740 590 430 0.95 6.2 2.55 ANSA-355LX-02
1PS0358-■BJ ■■-0AA0 2300 5.0
450 355 L 2978 1443 1)
450 400 L 2984 1440 1)
96.5 96.5 95.9 0.90 745 595 430 0.8 6.2 2.8 ANSA-400LL-02
1PS0404-■BJ ■■-0AA0 2400 6.0
500 400 L 2982 1601 1)
96.6 96.7 96.2 0.91 820 655 475 0.8 5.9 2.55 ANSA-400LN-02 1PS0405-■BJ ■■-0AA0 2600 7.0
560 400 L 2983 1792 1)
96.8 96.8 96.3 0.91 915 730 530 0.85 6.2 2.7 ANSA-400LN-02 1PS0407-■BJ ■■-0AA0 2600 7.0
96.8 96.8 96.3 0.91 –
825 595 0.85 6.2 2.6 ANSA-400LX-02
1PS0408-■BJ ■■-0AA0 2900 8.5
630 400 L 2984 2016 1)
630 450 L 2986 2014 1)
96.7 96.6 96.0 0.91 –
830 600 0.75 6.2 2.7 ANSA-450LL-02
1PS0453-■BJ ■■-0AA0 3500 11
96.8 96.8 96.2 0.91 –
925 670 0.8 6.3 2.8 ANSA-450LL-02
1PS0455-■BJ ■■-0AA0 3500 11
710 450 L 2986 2270 1)
96.9 96.9 96.3 0.91 –
1050 760 0.8 6.3 2.8 ANSA-450LN-02 1PS0457-■BJ ■■-0AA0 3700 13
800 450 L 2986 2557 1)
900 450 L 2985 2879 1)
97.0 97.0 96.5 0.91 –
1170 850 0.85 6.4 2.7 ANSA-450LN-02 1PS0458-■BJ ■■-0AA0 3700 13
96.6 96.5 95.6 0.90 –
–
960 0.85 6.4 2.8 ANSA-500LL-02
1PS0507-■BJ ■■-0AA0 6300 24
1000 500 L 2986 3198 1)
1200 500 L 2990 3831 1)
96.9 96.8 96.1 0.91 –
–
1135 0.75 6.6 2.8 ANSA-500LN-02 1PS0508-■BJ ■■-0AA0 6300 35
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450 (≤ 800 kW)
0
–
Converter-fed operation, standard insulation
90 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW)... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 3/23
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 400
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
Siemens D 83.1 · 2014
3/7
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
3
50 Hz 50 Hz
cosϕ
rated,
50 Hz, 50 Hz, 50 Hz, 50 Hz,
4/4
4/4
3/4
2/4
Motor type
Ira-
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
ted
Article No.
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR
1.1 090 L 1460 7.2
IE2 86.4 87.2 86.3 0.85 2.15 1.72 1.25 1.9 6.8 2.8 ANGA-090LR-04 1PS0095-■BD■■-0BA3 34 0.0044
1.5 090 L 1455 9.8
IE2 86.1 86.5 85.2 0.81 3.10 2.48 1.8 1.9 6.7 2.8 ANGA-090LS-04 1PS0098-■BD■■-0BA3 37 0.0044
2.2 100 L 1455 14.4 IE2 87.1 87.8 86.8 0.83 4.4 3.52 2.55 1.7 6.4 2.4 ANGA-100LR-04 1PS0106-■BD■■-0BA3 53 0.0060
3
100 L 1455 19.7 IE2 86.0 86.3 84.7 0.80 6.3 5.0 3.65 2.0 6.3 2.6 ANGA-100LS-04 1PS0108-■BD■■-0BA3 55 0.0071
4
112 M 1460 26.2 IE2 88.8 89.4 88.8 0.84 7.8 6.2 4.5 1.9 6.8 2.5 ANGA-112MS-04 1PS0113-■BD■■-0BA3 66 0.0126
5.5 132 S 1455 36.1 IE2 89.0 89.7 89.2 0.85 10.5 8.4 6.1 2.6 7.6 2.7 ANGA-132SR-04 1PS0131-■BD■■-0BA3 93 0.03
7.5 132 M 1470 48.7 IE2 90.2 90.7 90.1 0.84 14.3 11.4 8.3 2.0 7.6 2.8 ANGA-132MS-04 1PS0133-■BD■■-0BA3 102 0.03
11 160 M 1465 72
IE2 90.5 91.4 91.1 0.84 21.0 16.8 12.2 2.8 6.5 2.7 ANGA-160MR-04 1PS0163-■BD■■-0BA3 176 0.10
15 160 L 1470 97
IE2 91.4 92.3 91.8 0.85 28.0 22.4 16.2 3.0 6.5 2.7 ANGA-160LS-04 1PS0166-■BD■■-0BA3 192 0.13
18.5 180 M 1475 120 IE2 92.9 93.4 93.2 0.85 34.0 27.2 19.7 1.8 7.0 2.5 ANGA-180MR-04 1PS0183-■BD■■-0BA3 246 0.20
22 180 L 1477 142 IE2 93.0 93.5 93.3 0.85 40.0 32 23.2 1.8 7.3 2.5 ANGA-180LS-04 1PS0186-■BD■■-0BA3 255 0.23
30 200 L 1477 194 IE2 93.6 94.0 93.5 0.84 55.0 44.0 31.9 2.8 6.8 2.6 ANGA-200LS-04 1PS0206-■BD■■-0BA3 333 0.37
37 225 S 1480 239 IE2 92.7 93.5 93.5 0.86 67.0 54.0 38.8 2.1 6.6 2.5 ANGA-225SR-04 1PS0220-■BD■■-0BA3 415 0.64
45 225 M 1480 290 IE2 93.8 94.5 94.5 0.85 81.0 65.0 47.0 2.1 6.9 2.5 ANGA-225MS-04 1PS0223-■BD■■-0BA3 445 0.72
55 250 M 1480 355 IE2 93.7 94.4 94.4 0.87 97.0 78.0 56.0 2.5 7.7 2.9 ANGA-250MM-04 1PS0253-■BD■■-0BA3 560 0.75
75 280 S 1480 484 IE2 94.4 94.8 95.0 0.84 137 109 79.0 2.4 7.0 2.6 ANGA-280SL-04 1PS0280-■BD■■-0BA3 820 1.3
90 280 M 1480 581 IE2 94.5 94.4 93.5 0.85 162 129 94.0 2.5 7.2 2.7 ANGA-280MM-04 1PS0283-■BD■■-0BA3 870 1.4
110 315 S 1485 707 IE2 94.6 94.6 93.5 0.82 205 164 119 2.0 6.6 2.5 ANGA-315SL-04 1PS0311-■BD■■-0BA3 960 2.2
132 315 M 1485 849 IE2 95.0 95.1 94.5 0.84 240 191 138 2.0 6.4 2.5 ANGA-315ML-04 1PS0313-■BD■■-0BA3 1040 2.9
160 315 M 1485 1029 IE2 95.1 95.3 95.0 0.85 285 230 166 2.1 6.9 2.5 ANGA-315MN-04 1PS0315-■BD■■-0BA3 1120 3.4
200 315 L 1488 1284 IE2 95.2 95.4 95.3 0.85 355 285 205 2.3 6.9 2.5 ANGA-315LL-04 1PS0316-■BD■■-0BA3 1340 3.9
250 315 L 1487 1605 IE2 95.2 95.4 95.2 0.83 455 365 265 2.6 7.5 2.6 ANGA-315LM-04 1PS0317-■BD■■-0BA3 1420 4.2
315 355 L 1488 2022 IE2 95.1 95.2 95.0 0.85 560 450 340 2.0 7.7 2.5 ANGA-355LB-04 1PS0356-■BD■■-0BA2 1730 6.8
315 355 L 1493 2015 IE2 96.3 96.3 96.0 0.85 560 445 320 1.3 7.7 2.6 ANGA-355LB-04 2) 1PS0356-■BD■■-0BB2 1730 6.8
LOHER VARIO
355 355 L 1491 2273 IE2 96.6 96.6 96.0 0.86 615 492 357 1.25 6.7 2.4 ANSA-355LC-04 1PS0358-■BH■■-0BA0 2300 7.7
400 355 L 1491 2561 1)
96.7 96.7 96.1 0.86 690 552 400 1.25 6.7 2.4 ANSA-355LD-04 1PS0350-■BH■■-0BA0 2350 8.5
96.6 96.7 96.1 0.86 785 630 457 1.1 6.2 2.4 ANSA-355LN-04 1PS0357-■BJ ■■-0BA0 2400 9.0
450 355 L 1491 2880 1)
500 355 L 1492 3200 1)
96.7 96.7 96.2 0.85 875 700 505 1.0 6.2 2.4 ANSA-355LX-04 1PS0358-■BJ ■■-0BA0 2500 9.5
96.6 96.6 96.0 0.87 855 685 495 1.1 6.2 2.6 ANSA-400LL-04 1PS0404-■BJ ■■-0BA0 2700 13
500 400 L 1492 3200 1)
1)
560 400 L 1492 3583
96.7 96.7 96.1 0.88 950 760 550 1.1 6.2 2.55 ANSA-400LN-04 1PS0405-■BJ ■■-0BA0 2900 15
1)
630 400 L 1492 4031
96.8 96.8 96.2 0.88 1070 855 620 1.1 6.3 2.6 ANSA-400LN-04 1PS0407-■BJ ■■-0BA0 2900 15
710 400 L 1492 4544 1)
96.9 96.9 96.4 0.88 1200 960 695 1.05 6.3 2.5 ANSA-400LX-04 1PS0408-■BJ ■■-0BA0 3500 17
96.9 96.9 96.3 0.88 1355 1085 785 1.0 6.6 2.6 ANSA-450LL-04 1PS0455-■BJ ■■-0BA0 3800 24.5
800 450 L 1493 5114 1)
900 450 L 1493 5755 1)
97.0 97.0 96.4 0.88 –
1215 880 1.05 6.6 2.5 ANSA-450LN-04 1PS0457-■BJ ■■-0BA0 4300 29
97.0 97.0 96.5 0.88 –
1285 930 1.05 6.6 2.5 ANSA-450LN-04 1PS0458-■BJ ■■-0BA0 4800 29
950 450 L 1493 6076 1)
1)
96.9 96.9 96.2 0.88 –
–
980 0.85 6.2 2.55 ANSA-500LL-04 1PS0504-■BJ ■■-0BA0 5200 43
1000 500 L 1494 6390
1)
1120 500 L 1493 7160
97.0 97.0 96.4 0.88 –
–
1095 0.8 6.0 2.4 ANSA-500LL-04 1PS0505-■BJ ■■-0BA0 5200 43
3)
1250 500 L 1494 7990 1)
97.0 96.9 96.3 0.88 –
–
0.8 6.5 2.4 ANSA-500LN-04 1PS0507-■BJ ■■-0BA0 6600 54
1400 500 L 1494 8940 1)
97.1 97.0 96.3 0.87 –
–
1385 0.9 7.2 2.7 ANSA-500LN-04 1PS0508-■BJ ■■-0BA0 6600 54
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450 (≤ 800 kW)
0
–
Converter-fed operation, standard insulation
90 ... 400
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 (> 800 kW)... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 3/23
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 400
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Motor with special rotor (Cu).
3/8
Siemens D 83.1 · 2014
3)
Only implementable as 6-phase motor with 2 × 690 V (I = 2 × 610 A) or
2 × 950 V (I = 2 × 445 A)
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
50 Hz 50 Hz
cosϕ
rated,
50 Hz, 50 Hz, 50 Hz, 50 Hz,
4/4
4/4
3/4
2/4
Motor type
Ira-
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR
0.75 090 L 960 7.5
IE2 80.0 80.4 78.0 0.72 1.88 1.5 1.09 1.5 4.5 2.2 ANGA-090LR-06 1PS0095-■BD■■-0CA3 36 0.0044
1.1 090 L 950 11.1 IE2 78.1 77.9 75.4 0.72 2.80 2.24 1.62 1.4 4.1 2.0 ANGA-090LS-06 1PS0098-■BD■■-0CA3 42 0.0044
1.5 100 L 955 15.0 IE2 80.0 79.0 75.0 0.68 3.95 3.16 2.29 2.5 4.5 2.7 ANGA-100LS-06 1PS0106-■BD■■-0CA3 55 0.010
2.2 112 M 950 22.1 IE2 82.7 83.7 82.3 0.74 5.2 4.2 3.01 2.0 5.0 2.2 ANGA-112MS-06 1PS0113-■BD■■-0CA3 66 0.019
3
132 S 950 30.2 IE2 85.4 86.1 85.1 0.79 6.4 5.1 3.71 2.5 5.7 2.5 ANGA-132SR-06 1PS0131-■BD■■-0CA3 92 0.033
4
132 M 955 40.0 IE2 85.7 86.7 86.1 0.82 8.2 6.6 4.8 2.3 6.0 2.5 ANGA-132MR-06 1PS0133-■BD■■-0CA3 96 0.045
5.5 132 M 955 55
IE2 86.1 86.1 85.5 0.77 12.0 9.6 7.0 2.4 6.0 2.6 ANGA-132MS-06 1PS0135-■BD■■-0CA3 104 0.045
7.5 160 M 965 74
IE2 88.2 88.5 88.0 0.80 15.3 12.2 8.9 1.5 6.0 2.4 ANGA-160MR-06 1PS0163-■BD■■-0CA3 176 0.088
11 160 L 970 108 IE2 89.5 90.4 90.0 0.81 22.0 17.6 12.8 1.6 5.2 2.6 ANGA-160LS-06 1PS0166-■BD■■-0CA3 192 0.11
15 180 L 980 146 IE2 90.5 91.2 90.7 0.82 29.0 23.2 16.8 2.1 6.2 2.5 ANGA-180LS-06 1PS0186-■BD■■-0CA3 255 0.28
18.5 200 L 977 181 IE2 91.4 92.4 92.6 0.80 36.5 29.2 21.2 2.3 5.5 2.3 ANGA-200LR-06 1PS0206-■BD■■-0CA3 333 0.45
22 200 L 977 215 IE2 91.0 92.0 92.1 0.80 43.5 34.8 25.2 2.5 5.5 2.4 ANGA-200LS-06 1PS0208-■BD■■-0CA3 349 0.49
30 225 M 985 291 IE2 92.5 92.8 92.4 0.82 57.0 45.6 33.0 1.7 7.0 2.8 ANGA-225MS-06 1PS0223-■BD■■-0CA3 430 0.92
37 250 M 985 359 IE2 92.2 92.3 91.1 0.77 75.0 60.0 43.5 2.1 6.0 2.1 ANGA-250MM-06 1PS0253-■BD■■-0CA3 560 1.0
45 280 S 985 436 IE2 92.9 93.0 93.1 0.85 82.0 66.0 47.5 2.0 6.0 2.3 ANGA-280SL-06 1PS0280-■BD■■-0CA3 780 2.5
55 280 M 985 533 IE2 93.4 93.6 93.0 0.88 97.0 77.0 56.0 2.4 7.0 2.8 ANGA-280MM-06 1PS0283-■BD■■-0CA3 850 2.9
75 315 S 990 723 IE2 94.0 94.1 93.5 0.86 134 107 78.0 2.0 6.7 2.1 ANGA-315SL-06 1PS0311-■BD■■-0CA3 960 3.3
90 315 M 990 868 IE2 94.8 95.2 95.1 0.85 161 129 93.0 2.1 6.9 2.3 ANGA-315ML-06 1PS0313-■BD■■-0CA3 1030 4.0
110 315 M 990 1061 IE2 94.5 94.6 94.3 0.86 195 156 113 2.0 7.1 2.2 ANGA-315MM-06 1PS0314-■BD■■-0CA3 1110 4.9
132 315 M 990 1273 IE2 94.7 94.8 94.5 0.86 235 187 136 2.0 7.0 2.1 ANGA-315MN-06 1PS0315-■BD■■-0CA3 1110 4.9
160 315 L 990 1543 IE2 94.8 95.0 94.6 0.87 280 225 162 2.0 6.8 2.1 ANGA-315LL-06 1PS0316-■BD■■-0CA3 1300 6.0
200 315 L 990 1929 IE2 95.0 95.0 94.6 0.84 360 290 210 2.1 7.0 2.3 ANGA-315LM-06 1PS0317-■BD■■-0CA3 1410 6.8
200 315 L 992 1925 IE2 95.4 95.6 95.3 0.88 345 275 199 1.5 6.9 2.3 ANGA-315LM-06 2) 1PS0317-■BD■■-0CB3 1420 6.8
250 355 L 995 2399 IE2 95.9 96.1 95.8 0.86 440 350 255 1.5 7.3 2.3 ANGA-355LB-06 1PS0356-■BD■■-0CB2 1730 9.1
LOHER VARIO
280 355 L 993 2691 IE2 96.1 96.1 95.5 0.85 495 395 286 1.2 6.4 2.35 ANSA-355LC-06 1PS0357-■BH■■-0CA0 2350 10.5
315 355 L 994 3027 IE2 96.2 96.2 95.5 0.84 560 450 325 1.35 6.6 2.5 ANSA-355LD-06 1PS0358-■BH■■-0CA0 2400 11.5
355 355 L 993 3415 IE2 96.3 96.3 95.8 0.85 630 505 360 1.0 5.6 2.3 ANSA-355LN-06 1PS0357-■BJ ■■-0CA0 2400 12.5
400 355 L 992 3849 1)
96.3 96.4 95.9 0.84 715 575 415 1.0 5.6 2.25 ANSA-355LN-06 1PS0358-■BJ ■■-0CA0 2400 12.5
96.3 96.4 95.8 0.84 715 575 415 1.0 5.6 2.3 ANSA-400LL-06 1PS0404-■BJ ■■-0CA0 2800 18
400 400 L 994 3844 1)
1)
450 400 L 994 4323
96.4 96.4 95.9 0.84 800 640 465 1.0 5.5 2.25 ANSA-400LN-06 1PS0405-■BJ ■■-0CA0 3100 21.5
1)
500 400 L 994 4805
96.5 96.5 96.0 0.84 890 710 515 1.05 5.7 2.3 ANSA-400LN-06 1PS0407-■BJ ■■-0CA0 3100 21.5
560 450 L 995 5374 1)
96.7 96.7 96.2 0.85 980 785 570 0.95 5.8 2.3 ANSA-450LL-06 1PS0453-■BJ ■■-0CA0 4100 34
96.8 96.8 96.3 0.85 1105 885 640 0.95 5.7 2.3 ANSA-450LL-06 1PS0455-■BJ ■■-0CA0 4100 34
630 450 L 995 6046 1)
710 450 L 995 6813 1)
96.9 97.0 96.5 0.85 1240 995 720 0.95 5.7 2.25 ANSA-450LN-06 1PS0457-■BJ ■■-0CA0 4400 40
97.0 97.0 96.5 0.85 –
1125 815 1.0 5.9 2.35 ANSA-450LN-06 1PS0458-■BJ ■■-0CA0 4400 40
800 450 L 995 7676 1)
1)
96.8 96.8 96.2 0.85 –
–
915 1.0 5.8 2.25 ANSA-500LL-06 1PS0505-■BJ ■■-0CA0 5400 60
900 500 L 995 8635
1)
1000 500 L 995 9592
96.9 96.8 96.2 0.85 –
–
1015 1.0 6.0 2.25 ANSA-500LN-06 1PS0507-■BJ ■■-0CA0 6100 72
1120 500 L 995 10746 1)
96.9 96.9 96.4 0.86 –
–
1120 1.0 5.7 2.15 ANSA-500LN-06 1PS0508-■BJ ■■-0CA0 6100 72
1250 560 L 996 11980 1)
97.0 97.0 96.5 0.87 –
–
1230 0.75 5.9 2.3 ANSA-560LL-06 1PS0564-■BJ ■■-0CA0 8300 120
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450
0
–
Converter-fed operation, standard insulation
90 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 3/23
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 450
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Motor with special rotor (Cu).
Siemens D 83.1 · 2014
3/9
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- Tra- IE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
3
50 Hz 50 Hz
cosϕ
rated,
50 Hz, 50 Hz, 50 Hz, 50 Hz,
4/4
4/4
3/4
2/4
Motor type
Ira-
Ira-
Ira-
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
ted
Article No.
m
J
IM B3
ted
kW FS
rpm Nm –
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
8-pole: 750 rpm at 50 Hz
LOHER CHEMSTAR
1)
0.37 090 L 700 5.0
67.0 67.5 64.0 0.60 1.33 1.06 0.77 1.7 2.5 2.0 ANGA-090LR-08 1PS0095-■BD■■-0DA3 35 0.0036
1)
69.5 69.5 65.0 0.60 1.90 1.52 1.10 1.7 2.8 2.0 ANGA-090LS-08 1PS0098-■BD■■-0DA3 35 0.0044
0.55 090 L 700 7.5
0.75 100 L 700 10.2 1)
71.9 70.2 66.0 0.70 2.15 1.72 1.25 2.0 3.7 2.1 ANGA-100LR-08 1PS0106-■BD■■-0DA3 55 0.010
1.1 100 L 710 14.8 1)
74.7 72.2 68.5 0.70 3.05 2.44 1.77 1.5 4.0 2.0 ANGA-100LS-08 1PS0108-■BD■■-0DA3 55 0.010
1)
1.5 112 M 710 20.2
78.0 78.5 76.5 0.73 3.80 3.04 2.20 1.8 4.0 2.0 ANGA-112MS-08 1PS0113-■BD■■-0DA3 65 0.016
1)
82.5 83.2 81.5 0.73 5.3 4.2 3.07 1.7 4.5 2.1 ANGA-132SR-08 1PS0131-■BD■■-0DA3 90 0.033
2.2 132 S 715 29.4
3
132 M 715 40.1 1)
83.8 84.5 82.9 0.74 7.0 5.6 4.1 1.8 4.5 2.2 ANGA-132MR-08 1PS0133-■BD■■-0DA3 90 0.045
1)
87.3 88.0 87.5 0.80 8.3 6.6 4.8 1.8 5.5 2.2 ANGA-160MR-08 1PS0163-■BD■■-0DA3 176 0.12
4
160 M 720 53
1)
5.5 160 M 720 73
87.3 88.0 87.5 0.80 11.4 9.1 6.6 1.7 5.6 2.2 ANGA-160MS-08 1PS0165-■BD■■-0DA3 176 0.12
1)
87.6 88.7 88.5 0.80 15.4 12.3 8.9 1.7 5.6 2.2 ANGA-160LS-08 1PS0166-■BD■■-0DA3 192 0.16
7.5 160 L 720 99
1)
11 180 L 720 146
87.8 88.5 88.0 0.80 22.5 18 13 1.8 5.0 2.0 ANGA-180LS-08 1PS0186-■BD■■-0DA3 255 0.28
15 200 L 725 198 1)
89.8 90.0 89.5 0.78 31.0 24.8 18 2.4 5.2 2.2 ANGA-200LS-08 1PS0206-■BD■■-0DA3 333 0.49
18.5 225 S 735 240 1)
90.0 90.5 89.8 0.78 38.0 30.4 22 2.3 5.5 2.5 ANGA-225SR-08 1PS0220-■BD■■-0DA3 395 0.82
22 225 M 735 286 1)
91.0 91.2 90.5 0.78 44.5 35.6 25.8 2.3 5.8 2.5 ANGA-225MS-08 1PS0223-■BD■■-0DA3 430 0.92
1)
30 250 M 735 390
90.8 91.2 90.4 0.80 60.0 47.5 34.5 1.9 5.3 2.2 ANGA-250MM-08 1PS0253-■BD■■-0DA3 560 1.0
1)
90.9 91.9 91.7 0.80 73.0 59.0 42.5 1.8 5.0 2.2 ANGA-280SL-08 1PS0280-■BD■■-0DA3 780 1.9
37 280 S 735 481
45 280 M 740 581 1)
91.0 91.2 90.1 0.78 92.0 73.0 53.0 2.2 5.0 2.1 ANGA-280MM-08 1PS0283-■BD■■-0DA3 850 2.2
93.7 94.0 93.6 0.78 109 87.0 63.0 1.6 6.0 2.1 ANGA-315SL-08 1PS0311-■BD■■-0DA3 950 3.4
55 315 S 740 710 1)
75 315 M 740 968 1)
93.8 94.3 94.2 0.79 146 117 85.0 1.6 5.8 2.0 ANGA-315ML-08 1PS0313-■BD■■-0DA3 1030 4.1
90 315 M 740 1161 1)
93.8 94.4 94.3 0.79 175 140 102 1.7 5.8 2.5 ANGA-315MM-08 1PS0314-■BD■■-0DA3 1110 4.8
1)
110 315 M 740 1419
93.9 94.5 94.5 0.79 215 171 124 1.7 5.8 2.0 ANGA-315MN-08 2) 1PS0315-■BD■■-0DA3 1110 4.8
1)
94.1 94.7 94.7 0.79 255 205 149 1.6 5.8 2.0 ANGA-315LL-08 1PS0316-■BD■■-0DA3 1300 6.0
132 315 L 740 1703
160 315 L 742 2059 1)
94.4 94.4 93.6 0.79 310 250 180 1.5 6.0 2.5 ANGA-315LM-08 3) 1PS0317-■BD■■-0DB3 1410 7.2
1)
ANGA-355LB-08 3) 1PS0356-■BD■■-0DB0 1420
200 355 L
LOHER VARIO
225 355 L 744 2886 1)
95.3 95.4 94.8 0.81 420 335 243 1.15 5.8 2.4 ANSA-355LC-08 1PS0357-■BH■■-0DA0 2350 15.7
250 355 L 744 3206 1)
95.3 95.4 94.8 0.81 466 373 270 1.2 5.8 2.45 ANSA-355LD-08 1PS0358-■BH■■-0DA0 2400 17
95.8 96.0 95.6 0.81 520 415 300 1.15 5.2 2.3 ANSA-355LN-08 1PS0357-■BJ ■■-0DA0 2400 12.5
280 355 L 743 3597 1)
315 355 L 743 4049 1)
95.8 96.0 95.6 0.81 580 465 335 1.05 5.1 2.2 ANSA-355LX-08
1PS0358-■BJ ■■-0DA0 2550 13.5
96.0 96.1 95.6 0.81 655 525 380 1.0 5.1 2.3 ANSA-400LL-08
1PS0404-■BJ ■■-0DA0 2800 17.5
355 400 L 743 4559 1)
1)
400 400 L 744 5136
96.1 96.2 95.8 0.82 735 585 425 0.95 5.2 2.25 ANSA-400LN-08 1PS0407-■BJ ■■-0DA0 3100 21
1)
450 400 L 743 5779
96.1 96.3 95.9 0.81 830 665 480 0.95 5.0 2.25 ANSA-400LX-08
1PS0408-■BJ ■■-0DA0 3250 23
500 450 L 745 6411 1)
96.5 96.6 96.1 0.83 900 720 520 0.85 5.2 2.2 ANSA-450LL-08
1PS0455-■BJ ■■-0DA0 4100 35.5
96.5 96.6 96.1 0.84 1000 800 580 0.85 5.4 2.25 ANSA-450LN-08 1PS0457-■BJ ■■-0DA0 4400 42
560 450 L 745 7178 1)
630 450 L 745 8075 1)
96.6 96.7 96.2 0.83 1130 905 655 0.9 5.3 2.25 ANSA-450LN-08 1PS0458-■BJ ■■-0DA0 4400 42
96.7 96.7 96.3 0.83 1210 965 700 0.85 5.2 2.3 ANSA-450LX-08
1PS0450-■BJ ■■-0DA0 4600 46
670 450 L 746 8579 1)
1)
96.7 96.8 96.2 0.85 1240 995 720 0.85 5.8 2.55 ANSA-500LL-08
1PS0504-■BJ ■■-0DA0 5400 73
710 500 L 746 9086
1)
800 500 L 746 10242
96.7 96.8 96.4 0.85 –
1120 810 0.85 5.6 2.45 ANSA-500LL-08
1PS0505-■BJ ■■-0DA0 5400 73
900 500 L 745 11530 1)
96.5 96.6 96.1 0.84 –
1285 930 1.0 5.5 2.2 ANSA-500LN-08 1PS0507-■BJ ■■-0DA0 6100 88
950 500 L 746 12152 1)
96.7 96.7 96.1 0.83 –
–
990 0.95 5.9 2.4 ANSA-500LX-08
1PS0508-■BJ ■■-0DA0 6400 96
Operating modes
Frame size
Order code
Mains-fed operation
90 ... 450
0
–
Converter-fed operation, standard insulation
90 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
90 ... 112
1
–
500 VY, 50 Hz
90 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
90 ... 400
6
–
690 VY, 50 Hz
90 ... 400
8
–
For other voltages see Page 3/23
90 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
90 ... 500
0
–
IM B5
90 ... 315
1
–
IM B34
90 ... 112
2
–
IM B14
90 ... 112
3
–
IM V1/cover
90 ... 450
4
–
IM B35
90 ... 500
6
–
For other types of construction see from Page 1/28
90 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
2)
Rated output, partial utilization up to 155 °C (F).
3/10
Siemens D 83.1 · 2014
3)
Motor with special rotor (Cu).
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
50 Hz 50 Hz
cosϕ
rated,
50 Hz, 50 Hz, 50 Hz, 50 Hz,
4/4
4/4
3/4
2/4
Motor type
Ira-
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
10-pole: 600 rpm at 50 Hz
LOHER CHEMSTAR
1)
0.55 100 L
ANGA-100LR-10 1PS0106-■BD■■-0EA3 53 –
1)
ANGA-100LS-10 1PS0108-■BD■■-0EA3 55 –
0.75 100 L
1)
1.1 112 M
ANGA-112MS-10 1PS0113-■BD■■-0EA3 66 –
1)
1.5 132 S
ANGA-132SR-10 1PS0131-■BD■■-0EA3 93 –
1)
2.2 132 M
ANGA-132MS-10 1PS0133-■BD■■-0EA3 102 –
1)
ANGA-160MR-10 1PS0163-■BD■■-0EA3 176 –
3
160 M
1)
4
160 M
ANGA-160MS-10 1PS0165-■BD■■-0EA3 192 –
1)
ANGA-160LR-10 1PS0166-■BD■■-0EA3 192 –
5.5 160 L
1)
7.5 180 L
ANGA-180LR-10 1PS0186-■BD■■-0EA3 255 –
1)
ANGA-200LS-10 1PS0206-■BD■■-0EA3 333 –
