6GK1901-1BB10-2AE0 - SIEMENS

Passive network components

___________________

___________

___________________

SIMATIC NET

Industrial Ethernet / PROFINET

Passive network components

System Manual

05/2016

C79000

-G8976-C271-01

Preface

Electrical networks

Optical networks

Power supply

Instructions for fitting

connectors, attachments and

devices

Installing network

components in cabinets

Siemens AG

Division Process Industries and Drives

Postfach 48 48

90026 NÜRNBERG

GERMANY

Document order number: C79000-G8976-C282-01

Ⓟ

07/2016 Subject to change

Legal information

Warning notice system

This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent

damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert

symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are

graded according to the degree of danger.

DANGER

indicates that death or severe personal injury will result if proper precautions are not taken.

WARNING

indicates that death or severe personal injury may result if proper precautions are not taken.

CAUTION

indicates that minor personal injury can result if proper precautions are not taken.

NOTICE

indicates that property damage can result if proper precautions are not taken.

If more than one degree of danger is present, the warning notice representing the highest degree of danger will

be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to

property damage.

Qualified Personnel

The product/system described in this documentation may be operated only by

personnel qualified

for the specific

task in accordance with the relevant documentation, in particular its warning notices and safety instructions.

Qualified personnel are those who, based on their training and experience, are capable of identifying risks and

avoiding potential hazards when working with these products/systems.

Proper use of Siemens products

Note the following:

WARNING

Siemens products may only be used for the applications described in the catalog and in the relevant technical

documentation. If products and components from other manufacturers are used, these must be recommended

or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and

maintenance are required to ensure that the products operate safely and without any problems. The permissible

ambient conditions must be complied with. The information in the relevant documentation must be observed.

Trademarks

All names identified by ® are registered trademarks of Siemens AG. The remaining trademarks in this publication

may be trademarks whose use by third parties for their own purposes could violate the rights of the owner.

Disclaimer of Liability

We have reviewed the contents of this publication to ensure consistency with the hardware and software

described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the

information in this publication is reviewed regularly and any necessary corrections are included in subsequent

editions.

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 3

Table of contents

1 Preface ................................................................................................................................................... 7

1.1 Note on the SIMATIC NET glossary ......................................................................................... 8

1.2 Contacts for special cables and special lengths ....................................................................... 8

2 Electrical networks .................................................................................................................................. 9

2.1 Overview - electrical cables ...................................................................................................... 9

2.2 General ................................................................................................................................... 11

2.3 The connector system M12/X coded according to IEC 61076-2-109 ..................................... 14

2.4 IE TP cord ............................................................................................................................... 15

2.4.1 Introduction to TP cord............................................................................................................ 15

2.4.2 IE TP cord 2x2 ........................................................................................................................ 16

2.4.3 IE TP cord 4x2 ........................................................................................................................ 17

2.5 IE FC TP cable ........................................................................................................................ 19

2.5.1 IE FC TP standard cable GP 2x2 ........................................................................................... 21

2.5.2 IE FC TP Robust Standard Cable GP 2 x 2............................................................................ 22

2.5.3 IE FC TP flexible cable GP 2x2 .............................................................................................. 23

2.5.4 IE FC TP Robust Flexible Cable GP 2 x 2 .............................................................................. 24

2.5.5 IE FC TP FRNC cable GP 2x2 ............................................................................................... 25

2.5.6 IE FC TP trailing cable 2x2 ..................................................................................................... 26

2.5.7 IE FC TP trailing cable GP 2x2 ............................................................................................... 27

2.5.8 IE FC festoon cable GP 2x2 ................................................................................................... 28

2.5.9 IE FC TP food cable 2x2 ......................................................................................................... 29

2.5.10 IE FC TP marine cable 2x2 GP .............................................................................................. 30

2.5.11 IE TP Train Cable 2x2............................................................................................................. 31

2.5.12 IE FC TP torsion cable 2x2 ..................................................................................................... 32

2.5.13 IE TP ground cable 2x2 .......................................................................................................... 33

2.5.14 IE FC TP Standard Cable GP 4x2 .......................................................................................... 34

2.5.15 IE FC TP flexible cable GP 4x2 ..............................................................................................

2.5.16 IE TP train cable 4x2............................................................................................................... 36

2.6 IE connecting cable M12 ........................................................................................................ 38

2.7 IE Robust Connecting Cable M12 .......................................................................................... 40

2.8 IE Hybrid Cable ....................................................................................................................... 41

2.9 Plugs ....................................................................................................................................... 43

2.9.1 IE FC RJ-45 plugs 2x2 ............................................................................................................ 43

2.9.2 IE FC RJ45 Plug 180 (4x2) ..................................................................................................... 46

2.9.3 IE M12 panel feedthrough 4x2 ................................................................................................ 47

2.9.4 IE M12 Panel Feedthrough PRO ............................................................................................ 49

2.9.5 IE FC M12 plug PRO 2x2 ....................................................................................................... 50

2.9.6 IE FC M12 Plug PRO 4x2 ....................................................................................................... 51

2.9.7 IE FC M12 Cable Connector PRO (PROFINET) .................................................................... 53

2.9.8 IE FC RJ-45 plug PRO (push-pull) ......................................................................................... 54

Table of contents

Passive network components

4 System Manual, 05/2016, C79000-G8976-C271-01

2.9.9 IE FC RJ-45 PLUG PRO ........................................................................................................ 56

2.9.10 IE RJ-45 COUPLER PRO ...................................................................................................... 57

2.9.11 IP 67 hybrid cable connector ................................................................................................. 58

2.10 Outlets .................................................................................................................................... 60

2.10.1 IE FC RJ-45 modular outlet ................................................................................................... 60

2.10.2 IE FC outlet RJ-45.................................................................................................................. 62

3 Optical networks ................................................................................................................................... 65

3.1 Optical transmission technology ............................................................................................ 65

3.2 Overview of optical cables ..................................................................................................... 66

3.3 Glass FO cables..................................................................................................................... 67

3.3.1 FOC links ............................................................................................................................... 67

3.3.2 FO Standard Cable GP 50/125 µm ........................................................................................ 69

3.3.3 MM FO robust cable GP (50/125) .......................................................................................... 71

3.3.4 SM FO robust cable GP (4E9/125) ........................................................................................ 73

3.3.5 FO FRNC Cable GP 50/125/OM2.......................................................................................... 74

3.3.6 FO FRNC Cable GP 50/125/OM4.......................................................................................... 76

3.3.7 INDOOR FO cable 62.5/125 μm ............................................................................................ 77

3.3.8 FO trailing cable 50/125 µm ................................................................................................... 79

3.3.9 FO Ground Cable 50/125 µm ................................................................................................. 81

3.3.10 Flexible FO trailing cable (62.5/125 μm) ................................................................................ 82

3.3.11 SIENOPYR Duplex FiberOptic Marine Cable 62.5/125 μm ................................................... 84

3.3.12 FC FO glass fiber-optic cable 62.5/200/230 µm .................................................................... 86

3.3.13 FC FO standard cable GP 62.5/200/230 µm ......................................................................... 88

3.3.14 FC FO trailing cable 62.5/200/230 µm ................................................................................... 89

3.3.15 SM FO CORD 9/125 .............................................................................................................. 91

3.3.16 MM FO CORD 50/125 ........................................................................................................... 92

3.4 Plastic fiber-optic cables ........................................................................................................ 94

3.4.1 Overview ................................................................................................................................ 94

3.4.2 POF Standard Cable GP 980/1000 ....................................................................................... 94

3.4.3 POF Trailing Cable 980/1000 ................................................................................................ 95

3.4.4 PCF standard cable GP 200/230 ........................................................................................... 97

3.4.5 PCF trailing cable 200/230 ..................................................................................................... 98

3.4.6 PCF trailing cable GP 200/230 .............................................................................................. 99

3.5 Plugs .................................................................................................................................... 101

3.5.1 ST/BFOC plug ...................................................................................................................... 101

3.5.2 Single mode FO LC plug ...................................................................................................... 102

3.5.3 Multimode FO LC plug ......................................................................................................... 103

3.5.4 FC FO LC Plug..................................................................................................................... 104

3.5.5 FC FO Termination Kit for the FC FO LC Plug .................................................................... 105

3.5.6 FO FC SC plug..................................................................................................................... 106

3.5.7 FO FC ST/BFOC plug .......................................................................................................... 108

3.5.8 SC RJ plug ........................................................................................................................... 109

3.5.9 IE SC RJ Plug Pro................................................................................................................ 110

4 Power supply ....................................................................................................................................... 113

4.1 Power cable ......................................................................................................................... 113

4.1.1 Energy cable 2 x 0.75 .......................................................................................................... 113

4.1.2 Energy cable 5 x 1.5 ............................................................................................................ 114

4.1.3 Power connecting cable M12-180/M12-180 ........................................................................ 116

Table of contents

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 5

4.1.4 Robust Power Connecting Cable .......................................................................................... 117

4.2 Cable connectors .................................................................................................................. 119

4.2.1 Power Plug Pro ..................................................................................................................... 119

4.2.2 7/8" plug-in connector ........................................................................................................... 120

4.2.3 Power M12 plug Pro ............................................................................................................. 121

4.3 Power supply ........................................................................................................................ 123

4.3.1 Power supply PS791-1PRO ................................................................................................. 123

4.3.2 Power M12 cable connector PRO ........................................................................................ 124

4.3.3 7/8" Power T-Trap PRO ........................................................................................................ 126

4.3.4 Signaling contact M12 cable connector PRO ....................................................................... 127

5 Instructions for fitting connectors, attachments and devices ................................................................. 129

5.1 Note on the installation instructions ...................................................................................... 129

5.2 Industrial Ethernet FastConnect Stripping Tool .................................................................... 130

5.3 Electrical networks ................................................................................................................ 133

5.3.1 Fitting IE FC cable 2 x 2 with an IE FC RJ-45 plug 180 2x2 ................................................ 133

5.3.2 Fitting IE FC cable 2 x 2 with an IE FC RJ-45 plug PRO ..................................................... 136

5.3.3 Fitting an IE FC cable 2 x 2 with an IE RJ-45 plug PRO ...................................................... 139

5.3.4 Fitting IE FC cable 2 x 2 with an IE FC RJ-45 plug 180 4x2 ................................................ 142

5.3.5 Fitting an IE FC cable 4 x 2 with an IE FC RJ-45 plug 180 4x2 ........................................... 145

5.3.6 Fitting the IE FC TP cable with an IE FC M12 plug PRO ..................................................... 148

5.3.7 Assembling an IE hybrid cable 2 x 2 + 4 x 0.34 with an IE IP 67 hybrid connector ............. 151

5.3.8 Fitting the IE FC TP standard cable 4 x 2 GP to an IE IP 67 hybrid connector .................... 156

5.3.9 Fitting IE FC outlet RJ-45 ..................................................................................................... 161

5.3.10 Fitting the IE FC RJ-45 modular outlet ................................................................................. 162

5.3.10.1 Connecting the RJ-45 Modular Outlet .................................................................................. 162

5.3.10.2 Assembling IE FC TP standard cable 4x2 GP and IE FC RJ-45 modular outlet .................. 164

5.3.10.3 Fitting IE hybrid cable 2x2 + 4x0.34 and IE FC RJ-45 modular outlet.................................. 167

5.3.11 Assembly of Industrial Twisted Pair connectors ................................................................... 169

5.3.11.1 Assembling Industrial Twisted Pair Connectors ................................................................... 169

5.3.11.2 Fitting a 9-pin D-sub plug ...................................................................................................... 171

5.3.11.3 Fitting a 15-pin D-sub plug .................................................................................................... 174

5.4 Optical networks ................................................................................................................... 177

5.4.1 Fitting an IE FC FO cable with an ST/ BFOC plug ............................................................... 177

5.4.2 Fitting an SC RJ plug to a plastic FO cable (POF) ............................................................... 181

5.4.3 Fitting an SC RJ plug to PCF FO cable ................................................................................

184

5.4.4 Mounting a SIMATIC NET FC FO LC plug on an FC FO standard cable or FC FO

trailing cable .......................................................................................................................... 188

5.5 Power supply ........................................................................................................................ 195

5.5.1 Fitting the energy cable 5 x 1.5 with a power plug PRO ....................................................... 195

5.5.2 Fitting a 7/8" energy connector to an energy cable .............................................................. 198

5.5.3 Connecting the 7/8" energy connector to a module.............................................................. 200

6 Installing network components in cabinets ........................................................................................... 201

6.1 SIMATIC NET components .................................................................................................. 201

6.2 IP degrees of protection ........................................................................................................ 203

6.3 Guidelines for setting up networked automation systems in buildings ................................. 205

6.3.1 General notes on networking bus cables.............................................................................. 205

Table of contents

Passive network components

6 System Manual, 05/2016, C79000-G8976-C271-01

6.3.2 Protection from electric shock .............................................................................................. 205

6.3.3 Mechanical protection of bus cables .................................................................................... 207

6.3.4 Electromagnetic compatibility of fiberoptic cables ............................................................... 209

6.3.5 Connecting fiber-optic cables ............................................................................................... 209

6.3.6 Electromagnetic compatibility of bus cables ........................................................................ 210

6.3.6.1 Equipotential bonding system .............................................................................................. 211

6.3.6.2 Requirements of the AC power distribution system ............................................................. 214

6.3.6.3 Shielding devices and cables ............................................................................................... 217

6.3.6.4 Special noise suppression measures .................................................................................. 220

6.3.7 Arrangement of devices and cables..................................................................................... 221

6.3.7.1 The influence of power distribution systems (EN 501742, 6.4.4.2) ..................................... 222

6.3.7.2 Cable categories and clearances ......................................................................................... 222

6.3.7.3 Cabling within closets .......................................................................................................... 224

6.3.7.4 Cabling within buildings ....................................................................................................... 224

6.3.7.5 Cabling outside buildings ..................................................................................................... 225

6.3.8 Laying bus cables ................................................................................................................ 225

6.3.8.1 Installation instructions for electrical and optical bus cables ............................................... 225

6.3.8.2 Additional instructions on installing fiberoptic cables ........................................................... 227

Index ................................................................................................................................................... 229

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 7

Preface

Purpose of the system manual

The system manual explains connecting up and commissioning the passive Industrial

Ethernet network components and how they work in principle.

Orientation in the documentation

Apart from the System Manual you are currently reading, the following documentation is also

available from SIMATIC NET on the topic of Network Manual:

● System manual "Industrial Ethernet"

This System manual provides you with an overview of the structure and configuration of

Industrial Ethernet networks with the aid of SIMATIC NET. On the one hand, the target

groups are decision makers and planners; with this document, they can gain an overview

of the technical principles, the SIMATIC NET product range and the most important

practical applications. On the other hand, it provides configuration engineers and

commissioning personnel with extensive information data to which they can refer when

setting up their network systems.

● Compact operating instructions

These contain wide-ranging descriptions of the components of the product, installation

and setting up of SIMATIC NET devices and the relevant dimension drawings.

● System manual "RCoax"

This system manual contains both an explanation of the fundamental technical aspects

as well as a description of the individual RCoax components and their functionality.

Installation/commissioning and connection of RCoax components and their operating

principle are explained. The possible applications of the various SIMATIC NET

components are described.

● System manual - "Passive Network Components IWLAN"

This system manual explains the entire IWLAN cabling that you require for your IWLAN

application. For a flexible combination and installation of the individual IWLAN

components both indoors and outdoors, a wide ranging selection of compatible coaxial

accessories are available. The system manual also covers connecting cables as well as a

variety of plug-in connectors, lightning protectors, a power splitter and an attenuator.

Operating Instructions and other documents

Despite every effort being made to provide a complete and thorough picture, this System

manual cannot replace the Operating Instructions and reference documents of the individual

devices and components. You will find the detailed documentation of the individual

components on the Manual Collection DVD.

Preface

1.1 Note on the SIMATIC NET glossary

Passive network components

8 System Manual, 05/2016, C79000-G8976-C271-01

1.1

Note on the SIMATIC NET glossary

SIMATIC NET glossary

Explanations of many of the specialist terms used in this documentation can be found in the

SIMATIC NET glossary.

You will find the SIMATIC NET glossary here:

● SIMATIC NET Manual Collection or product DVD

The DVD ships with certain SIMATIC NET products.

● On the Internet under the following address:

50305045 (http://support.automation.siemens.com/WW/view/en/50305045)

1.2

Contacts for special cables and special lengths

If you require special cables and special lengths of the cable types, please contact:

Jürgen Hertlein

SIEMENS PD PA CI PRM 4

E-mail: juergen.hertlein@siemens.com

Tel.: + 49 (911) 750 - 44 65

Telefax: + 49 (911) 750 - 13 44 65

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 9

Electrical networks

2.1

Overview - electrical cables

For the various topologies, requirements or areas of application the following electrical

Industrial Ethernet cables are available.

Cabling

Cable type

Features

Area of application

TP Cord

IE TP Cord 2x2

IE TP XP Cord 2x2

IE TP Cord 4x2

IE TP XP Cord 4x2

Patch cable preassem-

bled with RJ-45

For connecting nodes to network com-

ponents within a cabinet. Up to 10 m

cable length with IE TP Cord 2x2, up

to 50 m cable length with IE TP Cord

4x2.

Fast Connect

FC installation manuals

Insulation displacement

method

Sold by the meter

For a direct connection between node

and network component for structured

cabling fast and light contacting of the

cables on FC contacts.

IE FC TP 2x2

4-wire cable for Fast

Ethernet networks

IE FC TP standard cable GP Standard bus cable with rigid cores

and specially designed for fast assem-

bly, 4 rigid cores stranded to form a

star quad.

IE FC TP robust standard

cable GP

Rugged standard bus cable with rigid

cores for universal application.

IE FC TP flexible cable GP Flexible bus cable for special applica-

tions with occasional movement; four

wires (stranded) arranged as a star

quad.

IE FC TP robust flexible cable

Robust standard cable with flexible

cores for machine parts that occasion-

ally move.

IE FC TP FRNC cable GP Flexible, halogen-free cable for use in

buildings (FRNC= Flame Retardant

Non Corrosive); four cores (stranded)

arranged as a star quad. for occasion-

al movement.

IE FC TP trailing cable GP IE

FC TP trailing cable

Highly flexible bus cable for special

applications with constant movement

in a drag chain, for example for per-

manently moving machine parts; halo-

gen-free; four cores (stranded)

arranged as star quad.

IE FC festoon cable GP Flexible bus cable for special applica-

tions with constant movement in a

drag chain/festoon; e.g. a crane sys-

tem, 4 wires (stranded) arranged as a

star quad.

Electrical networks

2.1 Overview - electrical cables

Passive network components

10 System Manual, 05/2016, C79000-G8976-C271-01

Cabling

Cable type

Features

Area of application

IE FC TP food cable Flexible cable specially for use in the

food and beverages industry, 4 cores

(stranded) arranged as star quad.

IE FC TP marine cable GP Flexible bus cable for special applica-

tions on ships; 4 cores (stranded)

arranged as a star quad.

IE TP train cable Flexible cable for laying in rail vehicles

and buses.

IE FC TP torsion cable Highly flexible bus cable for special

applications with constant movement,

for example for use in robots; 4 cores

(stranded).

IE TP ground cable Standard cable with rigid cores for

laying in the earth.

IE FC TP 4x2

8-wire cable for Gi-

gabit Ethernet net-

works

IE FC TP standard cable

(22 AWG)

For setting up Industrial Ethernet net-

works up to 100 m in conjunction with

the IE FC modular outlet and the TP

cords.

IE FC TP standard cable GP

(24 AWG)

For direct connection up to 60 m with-

out patch technology with IE FC RJ-45

plug 4x2

IE FC TP flexible cable GP With flexible cores suitable for applica-

tions with occasional movement.

IE TP train cable (24/7 AWG)

For laying in rail vehicles and buses.

IE connecting cable IE connecting cable

M12-180/M12-180

Preassembled cable with

two 4-pin M12 plugs

Plug-in cable with two 4-pin M12 plugs

(D-coded) for connecting Industrial

Ethernet notes with degree of protec-

tion IP65/IP67

Power connecting cable

M12-180/M12-180

Plug-in cable with one 4-pin M12 plug

(A-coded) and one 4-pin M12 socket

(A-coded) for 24 V power supply

IE connecting cable

M12-180/IE FC RJ45 PLUG

Preassembled cable with

a 4-pin M12 plug and an

IE FC R-45 plug.

Plug-in cable with a 4-pin M12 plug (D-

coded) and an IE FC R-45 plug with

145° cable outlet. The plug-in cable is

used to connect Industrial Ethernet

nodes

IE robust connecting cable

M12

Preassembled cable with

one 4-pin M12 plug (A-

coded) and one 4-pin

M12 socket (both D-

coded). Also available by

the meter without con-

nectors.

Oil and UV resistant cable in a flame

retardant version that is particularly

suitable for use in the food industry.

IE hybrid cable

IE hybrid cable 2x2 Hybrid cable for simulta-

neous transmission of

data (10/100 Mbps) and

power (24 V/400 mA):

insulation displacement

technology,

Sold by the meter

Industrial and office area for IE FC RJ-

45 modular

outlet and access point

SCALANCE W with IP67 hybrid plug

Electrical networks

2.2 General

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 11

2.2

General

FastConnect (FC) Twisted Pair (TP)

For structured cabling within a factory, the FC TP cabling system is ideal. Using the

FastConnect (FC) system for Industrial Ethernet, structured cabling from the office

environment has been further developed for use in factories.

FC cables can be assembled fast and simply on site. This means that RJ-45 cabling

technology, an existing standard, is also available in a version suitable for industry and

making such cabling possible in an industrial environment.

With the IE RJ-45 plug and FC cables, runs of up to 100 m cable length are possible without

patch technlogy.

Twisted pair (TP)cCord

The TP cord is used to connect end devices to the Industrial Ethernet FC cabling system. It

is intended for use in cabinets and is used mainly as a jumper cable. The jumper cable is

also now as a patch cable.

The maximum total length of the TP cord in a point-to-point connection is 50 m (IE TP cord

RJ4-5/RJ-45 4x2, CAT6A).

Standards

The EN 50173 standard describes the structured cabling of office buildings. IEC 24702

describes the structured building networking of an industrial building. The generally valid

description of networking an automated plant within an industrial building can be found in

IEC 61918. The profile-specific networking rules for PROFINET can be found in IEC 61784-

5-3.

Structured cabling

Structured cabling describes the cabling of building complexes for information technology

purposes regardless of the applications used. A building is divided into the following areas:

● Primary area: Interconnection of buildings of a site

● Secondary area: Interconnection between floors of a building

● Tertiary area: Information technology connectors for the end devices of a floor

The TP cord can be used as a patch cable and connecting cable between devices and on

patch panels.

The structured cabling that can be implemented with the Industrial EthernetFC system

corresponds to tertiary cabling according to the ISO/IEC 11801, IEC 24702 and EN 50173

standards.

