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BOOK MOUNT IPC
INSTRUCTIONS FOR USE |
C6 E22 BM - C6 E22 BM-RVL
Original Manual
Document 20170810 EN 01
PREfaCE
Preface
The described hard- and software are developments of the KEB Automation KG. The enclosed documents correspond to conditions valid at printing. Misprint, mistakes and technical changes reserved.
Signal words and symbols
Certain operations can cause hazards during the installation, operation or thereafter.
There are safety informations in the documentation in front of these operations. Security signs are located on the device or machine. A warning contains signal words which are explained in the following table:
DaNGER Dangerous situation, which will cause death or serious injury in case of non-observance of this safety instruction.
WaRNING Dangerous situation, which may cause death or serious injury in case of non-observance of this safety instruction.
CaUTION Dangerous situation, which may cause minor injury in case of non-observance of this safety instruction.
NOTICE
Situation, which can cause damage to property in case of non-observance.
RESTRICTION
Is used when certain conditions must meet the validity of statements or the result is limited to a certain validity range.
Is used when the result will be better, more economic or trouble-free by following these procedures.
More symbols
►
• / -
=>
This arrow starts an action step.
Enumerations are marked with dots or indents.
Cross reference to another chapter or another page.
Note to further documentation. www.keb.de/nc/search
3
PREfaCE
Laws and guidelines
KEB Automation KG confirms with the EC declaration of conformity with the CE mark on the unit name plate, that the device complies with the essential safety requirements.
The EC declaration of conformity can be downloaded on demand via our website. Further information is provided in chapter "Certification".
Warranty
The warranty on design, material or workmanship for the acquired device is given in the current terms and conditions.
Here you will find our current terms and conditions.
www.keb.de/terms-and-conditions
Further agreements or specifications require a written confirmation.
Support
Through multiple applications not every imaginable case has been taken into account. If you require further information or if problems occur which are not treated detailed in the documentation, you can request the necessary information via the local
KEB Automation KG agency.
The use of our units in the target products is beyond of our control and therefore exclusively the responsibility of the machine manufacturer, system integrator or customer.
The information contained in the technical documentation, as well as any user-specific advice in spoken and written and through tests, are made to best of our knowledge and information about the application. However, they are considered for information only without responsibility. This also applies to any violation of industrial property rights of a third-party.
Selection of our units in view of their suitability for the intended use must be done generally by the user.
Tests can only be done within the application by the machine manufacturer. They must be repeated, even if only parts of hardware, software or the unit adjustment are modified.
Copyright
The customer may use the instruction manual as well as further documents or parts from it for internal purposes. Copyrights are with KEB Automation KG and remain valid in its entirety.
Other wordmarks or/and logos are trademarks (™) or registered trademarks (®) of their respective owners and are listed in the footnote on the first occurrence.
4
TaBLE Of CONTENTS
Table of Contents
1 Basic Safety Instructions ............................................ 14
2 System Description ..................................................... 18
5
6
TaBLE Of CONTENTS
3 Installation and connection ........................................ 32
4 System Start-up ........................................................... 43
5 KEB Write filter Manager ............................................ 44
6 Maintenance and service ............................................ 51
7 Technical specifications
............................................. 54
TaBLE Of CONTENTS
8 Certification
.................................................................. 60
7
8
LIST Of fIGURES
List of figures
LIST Of fIGURES
9
LIST Of TaBLES
List of Tables
10
GLOSSaRy
Glossary
0V
1ph
3ph
AC
ASCL
AWG
Earth-potential-free common point
1-phase mains
3-phase mains
AC current or voltage
Asynchronous sensorless closed loop
American wire gauge
B2B
CAN
Business-to-business
Fieldbus system
CODESYS Operating system of the standard control and programming environment
CODESYS
Safety-PS
Safety programming system
COMBIVERT KEB drive converters
COMBIVIS KEB start-up and parameterizing software
DC DC current or voltage
DIN
EMC
German Institut for standardization
Electromagnetic compatibility
Emergency stop
Emergency switching off
EN
EtherCAT
Ethernet
Shutdown of a drive in emergency case (not de-energized)
Switching off the voltage supply in emergency case
European standard
Real-time Ethernet bus system of the company Beckhoff
Real-time bus system - defines proto cols, plugs, types of cables
Functional earth
Functional Safety over EtherCAT
FE
FSoE
GND
HFT
Reference potential, ground
Hardware fault tolerance
Head module Description for the bus coupler or small control in the KEB-I/O EtherCat
HMI system
Human machine interface (touch
IEC screen)
International standard
IP xx Degree of protection (xx for level)
KEB-I/O
EtherCAT SPS
KEB-I/O
EtherCAT
System
Small control system from the KEB-
I/O system
I/O module family
MCM
MTTF
MTTF
D
NN
American unit for large wire cross sections
Mean service life to failure
Mean time to dangerous failure
Sea level
PA
PE
PELV
PFD
PFH
PLC
Port
Potential equalization
Protective earth
Protective Extra Low Voltage
Term used in the safety technology
(EN 61508-1...7) for the size of error probability
Term used in the safety technology
(EN 61508-1...7) for the size of error probability per hour
Programmable logic controller
Part of a network address to the assignment of TCP and UDP connections
Program Organization Unit POU
RJ45 Modular connector with 8 lines
Safety Package
Plug in for COMBIVIS studio 6 with safety functionally
Safety PLC Safety programmable logic controller
Safety
PLCopen
SELV
Library of the certified basic level safety blocks
Safety Extra Low Voltage (< 60 V)
SFF
SIL
USB
Safe failure fraction
The security integrity level is a measure for quantifying the risk reduction.
Term used in the safety technology
(EN 61508 -1...7).
