Flexi IO XTDO1, 8024583

Operating instructions

8024583/1BMF/1522946485364/1.23/2021-05-12/en

SICK AG | Subject to change without notice

Flexi IO XTDO1, 8024583

Flexi IO XTDO1 Expansion module - IO

22 mai 2021 — These operating instructions are intended for the following target groups: project devel‐ opers (planners, developers, designers), installers, electricians, ...

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Document Document

Flexi IO XTDO1
Expansion module - IO

OPERATING INSTRUCTIONS

Described product Flexi IO XTDO1
Manufacturer SICK AG Erwin-Sick-Str. 1 79183 Waldkirch Germany
Legal information This work is protected by copyright. Any rights derived from the copyright shall be reserved for SICK AG. Reproduction of this document or parts of this document is only permissible within the limits of the legal determination of Copyright Law. Any modi- fication, abridgment or translation of this document is prohibited without the express written permission of SICK AG. The trademarks stated in this document are the property of their respective owner. © SICK AG. All rights reserved.
Original document This document is an original document of SICK AG.

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Contents

CONTENTS
1 About this document........................................................................ 5
1.1 Purpose of this document........................................................................ 5 1.2 Scope......................................................................................................... 5 1.3 Target groups and structure of these operating instructions................ 5 1.4 Further information................................................................................... 6 1.5 Symbols and document conventions...................................................... 6
2 Safety information............................................................................ 8
2.1 General safety notes................................................................................ 8 2.2 Intended use............................................................................................. 8 2.3 Improper use............................................................................................. 8 2.4 Requirements for the qualification of personnel.................................... 8
3 Product description........................................................................... 10
3.1 Configuration of the safety controller...................................................... 10 3.2 Overview of the module............................................................................ 11 3.3 Configuration and function...................................................................... 11 3.4 Status indicators....................................................................................... 12
4 Project planning................................................................................ 13
4.1 Manufacturer of the machine.................................................................. 13 4.2 Operating entity of the machine.............................................................. 13 4.3 Design........................................................................................................ 13 4.4 Electrical integration................................................................................. 15
4.4.1 Internal circuitry....................................................................... 15 4.4.2 Safety outputs.......................................................................... 15 4.5 Testing plan............................................................................................... 16
5 Mounting............................................................................................. 17
5.1 Safety......................................................................................................... 17 5.2 Mounting procedure................................................................................. 17 5.3 Module exchange...................................................................................... 17
6 Electrical installation........................................................................ 19
6.1 Safety......................................................................................................... 19 6.2 Device connection.................................................................................... 19 6.3 Coding........................................................................................................ 21
6.3.1 Coding front connector and module....................................... 22
7 Commissioning.................................................................................. 23
7.1 Check during commissioning and modifications.................................... 23
8 Operation............................................................................................ 24
8.1 Regular thorough check........................................................................... 24

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CONTENTS

9 Maintenance...................................................................................... 25
9.1 Regular thorough check........................................................................... 25
10 Troubleshooting................................................................................. 26
10.1 Status indicators....................................................................................... 26 10.2 Possible faults........................................................................................... 27
11 Decommissioning............................................................................. 31
11.1 Disposal..................................................................................................... 31
12 Technical data.................................................................................... 32
12.1 Data sheet................................................................................................. 32 12.2 Dimensional drawings.............................................................................. 36
13 Ordering information........................................................................ 37
13.1 Scope of delivery....................................................................................... 37 13.2 Ordering information for main module.................................................... 37 13.3 Ordering information for expansion module........................................... 37 13.4 Ordering information for accessories...................................................... 37
14 Annex.................................................................................................. 39
14.1 Compliance with EU directives................................................................. 39
15 List of figures..................................................................................... 40
16 List of tables....................................................................................... 41

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ABOUT THIS DOCUMENT 1

1

About this document

1.1

Purpose of this document

These operating instructions contain the information required during the life cycle of the safety controller.
Operating instructions of the safety controller must be made available to all people who work with the device.

1.2

Scope

Product
This document applies to the following products:
· Product code: Flexi IO XTDO1 · "Operating instructions" type label entry: 8024570

Document identification
Document part number:
· This document: 8024583 · Available language versions of this document: 8024570
You can find the current version of all documents at www.sick.com.

Other documents relevant for the product

Table 1: Available documents

Document

Title

Operating instructions

Flexi Compact safety control- ler

Operating instructions

FLX3-XTDI1
Expansion module for safety controllers

Operating instructions

FLX3-XTDO1
Expansion module for safety controllers

Operating instructions

FLX0-GPNT1
Expansion module for safety controllers

Operating instructions

FLX0-GETC1
Expansion module for safety controllers

Operating instructions

Flexi Loop Safe Series Con- nection Hardware

Operating instructions

Flexi Loop in the Safety Designer Software

Competence brochure

Guide for Safe Machinery

Part number 8024573 8024571
8024570
8024567
8024566
8015834 8018174 8008007

1.3

Target groups and structure of these operating instructions

These operating instructions are intended for the following target groups: project devel- opers (planners, developers, designers), installers, electricians, safety experts (such as CE authorized representatives, compliance officers, people who test and approve the application), operators, and maintenance personnel.

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1 ABOUT THIS DOCUMENT

These operating instructions are organized by the life phases of the device: project planning, mounting, electrical installation, commissioning, operation and maintenance.
The table below shows the target groups and how ­ for many applications ­ these are typically divided up between the manufacturer and the entity operating the machine in which the device is to be integrated:

Area of responsibility Manufacturer
Operating entity

Target group

Specific chapters of these operating instruc- tions 1)

Project developers Project planning, page 13
(planners, developers, Technical data, page 32 designers)

Installers

Mounting, page 17

Electricians

Electrical installation, page 19

Safety experts

Project planning, page 13 Commissioning, page 23 Technical data, page 32

Operators

Troubleshooting, page 26

Maintenance staff

Troubleshooting, page 26 Ordering information, page 37

1) Chapters not listed here are intended for all target groups. All target groups must follow all of the safety and warning instructions in all chapters of the operating instructions!
In other applications, the operating organization is also the manufacturer of the equip- ment with the corresponding allocation of the target groups.