Electrical networks

2.2 General

Passive network components

12 System Manual, 05/2016, C79000-G8976-C271-01

Figure 2-1 Structured cabling

Table 2- 1 Cables for structured cabling to EN 50173

Use

SIMATIC NET cable

Maximum length

Patch cable

IE TP cord

A+C max. 10 m

Tertiary cable IE FC standard cable GP

IE FC Flexible Cable GP

IE FC torsion cable GP

IE FC trailing cable GP

IE FC trailing cable

IE FC marine cable

IE FC TP FRNC cable GP

IE FC food cable

IE FC festoon cable GP

IE FC hybrid cable

B max. 90 m

B max. 75 m

B max. 45 m

B max. 75 m

100BASE-TX

The twisted pair interfaces of the SCALANCE products comply with the standard

IEEE 802.3u: 100BASE-TX. Depending on the variant, the devices have one or more RJ-45

or M12 sockets.

Electrical networks

2.2 General

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 13

Maximum lengths of twisted pair cables

The twisted pair cables to be inserted between 2 neighboring devices must not exceed the

following maximum lengths:

Cabling structure

Cable type

Max. length

Max. total

of the patch cables (TP

cord)

In one piece

The setup is created

without patch cable.

IE FC standard cable GP

IE FC Flexible Cable GP

IE FC torsion cable GP

IE FC trailing cable GP

IE FC trailing cable

IE FC marine cable

IE FC TP FRNC cable GP

100 m

85 m

55 m

85 m

Structured

The setup is created

with patch cable and IE

FC outlet RJ-45 or IE

FC RJ-45 modular

outlet.

IE FC standard cable GP

IE FC Flexible Cable GP

IE FC torsion cable GP

IE FC trailing cable GP

IE FC trailing cable

IE FC marine cable

IE FC TP FRNC cable GP

90 m

75 m

45 m

75 m

10 m

In one piece,

incl. D sub plugs.

ITP standard 2 x 2 100 m

Electrical networks

2.3 The connector system M12/X coded according to IEC 61076-2-109

Passive network components

14 System Manual, 05/2016, C79000-G8976-C271-01

2.3

The connector system M12/X coded according to IEC 61076-2-109

Description

M12 connectors with X coding are also suitable for transmission rates up to 210 Gbps

(Cat6A) because the shields of the wire pairs can be led into the connectors. A further

advantage is the availability of connectors with degree of protection IP67 with which the

equipped devices are also suitable for adverse environmental conditions (dust, dampness).

Due to the locking technology standardized for the M12 connectors a high resistance to

vibration is achieved. Numerous SCALANCE devices therefore provide connection options

for X coded M12 connectors.

Pin assignment

Front view of M12 connector, X coded according to IEC61076-2-109

Front view of RJ

-45 connector, latching nose at the top, with pin assignment according

to EIA/TIA 568B

M12/X coded

RJ-45 according to EIA/TIA 568B

Wire color

Signal

Wire color

Signal

1 White / orange TX+ White / orange TX+

Orange

TX-

Orange

TX-

3 White / green RX+ White / green RX+

Green

RX-

Blue

White / brown

White / blue

Brown

Green

RX-

White / blue

White / brown

Blue

Brown

Electrical networks

2.4 IE TP cord

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 15

2.4

IE TP cord

2.4.1

Introduction to TP cord

The TP cords are used inside buildings for distances up to 10 m. TP cord is also known as

patch cable. A maximum of 10 m of TP cord can be used between two devices. With

structured cabling using two TP cords, this length is the maximum for both patch cables

together.

Compared with the IE FC TP cables, the TP cords are thinner and more flexible.

Standardized RJ-45 plugs are used as the connectors.

● The TP cords 2x2 are suitable for a transmission rate of 10/100 Mbps.

● The TP cords 4x2 are suitable for a transmission rate of 10/100/1000 Mbps.

The 2 wires are twisted into a pair (PIMF). Each pair of wires is shielded by a plastic

laminated aluminum foil with an external contact surface. All the pairs making up the cable

are surrounded by a braided shield of tinplated copper braid with coverage of approximately

88 %. The outer sheath is PVC.

IE TP cord and IE TP XP cord

The TP cords are available as straight-through cables with the name "

IE TP Cord

" and as

crossover cables with the name "

IE TP XP Cord

To distinguish straight-through and crossover cables, the RJ-45 plugs are color-coded.

● not crossed over: RJ-45 plug, green at both ends

● crossed over: RJ-45 plug, red at both ends

Electrical networks

2.4 IE TP cord

Passive network components

16 System Manual, 05/2016, C79000-G8976-C271-01

2.4.2

IE TP cord 2x2

Description

The TP cord is available as preassembled cable in the following variants:

●

IE TP cord RJ-45/RJ-45 and IE TP XP cord RJ-45/RJ-45

with two RJ-45 plugs.

Features and functions

Cable type 1)

IE TP (XP) cord 2x2

Areas of application

Cabling between an end device and a network component

Cable specification

Cat 5e

maximum cable length

• with IE FC outlet RJ-45 10 m

• Device with RJ-45 connector 10 m

Cable type (standard designation)

LI 02YSCY 2x2x0.15/0.98 PIMF ICCS GN

Jacket

PVC Ø 5,8 ± 0.2 mm; green

Environmental conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC ... +70 °C

Resistance to fire

Flame retardant to IEC 60332-1

Resistance to oil

Conditionally resistant

Product characteristics

Halogen-free

Silicone-free

Yes

Electrical properties at 20 °C, tested to DIN 0472

2) With structured cabling with two TP cords this length must be distributed on both patch cables

Article numbers

IE TP cord RJ-45/ RJ-45

Preassembled TP installation cable 2X2 with two

RJ-45 plugs.

• 0.5 m

6XV1850-2GE50

• 1 m

6XV1850-2GH10

• 2 m

6XV1850-2GH20

• 6 m

6XV1850-2GH60

• 10 m

6XV1850-2GN10

Electrical networks

2.4 IE TP cord

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 17

IE TP XP Cord RJ45/ RJ45

Preassembled crossover TP installation cable 2X2

with two RJ-45 plugs.

• 0.5 m

6XV1850-2HE50

• 1 m

6XV1850-2HH10

• 2 m

6XV1850-2HH20

• 6 m

6XV1850-2HH60

• 10 m

6XV1850-2HN10

2.4.3

IE TP cord 4x2

Description

The patch cable is required for Gigabit Ethernet. The IE TP cord RJ-45/RJ-45 4x2 is

available as a preassembled cable with two RJ-45 plugs. With the XP version the send and

receive lines are crossed over.

Features and functions

Cable type 1)

IE TP cord RJ-45/RJ-45 4x2

Areas of application

Cabling between an end device and a network

component

Cable specification

Cat 6A

maximum cable length

• with IE FC outlet RJ-45 50 m

• IE device with D-sub connector 50 m

• Device with RJ-45 connector 50 m

Cable type (standard designation)

LI 02YSCH 4x2x0.15 PIMF GN FRNC

Jacket

FRNC Ø 6.2 ± 0.3 mm; green

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC ... +70 °C

Resistance to fire

Flame retardant to IEC 60332-1

Resistance to oil

Conditionally resistant

Product characteristics

Electrical networks

2.4 IE TP cord

Passive network components

18 System Manual, 05/2016, C79000-G8976-C271-01

Cable type 1)

IE TP cord RJ-45/RJ-45 4x2

Halogen-free

Yes

Silicone-free

Yes

Electrical properties at 20 °C, tested to DIN 0472

With structured cabling with two TP cords this length must be distributed on both patch cables

Article numbers

IE TP cord RJ-45/ RJ-45

Preassembled TP installation cable 4x2 with two

RJ-45 plugs.

0.5 m

6XV1870-3QE50

1 m

6XV1870-3QH10

2 m

6XV1870-3QH20

3 m

6XV1870-3QH30

4 m

6XV1870-3QH40

6 m

6XV1870-3QH60

10 m

6XV1870-3QN10

15 m

6XV1870-3QN15

20 m

6XV1870-3QN20

25 m

6XV1870-3QN25

30 m

6XV1870-3QN30

35 m

6XV1870-3QN35

40 m

6XV1870-3QN40

45 m

6XV1870-3QN45

50 m

6XV1870-3QN50

IE TP XP cord RJ-45/ RJ-45

Preassembled crossover TP installation cable 4x2 with two RJ-

45 plugs.

0.5 m

6XV1870-3RE50

1 m

6XV1870-3RH10

2 m

6XV1870-3RH20

6 m

6XV1870-3RH60

10 m

6XV1870-3RN10

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 19

2.5

IE FC TP cable

The FastConnect (FC) twisted-pair (TP) cables are shielded cables with a symmetrical radial

design and 100 ohms characteristic impedance.

The combination of twisted cores, foil screen and braided shield makes the FC cables

especially suitable for installation in industrial environments subject to electromagnetic

interference. When installed, the design also ensures a high degree of stability of electrical

and mechanical data.

Using the IE FC stripping tool, the outer jacket and shield of the FC TP cables can be

stripped to correct lengths in a single action.

All FC TP cables are UL-listed products and suitable for use in the USA and Canada. Cables

with this certification have the letters GP (General Purpose) in their names.

IE FC TP cable 2x2

The 4-wire FC TP cables are suitable for a transmission rate of 10 / 100 Mbps. The 4 wires

are twisted into a star quad.

Cable cross-section

Figure 2-2 IE FC TP CABLE 2X2

The IE FC TP standard cable and the IE FC TP food cable have solid wires, the other cables

have stranded wires.

Note

You will find information about PROFINET conformity for the electrical cable types of the IE

cable 2x2 in the PROFINET Installation Guide. This document can be downloaded from

the portal www.profibus.com/downloads.

Electrical networks

2.5 IE FC TP cable

Passive network components

20 System Manual, 05/2016, C79000-G8976-C271-01

IE FC TP cable 4x2

To operate 1 gigabit Ethernet networks, 8-wire FC TP cables are required. The 8-wire FC TP

cables are category 6 (CAT6) according to the international cabling standards ISO/IEC

11801 and EN 50173.

The 8-wire FC TP cable can also be operated at lower data rates, for example 100 Mbps.

Cable cross-section

Figure 2-3 IE FC TP 4x2 22 AWG

Figure 2-4 IE FC TP 4x2 27 AWG

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 21

2.5.1

IE FC TP standard cable GP 2x2

Description

The cable IE FC TP standard cable GP is the standard cable for Fast Ethernet cabling. The

cable with solid copper cores (AWG 22) is intended for fixed installation.

Features and functions

Cable type 1)

IE FC TP standard cable GP 2x2

(PROFINET type A)

Areas of application

Universal application

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 100 m

• with IE FC outlet RJ-45 90 m

Cable type (standard designation)

2YY (ST) CY 2x2x0.64/1.5-100 GN

Jacket

PVC Ø 6.5 ± 0.2 mm; green

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C to +75 °C

-20 ℃ to +60 °C

Resistance to fire

Flame retardant to UL 1685 (CSA FT 4)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Article number

IE TP standard cable GP 2x2

(PROFINET type B)

4-wire, shielded TP installation cable for connection to IE FC

outlet RJ-45/ IE FC RJ-45 plug

PROFINET-compliant, with UL approval.

6XV1840-2AH10

Electrical networks

2.5 IE FC TP cable

Passive network components

22 System Manual, 05/2016, C79000-G8976-C271-01

2.5.2

IE FC TP Robust Standard Cable GP 2 x 2

Description

The IE FC TP robust standard cable GP 2 x 2 (type A) is a standard cable with rigid cores for

fast installation. The cable with solid copper cores (22 AWG) is intended for fixed installation.

Features and functions

Cable type 1)

IE FC TP robust standard cable GP 2x2

(PROFINET type A)

Areas of application

Universal application

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 100 m

• with IE FC outlet RJ-45 90 m

Cable type (standard designation)

2YH (ST) C99Y 2x2x0.64/1.5-100 GN SF/UTP

Jacket

TPE (FR-TPE), Ø 6.5 ± 0.2 mm, green

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C ... +75 °C

-20 ℃ ... +60 °C

Resistance to fire

Flame retardant to IEC 60332-1-2

Resistance to oil Oil-resistant to DIN EN 50290-2-22, (7 x 24 h / 90 °C)

UL 13 Sec.40 (96 h / 100 °C)

UV resistance

Resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Article number

IE FC TP robust standard cable

GP 2x2

(PROFINET type A)

Standard cable. 4-core suitable for fast installation.

Sold by the meter, minimum order 20 m, maximum order 2000

6XV1841-2A

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 23

2.5.3

IE FC TP flexible cable GP 2x2

Description

The IE FC flexible cable GP 2x2 with its flexible wires is suitable for applications in which

occasional movement is required.

Features and functions

Cable type 1)

IE FC TP flexible cable GP 2x2

(PROFINET type B)

Areas of application

Occasional movement

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designation)

2YY (ST) CY 2x2x0.75/1.5-100LI GN

Jacket

PVC Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-25 ºC ... +75º C

-25 ℃ ... +75 °C

-10 ℃ to +60 ℃

Resistance to fire

Flame retardant to UL 1685 (CSA FT 4)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE FC TP flexible cable GP 2x2

(PROFINET type B)

4-wire, shielded TP installation cable for connection to IE FC

outlet RJ-45/ IE FC RJ-45 plug for occasional movement;

PROFINET-compliant; with UL approval;

6XV1870-2B

Electrical networks

2.5 IE FC TP cable

Passive network components

24 System Manual, 05/2016, C79000-G8976-C271-01

2.5.4

IE FC TP Robust Flexible Cable GP 2 x 2

Description

The IE FC robust flexible cable GP 2 x 2 (Type B) is a standard cable for Fast Ethernet

cabling with flexible cores for machine parts of move occasionally.

Features and functions

Cable type 1)

IE FC TP robust flexible cable GP 2x2

(PROFINET type B)

Areas of application

Occasional movement

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designation)

2YH (ST) C99Y 2x2x0.75/1.5-100 LI GN SF/UTP

Jacket

TPE (FR-TPE), Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ºC ... +75º C

-40 °C ... +75 °C

-20 ℃ ... +60 °C

Resistance to fire

Flame retardant to IEC 60332-1-2

Resistance to oil Oil-resistant to DIN EN 50290-2-22 (VDE 0819), (7 x 24 h / 90

°C)

UL 13 Sec.40 (96 h / 100 °C)

UV resistance

Resistant

Product characteristics

Halogen-free

Silicone-free

yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE FC TP robust flexible cable GP 2 x

2 (PROFINET type B)

Standard cable with 4 flexible cores for machine parts that

occasionally move.

Sold by the meter, minimum order 20 m, maximum order 1000

6XV1841-2B

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 25

2.5.5

IE FC TP FRNC cable GP 2x2

Description

The halogen-free IE FC TP FRNC cable is suitable for installation in areas in which special

fire prevention conditions prevail, for example in buildings open to the public.

The jacket is FRNC (Flame Retardant Non Corrosive): FRNC materials are halogen-free,

flame-retardant or self extinguishing and do not release any aggressive gases or acids when

burned.

Features and functions

Cable type 1)

IE TP FRNC cable GP2x2

(PROFINET type B)

Areas of application

Occasional movement

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designation)

02YS (ST) C11Y 1 x 4 x 0.75/1.5-100LI GN VZN FRNC

Jacket

FRNC Ø 6.5 ± 0.2 mm, green

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-25 ºC ... +70 ºC

-45 ºC ... +75 ºC

0 ºC ... +50 ºC

Resistance to fire Flame retardant to IEC 60332-3-22

Category A/F

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Article number

IE TP FRNC cable GP 2x2

(PROFINET type B)

4-wire, shielded, halogen-free TP installation cable for connec-

tion to IE FC outlet RJ-45/ IE FC RJ-45 plug for occasional

movement.

PROFINET compliant, with UL approval.

6XV1871-2F

Electrical networks

2.5 IE FC TP cable

Passive network components

26 System Manual, 05/2016, C79000-G8976-C271-01

2.5.6

IE FC TP trailing cable 2x2

Description

In contrast to the IE FC TP standard cable 2x2, with the IE FC TP trailing cable 2x2, the

wires are stranded copper. In conjunction with the special combination of braid shield, fleece

foil shield, and the sheath material of polyurethane (PUR), the cable achieves a bending

radius of 100 mm and highly constant electrical characteristics. The cable is designed for

4,000,000 bending cycles with a bending RADIUS of 100 mm, a speed of 4 m/s and an

acceleration of 4m/s2.

Features and functions

Cable type 1)

IE FC TP trailing cable 2x2

(PROFINET type C)

Areas of application

Use in drag chains

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designa-

tion)

2YH (ST) C11Y 2 x 2 x 0.75/1.5-100 LI GN VZN FRNC

Jacket

PUR Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ºC to +75 ºC

-20 ºC to +60 ºC

Resistance to fire

Flame retardant to IEC 60332-1-2

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE FC TP trailing cable 2x2

(PROFINET type C)

4-wire, shielded TP installation cable for connection to IE FC

outlet RJ-45/ IE FC RJ-45 plug 180/90 for use in drag

chains; PROFINET-compliant; with UL approval

6XV1840-3AH10

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 27

2.5.7

IE FC TP trailing cable GP 2x2

Description

In contrast to the IE FC TP standard cable 2x2, with the IE FC TP trailing cable GP 2x2, the

wires are stranded copper. The cable is designed for 3,000,000 bending cycles with a

bending RADIUS of 100 mm, a speed of 4 m/s and an acceleration of 4m/s2.

Features and functions

Cable type 1)

IE FC TP trailing cable GP 2x2

(PROFINET type C)

Areas of application

Use in drag chains

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designa-

tion)

2YY (ST) CY 2x2x0.75/1.5-100 LI GN

Jacket

PVC Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-25 °C to +75 °C

-25 ºC to +75 ºC

-10 ºC to +60 ºC

Resistance to fire

Flame retardant to UL 1685 (CSA FT 4)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE FC TP trailing cable 2x2

(PROFINET type C)

4-wire, shielded TP installation cable for connection to IE FC

outlet RJ-45/ IE FC RJ-45 plug for use with drag chains;

PROFINET-compliant; with UL approval;

6XV1870-2D

Electrical networks

2.5 IE FC TP cable

Passive network components

28 System Manual, 05/2016, C79000-G8976-C271-01

2.5.8

IE FC festoon cable GP 2x2

Description

The IE FC festoon cable GP 2x2 with its stranded wires and a PUR outer jacket is

specifically designed for festoon applications on cranes.

Features and functions

Cable type 1)

IE FC festoon cable GP 2x2

(PROFINET type B)

Areas of application

Use in festoons

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designation)

2YY(ST)CY 2X2X0.75/1.5 LI GN

Jacket

FRNC Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC to +75 ºC

-50 ºC to +75 ºC

-20 ºC to +60 ºC

Resistance to fire

Flame retardant to UL 1685 (CSA FT 4)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

Article numbers

IE FC TP festoon cable GP 2x2

(PROFINET type C)

wire, shielded TP installation cable for connection to IE

FC outlet RJ-45/IE FC RJ-45 plug 180/90 for food, bev-

erages and tobacco industry; PROFINET-compliant;

sold in meters; maximum length available 1000 m, min-

imum length available 20 m

6XV1871-2L

IE FC TP festoon cable GP 2x2

(PROFINET type B)

wire, shielded TP installation cable for connection to IE

FC outlet RJ-45/ IE FC RJ-45 plug 180/90 for use in

festoon applications; PROFINET-compliant; with UL

approval

6XV1871-2S

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 29

2.5.9

IE FC TP food cable 2x2

Description

The IE FC TP food cable 2x2 with its PE outer jacket and stranded wires is specifically

designed for use in the food, beverages and tobacco industry.

Features and functions

Cable type 1)

IE FC TP food cable 2x2

(PROFINET type C)

Areas of application

Food, beverages and tobacco industry

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designation)

2YH(ST)C2Y 2X2X0.75/1.5-100 LI

Jacket

PUR Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ºC to +75 ºC

-50 ºC to +75 ºC

-20 ºC to +60 ºC

Resistance to fire

Flammable

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE FC TP food cable GP 2x2

(PROFINET type B)

)

wire, shielded TP installation cable for connection to IE

FC outlet RJ-45/ IE FC RJ-45 plug 180/90 for use in

festoon applications; PROFINET-compliant; with UL

approval

6XV1871-2S

Electrical networks

2.5 IE FC TP cable

Passive network components

30 System Manual, 05/2016, C79000-G8976-C271-01

2.5.10

IE FC TP marine cable 2x2 GP

Description

The halogen-free IE FC TP marine cable has a the following shipbuilding certifications:

● American Bureau of Shipping Europe Ltd. (ABS)

● Bureau Veritas (BV)

● Det Norske Veritas (DNV)

● Germanischer Lloyd (GL)

● Lloyds Register of Shipping (LRS)

The jacket is FRNC (Flame Retardant Non Corrosive): FRNC materials are halogen-free,

flame-retardant or self extinguishing and do not release any aggressive gases or acids when

burned.

Features and functions

Cable type 1)

IE FC TP marine cable 2x2

(PROFINET type B)

Areas of application

Marine and offshore use

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 85 m

• with IE FC outlet RJ-45 75 m

Cable type (standard designation)

L-9YH (ST) CH 2 x 2 x 0.34/1.5-100 GN VZN FRNC

Jacket

FRNC Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +70 ºC

-40 ºC to +70 ºC

0 ºC to +50 ºC

Resistance to fire Flame retardant to IEC 60332-3-22

Category A/F

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 31

Article number

FC TP marine cable 2x2

(PROFINET type B)

4-wire, shielded, halogen-free TP installation cable for

connection to IE FC outlet RJ-45/ IE FC RJ-45 plug

180/90, certified for shipbuilding;

6XV1840-4AH10

2.5.11

IE TP Train Cable 2x2

Description

The

IE TP train cable 2x2 (type C, 22/7 AWG) is a flexible cable for laying in rail vehicles and

buses.

Features and functions

Cable type 1)

IE TP train cable 2x2 (type C, 22/7 AWG)

Areas of application

Railway applications

Cable specification

Cat 5

Maximum cable length

• with IE FC RJ-45 plug 100 m

• with IE FC outlet RJ-45 90 m

Cable type (standard designation)

SF/UTP

Jacket

Elastomer electron-beam cross-linked

Ø 6.6 ± 0.2 mm, black

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ℃ to +80 ℃

-20 ℃ ... +60 °C

Note: Briefly in short-circuit situation 160 °C

Resistance to fire Flame resistant according to

BS6853

DIN 5510-2 fire protection level 1 - 4

prEN 45545-2 hazard level HL1 - HL3

EN 50306-4

NF F 16-101, NFPA130

Resistance to oil Resistant acc. to

EN 50306-4 (72 h / 100 °C, IRM 902, 168 h / 70 °C, IRM 903)

UV resistance

Resistant

Electrical networks

2.5 IE FC TP cable

Passive network components

32 System Manual, 05/2016, C79000-G8976-C271-01

Cable type 1)

IE TP train cable 2x2 (type C, 22/7 AWG)

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

1) Electrical properties measured at 20 °C, tested to EN 50288-2-1

Article number

IE TP train cable 2x2 (type C, 22/7

AWG)

Flexible cable for rail applications.

