Compact / Hardwired / Logic Controller / M258 System

Compact / Hardwired / Logic Controller / M258 System
This document is based on European standards and is not valid for use in U.S.A.
Compact / Hardwired /
Logic Controller / M258
EIO0000000292
System User Guide
MAY 2010
Contents
Important Information ................................................................................................................3
Before You Begin..................................................................................................................4
Introduction ................................................................................................................................6
Abbreviations........................................................................................................................7
Glossary ................................................................................................................................8
Application Source Code .....................................................................................................9
Typical Applications...........................................................................................................10
System ......................................................................................................................................11
Architecture ........................................................................................................................11
Installation...........................................................................................................................14
Hardware ..........................................................................................................................................................17
Software ...........................................................................................................................................................39
Communication ...............................................................................................................................................40
Implementation ...................................................................................................................43
Communication...................................................................................................................45
Controller ............................................................................................................................46
HMI .......................................................................................................................................79
Devices ................................................................................................................................86
Altivar 312 ........................................................................................................................................................87
Lexium 32C ......................................................................................................................................................90
Appendix...................................................................................................................................94
Detailed Component List ...................................................................................................94
Component Protection Classes.........................................................................................97
Component Features..........................................................................................................98
Contact....................................................................................................................................103
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Important Information
NOTICE
Read these instructions carefully, and look at the equipment to become familiar with
the device before trying to install, operate, or maintain it. The following special
messages may appear throughout this documentation or on the equipment to warn of
potential hazards or to call attention to information that clarifies or simplifies a
procedure.
The addition of this symbol to a Danger or Warning safety label indicates that an
electrical hazard exists, which will result in personal injury if the instructions are not
followed.
This is the safety alert symbol. It is used to alert you to potential personal injury
hazards. Obey all safety messages that follow this symbol to avoid possible injury or
death.
DANGER
DANGER indicates an imminently hazardous situation, which, if not avoided, will result in
death or serious injury.
WARNING
WARNING indicates a potentially hazardous situation, which, if not avoided, can result in
death, serious injury, or equipment damage.
CAUTION
CAUTION indicates a potentially hazardous situation, which, if not avoided, can result in
injury or equipment damage.
PLEASE Electrical equipment should be installed, operated, serviced, and maintained only by
qualified personnel. No responsibility is assumed by Schneider Electric for any
NOTE
consequences arising out of the use of this material.
A qualified person is one who has skills and knowledge related to the construction
and operation of electrical equipment and the installation, and has received safety
training to recognize and avoid the hazards involved
© 2008 Schneider Electric. All Rights Reserved.
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Before You Begin
Do not use this product on machinery lacking effective point-of-operation guarding. Lack of effective point-ofoperation guarding on a machine can result in serious injury to the operator of that machine.
WARNING
UNGUARDED MACHINERY CAN CAUSE SERIOUS INJURY
 Do not use this software and related automation products on equipment which does not have
point-of-operation protection.
 Do not reach into machine during operation.
Failure to follow these instructions can cause death, serious injury or equipment
damage.
This automation equipment and related software is used to control a variety of industrial processes. The type or
model of automation equipment suitable for each application will vary depending on factors such as the control
function required, degree of protection required, production methods, unusual conditions, government regulations,
etc. In some applications, more than one processor may be required, as when backup redundancy is needed.
Only the user can be aware of all the conditions and factors present during setup, operation and maintenance of
the machine; therefore, only the user can determine the automation equipment and the related safeties and
interlocks which can be properly used. When selecting automation and control equipment and related software for
a particular application, the user should refer to the applicable local and national standards and regulations. A
“National Safety Council’s” Accident Prevention Manual also provides much useful information.
In some applications, such as packaging machinery, additional operator protection such as point-of-operation
guarding must be provided. This is necessary if the operator’s hands and other parts of the body are free to enter
the pinch points or other hazardous areas and serious injury can occur. Software products by itself cannot protect
an operator from injury. For this reason the software cannot be substituted for or take the place of point-ofoperation protection.
Ensure that appropriate safeties and mechanical/electrical interlocks for point-of-operation protection have been
installed and are operational before placing the equipment into service. All mechanical/electrical interlocks and
safeties for point-of-operation protection must be coordinated with the related automation equipment and software
programming.
NOTE: Coordination of safeties and mechanical/electrical interlocks for point-of-operation protection is
outside the scope of this document.
START UP AND TEST
Before using electrical control and automation equipment for regular operation after installation, the system should
be given a start up test by qualified personnel to verify correct operation of the equipment. It is important that
arrangements for such a check be made and that enough time is allowed to perform complete and satisfactory
testing.
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CAUTION
EQUIPMENT OPERATION HAZARD
 Verify that all installation and set up procedures have been completed.
 Before operational tests are performed, remove all blocks or other temporary holding means
used for shipment from all component devices.
 Remove tools, meters and debris from equipment.
Failure to follow these instructions can result in injury or equipment damage.
Follow all start up tests recommended in the equipment documentation. Store all equipment documentation for
future reference.
Software testing must be done in both simulated and real environments.
Verify that the completed system is free from all short circuits and grounds, except those grounds installed
according to local regulations (according to the National Electrical Code in the U.S.A, for instance). If high-potential
voltage testing is necessary, follow recommendations in equipment documentation to prevent accidental
equipment damage.
Before energizing equipment:
• Remove tools, meters, and debris from equipment.
• Close the equipment enclosure door.
• Remove ground from incoming power lines.
• Perform all start-up tests recommended by the manufacturer.
OPERATION AND ADJUSTMENTS
The following precautions are from NEMA Standards Publication ICS 7.1-1995 (English version prevails):
 Regardless of the care exercised in the design and manufacture of equipment or in the selection and rating of
components, there are hazards that can be encountered if such equipment is improperly operated.
 It is sometimes possible to misadjust the equipment and thus produce unsatisfactory or unsafe operation. Always
use the manufacturer’s instructions as a guide for functional adjustments. Personnel who have access to these
adjustments should be familiar with the equipment manufacturer’s instructions and the machinery used with the
electrical equipment.
 Only those operational adjustments actually required by the operator should be accessible to the operator. Access
to other controls should be restricted to prevent unauthorized changes in operating characteristics.
WARNING
UNEXPECTED EQUIPMENT OPERATION
 Only use software tools approved by Schneider Electric for use with this equipment.
 Update your application program every time you change the physical hardware configuration.
Failure to follow these instructions can cause death, serious injury or equipment
damage.
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Introduction
Intention
This document is intended to provide a quick introduction to the described system. It is not
intended to replace any specific product documentation, nor any of your own design
documentation. On the contrary, it offers additional information to the product documentation,
for installing, configuring and implementing the system.
The architecture described in this document is not a specific product in the normal commercial
sense. It describes an example of how Schneider Electric and third-party components may be
integrated to fulfill an industrial application.
A detailed functional description or the specification for a specific user application is not part of
this document. Nevertheless, the document outlines some typical applications where the
system might be implemented.
The architecture described in this document has been fully tested in our laboratories using all
the specific references you will find in the component list near the end of this document. Of
course, your specific application requirements may be different and will require additional
and/or different components. In this case, you will have to adapt the information provided in
this document to your particular needs. To do so, you will need to consult the specific product
documentation of the components that you are substituting in this architecture. Pay particular
attention in conforming to any safety information, different electrical requirements and
normative standards that would apply to your adaptation.
It should be noted that there are some major components in the architecture described in this
document that cannot be substituted without completely invalidating the architecture,
descriptions, instructions, wiring diagrams and compatibility between the various software and
hardware components specified herein. You must be aware of the consequences of component
substitution in the architecture described in this document as substitutions may impair the
compatibility and interoperability of software and hardware.