Universal serial bus
11
STaNDaRDS fOR CONTROL & aUTOMaTION
Standards for control & automation
DGUV regulation 3 Electrical installations and equipment
DIN 46228-1 Wire-end ferrules; Tube without plastic sleeve
DIN 46228-4 Wire-end ferrules; Tube with plastic sleeve
DIN IEC 60364-5-54 Low-voltage electrical installations - Part 5-54: Selection and erection of electrical equipment - Earthing arrangements, protective conductors and protective bonding conductors (IEC 64/1610/CD)
DIN VDE 0100-729 Low-voltage electrical installations - Part 7-729: Requirements for special installations or locations - Operating or maintenance gangways (IEC 60364-7-729);
German implementation HD 60364-7-729
EN 1037
EN 55011
Safety of machinery - Prevention of unexpected start-up; German version EN 1037
Industrial, scientific and medical equipment - Radio frequency disturbance characteristics - Limits and methods of measurement (IEC/CISPR 11); German version EN 55011
EN 55021 Interference to mobile radiocommunications in the presence of impulse noise -
Methods of judging degradation and measures to improve performance (IEC/
CISPR/D/230/FDIS); German version prEN 55021
EN 60204-1
EN 60439-1
EN 60529
EN 60664-1
Safety of machinery - electrical equipment of machines Part 1: General requirements (VDE 0113-1, IEC 44/709/CDV)
Low-voltage switchgear and controlgear assemblies - Part 1: Type-tested and partially type-tested assemblies (IEC 60439-1); German version EN 60439-1
Degrees of protection provided by enclosures (IP Code) (IEC 60529)
Insulation coordination for equipment within low-voltage systems Part 1: Principles, requirements and tests (IEC 60664-1)
EN 60721-3-1
EN 60721-3-2
EN 60721-3-3
EN 61000-2-1
EN 61000-2-4
EN 61000-4-2
EN 61000-4-3
EN 61000-4-4
EN 61000-4-5
Classification of environmental conditions - Part 3-1: Classification of groups of environmental parameters and their severities - Section 1: Storage (IEC 104/648/CD)
Classification of environmental conditions - Part 3: Classification of groups of environmental parameters and their severities - Section 2: Transportation and handling (IEC 104/670/CD)
Classification of environmental conditions - Part 3: Classification of groups of environmental parameters and their severities; section 3: Stationary use at weatherprotected locations; Amendment A2 (IEC 60721-3-3); German version
EN 60721-3-3
Electromagnetic compatibility (EMC) - Part 2: Environment - Section 1: Description of the environment - Electromagnetic environment for low-frequency conducted disturbances and signalling in public power supply systems
Electromagnetic compatibility (EMC) - Part 2-4: Environment; Compatibility levels in industrial plants for low-frequency conducted disturbances (IEC 61000-
2-4); German version EN 61000-2-4
Electromagnetic compatibility (EMC) - Part 4-2: Testing and measurement techniques - Electrostatic discharge immunity test (IEC 61000-4-2); German version EN 61000-4-2
Electromagnetic compatibility (EMC) - Part 4-3: Testing and measurement techniques - Radiated, radio-frequency, electromagnetic field immunity test (IEC
61000-4-3); German version EN 61000-4-3
Electromagnetic compatibility (EMC) - Part 4-4: Testing and measurement techniques - Electrical fast transient/burst immunity test (IEC 61000-4-4);
German version EN 61000-4-4
Electromagnetic compatibility (EMC) - Part 4-5: Testing and measurement
12
STaNDaRDS fOR CONTROL & aUTOMaTION
EN 61000-4-6
EN 61000-4-34
EN 61131-2
EN 61373
EN 61439-1
EN 61508-1...7
EN 61800-2
EN 61800-3
EN 61800-5-1
EN 61800-5-2
EN 62061
EN ISO 13849-1
UL 61800-5-1 techniques - Surge immunity test (IEC 61000-4-5); German version EN 61000-4-5
Electromagnetic compatibility (EMC) - Part 4-6: Testing and measurement techniques - Immunity to conducted disturbances, induced by radio-frequency fields (IEC 61000-4-6); German version EN 61000-4-6
Electromagnetic compatibility (EMC) - Part 4-34: Testing and measurement techniques - Voltage dips, short interruptions and voltage variations immunity tests for equipment with mains current more than 16 A per phase (IEC 61000-4-
34); German version EN 61000-4-34
Programmable controllers - Part 2: Equipment requirements and tests (IEC 61131-2)
Railway applications - Rolling stock equipment - Shock and vibration tests (IEC 61373)
Low-voltage switchgear and controlgear assemblies - Part 1: General rules (IEC
121B/40/CDV); German version FprEN 61439-1
Functional safety of electrical/electronic/programmable electronic safety-related systems – Part 1...7 (VDE 0803-1…7, IEC 61508-1…7)
Adjustable speed electrical power drive systems - Part 2: General requirements -
Rating specifications for low voltage adjustable frequency a.c. power drive systems (VDE 0160-102, IEC 61800-2)
Speed-adjustable electrical drives. Part 3: EMC requirements and specific test methods (VDE 0160-103, IEC 61800-3)
Adjustable speed electrical power drive systems - Part 5-1: Safety requirements
- Electrical, thermal and energy (IEC 61800-5-1); German version EN 61800-5-1
Adjustable speed electrical power drive systems - Part 5-2: Safety Requirements
- Functional (IEC 22G/264/CD)
Safety of machinery - functional safety of electrical, electronic and programmable electronic safety-related systems (VDE 0113-50, IEC 62061)
Safety of machinery - safety-related parts of control systems - Part 1: General principles for design (ISO 13849-1); German version EN ISO 13849-1
American version of the EN 61800-5-1 with „National Deviations“
13
BaSIC SafETy INSTRUCTIONS
1 Basic Safety Instructions
This instrcutions for use contains the information necessary for the intended use of the described product (control unit, operating material, software etc.).
The safety instructions can be supplemented by local, country or application-specific safety instructions. This list is not exhaustive. Non-observance will lead to the loss of any liability claims.
ATTENTION
Hazards and risks through ignorance.
► Read the instruction manual !
► Observe the safety and warning instructions !
► If anything is unclear, please contact KEB !
1.1 Target group
This manual is written for qualified personnel from construction, project planning, ser vice and commissioning. Qualified personnel for the purpose of this instruction manual must have the following qualifications:
Knowledge and understanding of the safety instructions.
• Knowledge of automation technology.
• Knowledge of functional safety.
• Skills for the installation and assembly of electrical equipment.
• Detection of hazards and risks of the electrical drive technology.
• Understanding of the function in the used machine.
• Knowledge of the operation of the operating system Windows.
• Knowledge of the DIN IEC 60364-5-54 .
• Knowledge of national safety regulations (e.g. DGUV regulation 3 ).
1.2 Transport, storage and proper use
The transport is carried out by qualified persons in accordance with the environmental conditions specified in this manual. The devices shall be protected against excessive strains.
ESD
Electronic devices contain electrostatic sensitive components.
► Avoid contact.
► Wear ESD-protective clothing.
Do not store the devices
• in the environment of aggressive and/or conductive liquids or gases.
• with direct sunlight.
• outside the specified environmental conditions.
14
BaSIC SafETy INSTRUCTIONS
1.3 Installation
DaNGER Do not operate in an explosive environment!
► The device is not intended for the use in potentially explosive environment.
EX
To prevent damages to the device:
• Make sure that no components are bent and/or isolation distances are changed.
• The device must not be put into operation in case of mechanical defects. There is no compliance with applicable safety standards any more.
• Do not allow moisture or mist to penetrate the unit.
• Avoid dust permeating the device. Allow for sufficient heat dissipation if installed in a dust-proof housing.
• Note installation position and minimum distances to surrounding elements. Do not cover the ventilation openings.
• Assembly according to the specified degree of protection.
• Make sure that no small parts fall into the device during assembly and wiring (drilling chips, screws etc.). This also applies to mechanical components, which can lose small parts during operation.