11 200 L
1)
15 225 S
ANGA-225SS-10 1PS0220-■BD■■-0EA3 415 –
1)
18.5 225 M
ANGA-225MR-10 1PS0223-■BD■■-0EA3 445 –
1)
22 250 M
ANGA-250MM-10 1PS0253-■BD■■-0EA3 560 –
1)
30 280 S
ANGA-280SL-10 1PS0280-■BD■■-0EA3 780 –
1)
37 280 M
ANGA-280MM-10 1PS0283-■BD■■-0EA3 850 –
1)
ANGA-315SL-10 1PS0311-■BD■■-0EA3 950 –
45 315 S
1)
55 315 M
ANGA-315ML-10 1PS0313-■BD■■-0EA3 1030 –
1)
ANGA-315MN-10 1PS0315-■BD■■-0EA3 1110 –
75 315 M
1)
90 315 L
ANGA-315LL-10 1PS0316-■BD■■-0EA3 1300 –
1)
110 315 L
ANGA-315LM-10 1PS0317-■BD■■-0EA3 1410 –
1)
132 355 M
ANGA-355MD-10 1PS0355-■BD■■-0EA0 1670 –
1)
ANGA-355LB-10 1PS0356-■BD■■-0EA0 1900 –
160 355 L
LOHER VARIO
94.6 94.7 94.0 0.81 338 271 196 1.05 5.3 2.15 ANSA-355LC-10 1PS0357-■BH■■-0EA0 2350 16.5
180 355 L 594 2889 1)
200 355 L 594 3211 1)
94.6 94.8 94.1 0.81 376 300 218 1.05 5.1 2.05 ANSA-355LD-10 1PS0358-■BH■■-0EA0 2400 18
1)
225 355 L 593 3620
95.2 95.5 95.1 0.80 425 340 245 1.1 4.8 2.15 ANSA-355LX-10 1PS0358-■BJ ■■-0EA0 2550 19
1)
250 400 L 594 4014
95.4 95.7 95.2 0.80 475 380 275 0.95 4.7 2.05 ANSA-400LL-10 1PS0404-■BJ ■■-0EA0 2800 27
95.6 95.8 95.3 0.81 520 415 300 0.95 4.7 2.05 ANSA-400LN-10 1PS0405-■BJ ■■-0EA0 3100 32
280 400 L 595 4495 1)
315 400 L 595 5058 1)
95.6 95.8 95.4 0.80 595 475 345 0.95 4.7 2.05 ANSA-400LN-10 1PS0407-■BJ ■■-0EA0 3100 32
95.8 96.0 95.6 0.80 665 530 385 0.95 4.8 2.1 ANSA-400LX-10 1PS0408-■BJ ■■-0EA0 3300 35
355 400 L 595 5700 1)
1)
400 450 L 595 6418
96.0 96.1 95.5 0.80 750 600 435 1.0 4.9 2.1 ANSA-450LL-10 1PS0454-■BJ ■■-0EA0 4100 42
1)
450 450 L 595 7221
96.1 96.2 95.6 0.81 835 670 485 0.95 4.8 2.05 ANSA-450LN-10 1PS0455-■BJ ■■-0EA0 4400 50
500 450 L 595 8020 1)
96.2 96.3 95.7 0.80 940 750 545 0.95 5.0 2.15 ANSA-450LN-10 1PS0457-■BJ ■■-0EA0 4400 50
96.2 96.2 95.6 0.79 985 785 570 1.0 5.1 2.2 ANSA-450LX-10 1PS0458-■BJ ■■-0EA0 4700 55
520 450 L 595 8336 1)
560 500 L 596 8965 1)
96.1 96.1 95.3 0.80 1050 840 610 0.85 5.3 2.35 ANSA-500LL-10 1PS0504-■BJ ■■-0EA0 5400 82
96.2 96.2 95.4 0.80 1180 945 685 0.9 5.3 2.4 ANSA-500LN-10 1PS0505-■BJ ■■-0EA0 6100 98
630 500 L 596 10082 1)
1)
96.3 96.2 95.4 0.80 1260 1005 730 0.95 5.5 2.45 ANSA-500LN-10 1PS0507-■BJ ■■-0EA0 6100 98
670 500 L 597 10719
1)
750 500 L 597 11998
96.4 96.3 95.5 0.79 –
–
820 0.95 5.5 2.45 ANSA-500LX-10 1PS0508-■BJ ■■-0EA0 6500 108
Operating modes
Frame size
Order code
Mains-fed operation
100 ... 450
0
–
Converter-fed operation, standard insulation
100 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
100 ... 500
2
–
Mains-fed operation, pre-formed coil
500
3
–
Converter-fed operation, pre-formed coil
500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
100 ... 400
6
–
690 VY, 50 Hz
100 ... 400
8
–
For other voltages see Page 3/23
100 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
100 ... 500
0
–
IM V1/cover
100 ... 450
4
–
IM B35
100 ... 500
6
–
For other types of construction see from Page 1/28
100 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
Siemens D 83.1 · 2014
3/11
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
50 Hz
3
50 Hz 50 Hz
cosϕ
rated,
50 Hz, 50 Hz, 50 Hz, 50 Hz,
4/4
3/4
2/4
4/4
Motor type
Ira-
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
A
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
12-pole: 500 rpm at 50 Hz
LOHER CHEMSTAR
1)
0.37 100 L
ANGA-100LR-12 1PS0106-■BD■■-0FA3 53 –
1)
0.55 100 L
ANGA-100LS-12 1PS0108-■BD■■-0FA3 55 –
1)
0.75 112 M
ANGA-112MS-12 2) 1PS0113-■BD■■-0FA3 66 –
1)
1.1 132 S
ANGA-132SS-12 1PS0131-■BD■■-0FA3 93 –
1)
1.5 132 M
ANGA-132MR-12 1PS0133-■BD■■-0FA3 102 –
1)
ANGA-160MR-12 1PS0163-■BD■■-0FA3 176 –
2.2 160 M
1)
3
160 M
ANGA-160MS-12 1PS0165-■BD■■-0FA3 192 –
1)
ANGA-160LS-12 1PS0166-■BD■■-0FA3 192 –
4
160 L
1)
5.5 180 L
ANGA-180LS-12 1PS0186-■BD■■-0FA3 255 –
1)
7.5 200 L
ANGA-200LS-12 1PS0206-■BD■■-0FA3 333 –
1)
11 225 S
ANGA-225SR-12 1PS0220-■BD■■-0FA3 415 –
1)
15 225 M
ANGA-225MS-12 1PS0223-■BD■■-0FA3 445 –
1)
18.5 250 M
ANGA-250MM-12 1PS0253-■BD■■-0FA3 560 –
1)
ANGA-280SL-12 1PS0280-■BD■■-0FA3 780 –
22 280 S
1)
30 280 M
ANGA-280MM-12 1PS0283-■BD■■-0FA3 850 –
1)
ANGA-315SL-12 1PS0311-■BD■■-0FA3 950 –
37 315 S
1)
45 315 M
ANGA-315ML-12 1PS0313-■BD■■-0FA3 1030 –
1)
55 315 M
ANGA-315MN-12 1PS0315-■BD■■-0FA3 1110 –
1)
ANGA-315LL-12 1PS0316-■BD■■-0FA3 1300 –
75 315 L
1)
90 315 L
ANGA-315LM-12 1PS0317-■BD■■-0FA3 1410 –
1)
110 355 M
ANGA-355MD-12 1PS0355-■BD■■-0FA0 1670 –
1)
140 355 L
ANGA-355LB-12 1PS0356-■BD■■-0FA0 1900 –
LOHER VARIO
1)
160 355 L 493 3097
94.1 94.3 93.8 0.78 313 250 181 0.95 4.6 2.1 ANSA-355LC-12 1PS0357-■BH■■-0FA0 2350 17
180 355 L 494 3481 1)
94.3 94.5 93.9 0.77 355 285 205 1.0 4.7 2.15 ANSA-355LD-12 1PS0358-■BH■■-0FA0 2400 19
94.5 94.7 94.3 0.77 375 300 218 0.95 4.6 2.2 ANSA-355LX-12 1PS0358-■BJ ■■-0FA0 2550 18.5
190 355 L 494 3672 1)
200 400 L 494 3861 1)
94.9 95.1 94.7 0.78 390 310 225 0.95 4.6 2.05 ANSA-400LL-12 1PS0404-■BJ ■■-0FA0 2800 26.5
225 400 L 495 4341 1)
95.1 95.3 94.9 0.79 430 345 250 1.0 4.7 2.15 ANSA-400LN-12 1PS0405-■BJ ■■-0FA0 3100 32
95.2 95.4 95.0 0.78 485 390 282 1.0 4.6 2.1 ANSA-400LN-12 1PS0407-■BJ ■■-0FA0 3100 32
250 400 L 495 4824 1)
280 400 L 495 5402 1)
95.2 95.4 95.0 0.78 545 435 315 0.95 4.8 2.2 ANSA-400LX-12 1PS0408-■BJ ■■-0FA0 3300 35
1)
95.5 95.7 95.3 0.78 610 490 355 0.9 4.5 1.95 ANSA-450LL-12 1PS0454-■BJ ■■-0FA0 4100 42
315 450 L 495 6075
355 450 L 495 6842 1)
95.6 95.8 95.4 0.78 690 550 400 0.9 4.6 2.0 ANSA-450LN-12 1PS0455-■BJ ■■-0FA0 4400 50
400 450 L 495 7709 1)
95.7 95.9 95.4 0.78 785 630 455 0.95 4.6 2.0 ANSA-450LN-12 1PS0457-■BJ ■■-0FA0 4400 50
95.7 95.9 95.4 0.78 810 650 470 0.95 4.7 2.05 ANSA-450LX-12 1PS0458-■BJ ■■-0FA0 4600 55
420 450 L 495 8095 1)
1)
450 500 L 496 8662
95.8 95.8 95.2 0.80 845 675 490 0.9 4.8 2.05 ANSA-500LL-12 1PS0504-■BJ ■■-0FA0 5400 82
500 500 L 496 9617 1)
95.8 95.8 95.1 0.79 950 760 550 0.95 5.1 2.2 ANSA-500LN-12 1PS0505-■BJ ■■-0FA0 6100 98
95.9 96.0 95.3 0.80 1055 840 610 0.9 4.9 2.1 ANSA-500LN-12 1PS0507-■BJ ■■-0FA0 6100 98
560 500 L 496 10779 1)
600 500 L 496 11546 1)
96.0 96.1 95.5 0.80 –
905 655 0.9 5.1 2.15 ANSA-500LX-12 1PS0508-■BJ ■■-0FA0 6350 108
Operating modes
Frame size
Order code
Mains-fed operation
100 ... 450
0
–
Converter-fed operation, standard insulation
100 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %)
160 ... 500
2
–
Mains-fed operation, pre-formed coil
450 ... 500
3
–
Converter-fed operation, pre-formed coil
450 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
230 V/400 V, 50 Hz
100 ... 112
1
–
500 VY, 50 Hz
100 ... 315
3
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
100 ... 400
6
–
690 VY, 50 Hz
100 ... 400
8
–
For other voltages see Page 3/23
100 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
100 ... 500
0
–
IM B5
100 ... 315
1
–
IM B34
100 ... 112
2
–
IM B14
100 ... 112
3
–
IM V1/cover
100 ... 450
4
–
IM B35
100 ... 500
6
–
For other types of construction see from Page 1/28
100 ... 500
9
…
1)
Outside the IE code classification according to IEC 60034-30.
3/12
Siemens D 83.1 · 2014
2)
Rated output, partial utilization up to 155 °C (F).
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
m
Pra- Frame
ted, size
IM B3
50 Hz
kW FS
kg
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
14-pole: 430 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
125 355 L
ANSA-355LC-14 1PS0357-■BH■■-0GA0 2350
140 355 L
ANSA-355LD-14 1PS0358-■BH■■-0GA0 2400
160 400 L
ANSA-400LL-14 1PS0404-■BJ ■■-0GA0 2800
180 400 L
ANSA-400LN-14 1PS0405-■BJ ■■-0GA0 3100
200 400 L
ANSA-400LN-14 1PS0407-■BJ ■■-0GA0 3100
225 400 L
ANSA-400LX-14 1PS0408-■BJ ■■-0GA0 3250
250 450 L
ANSA-450LL-14 1PS0454-■BJ ■■-0GA0 4100
280 450 L
ANSA-450LN-14 1PS0455-■BJ ■■-0GA0 4400
315 450 L
ANSA-450LN-14 1PS0457-■BJ ■■-0GA0 4400
340 450 L
ANSA-450LX-14 1PS0458-■BJ ■■-0GA0 4600
355 500 L
ANSA-500LL-14 1PS0504-■BJ ■■-0GA0 5400
400 500 L
ANSA-500LN-14 1PS0505-■BJ ■■-0GA0 6100
450 500 L
ANSA-500LN-14 1PS0507-■BJ ■■-0GA0 6100
500 500 L
ANSA-500LX-14 1PS0508-■BJ ■■-0GA0 6500
16-pole: 375 rpm at 50 Hz
LOHER CHEMSTAR on request
LOHER VARIO
100 355 L
ANSA-355LC-16 1PS0357-■BH■■-0HA0 2350
110 355 L
ANSA-355LD-16 1PS0358-■BH■■-0HA0 2400
132 400 L
ANSA-400LL-16 1PS0405-■BJ ■■-0HA0 2800
160 400 L
ANSA-400LN-16 1PS0407-■BJ ■■-0HA0 3100
180 400 L
ANSA-400LX-16 1PS0408-■BJ ■■-0HA0 3250
200 450 L
ANSA-450LL-16 1PS0454-■BJ ■■-0HA0 4100
225 450 L
ANSA-450LN-16 1PS0455-■BJ ■■-0HA0 4400
250 450 L
ANSA-450LN-16 1PS0457-■BJ ■■-0HA0 4400
265 450 L
ANSA-450LX-16 1PS0458-■BJ ■■-0HA0 4650
280 500 L
ANSA-500LL-16 1PS0504-■BJ ■■-0HA0 5400
315 500 L
ANSA-500LN-16 1PS0505-■BJ ■■-0HA0 6100
355 500 L
ANSA-500LN-16 1PS0507-■BJ ■■-0HA0 6100
400 500 L
ANSA-500LX-16 1PS0508-■BJ ■■-0HA0 6650
Operating modes
Frame size
Order code
Mains-fed operation
355 ... 450
0
–
Converter-fed operation, standard insulation
355 ... 450
1
–
Converter-fed operation with special insulation (derating approx. 5 %) 355 ... 500
2
–
Mains-fed operation, pre-formed coil
355 ... 500
3
–
Converter-fed operation, pre-formed coil
355 ... 500
4
–
Voltages
Frame size
Order code
690 VΔ, 50 Hz
355 ... 500
0
–
500 VΔ, 50 Hz
355 ... 450
5
–
400 V/690 V, 50 Hz
355 ... 400
6
–
690 VY, 50 Hz
355 ... 400
8
–
For other voltages see Page 3/23
355 ... 500
9
…
Types of construction
Frame size
Order code
IM B3
355 ... 500
0
–
IM V1/cover
355 ... 450
4
–
IM B35
355 ... 500
6
–
For other types of construction see from Page 1/28
355 ... 500
9
…
Siemens D 83.1 · 2014
3/13
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
60 Hz
3
60 Hz 60 Hz
Motor type
cosϕ
rated,
60 Hz, 60 Hz, 60 Hz, 60 Hz,
4/4
4/4
3/4
2/4
Irated,
60 Hz,
480 V
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
2-pole: 3600 rpm at 60 Hz
LOHER CHEMSTAR
1.8 090 L 3460 4.97 IE2 85.4 85.6 84.5 0.88 2.85
3.0 7.0 2.8 ANGA-090LR-02 1PS0095-■BD■■-0AA3 36 0.0020
2.6 090 L 3460 7.2
IE2 85.5 85.8 84.7 0.84 4.4
3.0 7.0 3.0 ANGA-090LS-02 1PS0098-■BD■■-0AA3 36 0.0020
3.6 100 L 3510 9.8
IE2 87.5 87.1 85.2 0.85 5.8
2.9 8.0 3.0 ANGA-100LS-02 1PS0106-■BD■■-0AA3 51 0.0041
4.5 112 M 3490 12.3 IE2 87.5 87.7 87.2 0.94 6.6
2.7 7.8 3.0 ANGA-112MS-02 1PS0113-■BD■■-0AA3 66 0.0075
6.6 132 S 3510 18.0 IE2 89.5 88.7 87.2 0.89 10.0
3.0 7.8 3.0 ANGA-132SR-02 1PS0131-■BD■■-0AA3 83 0.014
9
132 S 3510 24.5 IE2 90.1 91.0 90.1 0.91 13.1
2.7 7.0 3.0 ANGA-132SS-02 1PS0132-■BD■■-0AA3 95 0.020
13.2 160 M 3550 35.5 IE2 90.8 91.2 91.0 0.88 19.9
2.0 7.5 2.6 ANGA-160MR-02 1PS0163-■BD■■-0AA3 176 0.075
18 160 M 3550 48.4 IE2 91.5 91.8 91.2 0.89 26.5
1.9 7.0 2.6 ANGA-160MS-02 1PS0165-■BD■■-0AA3 176 0.092
22 160 L 3560 59
IE2 92.0 92.5 91.5 0.89 32.5
2.0 7.0 2.5 ANGA-160LS-02 1PS0166-■BD■■-0AA3 192 0.092
26 180 M 3560 70
IE2 92.5 93.0 92.4 0.89 38.0
2.6 7.0 2.6 ANGA-180MS-02 1PS0183-■BD■■-0AA3 246 0.16
36 200 L 3570 96
IE2 92.9 93.0 92.3 0.89 52.0
2.0 7.0 2.6 ANGA-200LR-02 1PS0206-■BD■■-0AA3 333 0.20
44 200 L 3570 118 IE2 93.5 93.8 93.4 0.89 64.0
2.0 7.2 2.6 ANGA-200LS-02 1PS0208-■BD■■-0AA3 349 0.23
54 225 M 3575 144 IE2 93.4 93.3 92.2 0.88 79.0
2.2 7.6 2.6 ANGA-225MS-02 1PS0223-■BD■■-0AA3 420 0.34
66 250 M 3575 147 IE2 93.6 93.3 92.3 0.86 82.0
1.9 7.3 2.8 ANGA-250MM-02 1PS0253-■BD■■-0AA3 540 0.45
90 280 S 3575 240 IE2 94.5 94.5 93.0 0.90 127
1.7 7.0 2.4 ANGA-280SL-02 1PS0280-■BD■■-0AA3 775 0.88
110 280 M 3580 293 IE2 95.1 95.0 93.9 0.89 156
2.4 7.7 2.7 ANGA-280MM-02 1PS0283-■BD■■-0AA3 830 1.03
125 315 S 3580 333 IE2 94.6 94.4 93.2 0.87 183
1.9 7.0 2.5 ANGA-315SL-02 1PS0311-■BD■■-0AA3 960 1.55
145 315 M 3580 387 IE2 95.1 95.0 93.8 0.89 205
2.0 7.7 2.6 ANGA-315ML-02 1PS0313-■BD■■-0AA3 1020 1.85
180 315 M 3581 480 IE2 95.4 95.4 94.4 0.88 260
2.2 7.5 2.7 ANGA-315MN-02 1PS0315-■BD■■-0AA3 1100 2.2
220 315 L 3580 587 IE2 95.8 95.9 95.4 0.90 305
2.5 7.3 2.7 ANGA-315LL-02 1PS0316-■BD■■-0AA3 1310 2.8
270 315 L 3580 720 IE2 95.8 95.9 95.4 0.90 375
2.6 7.7 2.7 ANGA-315LN-02 1PS0318-■BD■■-0AA3 1450 3.5
315 355 L 3580 840 IE2 95.5 95.3 94.6 0.90 440
2.0 7.2 2.7 ANGA-355LB-02 1PS0356-■BD■■-0AA0 1580 4.7
LOHER VARIO
96.4 96.3 95.6 0.92 540
1.15 6.7 2.75 ANSA-355LC-02 1PS0357-■BH■■-0AA0 2100 3.6
400 355 L 3583 1066 1)
450 355 L 3585 1198 1)
96.6 96.5 95.7 0.92 610
1.2 7.4 3.0 ANSA-355LD-02 1PS0358-■BH■■-0AA0 2200 4
500 355 L 3579 1334 1)
96.3 96.2 95.5 0.91 680
0.9 6.3 2.65 ANSA-355LX-02 1PS0358-■BJ ■■-0AA0 2300 5
96.4 96.3 95.5 0.90 690
0.65 5.7 2.45 ANSA-400LL-02 1PS0404-■BJ ■■-0AA0 2400 6
500 400 L 3581 1333 1)
560 400 L 3584 1492 1)
96.6 96.5 95.7 0.91 770
0.8 6.5 2.8 ANSA-400LN-02 1PS0405-■BJ ■■-0AA0 2600 7
630 400 L 3583 1679 1)
96.7 96.6 96.0 0.91 860
0.75 6.1 2.65 ANSA-400LN-02 1PS0407-■BJ ■■-0AA0 2600 7
96.7 96.6 95.9 0.91 675 2)
0.8 6.5 2.75 ANSA-400LX-02 1PS0408-■BJ ■■-0AA0 2900 8.3
710 400 L 2585 1891 1)
96.3 96.1 95.1 0.90 685 2)
0.7 6.2 2.7 ANSA-450LL-02 1PS0455-■BJ ■■-0AA0 3500 12
710 450 L 3586 1890 1)
1)
800 450 L 3586 2130
96.5 96.3 95.3 0.91 762 2)
0.8 6.4 2.85 ANSA-450LN-02 1PS0457-■BJ ■■-0AA0 3900 14
900 450 L 3586 2396 1)
96.6 96.4 95.6 0.90 865 2)
0.8 6.4 2.8 ANSA-450LN-02 1PS0458-■BJ ■■-0AA0 3900 14
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Converter-fed operation with special insulation (derating approx. 5 %)
Mains-fed operation, pre-formed coil
Converter-fed operation, pre-formed coil
Voltages
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Outside the IE code classification according to IEC 60034-30.
3/14
Siemens D 83.1 · 2014
Frame size
90 ... 450 (≤ 800 kW)
90 ... 400
160 ... 450
450 (> 800 kW)... 450
450
Frame size
90 ... 450
Frame size
90 ... 450
90 ... 315
90 ... 112
90 ... 112
90 ... 400
90 ... 450
90 ... 450
2)
0
1
2
3
4
9
0
1
2
3
4
6
9
Only possible with 690 V, 60 Hz (values apply to 690 V).
Order code
–
–
–
–
–
Order code
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
60 Hz
60 Hz 60 Hz
Motor type
cosϕ
rated,
60 Hz, 60 Hz, 60 Hz, 60 Hz,
4/4
4/4
3/4
2/4
Irated,
60 Hz,
480 V
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
4-pole: 1800 rpm at 60 Hz
LOHER CHEMSTAR
1.3 090 L 1760 7.1
IE2 85.6 85.2 82.0 0.82 2.25
2.2 7.2 2.7 ANGA-090LR-04 1PS0095-■BD■■-0BA3 34 0.0044
1.8 090 L 1760 9.8
IE2 87.8 88.0 86.6 0.80 3.10
2.2 7.4 2.7 ANGA-090LS-04 1PS0098-■BD■■-0BA3 37 0.0044
2.6 100 L 1755 14.1 IE2 88.0 88.3 87.2 0.83 4.3
1.9 7.0 2.5 ANGA-100LR-04 1PS0106-■BD■■-0BA3 53 0.0060
3.6 100 L 1760 19.5 IE2 87.5 87.0 85.2 0.79 6.3
1.8 7.0 2.4 ANGA-100LS-04 1PS0108-■BD■■-0BA3 55 0.0071
4.8 112 M 1760 26.0 IE2 89.9 90.3 89.5 0.83 7.8
1.9 7.0 2.5 ANGA-112MS-04 1PS0113-■BD■■-0BA3 66 0.0126
6.6 132 S 1750 36.0 IE2 89.8 90.4 89.9 0.86 10.3
2.4 7.5 2.7 ANGA-132SR-04 1PS0131-■BD■■-0BA3 93 0.03
9
132 M 1765 48.7 IE2 90.1 90.5 89.7 0.86 14.0
2.0 7.5 2.2 ANGA-132MS-04 1PS0133-■BD■■-0BA3 102 0.03
13 160 M 1765 70
IE2 91.1 91.5 91.0 0.85 20.0
3.0 7.5 2.6 ANGA-160MR-04 1PS0163-■BD■■-0BA3 176 0.10
18 160 L 1770 97
IE2 92.5 92.8 92.5 0.85 27.5
3.0 7.5 2.6 ANGA-160LS-04 1PS0166-■BD■■-0BA3 192 0.13
22 180 M 1775 118 IE2 93.0 93.3 93.0 0.85 33.5
1.8 7.5 2.8 ANGA-180MR-04 1PS0183-■BD■■-0BA3 246 0.20
26 180 L 1775 140 IE2 93.7 94.0 93.5 0.85 39.5
1.8 7.5 2.6 ANGA-180LS-04 1PS0186-■BD■■-0BA3 255 0.23
36 200 L 1775 194 IE2 93.8 94.0 93.2 0.83 56.0
3.0 7.5 2.9 ANGA-200LS-04 1PS0206-■BD■■-0BA3 333 0.37
44 225 S 1780 236 IE2 93.7 94.0 93.5 0.85 66.0
2.0 7.0 2.6 ANGA-225SR-04 1PS0220-■BD■■-0BA3 415 0.64
54 225 M 1780 290 IE2 94.2 94.7 94.6 0.85 81.0
2.0 7.0 2.6 ANGA-225MS-04 1PS0223-■BD■■-0BA3 445 0.72
66 250 M 1780 295 IE2 94.1 94.1 93.5 0.86 82.0
2.3 7.7 2.7 ANGA-250MM-04 1PS0253-■BD■■-0BA3 540 0.79
90 280 S 1785 481 IE2 94.6 94.8 94.5 0.84 136
2.2 7.0 2.5 ANGA-280SL-04 1PS0280-■BD■■-0BA3 820 1.44
110 280 M 1785 588 IE2 95.2 95.2 94.8 0.84 165
2.5 7.0 2.7 ANGA-280MM-04 1PS0283-■BD■■-0BA3 870 1.66
125 315 S 1787 668 IE2 95.0 95.0 94.0 0.82 193
2.2 7.0 2.5 ANGA-315SL-04 1PS0311-■BD■■-0BA3 960 2.2
145 315 M 1787 775 IE2 95.1 95.2 94.7 0.84 220
2
7.0 2.2 ANGA-315ML-04 1PS0313-■BD■■-0BA3 1040 2.9
180 315 M 1787 962 IE2 95.4 95.4 94.8 0.83 275
2.4 7.5 2.5 ANGA-315MN-04 1PS0315-■BD■■-0BA3 1120 3.4
220 315 L 1787 1176 IE2 95.4 95.6 95.0 0.84 330
2.3 7.5 2.5 ANGA-315LL-04 1PS0316-■BD■■-0BA3 1340 3.9
270 315 L 1787 1443 IE2 95.8 95.8 95.5 0.85 400
2.3 7.5 2.4 ANGA-315LM-04 1PS0317-■BD■■-0BA3 1420 4.2
315 355 L 1790 1680 IE2 95.4 95.5 95.2 0.85 465
1.8 7.0 2.5 ANGA-355LB-04 1PS0356-■BD■■-0BA2 1730 6.8
315 355 L 1791 1680 IE2 95.6 96.0 95.5 0.86 460
1.1 7.0 2.4 ANGA-355LB-04 2) 1PS0357-■BD■■-0BB2 1730 6.8
LOHER VARIO
400 355 L 1791 2133 1)
96.4 96.3 95.5 0.86 0
1.1 6.5 2.3 ANSA-355LC-04 1PS0358-■BH■■-0BA0 2300 7.7
96.5 96.4 95.6 0.86 0
1.1 6.5 2.3 ANSA-355LD-04 1PS0350-■BH■■-0BA0 2350 8.5
450 355 L 1791 2399 1)
500 355 L 1791 2664 1)
96.6 96.5 95.9 0.86 0
1.05 6.3 2.45 ANSA-355LN-04 1PS0357-■BJ ■■-0BA0 2400 9.0
560 355 L 1792 2984 1)
96.7 96.6 95.9 0.85 0
1.0 6.5 2.5 ANSA-355LX-04 1PS0358-■BJ ■■-0BA0 2500 9.5
96.5 96.4 95.6 0.88 0
1.0 6.2 2.55 ANSA-400LL-04 1PS0404-■BJ ■■-0BA0 2700 13
560 400 L 1791 2984 1)
96.6 96.5 95.8 0.89 0
1.0 6.0 2.45 ANSA-400LN-04 1PS0405-■BJ ■■-0BA0 2900 15
630 450 L 1791 3357 1)
710 500 L 1791 3784 1)
96.7 96.6 96.0 0.89 0
0.95 5.7 2.3 ANSA-400LN-04 1PS0407-■BJ ■■-0BA0 2900 15
800 500 L 1792 4263 1)
96.8 96.8 96.1 0.88 0
0.95 6.1 2.45 ANSA-400LX-04 1PS0408-■BJ ■■-0BA0 3100 17
900 500 L 1793 4792 1)
96.9 96.8 96.1 0.88 0
0.9 6.4 2.55 ANSA-450LL-04 1PS0455-■BJ ■■-0BA0 3800 24.5
1000 500 L 1793 5324 1)
96.9 96.8 96.2 0.88 980 3)
0.85 6.0 2.4 ANSA-450LN-04 1PS0457-■BJ ■■-0BA0 4300 29
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Converter-fed operation with special insulation (derating approx. 5 %)
Mains-fed operation, pre-formed coil
Converter-fed operation, pre-formed coil
Voltages
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Outside the IE code classification according to IEC 60034-30.