Sold by the meter, minimum order 20 m, maximum order 1000

6XV1871-2T

2.5.12

IE FC TP torsion cable 2x2

Description

In contrast to IE FC TP Standard Cable 2x2 with the IE FC TP torsion cable 2x2, the wires

are stranded copper. In conjunction with the special combination of braid shield, fleece foil

shield, and the sheath material of polyurethane (PUR), the cable achieves a torsional

strength of ±180° and highly constant electrical characteristics. The cable has been tested

for 5,000,000 torsion movements on 1 m cable length (±180°).

The cable is suitable for networking moving parts of plant, for example robots. For

applications using festoon supports the cable is not suitable.

Features and functions

Cable type 1)

IE FC TP torsion cable GP 2x2

(PROFINET type C)

Areas of application

Constant motion when used with robots

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 55 m

• with IE FC outlet RJ-45 45 m

Cable type (standard designa-

tion)

2YY (ST) CY 2x2x0.75/1.5-100 LI GN

Jacket

PVC Ø 6.5 ± 0.2 mm

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ºC ... +80 ºC

-20 ºC ... +60 ºC

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 33

Cable type 1)

IE FC TP torsion cable GP 2x2

(PROFINET type C)

Resistance to fire

Flame retardant to UL 1685 (CSA FT 4)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE TP torsion cable GP 2x2

(PROFINET type C)

4-wire, shielded TP installation cable for connection to IE FC

outlet RJ-45/ IE FC RJ-45 plug for use with robots; PROFINET-

compliant; with UL approval;

6XV1870-2F

2.5.13

IE TP ground cable 2x2

Description

The IE TP ground cable 2x2 (Type C) is a standard cable with rigid cores for laying in the

earth.

Note

Plugs assembled only after removing the outer jacket

This cable as an additional PE outer jacket with a diameter of 9 mm. An RJ

-45 or M12 plus

can

only be assembled when this outer jacket is removed.

Features and functions

Cable type 1)

IE TP ground cable 2x2 (type C)

Areas of application

Can be laid underground

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 100 m

• with IE FC outlet RJ-45 90 m

Cable type (standard designation)

2YY (ST) CY2Y 2x2x0.64/1.50-100 SF/UTP

Jacket

PVC Ø 9 ± 0.2 mm, black

Electrical networks

2.5 IE FC TP cable

Passive network components

34 System Manual, 05/2016, C79000-G8976-C271-01

Cable type 1)

IE TP ground cable 2x2 (type C)

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C to +70 °C

-5 °C to +50 °C

Resistance to fire

Flammable

Resistance to oil

Restricted resistance

Resistance to water

Well resistant

UV resistance

Resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to EN 50288-2-1

Article number

IE TP ground cable 2x2 (type C)

Can be laid underground

6XV1871-2G

2.5.14

IE FC TP Standard Cable GP 4x2

Description

The IE FC TP standard cable GP 4x2 is available in two variants.

● IE FC TP standard cable 4x2 (22 AWG)

The cable is used to set up Industrial Ethernet networks up to 100 m.

● IE FC TP cable 4x2 (24 AWG)

The cable is used for direct connection up to 90 m without patch cables.

Features and functions

Cable type 1)

IE FC standard cable GP 4x2

(22 AWG)

IE FC standard cable GP 4x2

(24 AWG)

Areas of application

Universal application

Cable specification

Cat 6

maximum cable length

• with IE FC RJ-45 plug - 55 m

• with IE FC outlet RJ-45 90 m

+ 10 m patch cable

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 35

Cable type 1)

IE FC standard cable GP 4x2

(22 AWG)

IE FC standard cable GP 4x2

(24 AWG)

Cable type (standard designation)

2YH (ST) C 4x2x0.64/1.25-100 GN

4x2xAWG22

2YH (ST) CY 4x2x0.5/1.0-100 GN

Jacket

PVC Ø 9.6 ± 0.3 mm; green

PVC Ø 8 ± 0.2 mm; green

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC ... +80 °C

-40 ℃ to +80 ℃

-40 °C to +80 °C

-40 ºC ... +80 °C

-40 ℃ to +80 ℃

-40 °C to +80 °C

Resistance to fire Flame retardant to IEC 60332-1 Flame retardant to IEC 60332-3-24

(Category C)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article numbers

IE FC TP standard cable GP 4x2

8-wire shielded TP installation cable for universal application;

with UL approval.

• 22 AWG

6XV1870-2E

• 24 AWG

6XV1878-2A

2.5.15

IE FC TP flexible cable GP 4x2

Description

The IE FC flexible cable GP 4x2 with its flexible wires is suitable for applications in which

occasional movement is required. The cable has the FC design and can be stripped with the

IE FC stripping tool. This allows the IE FC RJ-45 4x2 plug-in connector to be connected to

the IE FC flexible cable GP 4x2.

Features and functions

Cable type 1)

IE FC TP flexible cable GP 4x2

Areas of application

Occasional movement

Cable specification

Cat 6

Maximum cable length

Electrical networks

2.5 IE FC TP cable

Passive network components

36 System Manual, 05/2016, C79000-G8976-C271-01

Cable type 1)

IE FC TP flexible cable GP 4x2

• with IE FC RJ-45 plug 55 m

Cable type (standard designation)

LI02YSH (ST) CY 4x2x0.22/1.1-100 GN

Jacket

PVC Ø 8 ± 0.2 mm; green

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC ... +80 °C

-40 C ... +80 ºC

Resistance to fire Flame retardant to IEC 60332-3-24

(Category C)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article number

IE FC TP flexible cable GP 4x2

8-wire shielded TP installation cable for universal application;

with UL approval.

6XV1878-2B

2.5.16

IE TP train cable 4x2

Description

The IE TP train cable 4x2 (24/7 AWG) is a shielded flexible bus cable with tin-plated copper

stranded wires for laying in rail vehicles and buses. This cable is suitable for assembly with

the FC M12 plug PRO 4x2.

Features and functions

Cable type 1)

IE TP train cable 4x2

Areas of application

Rail vehicles and buses

Cable specification

Cat 7

Maximum cable length

• in Industrial Ethernet 100BaseTX,

1000BaseT

100 m

Cable type (standard designation)

02Y(ST)C99Y 4x2x0.61/1.45-100 PIMF

Jacket

Elastomer electron-beam cross-linked

Ø 8.1 ± 0.2 mm, black

Electrical networks

2.5 IE FC TP cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 37

Cable type 1)

IE TP train cable 4x2

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ℃ to +80 ℃

-20 ℃ ... +60 °C

Resistance to fire Meets the following standards:

• BS 6853

• DIN5510-2 fire protection level 1-4

• prEN 45545-2 hazard level HL 1-HL 3

• EN 50306-4

• NF F 16-101

• NFPA130

Resistance to oil EN 50306-4 (72h/100 °C, IRM 902, 168h/70 °C,

IRM 903)

UV resistance

Resistant

Product characteristics

Halogen-free

Yes

Silicone-free

Yes

Article number

IE TP train cable 4x2

8-wire shielded TP installation cable for use in rail vehicles and

buses, with railway approval.

6XV1878-2T

Electrical networks

2.6 IE connecting cable M12

Passive network components

38 System Manual, 05/2016, C79000-G8976-C271-01

2.6

IE connecting cable M12

Description

The IE connecting cable M12 is an assembled connecting cable for connecting Industrial

Ethernet nodes. As the connecting cable, the IE FC TP trailing cable GP is used. Due to the

4-wire IE FC TP trailing cable GP that is used, the connecting cable is suitable for drag

chains. The IE connecting cable M12 is suitable for drag chains for 3,000,000 bending cycles

at a bending radius of 100 mm, a speed of 4 m/s and an acceleration of 4 m/s².

The IE connecting cable M12 is available in the following variants:

● IE connecting cable M12-180/M12-180

Plug-in cable with two 4-pin M12 plugs (D-coded) for connecting Industrial Ethernet

nodes with degree of protection IP65/IP67, e.g. SIMATIC ET 200, SCALANCE X208

PRO and SIMATIC RF systems.

● IE connecting cable M12-180/IE FC RJ-45-145

Connecting cable with one 4-pin M12 plug (D-coded) and one IE FC RJ-45 connector.

The plug-in cable is used to connect Industrial Ethernet nodes, e.g. SIMATIC ET 200,

SCALANCE X208 PRO and SIMOTION.

Features and functions

Cable type 1)

IE connecting cable M12

Areas of application

For connecting Industrial Ethernet nodes

Cable specification

Cat 5e

Maximum cable length

• with two M12 plugs 1 m

• with M12 plugs and RJ-45 plugs 10 m

Cable type (standard designation)

2YY (ST) CY 2x2x0.75/1.5-100 LI GN

Jacket

PVC ∅ (6.5 ± 0.2) mm, green

Permitted ambient conditions

Electrical networks

2.6 IE connecting cable M12

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 39

Cable type 1)

IE connecting cable M12

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ℃ to +75 ℃

25 ℃ to +75 ℃

Resistance to fire

Flame retardant to UL 1685 (CSA FT 4)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

1) Electrical properties at 20 °C, tested to DIN 0472

Article numbers

IE connecting cable

M12-180/M12-180

preassembled IE FC TP trailing cable GP, with 2 x

M12 plugs (D coded)

• 0.3 m

6XV1870-8AE30

• 0.5 m

6XV1870-8AE50

• 1.0 m

6XV1870-8AH10

• 1.5 m

6XV1870-8AH15

• 2.0 m

6XV1870-8AH20

• 3.0 m

6XV1870-8AH30

• 5.0 m

6XV1870-8AH50

• 10.0 m

6XV1870-8AN10

• 15.0 m

6XV1870-8AN15

IE connecting cable

M12-180/IE FC RJ45 PLUG-145

preassembled IE FC TP trailing cable GP, with 1 x

M12 plugs (D coded) and 1 x IE FC RJ-45 plug

• 2.0 m

6XV1871-5TH20

• 3.0 m

6XV1871-5TH30

• 5.0 m

6XV1871-5TH50

• 10.0 m

6XV1871-5TN10

• 15.0 m

6XV1871-5TN15

Electrical networks

2.7 IE Robust Connecting Cable M12

Passive network components

40 System Manual, 05/2016, C79000-G8976-C271-01

2.7

IE Robust Connecting Cable M12

Description

The IE robust connecting cable M12 is an oil and UV resistant cable in a flame retardant

version that is particularly suitable for use in the food industry. The preassembled cables

have a 4-pin M12 plug at one end and a 4-pin socket at the other (both D-coded). This

product is also available by the meter without connectors.

Features and functions

Cable type

FC TP robust food cable 2x2 (PROFINET type B) CAT5 Plus

Areas of application

Particularly resistant cable also suitable for use in the food in-

dustry.

Cable specification

Cat 5e

Maximum cable length

• with IE FC RJ-45 plug 100 m

• with IE FC outlet RJ-45 90 m

Cable type (standard designation)

2YY(ST)CY6Y 2x2x0.75/1.55 LI VZN

Jacket

FEP Ø 6.5 ± 0.2 mm, transparent (inner jacket green)

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ℃ to +80 ℃

Resistance to fire

Flame retardant to IEC 60332-1-2 and UL 1685 (CSA FT 4)

Resistance to oil

Oil-resistant to IEC 60811-404 (24 h / 100 °C)

UV resistance

Resistant acc.to UL 2556 Sec. 4.2.8.5

Product characteristics

Halogen-free

Silicone-free

Yes

Article numbers

FC TP robust food cable 2x2

(PROFINET type B) CAT5 Plus

4-wire, shielded TP installation cable

Sold by the meter, minimum order 20 m, maximum order 1000

6XV1881-2A

IE robust connecting cable M12

4-wire shielded TP installation cable, preassembled with an

M12 plug and an M12 socket (both D-coded) with degree of

protection IP69.

• 1.0 m

6XV1881-5AH10

• 2.0 m

6XV1881-5AH20

• 3.0 m

6XV1881-5AH30

• 5.0 m

6XV1881-5AH50

Electrical networks

2.8 IE Hybrid Cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 41

2.8

IE Hybrid Cable

Description

The IE hybrid cable 2x2 + 4x0.34 in conjunction with the IE FC RJ-45 modular outlet is the

ideal solution when a device such as SCALANCE W needs to be supplied with its operating

voltage and data at the same time.

The cable contains the following:

● 2x2 wires according to Cat 5e for data transfer

● 2x2 wires each with a wire diameter of 0.76 mm for transferring power

The power is transferred via the cable according to the Power over Ethernet standard (PoE).

The hybrid cable is halogen-free for universal application in an industrial and office

environment. The cable is UV resistant acc. to UL 1581 Sec. 1200.

The maximum cable length between the IE FC RJ-45 modular outlet and the SCALANCE W

access point is 80 m with an additional 6 m of patch cable for the IE FC RJ-45 modular

outlet. For connection to the SCALANCE W, an IP67 hybrid plug-in connector is

recommended.

Cable cross-section

Features and functions

Cable type 1)

IE hybrid cable 2x2 + 4x0.34

Areas of application

Industrial and office area, for IE FC RJ-45 modular outlet and

access point SCALANCE W with IP67 hybrid plug-in connect-

Cable specification

Cat 5e (data wire)

22 AWG (power wire)

Maximum cable length

Electrical networks

2.8 IE Hybrid Cable

Passive network components

42 System Manual, 05/2016, C79000-G8976-C271-01

Cable type 1)

IE hybrid cable 2x2 + 4x0.34

• with IE FC RJ-45 modular outlet 80 m

• IP67 hybrid connector

Cable type (standard designation)

L-9YH(ST)CH 2X2X0.34/1.5-100 GN VZN FRNC

Jacket

PVC Ø (6.5 ± 0.2) mm; green

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +70 ºC

Free of halogens

yes

Resistance to fire

Flame retardant to IEC 60332-3-24 (Category C)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

yes

Silicone-free

yes

Article number

IE hybrid cable 2x2 + 4x0.34

Flexible cable; 4 x Cu Cat 5e, shielded (22 AWG) and 4 x CU

(0.34 mm² per wire ) for IE FC RJ-45 modular outlet with power

insert and hybrid plug-in connector IP67.

6XV1870-2J

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 43

2.9

Plugs

2.9.1

IE FC RJ-45 plugs 2x2

Description

The IE FC RJ-45 plugs 2x2 are compact and rugged plug-in connectors. The connectors

have a robust metal casing suitable for industry that provides protection from interference for

the data communication. The connectors comply with the standards EN 50173 (RJ-45) and

ISO/ IEC 11801

The IE FC RJ-45 plugs 2x2 are used to install 4-wire IE FC TP cables in the field.

The connector allows point-to-point connections (10/100 Mbps) to be implemented for

Industrial Ethernet between two end devices/network components up to 100 m without patch

cables.

The IE FC RJ-45 plugs 2x2 are available in three versions:

● With 180° (straight) cable outlet

Due to their design, the IE FC RJ-45 plug 180 can be used both for devices with

individual jacks and for devices with multiple jacks (blocks). The connector is particularly

suitable for connecting IE FC TP cables to SIMATIC NET modules and SCALANCE

devices.

● With 90° (angled) cable outlet

The connector is particularly suitable for connecting IE FC TP cables to ET200 or PN/PN

links.

Figure 2-5 IE FC RJ-45 PLUG 902X2

Electrical networks

2.9 Plugs

Passive network components

44 System Manual, 05/2016, C79000-G8976-C271-01

● With 145° (angled) cable outlet

The connector is intended for connecting IE FC TP cables to SIMOTION and SINAMICS

modules.

Features and functions

Connection type

IE FC RJ-45 plug 180 (2x2)

IE FC RJ-45 plug 90 (2x2)

IE FC RJ-45 plug 145 (2x2)

Cabling specification

Cat5

Standards, approvals

• RoHS conformity yes yes yes

• UL approval yes yes yes

Transmission speed

Industrial Ethernet

10 / 100 Mbps

Interfaces

Number of electrical con-

nectors for IE FC TP cables

4 4 4

version IE FC TP Integrated insulation-piercing

contacts for 4-wire IE FC TP

cables

Integrated insulation-piercing

contacts for 4-wire IE FC TP

cables

Integrated insulation-piercing

contacts for 4-wire IE FC TP

cables

Version for network com-

ponents or end devices

RJ-45 plug RJ-45 plug RJ-45 plug

Design

Cable outlet

180°

90°

145°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-20 ºC to +70 ºC

Transportation/storage

temperature

-40 ºC to +80 ºC -40 ºC to +80 ºC -40 ºC to +80 ºC

IP degree of protection

IP20

Product property

Silicone-free

yes

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 45

Article numbers

IE FC RJ45 Plug 180

RJ-45 cable connector Industrial Ethernet with rugged

metal casing and integrated insulation displacement

contacts for connection of the 4-wire IE FC TP cables.

With 180° cable outlet.

1 pack of 1

6GK1901-1BB10-2AA0

1 pack of 10

6GK1901-1BB10-2AB0

1 pack of 50

6GK1901-1BB10-2AE0

IE FC RJ45 Plug 90

RJ-45 cable connector for Industrial Ethernet with rug-

ged metal casing and integrated insulation piercing con-

tacts for connection of the 4-wire IE FC TP cables. With

90° cable outlet.

1 pack of 1

6GK1901-1BB20-2AA0

1 pack of 10

6GK1901-1BB20-2AB0

1 pack of 50

6GK1901-1BB20-2AE0

IE FC RJ45 Plug 145

RJ-45 cable connector for Industrial Ethernet with rug-

ged metal casing and integrated insulation piercing con-

tacts for connection of the 4-wire IE FC TP cables. With

145° cable outlet.

1 pack of 1

6GK1901-1BB30-0AA0

1 pack of 10

6GK1901-1BB30-0AB0

1 pack of 50

6GK1901-1BB30-0AE0

Electrical networks

2.9 Plugs

Passive network components

46 System Manual, 05/2016, C79000-G8976-C271-01

2.9.2

IE FC RJ45 Plug 180 (4x2)

Description

The IE FC RJ-45 PLUG 180 (4x2) is an RJ-45 data plug-in connector with a metal housing

suitable for industry and straight cable outlet (180°). The plug is suitable for fitting to 8-wire

IE FastConnect cables (24 AWG) and meets the requirements of the standard Cat6A acc. to

EIA/TIA 568. The maximum transmission rate is 10 Gbps. Due to the FastConnect

technology assembly in the field is possible without problems. The design of the housing

matches all SIMATIC NET modules and SCALANCE devices.

Figure 2-6 IE FC RJ-45 PLUG 180 (4x2) opened

Features and functions

Connection type

IE FC RJ-45 PLUG 180 (4x2)

Cabling specification

Cat6A

Standards, approvals

• RoHS conformity Yes

• UL approval Yes

• cULus approval Yes

Transmission speed

Industrial Ethernet

10 Mbps, 100 Mbps, 1000 Mbps or 10000 Mbps

Interfaces

Number of electrical connectors for IE

FC TP cables

IE FC TP version Integrated insulation displacement contacts for

8-wire IE FC TP cables, FastConnect technology

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 47

Connection type

IE FC RJ-45 PLUG 180 (4x2)

Version for network components or end

devices

RJ-45 plug.

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-40 ºC ... +85 ºC

Transportation/storage temperature

-40 ºC ... +85 ºC

IP degree of protection

IP 20

Product property

Silicone-free

Yes

Number of re-uses

Article numbers

IE FC RJ45 Plug 180 (4x2)

RJ-45 plug for Industrial Ethernet with rugged metal

casing and integrated insulation displacement contacts

for connection of the 8-wire IE FC TP cables.

1 pack of 1

6GK1901-1BB12-2AA0

1 pack of 10

6GK1901-1BB12-2AB0

1 pack of 50

6GK1901-1BB12-2AE0

2.9.3

IE M12 panel feedthrough 4x2

Description

The IE M12 panel feedthrough 4x2 allows the transition from M12 connector technology to

RJ-45 connector technology. The metal housing with 90° cable outlet is designed for ambient

temperatures up 85 °C. The M12 connector (X-coded) has degree of protection IP67, the RJ-

45 connector has degree of protection IP20. The product is intended for use with 8-wire

Cat6A cables, the maximum transmission rate is 10 Gbps.

Figure 2-7 IE M12 panel feedthrough 4x2

Electrical networks

2.9 Plugs

Passive network components

48 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Connection type

IE M12 panel feedthrough 4x2

Cabling specification

Cat6A

Standards, approvals

• RoHS conformity Yes

• UL approval Yes

• cULus approval Yes

Transmission speed

Industrial Ethernet

10 Mbps, 100 Mbps, 1000 Mbps or 10000 Mbps

Interfaces

Version for network components or end

devices

M12 socket (X-coded) and RJ-45 plug

Design

Cable outlet

90°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-40 ºC ... +85 ºC

Transportation/storage temperature

-40 ºC ... +85 ºC

IP degree of protection M12 socket: IP67

RJ-45 plug: IP20

Product property

Silicone-free

Yes

Dimensions (W x H x D)

22 x 29 x 46 mm

Article number

IE M12 panel feedthrough 4x2

Cabinet feedthrough for the transition from M12 con-

nector technology to RJ-45 connector technology.

1 pack of 5

6GK1901-0DM40-2AA5

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 49

2.9.4

IE M12 Panel Feedthrough PRO

Description

The IE M12 panel feedthrough PRO has an M12 socket (D-coded) on both sides with degree

of protection IP65/67. The maximum ambient temperature is 60 °C. The product is intended

for use with 4-wire Cat5 cables, the maximum transmission rate is 100 Mbps.

Figure 2-8 IE M12 panel feedthrough PRO

Features and functions

Connection type

IE M12 panel feedthrough PRO

Cabling specification

Cat5A

Standards, approvals

• RoHS conformity Yes

• UL approval No

• cULus approval No

Transmission speed

Industrial Ethernet

10 Mbps, 100 Mbps

Interfaces

Version for network components or end

devices

2 x M12 socket (D-coded)

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-5 ºC ... +60 ºC

Transportation/storage temperature

-5 ºC ... +60 ºC

IP degree of protection

IP65/IP67

Electrical networks

2.9 Plugs

Passive network components

50 System Manual, 05/2016, C79000-G8976-C271-01

Connection type

IE M12 panel feedthrough PRO

Product property

Silicone-free

Yes

Dimensions (W x H x D)

35.6 x 22.6 x 44.5 mm

Article number

IE M12 panel feedthrough PRO

Panel feedthrough with M12 connector technology.

1 pack of 5

6GK1901-0DM30-2AA5

2.9.5

IE FC M12 plug PRO 2x2

Description

The plug-in connector IE FC M12 plug PRO 2x2 can be used in conjunction with end devices

and network components with degree of protection IP65/67 in systems without cabinets.

The connector is a 4-pin M12 plug with which you can connect industrial Ethernet devices

with M12 Fast Ethernet sockets via a 4-wire IE FC TP cable to a Fast Ethernet network, for

example SCALANCE X208 PRO, IM 154-4 PN and SIMATIC RF systems.

With IE FC cable 2x2 and IE M12 plug PRO 2x2, an overall cable length of up to 100 m is

permitted between two devices depending on the cable type.