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Abbreviations
Abbreviation
AC
CB
CFC
DI
DO
DC
DFB
E-STOP
FBD
HMI
I/O
IL
LD
PC
POU
PS
RMS
RPM
SE
SFC
ST
TVDA
VSD
WxHxD
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Signification
Alternating Current
Circuit Breaker
Continuous Function Chart – a programming language based on
function chart
Digital Input
Digital Output
Direct Current
Derived Function Blocks
Emergency Stop
Function Block Diagram – an IEC-61131 programming language
Human Machine Interface
Input/Output
Instruction List - a textual IEC-61131 programming language
Ladder Diagram – a graphic IEC-61131 programming language
Personal Computer
Programmable Object Unit, Program Section in SoMachine
Power Supply
Root Mean Square
Revolutions Per Minute
Schneider Electric
Sequential Function Chart – an IEC-61131 programming language
Structured Text – an IEC-61131 programming language
Tested, Validated and Documented Architecture
Variable Speed Drive
Dimensions : Width, Height and Depth
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Glossary
Expression
Altivar (ATV)
Harmony
Lexium (LXM)
Magelis
Modicon M258 Logic
controller
Modbus
OsiSense
Phaseo
Preventa
SoMachine
TeSys
Vijeo Designer
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Signification
SE product name for a family of VSDs
SE product name for a family of switches and indicators
SE product name for a family of servo drives
SE product name for a family of HMI-Devices
SE product name for Logic Controller
A Communications protocol
SE product name for a family of sensors
SE product name for a family of power supplies
SE product name for a family of safety devices
SE product name for an integrated software tool
SE product name for a family for motor protection devices and
load contactors
An SE software product for programming Magelis HMI devices
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Application Source Code
Introduction
Examples of the source code and wiring diagrams used to attain the system function as
described in this document can be downloaded from our website (registration is required,
contact your Schneider Electric Application Design Expert).
The example source code is in the form of configuration, application and import files. Use the
appropriate software tool to either open or import the files.
Extension
CSV
DWG
DOC
PDF
PROJECT
Z13
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File Type
Comma Separated Values, Spreadsheet
Project file
Document file
Portable Document Format - document
Project file
Project archive file
Schneider Electric
Software Tool Required
MS Excel
AutoCAD
Microsoft Word
Adobe Acrobat
SoMachine
EPLAN
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Typical Applications
Introduction
Here you will find a list of the typical applications, and their market segments, where
this system or subsystem can be applied:
Hoisting
 Gantry crane
 Overhead traveling crane
Textile








Opening and closing machines
Circular knitting machines
Plucker machines
Blending machines
Carding machines
Drawing frame machines
Combing machines
Ring Spinning machines
Pumping
 Booster stations
 Compressors
 Vacuum pumps
Other Machines





Winding / Unwinding machines
Wood working machines
Cutting machines
Sanding machines
Sawing machines
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System
Introduction
The system chapter describes the architecture, the dimensions, the quantities and different
types of components used within this system.
Architecture
General
The controller in this application is a Modicon M258 Logic controller. The user can control
and monitor the application using the Magelis HMI device. The Altivar 312 variable speed
drives, Lexium 32C servo drives and TeSysU motor starters are hardwired to the controller.
The example application includes two functional safety options according to EN ISO 138491 standards: an Emergency Stop function supervised by a Preventa Safety Module (see the
appropriate hardware manual), plus a second Preventa Safety Module to evaluate
protective door sensors.
Layout
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Components
Hardware:

















Compact NSX100F mains switch
Phaseo ABL8 Power Supply 230 Vac / 24 Vdc
Modicon M258 Logic controller
Magelis XBTGT4330 HMI
TeSysU motor starter
Altivar 312 variable speed drive
Lexium 32C servo drive
BMH servo motor
Multi9 circuit breaker
Emergency Stop switch with rotation release XALK
Harmony illuminated pushbuttons XB5
OsiSense limit switches
Preventa guard switch
Preventa safety module
TeSys motor protection GV2L
TeSysD contactors
Connexium Ethernet switch
Software:
 SoMachine V2.0
Quantities of
Components
For a complete and detailed list of components, the quantities required and the order
numbers, please refer to the components list at the rear of this document.
Degree of
Protection
Not all the components in this configuration are designed to withstand the same
environmental conditions. Some components may need additional protection, such as
housings, depending on the environment in which you intend to use them. For
environmental details of the individual components please refer to the list in the appendix of
this document and the corresponding user manual.
Cabinet
Technical
Data
Input
Mains voltage
Power requirement
Cable size
Cable connection
400 Vac
~ 4 kW
5 x 2.5 mm² (L1, L2, L3, N, PE)
3 phase + Neutral + Ground
Neutral is needed for 230 Vac (Phase and Neutral)
Output
Motor power ratings
2 asynchronous motor controlled by TesysU
(0.37 kW)
4 asynchronous motor controlled by ATV312
(0.37 kW)
4 servo motor (BMH type without brake) controlled
by LXM32C (continuous output current : 6 A RMS at
6000 RPM)
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Functional
Safety Notice
(EN ISO 13849-1
EN IEC 62061)
The standard and level of functional safety you apply to your application is determined
by your system design and the overall extent to which your system may be a hazard to
people and machinery.
As there are no moving mechanical parts in this application example, category 1
(according to EN ISO 13849-1) has been selected as an optional safety level.
Whether or not this functional safety category should be applied to your system should
be ascertained with a proper risk analysis.
This document is not comprehensive for any systems using the given architecture and
does not absolve users of their duty to uphold the functional safety requirements with
respect to the equipment used in their systems or of compliance with either national or
international safety laws and regulations.
Emergency
Stop
Emergency Stop/Emergency Disconnection function
Safety
Function
Door guarding
Dimensions
The dimensions of the individual devices used; controller, drive, power supply, etc. require
a housing cabinet size of at least 1800 x 1000 x 600 mm (WxHxD).
This function for stopping in an emergency is a protective measure which compliments
the safety functions for the safeguarding of hazardous zones according to
prEN ISO 12100-2.
up to Performance Level (PL) = b, Category 1, Safety Integrity Level (SIL) = 1
The HMI display, illuminated indicators such as “SYSTEM ON“, “SYSTEM OFF“ or
“ACKNOWLEDGE EMERGENCY OFF“ as well as the Emergency Stop switch itself, can
be built into the door of the cabinet.
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Installation
Introduction
This chapter describes the steps necessary to set up the hardware and configure the
software required to fulfill the described function of the application.
Assembly
Main cabinet
Front
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Field devices
and motors
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Notes
The components designed for installation in a cabinet, i.e. the controller, safety module,
circuit breakers, contactors, motor circuit breakers, power supply, TeSysU motor starter
and TM5 I/O modules can be mounted on a 35 mm DIN rail.
Main switch, Lexium 32C servo drives and Altivar 312 variable speed drives are screwed
directly onto the mounting plate. Alternatively, if an adapter is used, the Altivar 312 can be
mounted on a DIN rail.
The Emergency Stop button, the door guard switches and the pushbutton housing for the
display and acknowledgement indicators are designed for on-wall mounting in the field. All
switches (except the door guard switch) can also be installed directly inside a control
cabinet (e.g., in a cabinet door) without special housings.
There are two options for installing XB5 pushbuttons or indicator lamps: These
pushbuttons or switches can be installed either in a 22 mm hole, e.g., drilled into the front
door of the control cabinet, or in an XALD-type housing suitable for up to 5 pushbuttons or
indicator lamps. The XALD pushbutton housing is designed for backplane assembly or
direct wall mounting.
400 Vac 3-phase wiring between the main circuit breaker, drives and motors.
230 Vac 1-phase wiring between the main circuit breaker and Lexium 32C drive.
230 Vac 1-phase wiring between the main circuit breaker and primary side of the 24 Vdc
power supply.
24 Vdc wiring for control circuits and the controller, I/O modules and the HMI power supply.
The individual components must be interconnected in accordance with the detailed circuit
diagram in order to ensure that they function correctly.