2)
Motor with special rotor (Cu).
Frame size
90 ... 450 (≤ 800 kW)
90 ... 400
160 ... 500
450 (> 800 kW)... 500
450 ... 500
Frame size
90 ... 500
Frame size
90 ... 500
90 ... 315
90 ... 112
90 ... 112
90 ... 400
90 ... 500
90 ... 500
3)
0
1
2
3
4
9
0
1
2
3
4
6
9
Order code
–
–
–
–
–
Order code
…
Order code
–
–
–
–
–
–
…
Only possible with 690 V, 60 Hz (values apply to 690 V).
Siemens D 83.1 · 2014
3/15
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Operating values at rated output
Pra- Frame nra- TraIE
ηra- ηra- ηraclass ted, ted, ted,
ted, size
ted,
ted,
60 Hz
3
60 Hz 60 Hz
Motor type
cosϕ
rated,
60 Hz, 60 Hz, 60 Hz, 60 Hz,
4/4
3/4
2/4
4/4
Irated,
60 Hz,
480 V
Article No.
TLR/ ILR/ TB/
Tra- Ira- Trated
ted
m
J
IM B3
ted
kW FS
rpm Nm
–
%
%
%
–
A
–
–
–
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
6-pole: 1200 rpm at 60 Hz
LOHER CHEMSTAR
0.75 090 L 1160 6.2
IE2 81.8 82.0 80.1 0.72 1.53
1.5 5.0 2.5 ANGA-090LR-06 1PS0095-■BD■■-0CA3 36 0.0044
0.9 090 L 1160 7.4
IE2 82.0 82.0 80.2 0.72 1.83
1.4 5.1 2.4 ANGA-090LS-06 1PS0098-■BD■■-0CA3 42 0.0044
1.25 100 L 1175 10.2 IE2 85.5 85.2 82.3 0.73 2.40
1.5 5.6 2.4 ANGA-100LS-06 1PS0106-■BD■■-0CA3 55 0.010
1.8 112 M 1180 14.6 IE2 86.6 86.5 83.0 0.73 3.40
1.3 5.8 2.5 ANGA-112MS-06 1PS0113-■BD■■-0CA3 66 0.019
3
132 S 1170 24.5 IE2 87.9 87.6 85.3 0.74 5.5
2.4 6.6 3.0 ANGA-132SR-06 1PS0131-■BD■■-0CA3 92 0.033
4
132 M 1160 32.9 IE2 88.3 88.9 88.1 0.79 6.9
2.1 6.6 2.7 ANGA-132MR-06 1PS0133-■BD■■-0CA3 96 0.045
5.5 132 M 1180 44.5 IE2 90.0 90.2 89.0 0.80 9.2
1.5 6.5 2.3 ANGA-132MS-06 1PS0135-■BD■■-0CA3 104 0.045
7.5 160 M 1170 61
IE2 89.6 89.7 88.0 0.80 12.6
1.3 6.2 2.4 ANGA-160MR-06 1PS0163-■BD■■-0CA3 176 0.088
11 160 L 1170 90
IE2 90.2 90.4 89.0 0.80 18.3
1.3 6.5 2.4 ANGA-160LS-06 1PS0166-■BD■■-0CA3 192 0.11
15 180 L 1180 121 IE2 91.0 91.4 90.7 0.81 24.5
2.4 7.0 2.5 ANGA-180LS-06 1PS0186-■BD■■-0CA3 255 0.28
18.5 200 L 1180 150 IE2 91.7 91.7 90.8 0.80 30.5
2.5 6.8 2.6 ANGA-200LR-06 1PS0206-■BD■■-0CA3 333 0.45
22 200 L 1180 178 IE2 91.8 91.8 91.0 0.80 36.0
2.5 7.0 2.6 ANGA-200LS-06 1PS0208-■BD■■-0CA3 349 0.49
30 225 M 1185 242 IE2 93.0 93.0 92.0 0.83 46.5
1.6 7.0 2.8 ANGA-225MS-06 1PS0223-■BD■■-0CA3 430 0.92
37 250 M 1185 298 IE2 93.0 93.0 91.1 0.80 37.0
2.2 7.0 2.2 ANGA-250MM-06 1PS0253-■BD■■-0CA3 560 1.0
45 280 S 1185 363 IE2 93.6 93.6 92.5 0.80 37.5
2.3 6.5 2.5 ANGA-280SL-06 1PS0280-■BD■■-0CA3 780 2.5
55 280 M 1188 442 IE2 93.8 93.6 93.0 0.90 45.5
2.4 7.0 2.8 ANGA-280MM-06 1PS0283-■BD■■-0CA3 850 2.9
75 315 S 1190 602 IE2 94.5 94.6 94.3 0.90 62.0
2.3 7.2 2.4 ANGA-315SL-06 1PS0311-■BD■■-0CA3 1030 3.3
90 315 M 1190 722 IE2 94.5 94.6 94.3 0.90 75.0
2.2 7.2 2.3 ANGA-315ML-06 1PS0313-■BD■■-0CA3 1100 4.0
110 315 M 1190 883 IE2 95.0 95.0 94.3 0.90 90.0
1.8 7.1 2.2 ANGA-315MM-06 1PS0314-■BD■■-0CA3 1190 4.9
132 315 M 1190 1059 IE2 95.2 95.2 94.3 0.90 108
1.8 7.2 2.2 ANGA-315MN-06 1PS0315-■BD■■-0CA3 1180 4.9
160 315 L 1190 1284 IE2 95.2 95.2 94.6 0.90 134
2.0 7.5 2.3 ANGA-315LL-06 1PS0316-■BD■■-0CA3 1400 6.0
200 315 L 1192 1602 IE2 95.1 95.2 94.6 0.80 172
2.4 7.4 2.6 ANGA-315LM-06 1PS0317-■BD■■-0CA3 1600 6.8
250 355 L 1194 1999 IE2 95.4 95.5 94.7 0.90 210
1.1 7.1 2.4 ANGA-355LB-06 1PS0356-■BD■■-0CB2 1730 9.1
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Converter-fed operation with special insulation (derating approx. 5 %)
Voltages
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Motor with special rotor (Cu).
3/16
Siemens D 83.1 · 2014
Frame size
90 ... 355
90 ... 355
160 ... 355
Frame size
90 ... 355
Frame size
90 ... 355
90 ... 355
90 ... 112
90 ... 112
90 ... 355
90 ... 355
90 ... 355
0
1
2
9
0
1
2
3
4
6
9
Order code
–
–
–
Order code
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Prated,
50 Hz
Article No.
m
Frame
size
IM B3
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
4-/2-pole: 1500/3000 rpm at 50 Hz with one winding connected in Dahlander circuit for fan drive
LOHER CHEMSTAR
0.5/2
90 L
AVGA-090LS-42
1PS0098-■ND■■-0NA3 37
0.65/2.4 100 L
AVGA-100LR-42
1PS0106-■ND■■-0NA3 53
1PS0108-■ND■■-0NA3 55
0.8/3
100 L
AVGA-100LS-42
1.1/4.1 112 M
AVGA-112MS-42
1PS0113-■ND■■-0NA3 66
1.6/6
132 S
AVGA-132SR-42
1PS0131-■ND■■-0NA3 93
1PS0133-■ND■■-0NA3 102
2.2/9
132 M
AVGA-132MR-42
3/12
160 M
AVGA-160MR-42
1PS0163-■ND■■-0NA3 176
4/16
160 L
AVGA-160LS-42
1PS0166-■ND■■-0NA3 192
5.5/20
180 M
AVGA-180MR-42
1PS0183-■ND■■-0NA3 246
6.3/25
180 L
AVGA-180LS-42 1) 1PS0186-■ND■■-0NA3 255
8.5/33
200 L
AVGA-200LS-42
1PS0206-■ND■■-0NA3 333
10.5/38 225 S
AVGA-225SR-42
1PS0220-■ND■■-0NA3 415
13/46
225 M
AVGA-225MS-42
1PS0223-■ND■■-0NA3 455
15/55
250 M
AVGA-250MM-42
1PS0253-■ND■■-0NA3 560
20/75
280 S
AVGA-280SL-42
1PS0280-■ND■■-0NA3 780
24/90
280 M
AVGA-280MM-42
1PS0283-■ND■■-0NA3 850
27/110 315 S
AVGA-315SL-42 2) 1PS0311-■ND■■-0NA3 970
33/132 315 M
AVGA-315ML-42 2) 1PS0313-■ND■■-0NA3 1040
37/145 315 M
AVGA-315MN-42 2) 1PS0315-■ND■■-0NA3 1120
44/172 315 L
AVGA-315LL-42 2) 1PS0316-■ND■■-0NA3 1340
50/200 315 L
AVGA-315LM-42 2) 1PS0317-■ND■■-0NA3 1420
65/250 355 L
AVGA-355LB-42 2) 1PS0356-■ND■■-0NA0 1730
LOHER VARIO on request
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
Frame size
90 ... 355
90 ... 355
Frame size
90 ... 112
90 ... 315
90 ... 355
90 ... 355
90 ... 355
Frame size
90 ... 355
90 ... 315
90 ... 112
90 ... 112
90 ... 355
90 ... 355
90 ... 355
2)
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Motor with special rotor (Cu).
Siemens D 83.1 · 2014
3/17
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
Frame
m
size
IM B3
50 Hz
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
8-/4-pole: 750/1500 rpm at 50 Hz with one winding connected in Dahlander circuit for fan drive
LOHER CHEMSTAR
0.35/1.3 90 L
AVGA-090LS-84
1PS0098-■ND■■-0QA3 37
0.45/2
100 L
AVGA-100LR-84
1PS0106-■ND■■-0QA3 53
0.55/2.5 100 L
AVGA-100LS-84
1PS0108-■ND■■-0QA3 55
0.9/3.7 112 M
AVGA-112MS-84
1PS0113-■ND■■-0QA3 66
1PS0131-■ND■■-0QA3 93
1.3/5
132 S
AVGA-132SR-84
1.7/6.8 132 M
AVGA-132MR-84
1PS0133-■ND■■-0QA3 102
3/10
160 M
AVGA-160MR-84
1PS0163-■ND■■-0QA3 176
1PS0166-■ND■■-0QA3 192
3.5/13
160 L
AVGA-160LS-84
4/16
180 M
AVGA-180MR-84
1PS0183-■ND■■-0QA3 246
5/20
180 L
AVGA-180LR-84
1PS0186-■ND■■-0QA3 255
7/28
200 L
AVGA-200LR-84
1PS0206-■ND■■-0QA3 333
8/33
225 S
AVGA-225SR-84
1PS0220-■ND■■-0QA3 415
9.2/37
225 S
AVGA-225SS-84 1) 1PS0221-■ND■■-0QA3 425
9.5/39
225 M
AVGA-225MR-84 1) 1PS0223-■ND■■-0QA3 445
11/44
225 M
AVGA-225MS-84 1) 1PS0224-■ND■■-0QA3 335
11/49
250 M
AVGA-250MM-84
1PS0253-■ND■■-0QA3 560
17/68
280 S
AVGA-280SL-84
1PS0280-■ND■■-0QA3 780
20/80
280 M
AVGA-280MM-84
1PS0283-■ND■■-0QA3 850
22/95
315 S
AVGA-315SL-84
1PS0311-■ND■■-0QA3 950
26/110 315 M
AVGA-315ML-84
1PS0313-■ND■■-0QA3 1030
30/130 315 M
AVGA-315MN-84
1PS0315-■ND■■-0QA3 1110
38/160 315 L
AVGA-315LL-84
1PS0316-■ND■■-0QA3 1300
45/180 315 L
AVGA-315LM-84
1PS0317-■ND■■-0QA3 1410
50/220 355 M
AVGA-355MB-84 2) 1PS0353-■ND■■-0QB0 1560
60/275 355 L
AVGA-355LB-84 2) 1PS0356-■ND■■-0QB0 1730
LOHER VARIO on request
Prated,
3
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
3/18
Siemens D 83.1 · 2014
Frame size
90 ... 355
90 ... 355
Frame size
90 ... 112
90 ... 315
90 ... 355
90 ... 355
90 ... 355
Frame size
90 ... 355
90 ... 315
90 ... 112
90 ... 112
90 ... 355
90 ... 355
90 ... 355
2)
Motor with special rotor (Cu).
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
Frame
m
size
IM B3
50 Hz
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
6-/4-pole: 1000/1500 rpm at 50 Hz with two separate windings for fan drive
LOHER CHEMSTAR
0.4/1.3 90 L
AVGA-090LS-64
1PS0098-■ND■■-0PA3 37
0.6/1.8 100 L
AVGA-100LR-64
1PS0106-■ND■■-0PA3 53
0.75/2.4 100 L
AVGA-100LS-64
1PS0108-■ND■■-0PA3 55
0.9/3
112 M
AVGA-112MS-64
1PS0113-■ND■■-0PA3 66
1PS0131-■ND■■-0PA3 93
1.25/4.2 132 S
AVGA-132SR-64
1.65/5.5 132 M
AVGA-132MR-64
1PS0133-■ND■■-0PA3 102
2.2/7.5 160 M
AVGA-160MR-64
1PS0163-■ND■■-0PA3 176
1PS0165-■ND■■-0PA3 182
3/9
160 M
AVGA-160MS-64
3.5/12
160 L
AVGA-160LS-64
1PS0166-■ND■■-0PA3 192
4.5/14
180 M
AVGA-180MR-64
1PS0183-■ND■■-0PA3 246
5.5/16.5 180 L
AVGA-180LS-64
1PS0186-■ND■■-0PA3 255
7/20
200 L
AVGA-200LR-64
1PS0206-■ND■■-0PA3 333
9/26
200 L
AVGA-200LS-64
1PS0208-■ND■■-0PA3 341
10/31
225 S
AVGA-225SR-64
1PS0220-■ND■■-0PA3 415
1PS0223-■ND■■-0PA3 445
13/38
225 M
AVGA-225MS-64
17/48
250 M
AVGA-250MM-64
1PS0253-■ND■■-0PA3 560
25/70
280 S
AVGA-280SL-64
1PS0280-■ND■■-0PA3 780
30/82
280 M
AVGA-280MM-64
1PS0283-■ND■■-0PA3 850
32/95
315 S
AVGA-315SL-64
1PS0311-■ND■■-0PA3 980
37/115 315 M
AVGA-315ML-64
1PS0313-■ND■■-0PA3 1040
47/135 315 M
AVGA-315MN-64
1PS0315-■ND■■-0PA3 1120
55/160 315 L
AVGA-315LL-64 1)
1PS0316-■ND■■-0PA3 1340
75/200 315 L
AVGA-315LM-64 1) 2) 1PS0317-■ND■■-0PA3 1430
1PS0356-■ND■■-0PA0 1730
90/250 355 L
AVGA-355LB-64
LOHER VARIO on request
Prated,
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
Frame size
90 ... 355
90 ... 355
Frame size
90 ... 112
90 ... 315
90 ... 355
90 ... 355
90 ... 355
Frame size
90 ... 355
90 ... 315
90 ... 112
90 ... 112
90 ... 355
90 ... 355
90 ... 355
2)
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Motor with special rotor (Cu).
Siemens D 83.1 · 2014
3/19
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
Frame
m
size
IM B3
50 Hz
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: double pole-changing for square-law load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
8-/6-pole: 750/1000 rpm at 50 Hz with two separate windings for fan drive
LOHER CHEMSTAR
0.32/0.75 90 L
AVGA-090LR-86
1PS0098-■ND■■-0RA3 37
0.45/1
100 L
AVGA-100LR-86
1PS0106-■ND■■-0RA3 53
0.55/1.3 100 L
AVGA-100LS-86
1PS0108-■ND■■-0RA3 55
0.8/1.9 112 M
AVGA-112MS-86
1PS0113-■ND■■-0RA3 66
1PS0131-■ND■■-0RA3 93
1.1/2.6 132 S
AVGA-132SR-86
1.6/3.8 132 M
AVGA-132MR-86
1PS0133-■ND■■-0RA3 102
2.5/6
160 M
AVGA-160MR-86
1PS0163-■ND■■-0RA3 176
1PS0166-■ND■■-0RA3 192
3.5/8
160 L
AVGA-160LS-86
5.5/12.5 180 L
AVGA-180LS-86
1PS0186-■ND■■-0RA3 246
9.5/20
200 L
AVGA-200LR-86
1PS0206-■ND■■-0RA3 333
11/24
225 S
AVGA-225SR-86
1PS0220-■ND■■-0RA3 415
13/28
225 M
AVGA-225MS-86
1PS0223-■ND■■-0RA3 445
16/34
250 M
AVGA-250MM-86
1PS0253-■ND■■-0RA3 560
25/50
280 S
AVGA-280SL-86
1PS0280-■ND■■-0RA3 780
1PS0283-■ND■■-0RA3 850
30/60
280 M
AVGA-280MM-86
33/70
315 S
AVGA-315SL-86
1PS0311-■ND■■-0RA3 960
40/85
315 M
AVGA-315ML-86
1PS0313-■ND■■-0RA3 1030
47/100 315 M
AVGA-315MN-86
1PS0315-■ND■■-0RA3 1110
55/120 315 L
AVGA-315LL-86
1PS0316-■ND■■-0RA3 1300
70/150 315 L
AVGA-315LM-86 1) 2) 1PS0317-■ND■■-0RA3 1420
85/190 355 L
AVGA-355LB-86
1PS0356-■ND■■-0RA0 1730
LOHER VARIO on request
Prated,
3
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
3/20
Siemens D 83.1 · 2014
Frame size
90 ... 355
90 ... 355
Frame size
90 ... 112
90 ... 315
90 ... 355
90 ... 355
90 ... 355
Frame size
90 ... 355
90 ... 315
90 ... 112
90 ... 112
90 ... 355
90 ... 355
90 ... 355
2)
Motor with special rotor (Cu).
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Pole-changing motors in cast-iron and steel versions
■ Selection and ordering data (continued)
Motor type
Article No.
Frame
m
size
IM B3
50 Hz
kW
FS
kg
• Cooling: self-ventilated (IC 411)
• Mains-fed operation: triple pole-changing for constant load torque
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
8-/6-pole: 750/1000 rpm at 50 Hz with two separate windings for fan drive
LOHER CHEMSTAR
0.5/0.6/0.8 100 L
ANGA-100LR-33
1PS0106-■BD■■-0SA3 53
0.7/0.8/1.1 100 L
ANGA-100LS-33
1PS0108-■BD■■-0SA3 55
0.9/1.1/1.5 112 M
ANGA-112MR-33
1PS0113-■BD■■-0SA3 66
1.3/1.6/2.2 132 S
ANGA-132SR-33
1PS0131-■BD■■-0SA3 93
1PS0133-■BD■■-0SA3 102
2.2/2.5/3.6 132 M
ANGA-132MR-33
3.3/4/5.5
160 M
ANGA-160MR-33
1PS0163-■BD■■-0SA3 176
4.5/6/8
160 L
ANGA-160LR-33
1PS0166-■BD■■-0SA3 192
1PS0183-■BD■■-0SA3 246
6/8/11
180 M
ANGA-180MR-33
7/9/14
180 L
ANGA-180LR-33
1PS0186-■BD■■-0SA3 255
12/15/18.5 200 L
ANGA-200LS-33
1PS0206-■BD■■-0SA3 333
16/20/26
225 S
ANGA-225SS-33
1PS0220-■BD■■-0SA3 415
19/22/30
225 M
ANGA-225MS-33 1) 1PS0223-■BD■■-0SA3 445
24/28/36
250 M
ANGA-250MM-33
1PS0253-■BD■■-0SA3 560
31/37/50
280 S
ANGA-280SL-33
1PS0280-■BD■■-0SA3 780
1PS0283-■BD■■-0SA3 850
37/45/60
280 M
ANGA-280MM-33
43/55/68
315 S
ANGA-315SL-33 2) 1PS0311-■BD■■-0SA3 960
50/65/80
315 M
ANGA-315ML-33 2) 1PS0313-■BD■■-0SA3 1040
60/75/95
315 M
ANGA-315MN-33 2) 1PS0315-■BD■■-0SA3 1120
70/90/110 315 L
ANGA-315LL-33 2) 1PS0316-■BD■■-0SA3 1350
LOHER VARIO on request
Prated,
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Voltages
230 V, 50 Hz
500 VY, 50 Hz
400 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
1)
Rated output, partial utilization up to 155 °C (F).
Frame size
100 ... 315
100 ... 315
Frame size
100 ... 112
100 ... 315
100 ... 315
100 ... 315
100 ... 315
Frame size
100 ... 315
100 ... 315
100 ... 112
100 ... 112
100 ... 315
100 ... 315
100 ... 315
2)
0
1
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
Motor with special rotor (Cu).
Siemens D 83.1 · 2014
3/21
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Brake motors with High Efficiency IE2 in cast-iron and steel versions
■ Selection and ordering data
Operating values at rated output
Pra- Frame nra- Tra- TB c/h · J IE
ηra- ηra- cosϕ
S4- class ted, ted, rated,
ted, size
ted,
ted,
40 %
50 Hz
50 Hz 50 Hz
50 Hz, 50 Hz, 50 Hz,
1)
3
4/4
3/4
4/4
Motor type
Ira-
Ira-
Ira-
Article No.
TLR/ ILR/ TB/
Tra- Ira- Tra-
ted,
ted,
ted,
50 Hz, 50 Hz, 50 Hz, ted
400 V 500 V 690 V
m
J
IM B3
ted ted
kW FS
rpm Nm Nm –
–
%
%
–
A
A
A
–
– –
kg kgm2
• Cooling: self-ventilated (IC 411)
• Efficiency: High Efficiency IE2, 0.75 kW and above in accordance with IEC 60034-30
• Insulation: thermal class 155 (temperature class F), IP55 degree of protection, utilization in accordance with thermal class 130 (temperature class B), S1-100 %
2-pole: 3000 rpm at 50 Hz
LOHER CHEMSTAR
5.5 132 S 2910 18 80
IE2 88.9 89.9 0.9
9.90 7.90 5.80 2.6 6.7 3.1 ABGA-132SR-02 1PS0131-■RD■■-0AA3 103 0.014
7.5 132 S 2910 25 80
IE2 89.5 90.1 0.91 13.3 10.6 7.70 3.0 7.6 3.3 ABGA-132SS-02 1PS0132-■RD■■-0AA3 112 0.020
11 160 M 2930 36 150
IE2 89.6 90.0 0.88 20.0 16.1 11.7 2.5 6.7 3.0 ABGA-160MR-02 1PS0163-■RD■■-0AA3 193 0.045
4-pole: 1500 rpm at 50 Hz
LOHER CHEMSTAR
5.5 132 S 1455 36 80
IE2 89.5 89.9 0.85 10.4 8.30 6.00 2.6 7.9 2.7 ABGA-132SR-04 1PS0131-■RD■■-0BA3 103 0.030
7.5 132 M 1470 49 150
IE2 90.2 90.7 0.84 14.3 11.4 8.30 2.0 7.6 2.8 ABGA-132MS-04 1PS0133-■RD■■-0BA3 112 0.030
11 160 M 1460 72 150
IE2 90.5 91.4 0.81 21.5 17.3 12.6 2.1 6.8 2.6 ABGA-160MR-04 1PS0163-■RD■■-0BA3 193 0.077
15 160 L 1460 98 260
IE2 90.9 92.0 0.81 29.5 23.5 17.0 2.1 6.5 2.7 ABGA-160LS-04 1PS0166-■RD■■-0BA3 210 0.098
18.5 180 M 1470 120 260
IE2 92.3 92.8 0.83 35.0 28.0 20.0 3.3 7.6 3.0 ABGA-180MR-04 1PS0183-■RD■■-0BA3 270 0.16
22 180 L 1470 143 260
IE2 91.8 92.3 0.83 41.5 33.5 24.0 3.0 7.0 2.6 ABGA-180LS-04 1PS0186-■RD■■-0BA3 280 0.16
30 200 L 1470 195 400
IE2 92.3 93.2 0.83 57.0 45.0 33.0 1.5 6.0 2.5 ABGA-200LR-04 1PS0206-■RD■■-0BA3 366 0.27
37 225 S 1480 239 400
IE2 93.5 93.9 0.81 71.0 56.0 41.0 3.0 7.3 2.9 ABGA-225SR-04 1PS0220-■RD■■-0BA3 456 0.37
45 225 M 1475 291 400
IE2 93.1 93.7 0.84 83.0 66.0 48.0 2.6 6.7 2.6 ABGA-225MS-04 1PS0223-■RD■■-0BA3 490 0.41
55 250 M 1480 355 400
IE2 93.7 94.4 0.87 97.0 78.0 56.0 2.5 7.7 2.9 ABGA-250MM-04 1PS0253-■RD■■-0BA3 616 0.79
6-pole: 1000 rpm at 50 Hz
LOHER CHEMSTAR
3
132 S 955 30 80
IE2 84.1 85.0 0.79 6.50 5.20 3.80 2.3 6.5 2.5 ABGA-132SR-06 1PS0131-■RD■■-0CA3 103 0.033
4
132 M 955 40 80
IE2 86.0 86.3 0.81 8.30 6.60 4.80 2.3 6.5 2.5 ABGA-132MR-06 1PS0133-■RD■■-0CA3 112 0.045
5.5 132 M 955 55 150
IE2 86.1 86.8 0.77 12.0 9.60 6.90 2.4 6.1 2.6 ABGA-132MS-06 1PS0135-■RD■■-0CA3 118 0.045
7.5 160 M 965 74 150
IE2 87.4 88.1 0.82 15.1 12.1 8.80 2.5 6.5 2.9 ABGA-160MR-06 1PS0163-■RD■■-0CA3 193 0.125
11 160 L 970 108 260
IE2 89.0 89.2 0.74 24.0 19.3 14.0 3.0 6.7 3.0 ABGA-160LS-06 1PS0166-■RD■■-0CA3 210 0.144
15 180 L 970 148 260
IE2 89.7 90.2 0.78 31.0 25.0 17.9 1.7 5.6 2.5 ABGA-180LS-06 1PS0186-■RD■■-0CA3 270 0.138
18.5 200 L 980 180 400
IE2 91.2 91.5 0.80 36.5 29.5 21.0 2.5 7.0 2.6 ABGA-200LR-06 1PS0206-■RD■■-0CA3 366 0.33
22 200 L 980 214 400
IE2 91.5 92.0 0.78 44.5 35.5 26.0 2.5 7.0 2.6 ABGA-200LS-06 1PS0208-■RD■■-0CA3 375 0.33
30 225 M 980 292 400
IE2 91.8 92.5 0.80 59.0 47.0 34.0 2.8 6.0 2.3 ABGA-225MS-06 1PS0223-■RD■■-0CA3 380 0.55
37 250 M 985 359 400
IE2 92.2 92.3 0.77 75.0 60.0 43.5 2.1 6.0 2.1 ABGA-250MM-06 1PS0253-■RD■■-0CA3 560 1.0
Operating modes
Mains-fed operation
Converter-fed operation, standard insulation
Converter-fed operation with special insulation (derating approx. 5 %)
Voltages
230 V/400 V, 50 Hz
500 VY, 50 Hz
400 V/690 V, 50 Hz
690 VY, 50 Hz
For other voltages see Page 3/23
Types of construction
IM B3
IM B5
IM B34
IM B14
IM V1/cover
IM B35
For other types of construction see from Page 1/28
TB = Braking torque in Nm
Standard brake supply: 230 V, 1-phase AC
1)
Conversion factor "c/h · J" depending on the duty cycle.
3/22
Siemens D 83.1 · 2014
Frame size
132 ... 250
132 ... 250
160 ... 250
Frame size
132 ... 250
132 ... 250
132 ... 250
132 ... 250
132 ... 250
Frame size
132 ... 250
132 ... 250
132 ... 250
132 ... 250
132 ... 250
132 ... 250
132 ... 250
0
1
2
1
3
6
8
9
0
1
2
3
4
6
9
Order code
–
–
–
Order code
–
–
–
–
…
Order code
–
–
–
–
–
–
…
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Article No. supplements
■ Selection and ordering data
Voltages
Voltage
code
11.
position of
the
Article
No.
AddiMotor series
tional
identifi- LOHER CHEMSTAR
cation
code
with
order
code
and
plain
text if
required
LOHER VARIO
Frame size
1PS0. . . - . . . ■ . - . . . .
90
100 112
132
160 180
200
225 250
280
315 355
355
400 450
500
Optional voltages
690 VΔ, 50 Hz
0
–
–
–
–
–
–
–
–
–
–
–