1.4

Further information

www.sick.com The following information is available via the Internet:
· This document in other languages · Data sheets and application examples · CAD files and dimensional drawings · Certificates (such as the EU declaration of conformity) · Guide for Safe Machinery. Six steps to a safe machine · Safety Designer (software for configuring safety solutions made by SICK AG)

1.5

Symbols and document conventions

The following symbols and conventions are used in this document:

Safety notes and other notes

DANGER Indicates a situation presenting imminent danger, which will lead to death or serious injuries if not prevented.

WARNING Indicates a situation presenting possible danger, which may lead to death or serious injuries if not prevented.

CAUTION Indicates a situation presenting possible danger, which may lead to moderate or minor injuries if not prevented.

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ABOUT THIS DOCUMENT 1
NOTICE Indicates a situation presenting possible danger, which may lead to property damage if not prevented.
NOTE Indicates useful tips and recommendations.
Instructions to action b The arrow denotes instructions to action. 1. The sequence of instructions for action is numbered. 2. Follow the order in which the numbered instructions are given.  The check mark denotes the result of an instruction.

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2 SAFETY INFORMATION

2

Safety information

2.1

General safety notes

This chapter contains general safety information about the safety controller.
Further safety information is provided in the respective chapters to cover the specific situations in which the product may be used.

DANGER If the device is not integrated in the way intended by the manufacturer, the protective function of the device can be impaired. The dangerous state may be ended too late.
b Plan the integration of the safety component in accordance with the machine requirements, see "Project planning", page 13.

2.2

Intended use

The Flexi Compact safety controller is a freely configurable control for safety applica- tions.
Sensors and switching elements (e.g. light curtains, laser scanners, switches, sensors, encoders, emergency stop pushbuttons) are connected to the safety controller and are linked logically. The corresponding actuators of the machines or systems can be switched off safely via the switching outputs of the safety controller.

Incorrect use, improper modification or manipulation of the module will invalidate any warranty from SICK; in addition, any responsibility and liability of SICK AG for damage and secondary damage caused by this is excluded.
The product is only suitable for use in industrial environments.

2.3

Improper use

Among others, the safety controller is not suitable for the following applications:
· Outdoors · Underwater · In explosion-hazardous areas · In residential areas

2.4

Requirements for the qualification of personnel

The protective device must be planned in, installed, connected, commissioned, and serviced by qualified safety personnel only.

Project planning
For project planning, a person is considered qualified when he/she has expertise and experience in the selection and use of protective devices on machines and is familiar with the relevant technical rules and work safety regulations.

Mechanical mounting, electrical installation, and commissioning
For the task, a person is considered qualified when he/she has the expertise and experience in the relevant field and is sufficiently familiar with the application of the protective device on the machine to be able to assess whether it is in an operationally safe state.

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SAFETY INFORMATION 2
Operation and maintenance For operation and maintenance, a person is considered competent when he/she has the expertise and experience in the relevant field and is sufficiently familiar with the application of the protective device on the machine and has been instructed by the machine operator in its operation.

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3 PRODUCT DESCRIPTION

3

Product description

3.1

Configuration of the safety controller

Configuration of the safety controller
A safety controller comprises the following components:
· A main module · Up to 12 optional expansion modules (excluding maximum 1 gateway)

CV I2
I1 I4 I3 I6 I5 I8 I7 I10 I9 I12 I11 X2 X1 X4 X3

PIW1R4 I13 I16 I15 I18 I17 I20 I19 X6 X5 X8 X7 Q2 Q1 Q4 Q3 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

FLEXIcompact

3
2 1
Figure 1: Example maximum configuration 1 Main module 2 Expansion module - gateway 3 IO expansion module
Complementary information
· The gateway and IO expansion modules can be arranged arbitrarily.

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3.2

Overview of the module

1

PRODUCT DESCRIPTION 3

PWIR2
I1 I4 I3 I6 I5 I8 I7 Q2 Q1 Q4 Q3 Q6 Q5 Q8 Q7 A2
A1

2 3

4

5

Figure 2: FLX3-XTDO1 IO expansion module
1 Release element of the module 2 Status indicators (LEDs) 3 Front connector unlocking 4 Front connector with terminals 5 Backplane bus

3.3

Configuration and function

Prerequisites
· The module can only be operated with a main module.

Configuration Table 2: Interfaces of the module Description Safety capable inputs Safety capable outputs

Quantity 8 8

Function The module is a safe digital input/output expansion module. The module offers the following functions:
· Monitoring of the connected safety devices · Switching of the connected safety devices · Special IO functions (e.g., fast shut off)
Complementary information
· Safety outputs have test pulses for detecting short-circuits in the wiring. · Voltage is supplied to the module via the backplane bus. Communication with the
main module of the safety controller also occurs via the backplane bus.
· Voltage is supplied directly to the safety outputs Q via A1 / A2 on the module.

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3 PRODUCT DESCRIPTION

3.4

Status indicators

Status indicators

PWIR2 I1 I4

PWR

I3 I6

I5 I8 I7 Q2

I1 I2

Q1 Q4

Q3 Q6 Q5 Q8

I3 I4

Q7 A2

A1

I5 I6

I7 I8

Q1 Q2

Q3 Q4

Q5 Q6

Q7 Q8

A1 A2

XTDO1 1085354

Figure 3: LEDs for indicating the status

The arrangement of the status indicators corresponds to the arrangement of the termi- nals.

Status indicator Table 3: Status indicator Labeling PWR I1 ... I8 Q1 ... Q8

Color Green/Red Green Green

Function Device status 1 Safety capable input 1 ... 8 Safety capable output 1 ... 8

1 Does not indicate whether the local auxiliary supply at A1 and A2 for the safety outputs is currently within the supply voltage range.