Figure 2-9 IE FC M12 plug PRO

Features and functions

Connection type

IE FC M12 plug PRO 2x2

Cabling specification

Cat5

Standards, approvals

• RoHS conformity yes

• UL approval yes

Transmission speed

Industrial Ethernet

10 / 100 Mbps

Interfaces

Number of electrical connectors for IE FC TP cables Integrated insulation-piercing contacts for 4-wire IE FC TP

cables

Version for network components or end devices

M12 plug (D-coded)

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 51

Connection type

IE FC M12 plug PRO 2x2

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

- 40 ℃ to + 85 ℃

Transportation/storage temperature

- 40 ℃ to + 85 ℃

IP degree of protection

IP 65/67

Product property

Silicone-free

yes

Article numbers

IE FC M12 Plug PRO 2x2

M12 plug-in connector 4-pin, D-coded, for fitting to 4-

wire IE FC TP cables with rugged metal casing and

FastConnect technology; 180° cable outlet.

1 pack of 1

6GK1901-0DB20-6AA0

1 pack of 8

6GK1901-0DB20-6AA8

2.9.6

IE FC M12 Plug PRO 4x2

Description

The IE M12 plug PRO is a 4-pin, X-coded M12 plug with degree of protection IP67. The plug

is particularly suitable for use with devices with the relevant degree of protection such as the

SCALANCE X208PRO. The plug can be fitted to cables with an outer diameter of 6 mm to 8

mm. The plug is suitable for assembling IE FC cables with transmission rates of up to 100

Mbps. This allows the IE FastConnect stripping tool to be used. By using the insulation

piercing technique, assembly is simple and fast and requires no additional special tools.

With IE FC cable 2 x 2 and IE M12 plug PRO, an overall cable length of up to 100 m is

permitted between two devices depending on the cable type.

Figure 2-10 IE FC M12 plug PRO 4 x 2

Electrical networks

2.9 Plugs

Passive network components

52 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Connection type

IE FC M12 Plug PRO 4x2

Cabling specification

Cat6

Standards, approvals

• RoHS conformity yes

• UL approval no

Transmission speed

Industrial Ethernet

10 / 100 / 1000 / 10000 Mbps

Interfaces

Number of electrical connectors for IE FC TP

cables

Integrated insulation-piercing contacts for 8-wire

IE FC TP cables

Version for network components or end devices

M12 plug (X-coded)

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-40 °C to +85 ℃

Transportation/storage temperature

-40 °C to +85 ℃

IP degree of protection

IP 65/67

Product property

Silicone-free

yes

Article numbers

IE FC M12 Plug PRO 4x2

M12 plug-in connector 8-pin, X-coded, for fitting to 8-wire

cables with rugged metal casing and FastConnect tech-

nology; 180° cable outlet

1 pack of 1

6GK1901-0DB30-6AA0

1 pack of 8

6GK1901-0DB30-6AA8

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 53

2.9.7

IE FC M12 Cable Connector PRO (PROFINET)

Description

The IE FC M12 cable connector PRO (PROFINET) is an 8-pin M12 data plug-in connector

(X-coded) with a metal housing suitable for industry. Due to the design and the degree of

protection IP67 the main application is to connect electrical cables to the M12 interfaces of

SCALANCE W devices. When using Cat6A cables, the maximum transmission rate is 10

Gbps. Due to the FastConnect technology assembly in the field is possible without problems.

Figure 2-11 IE FC M12 cable connector PRO (PROFINET)

Features and functions

Connection type

IE FC M12 cable connector PRO (PROFINET)

Cabling specification

Cat6A

Standards, approvals

• RoHS conformity Yes

• UL approval Yes

• cULus approval Yes

Transmission speed

Industrial Ethernet

10 Mbps, 100 Mbps, 1000 Mbps or 10000 Mbps

Interfaces

Number of electrical connectors for IE

FC TP cables

IE FC TP version Integrated insulation displacement contacts for

8-wire IE FC TP cables, FastConnect technology

Version for network components or end

devices

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-40 ºC ... +85 ºC

Transportation/storage temperature

-40 ºC ... +85 ºC

Electrical networks

2.9 Plugs

Passive network components

54 System Manual, 05/2016, C79000-G8976-C271-01

Connection type

IE FC M12 cable connector PRO (PROFINET)

IP degree of protection

IP67

Product property

Silicone-free

Yes

Article numbers

IE FC RJ45 Plug 180 (4x2)

M12 plug (X-coded) for Industrial Ethernet with rugged

metal casing and integrated insulation displacement

contacts for connection of the 8-wire IE FC TP cables.

1 pack of 1

6GK1901-0DB40-6AA0

1 pack of 8

6GK1901-0DB40-6AA8

2.9.8

IE FC RJ-45 plug PRO (push-pull)

Description

The plug with push pull device connector can be used with end devices and network

components with degree of protection IP65/67 in systems without cabinets.

The IE FC RJ-45 plug PRO is used to assemble 4-wire IE FC TP cables in the field.

Figure 2-12 IE FC RJ-45 plug PRO

The push pull mechanism allows the IE FC RJ45 plug PRO plug-in connector to be plugged

in and pulled easily with SCALANCE X-200IRT PRO, ET 200pro and SIMATIC RF systems.

The mechanism also increases the bending and strain the plug-in connector can withstand

and protects the RJ-45 socket from mechanical strain in an industrial area.

In contrast to the plug-in connector IE FC RJ-45 Plug PRO (push pull) with the IE RJ-45 Plug

PRO the electrical connector is not FastConnect.

Figure 2-13 IE RJ-45 plug PRO

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 55

Features and functions

Connection type

IE RJ-45 plug PRO (push pull)

IE FC RJ-45 plug PRO (push pull)

Cabling specification

Cat 5e

•

Standards, approvals

• RoHS conformity yes yes

• UL approval no no

Transmission speed

Industrial Ethernet

10 / 100 Mbps

Interfaces

Number of electrical connectors for IE

FC TP cables

4 4

IE FC TP version Integrated insulation displacement con-

tacts

for 4-wire IE FC TP cables

Integrated insulation-piercing contacts

for 4-wire IE FC TP cables

Version for network components or end

devices

RJ-45 plug (push pull device connector) RJ-45 plug (push pull device con-

nector)

Design

Cable outlet

180°

Housing material

Plastic

Permitted ambient conditions

Operating temperature

-40 ºC to +70 ºC

Transportation/storage temperature

-40 ºC to +70 ºC

Chemical resistance to water

Resistant

IP degree of protection

IP65/67

Product property

Silicone-free

yes

Article numbers

IE RJ-45 plug PRO

(push pull)

RJ-45 plug-in connector with push pull device connector

with rugged plastic housing and integrated insulation

displacement contacts for connection of the Industrial

Ethernet FC installation cables. With 180° cable outlet,

for switches SCALANCE X-

200IRT PRO, ET 200pro and

SIMATIC RF systems with Industrial Ethernet interface

1 pack of 1

6GK1901-1BB10-6AA0

IE FC RJ-45 plug PRO

(push pull)

RJ-45 plug-in connector with push pull device connector

with rugged plastic housing and integrated insulation

displacement contacts for connection of the IE FC TP

cables. With 180° cable outlet

1 pack of 1

6GK1901-1BB20-6AA0

Electrical networks

2.9 Plugs

Passive network components

56 System Manual, 05/2016, C79000-G8976-C271-01

2.9.9

IE FC RJ-45 PLUG PRO

Description

Figure 2-14 IE FC RJ-45 PLUG PRO

The IE FC RJ-45 PLUG PRO has a metal housing with degree of protection IP65/67 and is

intended to assemble 8-wire IE FC TP cables in the field. The push pull mechanism allows

the IE FC RJ45 plug PRO plug-in connector to be plugged in and pulled easily with

SCALANCE X-200IRT PRO, ET 200pro and SIMATIC RF systems. The mechanism also

increases the bending and strain the plug-in connector can withstand and protects the RJ-45

socket from mechanical strain in an industrial area.

Features and functions

Connection type

IE RJ-45 plug PRO (metal version)

Cabling specification

Cat 6A

•

Standards, approvals

• RoHS conformity Yes

• UL approval Yes

Transmission speed

Industrial Ethernet

10 Mbps, 100 Mbps, 1 Gbps, 10 Gbps

Interfaces

Number of electrical connectors for IE FC TP cables

IE FC TP version Integrated insulation displacement contacts

for 8-wire IE FC TP cables

Version for network components or end devices

RJ-45 plug (push pull device connector)

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-40 °C ... +70 °C

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 57

Connection type

IE RJ-45 plug PRO (metal version)

Transportation/storage temperature

-40 °C ... +70 °C

Chemical resistance to water

Resistant

IP degree of protection

IP65/67

Product property

Silicone-free

yes

Article number

IE RJ-45 plug PRO

(metal version)

RJ-45 plug-in connector with push pull device connector

with rugged metal housing and integrated insulation

displacement contacts for connection of the Industrial

Ethernet FC installation cables. With 180° cable outlet,

for switches SCALANCE X-

200IRT PRO, ET 200pro and

SIMATIC RF systems with Industrial Ethernet interface.

1 pack of 1

6GK1901-1BB21-6AA0

2.9.10

IE RJ-45 COUPLER PRO

Description

Figure 2-15 IE RJ-45 COUPLER PRO

The RJ-45 COUPLER PRO has a rugged metal housing and is designed for wall mounting.

This component is used when setting up flexible cabling as an optional connector for data

cables. On both sides there is a socket for push-pull plugs, one side is also equipped with a

protective cap. If both sockets have a plug or protective cap, the requirements of degree of

protection IP65/67 are met.

Electrical networks

2.9 Plugs

Passive network components

58 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Connection type

RJ-45 COUPLER PRO

Cabling specification

Cat5A

Standards, approvals

• RoHS conformity Yes

• UL approval No

• cULus approval No

Transmission speed

Industrial Ethernet

10 Mbps, 100 Mbps

Interfaces

Version for network components or end

devices

2 x push-pull mounting with RJ-45 socket

Design

Cable outlet

180°

Housing material

Aluminum extruded section, zinc die casting

Permitted ambient conditions

Operating temperature

-5 ºC ... +60 ºC

Transportation/storage temperature

-5 ºC ... +60 ºC

IP degree of protection

IP65/IP67

Product property

Silicone-free

Yes

Dimensions with protective cap (W x H

x L)

46 x 58 x 99 mm

Article number

RJ-45 COUPLER PRO Flexible connection option with push-pull fasteners.

1 pack of 1

6GK1901-0BP10-6AA0

2.9.11

IP 67 hybrid cable connector

General

The IP67 hybrid plug-in connector is used to connect SCALANCE W700 to Industrial

Ethernet. In conjunction with the hybrid cable 2x2 + 4x0.34 and the IE FC RJ-45 modular

outlet with power insert in addition to the data transmission the supply voltage for the target

device can also be transferred. The connection of a voltage is possible with Power over

Ethernet (PoE). The IP67 hybrid plug-in connector is supplied with the SCALANCE W700.

Electrical networks

2.9 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 59

Features and functions

Connection type

IP67 hybrid plug-in connector

Cabling specification

Cat 5

Transmission speed

Industrial Ethernet

10 / 100 Mbps

Interfaces

Number of electrical connectors for hybrid

cables

IE FC TP version integrated insulation displacement contacts for 4-wire TP FC installation

cables

Cable outlet

180°

Housing material

Plastic

Permitted ambient conditions

Ambient temperature

-40 °C to + 70°C

IP degree of protection

IP67

Article number

IP67 hybrid plug-in connector

Plug-in connector to connect SCALANCE W700 to In-

dustrial Ethernet and Power over Ethernet (PoE) with

assembly instructions.

can be ordered directly from:

HARTING Germany GmbH & Co KG

Postfach 24-51

D-32381 Minden

Tel. +49 571-8896-0

Fax. +49 571-8896-354

E-mail: de.sales@HARTING.com

Internet: http://www.HARTING.com

1 pack of 1

09 45 125 1300.00

Electrical networks

2.10 Outlets

Passive network components

60 System Manual, 05/2016, C79000-G8976-C271-01

2.10

Outlets

2.10.1

IE FC RJ-45 modular outlet

Description

The rugged metal housing allows the mounting of the IE FC modular outlet on a DIN rail.

Direct wall mounting is also possible.

Figure 2-16 IE FC RJ-45 modular outlet - basic module

The Industrial Ethernet FC RJ-45 modular outlet basic module exists with three inserts:

● Insert 2 FE: Basic module with insert for two Fast Ethernet connections for connection of

two 10/100 Mbps end devices/network components

Figure 2-17 Modular outlet, 2x LAN

● Insert 1 GE: Basic module with insert for one Gigabit Ethernet connection for connecting

a 10/100/1000 Mbps end device/network component

Figure 2-18 Modular outlet insert 1GE

Electrical networks

2.10 Outlets

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 61

● Outlet power insert: Basic module with insert for connecting a power supply and a 10/100

Mbps end device/network component.

Figure 2-19 Modular outlet, power insert

By replacing the insert, it is possible to upgrade a 100 Mbps double connection to a gigabit

connection. The requirement for this is that the wiring was done with an IE FC standard

cable GP 4x2 In this case, only the insert 2FE needs to be replaced with an insert of the type

1GE.

To supply detached nodes with power and data, the IE FC RJ-45 modular outlet with the

power insert is connected to the hybrid cable 2x2 + 4x0.34. A maximum of 80 m can be

bridged between the outlet and the IP67 hybrid plug-in connector. The connection between

the outlet and end device can be established with a maximum 6 m long patch cable.

Features and functions

Connection type

IE FC RJ45 modular

outlet insert 2FE

IE FC RJ45 modular

outlet insert 1GE

IE FC RJ45 modular

outlet power insert

Cabling specification

Cat 5e

Cat 6

Cat 5e

Standards, approvals

● RoHS conformity

yes

● UL approval

yes

Transmission speed

Industrial Ethernet

10 / 100 Mbps

10 / 100 / 1000 Mbps

10 / 100 Mbps

Interfaces

Number of electrical connectors

for IE FC TP cables

8 8 8

IE FC TP version integrated insulation dis-

placement contacts

for 8-wire TP FC installation

cables

integrated insulation dis-

placement contacts

for 8-wire TP FC installa-

tion cables

integrated insulation dis-

placement contacts

for 8-wire TP FC installa-

tion cables

Version for network components

or end devices

RJ-45 plug RJ-45 plug RJ-45 plug

24 VDC terminal

(2-pin)

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-25 ºC to +70 ºC

Electrical networks

2.10 Outlets

Passive network components

62 System Manual, 05/2016, C79000-G8976-C271-01

Connection type

IE FC RJ45 modular

outlet insert 2FE

IE FC RJ45 modular

outlet insert 1GE

IE FC RJ45 modular

outlet power insert

Transportation/storage tempera-

ture

-40 °C to +80 °C -40 °C to +80 °C -40 °C to +80 °C

IP degree of protection

IP40

Article numbers

IE FC RJ-45 modular outlet

(basic module)

IE FC RJ-45 modular outlet basic module for Industrial

Ethernet for insertion of an insert.

1 pack of 1

6GK1901-1BE00-0AA0

IE FC RJ-45 modular outlet

insert 2FE

IE FC RJ-45 modular outlet basic module with insert; 2 x

RJ-45 for 2 x 100 Mbps interface

1 pack of 1

6GK1901-1BE00-0AA1

IE FC RJ-45 modular outlet

insert 1GE

IE FC RJ-45 modular outlet basic module with insert; 1 x

RJ-45 for 1 x 1000 Mbps interface

1 pack of 1

6GK1901-1BE00-0AA2

IE FC RJ45 modular outlet

power insert

IE FC RJ-45 modular outlet basic module with insert; 1 x

RJ-45 for 1 x 1000 Mbps interface and 1 x 24 VDC

1 pack of 1

6GK1901-1BE00-0AA3

Insert 2 FE

Insert for IE FC RJ-45 modular outlet basic module; 2 x

RJ-45 for 2 x 100 Mbps interface

1 pack of 4

6GK1901-1BK00-0AA1

Insert 1 GE

Insert for IE FC RJ-45 modular outlet basic module; 2 x

RJ-45 for 2 x 100 Mbps interface

1 pack of 4

6GK1901-1BK00-0AA2

2.10.2

IE FC outlet RJ-45

Description

The IE FC outlet R-45 serves as a transition from the rugged IE FC cables used in the

industrial environment to preassembled TP cord cables with an RJ-45 socket.

The IE FC outlet RJ-45 has a rugged metal housing and meets the requirements of category

5 of the international cabling standards ISO/IEC 11801 and EN 50173. The IE FC outlet RJ-

45 is suitable for installation on a DIN rail or for wall mounting.

The IE FC outlet RJ-45 can be mounted behind a metal plate with a cutout, e.g. a cabinet.

By lining up several IE FC outlets RJ-45 it is possible to set up a patch field with any

connection density.

Electrical networks

2.10 Outlets

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 63

Figure 2-20 Industrial Ethernet FC outlet RJ-45 (opened)

Features and functions

Connection type

IE FC outlet RJ-45

Cabling specification

Cat 5

Standards, approvals

• RoHS conformity yes

• UL approval yes

Transmission speed

Industrial Ethernet

10 / 100 Mbps

Interfaces

Number of electrical connectors for

IE FC TP cables

IE FC TP version Integrated insulation-piercing contacts for 4-wire FC TP instal-

lation cables

Version for network components or

end devices

RJ-45 plug

Design

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature

-25 ºC to +70 ºC

Transportation/storage temperature

-40 ºC to +70 ºC

IP degree of protection

IP20

Article number

IE FC outlet RJ-45

IE FC outlet RJ-45 for connecting Industrial Ethernet FC

TP cables and TP cords

1 pack of 1

6GK1901-1FC00-0AA0

Electrical networks

2.10 Outlets

Passive network components

64 System Manual, 05/2016, C79000-G8976-C271-01

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 65

Optical networks

3.1

Optical transmission technology

Fiber-optic cables (FO cables)

On fiber-optic cables (FO) data is transmitted by modulating electromagnetic waves in the

range of visible and invisible light.

The materials used are highquality plastic and glass fibers

Only the fiber-optic cables intended for SIMATIC NET for Industrial Ethernet are described

below. The various FO cable types allow solutions for connecting the components with each

other adapted to the operating and environmental conditions.

The following fiber-optic cables are available for industrial Ethernet:

● Glass FO cables

● PCF FO cables (Polymer Cladded Fiber)

● POF FO cables (Polymer Optical Fiber)

Compared with electrical cables, fiber-optic cables have the following advantages:

Advantages

● Electrical isolation of nodes and segments

● No grounding problems,

● No shield currents,

● Transmission path immune to external electromagnetic noise,

● No lightning protection required,

● No noise emission along the transmission path,

● Light weight,

● Depending on the fiber type, cables several kilometers long can be used even at higher

transmission rates.

● The transmission rate does not affect the maximum permitted cable length

● The meter markers printed on the cable make it easier to identify the length. (Serve as

orientation; accuracy ±5 %.)

Point-to-point link

Fiber-optic technology only allows the implementation of point-to-point links; in other words,

one transmitter is connected to only one receiver. The transmission path between two nodes

requires two fibers (one for each transmission direction). With the optical components for

Industrial Ethernet, bus, star and ring structures can be implemented.

Optical networks

3.2 Overview of optical cables

Passive network components

66 System Manual, 05/2016, C79000-G8976-C271-01

3.2

Overview of optical cables

For the various topologies, requirements or areas of application the following fiber-optic

cables are available.

Cabling

Cable type

Area of application

Glass FO cable

Glass fiber, sold by the meter

or pre-assembled with

4 ST/BFOC or SC plugs

FO standard cable GP (50/125)

Standard cable for universal application.

MM FO robust cable GP (50/125) Rugged multimode cable also for outdoors and

laying in the earth.

SM FO robust cable GP (50/125) Rugged single mode cable also for outdoors

and laying in the earth.

FO FRNC cable GP (50/125/OM2) Multimode cable with halogen-free and flame

retardant design for laying in buildings.

FO FRNC cable GP (50/125/OM4) Multimode cable with halogen-free and flame

retardant design for laying in buildings.

INDOOR FO cable (62.5/125/OM1) Multimode cable with halogen-free and flame

retardant design for laying in buildings. Orange

FRNC cable jacket with flat cross section.

FO trailing cable GP (50/125)

FO trailing cable (50/125)

Cable for use in drag chains.

FO ground cable (50/125) Longitudinally and laterally watertight cable for

use outdoors, with non-metal rodent protection,

laying in the earth possible.

Flexible FO trailing cable (62.5/125) Multimode cable for use in drag chains indoors

and outdoors.

SIENOPYR duplex fiber-optic marine

cable (62.5/125)

Multimode cable for use on ships and offshore

platforms with numerous shipbuilding approv-

als.

Glass FO cable with

FastConnect technology

FC FO standard cable GP 62.5/200/230

µm

Multimode cable for fixed installation in cable

channels and pipes with round PVC cable jack-

et.

FC FO trailing cable 62.5/200/230 µm Flexible multimode cable for use in drag chains

indoors and outdoors.

Plastic FO cable

Plastic fiber-optic cable, sold

by the meter

or preassembled (PCF FO

cable) with 4 SC RJ plugs

POF Standard Cable GP 980/1000 POF FO standard cable for fixed installation

indoors up to 50 m with PVC jacket.

POF trailing cable 980/1000 POF FO trailing cable for moving applications

(e.g. drag chains) up to 50 m with rugged PUR

jacket.

PCF standard cable GP 200/230 PCF FO standard cable for fixed installation

indoors and outdoors with cable lengths up to

100 m with rugged PVC jacket.

PCF trailing cable 200/230 PCF FO trailing cable for high mechanical load

indoors and outdoors with cable lengths up to

100 m with rugged PUR jacket.

PCF trailing cable GP 200/230

PCF FO trailing cable for lower mechanical load

indoors and outdoors with cable lengths up to

100 m with PVC jacket.

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 67

3.3

Glass FO cables

3.3.1

FOC links

Standard Fast Ethernet

The switches equipped with interfaces for 100BASE-FX correspond to the standard IEEE

802.3u. They operate at a wavelength of 1300 nm.

For the connection, multimode glass fibers of the type 50/125 µm are suitable.

Switches or media modules equipped with an optical interface for single mode glass fibers of

the type 10/125 µm have the supplement "LD (Long Distance) in their names.

The maximum length of the insertable FO section is decided by:

● the fiber type multimode / single mode

● the link attenuation of the FO cable at the wavelength being used

● the bandwidth length product of the FO cable

Requirements for multimode glass FO cables

Table 3- 1 Maximum distance with multimode glass FO cables between two switches:

Fiber-optic cable type

FO cable attenuation

at 1300 nm

Bandwidth length prod-

uct

max. length

50/125 µm

<= 0,7 dB/km

>= 1200 MHz * km

5,000 m

Requirements for single mode glass FO cables

The single mode glass fiber-optic cables to be inserted between the interfaces must meet

the following requirements regarding attenuation and bandwidth length product:

Table 3- 2 Maximum distance with single mode glass FO cables between two switches equipped for

this:

Fiber-optic cable type

FO cable attenuation

at 1300 nm

Bandwidth length prod-

uct

max. length

10/125 µm

<=0,5 dB/km

k. A.