230 VΔ/400 VY, 50 Hz
1










–
–
–
–
–
–
500 VY, 50 Hz
3











–
–
–
–
–
400 VΔ, 50 Hz
4














–
–
500 VΔ, 50 Hz
5
















400 VΔ/690 VY, 50 Hz
6














–
–
690 VY, 50 Hz
8












–
–
–
–
415 VY, 50 Hz
9
L1C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
415 VΔ, 50 Hz
9
L1D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
380 VΔ/660 VY, 50 Hz
9
L1L
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
220 VΔ/380 VY, 50 Hz
9
L1R
✓
✓
✓
O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
–
–
1000 VΔ, 50 Hz
9
L1V
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R.
Other voltages
9
L1Y •
✓
and identification
code
220 VΔ/380 VY, 60 Hz
(50 Hz output)
9
220 VΔ/380 VY, 60 Hz
(60 Hz output)
✓
✓
✓
✓
✓
✓
L2A
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
–
–
9
L2B
O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. O.R. –
–
–
–
–
–
380 VΔ/660 VY, 60 Hz
(50 Hz output)
9
L2C
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
380 VΔ/660 VY, 60 Hz
(60 Hz output)
9
L2D
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
460 VY, 60 Hz (60 Hz output)
9
L2E
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
–
460 VΔ, 60 Hz (60 Hz output)
9
L2F
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
575 VY, 60 Hz (60 Hz output)
9
L2L
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
575 VΔ, 60 Hz (60 Hz output)
9
L2M
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
440 VY, 60 Hz (50 Hz output)
9
L2Q
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
440 VΔ, 60 Hz (50 Hz output)
9
L2R
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
460 VY, 60 Hz (50 Hz output)
9
L2S
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
460 VΔ, 60 Hz (50 Hz output)
9
L2T
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
575 VY, 60 Hz (50 Hz output)
9
L2U
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
575 VΔ, 60 Hz (50 Hz output)
9
L2V
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.
440 VY, 60 Hz (60 Hz output)
9
L2W
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. –
440 VΔ, 60 Hz (60 Hz output)
9
L2X
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O.R. O.R. O.R. O.R.