ConneXium Ethernet 3 port switch TCSESU033FN0 and ConneXium Ethernet cable
490NTW00002 is installed for the communication link between the controller and the HMI.
The modules and I/O listed here are a representative cross section of the modules and
indicators required to implement the application as defined in this document and will
without doubt differ from your own specific application.
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Hardware
General
General description of the hardware.
Main Switch
Compact NSX100F
LV429003
36 kA 380/415 Vac
Main Switch
Compact NSX100F
LV429035
Trip unit TM32D
Thermal-magnetic 32 A
Ir - Thermal protection
Im - Magnetic protection
Main Switch
Compact NSX100F
Rotary handle
LV429340
Terminal shield
LV429515
Rotary handle with red
handle on yellow front
Terminal shield short
Emergency Stop
switch for
door mounting
Harmony
XB5AS844 +
XB5AZ141
Incl. Emergency Stop
Label
ZBY8330
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Power supply
Phaseo
ABL8RPS24050
24 Vdc, 5 A
Safety Module
Preventa
XPSAC5121
Safety Module
Preventa
XPSAV11113Z002
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Expansion Module
Preventa
XPSECP5131
Guard Switch
Preventa
XCSPA792
Motor Circuit Breaker
(Short Circuit
Protected)
GV2L07
and
GV2L14
Used together with
auxiliary contact
GVAE11
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Contactor
TeSysD
LC1D09BD
Controller
Modicon M258
Logic Controller
TM258LD42DT
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1. Status LEDs
2. Power supply
3. Internal I/O area
4. Ethernet port
5. RS485 port
6. Mini USB port
7. USB A port
8. Battery area
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Modicon M258
Logic Controller
embedded power
supply
1. Internal electronics
2. 24 Vdc I/O power segment integrated into the
bus bases
3. PS1/PS2: External isolated power supply 24 Vdc
limited to 200 VA for UL508 conformance, or
limited to 150 VA for CSA 22.2, N° 142
conformance
4. External fuse type T slow-blow 3 A 250 V
5. External fuse type T slow-blow 1 A 250 V
6. External fuse type T slow-blow 6.3 A 250 V
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Modicon M258
Logic Controller
embedded fast I/O’s
Modicon M258
Logic Controller
embedded
digital inputs
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Modicon M258
Logic Controller
embedded
digital outputs
Modicon M258
Logic Controller
Expansion module
elements
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Modicon M258
Logic Controller
Bus base for
electronic module
TM5ACBM11
and for additional
power supply
TM5ACBM01R
left side isolated
Modicon M258
Logic Controller
Electronic module
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Modicon M258
Logic Controller
Terminal block
TM5ACTB12
pin assignment
Modicon M258
Logic Controller
Bus Base Locking
Plate Right
TM5ACLPR1
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Modicon M258
Logic Controller
Expansion module
TM5SDI12D
with 12 digital inputs
Modicon M258
Logic Controller
Expansion module
TM5SDI6D
with 6 digital inputs
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Modicon M258
Logic Controller
Expansion module
TM5SDO12T
with 12 digital outputs
Modicon M258
Logic Controller
Expansion module
TM5SAI4PH
with 4 Pt100 inputs
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Modicon M258
Logic Controller
Expansion module
TM5SAO4L
with 4 analog outputs
Modicon M258
Logic Controller
Expansion module
TM5SAI4L
with 4 analog inputs
Modicon M258
Logic Controller
Expansion module
TM5SPS2F
power supply
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HMI
Magelis
XBTGT4330
24 Vdc Input, TFT Color
LCD, 640 x 480 Pixels,
65536 Colors, 32 MB
Application Flash
EPROM with Built-in
Ethernet
Servo Drive
Lexium 32C
LXM32CD18M2
1-phase
230 Vac,
Continuous output
current :
6 A RMS at 6000 RPM
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Servo Drive
Lexium 32C
LXM32CD18M2
Embedded Human
Machine Interface
Servo Drive
Lexium 32C
LXM32CD18M2
Control Panel Overview
of the Signal Connectors
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Servo Drive
Lexium 32C
LXM32CD18M2
Power Connection CN1
Servo Drive
Lexium 32C
LXM32CD18M2
Motor Connection
CN10
Power Cable
Connection to Motor
(Length 3 m)
VW3M5101R30
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Servo Drive
Lexium 32C
LXM32CD18M2
Signal Connector
CN3
Encoder Cable
Connection to Motor
(Length 3 m)
VW3M8101R30
Servo Drive
Lexium 32C
LXM32CD18M2
Signal Connector
CN5
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Servo Drive
Lexium 32C
LXM32CD18M2
Wiring diagram holding
brake
Servo Drive
Lexium 32C
LXM32CD18M2
Parallel connection DC
bus
Servo Drive
Lexium 32C
LXM32CD18M2
Connecting the external
braking resistor
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Servo Drive
Lexium 32C
LXM32CD18M2
Wiring diagram controller
supply voltage and STO
CN2
The controller supply
voltage (24 Vdc) must be
connected for all
operating modes
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Servo Drive
Lexium 32C
LXM32CD18M2
Wiring diagram, digital
inputs/outputs
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Servo motor
BMH0702T06A2A
Connected to Motor
Terminals and CN3 of
LXM32 using cables
VW3M5101R30 and
VW3M8101R30
respectively
Variable Speed Drive
Altivar 312
ATV312H037N4
3-phase
External 0…10 Vdc
Analog Signal as Speed
Reference
400 Vac, 0.37 kW
(1) Line choke, if used
(2) Detected fault relay contacts, for remote
indication of the drive status
(3) Braking resistor, if used
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Variable Speed Drive
Altivar 312
ATV312H037N4
Terminal board
The following is
mandatory to ensure
that the logic inputs can
be energized using
controller transistor
outputs:
Toggle the logic input
configuration switch to
CLI position
Connect the CLI
terminal to the 0 Vdc
reference potential
Motor starter
TeSysU
Power base
LU2B12BL
two directions
Coil wiring kit
LU2MB0BL
Motor starter
TeSysU
Control unit
LUCA05BL
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Motor starter
TeSysU
Auxiliary contact
module (NC, Alarm)
LUA1C11
Tower light
XVBC
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Software
General
The main programming work lies in the programming of the Modicon M258 Logic controller
and creating the screens for the HMI display.
Programming of the Modicon M258 Logic controller is done by using SoMachine.
Programming of the HMI Magelis XBTGT 4330 HMI is done by using Vijeo Designer, which
is integrated into SoMachine.
Configuration of the drives (ATV312 and LXM32C) is done using the control panel on the
drive.
To use the software packages, your PC must have the appropriate Microsoft Windows
operating system installed:

Windows XP Professional
The software tools have the following default install paths:
 SoMachine
C:\Program Files\Schneider Electric\SoMachine
 Vijeo Designer (Installed with SoMachine)
C:\Program Files\Schneider Electric\Vijeo Designer
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Communication
General
The Modicon M258 Logic controller and the Magelis XBTGT HMI communicate using the
SoMachine protocol on Ethernet.
The download from the PC to the M258 and to the HMI is done using a single connection.
The PC has to be connected to the M258 over USB. Using this connection the data is also
sent across to the HMI.
The local control panel is used to configure the ATV312 and the LXM32C.
Ethernet 3 port switch
TCSESU033FN0
for connecting the HMI
and the Controller
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HMI
Magelis
XBTGT4330
The Ethernet
connection is used to
communicate with the
Controller and the PC.
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Ethernet cable
ConneXium
490NTW0000x
This cable is for
connecting the
HMI ↔ Controller
by the Ethernet switch
TCSESU033FN0.
USB cable
TCSXCNAMUM3P
This cable is for
connecting the
Controller/HMI ↔ PC
(SoMachine)
The download direction
is from the PC to the
M258 and via the M258
to the HMI
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Implementation
Introduction
The implementation chapter describes all the steps necessary to initialize, to configure, to
program and start-up the system to achieve the application functions as listed below.