26,000 m

Optical networks

3.3 Glass FO cables

Passive network components

68 System Manual, 05/2016, C79000-G8976-C271-01

SIMATIC NET multimode glass FO cables

The SIMATIC NET product range for Industrial Ethernet contains various variants of

multimode glass fiber-optic cables with 50/125 µm fibers. When linking SIMATIC NET

Industrial Ethernet switches connected by SIMATIC NET multimode glass fiber-optic cables,

distances of up to 5000 m are possible between 3 neighboring components.

Note

Single mode glass fiber

-optic cables with the fiber type 10/125 µm are available as special

cables. You will find a contact in the section "Contacts for special cables and special lengths"

in this manual.

Standard 1 Gbps Ethernet

Similar to Fast Ethernet, with Gbps Ethernet a distinction is made between two versions that

are both described in the standard IEEE 802.3z.

1000BASE-SX is the designation for the version with multimode glass fibers. It operates with

a wavelength of 850 nm. Due to its properties, the same 50/125 µm fiber from the SIMATIC

NET product spectrum can be used that is also used for 100BASE-FX. The distance

between two points is 750 m. Taking into account the distance cabling with this fiber can be

upgraded later from 100 Mbps Ethernet to 1 Gbps without laying new cables.

The version for single mode glass fibers is called 1000BASE-LX. Here it operates with a

wavelength of 1300 nm. A single mode glass fiber-optic cable 10/125 m may be up to 10,000

m long.

In terms of the laying of the insertable FO section, the same dependencies apply as with

1000 Mbps Ethernet.

Table 3- 3 Maximum distance with multimode glass fiber-optic cables with 1 Gbps Ethernet:

Fiber-optic cable type

FO cable attenuation

Bandwidth length

product

max. length

50/125 µm

multimode

≤ 2,7 dB/km at 850 nm ≥ 600 MHz * km 750 m

9/125 µm

single mode

≤ 0.5 dB/km at 1310 nm

10,000 m

≤ 0.28 dB/km at 1550 nm

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 69

3.3.2

FO Standard Cable GP 50/125 µm

Description

The FO standard cable contains 2 multimode graded index fibers of type 50/125 µm. The FO

standard cable GP is the universal cable for use indoors and outdoors. The standard cable is

suitable for connecting optical interfaces operating in the wavelength range around 850 nm

and 1300 nm.

The FO standard cable GP is available in fixed lengths, preassembled with four ST/BFOC

plugs or 4 SC plugs.

Features and functions

Cable type

FO standard cable GP 50/125

Areas of application

Universal cable for use indoors and outdoors

Cable type (standard designation)

AT-W(ZN)YY 2x1G50/125

Version of the preassembled

FO cable

• ST/BFOC plug

• SC plug

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 50/125 µm, OM2

Maximum tensile load

500 N

Optical data

Attenuation

805 nm

≤ 2.7 dB/km

1300 nm

≤ 0.7 dB/km

Bandwidth length prod-

uct

805 nm

600 GHz *m

1300 nm

1200 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +80 ºC

-5 ºC to +50 ºC

Resistance to fire Flame-retardant to IEC 60332 -1-2 and IEC 60332 -3-22 (Cat

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Silicone-free

yes

Halogen-free

Optical networks

3.3 Glass FO cables

Passive network components

70 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

FO standard cable GP 50/125

Rodent protection

Cable length

100BaseFX

5000 m

1000BaseSX

750 m

1000BaseLX

2000 m

Article numbers

FO standard cable GP 50/125

1) Standard cable; UL approval; splittable, without connectors,

sold by the meter

6XV1873–2G

FO standard cable GP 50/125

Preassembled FO cable with 2x2 ST/BFOC plugs.

• 0.5 m

6XV1873-3AH05

• 1 m

6XV1873-3AH10

• 2 m

6XV1873-3AH20

• 3 m

6XV1873-3AH30

• 5 m

6XV1873-3AH50

• 10 m

6XV1873-3AN10

• 15 m

6XV1873-3AN15

• 20 m

6XV1873-3AN20

• 30 m

6XV1873-3AN30

• 40 m

6XV1873-3AN40

• 50 m

6XV1873-3AN50

• 80 m

6XV1873-3AN80

• 100 m

6XV1873-3AT10

• 150 m

6XV1873-3AT15

• 200 m

6XV1873-3AT20

• 300 m

6XV1873-3AT30

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 71

FO standard cable GP 50/125

Preassembled FO cable with 2x2 SC plugs

• 0.5 m

6XV1873-6AH05

• 1 m

6XV1873-6AH10

• 2 m

6XV1873-6AH20

• 3 m

6XV1873-6AH30

• 5 m

6XV1873-6AH50

• 10 m

6XV1873-6AN10

• 15 m

6XV1873-6AN15

• 20 m

6XV1873-6AN20

• 30 m

6XV1873-6AN30

• 40 m

6XV1873-6AN40

• 50 m

6XV1873-6AN50

• 80 m

6XV1873-6AN80

• 100 m

6XV1873-6AT10

• 150 m

6XV1873-6AT15

• 200 m

6XV1873-6AT20

• 300 m

6XV1873-6AT30

1) Special tools and trained personnel are required to assemble glass fiber-optic cables

3.3.3

MM FO robust cable GP (50/125)

Description

The MM FO robust cable GP is for use indoors and outdoors - also suitable for laying in the

earth

It also has rodent protection. The multimode graded index fiber 50/125/245 used

allows transmission distances up to 5000 m. The product is available by the meter or

preassembled with two LC Duplex plugs.

Optical networks

3.3 Glass FO cables

Passive network components

72 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Cable type

MM FO robust cable GP (2G50/125)

Areas of application

Universal cable for use indoors and outdoors and for direct

installation underground.

Version of the preassembled

FO cable

The non-preassembled cable can be fitted with the following

plugs:

• BFOC plug

• SC plug

• LC Duplex plug

The preassembled cables are supplied with two LC Duplex

plugs.

Cable type (standard designation)

AT-V(ZN)H(ZN)BH 2G50/125

Standards, approvals

• RoHS conformity Yes

• UL approval Yes

Mechanical data

Number of cores

Fiber material

Multimode graded-index fiber 50/125/245 μm, OM 2

Maximum tensile load

1000 N

Optical data

Attenuation

850 nm

≤ 2.7 dB/km

1300 nm

≤ 1 dB/km

Bandwidth length prod-

uct

850 nm

600 GHz *m

1300 nm

1200 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 °C ... +70 °C

-5 °C to +50 °C

Resistance to fire

Flame retardant to IEC 60332-1-24

Resistance to oil Restricted resistance

UV resistance Resistant

Product characteristics

Halogen-free

yes

Silicone-free

yes

Rodent protection

yes

Cable length

100BaseFX

5000 m

1000BaseSX

750 m

1000BaseLX

2000 m

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 73

Article number

MM FO robust cable GP

(2G50/125)

Cables for indoors and outdoors, also for laying in the earth,

rodent protection.

Sold by the meter without plugs, minimum order 20 m, maxi-

mum order 2000 m.

6XV1873-2R

MM FO Robust Cable GP

(2G50/125)

Cables for indoors and outdoors, also for laying in the earth,

rodent protection.

Preassembled with two LC Duplex plugs:

1 m

6XV1873-5RH10

2 m

6XV1873-5RH20

3 m

6XV1873-5RH30

10 m

6XV1873-5RN10

30 m

6XV1873-5RN30

50 m

6XV1873-5RN50

100 m

6XV1873-5RT10

150 m

6XV1873-5RT15

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

3.3.4

SM FO robust cable GP (4E9/125)

Description

The 4-fiber single mode (SM) FO robust cable can be used to bridge distances of more than

3 km.

The SM FO robust cable GP can be used to set up optical networks with devices that have

an LC (Lucent Connector) interface, for example SCALANCE X devices.

To connect to the LC interface, the SM FO robust cable GP is cemented to the SM FO LC

duplex plug.

Features and functions

Cable type

SM FO robust cable GP (4E9/125)

Areas of application

Cable for use indoors and outdoors and for direct installation

underground

Version of the preassembled

FO cable

• ST/BFOC plug

• SC plug

• LC Duplex plug

Cable type (standard designation)

AT-V(ZN)H(ZN)BH 2G50/125

Standards, approvals

• RoHS conformity yes

Optical networks

3.3 Glass FO cables

Passive network components

74 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

SM FO robust cable GP (4E9/125)

• UL approval yes

Mechanical data

Number of fibers

Fiber material

Single mode fiber 9/125 μm, OS2

Maximum tensile load

1000 N

Optical data

Attenuation

805 nm

1300 nm

≤ 0.5 dB/km

1550 nm

≤ 0.5 dB/km

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC to +70 ºC

-20 ℃ to +60 °C

Resistance to fire

flame retardant to IEC 60332-1-24

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

yes

Silicone-free

yes

Rodent protection

yes

Cable length

100BaseFX

26 000 m

1000BaseLX

2000 m

Article number

SM FO robust cable GP

(4E9/125)

Cable for outdoors; rodent protection, splittable, without con-

nectors, sold by the meter

6XV1843-2R

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

3.3.5

FO FRNC Cable GP 50/125/OM2

Description

The FO FRNC Cable with two 50/125 µm cores is halogen-free and flame retardant and is

suitable for fixed installation in buildings. With this cable design, little smoke that is free of

halogens is produced in the case of fire therefore reducing secondary damage significantly.

The cable is splittable and therefore suitable for direct fitting of connectors.

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 75

Features and functions

Cable type

FO FRNC Cable 50/125

Areas of application

Halogen-free cable for fixed installation indoors and outdoors

Version of the preassembled

FO cable

• ST/BFOC plug

• SC plug

Cable type (standard designa-

tion)

AT-W(ZN)HH 2G50/125 UV

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of cores

Fiber material

Multimode graded-index fiber 50/125 µm, OM2

Maximum tensile load

500 N

Optical data

Attenuation

850 nm

≤ 2.7 dB/km

1300 nm

≤ 0.7 dB/km

Bandwidth length

product

850 nm

600 GHz*m

1300 nm

1200 GHz*m

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C to +85 ℃

-5 °C to +50 °C

Resistance to fire

Flame-retardant to IEC 60332 -1-2 and IEC 60332 -3-22 (Cat A)

Resistance to oil Resistant according to IEC 60811-404 with test oil IRM 902 (acc.

to ISO 1817), +70 °C, 4 h and +25 °C, 168 h

UV resistance Resistant

Product characteristics

Halogen-free

Silicone-free

Yes

Rodent protection Yes

Cable length

100BaseFX

5000 m

1000BaseSX

750 m

1000BaseLX

2000 m

Article number

FO FRNC Cable 50/125

Halogen-free cable, splittable, for fixed installation, with-

out connectors, sold by the meter

6XV1873-2B

Optical networks

3.3 Glass FO cables

Passive network components

76 System Manual, 05/2016, C79000-G8976-C271-01

3.3.6

FO FRNC Cable GP 50/125/OM4

Description

The FO FRNC Cable with two 50/125 µm cores is halogen-free and flame retardant and is

suitable for fixed installation in buildings. With this cable design, little smoke that is free of

halogens is produced in the case of fire therefore reducing secondary damage significantly.

The cable is splittable and therefore suitable for direct fitting of connectors.

Features and functions

Cable type

FO FRNC cable 50/125/OM4

Areas of application

Halogen-free cable for fixed installation indoors and outdoors

Version of the preassembled

FO cable

• ST/BFOC plug

• SC plug

Cable type (standard designa-

tion)

AT-W(ZN)HH 2G 50/125 OM4BI UV

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of cores

Fiber material

Multimode graded-index fiber 50/125 µm, OM4

Maximum tensile load

500 N

Optical data

Attenuation

850 nm

≤ 2.5 dB/km

1300 nm

≤ 0.7 dB/km

Bandwidth length

product

850 nm

3500 GHz*m

1300 nm

500 GHz*m

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C to +85 ℃

-5 °C to +50 °C

Resistance to fire

Flame-retardant to IEC 60332 -1-2 and IEC 60332 -3-22 (Cat A)

Resistance to oil Resistant according to IEC 60811-404 with test oil IRM 902 (acc.

to ISO 1817), +70 °C, 4 h and +25 °C, 168 h

UV resistance Resistant

Product characteristics

Halogen-free Yes

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 77

Cable type

FO FRNC cable 50/125/OM4

Silicone-free

Yes

Maximum

cable length

100BaseFX

5000 m

1000BaseSX

1040 m

1000BaseLX

600 m

10GBaseSR

550 m

10GBaseLX4

300 m

Article number

FO FRNC Cable 50/125/OM4

Halogen-free cable, splittable, for fixed installation, with-

out connectors, sold by the meter

6XV1873-2E

3.3.7

INDOOR FO cable 62.5/125 μm

Description

The INDOOR fiber-optic cable is intended for use indoors in areas protected from the

weather, for example in factories and in building automation.

The indoor cable is suitable for connecting optical interfaces operating in the wavelength

range around 850 nm and 1300 nm.

Can be supplied in fixed lengths, preassembled with four ST/BFOC connectors.

Features and functions

Cable type

Indoor FO cable GP (62.5/125)

Areas of application

Non-crush, halogen-free and extremely flame-retardant cable

for use indoors

Version of the preassembled

FO cable

• ST/BFOC plug

Cable type (standard designation)

I-V(ZN)HH 2x1 G 62.5/125

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 62.5/125 µm, OM 2

Maximum tensile load

1000 N

Optical data

Attenuation

805 nm

≤ 3.1 dB/km

Optical networks

3.3 Glass FO cables

Passive network components

78 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

Indoor FO cable GP (62.5/125)

1300 nm

≤ 0.8 dB/km

Bandwidth length prod-

uct

805 nm

200 GHz *m

1300 nm

600 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC to +70 ºC

-5 ºC to +50 ºC

Resistance to fire flame resistant to IEC 60332-1-2, IEC 60332-3-22 (Cat. A)

and acc. to DIN VDE 472 Part 804, test type B

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

yes

Silicone-free

yes

Rodent protection

Cable length

100BaseFX

4000 m

1000BaseSX

350 m

1000BaseLX

550 m

Article numbers

INDOOR fiber-optic indoor cable

1) Cable for indoors; flame retardant, splittable, without connect-

ors, sold by the meter

6XV1820-7AH10

INDOOR fiber-optic indoor cable

preassembled with 2x2 BFOC connectors

• 0.5 m

6XV1820-7BH05

• 1 m

6XV1820-7BH10

• 2 m

6XV1820-7BH20

• 3 m

6XV1820-7BH30

• 5 m

6XV1820-7BH50

• 10 m

6XV1820-7BN10

• 15 m

6XV1820-7BN15

• 20 m

6XV1820-7BN20

• 25 m

6XV1820-7BN25

• 50 m

6XV1820-7BN50

• 75 m

6XV1820-7BN75

• 100 m

6XV1820-7BT10

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 79

3.3.8

FO trailing cable 50/125 µm

Description

The FO trailing cable contains 2 multimode graded index fibers of type 50/125 µm.

The FO trailing cable is available in the following variants:

● FO trailing cable (standard)

Cable for high mechanical strain, PUR outer jacket, without UL approval.

● FO trailing cable GP (general purpose)

Cable for low mechanical strain, PVC outer jacket, with UL approval

The FO trailing cable is available in fixed lengths, preassembled with four ST/BFOC plugs or

4 SC plugs.

Features and functions

Cable type

FO trailing cable 50/125

FO trailing cable GP 50/125

Areas of application

Use in drag chains

Version of the preassembled

FO cable

• ST/BFOC plug

• SC plug

• ST/BFOC plug

• SC plug

Cable type (standard designation)

AT-W(ZN)Y(ZN)11Y 2G50/125

50/125 2G AT-W(ZN)Y(ZN)Y

Standards, approvals

• RoHS conformity yes yes

• UL approval no yes

Mechanical data

Number of fibers

Fiber material Multimode graded-index fiber

50/125 µm, OM2

Multimode graded-index fiber

50/125 µm, OM2

Number of bending cycles

5 000 000

3 500 000

Maximum tensile load

800 N

Optical data

Attenuation

805 nm

≤ 2.7 dB/km

1300 nm

≤ 0.7 dB/km

Bandwidth length product

805 nm

600 GHz *m

1300 nm

1200 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC to +80 ºC

-5 ºC to +50 ºC

-25 ºC to +80 ºC

-5 ºC to +50 ºC

Resistance to fire Flammable Flame-retardant to IEC 60332 -1-2 and

IEC 60332 -3-22 (Cat A)

Resistance to oil

Conditionally resistant

Optical networks

3.3 Glass FO cables

Passive network components

80 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

FO trailing cable 50/125

FO trailing cable GP 50/125

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

Rodent protection

Cable length

100BaseFX

5000 m

1000BaseSX

750 m

1000BaseLX

2000 m

Article numbers

FO trailing cable 50/125

Trailing cable, splittable, without connectors, sold by the meter

6XV1873-2C

FO trailing cable 50/125

Preassembled FO cable with 2x2 ST/BFOC plugs

• 3 m

6XV1873-3CH30

• 5 m

6XV1873-3CH50

• 10 m

6XV1873-3CN10

• 20 m

6XV1873-3CN20

• 50 m

6XV1873-3CN50

• 100 m

6XV1873-3CT10

FO trailing cable 50/125

Preassembled FO cable with 2x2 SC plugs

• 3 m

6XV1873-6CH30

• 5 m

6XV1873-6CH50

• 10 m

6XV1873-6CN10

• 20 m

6XV1873-6CN20

• 50 m

6XV1873-6CN50

• 100 m

6XV1873-6CT10

FO trailing cable GP 50/125

1) Trailing cable, UL approval, splittable, without connectors, sold

by the meter, minimum length available 20 m, maximum 1000 m

6XV1873–2D

FO trailing cable GP 50/125

Preassembled FO cable with 2x2 ST/BFOC plugs

• 3 m

6XV1873-3DH30

• 5 m

6XV1873-3DH50

• 10 m

6XV1873-3DN10

• 20 m

6XV1873-3DN20

• 50 m

6XV1873-3DN50

• 100 m

6XV1873-3DT10

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 81

FO trailing cable GP 50/125

Preassembled FO cable with 2x2 SC plugs

• 3 m

6XV1873-6DH30

• 5 m

6XV1873-6DH50

• 10 m

6XV1873-6DN10

• 20 m

6XV1873-6DN20

• 50 m

6XV1873-6DN50

• 100 m

6XV1873-6DT10

1) Special tools and trained personnel are required to assemble glass fiber-optic cables

3.3.9

FO Ground Cable 50/125 µm

Description

The FO ground cable contains 2 multimode graded index fibers of type 50/125 µm. The FO

ground cable is a standard cable for laying directly in the ground, in pipes, cable channels or

on cable racks, also suitable for cable ladders.

The FO ground cable is available in fixed lengths, preassembled with four ST/BFOC plugs or

4 SC plugs.

Features and functions

Cable type

FO ground cable 50/125

Areas of application

Outdoors and for direct installation underground

Version of the preassembled

FO cable

• ST/BFOC plug

• SC plug

Cable type (standard designa-

tion)

AT-WQ(ZN)Y(ZN)B2Y 2G 50/125

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 50/125 µm, OM2

Maximum tensile load

800 N

Optical data

Attenuation

805 nm

≤ 2.7 dB/km

1300 nm

≤ 0.7 dB/km

Optical networks

3.3 Glass FO cables

Passive network components

82 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

FO ground cable 50/125

Bandwidth length

product

805 nm

600 GHz *m

1300 nm 1200 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C to +75 °C

-5 °C to +50 °C

Resistance to fire

Flammable

Resistance to oil

resistant

UV resistance

resistant

Product characteristics

Silicone-free

yes

Halogen-free

Rodent protection

yes

Cable length

100BaseFX

5000 m

1000BaseSX

750 m

1000BaseLX

2000 m

Article numbers

FO ground cable 50/125

1) Outdoor cable with rodent protection, splittable, without con-

nectors, sold by the meter

6XV1873–2G

FO ground cable 50/125

Preassembled FO cable with 2x2 ST/BFOC plugs.

● 100 m

6XV1873-3GT10

● 200 m

6XV1873-3GT20

● 100 m

6XV1873-3GT30

FO ground cable 50/125

Preassembled FO cable with 2x2 SC plugs.

● 100 m

6XV1873-6GT10

● 200 m

6XV1873-6GT20

● 100 m

6XV1873-6GT30

1) Special tools and trained personnel are required to assemble glass fiber-optic cables

3.3.10

Flexible FO trailing cable (62.5/125 μm)

Description

The flexible fiber-optic trailing cable was developed for applications in which the cable must

be flexible enough to move, for example when attached to moving machine parts (drag

chains).

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 83

The cable is mechanically designed for 100,000 bending cycles through ±90° (at the

specified minimum bending radius). The trailing cable can be used both indoors and

outdoors.

The trailing cable is available in fixed lengths, preassembled with four ST/BFOC connectors.

Features and functions

Cable type

Flexible fiber-optic trailing cable

Areas of application

Flexible cable for installation in drag chains indoors and out-

doors

Version of the preassembled

FO cable

• ST/BFOC plug

Cable type (standard designation)

AT-W11Y(ZN)11Y 2 G 62,5/125

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 62.5/125 µm, OM 2

Maximum tensile load

1000 N

Bending cycles

100,000

Optical data

Attenuation

805 nm

≤ 3.1 dB/km

1300 nm

≤ 0.8 dB/km

Bandwidth length prod-

uct

805 nm

200 GHz *m

1300 nm

600 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +60 ºC

-25 ºC to +70 ºC

-30 ºC to +60 ºC

Resistance to fire acc. to IEC 60332-1, flammable

Resistance to oil

UV resistance resistant

Product characteristics

Halogen-free

yes

Silicone-free

yes

Rodent protection no

Cable length

100BaseFX

4000 m

1000BaseSX

350 m

1000BaseLX

550 m

Optical networks

3.3 Glass FO cables

Passive network components

84 System Manual, 05/2016, C79000-G8976-C271-01

Article numbers

Flexible fiber-optic trailing cable

1) Cable for indoors; flame retardant, splittable, without connect-

ors, sold by the meter

6XV1 820-6AH10

Flexible fiber-optic trailing cable

preassembled with 2x2 ST/BFOC connectors

• 1 m

6XV1820-6BH10

• 2 m

6XV1820-6BH20

• 3 m

6XV1820-6BH30

• 5 m

6XV1820-6BH50

• 10 m

6XV1820-6BN10

• 15 m

6XV1820-6BN15

• 20 m

6XV1820-6BN20

• 25 m

6XV1820-6BN25

• 50 m

6XV1820-6BN50

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

3.3.11

SIENOPYR Duplex FiberOptic Marine Cable 62.5/125 μm

Description

The SIENOPYR Duplex fiber-optic marine cable has 2 multimode graded-index fibers

62.5/125 µm. The cable also has 2 multiwire, rubber-insulated copper wires with 1 mm²

cross section. The SIENOPYR duplex fiber-optic marine cable is intended for fixed

installation on ships and offshore facilities in all enclosed spaces and on open decks. The

cable is not, however, suitable for permanent installation in water.