• Check the reliable fit of the device connections in order to minimize contact resist ance and avoid sparking.
• The safety instructions are to be kept!
1.4 Electrical connection
DaNGER Voltage at the terminals and in the device !
Danger to life due to electric shock !
► Never work on the open device or never touch exposed parts.
► For any work on the unit switch off the supply voltage and secure it against switching on.
► Install suitable protective devices for personal protection.
► Never bridge upstream protective devices (also not for test purposes).
► Install all required covers and protective devices for operation.
For a trouble-free and safe operation, please pay attention to the following instructions:
• The electrical installation shall be carried out in accordance with the relevant requirements.
• Cable cross-sections and fuses must be dimensioned according to the design of the machine manufacturer. Specified minimum / maximum values may not be fallen below /exceeded.
15
BaSIC SafETy INSTRUCTIONS
• Within systems or machines the person installing electrical wiring must ensure that on existing or new wired safe ELV circuits the EN requirement for safe insulation is still met!
• When using components without isolated inputs/outputs, it is necessary that equipotential bonding exists between the components to be connected (e.g. by the equipotential line). Disregard can cause destruction of the components by equalizing currents.
1.5 Start-up and operation
When the device is installed in machines, startup (i. e. the start of the intended use) is prohibited until it is determined that the machine complies with the machine directive;
EN 60204-1 must be observed.
• During operation, all covers and doors shall be kept closed.
• Use only approved accessories for this device.
• Never touch terminals, busbars or cable ends.
1.6 Maintenance
The following maintenance work has to be carried out when required, but at least once per year by authorized and trained personnel.
► Check unit for loose screws and plugs and tighten if necessary.
► Clean devices from dirt and dust deposits. Pay attention especially to cooling fins and protective grid of the fans.
► Examine and clean extracted air filter and cooling air filter of the control cabinet.
1.7 Preventive Maintenance
DaNGER Unauthorized exchange, repair and modifications!
Unpredictable malfunctions!
► The function of electronic devices can be affected by the setting and parameterisation. Never replace without knowledge of the application.
► Modification or repair is permitted only by KEB Automation KG authorized personnel.
► Only use original manufacturer parts.
► Infringement will annul the liability for resulting consequences.
16
BaSIC SafETy INSTRUCTIONS
1.8 Disposal
Devices with safety function are limited to a service life of 20 years. Then the devices must be replaced and disposed by way that they do not come into circulation again.
Electronic devices of the KEB Automation KG are exclusively professional devices for further industrial processing (so-called B2B devices). Thus the marking does not occur with the symbol of the crossed-out wheeled bin, but by the word mark and the date of manufacture.
Unlike devices mainly used in private households, these devices may not be disposed at the collection centres of public sector disposal organisations. They must be disposed after the end of use in accordance with national applicable law to environmentally correct disposal of electrical and electronic equipment.
The packaging must be feed to paper and cardboard recycling.
17
SySTEM DESCRIPTION
2 System Description
C6 E22 BM is a wall book mounting PC designed for installation in industrial control cabinets.
C6 E22 BM is based on the Intel® Bay Trail™ SoC (System on chip) platform, with a quad core Celeron J1900 processor 2.0 GHz (2.42 GHz Burst Frequency), cooled by an internal passive sink placed inside the aluminium housing, that enables fanless operation up to 50°C.
C6 E22 BM provides one DVI-I (DVI-I + VGA) output, two Ethernet 10/100/1000 Mbps interfaces and two USB 2.0 ports on the top side, to simplify the cabling of the unit inside the control cabinet. On the front side, C6 E22 BM provides LED signaling to give a better view of operating signals and, behind the front cover, it provides an external access
CFast slot, a system battery slot and one USB 3.0 port.
The system provides SATA II mSATA SSD slot and RAM 2 GB with a single DDR3 SO-
DIMM module.
C6 E22 BM has a 24 V DC power supply unit with galvanic isolation. Micro UPS are described in a separate part.
C6 E22 BM, as an alternative to the DVI-I output, can integrate the KEB Remote Video
Link, providing remotation of DVI-I and USB 2.0 signals up to 100 m, with an RJ45 connector output (to be used in combination with a standard CAT5 SF-UTP cable). The IPC can also be equipped with add-on cards providing:
1 x Ethernet 10/100/1000 Mbps + 1 x RS232/422/485 (DB15 male, optionally isolated).
2.1 Key features
• Fanless book mounting PC (0÷50°C operating temperature)
- Compact dimensions
- Cabling from top
- Front access to signalling, interfaces and removable devices
• Intel® SoC Bay Trail Celeron J1900 quad core processor –2,00 GHz (2,42 GHz burst frequency)
• System RAM memory 2 GB
• ‘on top’ interfaces
- 2 x Ethernet 10/100/1000 Mbps
- 2 x USB 2.0
- 1 x DVI-I or 1 x Remote Video link (DVI-I and USB 2.0 up to 100 m)
- add-on (optional, only one):
• 1 x Ethernet 10/100/1000 Mbps + 1 x RS232/422/485 isolated (DB15)
• ‘on front’ interfaces
- Signalling leds and control buttons (run/stop, reset)
- 1 x CFast slot
- 1 x USB 3.0
• Mass storage mSATA SSD
• 24V DC power supply with galvanic isolation + Micro UPS
18
SySTEM DESCRIPTION
2.1.1 Isolated Power Supply
Isolated Power supply with galvanic isolation to prevent:
• Common mode noise at low/medium frequencies on the power supply line
• Ground loop noise
• Extra-voltage caused by lightning
• Power supply with grounded positive terminal (e.g. Japan)
Figure 1: Isolated Power Supply
2.2 Package
Package consists of:
C6 E22 BM n.1 Power supply plug (pre-installed on the system) n.1 Power supply cover
Figure 2: Package
19
SySTEM DESCRIPTION
2.3 front
Compact solid and robust full aluminium.
2.4 Rear
Figure 3: Front detail
The back of the system is made of a full aluminium plate.
1 1
20
2
1 Fixing holes
2 Rear fixing plate
Figure 4: Rear detail
1 1
SySTEM DESCRIPTION
2.4.1 Connectors
To access the connectors, it is necessary to open the frontal flap.
4
5
3
1
2
1 Front door
2 USB 3.0 connector
3 Battery slot
4 CFAST slot sata2
5 Opening handle
Figure 5: Connector detail
21
SySTEM DESCRIPTION
2.4.2 Top Connectors
1
1 Battery pack connector
2 Power DC input connector
3 DVI-I connector
4 LAN1 connector
5 LAN2 connector
6 USB2 connector
7 USB1 connector
Figure 6: Top connectors detail
1
2
3
4
5
6
7
22
SySTEM DESCRIPTION
2.4.3 RVL - Top Connectors / LED
1
1 Battery pack connector
2 Power DC input connector
3 RVL LINK LED
4 RVL OUT
4 LAN1 connector
5 LAN2 connector
6 USB2 connector
7 USB1 connector
Figure 7: Top connectors detail (RVL)
2
5
6
7
3
4
8
23
SySTEM DESCRIPTION
2.4.4 KEB Remote Video Link
C6 E22 BM-RVL integrates all the circuitry that allows the DVI-D and USB 2.0 signals to be reliably transmitted to a monitor up to 100 m away using a Cat 5e SF/UTP or Cat 6A
SFTP (Shield Foil Twisted pair) cable.