Function
Start up and functional description
1. Ensure all motor circuit breakers and Multi9 circuit breakers are in the ON position.
2. Ensure that the mains switch is in the ON position.
3. Press the "ACKN E-STOP" blue illuminated pushbutton on the main cabinet door
to acknowledge the system is energized. The blue illuminated pushbutton will turn
OFF if the system is energized.
4. Ensure that all machine interlocks are engaged (i.e. the door guard switches)
5. Press the "ACKN Local" blue illuminated pushbutton on the main cabinet door to
acknowledge the system is ready for operation. The blue illuminated pushbutton
will turn OFF if the system is ready for operation.
6. Use Magelis XBTGT HMI to control/monitor the system.
a. Manual Mode: Using the screens TeSys, ATV312 and LXM32C you can
control the drives individually by touching the buttons FWD, REV, STOP
and RESET. You can also individually adjust their manual speeds here.
b. Local Mode: Control the drives from the selector switch located outside the
cabinet. Reset drive faults by acknowledging the red illuminated
pushbutton. Use the screens ATV312 and LXM32C, individually adjust their
automatic speeds here.
c. Use the XBTGT screen to configure the HMI.
d. The “BUS”, “ALARM”, “SAFETY” screens can be used to monitor the
network, system status and alarm messages.
Functional
Layout
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Course of
Action
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Communication
Introduction
This chapter describes the data passed via the communication networks (e.g.
CANopen or Ethernet) that is not bound directly with digital or analog hardware.
Device Links
The SoMachine protocol over Ethernet connects:
Magelis XBTGT HMI
↔
Modicon M258 Logic controller
The SoMachine protocol is used for the data exchange between the controller and
the HMI.
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Controller
Introduction
Requirements
The controller chapter describes the steps required for the initialization and configuration
and the source program required to fulfill the functions.
In order to proceed you require the following:
 SoMachine is installed on your PC
 The controller is switched on and running
 The controller is connected to the HMI with the Ethernet-switch TCSESU033FN0 and
the Ethernet cable 490NTW00003 (controller to switch and HMI to switch)
 The controller is connected the PC via the cable USB TCSXCNAMUM3P.
Setting up the controller is done as follows:
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Create a new
project
1
Performance HW M258
Create a new project
Add the controller
Add Expansion Cards
Configure IO Expansion Modules
Map IO Module Variables to Existing Variables
Add TeSys Library
Add POU
Task configuration
Add Vijeo Designer HMI
Configure controller ↔ HMI data exchange
Ethernet settings
Communication settings controller ↔ PC
Communication settings controller ↔ HMI
Save the Project
Build Application
Download the controller and HMI program
Login to the controller
Application overview
To create a new project select
Create new machine.
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2
Select Start with empty
project.
3
In the Save Project As
dialog box, enter a File name
and press Save.
Note :
As default the project is saved
under My Documents.
4
The SoMachine User
Interface opens.
5
In the User Interface select
the Program tab
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6
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The Program windows
appears
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Add the
Controller
1
Right click on
Performance_HW_M258.
Select Add Device… in the
pop up menu.
2
Select Schneider Electric as
Vendor. Then select:
Logic Controller →
TM258LD42DT
as a controller.
Click on Add Device.
Click on Close.
3
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The Devices folder display
now the new Controller
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Add
Expansion
Modules
1
To add expansion modules to
the controller, right click on
TM5_Manager and click on
Add Device….
2
In the Add Device dialog,
select Schneider Electric as
Vendor, select the required
I/O expansion modules and
click on Add Device.
This procedure is for each
card necessary.
In this project add the
following cards in following
sequence:
- TM5SDI12D
- TM5SAI4PH
- TM5SAO4L
- TM5SAO4L
- TM5SDO12T
- TM5SPS2F
- TM5SDO12T
- TM5SDO12T
- TM5SDI12D
- TM5SDI12D
- TM5SDI6D
- TM5SAI4L
When you have finished
adding the modules, click on
Close.
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3
The added expansion
modules are now visible.
Note:
The sequence of the modules
must be consistent with the
sequence of the actual
hardware. For example, in this
application the TM5SDI12D
module is attached to the
expansion module interface of
the TM5SDO12T (from
TM258LD42DT-Package) and
the TM5SAI4PH module to
the expansion interface of the
TM5SDI12D module.
Configure IO
Expansion
Modules
1
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To configure an expansion
module, double click on it.
Here we will configure the
analog output of the
expansion module
TM5SAO4L.
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2
In the I/O Configuration tab,
the Value of the Enumeration
of BYTE for the Channel
type of Channel00 is
changed to +/-10 V.
Press Enter to accept the new
selection.
Map IO
Module
Variables to
Existing
Variables
1
On the Expansion Bus I/O
Mapping tab it is possible to
map the data of QW2 to a
variable.
There are two ways of
Mapping:
Create a new variable
Mapping to an existing
variable
To update the variables with
the newest I/O data check
Always update variables.
In this project, Map to existing
variable was used, example the
output is mapped to an existing
variable that is located in the
folder Application → GVL.
GVL stands for Global Variables
List, which can be accessed
throughout the Application
folder.
The GVL is opened by double
clicking on GVL in the Devices
browser.
In this application,
q_wAtv312_1SpdRef is
declared as a WORD variable
in the application’s GVL
(Application.GVL.q_wAtv31
2_1SpdRef) prior to mapping
the data QW3 to it.
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2
To map the output to an
existing variable, double click
on the Outputs Variable field
then click on the … button that
appears at the end of the field.
In the Input Assistant dialog
that opens, locate the variable
inside the Global Variables
category and select it.
Then click on OK.
3
The analog module’s output
WORD, QW3 now maps itself
to
Application.GVL.q_wAtv312
_1SpdRef.
To refresh all the I/O variables
in every cycle with the latest
I/O data, check the Always
update variables box. If left
unchecked, only the status of
the I/O variables that are
called in the POUs are
updated.
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Add TeSys
Library
1
In this application, the function
blocks MOT2D1S were used to
manage the forward and
reverse control of the ATV312
and LXM32 drives.
These function blocks are
included inside the TeSys
library.
2
The current libraries in the
project can be viewed in the
Library Manager.
Double click on Library
Manager in the Devices
browser to open the Library
Manager.
3
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To add the TeSys library, click
on Add library… in the
Library Manager editor.
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4
In the Add Library dialog,
Placeholder tab, select:
Placeholder name: SE_TeSys
select:
Devices →
select:
→ TeSys Library
And click on OK to insert the
TeSys Library into the Library
Manager.
5
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Now the new libraries can be
seen in the Library Manager.
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6
More information on the TeSys
library, its modules and other
Schneider Electric libraries can
be found in the SoMachine
Online Help under the Help
menu by clicking on Contents.
7
Information on System libraries
and their modules can be found
in the Online Help under the
folder CoDeSys → Libraries
8
Repeat steps 2 to 4 to add more libraries.
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Add POU
1
To add a POU to the project,
right click on Application in
the Devices browser and
select Add Object… in the
pop-up menu.
2
In the Add Object dialog,
select POU and enter a
Name. Select Program as the
Type and Continuous
Function Chart (CFC) as the
Implementation language.
It is possible to select any of
the IEC languages and to
generate functions and
function blocks.
Click on Open to continue.
3
The new POU
ATV312_1CONTROL is now
visible in the project browser
under the Application entry.
Double click on
ATV312_1CONTROL in the
project browser will open the
editor for the POU
ATV312_1CONTROL.
4
The upper frame displays the
declaration section. The lower
frame is for programming. On
the right side is the ToolBox
window. Use drag and drop
with the toolbox to place
example templates in the
programming section.
5
Beging by placing a box
element in the programming
section. Then click on the???
field.
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6
Type in a name for the
function or function block.
When you start to type a hint
list opens.
In this project, the MOT2D1S
FB is used for controlling the
forward and reverse
commands of the drives.
Select MOT2D1S from the list
and press Enter twice.