Further topics
· "Troubleshooting", page 26

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PROJECT PLANNING 4

4

Project planning

4.1

Manufacturer of the machine

DANGER Failure to comply with manufacturer's obligations
Hazard due to lack of effectiveness of the protective device
b Carry out a risk assessment before using the safety controller. b Do not manipulate, open or modify the components of the safety controller. b Make sure the safety controller is only repaired by the manufacturer or by some-
one authorized by the manufacturer. Improper repair can lead to a loss of the protective function.

4.2

Operating entity of the machine

DANGER Failure to observe operator obligations
Hazard due to lack of effectiveness of the protective device
b Changes to the machine and changes to the hardware or the logic programming of the safety controller necessitate a new risk assessment. The results of this risk assessment may require the entity operating the machine to meet the obligations of a manufacturer.
b Apart from the procedures described in this document, the components of the safety controller must not be opened or modified.
b Do not carry out any repair work on components. Improper repair of the safety controller can lead to a loss of the protective function.

4.3

Design

Mounting
· The safety controller must be protected against condensation and conductive
contamination, e.g. IP54 control cabinet.
· Mounting on a 35 mm × 7.5 mm mounting rail in accordance with IEC 60715. · The mounting rail is connected to the functional earth. · Mounting rail is mounted on a mounting plate. · Mounting plate is connected to functional earth. · Mounting in a vertical orientation (on a horizontal mounting rail). · Take suitable ESD protection measures.

Air circulation
To ensure sufficient air circulation and cooling, sufficient distance must be kept in the control cabinet above and below the module.
Provide an adequate clearance in front of the module (front side) for the connected cables.

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 30

4 PROJECT PLANNING
 25
Figure 4: Clearances for adequate air circulation Required distance:
· Above and below the module:  30 mm · In front of the module:  25 mm

 30

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4.4
4.4.1

Electrical integration
Internal circuitry

PROJECT PLANNING 4

4.4.2

Figure 5: Internal circuitry XTDO
Safety outputs Important information
WARNING Ineffectiveness of the protective device In the event of a fault, a single safety output (Q) can switch off after a delay or briefly switch to High. The response time increases depending on the configuration of the output. The dangerous state may not be stopped or not be stopped in a timely manner in the event of non-compliance.
b Take the increased response time into consideration in the risk analysis. b Take the possible reduced safety level into consideration in the risk analysis.
Fault detection by testing The following faults can be detected by testing an element:
· Short-circuits between any of the safety outputs.
You can detect a cross-circuit between the safety outputs of 12 sequential mod- ules.
· Short circuits to 24 V DC (to High) on safety outputs. · Actuator wiring short-circuits to 24 V.

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4 PROJECT PLANNING

Further topics
· "Device connection", page 19 · "Configuring elements"

4.5

Testing plan

Testing plan

The manufacturer of the machine and the operating entity must define all required thorough checks. The definition must be based on the application conditions and the risk assessment and must be documented in a traceable manner.

In addition, the device must be checked for correct functioning after each change to the configuration.

b When defining the thorough check, please note the following:

° ° °

Define the type and execution of the thorough check. Define the frequency of the thorough check. Notify the machine operators of the thorough check and instruct them accordingly.

The following thorough checks are often defined in connection with a protective device:
· Thorough check during commissioning and modifications · Regular thorough check

Thorough check during commissioning and modifications
The following points are helpful when planning the thorough check:
· Does the thorough check have to be completed by qualified safety personnel? · Can the thorough check be completed by personnel specially qualified and author-
ized to do so?
· Does the thorough check have to be documented in a traceable manner? · Can the thorough check be carried out according to a check list? · Do the machine operators know the function of the protective device? · Have the machine operators been trained to work on the machine? · Have the machine operators been notified about modifications to the machine?
b Define all guidelines for the thorough check.

Regular thorough check
The following points are helpful when planning the thorough check:
· Which thorough check must be carried out and how is it carried out? · How often does the thorough check have to be carried out? · Do the machine operators have to be notified of the thorough check and do they
need to be instructed accordingly?
b Define all guidelines for the thorough check.

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MOUNTING 5

5

Mounting

5.1

Safety

WARNING Electrical voltage There is a risk of injury from electrocution while connecting the devices.
b Disconnect the power for the entire plant/machine.

WARNING Unintended start of the plant/machine The plant/machine could inadvertently start while you are connecting the devices.
b Disconnect the power for the entire plant/machine.

NOTICE Enclosure rating IP20 only applies if the front connector is mounted.

5.2

Mounting procedure

For information on the mounting process, please see the operating instructions:
· "Flexi Compact" (SICK part number 8024573)

5.3

Module exchange

Approach
1. Disconnect module and the connected components from all voltage sources. 2. Take front connector with connected cables off the defective device: Press the
unlocking mechanism of the front connector downwards and pull out the front connector.

Figure 6: Dismantle front connector 3. Dismantle the defective module.
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5 MOUNTING

4. Mount new module. 5. Mount front connector with connected cables to the new module: First mount in
the module with bent hook and then engage in the housing.

Click

Figure 7: Mount the front connector  The front connector engages with an audible click.

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ELECTRICAL INSTALLATION 6

6

Electrical installation

6.1

Safety

WARNING Electrical voltage There is a risk of injury from electrocution while connecting the devices.
b Disconnect the power for the entire plant/machine.

WARNING Unintended start of the plant/machine The plant/machine could inadvertently start while you are connecting the devices.
b Disconnect the power for the entire plant/machine.

NOTICE Enclosure rating IP20 only applies if the front connector is mounted.

