Beckhoff EK1122, EK1122-0080, EK1122-0008, EK1521, EK1521-0010 Documentation

Documentation

EK1122, EK15xx

EtherCAT Junctions

Version:
Date:

3.4

29.11.2018

1 Overview EtherCAT Junctions

Connection RJ45

EK1122 [}14] - 2 port EtherCAT junction
EK1122-0080 [}14] - 2 port EtherCAT junction, Fast-Hot-Connect

Connection M8

EK1122-0008 [}20] - 2 port EtherCAT junction

Connection Fiber optic

EK1521 [}22] - 1 port EtherCAT multimode fiber optic junction
EK1521-0010 [}24] - 1 port EtherCAT singlemode fiber optic junction

Connection Polymeric Optical Fiber

EK1561 [}26] - 1 port EtherCAT polymeric optical fiber junction

Overview EtherCAT Junctions

EK1122, EK15xx 3Version: 3.4

Table of contents

Table of contents

1 Overview EtherCAT Junctions .................................................................................................................3

2 Foreword ....................................................................................................................................................7

2.1 Notes on the documentation..............................................................................................................7

2.2 Safety instructions .............................................................................................................................8

2.3 Documentation issue status ..............................................................................................................9

2.4 Version identification of EtherCAT devices .......................................................................................9

3 Product overview.....................................................................................................................................14

3.1 Junction with RJ45 connection ........................................................................................................14

3.1.1 EK1122, EK1122-0080 .................................................................................................... 14

3.2 Junctions with M8 connection..........................................................................................................20

3.2.1 EK1122-0008................................................................................................................... 20

3.3 Junctions with fiber optic connection ...............................................................................................22

3.3.1 EK1521 ............................................................................................................................ 22

3.3.2 EK1521-0010................................................................................................................... 24

3.4 Junctions with POF connection .......................................................................................................26

3.4.1 EK1561 ............................................................................................................................ 26

4 Basics .......................................................................................................................................................28

4.1 Basic function principles of EtherCAT junctions ..............................................................................28

4.2 EtherCAT basics..............................................................................................................................35

4.3 EtherCAT cabling – wire-bound.......................................................................................................35

4.4 General notes for setting the watchdog...........................................................................................36

4.5 EtherCAT State Machine.................................................................................................................38

4.6 CoE - Interface: notes......................................................................................................................40

4.7 EKxxxx - Optional Distributed Clocks support .................................................................................40

5 Mounting and wiring................................................................................................................................43

5.1 Instructions for ESD protection........................................................................................................43

5.2 M8 Connector Cabling.....................................................................................................................43

5.3 Nut torque for connectors ................................................................................................................45

5.4 Mounting and demounting - terminals with front unlocking .............................................................46

5.5 Recommended mounting rails.........................................................................................................47

5.6 Positioning of passive Terminals .....................................................................................................48

5.7 ATEX - Special conditions (extended temperature range) ..............................................................49

5.8 ATEX Documentation ......................................................................................................................50

6 Commissioning/application notes .........................................................................................................51

6.1 Application notes RJ45 junction ......................................................................................................51

6.1.1 Settings and port assignment .......................................................................................... 51

6.2 Application notes M8 junction..........................................................................................................52

6.2.1 Settings and port assignment .......................................................................................... 52

6.3 Application notes fiber optic junction ...............................................................................................54

6.3.1 Settings and port assignment .......................................................................................... 54

6.3.2 Notes on suitable optical fiber cables .............................................................................. 55

6.3.3 Application with EK1521 and EL1521-0010 .................................................................... 56

6.4 Application notes POF junction .......................................................................................................58

EK1122, EK15xx4 Version: 3.4

Table of contents

6.4.1 Settings and port assignment .......................................................................................... 58

6.4.2 Notes regarding suitable POF cables .............................................................................. 60

6.4.3 Application with EK1561 .................................................................................................. 60