✓
✓
Without additional charge
This order code only determines the price of the version –
Additional plain text is required.
✓
With additional charge
O.R. Possible on request
–
Not possible
•
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
–
For dual voltages 230 V/400 V, 220 V/380 V, 400 V/690 V or
380 V/660 V:
– For motors for converter-fed operation,
the converter rating plate is stamped with 380 V or 400 V.
– For motors with a Dahlander circuit, the lower voltage
is generally specified.
Voltages not listed in the catalog are only available on request.
Standard brake supply voltage: 230 V, 1-phase
Siemens D 83.1 · 2014
3/23
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
■ Selection and ordering data
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
90
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Special design according to load curve –
of driven machine or customer requirements – factory clarification required and
maybe type test needed, ETO option
without order code
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Adjustment of rating in response to cus- –
tomer requirements – factory clarification
required and maybe type test needed,
ETO option without order code
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Motor protection with 3 PTC thermistors
for tripping – without surge arresters,
sole protection not included
A11
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
Motor protection with 2 × 3 PTC thermis- A12
tors for prewarning/tripping – without
surge arresters, sole protection not
included
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Measuring of winding temperature by
means of embedded KTY84-130 temperature sensor
A23
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Measuring of winding temperature by
means of 2 × embedded KTY84-130
temperature sensors
A25
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Monitoring of winding temperature using A60
3 Pt100 resistance thermometers –
2-wire from element and terminal box;
for round-wire windings only
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Monitoring of winding temperature using A61
2 × 3 Pt100 resistance thermometers –
2-wire from element and terminal box;
for round-wire windings only
–
–
–
–
O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
3 Pt100 resistance thermometers in stator A63
winding, 3-wire connection from auxiliary
terminal box
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 resistance thermometers in stator A64
winding, 3-wire connection from auxiliary
terminal box
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
without surge arresters for 4-wire
connection from terminal box –
for pre-formed coil winding only
A65
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
A66
with surge arresters for 4-wire connection
from terminal box – for pre-formed coil
winding only
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
without surge arresters in Ex i for 4-wire
connection from terminal box – for preformed coil winding only
A67
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
6 Pt100 slot resistance thermometers
in shielded design to Ex i with surge
arresters for 3- and 4-wire connection
from terminal box – for pre-formed coil
winding only
Q40
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Design with reduced starting current –
factory clarification required and maybe
type test needed, ETO option (Engineer
To Order) without order code
3
3/24
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
90
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection (continued)
2 Pt100 double resistance thermometers V80
in shielded design (Ex i) for roller bearing
or sleeve bearing
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Winding Pt100 in 3- or 4-wire type from
sensor instead of from terminal
(not Ex i Pt100!)
Q43
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing Pt100 in 3- or 4-wire type from
sensor instead of from terminal –
optionally possible for V80, A40, A42
Q44
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
One thermocouple per bearing
Q49
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring
(preferred brand), with loose cable –
for each sensor
V14
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring V15
(preferred brand), without terminal box –
for each sensor
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
3 transmitters, 4 to 20 mA for Pt100
winding
P20
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
1 transmitter with digital display with
Ex d or Ex i approval
V88
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Pt100 winding in tolerance class A with
calibration certificate
V78
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Site altitude max. 1500 m (observe
D06
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 2000 m (observe
D07
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 2500 m (observe
D08
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Site altitude max. 3000 m (observe
D09
derating) – derating in accordance with
reduction table, efficiency class of motor
is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 45 °C
(observe derating) – derating in accordance with reduction table, efficiency
class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
D11
Siemens D 83.1 · 2014
3/25
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
90
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special electrical designs/winding protection (continued)
3
Cooling air temperature max. 50 °C
(observe derating) – derating in accordance with reduction table, efficiency
class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 55 °C
(observe derating) – derating in accordance with reduction table, efficiency
class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cooling air temperature max. 60 °C
(observe derating) – derating in accordance with reduction table, efficiency
class of motor is maintained.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
D14
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coolant temperature below +40 °C with
increased output – factory clarification
required, not applicable for IE2.
D18
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Utilization to temperature class 155 (F)
with higher output – higher output on
request, not applicable for IE2.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
C12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Rated output of the lower output level – C29
IEC output levels are maintained, only in
combination with D06 to D18.
No additional charge when special
voltage is selected
(11th position of Article No. = 9).
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Moderately extended speed range for
converter-fed operation
V82
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Temperature class F
W00
–
Temperature class H
W01
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Special insulation for increased voltage
load in converter-fed operation (phaseto-phase 2250 VPeak/derating)
1)
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Sealing of winding overhangs with
silicone rubber
W03
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Sealing of cable duct with silicone rubber W04
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Efficiency according to efficiency class
IE3 (Premium Efficiency) – factory
clarification required
D25
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
Non-standard voltage and/or frequency
for separate fan motor
Y81 • and
–
identification
code
✓
✓
✓
✓
Other special electrical designs/
configurations
3/26
Siemens D 83.1 · 2014
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Colors and paint finish
Internal corrosion protection system J08
W10
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Coating system N08 – 110 µm (C3
medium) – corrosion resistance
acc. to EN/ISO 12944-5 = C3
V09
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system N14/J08 – 170 µm
V10
(chemical industry + onshore, C5 –
industrial climate) – corrosion resistance
acc. to EN/ISO 12944-5 = C5 (5 to 15
years) for industrial climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Coating system N14A (chemical industry W14
+ onshore, C5 – industry) – corrosion
resistance acc. to EN/ISO 12944-5 = C5
(5 to 15 years) for industrial climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Special prime coat system Z05 with
internal corrosion protection system J08
W15
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Coating system Z21/J08 – 210 µm
V11
(offshore, C5M-M) – corrosion resistance
acc. to EN/ISO 12944-5 = C5
(5 to 15 years) – sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Increased layer thickness 275 µm for
V19
coating system Z21 (C5M-high) – only in
combination with V11 – corrosion resistance acc. to EN/ISO 12944-5 = C5 high
(> 15 years) – sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special offshore paint finish to Norsok
V12
M501 (C5-high – sea climate) – corrosion
resistance acc. to EN/ISO 12944-5 = C5
high (> 15 years) – sea climate
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special coating system S11/J08
(e.g. submerged motors)
V13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Unpainted, only primed
K24
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Unpainted
K23












–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Y50 • and
–
identification
code
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Standard paint finish in RAL 1004, 1018, Y53 • and
✓
2000, 2004, 5009, 5012, 5015, 6003,
standard
6011, 7000, 7011, 7031, 7038, 9002
finish RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special paint finish in RAL 1004, 1018,
2000, 2004, 5009, 5012, 5015, 6003,
6011, 7000, 7011, 7031, 7038, 9002 –
(specify special coating system in
addition, e.g. V10, V11, W14, etc.)
Y54 • and
✓
special
finish RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
RAL colors, other than those offered
above
Y51 • and
✓
special
finish RAL….
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special non-RAL colors
Y71 • and
✓
identification
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Outer coating 110 µm for zinc-galvanized V98
noise cabinet – V98 = outer coating
110 µm for zinc-galvanized noise cabinet
Special colors according to Munsell or
British Standard
Other paint combinations/systems or
RAL colors to customer specification
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Siemens D 83.1 · 2014
3/27
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
M34
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design for Zone 22 (non-conductive dust) M35
for mains-fed operation
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design for Zone 21 (conductive dust)
for converter-fed operation
M38
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Design for Zone 22 (non-conductive dust) M39
for converter-fed operation
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design acc. to GL (Germanischer Lloyd), W24
CT 45 °C with manufacturer's declaration
– non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design acc. to LRoS (Lloyds Register of W25
Shipping), CT 45 °C with manufacturer's
declaration – non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design acc. to BV (Bureau Veritas), CT
50 °C with manufacturer's declaration –
non essential
W26
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design acc. to DNV (Det Norske Veritas), W27
CT 45 °C with manufacturer's declaration
– non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design acc. to ABS (American Bureau of W28
Shipping), CT 50 °C with manufacturer's
declaration – non essential
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Design acc. to RINa (Registro Italiano
Novale), CT 50 °C with manufacturer's
declaration – non essential
W29
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Other certifications, motors for upper
deck mounting and acceptance tests to
classification – factory clarification
required
W99
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
1PS0. . . - . . . . . - . . . . -Z
Design for Zones according to ATEX
Design for Zone 21 (conductive dust)
for mains-fed operation
✓
✓
✓
Ship design "Operation below deck"
3
Design acc. to GL (Germanischer Lloyd), Q60
CT 45 °C, essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to LRoS (Lloyds Register of Q61
Shipping), CT 45 °C with manufacturer's
declaration, essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to BV (Bureau Veritas), CT
45 °C with manufacturer's declaration,
essential drive 2)
Q62
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to DNV (Det Norske Veritas), Q63
CT 45 °C with manufacturer's declaration,
essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to ABS (American Bureau of Q64
Shipping), CT 50 °C with manufacturer's
declaration, essential drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to RINa (Registro Italiano
Novale), CT 50 °C with manufacturer's
declaration, essential drive 2)
Q65
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to CCS (China) CT 45 °C with Q66
manufacturer's declaration, essential
drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to USSR (Russia) CT xx °C
with manufacturer's declaration, essential drive 2)
Q67
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to PR (Poland) CT xx °C with Q68
manufacturer's declaration, essential
drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Design acc. to NKK (Japan) CT xx °C with Q69
manufacturer's declaration, essential
drive 2)
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
3/28
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Individual certifications
Coolant temperature in temperature
range -50 to +40 °C – roller bearing
design
D02
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Coolant temperature in temperature
range -40 to +40 °C – roller bearing
design
D03
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Coolant temperature in temperature
range -30 to +40 °C – roller bearing
design
D04
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Electrical design according to
NEMA MG1-12
D30
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
China Energy Efficiency Label
D34












–
–
–
–
Terminal box on right-hand side
(view onto DE)
K09
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓




Terminal box on left-hand side
(view onto DE)
K10
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓




Terminal box on top
K11
















Mounting of rotary pulse encoder
Loher preferred brand
Q70
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Terminal box to IP65
Q71
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Cable entry thread metrically different
from standard – thread dimension must
be specified
W30
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Enlarged connection system for main
terminal box – not in combination with
K53 (Ex d terminal box)
L00
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Undrilled cable gland plate –
for main terminal box
L01
–
–
–
–
–
–
–
–
–
–
–
–




Split terminal box
Special mechanical designs
W31
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
NPT thread – specify thread size in plain W32
text, cable gland not in our supply
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Cable gland, standard – one cable
gland for supply cable in the main
terminal box, non-armored cable
K54
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
W33
Cable gland, standard thread size for
auxiliary connection (1 unit) – for
connection cable of accessories in main
or auxiliary terminal box
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Main terminal with tinned cable lug
for copper cable
W34
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Saddle terminal for connection without
cable lug
W35
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special cable gland – special sizes or
Y97 • and
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
armored cable, exact cable data needed identification
code
Auxiliary terminal box, non-Ex, cast-iron
design – without removable cable gland
plate, with metric cable entry thread
M50
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Material of auxiliary terminal box: stainless steel – not in combination with K53
(Ex d terminal box)
M51
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Separate auxiliary terminal box for anticondensation heater
M52
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Heater in main terminal box
P84
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Siemens D 83.1 · 2014
3/29
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Auxiliary terminal box in cast-iron design Q75
with "undrilled" removable cable gland
plate – not in combination with K53
(Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Auxiliary terminal box in cast-iron design Q76
with removable cable gland plate "drilled
with metric thread and sealed with metal
plug" – not in combination with K53
(Ex d terminal box)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Cable outlet radially without terminal box W38
with 1 m free cable length (4- or 7-core)
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Additional price for each additional meter W39
of cable – only in combination with W38
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Connection cable for accessories –
only in combination with W38, length as
power cable
W40
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Additional separately supplied terminal
box made of cast-iron with baseplate –
main terminal box certified acc. to Ex e
W41
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Cable entry from DE
K83
















Cable entry from NDE
K84
















Rotation of the terminal box by 180°
K85
















Vibration quantity level A – IEC 60034-14 K01
















Vibration quantity level B – IEC 60034-14 K02
– for converter-fed operation only at
lowest and highest speed of speed
range
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft and flange with increased accuracy K04
according to DIN 42955
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Radial sealing ring at DE for horizontal
flange-mounting types (DE oil-tight)
K17
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Radial sealing ring at DE for vertical
flange-mounting types (DE oil-tight)
W43
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Labyrinth sealing for external bearing
seal
W44
O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓




Bearing for increased cantilever forces
(roller bearing DE with regreasing) –
comprising K40
K20
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Bearings for increased axial forces
V20
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Regreasing device DE/NDE
K40
–
–
–
–
✓
✓
✓
✓
✓
✓






Grease-collecting chamber if regreasing W45
is applied
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Bearing insulation NDE for roller bearings L27
– binding for frame sizes 315 to 500 for
converter-fed operation
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
Shaft grounding device – up to -20 °C
only
V36
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Located bearing DE
K94
















Located bearing NDE
L04
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special grease Klüber Staburags
NBU8EP – ETO option (Engineer To
Order) without order code
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Special grease Klüber Isoflex SL2 –
ETO option (Engineer To Order) without
order code
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
1PS0. . . - . . . . . - . . . . -Z
Special mechanical designs (continued)
3
3/30
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
✓
Special mechanical designs (continued)
Special grease Barierta L55/2 – ETO
option (Engineer To Order) without
order code
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Other special grease – ETO option
(Engineer To Order) without order code
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Pt100 bearing in tolerance class A
with calibration certificate –
only in combination with Q44
V76
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
One transmitter each (2 in total) 4 to
20 mA for Pt100 bearing DE and NDE
V83
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Sensor for housing vibration monitoring
Bently Nevada Accelerometers without
separate terminal box – for each sensor
V16
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing ventilation at DE for lower
bearing temperature for roller bearing
design grease-lubricated
V17
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Bearing insulation at both ends for roller
bearing design motors (DE linked to
ground) – for horizontal mounting only
(vertical mounting on request)
V18
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Grease extractors for DE and NDE
V21
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Automatic grease lubricator at DE and
V22
NDE (permissible temperature range from
-15 to +50 °C)
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Enlarged spent grease chamber at
DE and NDE
V25
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
External grounding (additionally)
W46
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
VIK design – including W14, W69
K30
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
LOHER CHEMSTAR Plus design,
including VIK design – including K30,
K51, W14, W69 and IP66 bearing seal,
vibrations as grade B
W09
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Second rating plate, supplied loose
K31
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Second rating plate installed in terminal
box
W47
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extra rating plate stamped with data
Y80 • and

for converter-fed operation – data for
identification
quadratic torque in speed range 1:10
code
and constant torque in speed ranges 1:3
and 1:10











✓
✓
✓
✓
Extra rating plate for customer data
Y82 • and
✓
(each plate) – data must be specified as identification
text in the order
code
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Rating plates made of stainless steel
W48
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Rating plates in languages other than
English and German – main rating plate
or extra rating plates O.R., factory
clarification required
W49
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Additional measures for 2 to 4 years
storage in accordance with storage
regulations
W50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater 230 V
K45
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater 115 V
K46
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater, 110 to 120 V
(min. 100 V, max. 132 V) – preferred
M12
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Anti-condensation heater, 210 to 250 V
(min. 200 V, max. 264 V) – preferred
M13
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Siemens D 83.1 · 2014
3/31
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
90
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
3
Anti-condensation heater with other
voltages
Y83 • and
–
identification
code
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Heater with thermostat (e.g. Elmess)
V75
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Second standard shaft extension –
for 100 % torque
K16
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Non-standard cylindrical shaft extension Y55 • and
✓
(standard diameter or smaller) – in case identification
of significantly different diameters,
code
especially high-pole motors due to the
maximum permissible torque stress,
factory clarification required
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shaft of material 1.7225
W51
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Shaft of material 1.4021
W52
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. –
–
–
–
Shaft end of stainless steel butt-welded
(material 1.4571)
W53
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. O. R. –
–
–
–
Shaft made of special steel – for
increased torque loading, e.g.
1.7225 – 42CrMo4
L72
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Welded standard stator housing for sur- W54
face-cooled motors – factory clarification
required because of possible dimension
deviations
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. 