6.2

Device connection

Prerequisites
Electrical connection requirement:
· Electrical installation is performed in accordance with EN 60204-1. · The mounting rail is connected to the functional earth. · The voltage supply and connected signals meet the requirements for extra-low
voltages with safe separation (EN 60664) or NEC Class 2 (UL 1310).
· The external voltage supply must be capable of buffering brief power failures of
20 ms as specified in EN 60204-1. Suitable power supply units are available as accessories from SICK.
· Galvanically isolate the battery-operated 24 V power circuit from the circuit of the
safety controller using an enclosed DC-DC transducer in accordance with EN 1175 (e.g., when using on an automated guided vehicle).
· The GND of all connected devices must have the same potential as A2 of the main
module. Exceptions are actuators which are connected to an expansion module with its own voltage supply.
· The GND connections of the actuators to the safety outputs are in star formation
with the GND connection of the voltage supply.

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6 ELECTRICAL INSTALLATION

Pin assignment

1
I1
3
I3
5
I5
7
I7
9
Q1
11
Q3
13
Q5
15
Q7
17
A1

2
I2
4
I4
6
I6
8
I8
10
Q2
12
Q4
14
Q6
16
Q8
18
A2

Figure 8: Terminals on front connector

Table 4: Front connector pin assignment

Terminal

Pin assignment

1

I1

2

I2

3

I3

4

I4

5

I5

6

I6

7

I7

8

I8

9

Q1

10

Q2

11

Q3

12

Q4

13

Q5

14

Q6

15

Q7

16

Q8

17

A1

18

A2

Description Safety capable input
Safety output
24 V voltage supply of outputs Q1 to Q8 1) GND voltage supply of outputs Q1 to Q8 1)

1) The voltage can be supplied using a separate power supply unit without a reference potential to the main module.

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Complementary information
13 16
15

ELECTRICAL INSTALLATION 6


Figure 9: Eyelet on front connector 1 Eyelet for cable tie

Connected cables can be fastened to the front connector eyelet using a cable tie. This relieves the strain on the cables.

Further topics
· "Electrical integration", page 15

6.3

Coding

Overview
You can code the front connector and its modules. A uniquely coded front connector only fits a uniquely coded module. Coding prevents the front connectors from getting mixed up.

Coding options

· 1-of-7 coding: 7 front connectors can be uniquely coded.

Coding

1234567

Front connector 1

CCCCCC

Front connector 2

CCCCCC

...

...

Front connector 7

CCCCCC

· 2-of-7 coding: 21 front connectors can be uniquely coded.

Coding

1234567

Front connector 1

C C C C C

Front connector 2

CC C C C

...

...

Front connector 6

C C C C C

Front connector 7

CCCCC

...

...

· 3-of-7 coding: 35 front connectors can be uniquely coded.

Coding

1234567

Front connector 1

 C C C C

Front connector 2

C C C C

...

...

Front connector 5

C C C C 

Front connector 6

C C C C 

...

...

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6 ELECTRICAL INSTALLATION

6.3.1

Coding front connector and module Prerequisites
· Slotted screwdriver 3.5 mm × 0.6 mm · Diagonal cutter
Approach Each front connector contains seven coding ribs. The modules have seven coding elements each for each front connector. 1. Remove the coding ribs on the front connector with wire cutters.

2. Insert the slotted screwdriver vertically on the left next to the respective coding element.

3. Tip the coding element to the right with a slotted screwdriver.  The coding element engages.
Complementary information
You can not reattach a removed coding rib to the front connector.
If you turn a coding element on a module several times, it can break off. This means there is no active coding function in this case. However, you can continue to use the module.

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COMMISSIONING 7

7

Commissioning

7.1

Check during commissioning and modifications

The test is intended to ensure that the hazardous area is monitored by the protective device and any attempted access to the hazardous area is prevented.
b Carry out the checks according to the instructions from the manufacturer of the machine and from the operating entity.

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8 OPERATION

8

Operation

8.1

Regular thorough check

The test is intended to ensure that the hazardous area is monitored by the protective device and any attempted access to the hazardous area is prevented.
b Carry out the checks according to the instructions from the manufacturer of the machine and from the operating entity.

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MAINTENANCE 9

9

Maintenance

9.1

Regular thorough check

The test is intended to ensure that the hazardous area is monitored by the protective device and any attempted access to the hazardous area is prevented.
b Carry out the checks according to the instructions from the manufacturer of the machine and from the operating entity.

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10 TROUBLESHOOTING

10

Troubleshooting

10.1

Status indicators

Possible indications

Table 5: PWR and CV indications

Display PWR

Display CV Main module

o

o

Ö Red / green (1 Hz) Ö Green (1 Hz)
Ö Red / green (1 Hz)

o
see table 6, page 26 see table 6, page 26

O Green Ö Red (1 Hz)

see table 6, page 26
o

Ö Red (2 Hz) o

O Red

o

Description

Measures

No supply voltage
Self-test is in progress or the safety con- troller is being initializing. Application is ready to run.
Application is running. A recoverable external error is present at this module. Application is running.

b Check terminals A1 and A2. b Switch on the supply voltage to the
main module.
b Press the start button in the configura- tion software.
b Check the cabling of the flashing inputs and outputs.

Configuration is invalid.

b Check the module type and version. b Adjust the configuration using the con-
figuration software. b Run diagnostics using the configuration
software.

Critical error, presumably at this module. b Switch the supply voltage off and then

The application was stopped. All outputs of on again.

the safety controller are switched off.

b If the fault persists, replace the mod-

ule.

b Run diagnostics using the configuration

software.

Critical error, presumably at another mod- b Switch the supply voltage off and then

ule.

on again.

The application was stopped. All outputs of b If the fault persists, replace the mod-

the safety controller are switched off.

ule where the PWR Ö is showing red

(2 Hz).

b Run diagnostics using the configuration

software.

o LED off. Ö LED flashes. O LED illuminates.

Table 6: CV indications

Display CV

Description

o

see table 5, page 26

O Yellow

Configuration is verified.

Ö Yellow (1 Hz)

Configuration is not verified.