6.5 Notes regarding assembly of POF cables with the connector set ZS1090-0008 ............................62

7 Error handling and diagnostics..............................................................................................................66

7.1 Diagnostic LEDs EK1122, EK1122-0008 ........................................................................................66

7.2 Diagnostic LEDs EK1521, EK1521-0010 ........................................................................................67

7.3 Diagnostic LEDs EK1561 ................................................................................................................68

8 Appendix ..................................................................................................................................................69

8.1 Safety instructions and behavioral rules for Class 1 laser...............................................................69

8.2 UL notice .........................................................................................................................................69

8.3 Firmware compatibility.....................................................................................................................71

8.4 Firmware Update EL/ES/EM/EPxxxx ..............................................................................................71

8.4.1 Device description ESI file/XML....................................................................................... 72

8.4.2 Firmware explanation ...................................................................................................... 75

8.4.3 Updating controller firmware *.efw................................................................................... 76

8.4.4 FPGA firmware *.rbf......................................................................................................... 77

8.4.5 Simultaneous updating of several EtherCAT devices...................................................... 81

8.5 Support and Service ........................................................................................................................82

EK1122, EK15xx 5Version: 3.4

Table of contents

EK1122, EK15xx6 Version: 3.4

Foreword

2 Foreword

2.1 Notes on the documentation

Intended audience

This description is only intended for the use of trained specialists in control and automation engineering who
are familiar with the applicable national standards.
It is essential that the documentation and the following notes and explanations are followed when installing
and commissioning these components.
It is the duty of the technical personnel to use the documentation published at the respective time of each
installation and commissioning.

The responsible staff must ensure that the application or use of the products described satisfy all the
requirements for safety, including all the relevant laws, regulations, guidelines and standards.

Disclaimer

The documentation has been prepared with care. The products described are, however, constantly under
development.

We reserve the right to revise and change the documentation at any time and without prior announcement.

No claims for the modification of products that have already been supplied may be made on the basis of the
data, diagrams and descriptions in this documentation.

Trademarks

Beckhoff®, TwinCAT®, EtherCAT®, EtherCATP®, SafetyoverEtherCAT®, TwinSAFE®, XFC® and XTS® are
registered trademarks of and licensed by Beckhoff Automation GmbH.
Other designations used in this publication may be trademarks whose use by third parties for their own
purposes could violate the rights of the owners.

Patent Pending

The EtherCAT Technology is covered, including but not limited to the following patent applications and
patents: EP1590927, EP1789857, DE102004044764, DE102007017835 with corresponding applications or
registrations in various other countries.

The TwinCAT Technology is covered, including but not limited to the following patent applications and
patents: EP0851348, US6167425 with corresponding applications or registrations in various other countries.

EtherCAT® is registered trademark and patented technology, licensed by Beckhoff Automation GmbH,
Germany.

Copyright

© Beckhoff Automation GmbH & Co. KG, Germany.
The reproduction, distribution and utilization of this document as well as the communication of its contents to
others without express authorization are prohibited.
Offenders will be held liable for the payment of damages. All rights reserved in the event of the grant of a
patent, utility model or design.

EK1122, EK15xx 7Version: 3.4

Foreword

2.2 Safety instructions

Safety regulations

Please note the following safety instructions and explanations!
Product-specific safety instructions can be found on following pages or in the areas mounting, wiring,
commissioning etc.

Exclusion of liability

All the components are supplied in particular hardware and software configurations appropriate for the
application. Modifications to hardware or software configurations other than those described in the
documentation are not permitted, and nullify the liability of Beckhoff Automation GmbH & Co. KG.

Personnel qualification

This description is only intended for trained specialists in control, automation and drive engineering who are
familiar with the applicable national standards.

Description of instructions

In this documentation the following instructions are used.
These instructions must be read carefully and followed without fail!

DANGER

Serious risk of injury!

Failure to follow this safety instruction directly endangers the life and health of persons.