7
To instantiate the FB, click on
??? at the top of the template.
Type in a name (for example
fbAtv312_1Ctrl) and press
Enter.
8
The Auto Declare dialog
opens.
A variable comment can be
added in the Comment box.
Click OK to create the
instance.
9
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The new FB MOT2D1S is
instantiated in the declaration
section of the
ATV312_1CONTROL.
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10
To connect a variable to an
input, place an input element
from the ToolBox on the input
side of the FB and connect
the input box to an FB input
by clicking on the red end and
dragging it to the input of the
FB.
To open the Input Assistant
dialog:
Click on ??? in the input box
and press F8
Or, alternatively:
Click on the white box that
appears at the end of the field.
11
In the Input Assistant dialog,
select Global Variables in the
Categories list. In the Items
section, select:
MyController →
PLC Logic →
IoConfig_Globals →
GVL
and then the variable
(i_xPbSysLocFwd).
In this project, the variable is a
three-position selector switch
that is mapped to a global
variable.
12
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Click on OK.
This image shows the FB with
the connected input.
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13
Connecting a variable to an
output is done similar to the
input, but here, a new variable
is created.
Click on the ??? in the output
field, type in a name for the
variable and then press Enter.
In the Auto Declare dialog
that opens, select the Scope
and Type and confirm the
variable Name.
In this example, select
VAR_GLOBAL and BOOL
from the Scope and Type list
box respectively.
14
When finished, click on OK.
The VAR_GLOBAL variables
are located in the GVL folder.
All variables located in this
folder are globally accessible
and can be accessed
throughout the application.
If the variables are located in
the POU, they can only be
accessed by the POU (local
variables).
Global Variables (Application Specific)
Local Variables (POU Specific)
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Task
Configuration
1
Before you can start working
with the new POU you have to
add it to a task. Here, the
POUs are added to the MAST
task.
To do this double click the
MAST task and click on Add
POU.
Note:
If a POU is not included in a
TASK, it will not be invoked.
2
Select Categories →
Programs (Project) and
select the new POU
ATV312_1CONTROL in the
Items list. Then click OK.
Note:
You have to add all POUs in
the project.
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3
Now the POU is in the MAST
task.
In the upper part of the MAST
task configuration you can
change the Type of the task.
In this project it is Freewheeling.
Direct under the Type menu is
the Watchdog field. Set the
Watchdog time to 200 ms.
Add Vijeo
Designer HMI
1
2
To add a Magelis HMI unit to
the project, right click on the
project name and select Add
Device… from the pop-up
menu.
In this project, it is
Performance_HW_M258
→ Add Device…
In the Add Device dialog,
select Schneider Electric as
Vendor. Click on:
Magelis HMI →
XBTGT4000 Series →
XBTGT4330
Click on Add Device.
Then click on Close.
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3
The new XBTGT4330 is now
listed under the project in the
Device window.
Note:
When a Magelis HMI is added
to a project, the programming
software Vijeo Designer
opens in a new window and
you can start programming.
(See HMI Chapter)
Configure
Controller ↔
HMI Data
Exchange
1
To link the variables between
the controller and the HMI, the
object Symbol configuration is
used. To add a Symbol
Configuration, right click on
Application and select Add
Object… from the pop-up
menu.
2
Select Symbol configuration
in the Add Object dialog.
Click on Open.
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3
In the opened Symbol
configuration tab, click on
Refresh.
4
Check the Messages window
for the compilation result and
correct any compilation errors.
To locate a compilation error,
double click on the
compilation error message.
There are no compilation
errors or compilation warnings
in our example project.
5
Note:
The Symbol configuration
cannot be refreshed when
there are compilation errors in
the program.
All Variables created in the
user program are shown in
the Available variables list.
In this project, as all variables
are global variables, they are
located in the GVL folder.
To link the variables from the
controller to the HMI, select
GVL and click on >.
6
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The right frame now lists the
Selected variables which are
to be used the HMI.
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Ethernet
settings
7
To export the selected
variables to Vijeo Designer
right click on HMI Application
and select Export Symbols
to Vijeo-Designer.
1
To change the Ethernet
settings double click Ethernet
in the project browser.
2
Check the fixed IP Address
box and set an IP Address (In
this project 10.10.27.121) and
a Subnet Mask (In this
project 255.0.0.0)
Note:
For the initial download of the
project, the USB cable
TCSXCNAMUM3P must be
used. For subsequent
downloads, an Ethernet
connection could be used.
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Communication 1
setting
Controller ↔ PC
2
To configure the
communication gateway
double click on MyController.
On the Communication
Settings tab click on:
Add gateway...
3
Keep the factory settings and
click on OK.
4
Select Gateway-1 and click
on Scan network.
5
When the scan is finished, the
devices pop up under the
gateway.
Select the used Controller and
click Set active path.
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6
Before continuing read the
notification carefully.
7
The used Controller is now
marked as active.
8
NOTE:
Every M258 has a unique
MAC address that is a part of
the default name (in this case:
@0080F440024E).
If you would like to change the
default name of your
controller:
click on Edit…
In the displayed pop-up
window go to the
Device Name field and enter
the new unique name for your
controller.
In our example we kept the
factory setting name.
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Communication 1
Setting
HMI ↔ PC
2
To configure the communication gateway double click
on XBTGT4330 in the project
browser.
On the Communication
Settings tab, click on Add
gateway…
3
Retain the factory values and
click OK.
4
Select Gateway-1 and click
Scan network.
5
When the scan is finished, the
devices appear under the
gateway. Select the used HMI
and click on Set active path.
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Save the
Project
6
Before continuing read the
notification carefully.
7
The used HMI is now marked
as active.
1
To save the project, click
File → Save Project
To save the project under a
different name, click
File → Save Project As…
2
Performance HW M258
In the Save Project dialog
that opens after clicking on
Save Project As…, enter the
new File name and click on
Save.
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Build
Application
1
To build the application click
on
Build→Build ‘Application
[MyController: PLC
Logic]’.
2
Note:
If you wish to build the entire
project (HMI and Controller)
click Build All
After the build you are notified
in the Messages field as to
whether the build was
successful or not.
If the build was not successful
there will be a list of
messages in the Messages
field.
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Download
the
Controller
and HMI
projects
1
NOTE:
If it is the first time you are connecting to the Magelis HMI you will need to first
download the latest runtime version to the Magelis HMI using Vijeo Designer.
This first download is described in the following steps.
2
If this is not the first download go directly to step 9
In Vijeo Designer select the
HMI in the device list. Then in
the Property Inspector
select Download via
Ethernet.
Note:
The PC should be connected
to the HMI via the Ethernet
switch TCSESU033FN0 and
the Ethernet cable
490NTW0000x.
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3
Select:
Build → Download All
4
The Vijeo-Designer Runtime
Installer dialog indicates that
the runtime version does not
match. Start the download of
the new version by clicking on
Yes.
5
The actual state of the
download is displayed in a
progress bar.
6
If the Project ID does not match
you will see this message.
Acknowledge with Yes to
proceed the download.
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7
During the download procedure
the system creates messages,
which you can see in the
Feedback Zone.
8
Once the runtime download is
complete, change the
Download connection in the
Property Inspector back to
SoMachine.
9
To download the application
to the Controller and the HMI
select
Online →
Multiple Download…
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10
Check the Controller
(MyController) and the HMI
(XBTGT4330) and Always
perform a full download.
Click on OK.
11
Acknowledge this message
with Yes to perform the
download.
12
Before the download starts, a
build of the complete project
is done.
The result of the build is
displayed in the Messages
window.
13
Once the download to the
Controller is finished, the HMI
download starts.
14
The result of the HMI
download is displayed in the
Messages window.
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15
The results of the Multiple
download to the Controller
are displayed in the Multiple
Download – Result window.
Here are two examples:
In the first dialog there was no
change and you select Try to
perform an online change.
And in the second dialog
there was an online change
done
and you select Try to
perform an online change
(see screen “Multiple
Download” in step 10).