The remotation system is composed by C6 E22 BM-RVL and a KEB industrial monitor
C6 Monitor or C6 AMM that integrates the RVL receiver section.
Cat 5e SF/UTP
Cat 6A S/FTP up tp 100 mt
C6 Monitor with integrated remotation
Figure 8: Remote Video Link detail
REMOTATION
CABLE
Cat 5e SF/UTP
Cat 6A S/FTP up tp 100 mt
C6 AMM with integrated remotation
Figure 9: Remote Video Link detail
REMOTATION
CABLE
24
SySTEM DESCRIPTION
2.4.5 LED Signaling
1
1 LED signaling area
Figure 10: LED signaling detail
1
5
6
7
2
3
4
1 Power on LED
2 UPS LED
3 HDD activity LED
4 Over temperature / Battery fault LED
5 Watchdog / Reset factory default LED
6 PLC status LED
7 Bus status LED
Figure 11: Buttons area detail
25
SySTEM DESCRIPTION
2.4.6 Buttons area
1 Buttons area
Figure 12: Buttons area detail
1 Power on rest
2 System reset
3 Watchdog reset
4 Factory default reset
5 PLC Run/Stop/Reset
Figure 13: Buttons area detail
1
2
3
4
5
1
26
SySTEM DESCRIPTION
2.4.7 Power Supply / Earth Screw
2
1
1 Earth screw
2 Power supply area
Figure 14: Power Supply area detail
1 Earth screw
Figure 15: Power Supply area detail
1 UPS connector
2 Power supply socket
Figure 16: Power Supply area detail
1
27
SySTEM DESCRIPTION
2.4.8 Battery CR2032 3V
1
1 Battery
Figure 17: Battery slot detail
DaNGER Risk of explosion!
If the battery is replaced with an incorrect type. Dispose of used batteries according to the instructions.
28
SySTEM DESCRIPTION
2.4.9 Cfast
1
1 CFast
Figure 18: CFast slot detail
WaRNING Only use KEB approved CFast cards for industrial application.
All the CFast cards intended for other uses (digital cameras, consumer products) do not have the endurance, the performance and the security features (as data reliability in case of a sudden power-off) required for an industrial application.
WaRNING Removing the system memory card while the project is running. If you remove memory card while a project is running, the project may stop.
WaRNING Potential data loss
Do not remove the memory card while data is being accessed.
Data on the memory card is lost if you attempt to remove it while the system is accessing its data.
29
SySTEM DESCRIPTION
2.4.10 Micro UPS
UPS (uninterruptable Power Supply) devices are normally used to provide the continuity in the power supply circuitry to electronic devices where the electronics itself or the user’s application hosted by the devices is critical from the possibility of a sudden loose of power. KEB μUPS is designed to be used in combination with CONTROL Soft PLC.
The Micro UPS module is installed on the internal power supply unit.
Energy storage
Charging time
Typical operating time
Maintenance
Installation
Local memory directly managed by the power supply
System’s actions taken when in UN-DER_VOLTAGE
Handling of retentive data in
KEB CONTROL runtime implementation
User’s application compatibility
Software utility
Table 1: Micro UPS data
4 super-capacitors 28F 2.7V connected in series.
15s
Greater than 500ms
None
Built-in electronics and super-capacitors
Non volatile 512KB MRAM for Soft PLC retain feature; real availa-ble memory
64KB for RETAIN segment + 128KB for PERSISTENT segment
LCD is switched OFF
USB power supply is switched OFF
When receiving the UNDER_VOLTAGE signal the CPU starts a 20ms timer.
When the timer is elapsed the system checks again the UNDER_VOLTAGE.
If the signal is still active the system checks for the MICRO_UPS_VCAP_OK.
If this signal is high the super-capacitors are ready and the peripherals are switched off (see previous point).
The memory data block (128KB) is copied the MRAM memory.
In case the super-capacitors are not ready, no data is saved to avoid possible data corruption. The data saving process can be es-timated never exceeding
250ms at maximum.
After the data copy has been completed if the UNDER_VOLTAGE signal is still active the system is turned off; if the UNDER_VOLTAGE signal is OFF the system is restarted automatically.
In case of a shutdown command the data is saved and the system turned off.
Note: Sleep mode is not supported.
YES, applications can subscribe μUPS “power-down event” form μUPS APIs.
Note: no shutdown command is sent to the OS, hence no files nor databases can be automatically closed without proper handling of the event.
Note: If KEB CONTROL has to manage retain variables the user’s “eventapplication” must work on a priority level greater than 10.
Note: please contact KEB support for further details about APIs availability and use.
Micro UPS diagnostic utility (available on request).
30
SySTEM DESCRIPTION
2.4.11 Labels position
On the lateral panel the following label is present:
2
1
3
1 Model
2 CE marking
3 Material number
4 COMBIVIS connect license
5 COMBIVIS HMI license
Figure 19: Labels postion
4
5
31
INSTaLLaTION aND CONNECTION
3 Installation and connection
3.1 Preparation for installation
3.1.1 Select the mounting location
• Avoid direct sunlight ex-posure.
• Make sure that C6 E22 BM is properly (ergonomically) accessible to the operator.
• Choose a suitable mounting height.
3.2 Checking the package contents
• Check the package content for visible signs of transport damage and for completeness.
• In the case of damaged parts, contact your KEB representative. Do not install parts that were damaged during the shipment.
3.3 Checking the operating conditions
• Read carefully the standards, approvals, EMC parameters and technical specifi cations for operation of the device. This information is available in the following sections: a) Certificates and approvals.
b) Electromagnetic compatibility .
• Check the mechanical and climatic ambient conditions for operation of the device.
• Follow the instructions for local use of the device.
• Adhere to the permissible rated voltage and the associated tolerance range.
3.4 Mounting position
C6 E22 BM device is suitable for wall book mounting installation.
3.5 Damage due to overheating
• All C6 E22 BM systems are designed for vertical position mounting.
• The ambient temperature must be between 0°C to +50°C measured 5 cm from all openings of the system where there is air entrance.
• Provide space around the system for air recirculation and heat exchange.
• Mounting angle: a) The system is intended to be mounted vertically.
b) For other installation modes contact KEB.
For installation in control cabinets and, in particular, in closed containers, make sure the recommended ambient temperature is maintained.