WARNING

Risk of injury!

Failure to follow this safety instruction endangers the life and health of persons.

CAUTION

Personal injuries!

Failure to follow this safety instruction can lead to injuries to persons.

NOTE

Damage to environment/equipment or data loss

Failure to follow this instruction can lead to environmental damage, equipment damage or data loss.

Tip or pointer

This symbol indicates information that contributes to better understanding.

EK1122, EK15xx8 Version: 3.4

Foreword

2.3 Documentation issue status

Version Modifications

3.4 • Update chapter "Technical data"

• Update structure

3.3 • Update chapter "Notes on the documentation"

• Update chapter "Technical data"

• Addenda chapter "Instructions for ESD protection"

• Chapter "ATEX - Special conditions" replaced with chapter "ATEX - Special
conditions (extended temperature range)"

3.2 • Corrections within chapter “Technical data”

3.1 • Corrections within chapter “Basic function principles of EtherCAT junctions”

3.0 • Addenda of EK1122-0008 (EtherCAT coupler, with M8 sockets);

• Migration

2.4 • Update chapter "Mounting and wiring"

• Update chapter "Technical data"

• Update structure

2.3 • Update Technical data

2.2 • Update Technical data

2.1 • Addenda chapter "Optional DC support"

2.0 • Addenda EK1122-0080

1.9 • Application notes POF junction added

1.8 • EK1561 added

1.7 • Update chapter "Diagnostic LEDs"

1.6 • Technical notes added, structure adjusted

1.5 • EK1521-0010 added

1.4 • Note PC plug added

1.3 • Port assignment added

1.2 • Addenda technical notes

1.1 • Technical description added

1.0 • First public issue

0.1 • Preliminary version

2.4 Version identification of EtherCAT devices

Designation

A Beckhoff EtherCAT device has a 14-digit designation, made up of

• family key

• type

• version

• revision

EK1122, EK15xx 9Version: 3.4

Foreword

Example Family Type Version Revision

EL3314-0000-0016 EL terminal

(12 mm, non­pluggable connection
level)

ES3602-0010-0017 ES terminal

(12 mm, pluggable
connection level)

CU2008-0000-0000 CU device 2008 (8-port fast ethernet switch) 0000 (basic type) 0000

Notes

• The elements mentioned above result in the technical designation. EL3314-0000-0016 is used in the
example below.

• EL3314-0000 is the order identifier, in the case of “-0000” usually abbreviated to EL3314. “-0016” is the
EtherCAT revision.

• The order identifier is made up of

- family key (EL, EP, CU, ES, KL, CX, etc.)

- type (3314)

- version (-0000)

• The revision -0016 shows the technical progress, such as the extension of features with regard to the
EtherCAT communication, and is managed by Beckhoff.
In principle, a device with a higher revision can replace a device with a lower revision, unless specified
otherwise, e.g. in the documentation.
Associated and synonymous with each revision there is usually a description (ESI, EtherCAT Slave
Information) in the form of an XML file, which is available for download from the Beckhoff web site.
From 2014/01 the revision is shown on the outside of the IP20 terminals, see Fig. “EL5021 EL terminal,
standard IP20 IO device with batch number and revision ID (since 2014/01)”.

• The type, version and revision are read as decimal numbers, even if they are technically saved in
hexadecimal.

3314 (4-channel thermocouple
terminal)

3602 (2-channel voltage
measurement)

0000 (basic type) 0016

0010 (high­precision version)

0017

Identification number

Beckhoff EtherCAT devices from the different lines have different kinds of identification numbers:

Production lot/batch number/serial number/date code/D number

The serial number for Beckhoff IO devices is usually the 8-digit number printed on the device or on a sticker.
The serial number indicates the configuration in delivery state and therefore refers to a whole production
batch, without distinguishing the individual modules of a batch.