The same dialog you will see,
if you select Always perform
full download (see screen
“Multiple Download” in step
10), even you did not made
any changes in the ControllerProgram
Click on Close to close to the
results window.
Login to
Controller
1
To login to the Controller click
Online →
Login
2
If the Controller program is
different from the program on
the PC a message asks you
how you wish to log in.
-
Login with online
change
Only the changes are
downloaded
-
Login with download
The complete Controllerchanges are downloaded
Select Login with online
change and click OK.
If you do not wish to replace
the Controller program, select
Login without any change
click OK and continue with
step 6.
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3
The actual download status is
displayed at the bottom of the
main window.
4
With
Online →
Create boot application
It is possible to create a boot
project if you wish. A boot
project is stored in EPROM so
that a power loss does not
mean you have to repeat the
download on re-start.
5
The actual creation status is
displayed at the bottom of the
main window
6
To start the new Application
select:
Online →
Start
7
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To start the new Application
confirms the message with a
click on Yes.
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8
Performance HW M258
If everything is operational,
the devices and folders are
marked in green otherwise
they will be marked in red.
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Application
overview
1
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The picture on the right shows
the structure of the program.
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HMI
Introduction
This application uses a Magelis XBTGT4330 HMI. This HMI device communicates with the
Controller using the SoMachine protocol on Ethernet. The HMI is programmed using the
software tool Vijeo Designer (Delivered with SoMachine), described briefly in the following
pages. For the connection between the the HMI and the Controller use the Ethernet cable
490NTW00005.
NOTE:
The Vijeo Designer tool is opened and closed via SoMachine software. For more information
see the chapter
Controller: Add Vijeo Designer HMI
Setting up the HMI is done as follows:
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Main Window
Communication settings
Create a switch
Create a numeric display
Example screens
Main Window
1
After double clicking on HMI
application in SoMachine, Vijeo
Designer creates the HMI
program main window.
Communication
settings
1
To set the communication
parameters select in the
navigator select:
IO Manager →
SoMachineNetwork01 →
double click on
SOM_MyController
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2
In the SoMachine – Network
Equipment Config… dialog
set the Controller Equipment
Address.
You will find this address in
SoMachine…
3
… by double clicking the
MyController in the
SoMachine project browser.
4
In the Communication
Settings tab select the
Controller and click on Edit…
5
The equipment address of the
controller is displayed as the
Device Name.
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Create a
switch
1
Select the Switch icon in the
Tool bar
2
Select the position where you
wish to place the button by
opening a rectangle on the
display and pressing Enter.
3
In the Switch Settings dialog,
under the General tab, click on
the bulb icon at the end of the
Destination field to select the
variable that should be linked
to the switch.
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4
Click on the bulb icon (as
indicated in the image above) to
open the Variables List dialog.
Select the SoMachine tab and
the required variable.
(e.g. i_xPbSysLocFwd)
Click OK.
5
Performance HW M258
After the variable has been
selected as the switch’s
Destination, click on Add >.
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6
In the tab Label, select Static
as the Label Type and enter a
name that the switch would be
labeled with, e.g. FWD.
If you wish, you can modify the
label’s Font attributes (Style,
Width, Height and Alignment).
When you are satisfied with the
switch settings, click on OK.
Create a
Numeric
Display
7
The new switch in now on the
Work frame.
1
Click on the Numeric Display
icon in the tool bar.
2
Click on the panel where you
wish to position the numeric
display and then drag the
cursor to size it.
Then click again or press enter.
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3
In the Numeric Display
Settings dialog, under the tab
General, click on the bulb icon
at the Variable field to select
the variable that should be
linked to the display.
In Display Digits, the
maximum number of digits to
be displayed for the integral
and fractional part of the value
can be set.
Click OK.
Example
screens
4
The display shows the new
numeric display.
1
The Home page shows the
architecture.
2
From the Alarm page, it is
possible to locate device faults
and functional safety problems.
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3
From the “Safety” page, it is
possible to locate functional
safety problems.
4
From the TeSys page, it is
possible to control the two
TeSys devices.
5
From the ATV312 page, it is
possible to control the Altivar
312 drives.
6
From the LXM32 page, it is
possible to control the Lexium
32C servo drives.
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Devices
Introduction
This chapter describes the steps required to initialize and configure the different
devices required to attain the described system function.
General
Altivar 312 and Lexium 32C drives are configured by using the local control panel.
Note
It is recommended that the controller is in stop mode before parameterizing the
drives.
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Altivar 312
Introduction
The ATV312 parameters can be entered or modified via the local control panel on the
front of the device.
Note
If this is not a new drive it is recommended to return to the factory settings. If you need
instructions on how to do this, please read the drive documentation.
Jog dial that is a part of the local control panel and can be used for navigation by
turning it clockwise or counter-clockwise. Pressing the jog dial enables the user to
make a selection or confirm information.
Control panel
1
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The configuration of the Altivar can be done by using the buttons and the jog dial on
the control panel of the Altivar.
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Inputs /
Outputs
configuration
1
To assign the inputs and outputs:
 Press MODE
 Select I_O- [INPUTS /
OUTPUTS CFG] and press
enter
 Select rrS (Reverse input
assignment) and press enter
 The actual value LI2 (factory
setting)
 Return to rrS with ESC
 Select r1 (relay output 1) and
press enter
 The actual value FLt (No Drive
Fault, factory setting)
 Return to r1 with ESC
 Select r2 (relay output 2) and
press enter. The actual value
nO is displayed.
 Select SrA (Speed Reached)
and press enter
 Return to r2 with ESC
 Select SCS (Save
configuration) and press enter.
The actual value nO is
displayed.
 Select StrI and press enter for
2 seconds
 SCS automatically switches to
nO as soon as the as the save
has been performed.
 Return to SCS with ESC
 Return to I_O- with ESC
 Return to rdy with ESC
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Change
settings for
Preset Speeds
1
To assign the settings for Preset
Speeds:
 Press MODE
 Select FUn- [APPLICATION
FUNCT.] and press enter
 Select PSS and press enter
 Select PS2 and press enter.
The actual value LI2 is
displayed.
 Select nO and press enter
 Return to PS2 with ESC
 Select PS4 and press enter.
The actual value LI3 is
displayed.
 Select nO and press enter
 Return to PS4 with ESC
 Return to PSS with ESC
 Return to FUn- with ESC
 Return to rdy with ESC
The reason for this modification is: in
this Application we do not use the
Preset Speeds and we use the Input
LI3 for rSF (Fault Reset)
Fault
management
1
To assign the settings for Fault
management:
 Press MODE
 Select FLt- [FAULTMANAGEMENT] and press
enter
 Select rSF (Reset Fault) and
press enter. The actual value
nO is displayed.
 Select LI3 and press enter
 Return to rSF with ESC
 Return to FLt- with ESC
 Return to rdy with ESC
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Lexium 32C
Introduction
The LXM32C parameters can be entered or modified via using the local control panel
on the front of the device.
Note:
If this is not a new drive it is recommended to return to the factory settings. If you need
instructions on how to do this, please refer to the drive documentation.
If the drive is being started for the first time, the FSu (First Setup) is invoked.
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Select the
operating
mode
1
Selection of the operating mode: VELP (Profile Velocity).
The parameter “IOdefaultMode” (io-M) is used to set the desired operating mode.
The selected operating mode is starting by enabling the power stage.
► Set the operating mode with the parameter “IOdefaultMode” (io-M).
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Inputs /
Outputs
configuration
1
Configuration of the digital inputs di0, di1, di5 and digital outputs do0, do1.
► di0 → EnAb Enables the power stage
► di1 → FrES Fault reset after error
► di5 → hALt Stopping movement with Halt
► do0 → nFLt Ready to switch on
► do1 → Acti Operation Enable
The digital inputs di2 – di5 are not used. It is required to set this inputs to nonE.