Welded copper bar rotors
W55
–
–
–
O. R. ✓
✓
✓
✓
✓
✓
✓
✓




Second shaft extension for IM B3 up to
100 % Trated; cylindrical with feather key
Q21
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special rotor for heavy duty starting
(e.g. double-cage rotor or brass rotor) –
testing needed
Q22
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Generator design (asynchronous) with
1.8 fold runaway speed
W56
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
IP56 degree of protection
K51
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓




IP65 degree of protection
K50
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
IP66 degree of protection
L94
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
IP67 degree of protection
K93
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
IP67 degree of protection without level
switch (resin material for terminal box
protection will be shipped as extra
package; 8 m submerged, 72 h max.)
W58
O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
Condensation drainage holes sealed
with plug
W59
–
–
–
–












Condensation drainage holes sealed
with screw
W60
–
–
–
–








✓
✓
✓
✓
Increased tropicalization, humidity
≥ 80 % – LOHER CHEMSTAR incl. V10
and W71, LOHER VARIO incl. V10 and
P45
W61
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Tropical design for outdoor onshore
installation
L28
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
W62
Design without fan and fan cover –
motor mounted in air stream of driven fan;
without external air stream cooling, due to
derating
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Fan with plastic coating in case of metal
fan
W63
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Fan of aluminum
W64
✓
✓
✓
✓
✓
✓
✓
✓
–
–

–
–
–
–
–
3/32
Siemens D 83.1 · 2014
–
–
–
–
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
90
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
Fan of steel
W65
O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓




External fan of brass
W66
O. R. O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
External fan of stainless steel
V94
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Special ventilation for on-deck motors
W67
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Fan cover of steel sheet (3 mm thick)
W68
O. R. O. R. ✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Galvanized fan cover – included in K30
and W09
W69
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Noise class 3 for clockwise direction of
rotation viewed onto DE – for 2-pole
motors only
K37
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Noise class 3 for counter-clockwise
direction of rotation viewed onto DE –
for 2-pole motors only
K38
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Clockwise – direction of rotation must be K97
specified for motors of FS 355 and above
2-/4-pole
–
–
–
–
–
–
–
–
–
–
–





Counter-clockwise – direction of rotation
must be specified for motors of FS 355
and above 2-/4-pole
K98
–
–
–
–
–
–
–
–
–
–
–





Noise reduction: silencer for air inlet
(DW, NMA) – only in combination with
K97 or K98
L20
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Stainless steel grid for air inlet silencer – L25
only in combination with L20
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Noise cabinet with inspection door –
zinc-galvanized, unpainted – noise
reduction approx. 15 dB(A) based on
GG1
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Operation in both directions of rotation – K99
for 2-/4-pole motors of frame size 355
and above, increased noise values and
possible derating












✓
✓
✓
✓
Higher number of starts (up to 3000 starts Q23
per year) – factory testing is necessary
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
Full-key balancing
L68
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Support ring for coupling guard
L15
–
–
–
–
–
–
–
–
–
–
–
–
V32
✓
✓
✓
✓
Fitting of coupling halves (customerL17
supplied, finish-machined and balanced)
– supplied 4 weeks ahead of testing date
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. ✓
✓
✓
✓
Motor mounting material: bolts for
mounting on steel foundation with shims
(V2A), taper pins
L31
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Motor mounting material: T-head bolts,
anchor sleeves and soleplates for
mounting on concrete foundation
L33
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Half-key balancing
L69
















Heavy duty bearing design for extreme
cantilever forces
L96
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Stainless steel screws and plates
W71
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Stainless steel external bolts
P45
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Ambient temperatures down to -40 °C;
preheating before operation necessary
W73
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Ambient temperatures down to -40 °C no W75
preheating before operation necessary;
without Ex protection
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Siemens D 83.1 · 2014
3/33
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Ambient temperatures down to -60 °C no W76
preheating before operation necessary;
without Ex protection
✓
✓
Ambient temperatures down to -40 °C;
preheating before operation necessary
(factory clarification required)
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
1PS0. . . - . . . . . - . . . . -Z
Special mechanical designs (continued)
3
W77
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Ambient temperatures down to -60 °C;
W78
preheating before operation necessary –
factory clarification required
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R.
Mounted pulse transmitter 10 to 30 V,
HTL level – signals A, B, N + inverted
signals
W80
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Hollow-shaft encoder (special brand)
e.g. Baumer Hübner
Q93
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Mechanical protection for rotary pulse
encoder
M68
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Mounted axial forced ventilation – forced G17
ventilation should preferably be specified
in the 10th position of the Article No.
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R.
Mounted radial forced ventilation
W81
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R. O. R. –
–
–
–
Backstop for clockwise direction of rotation viewed onto DE (counter-clockwise
blocked)
G48
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Backstop for counter-clockwise direction G49
of rotation viewed onto DE (clockwise
blocked)
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Mounted brake, standard design
✓
✓
✓
G40
–
–
–
–
–
–
–
–
✓
–
–
–
–
Mechanical manual release for standard K82
brake – in combination with G40
–
–
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. –
–
–
–
Brake supply voltage 400 V AC/50 Hz
C01
–
–
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. –
–
–
–
Brake supply voltage 24 V DC
C00
–
–
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. –
–
–
–
Tapered shaft extension with shaft nut
T36
–
–
–
–
–
–
–
–
–
Microswitch for brake –
in combination with G40
W83
–
–
✓
✓
✓
✓
✓
✓
O. R. O. R. O. R. O. R. –
Sun protection shield – fixing parts of mild V87
steel, cover unpainted stainless steel for
vertical motors
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Sun protection shield – fixing parts of mild V99
steel, cover of unpainted stainless steel
for horizontal motors
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Preparation for SPM bearing monitoring, W84
only M8 drilled hole for measuring nipple
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Machined surface on motor foot with
dowel pin holes
Q94
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Base frame for height adaptation of
max. 2 frame sizes difference
Q96
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Adaptation of foot and shaft dimensions
to next higher frame size (no adaptation
of terminal box!)
Q97
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Adaptation of flange dimensions and
drilled holes in flange
Q98
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Preparation for later installation of sun
protection shield
Q99
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
SPM bearing monitoring: measuring
nipple system 32 – thread M8, DE and
NDE
G50
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Shock pulse measurement (SPM),
fixed sensor and distribution box
H05
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
3/34
Siemens D 83.1 · 2014
–
–
–
O. R. O. R. O. R. O. R.
–
–
–
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
90
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
SPM bearing monitoring: Fixed sensor
system 40 – thread M8
W85
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
–
–
–
–
Bearing temperature monitoring with
PTC thermistors at DE/NDE
W86
–
–
–
–
O. R. O. R. ✓
✓
✓
✓
✓
✓
–
–
–
–
Speed monitoring by inductive proximity A03
switches, Pepperl + Fuchs
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 Pt100 resistance thermometers for
A40
3- or 4-wire connection from terminal box
for roller bearings – 1 × DE and 1 × NDE
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R. ✓
✓
✓
✓
2 Pt100 double resistance thermometers A42
for 4-wire connection from terminal box
for roller bearings – 1 × DE and 1 × NDE
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 dial-type thermometers for roller bear- A70
ings and sleeve bearings with meter unit
without contacts
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
2 dial-type thermometers for roller bear- A71
ings and sleeve bearings with meter unit
on stator housing and 2 NO contacts
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Bearing temperature monitoring with
1 × Pt100 per bearing in 2-wire
connection
A72
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
–
–
–
–
2 Pt100 double resistance thermometers for three-wire connection for
roller bearing
A80
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
One dial-type thermometer with 2 contacts, capillary principle – Ex i design
without supply unit!
V89
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Engraved tag plate fixed on terminal box V96
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
4 mm shims, stainless-steel base
(V4A/AISI 316) – not laminated
Q92
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
4 mm shims, brass base – not laminated V31
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Slotted feet holes
Q95
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Pre-formed coil for LV motors
V01
–
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
2 metal test sheets (100 × 150 mm) with
paint layer for special acceptance test
V08
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Impact protection – for built-on devices,
per device
M81
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Brackets for lifting and shifting
P42
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Provision for housing vibration probe,
one flat surface with thread M8 × 1
P63
–
–
–
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
Pressure oil connection with cylindrical
or stepped shaft extension instead of
feather key connection
Y85 • and
–
identification
code
–
–
–
–
–
–
–
–
–
–
–
O. R. O. R. O. R. O. R.
"High-speed motors" for speed range
3600 < n ≤ 6000 rpm – factory clarification required; torque characteristic and
cutoff frequency affect the design
W87
"High-speed motors" for speed range
–
> 6000 rpm – factory clarification
required; torque characteristic and cutoff
frequency affect the design; ETO option
(Engineer To Order) without order code
✓
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. –
–
–
–
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Siemens D 83.1 · 2014
3/35
3
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Special versions
Special versions
Additional
Motor series
identification
LOHER CHEMSTAR
code -Z
with order
code and
plain text if
required
90
1PS0. . . - . . . . . - . . . . -Z
LOHER VARIO
100 112 132 160 180 200 225 250 280 315 355 355 400 450 500
Special mechanical designs (continued)
Retrofit (description of special design
separately) – adaptation to an existing
motor
B15
O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R. O. R.
Extension of the liability for defects by
12 months to a total of 24 months from
delivery
Q80
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
18 months to a total of 30 months from
delivery
Q81
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
24 months to a total of 36 months from
delivery
Q82
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
30 months to a total of 42 months from
delivery
Q83
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
36 months to a total of 48 months from
delivery
Q84
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects by
48 months to a total of 60 months from
delivery
Q85
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Extension of the liability for defects
3