Structure of the serial number: KKYYFFHH

KK - week of production (CW, calendar week)
YY - year of production
FF - firmware version
HH - hardware version

Example with
Ser. no.: 12063A02: 12 - production week 12 06 - production year 2006 3A - firmware version 3A 02 ­hardware version 02

Exceptions can occur in the IP67 area, where the following syntax can be used (see respective device
documentation):

Syntax: D ww yy x y z u

D - prefix designation
ww - calendar week
yy - year
x - firmware version of the bus PCB

EK1122, EK15xx10 Version: 3.4

Foreword

y - hardware version of the bus PCB
z - firmware version of the I/O PCB
u - hardware version of the I/O PCB

Example: D.22081501 calendar week 22 of the year 2008 firmware version of bus PCB: 1 hardware version
of bus PCB: 5 firmware version of I/O PCB: 0 (no firmware necessary for this PCB) hardware version of I/O
PCB: 1

Unique serial number/ID, ID number

In addition, in some series each individual module has its own unique serial number.

See also the further documentation in the area

• IP67: EtherCAT Box

• Safety: TwinSafe

• Terminals with factory calibration certificate and other measuring terminals

Examples of markings

Fig.1: EL5021 EL terminal, standard IP20 IO device with serial/ batch number and revision ID (since
2014/01)

Fig.2: EK1100 EtherCAT coupler, standard IP20 IO device with serial/ batch number

EK1122, EK15xx 11Version: 3.4

Foreword

Fig.3: CU2016 switch with serial/ batch number

Fig.4: EL3202-0020 with serial/ batch number 26131006 and unique ID-number 204418

Fig.5: EP1258-00001 IP67 EtherCAT Box with batch number/ date code 22090101 and unique serial
number 158102

Fig.6: EP1908-0002 IP67 EtherCAT Safety Box with batch number/ date code 071201FF and unique serial
number 00346070

EK1122, EK15xx12 Version: 3.4

Foreword

Fig.7: EL2904 IP20 safety terminal with batch number/ date code 50110302 and unique serial number
00331701

Fig.8: ELM3604-0002 terminal with unique ID number (QR code) 100001051 and serial/ batch number
44160201

EK1122, EK15xx 13Version: 3.4

Product overview

3 Product overview

3.1 Junction with RJ45 connection

3.1.1 EK1122, EK1122-0080

3.1.1.1 EK1122, EK1122-0080 - Introduction

Fig.9: EK1122-xxxx

EK1122-0000

The 2-port EtherCAT junction enables configuration of EtherCAT star topologies. A modular EtherCAT star
hub can be realized by using several EK1122 units in a station. Individual devices or complete EtherCAT
strands can be connected at the junction ports. The EtherCAT junctions are connected via RJ-45 sockets
with direct display of link and activity status. The Run LED indicates the status of the EK1122. Through
TwinCAT and other suitable EtherCAT masters the EK1122 also supports coupling and uncoupling of
EtherCAT strands during operation (hot connect).

EK1122-0080

Hot Connect is an EtherCAT feature for changing topologies through direct coupling or uncoupling during
operation. Coupled EtherCAT components are already quickly linked to the data communication after
connection as standard. Fast hot-connect technology further reduces the connection time significantly,
enabling even faster tool changes. Fast hot-connect ports may only be connected to each other, which is
why they are specially identified.

The EK1122-0080 EtherCAT junction with Fast Hot Connect is complemented by the EK1101-0080
EtherCAT coupler with Fast Hot Connect.

EK1122, EK15xx14 Version: 3.4

Product overview

Fast Hot Connect ports at the EK1122-0080

In contrast to the EK1122, the RJ45 connections of the FHC ports of the EK1122-0080 are marked
with a dotted border (see Fig. 2) Explanatory notes can be found in chapter EtherCAT Fast-Hot-Con-
nect [}16].