Ö Yellow (2 Hz)
Ö Yellow (lights up every 2 s)

See the Flexi Compact Safety Controller operat- ing instructions (8024573)
See the Flexi Compact Safety Controller operat- ing instructions (8024573)

Measures
b Verify the configuration using the configura- tion software.

o LED off. Ö LED flashes. O LED illuminates.

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TROUBLESHOOTING 10

Table 7: I indications (safety capable input)

Display I

Description

o

Input is inactive (LOW).

O Green

Input is active (HIGH).

Ö Green (1 Hz) in sync Input is inactive (LOW) and a recoverable exter- with the red PWR indi- nal error is present.
cation

Ö Green (1 Hz) in sync Input is active (HIGH) and a recoverable external

with the green PWR

error is present.

indication

Measures
b Check cabling of the flashing inputs. A shortcircuit to GND or cable break may be present.
b Check cabling of the flashing inputs. A shortcircuit to 24 V or a cross-circuit to another signal may be present.

o LED off. Ö LED flashes. O LED illuminates.

Table 8: Q indications (safety output)

Display Q

Description

Measures

o

Output is inactive (LOW).

O Green

Output is active (HIGH).

Ö Green (1 Hz) in sync Output is inactive (LOW) and a recoverable exter- with the red PWR indi- nal error is present.
cation

b Check cabling of the flashing outputs. A shortcircuit to GND or a cross-circuit between out- puts may be present.
b If all indicators of the configured outputs are flashing, check the supply voltage of the A1 and A2 terminals.

Ö Green (1 Hz) in sync Output is active (HIGH) and a recoverable exter-

with the green PWR

nal error is present.

indication

b Check cabling of the flashing outputs. A shortcircuit to 24 V or a cross-circuit between out- puts may be present.

o LED off. Ö LED flashes. O LED illuminates.

Complementary information
The input and output indicators display the status of the terminals with a refresh rate of approx. 50 ms.

Further topics
· "Status indicators", page 12

10.2

Possible faults
Important information

NOTE If a fault response can result in an undesired valid status, you should evaluate the associated status bits in the logic to initiate suitable measures.

Possible faults and their causes

Table 9: Faults in the logic

Fault

Responses

Voltage supply A1 / A2 · Safety controller switches to the

of the main module is

No supply voltage status

lower than the operat- · Voltage supply module status bit =

ing range

0

· Status indicators are off

Causes
· Fault in the voltage supply · Line break · Interruption due to a fuse

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10 TROUBLESHOOTING

Fault

Responses

Causes

Voltage supply of the main module is higher than the operating range

· Safety controller switches to the
critical error status
· Internal error module status bit = 0

· Fault in the voltage supply · Short-circuit to other volt-
age-carrying line

Table 10: Faults in the safety capable inputs (I)

Fault

Responses

Causes

Electro-mechanical switch/safety switch (EMSS), safety sen- sors with test input, Flexi Loop: safety capable input is Low instead of High

· Process data bit of the affected
input = 0

· Short-circuit to another line
e.g., GND
· Error in the sensor · Line break

Electro-mechanical switch/safety switch (EMSS), safety sen- sors with test input, Flexi Loop: test pulses from the asso- ciated test output X are not detected correctly (short-circuit detection)

· Process data bit of the affected
input = 0
· Status Ix process data status bit =
0
· Module status bit of the affected
Status Ix input = 0

· Short-circuit to other volt-
age-carrying line
· Error in the sensor (for exter-
nally tested sensors)

Dual-channel elec-

· Process data bit of the affected

tro-mechanical safety

input = 0

switch (EMSS), safety · Status Ix, ly dual-channel evaluation

sensors with moni-

process data status bit = 0

tored semiconductor · Module status bit of the affected
outputs (OSSD): equiv- Status Ix, ly dual-channel evaluation

alent/complementary

input = 0

safety capable inputs

exhibit different/the

same values.

· Short-circuit to another line
e.g., GND
· Error in the sensor · Line break · Discrepancy time · Sequence error

Safety pressure mats: safety capable input is Low instead of test pulse signal from the associated test output X

· Process data bit of the affected
input pair = 0
· Status Ix process data status bit =
0
· Module status bit of the affected
Status Ix input = 0

· Line break
Test output  sensor
· Line break
Sensor  safety capable input

Safety pressure mats: · Process data bit of the affected

Only one of the two

input = 0

safety inputs is High instead of test pulse

· Status Ix, ly dual-channel evaluation
process data status bit = 0

signal from the associ- · Module status bit of the affected

ated test output X

Status Ix, ly dual-channel evaluation

input = 0

· Short-circuit to other volt-
age-carrying line

Internal error detected · Safety controller switches to the · Internal device error

in input evaluation

critical error status

· Internal error module status bit = 0

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TROUBLESHOOTING 10

Table 11: Faults in the safety outputs (Q)

Fault

Responses

Causes

Auxiliary voltage sup- ply A1 / A2 for the safety outputs is lower than the operating range

· All safety outputs of the module
are switched off
· Output voltage supply process data
status bit = 0
· Auxiliary voltage supply module sta-
tus bit = 0

· Fault in the voltage supply · Line break · Interruption due to a fuse

Auxiliary voltage sup- ply A1 / A2 for the safety outputs is higher than the oper- ating range

· Internal error module status bit = 0 · Fault in the voltage supply

· Auxiliary voltage supply module sta- · Short-circuit to other volt-

tus bit = 0

age-carrying line

Output voltage level is Low instead of

· Associated output/associated
output pair is switched off

· Short-circuit or resistance
drop under load

High when the output · Depending on the load, the

· Short-circuit to another line

is "On", overload/over- affected output may pulsate tem- e.g., GND

current1) 2)

porarily until the final switch-off

· Status Qx short-circuit to Low process
data status bit = 0

· Status Qx short-circuit to Low module
status bit = 0

Output voltage level is High instead of Low when the output is "Off"3)
Test pulses are not detected correctly when the output is "On"3) 5)