32
INSTaLLaTION aND CONNECTION
3.6 Dimensions
3.6.1 C6 E22 BM
18
4.2
71
35 18
Figure 20: C6 E22 BM
4.5
18 35 18
33
INSTaLLaTION aND CONNECTION
Figure 21: C6 E22 BM
34
Figure 22: C6 E22 BM
71
INSTaLLaTION aND CONNECTION
3.7 Mounting the device
The system can be installed on a panel/wall as follows:
Tool required action
Cross screwdriver 2.5 mm Screw / unscrew n.4 fixing screws
• Drill the required holes on the housing panel/wall according to the instructions detailed in paragraph 3.6 Dimensions.
• There are 4 fastening points. Fastening can be made using stainless steel screws
M4x20.
Figure 23: Wall mounting procedure
• Hang the system as shown in the picture.
• First lift and insert the top.
Figure 24: Wall mounting procedure
35
INSTaLLaTION aND CONNECTION
• Align the bottom.
Figure 25: Wall mounting procedure
• Release the top to match the slots with the screws.
Figure 26: Wall mounting procedure
• Tighten the four screws.
36
Figure 27: Wall mounting procedure
INSTaLLaTION aND CONNECTION
3.8 Grounding and bonding
Whenever two pieces of equipment connected to each other are far apart, it is possible that their ground connections could be at a different potential level. The data cable screens connecting the equipment’s chassis on one end and the C6 E22 BM chassis on the other end can therefore be subject to a high current circulation capable of destroying the interface. To overcome this hazard such current must be steered away from the interface. To achieve this goal the following methods can be used:
Figure 28: Power supply diagramm
1. Use an equipotential bonding cable (16mm 2 ) to connect the equipment ground to the C6 E22 BM ground.
2. Connect the data cable screens to the equipotential bonding rail on both sides before connecting the cable to the interfaces.
Insert the earthing eyelet terminal between the washers in the following sequence:
1 2 3 4 5
1 Nut
2 Spring washer
3 Plain washer
4 Eyelet terminal
5 Toothed washer
Figure 29: Power supply diagramm
37
INSTaLLaTION aND CONNECTION
Figure 30: Grounding detail
• Tighten the four screws.
3.8.1 Power supply insolation
The C6 E22 BM power supply is galvanically isolated which means its output is electrically separated from its input. This feature has many benefits:
• Increases the noise immunity of the system.
• Avoids input short circuits in systems with the power supply grounded.
• Breaks ground loops which may cause interferences in the video signals.
3.8.2 Wiring diagram
The wiring diagram shows a simplified pictorial representation of the electrical circuit.
It shows the components of the circuit as simplified shapes, and the power and signal connections between the devices.
38
INSTaLLaTION aND CONNECTION
Figure 31: Power supply connection detail
3.8.3 Power connection assembly
The system is equipped with a connector cup to be installed on the two poles power connector. To properly assemble the connector please follow these instructions:
Figure 32: Power connector assembly
• Insert the cable tie in the cup as shown in the picture.
Figure 33: Power connector assembly
• Slide the cable tie as shown in the picture.
Figure 34: Power connector assembly
39
INSTaLLaTION aND CONNECTION
• Place the two poles plug connector in the cup as shown in the picture.
Figure 35: Power connector assembly
• Tighten the cable tie.
Figure 36: Cup installation
• Cut the excess part.
Figure 37: Cup installtion
• Insert the white label and close the cup as shown in the picture.
40
Figure 38: Cup installation
INSTaLLaTION aND CONNECTION
• Example of a correctly installed cup.
Figure 39: Power connector assembly
3.8.4 Power on
The system has to be connected to a 24 V (18-32V) power supply which satisfies the requirements of safe extra low voltage (SELV) in accordance with IEC/EN/DIN EN/
UL60950-1.
• Remove the two poles plug connector from the system (the system is shipped with the power plug connected).
• Always check that the voltage drop along the supply wiring is not excessive and the input voltage remains above the minimum required (18V) in the worst load condition.
• Connect the ground cables (PE) to the earthing points.
Figure 40: Screwdriver detail
41
INSTaLLaTION aND CONNECTION
• Connect the positive and the negative poles (also refer to the label on the back of the system) to their respective terminals of the two pole plug connector. Use wires with a cross-section of 1.5 mm 2 (AWG16).
Figure 41: Power on sequence
• The system begins bootstrap.
3.9 Shutdown
To shut down the system please follow the standard procedure of your operating system. After power down procedure is completed, the system will be put in a soft-off state, front side led will become yellow, and the user will be allowed to switch off power supply to the system. In this state the system will dissipate negligible power.
An ON/OFF switch is available on the system.
42
SySTEM STaRT-UP
4 System Start-up
4.1 additinal notes for Windows Embedded Standard 7
KEB has created a Windows Embedded Standard 7 images that support a set of “Embedded Features” (for example Enhanced Write Filter), not present in Windows 7.
4.2 EWf implementation in the Windows Embedded Standard 7 images
The KEB Windows Embedded Standard 7 images have a built-in support for Enhanced
Write Filter (EWF).
EWF protects a volume from write access.
Its two major components are the EWF Overlay and the EWF Volume:
• EWF Overlay: EWF protects the contents of a volume by redirecting all write operations to another storage location. This location is called an overlay. An EWF overlay can be in RAM, or on another disk partition. An overlay is conceptually similar to a transparency overlay on an overhead projector. Any change that is made to the overlay affects the picture as it is seen in the aggregate, but if the overlay is removed, the underlying picture remains unchanged.
• EWF Volume: In addition to the EWF overlay, an EWF volume is created on the media in unpartitioned disk space. This EWF volume stores configuration information about all of the EWF-protected volumes on the device, including the number and sizes of protected volumes and overlay levels. Only one EWF volume is created on your device, regardless of how many disks are in the system. If your media does not support multiple partitions, you can save the EWF configuration infor-mation in the system‘s registry (RAM Reg Mode, KEB’s choice)
EWF has been configured by KEB for protecting the C: volume, using RAM Reg Mode.
So, the overlay is in RAM and the EWF volume location is in system registry.
When EWF will be enabled, every write operation for C: will be redirected to an Overlay in RAM.
No data will be persistently stored into the C: volume.
In case of a reboot or of a system restart after a power failure, the overlay will be reset and all the data written in the previous session will be lost. The view of the C: volume will be the same, after every reboot.
Having a non-persistent C: will force the customer to manage at least another volume (a separate D: partition, another storage device, a network share..) that contains persistent data for the application.
This second volume will not be protected from power failures, but will not contain information that is vital for system booting.
On KEB Windows Embedded Standard 7 images, EWF is disabled by default at shipment and it must be enabled by the customer, in case it is needed.
43
KEB WRITE fILTER MaNaGER
5 KEB Write filter Manager
5.1 Introduction
KEB Write Filter Manager (KEB-WF_Mgr) bases on the Enhanced Write Filter (EWF) from Microsoft for Windows Embededd Standard 7 (WES7).