Fig.10: Fast-Hot-Connect ports at the EK1122-0080

Connection

Terminal point Description

Designation

X1/X2 RJ45 connection for EtherCAT networks (100BASE-

TX Ethernet signal representation)

Quick links

• EtherCAT basics

• Notes on Fast Hot Connect [}16]

• Application notes [}51]

• Diagnostic LEDs [}66]

EK1122, EK15xx 15Version: 3.4

Product overview

3.1.1.2 Technical data

Technical data EK1122 EK1122-0080

Task within the EtherCAT system Coupling of EtherCAT junctions Coupling of EtherCAT junctions,

Fast-Hot-Connect technology
[}16]

Transmission medium Ethernet 100BASE-TX (min. CAT5)

Cable length between two Bus Couplers max. 100m

Protocol / Baud rate EtherCAT/ 100Mbaud

Configuration no address and configuration settings required

Bus connection 2 x RJ45

Power supply from E-bus

Current consumption typ. 220mA

Dimensions (W x H x D) approx. 26mm x 100mm x 52mm (width aligned: 23mm)

Weight approx. 70g

Permissible ambient temperature range
during operation

Permissible ambient temperature range
during storage

Permissible relative humidity 95%, no condensation

Mounting [}43]

Vibration/shock resistance conforms to EN 60068-2-6 / EN 60068-2-27

EMC immunity/emission conforms to EN 61000-6-2 / EN 61000-6-4

Protection class IP20

Installation position variable

Approval CE

-25°C ... +60°C
(extended temperature range)

-40°C ... + 85°C

on 35mm mounting rail conforms to EN 60715

ATEX [}49]
cULus [}69]

3.1.1.3 Notes re. EtherCAT Fast Hot Connect technology

EtherCAT components that support Fast Hot Connect enable a faster fieldbus boot up following the
establishment of a connection. The boot up depends in detail on the number of devices, the topology and
activated Distributed Clocks. Whereas the normal establishment of a connection and communication takes
several seconds, less than 1 second is possible with FHC components.

Properties and system behavior

• Fast Hot Connect is supported from TwinCAT 2.11R3 Build 2221.

• Fast Hot Connect ports are specially marked.

EK1122, EK15xx16 Version: 3.4

Product overview

Fig.11: Identification of FHC port at EK1122-0080 and EK1101-0080

• Standard EtherCAT devices may not be connected to Fast Hot Connect ports. This is to be ensured by
measures on the application side, which is easy to implement by means of the topology change that is
usually carried out mechanically in such applications.

Fig.12: Recommended combination of Ethernet ports

• If corresponding ports are nevertheless connected, a power reset of the devices involved (branch
terminal and coupler/box) is required.

• With Fast Hot Connect devices the establishment of an Ethernet connection is accelerated compared
to the normal Fast Ethernet connection.
If in addition the use of Distributed Clocks functions is omitted in the entire topology, then the
resynchronization time of the components is also dispensed with. Group boot up of < 1 second is then
possible, from plugging in the Ethernet connection to the OP state.

• An incorrect port allocation is detected in the TwinCAT ADS Logger

EK1122, EK15xx 17Version: 3.4

Product overview

Configuration

The configuration of Fast Hot Connect groups in the TwinCAT System Manager takes place in exactly the
same way as Hot Connect groups, specifying the associated group ID.

Fig.13: Configuration of a Fast Hot Connect group

Corresponding Fast Hot Connect ports are marked red in the TwinCAT System Manager.

Fig.14: Marking in the TwinCAT System Manager

A configuration of FHC groups is possible only if at least 1 corresponding junction is present e.g.
EK1122-0080.

EK1122, EK15xx18 Version: 3.4

Product overview

Distributed Clocks

If no Distributed Clocks functions are used, this is visible in the master settings by the absence of "DC in
use":

Fig.15: DC master setting

This setting is automatically selected by the System Manager if there are no EtherCAT slaves in the
configuration in which Distributed Clocks is activated. "DC in use" should not be randomly deactivated by the
user, because otherwise these devices will no longer function.