The halogen-free cable is certified for shipbuilding by the following organizations:

● Lloyds Register of Shipping

● Germanischer Lloyd

● Registro Staliano Navale

● Bureau Veritas

Features and functions

Cable type

SIENOPYR duplex fiber-optic marine cable

Areas of application

Fixed installation on ships and offshore facilities in all

enclosed spaces and on free decks

Version of the preassembled

FO cable

• ST/BFOC plug

Cable type (standard designation)

MI-VHH 2G 62.5/125 3.1B200 + 0.8F600 + 2x1Cu 300V

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 85

Cable type

SIENOPYR duplex fiber-optic marine cable

Standards, approvals

• RoHS conformity Yes

• UL approval No

• Shipbuilding Bureau Veritas (BV)

Det Norske Veritas (DNV)

Germanischer Lloyd (GL)

Lloyds Register of Shipping (LRS)

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 62.5/125 µm, OM 2

Maximum tensile load

250 N

Bending cycles

100,000

Optical data

Attenuation

805 nm

≤ 3.1 dB/km

1300 nm

≤ 0.8 dB/km

Bandwidth length product

805 nm

200 GHz *km

1300 nm

600 GHz *km

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC to +80 ºC

-10 ºC to +50 ºC

Environmental conditions for operation At ambient temperatures of -10 °C, the cables must not

be subjected to any motions beyond the normal vibra-

tion and oscillation on ships.

Resistance to fire Flame retardant acc. to IEC 60332-3 (Cat. A)

Resistance to oil

not resistant

UV resistance resistant

Product characteristics

Halogen-free

yes

Silicone-free yes

Rodent protection

Article number

SIENOPYR duplex fiber-optic

marine cable

Glass SIENOPYR fiber-optic marine cable, sold in meters, with-

out connectors

6XV1830-0NH10

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

Optical networks

3.3 Glass FO cables

Passive network components

86 System Manual, 05/2016, C79000-G8976-C271-01

3.3.12

FC FO glass fiber-optic cable 62.5/200/230 µm

Description

Thanks to the fiber construction (62.5/200/230), it is possible to work with the FastConnect

FO fibers like traditional PCF fibers (Polymer Cladded Fiber). This means that users have

the advantages of glass FO cables (longer distances, resistant to temperature) and the

advantages of PCF fibers when fitting connectors.

With the FastConnect cables, glass FO runs of up to 3 km (100 Mbps Industrial Ethernet,

PROFIBUS) can be set up and the cable assembled on site. A complete link, can be made

up of up to 3 subsegments (2 splices) (average coupling loss of a splice approx. 2.5 dB). The

combination of already installed, traditional 62.5/125 µm multimode glass FO sections with

the new FastConnect FO cables is also possible.

The user can now assemble glass FO cable sections of the correct length for each specific

application easily and on site. Repairing installed FastConnect FO links is therefore simple

and can be performed without special service personnel (this does not apply to already

installed cables - it applies only when FastConnect FO was used).

Features and functions

Cable type

Fiber-optic standard cable

Areas of application

Cable for use indoors and outdoors

Version of the preassembled

FO cable

• ST/BFOC plug

Cable type (standard designation)

AT-V(ZN)YY 2X1 G 62.5/125

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 62.5/125 µm, OM 2

Maximum tensile load

1500 N

Bending cycles

Optical data

Attenuation

805 nm

≤ 3.1 dB/km

1300 nm

≤ 0.8 dB/km

Bandwidth length product

805 nm

200 GHz *m

1300 nm

600 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 °C to +85 °C

-5 °C to +50 °C

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 87

Cable type

Fiber-optic standard cable

Resistance to fire Flame-retardant acc. to IEC 60332 -1-2 and IEC 60332 -3-

22 (Cat. A)

Resistance to oil

not resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

Rodent protection

yes

maximum

cable length

100BaseFX

4000 m

1000BaseSX

350 m

1000BaseLX

550 m

Article numbers

Fiber-optic standard cable

1) Standard cable; can be walked on; splittable; without connect-

ors, sold by the meter,

6XV1820-5AH10

Fiber-optic standard cable

Preassembled FO cable with 2x2 ST/BFOC plugs

• 1 m

6XV1820-5BH10

• 2 m

6XV1820-5BH20

• 3 m

6XV1820-5BH30

• 4 m

6XV1820-5BH40

• 5 m

6XV1820-5BH50

• 10 m

6XV1820-5BN10

• 15 m

6XV1820-5BN15

• 20 m

6XV1820-5BN20

• 30 m

6XV1820-5BN30

• 40 m

6XV1820-5BN40

• 50 m

6XV1820-5BN50

• 55 m

6XV1820-5BN55

• 60 m

6XV1820-5BN60

• 65 m

6XV1820-5BN65

• 70 m

6XV1820-5BN70

• 75 m

6XV1820-5BN75

• 80 m

6XV1820-5BN80

• 100 m

6XV1820-5BT10

• 120 m

6XV1820-5BT12

Optical networks

3.3 Glass FO cables

Passive network components

88 System Manual, 05/2016, C79000-G8976-C271-01

Fiber-optic standard cable

• 130 m

6XV1820-5BT13

• 150 m

6XV1820-5BT15

• 200 m

6XV1820-5BT20

• 250 m

6XV1820-5BT25

• 300 m

6XV1820-5BT30

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

3.3.13

FC FO standard cable GP 62.5/200/230 µm

Description

The FC fiber-optic standard cable GP contains two multimode graded fibers of type

62.5/200/230 µm. Thanks to the fiber construction (62.5/200/230), the cable can be worked

on like normal PCF fibers (Polymer Cladded Fiber). This means that users have the

advantages of glass FO cables (longer distances, resistant to temperature) and the

advantages of PCF fibers when fitting connectors.

With the FC cables, glass FO sections of up to 3 km (100 Mbps Industrial Ethernet,

PROFIBUS) can be set up and the cable assembled on site. The combination of already

installed, traditional 62.5/125 µm multimode glass FO sections with the new FastConnect FO

cables is also possible.

Features and functions

Cable type

FC FO standard cable GP

Areas of application

Cable for fixed installation in cable channels and pipes

Version of the preassembled

FO cable

• FC FO ST/BFOC connectors

• FC FO SC connectors

Cable type (standard designation)

AT-V(ZN)YY 2GK 62.5/200/230

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 62.5/200/230 µm

Maximum tensile load

100 N

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 89

Cable type

FC FO standard cable GP

Optical data

Attenuation

805 nm

≤ 3.2 dB/km

1300 nm

≤ 0.9 dB/km

Bandwidth length prod-

uct

805 nm 200 GHz *m

1300 nm 500 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 °C to +85 °C

-5 ºC to +50 ºC

Resistance to fire Flame-retardant acc. to IEC 60332 -1-2 and IEC 60332 -3-22

(Cat. A)

Resistance to oil

Conditionally resistant to mineral oils and fats

UV resistance

Resistant

Product characteristics

Halogen-free

Silicone-free

yes

Rodent protection

Cable length

100BaseFX

3000 m

1000BaseSX

350 m

1000BaseLX

550 m

Article number

FC FO standard cable GP

1) FC FO standard cable for fixed installation indoors with PVC

jacket

6XV1847-2A

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

3.3.14

FC FO trailing cable 62.5/200/230 µm

Description

The FC fiber-optic trailing cable is the universal cable for use in drag chains indoors and

outdoors. The FC fiber-optic trailing cable contains two multimode graded fibers of type

62.5/200/230 µm. The outer jacket with the outer diameter 8.8 ± 0.5 mm is made of TPE-U

(polyurethane).

Optical networks

3.3 Glass FO cables

Passive network components

90 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Cable type

FC fiber-optic trailing cable

Areas of application

Cable for high mechanical load for use in drag chains indoors

and outdoors

Version of the preassembled

FO cable

• FC FO BFOC connectors

• FC FO SC connectors

Cable type (standard designation)

AT-V(ZN)Y(ZN)11Y 2GK 62.5/200/230

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 62.5/200/230 µm

Maximum tensile load

800 N

Bending cycles

5 000 000

Optical data

Attenuation

805 nm

≤ 3.2 dB/km

1300 nm

≤ 0.9 dB/km

Bandwidth length prod-

uct

805 nm

200 GHz *m

1300 nm

500 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +70 ºC

-30 ºC to +75 ºC

-5 ºC to +50 ºC

Resistance to fire

flame retardant to IEC 60332-1-2

Resistance to oil

resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

Rodent protection no

Cable length 100BaseFX 4000 m

1000BaseSX

350 m

1000BaseLX

550 m

Article number

FC fiber-optic trailing cable

Trailing cable, splittable, without connectors, sold by the meter

6XV1847-2C

1) Special tools and trained personnel are required to assemble glass fiber-optic cables.

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 91

3.3.15

SM FO CORD 9/125

Description

The preassembled 1 fiber single mode cable SM FO CORD is available with different plugs.

This product is intended for use in the control cabinet. The cable length is 1 m.

Features and functions

Cable type

SM FO CORD LC/LC, 9/125

SM FO CORD SC/LC, 9/125

SM FO CORD SC/BFOC, 9/125

SM FO CORD SC/SC, 9/125

Areas of application

Cable for use in the cabinet (degree of protection IP20)

Cable type (standard designation)

l-V(ZN)H 2E9/125 G.652D

Version of the preassembled

FO cable

• LC/LC connector

• SC/LC connector

• SC/BFOC connector

• SC/SC connector

Standards, approvals

• RoHS conformity Yes

Mechanical data

Number of fibers

Fiber material

Single mode glass fiber 9/125 µm

Maximum tensile load

500 N

Optical data

Attenuation

1300 nm

≤ 0.4 dB/km

1550 nm

≤ 0.3 dB/km

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-20 °C to +70 °C

-25 °C to +70 °C

-10 °C to +70 °C

Resistance to fire

flame retardant to IEC 60332-1-2 (Cat.A)

Product characteristics

Silicone-free

Yes

Halogen-free

Yes

Rodent protection

Optical networks

3.3 Glass FO cables

Passive network components

92 System Manual, 05/2016, C79000-G8976-C271-01

Article numbers

SM FO CORD LC/LC

Single mode glass FO cable, preassembled with 2 x 2 LC

Duplex connectors, length 1 m.

6XV1843-5FH10-0AA0

SM FO CORD SC/LC

Single mode glass FO cable, preassembled with 1 x SC

Duplex connector and 1 x LC Duplex connector, length 1 m.

6XV1843-5FH10-0CA0

SM FO CORD SC/BFOC

Single mode glass FO cable, preassembled with 1 x SC

Duplex connector and 1 x BFOC connector, length 1 m.

6XV1843-5FH10-0CB0

SM FO CORD SC/SC

Single mode glass FO cable, preassembled with 2 x 2 SC

Duplex connectors, length 1 m.

6XV1843-5FH10-0CC0

3.3.16

MM FO CORD 50/125

Description

The preassembled 1 fiber multimode cable graded index cable MM FO CORD is available

with different plugs. This product is intended for use in the control cabinet. The cable length

is 1 m.

Features and functions

Cable type

MM FO CORD LC/LC, 9/125

MM FO CORD SC/LC, 9/125

MM FO CORD SC/BFOC, 9/125

MM FO CORD SC/SC, 9/125

Areas of application

Cable for use in the cabinet (degree of protection IP20)

Cable type (standard designation)

l-V(ZN)H 2x50/125 OM2

Version of the preassembled

FO cable

• LC/LC connector

• SC/LC connector

• SC/BFOC connector

• SC/SC connector

Standards, approvals

• RoHS conformity Yes

Mechanical data

Number of fibers

Fiber material

Multimode graded-index fiber 50/125 µm, OM 2

Maximum tensile load

500 N

Optical data

Attenuation

850 nm

≤ 3.5 dB/km

1300

≤ 1.5 dB/km

Optical networks

3.3 Glass FO cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 93

Cable type

MM FO CORD LC/LC, 9/125

MM FO CORD SC/LC, 9/125

MM FO CORD SC/BFOC, 9/125

MM FO CORD SC/SC, 9/125

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-20 °C to +70 °C

-25 °C to +70 °C

-10 °C to +70 °C

Resistance to fire

flame retardant to IEC 60332-1-2 (Cat.A)

Product characteristics

Silicone-free Yes

Halogen-free

Yes

Rodent protection

Article numbers

MM FO CORD LC/LC

Multimode glass FO cable, preassembled with 2 x 2 LC

Duplex connectors, length 1 m.

6XV1843-5EH10-0AA0

MM FO CORD SC/LC

Multimode glass FO cable, preassembled with 1 x SC Du-

plex connector and 1 x LC Duplex connector, length 1 m.

6XV1843-5EH10-0CA0

MM FO CORD SC/BFOC

Multimode glass FO cable, preassembled with 1 x SC Du-

plex connector and 1 x BFOC connector, length 1 m.

6XV1843-5EH10-0CB0

MM FO CORD SC/SC

Multimode glass FO cable, preassembled with 2 x 2 SC

Duplex connectors, length 1 m.

6XV1843-5EH10-0CC0

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

94 System Manual, 05/2016, C79000-G8976-C271-01

3.4

Plastic fiber-optic cables

3.4.1

Overview

The plastic fiber-optic cable is available with PCF fibers (Polymer Cladded Fiber) and POF

fibers (Plastic Optical Fiber).

Properties

Plastic fibers have several properties that differ from those of glass fibers. For example, the

maximum possible cable length is shorter with glass fibers due to the higher attenuation and

the bandwidth is smaller. Plastic fibers require far less effort to assemble on site compared

with glass fibers.

The use of plastic fibers is particularly attractive when networking islands for example with

the ET 200. In this case, small distances up to a maximum of 50 m can be covered with the

plastic fibers.

3.4.2

POF Standard Cable GP 980/1000

Description

The Plastic Optical Fiber (POF) standard cable GP consists of two plastic fibers with a

rugged polyamide inner jacket. The inner jacket is surrounded by Kevlar strengthening

elements and a green PVC outer jacket. The POF standard cable GP can be assembled on

site. The cable is fitted with SC RJ connectors for devices with an integrated optical

interface.

Devices with an integrated optical interface include, for example SCALANCE X200-4P IRT,

SCALANCE X201-3P IRT, SCALANCE X202-2P IRT, SCALANCE X101-1POF, ET 200S.

Features and functions

Cable type

POF standard cable GP 980/1000

Areas of application

Fixed installation indoors

Version of the preassembled

FO cable

• SC RJ plug

• SC RJ POF plug Pro

Cable type (standard designation)

I-V4Y(ZN)Y 2P 980/1000

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of fibers

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 95

Cable type

POF standard cable GP 980/1000

Fiber material

POF FO cable fiber 980/1000 µm

Maximum tensile load

100 N

Optical data

Attenuation

650 nm

≤ 160 dB/km

Bandwidth length product

650 nm

1 GHz*m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +60 ºC

-25 ºC to +70 ºC

-30 ºC to +60 ºC

Resistance to fire

flame retardant to IEC 60332-1-2

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

Rodent protection

Cable length for Industrial Ethernet

≤ 50 m

Article numbers

POF Standard Cable GP

980/1000

Standard cable; without connectors, UL approval, sold by the

meter

6XV1874-2A

3.4.3

POF Trailing Cable 980/1000

Description

The Plastic Optical Fiber (POF) trailing cable consists of two plastic fibers with a rugged

polyamide inner jacket. The inner jacket is surrounded by Kevlar strengthening elements and

a green PUR outer jacket. The POF trailing cable can be assembled on site.

Devices with an integrated optical interface include, for example SCALANCE X200-4P IRT,

SCALANCE X201-3P IRT, SCALANCE X202-2P IRT, SCALANCE X101-1POF, ET 200S

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

96 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Cable type

POF trailing cable

Areas of application

Cable for moving applications (e.g. drag chains)

Version of the preassembled

FO cable

• SC RJ plug

• SC RJ POF plug Pro

Cable type (standard designation)

I-V4Y(ZN)11Y 2P 980/1000 FLEX UL

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of fibers

Fiber material

POF FO cable fiber 980/1000 µm

Maximum tensile load

100 N

Bending cycles

5 000 000

Optical data

Attenuation

650 nm

≤180 dB/km

Bandwidth length product

650 nm

1 GHz *m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-30 ºC to +70 ºC

-40 ºC to +80 ºC

-5 ºC to +50 ºC

Resistance to fire

flame retardant to IEC 60332-1-2

Resistance to oil

resistant

UV resistance

resistant

Product characteristics

Free of halogens

Rodent protection no

Silicone-free yes

Cable length for Industrial Ethernet ≤ 50 m

Article number

POF trailing cable

Trailing cable; with poly-optic fiber; without connectors, sold by

the meter

6XV1874-2B

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 97

3.4.4

PCF standard cable GP 200/230

Description

The PCF standard cable GP consists of two PCF fibers. The fibers are surrounded by

aramid strengthening elements and a green PVC outer jacket. The cable is intended for fixed

installation indoors and outdoors with cable lengths up to 100 m.

The PCF standard cable GP 200/230 is available in meters and is suitable for fitting

connectors directly.

Features and functions

Cable type

PCF standard cable GP 200/230

Areas of application

Fixed installation indoors and outdoors

Version of the preassembled

FO cable

• SC RJ plug

• SC RJ PCF plug Pro

Cable type (standard designation)

AT-V(ZN)YY 2K 200/230

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of fibers

Fiber material

Graded index fiber 200/230 μm

Maximum tensile load

100 N

Optical data

Attenuation

650 nm

≤10 dB/km

660 nm

≤10 dB/km

Bandwidth length prod-

uct

650 nm 17 GHz*m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-40 ºC to +90 ºC

-5 ºC to +50 ºC

Resistance to fire Flame-retardant acc. to IEC 60332 -1-2 and IEC 60332 -3-22

(Cat. A)

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free yes

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

98 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

PCF standard cable GP 200/230

Rodent protection

Cable length for Industrial Ethernet

≤ 100 m

Article number

PCF standard cable GP 200/230

Standard cable; UL approval; without connectors, sold by the

meter

6XV1861-2A

3.4.5

PCF trailing cable 200/230

Description

The PCF trailing cable 200/230 consists of two PCF fibers. The fibers are surrounded by

aramid strengthening elements and a green PUR outer jacket. The cable is intended for

moving applications such as drag chains indoors and outdoors with cable lengths up to 100

m. The recommended wavelength is 660 nm.

The PCF trailing cable is available in meters and is suitable for fitting connectors directly.

Features and functions

Cable type

PCF trailing cable 200/230

Areas of application

Cable for high mechanical load and moving applications, for

example drag chains

Version of the preassembled

FO cable

• SC RJ plug

• SC RJ PCF plug Pro

Cable type (standard designation)

AT-V(ZN)Y(ZN)11Y 2K200/230

Standards, approvals

• RoHS conformity yes

• UL approval no

Mechanical data

Number of fibers

Fiber material

Graded index fiber 200/230 μm

Maximum tensile load

800 N

Bending cycles

5 000 000

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 99

Cable type

PCF trailing cable 200/230

Optical data

Attenuation

650 nm

≤10 dB/km

660 nm

≤10 dB/km

Bandwidth length prod-

uct

650 nm 17 GHz*m

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +75 ºC

-30 ºC to +75 ºC

-5 ºC to +50 ºC

Resistance to fire

Flame retardant

Resistance to oil

resistant

UV resistance

resistant

Product characteristics

Free of halogens

Rodent protection

Silicone-free

yes

Cable length for Industrial Ethernet

≤ 100 m

Article number

PCF trailing cable 200/230

PCF fiber-optic cable with plastic cladding,

without connectors, sold by the meter

6XV1861-2C

3.4.6

PCF trailing cable GP 200/230

Description

The PCF trailing cable GP 200/230 is a rugged round cable with a green PVC outer jacket

and Kevlar strengthening elements and two glass fibers with a rugged PVC inner jacket. The

cable is intended for moving applications such as drag chains indoors and outdoors with

cable lengths up to 100 m. The recommended wavelength is 660 nm.

Features and functions

Cable type

PCF trailing cable GP 200/230

Areas of application

Cable for high mechanical load and moving applications, for

example drag chains.

Version of the preassembled

FO cable

• SC RJ plug

• SC RJ PCF plug Pro

Optical networks

3.4 Plastic fiber-optic cables

Passive network components

100 System Manual, 05/2016, C79000-G8976-C271-01

Cable type

PCF trailing cable GP 200/230

Cable type (standard designation)

AT-V(ZN)Y(ZN)Y 2K200/230

Standards, approvals

• RoHS conformity yes

• UL approval yes

Mechanical data

Number of fibers

Fiber material

Graded index fiber 200/230 μm

Maximum tensile load

800 N

Bending cycles

5 000 000

Optical data

Attenuation

650 nm

≤10 dB/km

660 nm

≤10 dB/km

Bandwidth length prod-

uct

650 nm 17 GHz *km

Permitted ambient conditions

Operating temperature

Transportation/storage temperature

Installation temperature

-25 ºC to +75 ºC

-30 ºC to +75 ºC

-5 ºC to +50 ºC

Resistance to fire

Flame retardant

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Free of halogens

Rodent protection

Silicone-free yes

Cable length for Industrial Ethernet ≤ 100 m

Article number

PCF trailing cable 200/230

PCF fiber-optic cable with plastic cladding, without connectors

6XV1861-2D

Optical networks

3.5 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 101

3.5

Plugs

3.5.1

ST/BFOC plug

Description

The ST/BFOC plug is used to assemble glass fiber-optic cables with the following fiber type.

● Glass fiber-optic cables 50/125 µm

● Glass fiber-optic cables 62.5/125 μm

Special tools and trained personnel are required to assemble glass fiber-optic cables.

Features and functions

Connection type

ST/BFOC plug

Standards, approvals

• RoHS conformity yes

• UL approval no

Transmission speed

Industrial Ethernet

100 / 1000 Mbps

Interfaces

Number of optical connectors for

POF fiber-optic cable

Version for opt. interface

ST/BFOC plug

Version for network components or

end devices

Design

Cable outlet 180°

Housing material

Metal and plastic

IP degree of protection

IP20

Product property

Silicone-free

yes

Optical networks

3.5 Plugs

Passive network components

102 System Manual, 05/2016, C79000-G8976-C271-01

Article number

Multimode FO ST/BFOC connect-

or set

Connector set for on-

site assembly of FO standard cable

(50/125/1400), FO ground cable, flexible FO trailing

cable, INDOOR FO cable (62.5/125/900)

1 pack of 20

6GK1901-0DA20-0AA0

3.5.2

Single mode FO LC plug

Description

The SM FO LC plug is used to assemble SM FO robust cable GP. The plug is used to

connect to Ethernet/PROFINET devices with an integrated single mode interface, e.g.

SCALANCE XR-300EEC, SCALANCE XR-300, SCALANCE X308-2M.