· All safety outputs of the module
are switched off
· Output voltage supply process data
status bit = 04)
· Status Qx short-circuit to High proc-
ess data status bit = 0
· Status Qx short-circuit to High mod-
ule status bit = 0

· Short-circuit to other volt-
age-carrying line
· Short-circuit to other volt-
age-carrying line
· Capacitive load too high

Internal error detected · Safety controller switches to the · Internal device error

critical error status

· Capacitive load too high

· Internal error module status bit = 0

1) Depending on the voltage supply used, an overcurrent can also result in the voltage supply dropping out. 2) Reset of the error: set the process data bit of the safety output to 0. 3) Reset of the error: the process data bits for all safety outputs of the module are simultaneously 0 and the
output level is Low. 4) In the case of a High instead of a Low on a safety output, the supply to all safety outputs is switched off
internally. If the cause of a short-circuit is in the wiring to 24 V, then the affected signal remains High and all other signals switch to Low. Check if this is an undesired but valid signal value for the receiver, e.g., for the switching of the monitoring case of a SICK safety laser scanner by means of a complementary signal. 5) Depending on the size of the capacitive load, this may lead in certain cases to an incorrect interpretation as an internal error since the effect on the output voltage is only temporary.

Critical error status
Consequences of the critical error status:
· All applications are stopped. · All safety outputs are switched off. · All process data = 0 · Evaluation of the process data status bits in the logic is no longer possible. · Only limited diagnostics can be performed in the critical error status.
Alternatives to resetting the critical error status:
· Restart by switching the voltage supply off and on again · Software reset using the configuration software

Complementary information The status indicators and diagnostic messages may provide additional information.

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10 TROUBLESHOOTING
Further topics
· "Status indicators", page 26 · "Input elements"

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DECOMMISSIONING 11

11
11.1

Decommissioning
Disposal
Approach b Always dispose of unusable devices in accordance with national waste disposal
regulations.

Complementary information SICK will be glad to help you dispose of these devices on request.

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12 TECHNICAL DATA

12
12.1

Technical data

Data sheet

Safety-related parameters

Table 12: Safety-related characteristic data - safety capable inputs (I)

Safety capable inputs (I)

Single-channel

Dual channel

Without test pulses1)

With test pulses Without test pulses2)

Safety integrity SIL 2 level (IEC 61508)

SIL 3

SIL 3

SIL claim limit (IEC 62061)

SILCL 2

SILCL 3

SILCL 3

Cate-

Category 3

gory (ISO 13849-

1)

Category 4

Category 4

Performance

PL d

PL e

PL e

level (ISO

13849-1)

PFHD (h-1)
PFDavg
MTTFD ISO 13849-1 [years]

1 × 10-9 4 × 10-5 500

1 × 10-9 4 × 10-5 500

0.5 × 10-9 4 × 10-5 500

TM ISO 13849-1 20

20

20

[years]

With test pulses SIL 3 SILCL 3 Category 4
PL e
0.5 × 10-9 4 × 10-5 500
20

1) If you are using single-channel safety inputs (I) without test pulses for a safety-related application, then a protected or separate cabling is required for these safety inputs in order to achieve the safety-related characteristics. Reason: Short-circuits to the supply voltage or cross-circuits are not detected.
2) If you are using dual-channel safety capable inputs (I) without test pulses, the safety function must be requested at least once a year.

Table 13: Safety-related characteristic data - CPU logic processing

CPU logic processing

Safety integrity level (IEC 61508)

SIL 3

SIL claim limit (IEC 62061)

SILCL 3

Category (ISO 13849-1)

Category 4

Performance level (ISO 13849-1)

PL e

PFHD (h-1)
PFDavg
MTTFD ISO 13849-1 [years]

3 × 10-9 20 × 10-5 500

TM ISO 13849-1

20

[years]

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Table 14: Safety-related characteristic data - safety outputs (Q)

Safety outputs (Q)

Single-channel1)

Dual channel

Without test pulses2) 3)

With test pulses Without test pulses2) 3)

Safety integrity SIL 3 level (IEC 61508)

SIL 3

SIL 3

SIL claim limit (IEC 62061)

SILCL 3

SILCL 3

SILCL 3

Category (ISO 13849-1)

With test pulses on all safety outputs of a module

Category 4

Without test pulses on one or more safety outputs of a module

Category 3

Category 3

Category 4

Performance

PL e

PL e

PL e

level (ISO

13849-1)

PFHD (h-1)

5 × 10-9

0.5 × 10-9

5 × 10-9

PFDavg

30 × 10-5

4 × 10-5

30 × 10-5

MTTFD ISO

500

500

500

13849-1

[years]

TM ISO 13849-1 20

20

20

[years]

With test pulses SIL 3 SILCL 3
Category 4
Category 4
PL e 0.5 × 10-9 4 × 10-5 500 20

1) If you are using single-channel safety outputs (Q) for a safety-related application, then a protected or separate cabling is required for these safety outputs in order to achieve the safety-related characteristics. Reason: While short-circuits to the supply voltage or cross-circuits to other outputs can be detected, no other option to switch-off the device exist.
2) If you are using single-channel or dual-channel safety outputs (Q) without test pulses, then a protected or separate cabling is required for these safety outputs in order to achieve the safety-related characteristics. Reason: Short-circuits to the supply voltage or cross-circuits to other outputs are not detected in the switched-on state without test pulses. This also applies if an output is used for a non-safety related application. Reason: Even if an internal hardware error is detected, the switch-off capability of the other safety outputs may be impaired by reverse currents.
3) If you are using single-channel/dual-channel safety outputs (Q) without test pulses for a safety-related application, then one of the following measures is required in order to achieve the safety-related charac- teristics:
· Restart the safety controller once a year. · Manually switch off all safety outputs simultaneously for min. 2 s once a year. The supply voltage to
the outputs must be within the operating range during this manual test.