Standard version
Without additional charge
•
This order code only determines the price of the version –
Additional plain text is required.
✓
With additional charge
O.R. Possible on request
–
Not possible
1)
Coding in 8th position of the article number, for
LOHER CHEMSTAR = 2.
3/36
Siemens D 83.1 · 2014
2)
Acceptance tests must be selected additionally. For example, for the first
motor select F83 or F93, and for each additional motor F01. Inclusive of
costs for certification authority and inspector, and shaft test if specified by
certification authority. LOHER CHEMSTAR for essential drive is possible on
request as an ETO option (Engineer To Order) without an option code.
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Dimensions for LOHER CHEMSTAR 1PS0 motors, frame sizes 90 L to 250 M
■ Dimensional drawings
Type of construction IM B3
For flange dimensions, see Page 3/43.
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
HD
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
FA
DA
EA
AA
DC
A
AB
EE
B
BB
3
Types of construction IM B5 and IM V1
For flange dimensions, see Page 3/43.
G_D083_XX_00058
LC
LF
L
LE
AG
E
T
AS
LL
LA
FA
M
P
N
D
AC
F
DA
HD
EA
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD/AD' AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER CHEMSTAR
90 L
2 … 16
140
40
180
186
–
138
69
125
40
155
15
56
90
13
303
10
426
100 L
2 … 16
160
40
205
213
–
138
69
140
50
170
15
63
100
18
327
12
482
112 M
2 … 16
190
45
240
237
–
138
69
140
50
170
18
70
112
18
352
12
465
132 S
2 … 16
216
50
260
278
274
186
92
140
50
228
25
89
132
18
406
12
574
132 M
2 … 16
216
50
260
278
274
186
92
178
50
228
25
89
132
18
406
12
574
160 M
2 … 16
254
60
310
331
305
186
92
210
83
307
21
108
160
23
465
14.5
786
160 L
2 … 16
254
60
310
331
305
186
92
254
83
307
21
108
160
23
465
14.5
786
180 M
2 … 16
279
70
349
364
349
254
123
241
99
359
24
121
180
18.5
529
14.5
822
180 L
2 … 16
279
70
349
364
349
254
123
279
99
359
24
121
180
18.5
529
14.5
822
200 L
2 … 16
318
80
400
404
367
254
123
305
120
425
32
133
200
25
569
18.5
884
225 S
2
4 … 16
356
90
450
451
384
254
123
286
136
438
34
149
225
26
609
19
966
996
225 M
2
4 … 16
356
90
450
451
384
254
123
311
136
438
34
149
225
26
609
19
966
996
250 M
2
4 … 16
406
100
505
490
522
382
176
349
110
420
36
168
250
35
772
25
1028
Siemens D 83.1 · 2014
3/37
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Dimensions for LOHER CHEMSTAR 1PS0 motors, frame sizes 90 L to 250 M
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 3/43.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
HD
FA
M
DB
BA
C
BC
EC
ØK
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 3/43.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
AC
FA
DA
HD
EA
F
3
EB
ED
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
GA
M
GC
ZxS
DB
EC
ED
DC
EE
Dimension designation acc. to IEC DE shaft extension
Frame size
No. of poles
LC
LE
LF
LL
D
DB
E
EB
NDE shaft extension
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER CHEMSTAR
90 L
2 … 16
486
173
459
138
24
M8
50
40
5
8
27
24
M8
50
40
5
8
27
100 L
2 … 16
552
205
520
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
112 M
2 … 16
535
210
505
138
28
M10 60
50
5
8
31
28
M10 60
50
5
8
31
132 S
2 … 16
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
132 M
2 … 16
664
270
638
184
38
M12 80
70
5
10
41
38
M12 80
70
5
10
41
160 M
2 … 16
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
160 L
2 … 16
906
381
850
184
42
M16 110
100
5
12
45
42
M16 110
100
5
12
45
180 M
2 … 16
942
415
912
246
48
M16 110
100
5
14
51.5 48
M16 110
100
5
14
51.5
180 L
2 … 16
942
415
912
246
48
M16 110
100
5
14
51.5 48
M16 110
100
5
14
51.5
200 L
2 … 16
1004
460
974
246
55
M20 110
100
5
16
59
55
M20 110
100
5
16
59
225 S
2
4 … 16
1086
1146
480
510
1062
1092
246
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
225 M
2
4 … 16
1086
1146
480
510
1062
1092
246
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
55
60
M20 110
140
100
125
5
7.5
16
18
59
64
250 M
2
4 … 16
1178
496
1140
354
60
65
M20 140
125
7.5
18
64
69
60
65
M20 140
125
7.5
18
64
69
3/38
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Dimensions for LOHER CHEMSTAR 1PS0 motors, frame sizes 280 S to 355 L
■ Dimensional drawings (continued)
Type of construction IM B3
G_D083_XX_00057
LC
LF
L
LE
LL
AD'
AD
AG
AS
HD
HA
GC
DB
EB
ED
BA
C
BC
EC
ØK
HX
HX'
GA
H
D
AC
F
E
FA
DA
EA
AA
DC
A
AB
EE
B
BB
3
Types of construction IM B5 and IM V1
For flange dimensions, see Page 3/43.
G_D083_XX_00058
LC
LF
L
LE
AG
E
T
AS
LL
LA
FA
M
P
N
D
AC
F
DA
HD
EA
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD/AD'
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER CHEMSTAR
280 S
2
4 … 16
457
110
570
550
552
382
176
368
150
520
51
190
280
40
768
25
1119
280 M
2
4 … 16
457
110
570
550
552
382
176
419
120
520
51
190
280
40
768
25
1119
315 S
2
4 … 16
508
125
630
622
660
509
196
406
165
575
59
216
315
40
955
28
1304
1334
315 M
2
4 … 16
508
125
630
622
660
509
196
457
165
575
59
216
315
40
955
28
1304
1334
315 LL
2
4 … 16
508
125
630
622
676
509
196
508
165
575
59
216
315
40
971
28
1491
1521
315 L
2
4 … 16
508
125
630
622
676
509
196
560
165
575
59
216
315
40
971
28
1491
1521
355 M
2
4 … 16
610
120
730
700
729
509
196
560
150
650
45
254
355
50
1084 30
1400
1430
355 L
2
4 … 16
610
120
730
700
729
509
196
630
150
720
45
254
355
50
1084 30
1470
1500
Siemens D 83.1 · 2014
3/39
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Dimensions for LOHER CHEMSTAR 1PS0 motors, frame sizes 280 S to 355 L
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 3/43.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
HD
FA
M
DB
BA
C
BC
EC
ØK
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 3/43.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
AC
FA
DA
HD
EA
F
3
EB
ED
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
M
GA
GC
ZxS
DB
EC
ED
DC
EE
Dimension designation acc. to IEC DE shaft extension
Frame size
No. of poles
LC
LE
LF
LL
D
DB
E
NDE shaft extension
EB
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER CHEMSTAR
280 S
2
4 … 16
1269
582
1231
354
65
75
M20 140
125
7.5
18
20
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
280 M
2
4 … 16
1269
582
1231
354
65
75
M20 140
125
7.5
18
20
69
65
79.5 75
M20 140
125
7.5
18
20
69
79.5
315 S
2
4 … 16
1494
1554
630
660
1422
1452
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
65
79.5 80
M20 140
170
125
140
7.5
15
18
22
69
79.5
315 M
2
4 … 16
1494
1554
630
660
1422
1452
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
315 LL
2
4 … 16
1694
1741
630
660
1609
1639
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
315 L
2
4 … 16
1694
1741
630
660
1609
1639
401
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
65
80
M20 140
170
125
140
7.5
15
18
22
69
85
355 M
2
4 … 16
1550
1610
674
704
1563
1593
401
75
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5 75
95
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5
95
355 L
2
4 … 16
1620
1680
709
739
1633
1663
401
75
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5 75
95
90
M20 140
M24 170
125
140
7.5
15
20
25
79.5
95
3/40
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Dimensions for LOHER VARIO 1PS0 motors, frame sizes 355 L to 500 L
■ Dimensional drawings (continued)
Type of construction IM B3
G_D083_EN_00062
AD'
AD'
AC
D
F
HD'
LL
DB
EB
ED
BA
E
H
HA
HB'
GA
ØK
AA
C
BC
HD'
HB
HD
LE
HB'
L (2 pole)
L (4-pole to 16-pole)
A
AB
B
BB
3
AF
AF
Types of construction IM B5 and IM V1
For flange dimensions, see Page 3/43.
G_D083_XX_00058
LC
LF
L
LE
AG
E
T
AS
LL
LA
FA
M
P
N
D
AC
F
DA
HD
EA
GA
GC
DB
EC
EB
DC
ZxS
EE
ED
Dimension designation acc. to IEC
Frame size
No. of poles
A
AA
AB
AC
AD/AD' AF
AG
AS
B
BA
BB
BC
C
H
HA
HD
øK
L
LOHER VARIO
355 L
2
4 … 16
630
140
780
740
500
800
210
950
254
355
35
1190 33
1860
1890
400 L
2
4 … 16
710
185
860
820
500
900
210
1090
280
400
30
1297 33
1975
2015
450 L
2
4 … 16
800
230
900
920
500
1000 260
1260
315
450
30
1375 39
2095
2135
500 L
2
4 … 16
900
220
1030 1015
500
1120 280
1400
335
500
40
1479 39
–
2305
Siemens D 83.1 · 2014
3/41
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Dimensions for LOHER VARIO 1PS0 motors, frame sizes 355 L to 500 L
■ Dimensional drawings (continued)
Type of construction IM B35
For flange dimensions, see Page 3/43.
G_D083_XX_00061
LC
LF
L
LE
LL
E
T
AD'
AD
AG
AS
LA
EA
HD
FA
M
DB
BA
C
BC
EC
ØK
AA
DC
A
AB
EE
B
BB
Type of construction IM B14
For flange dimensions, see Page 3/43.
G_D083_XX_00059
LC
LF
L
LE
AG
AS
E
T
LL
P
N
D
AC
FA
DA
HD
EA
F
3
EB
ED
HX
HX'
HA
GC
GA
H
P
N
D
AC
F
DA
ZxS
M
GA
GC
ZxS
DB
EC
ED
DC
EE
Dimension designation acc. to IEC DE shaft extension
Frame size
No. of poles
LC
LE
LF
LL
D
DB
E
EB
NDE shaft extension
ED
F
GA
DA
DC
EA
EC
EE
FA
GC
LOHER VARIO
355 L
2
4 … 16
657
687
75
90
M20 140
M24 170
20
25
79.5 75
95
90
M20 140
M24 170
20
25
79.5
95
400 L
2
4 … 16
695
732
80
100
M20 170
M24 210
22
28
85
106
80
100
M20 170
M24 210
22
28
85
106
450 L
2
4 … 16
707
747
85
110
M20 170
M24 210
22
28
90
116
85
110
M20 170
M24 210
22
28
90
116
500 L
2
4 … 16
–
747
–
120
–
–
M24 210
–
32
–
127
–
120
–
–
M24 210
–
32
–
127
3/42
Siemens D 83.1 · 2014
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Flange dimensions
■ Dimensional drawings
In EN 50347, the frame sizes
are allocated flange FF with
through holes and flange FT
with tapped holes.
(Z = the number of retaining
holes)
G_D083_XX_00064
P
N
G_D083_XX_00063
E
T
M
ZxS
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
Selectable flange
LA
E
M
N
P
S
T
Z
FF165
10
50
165
130
200
11.5
3.5
4
FF215 1)
11
–
215
180
250
14
4
4
FT115
15
50
115
95
140
M8
3
4
FT100 1)
8
–
100
80
120
M6
3
4
FT130 1)
10
–
130
110
160
M8
3.5
4
FF215
11
60
215
180
250
14
4
4
FT130
11
60
130
110
160
M8
3.5
4
FT115 1)
10
–
115
95
140
M8
3
4
FT130 1)
12
–
165
130
200
M10
3.5
4
FF215
11
60
215
180
250
14
4
4
FT165 1)
13
–
265
230
300
14
4
4
FT130
11
60
130
110
160
M8
3.5
4
FT165 1)
12
–
165
130
200
M10
3.5
4
FF265
12
80
265
230
300
14
4
4
FF215 1)
11
–
215
180
250
14
4
4
FF265
12
80
265
230
300
14
4
4
FF215 1)
11
–
215
180
250
14
4
4
FF300
20
110
300
250
350
18
5
4
FF215 1)
11
–
215
180
250
14
4
4
FF265 1)
12
–
265
230
300
14
4
4
FF300
20
110
300
250
350
18
5
4
FF215 1)
11
–
215
180
250
14
4
4
FF265 1)
12
–
265
230
300
14
4
4
FF300
13
110
300
250
350
18
5
4
FF265 1)
12
–
265
230
300
14
4
4
FF400 1)
16
–
400
350
450
18
5
8
FF300
13
110
300
250
350
18
5
4
FF265 1)
12
–
265
230
300
14
4
4
FF400 1)
16
–
400
350
450
18
5
8
FF350
15
110
350
300
400
18
5
8
FF300 1)
15
–
300
250
350
18
5
4
FF400 1)
16
–
400
350
450
18
5
8
FF400
16
110
400
350
450
18
5
8
FF350 1)
15
–
350
300
400
18
5
8
FF400
17
140
400
350
450
18
5
8
FF350 1)
15
–
350
300
400
18
5
8
LOHER CHEMSTAR
90 L
100 L
112 M
132 S
132 M
160 M
160 L
180 M
180 L
200 L
225 S
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2 … 16
2
4 … 16
1)
3
Flange is selectable at no additional cost.
Siemens D 83.1 · 2014
3/43
© Siemens AG 2014
Motors without Explosion Protection
LOHER CHEMSTAR and VARIO 1PS0 motor series
Flange dimensions
■ Dimensional drawings (continued)
Frame size
No. of poles
Flange with
through hole (FF)/
tapped hole (FT)
acc. to EN 50347
Dimension designation acc. to IEC
Selectable flange
LA
E
M
N
P
S
T
Z
16
110
400
350
450
18
5
8
LOHER CHEMSTAR (continued)
225 M
2
FF400
FF350
4 … 16
250 M
2 … 16
280 S
2 … 16
280 M
315 S
3
2 … 16
2
4 … 16
315 M
2
4 … 16
315 LL
2
4 … 16
315 L
2
4 … 16
1)
15
–
350
300
400
18
5
8
FF400
16
140
400
350
450
18
5
8
FF350 1)
15
–
350
300
400
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
16
–
400
350
450
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
22
–
400
350
450
18
5
8
FF500
18
140
500
450
550
18
5
8
FF400 1)
22
–
400
350
450
18
5
8
FF600
22
140
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
170
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
140
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
170
600
550
660
24
6
8
FF500 1)
22
–
500
450
550
18.5
5
8
FF600
22
140
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
FF600
22
170
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
FF600
22
140
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
FF600
22
170
600
550
660
24
6
8
FF740 1)
25
–
740
680
800
24
6
8
355 M
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
355 L
2
4 … 16
FF740
25
140
170
740
680
800
24
6
8
LOHER VARIO
355 L
2
4 … 16
FF740
25
140
170
740
680
800
22
6
8
400 L
2
4 … 16
FF940
28
170
210
940
880
1000
22
6
8
450 L
2
4 … 16
FF1080
30
170
210
1080
1000
1150
26
6
8
500 L
2
4 … 16
FF1180
30
–
210
1180
1120
1250
26
7
8
1)
Flange is selectable at no additional cost.
3/44
Siemens D 83.1 · 2014
4
© Siemens AG 2014
Tools and Engineering
Security notes
4/2
SinaSave energy efficiency tool
Siemens provides products and solutions
with industrial security functions that
support the secure operation of plants,
solutions, machines, devices, and/or
networks. They are important components
in a holistic industrial security concept.
With this in mind, Siemens’ products and
solutions undergo continuous development. Siemens recommends strongly that
you regularly check for product updates.
4/3
Drive Technology Configurator
4/4
SIZER for Siemens Drives
configuration tool
4/5
SIZER WEB ENGINEERING
engineering tool
For the secure operation of Siemens
products and solutions, it is necessary to
take suitable preventive action (e.g. cell
protection concept) and integrate each
component into a holistic, state-of-the-art
industrial security concept. Third-party
products that may be in use should also
be considered.
For more information about industrial
security, visit
www.siemens.com/industrialsecurity
To receive information about product
updates on a regular basis, register for
our product newsletter.
For more information, visit
http://support.automation.siemens.com
Siemens D 83.1 · 2014
© Siemens AG 2014
Tools and Engineering
SinaSave energy efficiency tool
■ Overview
■ More information
Payback calculator for energy-efficient drive systems
SinaSave is available on the Internet free of charge at
www.siemens.com/sinasave
More information about services for energy saving is available
on the Internet at
www.siemens.com/energy-saving
SinaSave calculates the extent of the potential savings that are
possible in a specific drive application, based on the plant
characteristics. Potential savings of up to 70 % can be achieved.
SinaSave also works as a payback calculator, stating how
quickly investing in an energy-efficient motor will pay off in mains
operation or with a frequency converter for variable-speed operation. The payback period will frequently be just a few months.
For mains operation, SinaSave calculates the cost savings and
payback period of Siemens energy-saving motors of efficiency
class IE3 (IEC) or Premium Efficiency (NEMA) compared to
motors of the standard efficiency classes IE2 and IE1 (IEC) or
High Efficiency (NEMA), individually selected or familiar motors
as part of a complete plant assessment.
4
For converter operation, SinaSave takes all necessary plantspecific parameters and values required for the process into
account. Other basic data for the program include the number
of working days and work shifts, as well as the load curve that
decides the extent of the energy-saving effect throughout the
day and the year. From the entered plant-specific data,
SinaSave first obtains the drive system with the appropriate
output and the price of the corresponding frequency converter.
In a further step, the program determines the energy requirements of the variable-speed drive system and compares it to the
calculated values for all alternative concepts that could be
considered.
4/2
Siemens D 83.1 · 2014
© Siemens AG 2014
Tools and Engineering
Drive Technology Configurator
■ Overview
■ Selection and ordering data
Configuration of drive technology products
Description
Article No.
The Drive Technology Configurator (DT Configurator) helps you
to select the optimum products for your application – starting
with gear units, motors, converters and the associated options
and components and ending with controllers, software licenses
and connection technology. With or without detailed knowledge
of products: preselected product groups, deliberate navigation
through selection menus and direct product selection through
entry of the product number support quick, efficient and convenient configuration.
Interactive Catalog CA 01
E86060-D4001-A510-D3-7600
DVD-ROM
including Drive Technology Configurator,
German
■ More information
Online access to Drive Technology Configurator
More information about the Drive Technology Configurator is
available on the Internet at:
www.siemens.com/dt-configurator
Offline access to the Drive Technology Configurator in
the Interactive Catalog CA 01
In addition, the Drive Technology Configurator is also included
on the DVD of the Interactive Catalog CA 01 – the offline version
of Siemens Industry Mall.
The Interactive Catalog CA 01 can be ordered from the relevant
Siemens sales office or via the Internet:
www.siemens.com/automation/CA01
Also, comprehensive documentation comprising technical data
sheets, operating instructions, certificates and 2D/3D dimensional drawings can be selected in the DT Configurator. Immediate ordering is possible by simply transferring a parts list to the
shopping cart of the Industry Mall.
DT Configurator – Efficient drive configuration:
• Quick and easy configuration of drive components
• Configuration of drive systems for pumps, fans and
compressor applications from 1 kW to 2.6 MW
• Selection from a wide range of products
• Comprehensive documentation
• Support with retrofitting
• Direct ordering via the Industry Mall
4
System requirements:
• Internet access as well as a standard browser (e.g. Internet
Explorer V7.0 and higher, Firefox V5.0 and higher)
• Documentation (data sheets, dimensional drawings, etc.) is
output in PDF or RTF format
• The DT Configurator can be used without the need for
registration
Siemens D 83.1 · 2014
4/3
© Siemens AG 2014
Tools and Engineering
SIZER for Siemens Drives configuration tool
The configuration process produces the following results:
• A parts list of the required components (export to Excel, use
of the Excel data sheet for import to SAP)
• Technical specifications of the system
• Characteristic curves
• Comments on system reactions
• Mounting arrangement of drive and control components and
dimensional drawings of motors
• Energy requirements of the configured application
■ Overview
These results are displayed in a results tree and can be reused
for documentation purposes.
Support is provided by the technological online help menu:
• Detailed technical specifications
• Information about the drive systems and their components
• Decision-making criteria for the selection of components
• Online help in English, French, German, Italian, Chinese and
Japanese
The following drives and controls can be engineered in a userfriendly way using the SIZER for Siemens Drives configuration
tool:
• SINAMICS Low Voltage and MICROMASTER 4 drive systems
• Motor starters
• SINUMERIK CNC system
• SIMOTION Motion Control System
• SIMATIC Technology
4
It provides support when setting up the technologies involved in
the hardware and firmware components required for a drive
task. SIZER for Siemens Drives covers the full range of operations required to configure a complete drive system, from basic
single drives to complex multi-axis applications.
SIZER for Siemens Drives supports all of the engineering steps
in a workflow:
• Configuring the power supply
• Designing the motor and gearbox, including calculation of
mechanical transmission elements
• Configuring the drive components
• Selecting the required accessories
• Selecting the line-side and motor-side power options,
e.g. cables, filters, and reactors
When SIZER for Siemens Drives was being designed, particular
importance was placed on a high degree of usability and a
universal, function-based approach to the drive application. The
extensive user guidance makes it easy to use the tool. Status
information keeps you continually informed about the progress
of the configuration process.
The SIZER for Siemens Drives user interface is available in
English, French, German and Italian.
The drive configuration is saved in a project. In the project, the
components and functions used are displayed in a hierarchical
tree structure.
The project view permits the configuration of drive systems and
the copying/inserting/modifying of drives already configured.
4/4
Siemens D 83.1 · 2014
System requirements
• PG or PC with Pentium III min. 800 MHz
(recommended > 1 GHz)
• 512 MB RAM (1 GB RAM recommended)
• At least 4.1 GB of free hard disk space
• An additional 100 MB of free hard disk space on the Windows
system drive
• Screen resolution 1024 × 768 pixels
(1280 × 1024 pixels recommended)
• Operating system:
- Windows XP Home Edition SP2
- Windows XP Professional 32 bit SP2
- Windows XP Professional 64 bit SP2
- Windows Vista Business
- Windows 7 Ultimate 32 bit
- Windows 7 Professional 32 bit
• Microsoft Internet Explorer V5.5 SP2
■ Selection and ordering data
Description
Article No.
SIZER for Siemens Drives
configuration tool
DVD-ROM
6SL3070-0AA00-0AG0
English, French, German, Italian
■ More information
The SIZER for Siemens Drives configuration tool is available free
on the Internet at
www.siemens.com/sizer
© Siemens AG 2014
Tools and Engineering
SIZER WEB ENGINEERING engineering tool
■ Overview
Drive engineering – flexible, tailored and user-friendly
You can quickly find a solution for your drive task with the
web-based tool: menu-prompted workflows navigate you
through the technical selection and dimensioning of products
and drive systems, including the accessories.
■ More information
More information on the SIZER WEB ENGINEERING engineering
tool is available on the Internet at
www.siemens.com/sizer-we
Based on an integrated inquiry functionality, SIZER WEB
ENGINEERING also offers you special customized solutions
for applications which cannot be addressed using "Standard
Products", i.e. the focus is on flexibility and customized
solutions.
The following product groups are presently supported:
• High-voltage motors
• Low-voltage motors
• Medium-voltage converters
• Low-voltage converters
• DC converters
The tool can also be used to design the following drive systems:
• Medium-voltage systems
• Low-voltage systems
- Basic single-axis applications for pumps, fans, and
compressors
- More complex applications (on condition that SIZER for
Siemens Drives is installed)
Comprehensive documentation, such as data sheets, startup
calculations, dimensional drawings, offer documentation and a
lot more are integrated in the tool.
The result: customized solutions for your drive tasks.
4
Example of startup calculation
Internet access as well as a standard browser (e.g. Internet
Explorer from V7.0, Firefox from V3.0) are required. After
successful registration and release, SIZER WEB ENGINEERING
is available 24/7.
Siemens D 83.1 · 2014
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© Siemens AG 2014
Tools and Engineering
Notes
4
4/6
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Appendix
5/2
Partners at Industry
5/3
Online Services
Information and Ordering in the Internet
and on DVD
Siemens Industry Automation and
Drive Technologies in the WWW
Product Selection using the Interactive
Catalog CA 01 of Industry
Easy shopping with the Industry Mall
Information and Download Center
Social Media, Mobile Media
Downloading Catalogs
Social Media
Mobile Media
5/3
5/3
5/3
5/4
5/4
5/4
5/5
5/5
5/9
Industry Services
Your machines and plant can do more –
with Industry Services.
Industry Services for the entire life cycle
Online Support
Technical Support
Spare Parts
Repair Services
Field Services
Training
Technical Consulting & Engineering
Support
Energy & Environmental Services
Modernization & Optimization
Services
Plant Maintenance & Condition
Monitoring
Service Contracts
5/10
Metal surcharges
5/13
Conditions of sale and delivery
5/6
5/6
5/7
5/7
5/7
5/8
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Appendix
Partners at Industry
At Siemens Industry we are resolutely pursuing the same goal:
long-term improvement of your competitive ability.
We are committed to this goal. Thanks to our commitment, we
continue to set new standards in automation and drive technology. In all industries – worldwide.
At your service locally, around the globe for consulting, sales,
training, service, support, spare parts ... on the entire Industry
Automation and Drive Technologies range.
Your personal contact can be found in our Contacts Database at:
www.siemens.com/automation/partner
You start by selecting a
• Product group,
• Country,
• City,
• Service.
5
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Appendix
Online Services
Information and Ordering in the Internet and on DVD
■ Siemens Industry Automation and Drive Technologies in the WWW
A detailed knowledge of the range of products and services
available is essential when planning and configuring automation
systems. It goes without saying that this information must always
be fully up-to-date.
Siemens Industry Automation and Drive Technologies has
therefore built up a comprehensive range of information in the
World Wide Web, which offers quick and easy access to all data
required.
Under the address
www.siemens.com/industry
you will find everything you need to know about products,
systems and services.
■ Product Selection Using the Interactive Catalog CA 01 of Industry
Detailed information together with convenient interactive
functions:
The interactive catalog CA 01 covers more than 80 000 products
and thus provides a full summary of the Siemens Industry
Automation and Drive Technologies product base.
Here you will find everything that you need to solve tasks in the
fields of automation, switchgear, installation and drives.
All information is linked into a user interface which is easy to
work with and intuitive.
After selecting the product of your choice you can order at the
press of a button, by fax or by online link.
Information on the interactive catalog CA 01 can be found in the
Internet under
www.siemens.com/automation/ca01
or on DVD.
■ Easy Shopping with the Industry Mall
The Industry Mall is the electronic ordering platform of
Siemens AG on the Internet. Here you have online access
to a huge range of products presented in an informative and
attractive way.
Data transfer via EDIFACT allows the whole procedure from
selection through ordering to tracking and tracing of the order to
be carried out. Availability checks, customer-specific discounts
and preparation of quotes are also possible.
Numerous additional functions are available to support you.
For example, powerful search functions make it easy to select
the required products. Configurators enable you to configure
complex product and system components quickly and easily.
CAx data types are also provided here.
Please visit the Industry Mall on the Internet under:
www.siemens.com/industrymall
Siemens D 83.1 · 2014
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5
© Siemens AG 2014
Appendix
Online Services
Information and Download Center, Social Media, Mobile Media
■ Downloading Catalogs
In addition to numerous other useful documents, you can also
find the catalogs listed on the back inside cover of this catalog
in the Information and Download Center. Without having to
register, you can download these catalogs in PDF format or
increasingly as digital page-turning e-books.
The filter dialog box above the first catalog displayed makes it
possible to carry out targeted searches. If you enter “MD 3” for
example, you will find both the MD 30.1 and MD 31.1 catalogs.
If you enter “ST 70” both the ST 70 catalog and the associated
news or add-ons are displayed.
Visit us on the web at:
www.siemens.com/industry/infocenter
■ Social Media
Connect with Siemens through social media: visit our social
networking sites for a wealth of useful information, demos on
products and services, the opportunity to provide feedback,
to exchange information and ideas with customers and other
Siemens employees, and much, much more. Stay in the know
and follow us on the ever-expanding global network of social
media.
Connect with Siemens Industry at our central access point:
www.siemens.com/industry/socialmedia
Or via our product pages at:
www.siemens.com/automation
or
www.siemens.com/drives
To find out more about Siemens' current social media activities
visit us at:
5
www.siemens.com/socialmedia
■ Mobile Media
Discover the world of Siemens.
We are also constantly expanding our offering of cross-platform
apps for smartphones and tablets. You will find the current
Siemens apps at the app store (iOS) or at Google Play (Android).
The Siemens app, for example, tells you all about the history,
latest developments and future plans of the company – with
informative pictures, fascinating reports and the most recent
press releases.
5/4
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Appendix
Industry Services
Your machines and plant can do more – with Industry Services.
Whether it is production or process industry – in view of rising
cost pressure, growing energy costs, and increasingly stringent
environmental regulations, services for industry are a crucial
competitive factor in manufacturing as well as in process
industries.
All over the world Siemens supports its customers with product,
system, and application-related services throughout the entire
life cycle of a plant. Right from the earliest stages of planning,
engineering, and building, all the way to operation and modernization. These services enable customers to benefit from the
Siemens experts’ unique technological and product knowledge
and industry expertise.
Thus downtimes are reduced and the utilization of resources is
optimized. The bottom line: increased plant productivity,
flexibility, and efficiency, plus reduced overall costs.
Discover all advantages of our service portfolio:
www.siemens.com/industry-services
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Repair Services
Field Services
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Siemens supports its clients with technology based Services across a plants entire life cycle.
Siemens D 83.1 · 2014
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© Siemens AG 2014
Appendix
Industry Services
Industry Services for the entire life cycle
Online Support
Online support is a comprehensive information system for all
questions relating to products, systems, and solutions that
Siemens has developed for industry over time. With more than
300,000 documents, examples and tools, it offers users of automation and drive technology a way to quickly find up-to-date
information. The 24-hour service enables direct, central access
to detailed product information as well as numerous solution
examples for programming, configuration and application.
The content, in six languages, is increasingly multimediabased
– and now also available as a mobile app. Online support’s
“Technical Forum” offers users the opportunity to share information with each other. The “Support Request” option can be used
to contact Siemens’ technical support experts. The latest content, software updates, and news via newsletters and Twitter
ensure that industry users are always up to date.
www.siemens.com/industry/onlinesupport
Online Support App
Using the Online Support app, you can access over 300,000
documents covering all Siemens industrial products – anywhere,
any time. Regardless of whether you need help implementing
your project, fault-finding, expanding your system or are planning a new machine.
The search function retrieves product information and articles
and supports you with a personalized suggestion list. You can