5.2 How EWf works
EWF protects a volume from write access. This is realized by an EWF Overlay: EWF protects the contents of a volume by redirecting all write operations to another storage location. This location is called an overlay. An EWF overlay can be in RAM, or on another disk partition. An overlay is conceptually similar to a transparency overlay on an overhead projector. Any change that is made to the overlay affects the picture as it is seen in the aggregate, but if the overlay is removed, the underlying picture remains unchanged.
When EWF is enabled for a volume, every write operation to that volume will be redirected to an overlay in RAM and no data will be persistently stored into the volume. In case of a reboot or of a system restart after a power failure the overlay will be reset and all the data written in the previous session will be lost. The view of the volume will be the same, after every reboot. Thus the content of the volume is protected by any damage which can be caused by power fails otherwise.
5.3 Protectable Volumes
Volume
C:\
Protectable Intention
Yes Holds the operating system (including the registry) and the installed programs. Should be protected to ensure that the system never becomes unbootable.
D:\DATA
E:\CFAST
No
Yes
For free data storage, future use
Holds the Control and HMI applications. Should be protected to ensure that the applications never become invalid.
Table 2: Protectable Volumes
44
KEB WRITE fILTER MaNaGER
5.4 KEB EWF configuration
On KEB devices RAM overlay is used and the EWF configuration is stored in the regis try of the WES7 operating system, which resides with the operating system on volume
C:\. This implies that changes to the EWF configuration are only possible if the EWF for volume C:\ is disabled or the changes to C:\ will be committed. Otherwise they will be discarded after a reboot.
The following table shows the dependencies between the volumes:
Legend x Possible
Not possible x 1) Possible, but EWF enabled again after reboot
Figure 42: EWF configuration
These dependencies are handled by the KEB_WF_Mgr internally. Thus it is not necessary to understand this table completely or to use it as a reference when using the EWF, but keep in mind that there are dependencies because some internal operations of the KEB_WF_Mgr has to be confirmed by the user.
45
KEB WRITE fILTER MaNaGER
5.5 Delivery state of EWf on KEB devices
On KEB Windows Embedded Standard 7 image, EWF is disabled by default at shipment because some settings have to be made on the device respective in the registry by the user (e.g. IP address setting). Every time WES7 starts with EWF disabled for volume C:\ the user is reminded to enable the EWF by the following message box:
Figure 43: Delivery state
After all settings to the registry are done you can directly active the EWF for volume C:\ by clicking “Yes”. The device will reboot immediately and the EWF is enabled for volume C:\.
If you click “No” the message box is closed but will be appear again after the next reboot.
Please note that the volume E:\ which holds the application data is not protectable by this way.
5.6 Using KEB_Wf_Mgr
To disable EWF or to enable it for other volumes KEB_WF_Mgr should be used (also command line tool “ewfmgr” from Microsoft exist, but usage is not recommended by
KEB).
Start the KEB_WF_Mgr by double-click the icon on the desktop:
Figure 44: Icon on the desktop
The desktop link will start the program which resides in the path „C:\Program Files\KEB\
IPCTools“ then.
46
KEB WRITE fILTER MaNaGER
The program needs “elevated rights”, thus please confirm the question from the User
Account Control with “Yes”:
Figure 45: Elevated rights
The program’s GUI appears with volume C:\ preselected in the following view (assuming that EWF for volume C:\has been enabled by the message box already before).
Figure 46: Program’s GUI
Under the Volume you see the states of the selected volume as read-only fields:
• Overlay Type: On KEB devices always RAM-REG.
• EWf Status: Current status of the EWF.
• EWf Boot: Command which will be performed with the next reboot.
47
KEB WRITE fILTER MaNaGER
On the right side you see the EWF Control commands, each with a help button aside
(the commands which are not available in the current constellation are greyed and disabled):
• Enable: Enables a currently disabled overlay on the specified EWF-protected volu me. This function requires a reboot.
• Disable: Disables a currently enabled overlay on the specified EWF-protected volu me. This function requires a reboot.
This function is not available at all for the volume C:\ which holds the registry, because the change in the registry for the new state of EWF cannot become persistent. Use “CommitDisable live ” instead to disable EWF for C:\.
• Commit: Commits all current level data in the overlay to the EWF-protected volume.
This function requires a reboot. After the reboot the EWF status of the volume is still
“ENABLED”.
NOTICE
All changes on the volume since the last reboot become effective. Do not execute this if you are not sure about the extent of the changes.
• CommitDisable live: Immediately commits all current level data to the EWF-protected volume and then disabled EWF. This function does NOT require a reboot.
NOTICE
• All changes on the volume since the last reboot become effective. Do not execute this if you are not sure about the extent of the changes.
• The changes become effective immediately with reboot and thus without the possibility to undo this command by “Clear Command”.
• Clear Command: Clears a pending command for the volume that would have occurred on the next restart.
5.7 Dependent Volumes
As mentioned other volumes than C:\ (typically and in the following E:\ which is the
CFast on KEB devices) are dependent from C:\ to change their configuration, because it is stored in registry which resides on C:\ and thus registry is also protected against any change if the EWF is enabled for C:\.
If EWF is disabled for C:\ all commands for the dependent volumes can be used independently.
Otherwise, if EWF for C:\ is enabled , the following rules are effective:
• Enable and Disable: If one of these commands is used the following message box asks if the Commit command for C:\ should also be set. It is recommended to confirm with “Yes” because otherwise the Enable or Disable has no effect. The message will not appear if the Boot Command for C:\ “Commit” already.
48
KEB WRITE fILTER MaNaGER
Figure 47: Commit
• Commit: This command is independent from volume C:\ because the status of E:\
(EWF disabled) is untouched. But Commit needs a reboot to become effective.
• Commit Disable live: The command commits and disables immediately. To keep the EWF for the volume disabled after reboot a “Commit” to volume C:\ is necessary.
The following message box asks if the Commit command for C:\ should also be set.
It is recommended to confirm with “Yes”. The message will not appear if the Boot
Command for C:\ “Commit” already.
Figure 48: Commit and Disable
• Clear Command: It can reset the Commit without any dependency but for Enable/
Disable it asks to clear the implicitly set of Commit for volume C:\ too:
Figure 49: Clear Command
Normally you should confirm with “Yes” because the Commit for volume C:\ was only set to take effect for the change of E:\.
49
KEB WRITE fILTER MaNaGER
5.8 Leave the KEB_Wf_Mgr
A Shutdown or Reboot of the device can be initiated directly from the KEB_WF_Mgr to take effect for pending boot commands by using the particular buttons.
The program can also be left by the Exit button. In this case the program checks for pending boot commands and shows if appropriate the following message box:
Figure 50: Neglect pending boot commands
It is recommended to choose “yes” to ensure that no subsequent changes of the system are committed accidentally, which could be happened if you quit the message box with “No” .