General data
Table 15: General data Climatic conditions Ambient operating temperature
At altitudes up to 2,000 m above sea level

­25 °C ... +55 °C

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12 TECHNICAL DATA

At altitudes up to 2,000 m above sea level ... 3,000 m above sea level At altitudes 3,000 m above sea level ... 4,000 m above sea level Storage temperature Air humidity Operating altitude Mechanical strength Vibration resistance Shock resistance, single shock Operating data Protection class Immunity to interference Emitted interference Connections Connection type Wire cross-section
Housing Enclosure rating Contamination rating Control device type Weight (± 5%)

­25 °C ... +50 °C
­25 °C ... +45 °C
­25 °C ... +70 °C 10% ... 95%, non-condensing Max. 4,000 m above sea level
5 Hz ... 200 Hz / 1 g (EN 60068-2-6) 15 g, 11 ms (EN 60068-2-27)
III (EN 61140) EN 61000-6-2 EN 61000-6-4
Spring terminals Single wire or fine-stranded wire: 0.14 mm² ... 1.5 mm² Fine-stranded wire with ferrule: a) with plastic ferrule max. 1.0 mm² b) without plastic ferrule max. 1.0 mm² AWG according to UL/CSA: 26 ... 14 For UL and CSA applications: Use copper conductors only min. rated for 85°C.
IP20 (EN 60529) 2 (IEC 61010-1) Open device (IEC 61010-2-201) 111 g

Voltage supply (A1 / A2)

Table 16: Voltage supply

Supply voltage UB Tolerance of supply voltage

+24 V DC ­30% / +25% (16.8 V ... 30 V)

Type of supply voltage

PELV or SELV
The supply current must be limited externally to max. 4 A ­ either by the voltage supply unit used, or by means of a fuse.

Max. power loss

4.9 W

Current consumption at nominal volt- 100 mA age
(without outputs)

Short-circuit protection 1)

Max. 4 A/Min. 30 V Safety fuse with triggering characteristic: slow-blow UL/CSA applications: UL-listed fuse according to UL 248-14 required

Overvoltage category

II (EN 61131-2)

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TECHNICAL DATA 12

Type of terminal connections

Spring terminals

1) Take into account the following when designing the voltage supply for the safety controller:
· Current consumption at nominal voltage (without outputs) of all station modules · Peak current consumption of all electric consumers connected via the safety controller outputs
The maximum permissible supply current depends, amongst other things, on the ambient temperature and must not exceed the permitted value of 8 A (Ta = 55 °C). Take into consideration the effect of lack of ventilation or the power loss in cables or other devices on the ambient temperature in the control cabinet.

Safety capable inputs (I)

Table 17: Technical data for the safety capable inputs (I)

Input voltage High

11 V DC ... 30 V DC

Input voltage Low

­3 V DC ... +5 V DC

Max. input voltage range 1)

­60 V DC ... +60 V DC

Input current high

2.1 mA ... 6 mA

Input current Low

 1.9 mA

Reverse current at input in case of loss of ground connection2)

 100 µA

Input capacitance

15 nF

Discrepancy time

4 ms ... 30 s, configurable

1) No damage to the input in this voltage range. 2) Do not connect any other safety capable inputs in parallel if the reverse current could lead to a High state
on the other input.

Safety outputs (Q)

Table 18: Technical data for the safety outputs (Q)

Type of output

PNP semiconductor, short-circuit protected

Output voltage High Max. output voltage Low 1)

UB ­3 V DC ... UB ­50 V DC ... ­30 V DC

Maximum reverse voltage at Low 2) 3 V DC

Leakage current Low

Normal operation

< 1 mA

Dual channel

< 2 mA

Fault 3)

< 1 mA

Output current

Max. 2 A

Sum current Isum TU  55 °C
Test pulse width4)

4 A < 650 µs or deactivated

Test pulse interval

 190 ms

Cross-circuit detection using test pulses5)

Cable resistance

Max. 2.5  (z. B. 100 m × 1.5 mm² = 1.2 )

Output current, dual-channel out- Max. 1 A per output puts

Load capacity

 0.5 µF

Load capacity when connected via diode

 1,000 µF

Inductive load at nominal voltage

@2 A

100 mH

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12 TECHNICAL DATA

12.2

@1 A @0.5 A

1.6 H 20 H

1) Max. ­30 V DC, to avoid damaging the output. Max. ­50 V DC, for fast switch-off of inductive loads.
2) Higher voltages are evaluated as a cross-circuit fault 3) In the event of a fault (GND line open circuit) and with a load resistance of at least 2.5 k, no more than
the specified leakage current flows on the safety output. For lower load resistances, the leakage current may be greater however the output voltage will be < 5 V in this case. A downstream device, for example a relay or a FPLC (fail-safe programmable logic controller) must detect this state as Low. 4) When activated, the outputs are tested regularly (brief switching to Low). When selecting the downstream control elements, ensure that the test pulses with the specified parameters do not result in a switch-off, or deactivate the test pulses on the outputs yourself. 5) Safety outputs (Q) with test pulses only detect cross-circuits reliably (i.e. already in the switched-on state and not just after a switch-off) if these values for the supply cable and the connected control element are not exceeded. Otherwise further measures will be required, for example protected or separate cabling. (See also EN 60204 Electrical equipment of machines, Part 1: General requirements.)