find your favorite pages – articles you need frequently – under
“mySupport”. You also receive selected news on new functions,
important articles or events in the News section.
You have access to FAQs, manuals, certificates, characteristics
curves, application examples, product notices (e.g. announcements of new products) and information on successor products
in the event that a product is discontinued.
Just scan the product code printed on the product directly using
the camera of your mobile device to immediately see all technical information available on this product at a glance. The graphical CAx information (3D model, circuit diagrams or EPLAN
macros) is also displayed. You can forward this information to
your workplace using the e-mail function.
Scan the QR code
for information on
our Online Support
app.
The app is available free of charge from the Apple App Store
(iOS) or from Google Play (Android).
www.siemens.com/industry/onlinesupportapp
5
Technical Support
The ability to quickly analyze system and error messages and
take appropriate action are key factors in ensuring that plants
run safely and efficiently. Questions can arise at any time and in
any industry, whether it’s an individual product or a complete
automation solution. Siemens technical support offers individual
technical assistance in matters related to functionality, how to
operate, applications, and fault clearance in industrial products
and systems – at any time and globally, over the phone, by email, or via remote access. Experienced experts from Siemens
answer incoming questions promptly. Depending on the requirements, they first consult specialists in the areas of development,
on-site services, and sales. Technical support is also available
for discontinued products that are no longer available. Using the
support request number, any inquiry can be clearly identified
and systematically tracked.
http://support.automation.siemens.com/WW/view/en/16605032
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Appendix
Industry Services
Industry Services for the entire life cycle
Spare Parts
Drive and automation systems must be available at all times.
Even a single missing spare part can bring the entire plant to a
standstill – and result in substantial financial losses for the operator. The spare parts services from Siemens protects against
such losses – with the aid of quickly available, original spare
parts that ensure smooth interaction with all other system components. Spare parts are kept on hand for up to ten years; defective parts can be returned. For many products and solutions,
individual spare parts packages ensure a preventive stock of
spare parts on-site. The spare parts services is available around
the world and around the clock. Optimum supply chain logistics
ensure that replacement components reach their destination as
quickly as possible. Siemens’ logistics experts take care of planning and management as well as procurement, transportation,
customs handling, warehousing, and complete order management for spare parts.
http://support.automation.siemens.com/WW/view/en/43502238
Repair Services
Reliable electrical and electronic equipment is crucial for operating continuous processes. That is why it is essential that motors and converters always undergo highly specialized repair
and maintenance. Siemens offers complete customer and repair
services – on site and in repair centers – as well as technical
emergency services worldwide. The repair services include all
measures necessary to quickly restore the functionality of defective units. In addition, services such as spare parts logistics,
spare parts storage and rapid manufacturing are available to
plant operators in all verticals. With a global network of certified
repair shops operated by Siemens as well as third parties,
Siemens handles the maintenance and overhaul of motors,
converters, and other devices as an authorized service partner.
http://support.automation.siemens.com/WW/view/en/43512848
Field Services
It’s a top priority in all industries: the availability of plants and
equipment. Siemens offers specialized maintenance services
such as inspection and upkeep as well as rapid fault clearance
in industrial plants – worldwide, continuously, and even with
emergency services as needed. The services include startup as
well as maintenance and fault clearance during operation. The
startup service includes checking the installation, function tests,
parameterization, integration tests for machines and plants, trial
operation, final acceptance, and employee training. All services,
including remote maintenance of drives, are also available as
elements of customized service contracts.
5
http://support.automation.siemens.com/WW/view/en/66012486
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Appendix
Industry Services
Industry Services for the entire life cycle
Training
Increasingly, up-to-date knowledge is becoming a determining
factor in success. One of the key resources of any company is
well-trained staff that can make the right decision at the right
moment and take full advantage of the potential. With SITRAIN –
Training for Industry, Siemens offers comprehensive advanced
training programs. The technical training courses convey expertise and practical knowledge directly from the manufacturer.
SITRAIN covers Siemens’ entire product and system portfolio in
the field of automation and drives. Together with the customer,
Siemens determines the company’s individual training needs
and then develops an advanced training program tailored to the
desired requirements. Additional services guarantee that the
knowledge of all Siemens partners and their employees is
always up-to-date.
http://support.automation.siemens.com/WW/view/en/43514324
Technical Consulting & Engineering Support
The efficiency of plants and processes leads to sustainable
economic success. Individual services from Siemens help save
substantial time and money while also guaranteeing maximum
safety. Technical consulting covers the selection of products and
systems for efficient industrial plants. The services include
planning, consulting, and conceptual design as well as product
training, application support, and configuration verification – in
all phases of a plant’s lifecycle and in all questions related to
product safety. Engineering support offers competent assistance throughout the entire project, from developing a precise
structure for startup to product-specific preparation for implementation as well as support services in areas such as prototype
development, testing and acceptance.
http://support.automation.siemens.com/WW/view/en/16605680
Energy & Environmental Services
5
Efficient energy use and resource conservation – these top sustainability concerns pay off – both for the environment and for
companies. Siemens offers integrated solutions that unlock all
technical and organizational potential for successful environmental management. Customized consulting services are aimed
at sustainably lowering the cost of energy and environmental
protection and thus increasing plant efficiency and availability.
The experts provide support in the conceptual design and implementation of systematic solutions in energy and environmental management, enabling maximum energy efficiency and
optimized water consumption throughout the entire company.
Improved data transparency makes it possible to identify
savings potential, reduce emissions, optimize production
processes, and thereby noticeably cut costs.
http://support.automation.siemens.com/WW/view/en/42350774
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Industry Services
Industry Services for the entire life cycle
Modernization & Optimization Services
High machine availability, expanded functionality and selective
energy savings – in all industries, these are decisive factors for
increasing productivity and lowering costs. Whether a company
wants to modernize individual machines, optimize drive systems, or upgrade entire plants, Siemens’ experts support the
projects from planning to commissioning.
Expert consulting and project management with solution responsibility lead to security and make it possible to specifically identify savings potential in production. This secures investments
over the long term and increases economic efficiency in operation.
http://support.automation.siemens.com/WW/view/en/66005532
Plant Maintenance & Condition Monitoring
Modern industrial plants are complex and highly automated.
They must operate efficiently in order to ensure the company’s
competitive strength. In addition, the steadily increasing networking of machines and plants require consistent security
concepts. Maintenance and status monitoring as well as the
implementation of integrated security concepts by Siemens’
experts support optimum plant use and avoid downtime. The
services include maintenance management as well as consulting on maintenance concepts, including the complete handling
and execution of the necessary measures. Complete solutions
also cover remote services, including analysis, remote diagnosis, and remote monitoring. These are based on the Siemens
Remote Services platform with certified IT security.
http://support.automation.siemens.com/WW/view/en/59456862
Service Contracts
Making maintenance costs calculable, reducing interfaces,
speeding up response times, and unburdening the company’s
resources – the reduced downtimes that these measures
achieve increase the productivity of a plant. Service contracts
from Siemens make maintenance and repairs more cost-effective and efficient. The service packages include local and remote maintenance for a system or product group in automation
and drive technology. Whether you need extended service periods, defined response times, or special maintenance intervals,
the services are compiled individually and according to need.
They can be adjusted flexibly at any time and used independently of each other. The expertise of Siemens’ specialists and
the capabilities of remote maintenance thus ensure reliable and
fast maintenance processes throughout a plant’s entire lifecycle.
5
http://support.automation.siemens.com/WW/view/en/65961857
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Appendix
Metal surcharges
■ Explanation of the raw material/metal surcharges1) 2) 3) 4)
Surcharge calculation
To compensate for variations in the price of the raw materials
silver, copper, aluminum, lead, gold, dysprosium2) and/or
neodym2), surcharges are calculated on a daily basis using the
so-called metal factor for products containing these raw
materials. A surcharge for the respective raw material is calculated as a supplement to the price of a product if the basic
official price of the raw material in question is exceeded.
The surcharges are calculated in accordance with the following
criteria:
• Basic official price of the raw material
Basic official price from the day prior to receipt of the order or
prior to release order (daily price) for3)
- Silver (sales price, processed)
- Gold (sales price, processed)
Percentage method
Use of the percentage method is indicated by the letters A-Z at
the respective digit of the metal factor.
The surcharge is increased – dependent on the deviation of the
daily price compared with the basic official price – using the percentage method in "steps" and consequently offers surcharges
that remain constant within the framework of this "step range". A
higher percentage rate is charged for each new step. The respective percentage level can be found in the table below.
Metal factor examples
LEA–––––
Basis for % surcharge: List price
Silver Basis 150 €, Step 50 €, 0.5 %
and for4)
- Copper (lower DEL notation + 1 %)
- Aluminum (aluminum in cables)
- Lead (lead in cables)
• Metal factor of the products
Certain products are displayed with a metal factor. The metal
factor determines the official price (for those raw materials
concerned) as of which the metal surcharges are applied and
the calculation method used (weight or percentage method).
An exact explanation is given below.
Copper Basis 150 €, Step 50 €, 0.1 %
No surcharge for aluminum
No surcharge for lead
No surcharge for gold
No surcharge for dysprosium
No surcharge for neodym
N –A6 ––––
Structure of the metal factor
Basis for % surcharge: Customer net price
The metal factor consists of several digits; the first digit indicates
whether the percentage method of calculation refers to the list
price or a possible discounted price (customer net price) (L = list
price / N = customer net price).
No surcharge for silver
Copper Basis 150 €, Step 50 €, 0.1 %
Aluminum acc. to weight, basic offic. price 225 €
The remaining digits indicate the method of calculation used for
the respective raw material. If no surcharge is added for a raw
material, a "-" is used.
5
No surcharge for lead
No surcharge for gold
No surcharge for dysprosium
1st digit
List or customer net price using the percentage method
2nd digit
for silver (AG)
3rd digit
for copper (CU)
4th digit
for aluminum (AL)
No basis necessary
5th digit
for lead (PB)
No surcharge for silver
6th digit
for gold (AU)
Copper acc. to weight, basic official price 150 €
7th digit
for dysprosium (Dy)2)
No surcharge for aluminum
8th digit
for neodym (Nd)2)
No surcharge for lead
No surcharge for neodym
– –3 – – – – –
No surcharge for gold
Weight method
The weight method uses the basic official price, the daily price
and the raw material weight. In order to calculate the surcharge,
the basic official price must be subtracted from the daily price.
The difference is then multiplied by the raw material weight.
No surcharge for dysprosium
No surcharge for neodym
The basic official price can be found in the table below using the
number (1 to 9) of the respective digit of the metal factor. The raw
material weight can be found in the respective product descriptions.
1)
2)
3)
4)
Refer to the separate explanation on the next page regarding the raw materials dysprosium and neodym (= rare earths).
For a different method of calculation, refer to the separate explanation for these raw materials on the next page.
Source: Umicore, Hanau (www.metalsmanagement.umicore.com).
Source: German Trade Association for Cables and Conductors (www.kabelverband.org).
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Appendix
Metal surcharges
■ Explanation of the raw material/metal surcharges for dysprosium and neodym (rare earths)1) 2)
Surcharge calculation
To compensate for variations in the price of the raw materials
silver1), copper1), aluminum1), lead1), gold1), dysprosium and/or
neodym, surcharges are calculated on a daily basis using the
so-called metal factor for products containing these raw
materials. The surcharge for dysprosium and neodym is calculated as a supplement to the price of a product if the basic
official price of the raw material in question is exceeded.
The surcharge is calculated in accordance with the following
criteria:
• Basic official price of the raw material2)
Three-month basic average price (see below) in the period
before the quarter in which the order was received or the
release order took place (= average official price) for
- dysprosium (Dy metal, 99 % min. FOB China; USD/kg)
- neodym (Nd metal, 99 % min. FOB China; USD/kg)
• Metal factor of the products
Certain products are displayed with a metal factor. The metal
factor indicates (for those raw materials concerned) the basic
official price as of which the surcharges for dysprosium and
neodym are calculated using the weight method. An exact
explanation of the metal factor is given below.
Three-month average price
The prices of rare earths vary according to the foreign currency,
and there is no freely accessible stock exchange listing. This
makes it more difficult for all parties involved to monitor changes
in price. In order to avoid continuous adjustment of the surcharges, but to still ensure fair, transparent pricing, an average
price is calculated over a three-month period using the average
monthly foreign exchange rate from USD to EUR (source: European Central Bank). Since not all facts are immediately available
at the start of each month, a one-month buffer is allowed before
the new average price applies.
Structure of the metal factor
The metal factor consists of several digits; the first digit is not
relevant to the calculation of dysprosium and neodym.
The remaining digits indicate the method of calculation used for
the respective raw material. If no surcharge is added for a raw
material, a "-" is used.
1st digit
List or customer net price using the percentage method
2nd digit
for silver (AG)1)
3rd digit
for copper (CU)1)
4th digit
for aluminum (AL)1)
5th digit
for lead (PB)1)
6th digit
for gold (AU)1)
7th digit
for dysprosium (Dy)
8th digit
for neodym (Nd)
Weight method
The weight method uses the basic official price, the average
price and the raw material weight. In order to calculate the
surcharge, the basic official price must be subtracted from the
average price. The difference is then multiplied by the raw
material weight.
The basic official price can be found in the table below using the
number (1 to 9) of the respective digit of the metal factor. Your
Sales contact can inform you of the raw material weight.
Metal factor examples
––––––71
No basis necessary
Examples of calculation of the average official price:
No surcharge for silver
Period for calculation of
the average price:
Period during which the order/release order is
effected and the average price applies:
No surcharge for copper
Sep 2012 – Nov 2012
Q1 in 2013 (Jan – Mar)
Dec 2012 – Feb 2013
Q2 in 2013 (Apr – Jun)
Mar 2013 – May 2013
Q3 in 2013 (Jul – Sep)
Jun 2013 – Aug 2013
Q4 in 2013 (Oct – Dec)
No surcharge for aluminum
No surcharge for lead
No surcharge for gold
Dysprosium acc. to weight, basic official price
300 €
Neodym acc. to weight, basic official price 50 €
5
1)
2)
For a different method of calculation, refer to the separate explanation for these raw materials on the previous page.
Source: Asian Metal Ltd (www.asianmetal.com)
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© Siemens AG 2014
Appendix
Metal surcharges
■ Values of the metal factor
Percentage
method
Basic official Step range
price
in €
in €
% surcharge
1st step
% surcharge
2nd step
% surcharge
3rd step
Price in €
Price in €
Price in €
Price in €
150.01 – 200.00
200.01 – 250.00
250.01 – 300.00
300.01 – 350.00
% surcharge
per additional step
A
150
50
0.1
0.2
0.3
0.4
0.1
B
150
50
0.2
0.4
0.6
0.8
0.2
C
150
50
0.3
0.6
0.9
1.2
0.3
D
150
50
0.4
0.8
1.2
1.6
0.4
E
150
50
0.5
1.0
1.5
2.0
0.5
F
150
50
0.6
1.2
1.8
2.4
0.6
G
150
50
1.0
2.0
3.0
4.0
1.0
H
150
50
1.2
2.4
3.6
4.8
1.2
I
150
50
1.6
3.2
4.8
6.4
1.6
J
150
50
1.8
3.6
5.4
7.2
1.8
175.01 – 225.00
225.01 – 275.00
275.01 – 325.00
325.01 – 375.00
O
175
50
0.1
0.2
0.3
0.4
0.1
P
175
50
0.2
0.4
0.6
0.8
0.2
R
175
50
0.5
0.5
1.0
1.5
2.0
225.01 – 275.00
275.01 – 325.00
325.01 – 375.00
375.01 – 425.00
S
225
50
0.2
0.4
0.6
0.8
0.2
U
225
50
1.0
2.0
3.0
4.0
1.0
V
225
50
1.0
1.5
2.0
3.0
1.0
W
225
50
1.2
2.5
3.5
4.5
1.0
150.01 – 175.00
175.01 – 200.00
200.01 – 225.00
225.01 – 250.00
Y
150
25
0.3
0.6
0.9
1.2
400.01 – 425.00
425.01 – 450.00
450.01 – 475.00
475.01 – 500.00
0.1
0.2
0.3
0.4
Z
400
25
Price basis (1st digit)
L
Calculation based on the list price
N
Weight
method
5
% surcharge
4th step
Calculation based on the customer net price (discounted list price)
Basic official price in €
1
50
2
100
3
150
4
175
5
200
6
225
7
300
8
400
9
555
Calculation based on raw material weight
Miscellaneous
-
No metal surcharge
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Siemens D 83.1 · 2014
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© Siemens AG 2014
Appendix
Conditions of sale and delivery
■ 1. General Provisions
By using this catalog you can acquire hardware and software
products described therein from Siemens AG subject to the
following Terms and Conditions of Sale and Delivery (hereinafter
referred to as "T&C"). Please note that the scope, the quality and
the conditions for supplies and services, including software
products, by any Siemens entity having a registered office
outside Germany, shall be subject exclusively to the General
Terms and Conditions of the respective Siemens entity. The
following T&C apply exclusively for orders placed with Siemens
Aktiengesellschaft, Germany.
1.1 For customers with a seat or registered office in
Germany
For customers with a seat or registered office in Germany, the
following applies subordinate to the T&C:
• the "General Terms of Payment"1) and,
• for software products, the "General License Conditions for
Software Products for Automation and Drives for Customers
with a Seat or Registered Office in Germany"1) and,
• for other supplies and services, the "General Conditions for
the Supply of Products and Services of the Electrical and
Electronics Industry"1).
1.2 For customers with a seat or registered office outside
Germany
For customers with a seat or registered office outside Germany,
the following applies subordinate to the T&C:
• the "General Terms of Payment"1) and,
• for software products, the "General License Conditions for
Software Products for Automation and Drives for Customers
with a Seat or Registered Office outside of Germany"1) and
• for other supplies and/or services, the "General Conditions for
Supplies of Siemens Industry for Customers with a Seat or
Registered Office outside of Germany"1).
■ 2. Prices
The prices are in € (Euro) ex point of delivery, exclusive of
packaging.
The sales tax (value added tax) is not included in the prices.
It shall be charged separately at the respective rate according
to the applicable statutory legal regulations.
Prices are subject to change without prior notice. We will charge
the prices valid at the time of delivery.
To compensate for variations in the price of raw materials (e.g.
silver, copper, aluminum, lead, gold, dysprosium and neodym),
surcharges are calculated on a daily basis using the so-called
metal factor for products containing these raw materials. A
surcharge for the respective raw material is calculated as a
supplement to the price of a product if the basic official price of
the raw material in question is exceeded.
The metal factor of a product indicates the basic official price
(for those raw materials concerned) as of which the surcharges
on the price of the product are applied, and with what method of
calculation.
You will find a detailed explanation of the metal factor on the
page headed "Metal surcharges".
To calculate the surcharge (except in the cases of dysprosium
and neodym), the official price from the day prior to that on which
the order was received or the release order was effected is used.
To calculate the surcharge applicable to dysprosium and
neodym ("rare earths"), the corresponding three-month basic
average price in the quarter prior to that in which the order was
received or the release order was effected is used with a onemonth buffer (details on the calculation can be found in the
explanation of the metal factor).
■ 3. Additional Terms and Conditions
The dimensions are in mm. In Germany, according to the
German law on units in measuring technology, data in inches
apply only to devices for export.
Illustrations are not binding.
Insofar as there are no remarks on the individual pages of this
catalog – especially with regard to data, dimensions and weights
given – these are subject to change without prior notice.
■ 4. Export regulations
We shall not be obligated to fulfill any agreement if such
fulfillment is prevented by any impediments arising out of
national or international foreign trade or customs requirements
or any embargoes and/or other sanctions.
Export of goods listed in this catalog may be subject to licensing
requirements. We will indicate in the delivery details whether
licenses are required under German, European and US export
lists. Goods labeled with "AL" not equal to "N" are subject to
European or German export authorization when being exported
out of the EU. Goods labeled with "ECCN" not equal to "N" are
subject to US re-export authorization.
The export indications can be viewed in advance in the
description of the respective goods on the Industry Mall, our
online catalog system. Only the export labels "AL" and "ECCN"
indicated on order confirmations, delivery notes and invoices
are authoritative.
Even without a label, or with label "AL:N" or "ECCN:N", authorization may be required i.a. due to the final disposition and
intended use of goods.
If you transfer goods (hardware and/or software and/or
technology as well as corresponding documentation, regardless
of the mode of provision) delivered by us or works and services
(including all kinds of technical support) performed by us to a
third party worldwide, you must comply with all applicable
national and international (re-)export control regulations.
If required for the purpose of conducting export control checks,
you (upon request by us) shall promptly provide us with all information pertaining to the particular end customer, final disposition and intended use of goods delivered by us respectively
works and services provided by us, as well as to any export
control restrictions existing in this relation.
The products listed in this catalog may be subject to
European/German and/or US export regulations. Any export
requiring approval is therefore subject to authorization by the
relevant authorities.
Errors excepted and subject to change without prior notice.
1)
The text of the Terms and Conditions of Siemens AG can be
downloaded at
www.siemens.com/automation/salesmaterial-as/catalog/en/
terms_of_trade_en.pdf
Siemens D 83.1 · 2014
5/13
5
© Siemens AG 2014
Appendix
Notes
5
5/14
Siemens D 83.1 · 2014
© Siemens AG 2014
Appendix
Notes
5
Siemens D 83.1 · 2014
5/15
© Siemens AG 2014
Appendix
Notes
5
5/16
Siemens D 83.1 · 2014
© Siemens AG 2014
Catalogs
Industry Automation, Drive Technologies and Low-Voltage Power Distribution
Further information can be obtained from our branch offices listed at www.siemens.com/automation/partner
System Solutions for Industry
Interactive Catalog on DVD
Catalog
Products for Automation and Drives, Low-Voltage Power CA 01
Distribution and Electrical Installation Technology
Building Control
GAMMA Building Control
Drive Systems
SINAMICS G130 Drive Converter Chassis Units
SINAMICS G150 Drive Converter Cabinet Units
SINAMICS GM150, SINAMICS SM150
Medium-Voltage Converters
SINAMICS PERFECT HARMONY GH180
Medium-Voltage Air-Cooled Drives
Germany Edition
SINAMICS G180
Converters – Compact Units, Cabinet Systems,
Cabinet Units Air-Cooled and Liquid-Cooled
SINAMICS S120 Chassis Format Units and
Cabinet Modules
SINAMICS S150 Converter Cabinet Units
SINAMICS DCM DC Converter, Control Module
SINAMICS DCM Cabinet
SINAMICS and Motors for Single-Axis Drives
SINAMICS G120P and SINAMICS G120P Cabinet
pump, fan, compressor converters
Three-Phase Induction Motors SIMOTICS HV,
SIMOTICS TN
• Series H-compact
• Series H-compact PLUS
Asynchronous Motors Standardline
Synchronous Motors with Permanent-Magnet
Technology, HT-direct
DC Motors
SIMOREG DC MASTER 6RA70 Digital Chassis
Converters
SIMOREG K 6RA22 Analog Chassis Converters
Digital: SIMOREG DC MASTER 6RM70 Digital
Converter Cabinet Units
SIMOVERT PM Modular Converter Systems
SIEMOSYN Motors
MICROMASTER 420/430/440 Inverters
MICROMASTER 411/COMBIMASTER 411
SIMODRIVE 611 universal and POSMO
ET G1
D 11
D 12
D 15.1
D 18.1
D 21.3
D 23.1
D 23.2
D 31
D 35
D 84.1
D 86.1
D 86.2
DA 12
DA 21.1
DA 21.2
DA 22
DA 45
DA 48
DA 51.2
DA 51.3
DA 65.4
Note: Additional catalogs on SIMODRIVE or SINAMICS
drive systems and SIMOTICS motors with SINUMERIK
and SIMOTION can be found under Motion Control
Low-Voltage Three-Phase-Motors
SIMOTICS Low-Voltage Motors
SIMOTICS FD Flexible Duty Motors
MOTOX Geared Motors
SIMOGEAR Geared Motors
SIMOGEAR Gearboxes with adapter
D 81.1
D 81.8
D 87.1
MD 50.1
MD 50.11
Mechanical Driving Machines
FLENDER Standard Couplings
FLENDER High Performance Couplings
FLENDER SIG Standard industrial gear unit
FLENDER SIP Standard industrial planetary gear units
MD 10.1
MD 10.2
MD 30.1
MD 31.1
Process Instrumentation and Analytics
Field Instruments for Process Automation
Digital: SIPART Controllers and Software
Products for Weighing Technology
Digital: Process Analytical Instruments
Digital: Process Analytics,
Components for the System Integration
Digital: These catalogs are only available as a PDF.
FI 01
MP 31
WT 10
PA 01
PA 11
Low-Voltage Power Distribution and
Electrical Installation Technology
Catalog
SENTRON · SIVACON · ALPHA
Protection, Switching, Measuring and Monitoring
Devices, Switchboards and Distribution Systems
Standards-Compliant Components for
Photovoltaic Plants
3WT Air Circuit Breakers up to 4000 A
3VT Molded Case Circuit Breakers up to 1600 A
Digital: SIVACON System Cubicles, System Lighting
and System Air-Conditioning
Digital: ALPHA Distribution Systems
ALPHA FIX Terminal Blocks
SIVACON S4 Power Distribution Boards
Digital: SIVACON 8PS Busbar Trunking Systems
Digital: DELTA Switches and Socket Outlets
LV 10
Motion Control
SINUMERIK & SIMODRIVE
Automation Systems for Machine Tools
SINUMERIK & SINAMICS
Equipment for Machine Tools
SINUMERIK 840D sl Type 1B
Equipment for Machine Tools
SINUMERIK 808
Equipment for Machine Tools
SINUMERIK 828
Equipment for Machine Tools
SIMOTION, SINAMICS S120 & SIMOTICS
Equipment for Production Machines
Drive and Control Components for Cranes
LV 11
LV 35
LV 36
LV 50
LV 51
LV 52
LV 56
LV 70
ET D1
NC 60
NC 61
NC 62
NC 81.1
NC 82
PM 21
CR 1
Power Supply
Power supply SITOP
KT 10.1
Safety Integrated
Safety Technology for Factory Automation
SI 10
SIMATIC HMI/PC-based Automation
Human Machine Interface Systems/
PC-based Automation
ST 80/
ST PC
SIMATIC Ident
Industrial Identification Systems
ID 10
SIMATIC Industrial Automation Systems
Products for Totally Integrated Automation
SIMATIC PCS 7 Process Control System
System components
SIMATIC PCS 7 Process Control System
Technology components
Add-ons for the SIMATIC PCS 7
Process Control System
ST 70
ST PCS 7
ST PCS 7 T
ST PCS 7 AO
SIMATIC NET
Industrial Communication
IK PI
SIRIUS Industrial Controls
SIRIUS Industrial Controls
IC 10
Information and Download Center
Digital versions of the catalogs are available on the Internet at:
www.siemens.com/industry/infocenter
There you’ll find additional catalogs in other languages.
Please note the section “Downloading catalogs” on page
“Online services” in the appendix of this catalog.
© Siemens AG 2014
Get more information
Siemens Motors:
www.siemens.com/motors
Siemens Low-Voltage Motors:
www.siemens.com/low-voltage-motors
Local partners worldwide:
www.siemens.com/automation/partner
Siemens AG
Industry Sector
Drive Technologies Division
Large Drives
Hans-Loher-Str. 32
94099 RUHSTORF A. D. ROTT
GERMANY
www.siemens.com/drives
Subject to change withoput prior notice
Article No. E86060-K5583-A111-A2-7600
E.9115.27.LDT / Dispo 18402
KG 0914 4.0 HOF/AUM 276 En
Printed in Germany
© Siemens AG 2014
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The information provided in this catalog contains merely general
descriptions or characteristics of performance which in case of actual
use do not always apply as described or which may change as a result
of further development of the products. An obligation to provide the
respective characteristics shall only exist if expressly agreed in the
terms of contract. Availability and technical specifications are subject
to change without notice.
All product designations may be trademarks or product names of
Siemens AG or supplier companies whose use by third parties for their
own purposes could violate the rights of the owners.
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