If you choose “Cancel” the exit of the program is discarded and you can continue to work in the KEB_WF_Mgr.
50
MaINTENaNCE aND SERVICE
6 Maintenance and service
6.1 Battery installtion / removal
Tool required action
Pull the battery holder.
Plastic screwdriver
• Turn off the system and disconnect the power supply.
• Using a screwdriver (not provided) carefully pull out the battery holder.
Figure 51: Battery installation / removal
Figure 52: Battery installation / removal
• Remove the battery and replace it with one of the same model (Lithium CR2032
3V Coin).
Figure 53: Battery installation / removal
• Re-insert the battery holder with the new battery. Check for correct polarity.
Figure 54: Battery installation / removal
51
MaINTENaNCE aND SERVICE
6.2 Cfast installation / removal
• Turn off the system and disconnect the power supply.
6.2.1 Removal
Figure 55: CFast installation / removal
• Insert the memory card into the slot as indicated in the figure. Pay attention to the beveled edge.
• Push the card all the way.
Figure 56: CFast installation / removal
• Push and release the memory card as indicated in the figure.
• Extract the memory card from the slot.
6.3 Maintaining and cleaning
C6 E22 BM is designed for maintenance-free operation except for the replacing of the battery backup when necessary. It is recommended to clean the touchscreen with a damp cleaning cloth and a display cleaning solution.
Clean the front panel of the system with a soft damp cloth only.
52
MaINTENaNCE aND SERVICE
6.3.1 Procedure
Proceed as follows:
• Switch off the C6 E22 BM device or lock the touch screen.
• Spray the cleaning solution onto a cleaning cloth.
• Do not spray directly onto the display.
• Clean the display from the screen edge inwards.
6.4 Technical support and repairs
KEB offers wide-ranging, complete after-sales technical support. The staff who deal with this handle questions on the entire range of products skillfully, quickly, and efficiently.
You can phone our staff in the service department, and they will give you complete, prompt advice on how to resolve your problems.
KEB Automation KG
Suedstrasse 38
32683 Barntrup, Germany telephone +49 5263 401-0 fax +49 5263 401-116 e-mail: [email protected]
6.5 Recycling and disposal
C6 E22 BM can be recycled due to the use of materials with low environmental impact.
Contact a certified disposal service company for environmentally sound recycling and disposal of your old devices.
53
TECHNICaL SPECIfICaTIONS
7
Technical specifications
7.1 Block Diagram
Figure 57: Block diagram
54
TECHNICaL SPECIfICaTIONS
7.2 Technical data
Case
Power supply
Motherboard
Watchdog
Processor
RAM memory 2 GB ▪ 1 module SODIMM DDR3-1600
Operating System certified by KEB Microsoft Windows Embedded Standard 7P 32 bit
Operating System not supported by
Intel platform
Microsoft Windows XP / 2000 / 98 / NT ▪ Microsoft Windows CE 5 / 6
▪ Microsoft Windows 8.1 Industry Pro 32/64bit ▪ Microsoft Win dows 7 Pro/Ultimate 32/64bit
Video controller
Wall book mount
24V DC Input voltage: 18÷32V DC Isolated
Type "All-In-One" MB 977
Time programmable
Intel® Celeron® J1900 ▪ 2,00 GHz (2,42 GHz Burst), 2MB L2 cache
▪ 4 cores, 4 threads ▪ Soldered on-board
Video RAM (shared)
System memory
Mass storage interfaces
Front signaling (LED)
Intel ® HD Graphics integrated into Intel ® Celeron™ microprocessor ▪
688MHz
Dynamic Video Memory Technology ▪ Memory quantity is automati cally selected by operating system (max 1720 MB)
DDR3-1066 type ▪ 1 SODIMM module ▪ min 1GB ▪ max 8GB
1 x SATA 2, 3Gb/s or 1 x mSATA 2, 3Gb/s
Front buttons (with open door)
On Top I/F C6 E22 BM
On Top I/F C6 E22 BM-RVL
On Front I/F (with front door)
Environmental specifications
Power ON ▪ Micro UPS ▪ Over temperature / Battery fault ▪ Watchdog
/ Reset factory default ▪ PLC status ▪ BUS status
Power ON ▪ System Reset ▪ Watchdog Reset ▪ Factory Default Reset
2 x Ethernet 10/100/1000 Mbps (RJ45), Intel® I210 ▪ 2 x USB 2.0
(Type A) ▪ 1 x DVI-I Single Link (max risolution: DVI-D/VGA 1920x1080
FullHD)
2 x Ethernet 10/100/1000 Mbps (RJ45), Intel® I210 ▪ 2 x USB 2.0
(Type A) ▪ 1 x RJ45 (RVL OUT) remotation (TX) of DVI-D video sig nals and USB 2.0 up to 100 m
1 x slot CFast (bootable) ▪ 1 x CR2032 battery slot ▪ 1 x USB 3.0
Operating temperature: 0°C÷+50°C ▪ Storage temperature: -10° ÷
+60°C ▪ Humidity: 80% (non-condensing)
Table 3: Technical data
55
TECHNICaL SPECIfICaTIONS
Options
SSD mSATA
CFAST
Communication ports
External Monitor
Output
C6 E22 BM C6 E22 BM
RVL
●
●
●
●
●
●
●
●
SSD mSATA, SATA 2, 3Gb/s (Solid State Disk), MLC
CFast SATA2
1 x RS232/422/485 (DB15M) isolated ▪ 1 x Ethernet
10/100/1000Mpbs, Intel® I210
DVI-I (Single Link) video interface for additional external monitor ▪ Max resolution 1920x1080 FullHD ▪ VGA ad apter included
Remote Video Link integrated ▪ remotation up to 100m of DVI-D video signals and USB 2.0 ▪ without cables > note 1
Table 4: Options
Note 1 C6 E22 BM-RVL has to be used with a C6 Monitor or C6 AMM that integrates the RVL module
(Remote Video Link).
56
TECHNICaL SPECIfICaTIONS
7.2.1 Power supply technical data
The power supply board is provided with a FAST FUSE 4A SMD.
The fuse can be replaced only in factory.