► di2 → nonE
► di3 → nonE
► di4 → nonE
► di5 → nonE
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Power cycle
1
Performance HW M258
In case of display “nrdy” instead of “rdy”, a power cycle (on, off, on) is required.
Schneider Electric
93
Appendix
Detailed Component List
The following order list is the list of main parts for the Performance HW M258. The
complete order and component list of the build up overall architecture is in the EPLAN file
“Performance_HW_M258_WID”
Hardware-Components
Sarel cabinet
Pos.
Qty.
Description
Part Number
1.0
1
NSYSF181060P
1.1
1.2
1.3
1.4
1.5
1
1
1
1
1
1.6
1
Cabinet with mounting plate
1800 x 1000 x 600 mm (HxWxD)
Set of Side wall 1800 x 600 mm
Wiring diagram pocket
Fan with filter, 250 m³, 230 V, IP54
Cabinet filter 223 x 223
Cabinet light incl. socket, magnetic
fixing
Thermostat 1NC, 0-60 °C
Rev./
Vers.
NSY2SP186
NSYDPA4
NSYCVF165M230PF
NSYCAG223LPF
NSYLAM75
NSYCCOTHO
Hardware-Components
Main switch
Pos.
Qty.
Description
Part Number
2.0
2.1
2.2
2.3
1
1
1
1
Main switch 3pin 36 kA
Contact block TM32D
Terminal cover
Rotary drive with door interface
LV429003
LV429035
LV429515
LV429340
Rev./
Vers.
Hardware-Components
Power supply
Pos.
Qty.
Description
Part Number
3.0
3.1
3.2
4
4
4
3.3
2
3.4
4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
5
8
4
1
1
2
1
Power supply 230 Vac / 24 Vdc, 5 A
Disconnect terminal
Fuse 6.3 A, Type T slow-blow
(third party)
Fuse 3.15 A, Type T, slow-blow
(third party)
Fuse 1 A, Type T , slow-blow
(third party)
Terminal for Fuse with LED
Circuit Breaker C60N 1P, C, 2 A
Circuit Breaker C60N 2P, C, 2 A
Circuit Breaker C60N 1P, C, 3 A
Circuit Breaker C60N 2P, C, 2 A
Circuit Breaker C60N 1P, C, 10 A
Circuit Breaker C60N 2P, C, 10 A
ABL8RPS24050
5711016550
021806.3HXP
(Littelfuse)
02183.15HXP
(Littelfuse)
0218001.HXP
(Littelfuse)
AB1FUSE435U5XB
23726
24443
23728
23747
25397
23756
Performance HW M258
Schneider Electric
Rev./
Vers.
94
Hardware-Components
M258
Pos.
Qty.
Description
Part Number
4.0
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
4.10
4.11
1
1
1
2
3
1
3
1
1
11
1
12
Modicon M258 Logic Controller
Pt100 input module 4 IN
Analog input module 4 IN
Analog output module 4 OUT
Digital input module 12 IN
Digital input module 6 IN
Digital output module 12 OUT
Power supply module 24 Vdc
Base module for power supply
Base module for expansion slices
Locking plate right
Terminal block, 12 pin coded
TM258LD42DT
TM5SAI4PH
TM5SAI4L
TM5SAO4L
TM5SDI12D
TM5SDI6D
TM5SDO12T
TM5SPS1
TM5ACBM01R
TM5ACBM11
TM5ACLPR1
TM5ACTB12
Rev./
Vers.
V2.0
Hardware-Components
Drives
Pos.
Qty.
Description
Part Number
5.0
4
ATV312H037N4
5.1
4
ATV 312 variable speed drives 0.37
kW
Lexium 32C servo drives 0.75 kW
5.2
5.3
5.4
5.5
5.6
4
2
2
2
2
5.7
5.8
5.9
5.10
2
4
4
8
5.11
5.12
4
4
Servo motor
TeSysU base module reversing 12 A
TeSysU coil wiring kit
TeSysU standard control unit
TeSysU Auxiliary contact module
(NC, Fault)
TeSysU Function Module 2 NO
Magnetic circuit breaker 2.5 A
Magnetic circuit breaker 10 A
Auxiliary contacts for circuit breaker
1NO 1 NC
Power cable for Lexium 32, 5 m
Encoder cable for Lexium 32, 5 m
LXM32CD18M2
Rev./
Vers.
V 5.1
IE50
V 01.
03.14
BMH0702T06A2A
LU2B12BL
LU2MB0BL
LUCA05BL
LUA1C11
LUFN20
GV2L07
GV2L14
GVAE11
VW3M5101R50
VW3M8102R50
Hardware-Components
HMI
Pos.
Qty.
Description
Part Number
6.0
1
Magelis XBTGT 7.4“ touch display
XBTGT4330
Rev./
Vers.
V5.1.
19.0
Hardware-Components
Communication
Pos.
Qty.
Description
Part Number
7.0
7.1
1
2
Ethernet switch 3 port
Patch cable twisted pair RJ45, 2 m
TCSESU033FN0
490NTW00002
Performance HW M258
Schneider Electric
Rev./
Vers.
95
Hardware-Components
E-Stop and
Door Guard
Pos.
Qty.
Description
Part Number
8.0
1
E Stop safety module XPSAV
XPSAV11113Z002
8.1
8.2
8.3
1
1
1
XPSECP5131
XPSAC5121
XB5AS844
8.4
8.5
8.6
8.7
8.8
8.9
1
3
2
1
1
8
Safety extension module
Door guarding module XPSAC
Emergency Stop pushbutton for
cabinet door
Auxiliary contacts for cabinet E-Stop
Illuminated pushbutton, 1 NC, blue
Assembly housing
Door guard switch
Actuator for door guard switch
E-Stop / Door guarding contactors 2.4
kW
Rev./
Vers.
ZB5AZ141
XB5AW36B5
XALD01
XCSPA792
XCSZ12
LC1D09BL
Hardware-Components
Harmony
Pos.
Qty.
Description
Part Number
9.0
9.1
9.2
9.3
9.4
9.5
9.6
9.7
9.8
9.9
9.10
9.11
9.12
9.13
9.14
9.15
9.16
9.17
1
1
1
2
2
1
3
1
3
1
3
1
1
1
1
1
1
1
Box for 3 button / Assembly housing
Assembly housing
Signal lamp LED white
Illuminated pushbutton, green
LED module green, for pushbutton
Pushbutton, red
Auxiliary switch bank
Auxiliary contact 1NO/NC
Labels for engraving
Tag holder 30 X 50 mm
Tag holder 30 X 40 mm
Signal Pillar Pipe
Connection element
Terminal
Signal element green
Signal element red
Signal element blue
Signal element white
XALD03
XALD01
XB5AVB1
ZB5AW333
ZALVB3
ZB5AA41
ZENL1111
ZB5AZ105
ZBY0101
ZBZ33
ZBZ34
XVBC02
XVBC11
XVBC21
XVBC2B3
XVBC2B4
XVBC2B6
XVBC2B7
Rev./
Vers.
Software-Components
Software Tools
Pos.
Qty.
Description
Part Number
10.0
10.1
1
1
SoMachine V 2.0
Programming cable (USB)
MSDCHNSFUV20
TCSXCNAMUM3P
Performance HW M258
Schneider Electric
Rev./
Vers.
V 2.0
96
Component Protection Classes
Positioning
Component
In Field, On Site
IP54
Protection Class
Main switch, with or without
undervoltage protection and
integrated indicator
Preventa relays XPS
Single/Double switch housing,
complete
Indicator buttons,
Buttons with LED + 1 switch(1S)
Labels 30x40, 30x50
Phaseo Power Supply
Modicon M258 Logic controller
Altivar 312
Lexium 32C servo drive
BSH Servo motor
IP65
X
X
X
X
X
X
X
X
X
X
X
shaft
end
IP40
TeSys contactor
Magelis HMI XBTGT
Performance HW M258
IP67
Cabinet
Front
Inside
IP55
IP65
IP20
X
Schneider Electric
X
X
97
Component Features
Components
Compact NSX main switch
Compact NSX disconnector from 12 to 175 A are suitable for
on-load making and breaking of resistive or mixed resistive
and inductive circuits where frequent operation is required.