EK1122, EK15xx 19Version: 3.4

Product overview

3.2 Junctions with M8 connection

3.2.1 EK1122-0008

3.2.1.1 EK1122-0008 - Introduction

Fig.16: EK1122-0008

EK1122-0008

The 2-port EtherCAT junction enables configuration of EtherCAT star topologies. A modular EtherCAT star
hub can be realized by using several EK1122 units in a station. Individual devices or complete EtherCAT
strands can be connected at the junction ports. Compared to EK1122 the EK1122-0008 has two M8 sockets
compatible to the two RJ45 sockets instead. The EtherCAT junctions are connected via M8 sockets. The link
and activity status is indicated by separate LEDs at the front. The Run LED indicates the status of the
EK1122. With TwinCAT and other appropriate EtherCAT Masters the EK1122-0008 supports coupling and
uncoupling of EtherCAT strands during operation (hot connect).

By using respective powerful Ethernet cables e.g. ZK1090-3131-1xxx distances of 100m are also possible
via M8.

Connection

Terminal point Description

Designation

X1 2 x M8 socket, shielded

X2

Quick links

• EtherCAT basics

• Diagnostic LEDs [}66]

EK1122, EK15xx20 Version: 3.4

Product overview

3.2.1.2 Technical data

Technical data EK1122-0008

Task within the EtherCAT system Coupling of EtherCAT junctions via M8

Transmission medium Ethernet/EtherCAT-cable (min. CAT 5), shielded

Cable length between two stations 100m (100BASE-TX)

Protocol / Baud rate EtherCAT

Configuration not required

Bus interface 2 x M8

Delay approx. 1µs

Power supply from E-bus

E-Bus current consumption typ. 220mA

E-bus power supply (5 V)
(at higher current consumption the EL9410 power feed

terminal can be used in addition)

Dimensions (W x H x D) approx. 26mm x 100mm x 52mm (width aligned:

Weight approx. 65g

Permissible ambient temperature range during
operation

Permissible ambient temperature range during storage -40°C ... + 85°C

Permissible relative humidity 95%, no condensation

Mounting [}43]

Vibration/shock resistance conforms to EN 60068-2-6 / EN 60068-2-27

EMC immunity/emission conforms to EN 61000-6-2 / EN 61000-6-4

Protection class IP20

Installation position variable

Approval CE

max. 2000mA (-25°C ... +55°C)

max. 1000mA (> +55°C)

23mm)

-25°C ... +60°C
(extended temperature range)

on 35mm mounting rail conforms to EN 60715

cULus [}69]
ATEX [}49]

EK1122, EK15xx 21Version: 3.4

Product overview

3.3 Junctions with fiber optic connection

3.3.1 EK1521

3.3.1.1 EK1521 - Introduction

Fig.17: EK1521

In conjunction with an EK1100 EtherCAT coupler, the 1-port EtherCAT multimode fiber optic junction
enables conversion from 100Base-TX to 100Base-FX physics (glass fiber). In this way distances of up to 2
km can be bridged in conjunction with the EK1501 EtherCAT Coupler for multimode optical fibers. Even
cable redundant systems with optical fiber can be realized using the 1-port EtherCAT multimode fiber optic
junction. The run LED shows the status of the EK1521.