Dimensional drawings

16

89,6

14

85,5

64,4 120,7 124,7 128,3

78,4
Figure 10: Dimensional drawing

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ORDERING INFORMATION 13

13
13.1 13.2
13.3
13.4

Ordering information

Scope of delivery · Expansion module - IO · Front connector · Safety note · Operating instructions for download: www.sick.com

Ordering information for main module

Table 19: Ordering information for main module

Part

Type code

CPUc1 main module

FLX3-CPUC100

· 20 safety capable inputs · 8 test outputs · 4 safety outputs

CPUc2 main module

FLX3-CPUC200

· 20 safety capable inputs · 8 test outputs · 4 safety outputs · Ethernet interface (female RJ45 Ethernet
connector) for Modbus® TCP

Ordering information for expansion module

Ordering information for IO expansion module

Table 20: Ordering information for IO expansion module

Part

Type code

Expansion module XTDI1

FLX3-XTDI100

· 8 safety capable inputs · 8 test outputs

Expansion module XTDO1

FLX3-XTDO100

· 8 safety capable inputs · 8 safety outputs

Ordering information for gateway expansion module

Table 21: Ordering information for gateway expansion module

Part

Type code

GPNT1 PROFINET-IO gateway

FLX0-GPNT100

GETC1 EtherCAT® gateway

FLX0-GETC100

Ordering information for accessories

Table 22: Ordering information for accessories Part Front connector with opening for SmartPlug
· 16 spring terminals

Type code FLX0-ACC0300

Part number 1085349 1085351
Part number 1085353 1085354
Part number 1085356 1085357
Part number 6069666

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13 ORDERING INFORMATION
Part Front connector
· 18 spring terminals
SmartPlug Housing end cap

Type code FLX0-ACC0200
FLX3-SMPL100 FLX0-ACC0400

Part number 6066285
2106852 5340579

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ANNEX 14

14
14.1

Annex
Compliance with EU directives
EU declaration of conformity (extract) The undersigned, representing the manufacturer, herewith declares that the product is in conformity with the provisions of the following EU directive(s) (including all applicable amendments), and that the standards and/or technical specifications stated in the EU declaration of conformity have been used as a basis for this.
Complete EU declaration of conformity for download You can call up the EU declaration of conformity and the current operating instruc- tions for the protective device by entering the part number in the search field at www.sick.com (part number: see the type label entry in the "Ident. no." field).

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15 LIST OF FIGURES

15

List of figures

1. Example maximum configuration.............................................................................. 10 2. FLX3-XTDO1 IO expansion module............................................................................11 3. LEDs for indicating the status....................................................................................12 4. Clearances for adequate air circulation.................................................................... 14 5. Internal circuitry XTDO................................................................................................15 6. Dismantle front connector......................................................................................... 17 7. Mount the front connector......................................................................................... 18 8. Terminals on front connector.....................................................................................20 9. Eyelet on front connector........................................................................................... 21 10. Dimensional drawing.................................................................................................. 36

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LIST OF TABLES 16

16

List of tables

1. Available documents.....................................................................................................5 2. Interfaces of the module............................................................................................11 3. Status indicator...........................................................................................................12 4. Front connector pin assignment................................................................................20 5. PWR and CV indications............................................................................................. 26 6. CV indications............................................................................................................. 26 7. I indications (safety capable input)........................................................................... 27 8. Q indications (safety output)......................................................................................27 9. Faults in the logic........................................................................................................27 10. Faults in the safety capable inputs (I)....................................................................... 28 11. Faults in the safety outputs (Q)................................................................................. 29 12. Safety-related characteristic data - safety capable inputs (I).................................. 32 13. Safety-related characteristic data - CPU logic processing........................................32 14. Safety-related characteristic data - safety outputs (Q).............................................33 15. General data............................................................................................................... 33 16. Voltage supply............................................................................................................. 34 17. Technical data for the safety capable inputs (I)....................................................... 35 18. Technical data for the safety outputs (Q)..................................................................35 19. Ordering information for main module......................................................................37 20. Ordering information for IO expansion module.........................................................37 21. Ordering information for gateway expansion module...............................................37 22. Ordering information for accessories........................................................................ 37

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16 LIST OF TABLES

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LIST OF TABLES 16

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8024583/1BMF/2021-05-12/en

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Israel Phone +972 97110 11 E-Mail info@sick-sensors.com
Italy Phone +39 02 27 43 41 E-Mail info@sick.it
Japan Phone +81 3 5309 2112 E-Mail support@sick.jp
Malaysia Phone +603-8080 7425 E-Mail enquiry.my@sick.com
Mexico Phone +52 (472) 748 9451 E-Mail mexico@sick.com
Netherlands Phone +31 (0) 30 229 25 44 E-Mail info@sick.nl
New Zealand Phone +64 9 415 0459
0800 222 278 ­ tollfree E-Mail sales@sick.co.nz
Norway Phone +47 67 81 50 00 E-Mail sick@sick.no
Poland Phone +48 22 539 41 00 E-Mail info@sick.pl
Romania Phone +40 356-17 11 20 E-Mail office@sick.ro
Russia Phone +7 495 283 09 90 E-Mail info@sick.ru
Singapore Phone +65 6744 3732 E-Mail sales.gsg@sick.com

Detailed addresses and further locations at www.sick.com

Slovakia Phone +421 482 901 201 E-Mail mail@sick-sk.sk
Slovenia Phone +386 591 78849 E-Mail office@sick.si
South Africa Phone +27 10 060 0550 E-Mail info@sickautomation.co.za
South Korea Phone +82 2 786 6321/4 E-Mail infokorea@sick.com
Spain Phone +34 93 480 31 00 E-Mail info@sick.es
Sweden Phone +46 10 110 10 00 E-Mail info@sick.se
Switzerland Phone +41 41 619 29 39 E-Mail contact@sick.ch
Taiwan Phone +886-2-2375-6288 E-Mail sales@sick.com.tw
Thailand Phone +66 2 645 0009 E-Mail marcom.th@sick.com
Turkey Phone +90 (216) 528 50 00 E-Mail info@sick.com.tr
United Arab Emirates Phone +971 (0) 4 88 65 878 E-Mail contact@sick.ae
United Kingdom Phone +44 (0)17278 31121 E-Mail info@sick.co.uk
USA Phone +1 800.325.7425 E-Mail info@sick.com
Vietnam Phone +65 6744 3732 E-Mail sales.gsg@sick.com

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