Power supply
Type
Isolation voltage
Input voltage
Input protection
Isolated DC-DC
500 VAC
18÷32V DC
Reverse polarity circuitry
Overvoltage
4A soldered fuse
45W @ 24V (17W Typ) Power consumption
Inrush current impulse
Ipk : < 13A t: 2.0 ms
Table 5: Power supply technical data
57
TECHNICaL SPECIfICaTIONS
7.2.2 System power consumption
In order to calculate the system power consumption it is necessary to add one item for every field of the following tables.
field Item
Consumption
(W)
2.6
Motherboard
Processor
RAM
External monitor output
SSD mSATA
CFAST
MB977
Intel® Celeron® J1900 ▪ 2,00 GHz (2,42
GHz Burst), 2MB L2 cache ▪ 4 cores, 4 threads ▪ Soldered on-board
2 GB ▪ 1 module SODIMM DDR3-1600
DVI-I (Single Link) video interface for additional external monitor ▪ Max reso lution 1920x1080 FullHD ▪ VGA adapter included
Remote Video Link integrated ▪ remo tation up to 100m of DVI-I video signals and USB 2.0 ▪ without cables > note 1
SSD mSATA, SATA 2
CFast SATA 2
Communication ports
1 x RS232/422/485 (DB15M) isolated ▪
1 x Ethernet 10/100/1000Mpbs, Intel®
I210
Table 6: System power consumption
13.1
3.3
0.0
4.1
2.0
1.3
2.6
Note 1 C6 E22 BM-RVL has to be used with a C6 Monitor or C6 AMM that integrates the RVL module (Remote Video Link).
7.3 Battery technical data
Figure 58: Battery CR2032 detail
Model
Chemical System
Nominal Voltage
Rated Capacity
CR2032 MfR renata
Li / MnO2
3 V
225 mAh
Temperature Range
Self Discharge at 23°C
Table 7: Battery technical data
-30°C - +70°C
< 1% / year
58
TECHNICaL SPECIfICaTIONS
Figure 59: Battery performance
Figure 60: Battery dimensions
7.4 Technical support and repairs
KEB offers wide-ranging, complete after-sales technical support. The staff who deal with this handle questions on the entire range of products skilfully, quickly, and efficiently.
You can phone our staff in the service department, and they will give you complete, prompt advice on how to resolve your problems.
telephone: fax: e-mail:
+49 5263 401-0
+49 5263 401-116
59
CERTIfICaTION
8
Certification
8.1 Mark of conformity
The original EC-Declaration of Conformity and the associated documentation can be made available to the competent authorities. Please contact the Product Management, as necessary.
Document No. / month.year: ce_ca_remv-C6H-a_en / 01.2018
Manufacturer: KEB Automation KG
Südstraße 38
32683 BARNTRUP
Germany
Product type
Number:
Text:
Control type
Control size
Voltage category yy C6H xx – xxxx yy = 00 for Stand Alone PC or yy = 10 to FF for TouchPanel PC x = any letter or number
24 Vdc
The above given product is in accordance with the following directives of the European Union
EMC : 2014 / 30 / EU
Directive on the approximation of the laws of the Member States relating to electromagnetic compatibility.
Number:
Text:
Hazardous Substances: 2011 / 65 / EEC
Directive on the approximation of the laws of the Member States relating on the restriction of the use of certain hazardous substances in electrical and electronic equipment.
Responsible: KEB Automation KG
Südstraße 38
32683 BARNTRUP
Place, date
Issued by:
Barntrup, 28. December 2017 i. A. W. Hovestadt / Conformance Officer W. Wiele / Technical Manager
This declaration certifies the conformity with the named directives, but does not contain any assurance of quality.
The safety instructions, described in the instruction manual are to be followed.
KEB Automation KG, Südstr. 38, D-32683 Barntrup www.keb.de
E-Mail: [email protected]
Tel.: +49 5263 401-0 Fax: -116 Seite: 1 von 2
60
CERTIfICaTION
61
CERTIfICaTION
8.2 UL certifications
Acceptance according to UL is marked at KEB inverters with the adjacent logo on the type plate.
62
austria | KEB Automation GmbH
Ritzstraße 8 4614 Marchtrenk Austria
Tel: +43 7243 53586-0 Fax: +43 7243 53586-21
E-Mail: [email protected] Internet: www.keb.at
Belgium | KEB Automation KG
Herenveld 2 9500 Geraardsbergen Belgium
Tel: +32 544 37860 Fax: +32 544 37898
E-Mail: [email protected] Internet: www.keb.de
Brazil | KEB South America - Regional Manager
Rua Dr. Omar Pacheco Souza Riberio, 70
CEP 13569-430 Portal do Sol, São Carlos Brazil
Tel: +55 16 31161294 E-Mail: [email protected]
france | Société Française KEB SASU
Z.I. de la Croix St. Nicolas 14, rue Gustave Eiffel
94510 La Queue en Brie France
Tel: +33 149620101 Fax: +33 145767495
E-Mail: [email protected] Internet: www.keb.fr
Germany | Headquarters
KEB Automation KG
Südstraße 38 32683 Barntrup Germany
Telefon +49 5263 401-0 Telefax +49 5263 401-116
Internet: www.keb.de E-Mail: [email protected]
Germany | Geared Motors
KEB Antriebstechnik GmbH
Wildbacher Straße 5 08289 Schneeberg Germany
Telefon +49 3772 67-0 Telefax +49 3772 67-281
Internet: www.keb-drive.de E-Mail: [email protected]
Italia | KEB Italia S.r.l. Unipersonale
Via Newton, 2 20019 Settimo Milanese (Milano) Italia
Tel: +39 02 3353531 Fax: +39 02 33500790
E-Mail: [email protected] Internet: www.keb.it
Japan | KEB Japan Ltd.
15 - 16, 2 - Chome, Takanawa Minato-ku
Tokyo 108 - 0074 Japan
Tel: +81 33 445-8515 Fax: +81 33 445-8215
E-Mail: [email protected] Internet: www.keb.jp
P.R. China | KEB Power Transmission Technology (Shanghai) Co. Ltd.
No. 435 QianPu Road Chedun Town Songjiang District
201611 Shanghai P.R. China
Tel: +86 21 37746688 Fax: +86 21 37746600
E-Mail: [email protected] Internet: www.keb.cn
Republic of Korea | KEB Automation KG
Room 1709, 415 Missy 2000 725 Su Seo Dong
Gangnam Gu 135- 757 Seoul Republic of Korea
Tel: +82 2 6253 6771 Fax: +82 2 6253 6770 E-Mail: [email protected]
Russian federation | KEB RUS Ltd.
Lesnaya str, house 30 Dzerzhinsky MO
140091 Moscow region Russian Federation
Tel: +7 495 6320217 Fax: +7 495 6320217
E-Mail: [email protected] Internet: www.keb.ru
Spain | KEB Automation KG c / Mitjer, Nave 8 - Pol. Ind. LA MASIA
08798 Sant Cugat Sesgarrigues (Barcelona) Spain
Tel: +34 93 8970268 Fax: +34 93 8992035 E-Mail: [email protected]
United Kingdom | KEB (UK) Ltd.
5 Morris Close Park Farm Indusrial Estate
Wellingborough, Northants, NN8 6 XF United Kingdom
Tel: +44 1933 402220 Fax: +44 1933 400724
E-Mail: [email protected] Internet: www.keb.co.uk
United States | KEB America, Inc
5100 Valley Industrial Blvd. South
Shakopee, MN 55379 United States
Tel: +1 952 2241400 Fax: +1 952 2241499
E-Mail: [email protected] Internet: www.kebamerica.com
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