Connection

Terminal point Description

Designation

X1 SC duplex connector

Quick links

• EtherCAT basics

• Application notes [}54]

• Diagnostic LEDs [}67]

EK1122, EK15xx22 Version: 3.4

Product overview

3.3.1.2 Technical data

Technical data EK1521

Task within the EtherCAT system Coupling of EtherCAT junctions

Transmission medium Multimode glass fiber (MM)

Transceiver wavelength 1300nm

Cable length between two Bus Couplers 2,000m (100BASE-FX) multimode glass fiber

Protocol / Baud rate All EtherCAT protocols / 100Mbaud

Configuration no address and configuration settings required

Bus connection 1 x SC Duplex connector

Power supply from E-bus

Current consumption typ. 350mA

Dimensions (W x H x D) approx. 26mm x 100mm x 52mm (width aligned:

23mm)

Weight approx. 70g

Permissible ambient temperature range during
operation

Permissible ambient temperature range during
storage

Permissible relative humidity 95%, no condensation

Mounting [}43]

Vibration/shock resistance conforms to EN 60068-2-6 / EN 60068-2-27

EMC immunity/emission conforms to EN 61000-6-2 / EN 61000-6-4

Protection class IP20

Installation position variable

Approval CE

-25°C ... +60°C
(extended temperature range)

-40°C ... + 85°C

on 35mm mounting rail conforms to EN 60715

ATEX [}49]
cULus [}69]

EK1122, EK15xx 23Version: 3.4

Product overview

3.3.2 EK1521-0010

3.3.2.1 EK1521-0010 - Introduction

Fig.18: EK1521-0010

In conjunction with an EK110x EtherCAT coupler, the 1-port EtherCAT single-mode fiber optic junction
enables conversion from 100Base-TX to 100Base-FX physics (glass fiber). In conjunction with the
EK1501-0010 EtherCAT coupler for single-mode optical glass fiber, distances of up to 20km can be bridged.
Even cable redundant systems with optical fiber can be realized using the 1-port EtherCAT single-mode fiber
optic junction. The run LED shows the status of the EK1521-0010.

Connection

Terminal point Description

Designation

X1 SC duplex connector

Quick links

• EtherCAT basics

• Application notes [}54]

• Diagnostic LEDs [}67]

EK1122, EK15xx24 Version: 3.4

Product overview

3.3.2.2 Technical data

Technical data EK1521-0010

Task within the EtherCAT system Coupling of EtherCAT junctions

Transmission medium Single mode glass fiber (SM)

Transceiver wavelength 1300nm

Cable length between two Bus Couplers 20,000m (100BASE-FX) single mode glass fiber

Protocol / Baud rate All EtherCAT protocols / 100Mbaud

Configuration no address and configuration settings required

Bus connection 1 x SC Duplex connector

Power supply from E-bus

Current consumption typ. 350mA

Dimensions (W x H x D) approx. 26mm x 100mm x 52mm (width aligned:

23mm)

Weight approx. 70 g

Permissible ambient temperature range during
operation

Permissible ambient temperature range during
storage

Permissible relative humidity 95%, no condensation

Mounting [}43]

Vibration/shock resistance conforms to EN 60068-2-6 / EN 60068-2-27

EMC immunity/emission conforms to EN 61000-6-2 / EN 61000-6-4

Protection class IP20

Installation position variable

Approval CE

-25°C ... +60°C
(extended temperature range)

-40°C ... + 85°C

on 35mm mounting rail conforms to EN 60715

ATEX [}49]
cULus [}69]

EK1122, EK15xx 25Version: 3.4

Product overview

3.4 Junctions with POF connection

3.4.1 EK1561

3.4.1.1 EK1561 - Introduction

Fig.19: EK1561

In connection with an EK1100 EtherCAT coupler, the EK1561 single-port POF junction makes it possible to
convert from 100BASE-TX physics to 100BASE-FX physics (POF - Polymeric Optical Fiber). Distances of up
to 50 m between two couplers can be bridged using the EK1561 and the EK1541 EtherCAT coupler for POF.
Unlike the glass fiber, the POF fiber is easily wireable in the field. The Run LED indicates the status of the
EK1561.

Connection

Terminal point Description

Designation

X1 Versatile Link connection for POF duplex connector

(ZS1090-0008)

Quick links

• EtherCAT basics

• Application notes [}58]

• Diagnostic LEDs [}68]

EK1122, EK15xx26 Version: 3.4