They can also be used for direct switching of motors in
utilization categories AC-3 and DC-3 specific to motors.



3-pole rotary switch disconnector, 12 to 175 A
Pad lockable operating handle (padlocks not supplied)
Degree of protection IP65
Power Supply Phaseo: ABL8RPS24050






1 or 2-phase connection
100...120 Vac and 200...500 Vac input
24 Vdc output
5 A output
Diagnostic relay
Protected against overload and short circuits
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Preventa safety module: XPSAC5121
Main technical characteristics:
For monitoring
Emergency Stop
Max. Category accord. EN 954-1
3
No. of safety circuits
3 N/O
No. of additional circuits
1 Solid-State
Indicators
2 LED
Power supply AC/DC
24 V
Response time on input opening
< 100 ms
AC-15 breaking capacity
C300
DC-13 breaking capacity
24 Vdc / 2 A - L/R
50ms
Minimum voltage and current
17 V / 10 mA
Dimensions (mm)
114 x 22.5 x 99
Connection
Captive screw-clamp
terminals
Degree of protection
IP20 (terminals)
IP40 (casing)
Safety modules XPSAC are used for monitoring Emergency
Stop circuits conforming to standards EN ISO 13850 and EN
60204-1 and also meet the safety requirements for the
electrical monitoring of switches in protection devices
conforming to standard EN 1088 ; ISO 14119. They provide
protection for both the machine operator and the machine by
immediately stopping the dangerous movement on receipt of a
stop instruction from the operator, or on detection of a fault in
the safety circuit itself.
Modicon M258 Logic controller:
TM258LD24DT
The M258 is powered with 24 Vdc, offer:
 26 x 24 Vdc inputs including 10 fast inputs, dedicated to
special functions such as HSC high-speed counting
 16 x 24 Vdc solid state outputs including 4 fast outputs,
dedicated to special functions such as counting, PWM and
PTO
 USB-B mini-port: Programming port for SoMachine V2.0
Software
 USB-A-port: Connection of a USB memory stick for
tranferring programs, data files, firmware updates
 RJ45-port (MBS): RS 485 serial link mainly dedicated to
connection of a Human/Machine interface terminal (link
providing a 5 V power supply for a Magelis Panel)
 SUB-D connector (male9-way/CAN0)): Master CANopen
bus
 RJ45-port (Ethernet): Ethernet TCP IP, Web Server,
Ethernet Modbus TCP
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Magelis Display Terminal: XBTGT4330







Sensor screen (STN-Technology) with 24 Vdc power
supply
Brightness and Contrast adjustment
Communication via Uni-Telway and Modbus.
Communication via Ethernet TCP/IP le in specific
models
Flat Profile
Memory expansion for application program
Temperature range: 0..+ 50 °C
Certificates: UL, CSA
TeSysU motor starter
One power base
Control unit 0.15 to 32 A
Only 6 setting ranges up to 32 A
Only 4 voltage ranges up to 240 Vac/dc
3 versions: Standard, Extended, Multifunctional
Overall width 45 mm
Complete reversing contactor combination 0.15 to 32 A
Auxiliary switches and function modules
Integrated: Motor circuit breaker auxiliary contact 1 NC,
with connectors
Integrated: Contactor auxiliary contacts 1 NO + 1 NC,
freely available
Option: Auxiliary switch module with 2 contactor state
contacts
Option: “Error” and “Selector switch position” signal contact
Alarm – thermal overload function module
Motor load display function module (0 to 10 V, 4 to 20 mA)
Differentiated error display function module (under
development)
Communication modules
Parallel wiring; with plug-in connection cables up to eight
motor controls can be supplied on one distribution module
Modbus RTU protocol
AS-Interface
CANopen
Gateway: FIPIO/Modbus, DeviceNet/Modbus, Profibus
DP/Modbus
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Lexium 32 servo drive










Voltage range:
1-phase 100 – 120 Vac or 200 – 240 Vac
3-phase 200 – 240 Vac or 380 – 480 Vac
Power:
0.4 to 6 kW
Rated torque:
0.5 to 36 Nm
Rated speed:
1500 to 8000 RPM
The compact design allows for space-saving installation of
the drive in control cabinets or machines.
Features the "Power Removal" (Safe Stop) functional
safety function, which prevents the motor from being
started accidentally. Category 3 with machine standard EN
954-1
Lexium 32 servo amplifiers are fitted with a brake resistor
as standard (an external brake resistor is optional)
Quick control loop scan time: 62.5 µs for current control
loop, 250 µs for speed control loop and 250 µs for position
control loop
Operating modes: Point-to-point positioning (relative and
absolute), electronic gears, speed profile, speed control
and manual operation for straightforward setup.
Control interfaces:
CANopen, Modbus or Profibus DP
Analog reference inputs with ± 10 V
Logic inputs and outputs
Altivar 312 Variable Speed Drive
The Altivar 312 varisble speed drive for 3-phase squirrel cage
asynchronous motors. The Altivar 312 is robust, compact, easy
to use and conforms to EN 50190, IEC/EN 61800-2, IEC/EN
61800-3 standards UL/CSA certification and to CE marking.
Altivar 312 drives communicate on Modbus and CANopen
industrial buses. These two protocols are integrated as
standard.
Altivar 312 drives are supplied with a heat sink for normal
environments and ventilated enclosures. Multiple units can be
mounted side by side to save space.
Drives are available for motor ratings between 0.18 kW and 15
kW, with four types of power supply:
- 200 Vac to 240 Vac 1-phase, 0.18 kW to 2.2 kW
- 200 Vac to 240 Vac 3-phase, 0.18 kW to 15 kW
- 380 Vac to 500 Vac 3-phase, 0.37 kW to 15 kW
- 525 Vac to 600 Vac 3-phase, 0.75 kW to 15 kW
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101
SoMachine OEM Machine Programming Software:
MSDCHNSFUV20
SoMachine is the OEM solution software for developing,
configuring and commissioning the entire machine in a single
software environment, including logic, motion control, HMI and
related network automation functions.
SoMachine allows you to program and commission all the
elements in Schneider Electric’s Flexible and Scalable Control
platform, the comprehensive solution-oriented offer for OEMs,
which helps you achieve the most optimized control solution
for each machine’s requirements.
Flexible and Scalable Control platforms include:
Controllers:
HMI controllers:
 Magelis XBTGC HMI controller
 Magelis XBTGT HMI controller
 Magelis XBTGK HMI controller
Logic controllers:
 Modicon M238 Logic controller
 Modicon M258 Logic controller
Motion controller
 Modicon LMC058 Motion controller
Drive controller:
 Altivar ATV-IMC Drive controller
HMI:
HMI Magelis graphic panels:
 XBTGT
 XBTGK
SoMachine is a professional, efficient, and open software
solution integrating Vijeo Designer.
It integrates also the configuring and commissioning tool for
motion control devices.
It features all IEC 61131-3 languages, integrated field bus
configurators, expert diagnostics and debugging, as well as
outstanding capabilities for maintenance and visualization.
SoMachine integrates tested, validated, documented and
supported expert application libraries dedicated to Packaging,
Hoisting and Conveying applications.
SoMachine provides you:
 One software package
 One project file
 One cable connection
 One download operation
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102
Contact
Publisher
Process & Machine Business
OEM Application & Customer Satisfaction
Schneider Electric Automation GmbH
Steinheimer Strasse 117
D - 63500 Seligenstadt
Germany
Homepage
http://www.schneider-electric.com/sites/corporate/en/home.page
As standards, specifications and designs change from time to time, please ask for
confirmation of the information given in this publication.
Performance HW M258
Schneider Electric
103
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