Features and functions

Connection type

SM FO LC plug

Standards, approvals

● RoHS conformity

yes

● UL approval

Transmission speed

Industrial Ethernet

100 / 1000 Mbps

Interfaces

Number of optical connectors for

glass fiber-optic cable

Version for opt. interface

Duplex plug (push pull device connection)

Version for network components or

end devices

Design

Cable outlet

180°

Housing material

Plastic

IP degree of protection

IP20

Optical networks

3.5 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 103

Connection type

SM FO LC plug

Product property

Silicone-free

yes

Article number

SM FO LC plug

LC Duplex plug for SM FO robust cable GP (4E9/125)

1 pack of 10

6GK1901-0SB10-2AB0

3.5.3

Multimode FO LC plug

Description

Figure 3-1 Multimode FO LC plug

The MM FO LC plug is used to assemble MM FO robust cable. Numerous SCALANCE

products support the Lucent Connector (LC) interface , e.g. X308-2M, XR-300 and X-

300EEC.

Features and functions

Connection type

MM FO LC plug

Standards, approvals

● RoHS conformity yes

● UL approval no

Transmission speed

Industrial Ethernet

100 / 1000 Mbps

Interfaces

Number of optical connectors for

glass fiber-optic cable

Version for opt. interface

Duplex plug (push pull device connection)

Optical networks

3.5 Plugs

Passive network components

104 System Manual, 05/2016, C79000-G8976-C271-01

Connection type

MM FO LC plug

Version for network components or

end devices

Design

Cable outlet

180°

Housing material

Plastic

IP degree of protection

IP20

Product property

Silicone-free

yes

Article number

MM FO LC plug

LC Duplex plug for MM FO robust cable GP (2G50/125)

1 pack of 10

6GK1901-0RB10-2AB0

3.5.4

FC FO LC Plug

Description

The FC FO LC plug is used to assemble the following cables:

● SIMATIC NET FC FO standard cable (multimode FO cable, Art. no. 6XV1847-2A)

● SIMATIC NET FC FO trailing cable (multimode FO cable, Art. no. 6XV1847-2C)

To assemble these cables the following set of tools is required:

● SIMATIC NET FC FO Termination Kit (Art. no. 6GK1900-0RL00-0AA0

Figure 3-2 FC FO LC plug

Features and functions

Connection type

FC FO LC plug

Standards, approvals

● RoHS conformity

yes

● UL approval

Optical networks

3.5 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 105

Connection type

FC FO LC plug

Transmission speed

Industrial Ethernet

100 / 1000 Mbps

Interfaces

Number of optical connectors for

glass fiber-optic cable

Version for opt. interface

Duplex plug (push pull device connection)

Version for network components or

end devices

Design

Cable outlet

180°

Housing material

Plastic

IP degree of protection

IP20

Product property

Silicone-free

yes

Article number

FC FO LC plug LC Duplex plug for multimode FC FO standard cable and

FC FO trailing cable.

1 pack of 10

6GK1900-1RB00-2AB0

3.5.5

FC FO Termination Kit for the FC FO LC Plug

Description

Figure 3-3 FC FO termination kit FC for the FO LC plug

Optical networks

3.5 Plugs

Passive network components

106 System Manual, 05/2016, C79000-G8976-C271-01

The FC FO Termination Kit is a set of tools for assembling the FC FO LC plug with the

following fiber-optic cables:

● SIMATIC NET FC FO standard cable (multimode FO cable, Art. no. 6XV1847-2A)

● SIMATIC NET FC FO trailing cable (multimode FO cable, Art. no. 6XV1847-2C)

The set of tools contains the following parts:

● Stripping pliers

● Stripping tool with pin holder and brush

● Crimping pliers

● Cleaving pliers

● Scissors

● Alcohol pads

● Container for cable remnants

Article number

FC FO termination kit Tool set for assembling the FC FO LC plug and multimode

fiber-optic cables.

6GK1900-0RL00-0AA0

3.5.6

FO FC SC plug

Description

Figure 3-4 FO FC SC plug

The FO FC SC plug is used to assemble FO FC glass fiber-optic cable. To assemble the

cable on site a case is available. The case contains the tools required for assembly.

Optical networks

3.5 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 107

Features and functions

Connection type

FO FC SC plug

Standards, approvals

● RoHS conformity

yes

● UL approval

Transmission speed

Industrial Ethernet

100 / 1000 Mbps

Interfaces

Number of optical connectors for

POF fiber-optic cable

Version for opt. interface

SC plug

Version for network components or

end devices

yes, FC

Design

Cable outlet

180°

Housing material

Metal and plastic

IP degree of protection

IP20

Product property

Silicone-free

yes

Article numbers

FC FO SC plug

Screw-in plug for on-site assembly with FC FO

cable

1 pack of 10 Duplex plugs + cleaning cloths

6GK1900-1LB00-0AC0

FC FO termination kit

Assembly case for on-site assembly of FC SC

plugs on FC glass fiber-optic cable

On request

Optical networks

3.5 Plugs

Passive network components

108 System Manual, 05/2016, C79000-G8976-C271-01

3.5.7

FO FC ST/BFOC plug

Description

The FO FC ST/BFOC plug is used to assemble FO FC glass fiber-optic cables. To assemble

the cable on site a case is available. The case contains the tools required for assembly.

Features and functions

Connection type

FC FO ST/BFOC plugs

Standards, approvals

● RoHS conformity

yes

● UL approval

Transmission speed

Industrial Ethernet

100 / 1000 Mbps

Interfaces

Number of optical connectors for POF fiber-

optic cable

Version for opt. interface

ST/BFOC plug

Version for network components or end de-

vices

yes, FC

Design

Cable outlet

180°

Housing material

Metal and plastic

IP degree of protection

IP20

Product property

Silicone-free

yes

Article numbers

FC FO ST/BFOC plug

Screw-in plug for on-site assembly with FC FO cables

1 pack of 10 Duplex plugs + cleaning cloths

6GK1900-1GB00-0AC0

FC FO termination kit

Assembly case for on-site assembly of FC ST/BFOC

plugs on FC glass fiber-optic cable

6GK1900-1GL00-0AA0

Optical networks

3.5 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 109

3.5.8

SC RJ plug

Description

The SC RJ plug is used to assemble POF and PCF fiber-optic cables.

The Sc RJ plug is available in two versions:

● SC RJ POF plug

For assembling fiber-optic cables. The maximum cable length between two Industrial

Ethernet devices is 50 m.

● SC RJ PCF plug

For assembling PCF fiber-optic cables. The maximum cable length between two

Industrial Ethernet devices is 100 m.

To assemble the cable on site a case is available. The case contains the tools required for

assembly.

Features and functions

Connection type

SC RJ POF plug

SC RJ PCF plug

Standards, approvals

● RoHS conformity

yes

● UL approval

Transmission speed

Industrial Ethernet

100 Mbps

Interfaces

Number of optical connectors for POF fiber-optic cable

Version for opt. interface SC RJ plug

(push pull device connection)

Version for network components or end devices

Design

Cable outlet

180°

Housing material

Plastic

IP degree of protection

IP65/67

Product property

Silicone-free

yes

Optical networks

3.5 Plugs

Passive network components

110 System Manual, 05/2016, C79000-G8976-C271-01

Article numbers

IE SC RJ POF plug

Screw-in plug for on-site assembly with POF FO cables

1 pack of 20

6GK1900-0MB00-0AC0

Termination kit SC RJ POF plug

Assembly case for on-site assembly of SC RJ POF

plugs consisting of stripping tool,

Kevlar scissors, SC RJ polishing set grinding disc, abra-

sive paper and microscope

6GK1900-0ML00-0AA0

IE SC RJ PCF plug

Screw-in plug for on-site assembly with PCF FO cables

1 pack of 10

6GK1900-0NB00-0AC0

Termination kit SC RJ PCF plug

Assembly case for on-site assembly of SC RJ plugs

consisting of stripping tool, buffer stripping tool, Kevlar

scissors, fiber breaking tool, microscope

6GK1 900-0NL00-0AA0

3.5.9

IE SC RJ Plug Pro

Description

The SC RJ plug Pro is a plug that can be fitted in the filed for the push-pull device

connection with a high degree of protection.

The SC RJ plug Pro is available in two versions:

● SC RJ POF plug Pro

For assembling POF fiber-optic cables The maximum cable length between two Industrial

Ethernet devices is 50 m.

● SC RJ PCF plug Pro

For assembling PCF fiber-optic cables The maximum cable length between two Industrial

Ethernet devices is 100 m.

Optical networks

3.5 Plugs

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 111

Features and functions

Connection type

SC RJ POF plug Pro

SC RJ PCF plug Pro

Standards, approvals

• RoHS conformity yes

• UL approval no

Transmission speed

Industrial Ethernet

100 Mbps

Interfaces

Number of optical connectors for POF fiber-optic cable

Version for opt. interface SC RJ plug

(push pull device connection)

Version for network components or end devices

Design

Cable outlet

180°

Housing material

Plastic

IP degree of protection

IP65/67

Product property

Silicone-free

yes

Article numbers

IE SC RJ POF plug PRO

Plug for on-site assembly with POF FO cables

1 pack of 1

6GK1900-0MB00-6AA0

IE SC RJ PCF plug PRO

Plug for on-site assembly with PCF FO cables

1 pack of 1

6GK1900-0NB00-6AA0

Optical networks

3.5 Plugs

Passive network components

112 System Manual, 05/2016, C79000-G8976-C271-01

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 113

Power supply

4.1

Power cable

Different types of cables are required for the power supply in Industrial Ethernet/PROFINET.

The power cables are used for devices with degree of protection IP65/67 to connect the

signaling contact or 24 V supply of the SCALANCE X and SCALANCE W components

(energy cable 2 x 0.75) and to supply power (energy cable 5 x 1.5) for the ET 200.

Preassembled power cables are also available to supply power for the ET 200 in different

lengths (M12 power connecting cable).

For the different areas of application, the following cables are available for supplying power:

Cabling

Cable type

Features

Area of application

Power

Energy cable 2 x 0.75 Power cable, sold by the

meter

To connect the signaling contact or 24

VDC power supply

Energy cable 5 x 1.5

Power connecting cable

M12-180/M12-180

Preassembled cable with

two 4-pin M12 plugs

Plug-in cable with one 4-pin M12 plug

(A-coded) and one 4-pin M12 socket

(A-coded) for the 24 V power supply.

Robust Power Connecting

Cable

Power cable, preassem-

bled or sold by the meter

Preassembled cable with one 4-pin

M12 plug and one 4-pin M12 socket

(both A-coded) for the power supply.

Also available by the meter without

connectors.

4.1.1

Energy cable 2 x 0.75

Description

Rugged cable that can be dragged with 2 copper cores for connecting the signaling contact

and 24 VDC power supply to SCALANCE X and SCALANCE W components.

The energy cable 2x1,5 is assembled with the following plug-in connectors:

● Signaling contact M12 cable connector

For connection to SCALANCE X208Pro for the signaling contact

● Power M12 cable connector

For connecting to SCALANCE X208Pro and SCALANCE W700 for the 24 VDC power

supply.

Power supply

4.1 Power cable

Passive network components

114 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Cable type 1)

Energy cable 2x1.5

Areas of application

Connection for signaling contact and power supply

Cable type (standard designation)

2YY (ST) CY 2x2x0.64/1.5-100 GN

Jacket

PVC Ø (7.4 ± 0.3) mm, gray

Electrical data

Operating voltage (rms value)

600 V

Continuous current of the power

cores

6 A

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-20 ºC to +80 ºC

Resistance to fire

flame retardant to IEC 60332-1-2

Resistance to oil

Conditionally resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Article number

Energy cable 2x1.5

2-core power cable (2 x 0.75 mm2) for connection to M12 plug-

in connectors.

6XV1812-8A

4.1.2

Energy cable 5 x 1.5

Description

The Energy cable 5 x 1.5; is used for connecting the 24 V power supply for ET 200 modules

via 7/8" plug-in connectors.

The power supply concept of the ET 200 involves the voltage being supplied by a central

power supply unit and being looped through from device to device. The load and device

supply are via separate circuits. The devices have a 7/8" male connector on the input side

and a socket on the output side.

The Energy cable 5x1.5 is available both in meters to allow connectors to be fitted on-site

and preassembled in various lengths as 7/8" plug-in cable with degree of protection IP65.

At one end the 7/8" cable has a 5-pin plug-in connector with a pin insert and at the other end

a 5-pin 7/8" plug-in connector with a socket insert.

Power supply

4.1 Power cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 115

Features and functions

Cable type 1)

Energy cable 5x1.5

Areas of application

Power supply of ET 200 modules with 7/8" power interface

Cable type (standard designation)

L-Y11Y-Z 5x1x1.5 GR

Jacket

PUR Ø (10.5 ± 0.3) mm, gray

Electrical data

Operating voltage (rms value)

600 V

Continuous current of the power

cores

16 A

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 °C to +80 °C

Resistance to fire

flame retardant to IEC 60332-1-2

Resistance to oil

resistant

UV resistance

resistant

Product characteristics

Halogen-free

Silicone-free

yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Article numbers

Energy cable 5x1.5

5-core power cable (5 x 1.5 mm2) for connection to 7/8" plug-

in connectors.

6XV1830-8AH10

7/8" PLUG-IN CABLE

Preassembled Energy cable 5x1.5 with two 5-pin 7/8"

plugs/sockets. Maximum cable length 50 m

• 0.3 m

6XV1822-5BE30

• 0.5 m

6XV1822-5BE50

• 1.0 m

6XV1822-5BH10

• 1.5 m

6XV1822-5BH15

• 2.0 m

6XV1822-5BH20

• 3.0 m

6Xv1822-5BH30

• 5.0 m

6XV1822-5BH50

• 10 m

6XV1822-5BN10

• 15 m

6XV1822-5BN15

Power supply

4.1 Power cable

Passive network components

116 System Manual, 05/2016, C79000-G8976-C271-01

4.1.3

Power connecting cable M12-180/M12-180

Description

The power connecting cable M12 is an assembled plug-in cable for 24 V power supply to the

ET 200.

The power connecting cable M12 has a 4-pin M12 plug at one end and a 4-pin M12 socket

at the other. The M12 plug and the M12 socket are A-coded and have a straight cable outlet.

Features and functions

Cable type 1)

Power connecting cable M12-180/M12-180

Areas of application

Connection of the 24 V power supply to ET 200eco with degree

of protection IP65/67

Cable type (standard designation)

LI9YH-Y 4x0.75

Jacket

PVC Ø (5.7 ± 0.2) mm, gray

Electrical data

Operating voltage (rms value)

300 V

Continuous current of the power

cores

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

–25 ºC to +80 ºC

With a moving application a maximum operating temperature of

–5 ºC to +80 ºC must be adhered to.

-25 ºC to +80 ºC

-5 ºC to +80 ºC

Resistance to fire

Flame retardant to UL 758 (CSA FT 1)

Resistance to oil

Conditionally resistant

UV resistance

not resistant

Product characteristics

Halogen-free

Silicone-free

yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Article numbers

Power connecting cable M12-

180/M12-180

Flexible 4-core power cable, assembled with A-coded 4-pin

M12 plug and A-coded 4-pin M12 socket to supply the ET

200 with 24 VDC.

• 0.3 m

6XV1801-5DE30

• 0.5 m

6XV1801-5DE50

• 1.0 m

6XV1801-5DH10

Power supply

4.1 Power cable

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 117

Power connecting cable M12-

180/M12-180

• 1.5 m

6XV1801-5DH15

• 2.0 m

6XV1801-5DH20

• 3.0 m

6XV1801-5DH30

• 5.0 m

6XV1801-5DH50

• 10 m

6XV1801-5DN10

• 15 m

6XV1801-5DN15

4.1.4

Robust Power Connecting Cable

Description

The Robust Power Connecting Cable is a 4-wire cable for power supply in the degree of

protection IP69. The preassembled cables have a 4-pin M12 plug at one end and a 4-pin

socket at the other (both A-coded). This product is also available by the meter without

connectors.

Features and functions

Cable type 1)

Robust Power Connecting Cable

Areas of application

Cable for power supply in the degree of protection IP69.

Cable type (standard designation)

LI9YY6Y 4x1x0.75 GR

Jacket

FEP Ø 5,7 ± 0,2 mm, transparent (inner jacket gray)

Electrical data

Operating voltage (rms value)

300 V

Continuous current of the power

cores

Permitted ambient conditions

Operating temperature

Transportation/storage tempera-

ture

Installation temperature

-40 ℃ to +80 ℃

Resistance to fire

Not flame resistant

Product characteristics

Halogen-free

Silicone-free

Yes

1) Electrical properties at 20 °C, tests according to DIN 47 250, Part 4, or DIN VDE 0472

Power supply

4.1 Power cable

Passive network components

118 System Manual, 05/2016, C79000-G8976-C271-01

Article numbers

Robust Energy Cable 4-wire cable for the power supply.

Sold by the meter, minimum order 20 m, maximum order 4000

6XV1801-2A

Robust Power Connecting Cable 4-wire cable for the power supply, preassembled with an M12

plug and an M12 socket (both A-coded) in the degree of protec-

tion IP69.

• 1.0 m

6XV1801-5AH10

• 2.0 m

6XV1801-5AH20

• 3.0 m

6XV1801-5AH30

• 5.0 m

6XV1801-5AH50

Power supply

4.2 Cable connectors

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 119

4.2

Cable connectors

4.2.1

Power Plug Pro

Description

The IE power plug PRO is 5-pin power plug-in connector that can be fitted in the field for on-

site assembly. The plug-in connector is used for the 2 x 24 V power supply for

SCALANCE X-200IRT PRO switches and the SIMATIC ET200pro. The energy cable 5x1.5

is assembled with the plug-in connector.

The silicone-free design allows it to be used in the automobile industry, for example in paint

spraying lines.

Features and functions

Connection type

IE power plug PRO

Standards, approvals

• UL approval yes

• RoHS conformity yes

Interfaces

Number of electrical connectors for network

components / end devices

Version for network components or end de-

vices

Power contacts (push-pull housing)

Feed-out to cable

integrated spring contacts for 5-wire power cables

Cable outlet

180°

Housing material

Plastic

Permitted ambient conditions

Operating temperature

- 40 °C to + 70 °C

Transportation/storage temperature

- 40 °C to + 70 °C

IP degree of protection

IP 65/67

Silicone-free

yes

Power supply

4.2 Cable connectors

Passive network components

120 System Manual, 05/2016, C79000-G8976-C271-01

Article numbers

IE power plug PRO

5-pin power plug-in connector for on-site assembly with

push-pull device connection

1 pack of 1

6GK1907-0AB10-6AA0

4.2.2

7/8" plug-in connector

Description

The 7/8" plug-in connector is 5-pin plug-in connector that can be fitted in the field for on-site

assembly. The plug-in connector is used for the power supply of PROFIBUS nodes (e.g.

SIMATIC ET 200) with degree of protection IP65. The energy cable 5x1.5 is assembled with

the plug-in connector.

The 7/8" plug-in connector is available in the following versions.

● Pin insert

For feeding in the supply voltage

● Socket insert

For looping through the supply voltage

Features and functions

Connection type

7/8" plug-in connector

Standards, approvals

• UL approval no

• RoHS conformity yes

Interfaces

Number of electrical connectors for network components /

end devices

Version for network components or end devices 7/8" plug

(socket insert or pin insert)

Feed-out to cables

Screw terminal

Cable outlet

180°

Power supply

4.2 Cable connectors

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 121

Connection type

7/8" plug-in connector

Housing material

Plastic

Permitted ambient conditions

Operating temperature

- 40 °C to + 70 °C

Transportation/storage temperature

- 40 °C to + 80 °C

IP degree of protection

IP 65/67

Silicone-free

yes

Article numbers

7/8" plug-in connector

Plug-in connector with axial cable outlet for field assem-

bly for ET 200, 5-pin, metal casing.

Pin insert

1 pack of 5

6GK1905-0FA00

Socket insert

1 pack of 5

6GK1905-0FA00

4.2.3

Power M12 plug Pro

Description

The Power M12 plug PRO is a 4-pin A-coded M12 power plug-in connector for connection to

energy cable 2x0.75.

The Power M12 plug PRO is suitable for connection to power supply PS791-1PRO for 24

VDC power supply.

Power supply

4.2 Cable connectors

Passive network components

122 System Manual, 05/2016, C79000-G8976-C271-01

Features and functions

Connection type

Power M12 plug PRO

Standards, approvals

• UL approval no

• RoHS conformity yes

Interfaces

Number of electrical connectors for network

components / end devices

Version for network components or end de-

vices

M12 connector plug

(pin insert, A-coded, 4-pin)

Feed-out to cable

integrated screw contacts for 2-wire power cables

Cable outlet

180°

Housing material

Plastic

Permitted ambient conditions

Operating temperature

- 40 °C to + 70 °C

Transportation/storage temperature

- 40 °C to + 80 °C

IP degree of protection

IP 65/67

Silicone-free

yes

Article number

Power M12 plug PRO

Plug-in connector for connection to power supply

PS791-1 PRO; 4-pin, A-coded, with assembly instruc-

tions.

1 pack of 3

6GK1907-0DB10-6AA3

Power supply

4.3 Power supply

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 123

4.3

Power supply

4.3.1

Power supply PS791-1PRO

Description

The power supply PS791-PRO is an AC/DC power supply unit for input voltages of 90 to 265

VAC for all SCALANCE products. The metal housing provides protection from water and

dust in degree of protection IP65.

Figure 4-1 Power supply PS791-1PRO

The following options are available for mounting the power supply PS791-1PRO:

● Directly on the SCALANCE W700 devices and SCALANCE X200 devices

● Wall

● S7-300 mounting rail

● DIN rail

To connect the M12 socket X2 with the SCALANCE products W788 and W744 and the

SCALANCE X208PRO, the M12 power cord supplied with the products can be used. As an

alternative, a user-assembled cable can also be used.

Overview

Power supply PS791-1PRO

Interfaces

AC Power 3+PE Cable Connector for AC 100-

240V power supply

Power M12 Plug PRO or Power Cord M12 for 24

VDC output voltage

On/off switch

Electrical data

Input voltage

90 to 265 VAC at 47 Hz to 63 Hz

Output voltage

24 VDC, +-7%, 0.42 A

Power supply

4.3 Power supply

Passive network components

124 System Manual, 05/2016, C79000-G8976-C271-01

Power supply PS791-1PRO

Output power

10 W

Network disruption

Bypass min. 20 ms 230 VAC

Permitted ambient conditions

• Operating temperature

• Transportation/storage temperature

• -20 ℃ to +60 °C

• -40 °C to +85 °C

Relative humidity

100%

Standards, approvals, degree of protection

Approvals EMC:

EN 55022 Class B,

EN 61000-4;

UL 1950, EN 60950;

Degree of protection

IP65

Article numbers

Power supply PS791-1PRO

AC/DC power supply unit for input voltages from 90 to 265

VAC for numerous SCALANCE products in degree of

protection IP65

6GK5791-1PS00-0AA6

AC Power 3+PE Cable Con-

nector

Connecting socket for connecting the power supply

PS791-1PRO to an AC power supply

1 pack of 5

6GK1 907-0FC10-0AA5

4.3.2

Power M12 cable connector PRO

Description

Figure 4-2 Power M12 cable connector PRO

Power supply

4.3 Power supply

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 125

Power M12 cable connector PRO is a 4-pin M12 power connection socket that can be

assembled on site. The connection socket is used for the 24 VDC power supply of the

devices SCALANCE X208PRO or SCALANCE W788-xPRO.

Features and functions

Connection type

Power M12 cable connector PRO

Standards, approvals

• UL approval no

• RoHS conformity yes

Interfaces

Number of electrical connectors for network

components / end devices

Version for network components or end de-

vices

M12 plug

(socket insert, A-coded, 4-pin)

Cable outlet

180°

Housing material

Plastic

Permitted ambient conditions

Operating temperature

- 40 °C to + 70 °C

Transportation/storage temperature

- 40 °C to + 80 °C

IP degree of protection

IP 65/67

Silicone-free

yes

Article number

Power M12 cable connector PRO

Connection socket for connection of SCALANCE W700

for 24 VDC power supply; 4-pin, A-coded with assembly

instructions.

1 pack of 3

6GK1907-0DC10-6AA3

Power supply

4.3 Power supply

Passive network components

126 System Manual, 05/2016, C79000-G8976-C271-01

4.3.3

7/8" Power T-Trap PRO

Description

Figure 4-3 7/8" Power T-Trap PRO

The plug-in connector consists of two 7/8" socket inserts and a 7/8" pin insert, both 5-pin

The 7/8" Power T-Trap PRO is used for power supply and power distribution to ET200pro

modules.

Features and functions

Connection type

7/8" Power T-Trap PRO

Standards, approvals

• UL approval no

• RoHS conformity yes

Interfaces

Number of electrical connectors for network com-

ponents / end devices

Version for network components or end devices 7/8" plug-in connector (2 x socket insert 1 x pin

insert)

Cable outlet

180°

Housing material

Metal

Permitted ambient conditions

Operating temperature - 40 °C to + 70 °C

Transportation/storage temperature

- 40 °C to + 80 °C

IP degree of protection

IP 65/67

Silicone-free

yes

Power supply

4.3 Power supply

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 127

Article number

7/8" Power T-Trap PRO

Power T piece for ET 200 with two 7/8" socket inserts and one

7/8" pin insert.

Pin insert

1 pack of 5

6GK1905-0FC00

4.3.4

Signaling contact M12 cable connector PRO

Description

The signaling contact M12 cable connector PRO is a 5-pin M12 cable connector that is B-

coded for the signaling contact. The component has degree of protection IP65 and is used

with the SCALANCE X208PRO.

Features and functions

Connection type

Signaling contact M12 cable connector PRO

Standards, approvals

• UL approval no

• RoHS conformity yes

Interfaces

Number of electrical connectors for network

components / end devices

Version for network components or end de-

vices

M12 connector plug

(socket insert, B-coded, 4-pin)

Cable outlet

180°

Housing material

Plastic

Permitted ambient conditions

Operating temperature

- 40 °C to + 70 °C

Transportation/storage temperature

- 40 °C to + 80 °C

Power supply

4.3 Power supply

Passive network components

128 System Manual, 05/2016, C79000-G8976-C271-01

Connection type

Signaling contact M12 cable connector PRO

IP degree of protection

IP 65/67

Silicone-free

yes

Article number

Signaling contact M12 cable con-

nector PRO

Connection socket for connection of SCALANCE

X208PRO for signaling contact, 5-pin, B-coded with

assembly instructions

1 pack of 3

6GK1908-0DC10-6AA3

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 129

Instructions for fitting connectors, attachments and

devices

5.1

Note on the installation instructions

This section contains installation instructions for several of the most common components.

You will find more detailed information in the documentation accompanying the particular

product.

Instructions for fitting connectors, attachments and devices

5.2 Industrial Ethernet FastConnect Stripping Tool

Passive network components

130 System Manual, 05/2016, C79000-G8976-C271-01

5.2

Industrial Ethernet FastConnect Stripping Tool

Introduction

The section describes how to use the IE FC stripping tool.

Note the instructions in the instructions for use that accompany the IE FC stripping tool.

CAUTION

Improper use

The IE FC stripping tool is only approved for the stripping of SIMATIC NET Industrial

Ethernet FastConnect cables. If used for other purposes, this can cause accidents or

destroy the tool and cable.

Under no circumstance use the tool on cables carrying power.

Requirement for the qualification of the personnel.

In the sense of these operating instructions or warning notices, qualified personnel are

people familiar with the setting up, installation, commissioning and operation of the product

and who have suitable qualification for their activities and have been trained in first aid.

IE FC stripping tool

With the IE FC stripping tool the outer jacket and shield of IE FC cables can be stripped to

the correct length. The IE FC cable prepared in this way is connected via insulation

displacement contacts to the plug or the outlet. For the IE FC stripping tool, there are two

blade cassettes with different knife distances. The IE FC stripping tool is supplied with a

yellow blade cassette.

Note

Notes on using the IE FC stripping tool

•

The insulation piercing contacts of the plug or outlet can be released and recontacted up

to 10 times.

•

Once the ends of cables have made contact, do not make

contact with them again but cut

them off.

•

Replace the knife cassette if the cut is not clean or after stripping approximately

– 1500 cables with a PVC outer jacket

–

150 cable on line with PUR outer jackets.

Instructions for fitting connectors, attachments and devices

5.2 Industrial Ethernet FastConnect Stripping Tool

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 131

Order numbers

IE FC Stripping Tool

Preset insulation stripping tool for stripping of IE FC cables

6GK1901-1GA00

IE FC blade cassettes (5 mm)

(green)

Blade cassette with a knife distance of 5 mm for:

• IE FC RJ-45 plugs (6GK1901-1BB....)

• IE FC modular outlet (6GK1901-1B....)

1 pack of 5

6GK1901-1GB01

IE FC blade cassettes (12 mm)

(yellow)

Blade cassette with a knife distance of 12 mm for:

• IE FC outlet RJ-45 (6GK1901-1FC00-0AA0)

• ELS TP40 and ELS TP40M (6GK1102-6A...)

• RJ-45 pug-in connector from the HARTING company

1 pack of 5

6GK1901-1GB00

Procedure

1. Fit he required blade cassette in the

stripping tool.

2. After changing the blade cassette

adjut the cutting depth using the

middle socket-head screw.

1. Take the stripping tool in your right

hand.

Measure the cable length by placing

the cable on the template. Use the

index finger of your left hand as the

limit stop.

1. Place the measured end of the

cable in the stripping tool. The index

finger of your left hand is used as a

limit stop.

Instructions for fitting connectors, attachments and devices

5.2 Industrial Ethernet FastConnect Stripping Tool

Passive network components

132 System Manual, 05/2016, C79000-G8976-C271-01

1. Clamp the stripping tool as far as it

will go.

1. To strip the insulation, turn the tool

in the direction of the arrow with

– PVC insulation approx. 4 times

– PUR insulation approx. 8 times

1. Keeping the it closed, pull the strip-

ping tool with jacket and remnants

of the shield off the end of the ca-

ble.

If the cutting results are poor,

change the blade cassette.

1. After releasing the tool, remove the

remnants remaining in the tool.

1. If the white filler was not removed

off when you stripped the cable,

remove the rest by pulling it with

your hand.

1. If you score the protective foil be-

tween the wires with a screwdriver,

this is easier to remove.

1. Pull the protective foil off the wires. 1. For assembling the cable, follow the

assembly instructions accompany-

ing your plug or outlet.

1. Replace the knife cassette after

approx:

– 1500 cables with a PVC outer

jacket

– 150 cables with PUR outer

jackets

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 133

5.3

Electrical networks

5.3.1

Fitting IE FC cable 2 x 2 with an IE FC RJ-45 plug 180 2x2

Introduction

The individual steps required to assemble a 4-wire IE FC cable and an IE FC RJ-45 plug 180

are explained below.

Note

Fitting the IE FC RJ-45 plug 90 and the IE FC RJ-45 plug 145

The figures show how to fit an IE FC RJ

-45 plug 180. To fit the IE FC RJ-45 plug 145 and

the IE FC RJ

-45 plug 90, the procedure is analogous

Refer to the information in this section "Industrial Ethernet FastConnect stripping tool

(Page 130)" and the installation instructions for the plug.

Note

Instructions for assembly

•

The insulation-piercing contacts of the IE FC RJ-

45 plug can be released and recontacted

up to 10 times.

•

Once the ends of cables have made contact, do not make contact with them

again but cut

them off.

•

Do not pull on the plug when releasing it.

•

To assemble a cable with crossed over wires, connect the color-coded wires at one end

of the cable in the connector as shown below:

– connect white with yellow

–

connect blue with orange

Connector pinout

With the four integrated insulation piercing contacts, establishing contact with the FC cable

variants is simple and error-proof. With the casing open, colored markers on the contact

cover make it simple to connect the cores to the insulation piercing contacts. The transparent

synthetic material of the contact cover allows the user to check the contacts at any time.

Pins of RJ-45

Wire color

Signal on switch

Signal on end device

Yellow

RX+

TX+

Orange

RX-

TX-

White

TX+

RX+

Blue

TX-

RX-

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

134 System Manual, 05/2016, C79000-G8976-C271-01

Procedure

1. In the stripping tool, use the green

knife cassette (5.1 mm).

2. If necessary, adjust the cutting

depth of the knife cassette using the

middle socket-head screw.

1. Take the stripping tool in your right

hand.

2. Place the cable on the measuring

template.

Use your left index finger as the lim-

it stop.

1. Place the cable in the stripping tool.

The index finger of your left hand is

the limit stop.

2. Tighten the stripping tool.

1. To strip the insulation, turn the tool

in the direction of the arrow

– approx. 4 times for PVC insula-

tion

– approx. 8 times for PUR insula-

tion.

1. Keeping the it closed, pull the strip-

ping tool with jacket and remnants

of the shield off the end of the ca-

ble.

1. Remove the remaining white filler

and the transparent protective foil

with your fingers.

2. Cut off the dummy cores.

1. Spread out the cores according to

their colors on the contact elements

of the FC RJ-45 plug.

1. Insert the cores as far as they will

go into the contact elements of the

FC RJ-45 plug.

1. Push the cable into position (see

arrows).

2. Press the contact elements down

as far as the limit stop.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 135

1. Close the cover.

2. Turn the locking mechanism with

your hand as far as possible in the

direction of the arrow.

1. Insert a 2.5 mm screwdriver into the

hole in the locking mechanism and

continue turning it as far as the limit

stop.

1. The connector is correctly locked

when the opening of the locking

mechanism is at the side and the

side edges are flush with the con-

nector.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

136 System Manual, 05/2016, C79000-G8976-C271-01

5.3.2

Fitting IE FC cable 2 x 2 with an IE FC RJ-45 plug PRO

Introduction

The individual steps required to assemble a 4-wire IE FC cable and an IE FC RJ-45 plug Pro

are explained below.

Refer to the information in this section "Industrial Ethernet FastConnect stripping tool

(Page 130)" and the installation instructions for the plug.

Note

Instructions for assembly

•

The insulation-piercing contacts of the IE FC RJ-45 plug Pro can be released and

recontacted up to 10 times.

•

Once the ends of cables have made contact, do not make contact with them again but cut

them off.

•

Do not pull on the plug when releasing it.

•

To assemble a cable with crossed over wires, connect the color-coded wires at one end

of the cable in the connector as shown below:

– connect white with yellow

–

connect blue with orange

Procedure

The IE FC RJ-45 plug PRO consists of

the following:

•

- Catch

•

- Contact holder

•

- casing

•

- Seal

•

- Sealing ring

•

- Forcing nut

1. In the stripping tool, use the yellow

knife cassette (12 mm).

2. If necessary, adjust the cutting

depth of the knife cassette using the

middle socket-head screw

1. Take the stripping tool in your right

hand.

2. Place the cable on the measuring

template.

Use your left index finger as the lim-

it stop

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 137

1. Place the cable in the stripping tool.

The index finger of your left hand is

the limit stop.

2. Tighten the stripping tool

1. To strip the insulation, turn the tool

in the direction of the arrow

– approx. 4 times for PVC insula-

tion

– approx. 8 times for PUR insula-

tion

1. Remove the cable jacket, shield

and the white filler with your hand.

1. Cut back the wires to a length of 15

mm and + 5 mm shield.

1. Push parts a to d onto the cable in

the order shown.

1. Open the cover of the contact hold-

er (b).

2. Place the wires in the guide slots

according to the colored markers on

the contact holder.

3. Align the cable so that the shield

lies between the shield clips of the

contact holder.

1. Contact the wires by pressing down

the cover with a tool or hard object.

1. Push the contact holder into the

casing.

Make sure that the contract holder

is in the correct position.

1. Push the catch onto the casing.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

138 System Manual, 05/2016, C79000-G8976-C271-01

1. Pull back the seal and sealing ring.

2. Turn and open the forcing nut.

3. Push back the sealing ring, the seal

and the forcing nut.

You can now remove the contact

holder.

1. Push the seal, the sealing ring and

the forcing nut in the direction of the

casing. Tighten the forcing nut in a

clockwise direction.

Opening the plug:

1. To open the connector, press back

the catch, for example with a slotted

screwdriver so that the contact

holder can be taken out.

2. Loosen the forcing nut.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 139

5.3.3

Fitting an IE FC cable 2 x 2 with an IE RJ-45 plug PRO

Introduction

The individual steps required to assemble a 4-wire IE FC cable and an IE RJ-45 plug Pro are

explained below.

Refer to the information in this section "Industrial Ethernet FastConnect stripping tool

(Page 130)" and the installation instructions for the plug.

Note

Instructions for assembly

•

The insulation-piercing contacts of the IE RJ-45 plug Pro can be released and

recontacted up to 10 times.

•

Once the ends of cables have made contact, do not make contact with them again but cut

them off.

•

Do not pull on the plug when releasing it.

•

To assemble a cable with crossed over wires, connect the color-coded wires at one end

of the cable in the connector as shown below:

– connect white with yellow

–

connect blue with orange

Procedure

The IE RJ-45 plug Pro consists of the

following:

•

: Forcing nut

•

: Sealing ring

•

: Rear wall

•

: Latch

•

: Contact holder

•

: Casing

•

: Metal foil

1. Release the forcing nut (a) and the

sealing ring (b) from the back wall

2. Push the forcing nut (a), the sealing

ring (b) and the back wall (c) loosely

over the cable.

1. In the stripping tool, use the yellow

knife cassette (12 mm).

2. If necessary, adjust the cutting

depth of the knife cassette using the

middle socket-head screw.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

140 System Manual, 05/2016, C79000-G8976-C271-01

1. Take the stripping tool in your right

hand.

2. Place the cable on the measuring

template.

Use your left index finger as the lim-

it stop.

1. Place the cable in the stripping tool.

The index finger of your left hand is

the limit stop.

2. Tighten the stripping tool.

1. To strip the insulation, turn the tool

in the direction of the arrow

– approx. 4 times for PVC insula-

tion

– approx. 8 times for PUR insula-

tion

1. Remove the cable jacket, shield

and the white filler with your hand.

1. Turn back the braid over the cable

jacket and secure it with the sup-

plied adhesive metallic cable foil.

2. Remove the exposed foil shield and

white filler below it.

1. Arrange the wires according their

colors:

– a: yellow

– b: orange

– c: white

– d: blue

2. Cut back the wires to a length of 15

mm.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 141

1. Open the cover of the contact hold-

er.

2. Place the wires in the guide slots

according to the colored markers on

the contact holder.

1. Contact the wires by pressing down

the cover with a tool or hard object.

2. Align the cable so that the shield foil

lies between the shield clips of the

contact holder.

1. Push the sealing ring into the rear

wall and screw the forcing nut over

it loosely.

2. Turn the rear wall so that the latch

is on the same side as the RJ-45

release catch.

3. Push the contact holder into the

rear wall as far as the limit stop.

The limit stop must not jut out over

the cover of the contact holder.

1. Secure the position of the contact

holder by tightening the forcing nut.

2. Push the housing over the contact

holder. The latch of the rear wall

must be on the same side as the

labeling of the casing.

1. Press the rear wall into the housing

until it clicks into place audibly.

Avoid pressing on the seal around

the rear wall.

2. Tighten the forcing nut completely.

Opening the plug:

1. To open the plug, lever the catch in

the housing towards the side wall

with a slotted screwdriver.

2. Pull the rear wall out of the housing

by the cable while holding down the

screwdriver.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

142 System Manual, 05/2016, C79000-G8976-C271-01

5.3.4

Fitting IE FC cable 2 x 2 with an IE FC RJ-45 plug 180 4x2

Introduction

The individual steps required to assemble a 4-wire IE FC cable and an IE FC RJ-45 plug 180

4x2 are explained below.

Refer to the information in this section "Industrial Ethernet FastConnect stripping tool

(Page 130)" and the installation instructions for the plug.

Note

Instructions for assembly

•

The insulation-piercing contacts of the IE FC RJ-45 plug 4x2 can be released and

recontacted with the same cable cross section up to 10 times.

•

Once the ends of cables have made contact, do not make contact with them again but cut

them off.

•

Do not pull on the plug when releasing it.

•

To assemble a cable with crossed over wires, connect the color-coded wires at one end

of the cable in the connector as shown below:

– connect white with yellow

–

connect blue with orange

Procedure

1. In the stripping tool, use the green

knife cassette (5.1 mm).

2. If necessary, adjust the cutting

depth of the knife cassette using the

middle socket-head screw.

1. Take the stripping tool in your right

hand.

2. Measure the cable length against

the measuring template. Use your

left index finger as the limit stop.

Note:

If the stripping tool has an older

measuring template, add the new

measure (38 mm from the edge of the

stripping tool).

1. Place the cable in the stripping

tool. The index finger of your left

hand is the limit stop.

2. Tighten the stripping tool.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 143

1. To strip the insulation, turn the tool

in the direction of the arrow

– approx. 4 times for PVC insula-

tion

– approx. 8 times for PUR insula-

tion

1. Keeping the it closed, pull the strip-

ping tool with jacket and remnants

of the shield off the end of the cable.

Note:

If a core is damaged, the section

of cable must be cut off and stripped

again.

1. Remove the cable jacket, shield

and the white filler with your hand.

1. Spread out the cores according to

their colors on the contact holder of

the FC RJ-45 plug 180 4x2.

2. Cut off the filler thread as close to

the shield braid as possible.

1. Insert the wires into the contact

element of the FC RJ-45 plug 180 4

x 2 as far as the limit stop according

to the color markings.

Press down the contact element as

far as the limit stop.

Notes:

If the wires do not completely

fill the wire guide slits, the cable must

be stripped again.

If the wires extend beyond the wire

guide slits, the wires must be short-

ened.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

144 System Manual, 05/2016, C79000-G8976-C271-01

1. Push the cable into position as

shown in the picture.

Make sure that the wires remain in

the guide slits and close the cover.

Notes:

Make sure that the shield sits

correctly as shown in the picture above.

The visible color marking is not valid for

this type of installation.

1. Turn the locking mechanism with

your hand as far as possible in the

direction of the arrow.

2. Insert a screwdriver (3mm) into the

slit in the locking mechanism and

turn it as far as the limit stop.

3. The connector is correctly locked

when the opening of the locking

mechanism is at the side and the

side edges are flush with the con-

nector.

Removal from an RJ-45 jack

1. If space is limited, release the plug

using a screwdriver (blade 3mm

wide).

Notice:

When releasing, do not pull on

the plug!

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 145

5.3.5

Fitting an IE FC cable 4 x 2 with an IE FC RJ-45 plug 180 4x2

Introduction

The individual steps required to assemble a 8-wire IE FC cable and an IE RJ-45 plug 180

4x2 are explained below.

Refer to the information in this section "Industrial Ethernet FastConnect stripping tool

(Page 130)" and the installation instructions for the plug.

Note

Instructions for assembly

•

The insulation-piercing contacts of the IE FC RJ-45 plug 4x2 can be released and

recontacted with the same cable cross section up to 10 times.

•

Once the ends of cables have

made contact, do not make contact with them again but cut

them off.

•

Do not pull on the plug when releasing it.

•

To assemble a cable with crossed over wires, connect the color-coded wires at one end

of the cable in the connector as shown below:

– Connect orange-white with green-white

– Connect orange with green

– Connect brown-white with blue

–

Connect brown with blue-white

Procedure

1. In the stripping tool, use the green

knife cassette (5.1 mm).

2. If necessary, adjust the cutting

depth of the knife cassette using the

middle socket-head screw.

1. Take the stripping tool in your right

hand.

2. Measure the cable length against

the measuring template. Use your

left index finger as the limit stop.

Note:

If the stripping tool has an older

measuring template, add the new

measure (38 mm from the edge of the

stripping tool).

1. Place the cable in the stripping tool.

The index finger of your left hand is

the limit stop.

2. Tighten the stripping tool.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

146 System Manual, 05/2016, C79000-G8976-C271-01

1. To strip the insulation, turn the tool

in the direction of the arrow

– approx. 4 times for PVC insula-

tion

– approx. 8 times for PUR insula-

tion

1. Keeping the it closed, pull the strip-

ping tool with jacket and remnants

of the shield off the end of the ca-

ble.

Note:

If a core is damaged, the section

of cable must be cut off and stripped

again.

1. Remove any remaining white filler

with your fingers.

2. Cut off the inner cable spacer as

close to the shield braid as possi-

ble. Also shorten the cable spacer

between the two pairs or-

ange/orange-white, green/green-

white, and blue/blue-white,

brown/brown-white.

1. Spread out the cores according to

their colors on the contact elements

of the FC RJ-45 plug 180 4x2.

1. Bend the contact element to ap-

prox. 45°.

2. Push the pairs with colors

green/green-white and or-

ange/orange-white into the lower

part of the contact element accord-

ing to the color markers. Make sure

that the wires sit correctly in the

wire guide slits.

Note:

Tweezers can be used to thread

the wires into the wire guide slits.

1. Press down the contact element as

far as the limit stop.

Notes:

If the wires do not completely fill

the wire guide slits, the cable must be

stripped again.

If the wires extend beyond the wire

guide slits, the wires must be short-

ened.

Once the IE FC RJ-45 Plug 180 4x2

has been fitted to a cable it may no

longer be fitted to cables with a differ-

ent cable cross-section.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 147

1. Press the blue/blue-white and

brown/brown-white pairs into the

color coded wire guide slits.

Cut the wires so that they extend by

1-2 mm (see scissors symbol).

3. Push the cable into position as

shown in the picture (see arrows).

Make sure that the wires remain in

the guide slits and close the cover.

Note:

The edge of the cable jacket

must be between the two spikes as

shown in the picture.

1. Turn the locking mechanism with

your hand as far as possible in the

direction of the arrow.

2. Insert a screwdriver (3 mm) into the

slit in the locking mechanism and

turn it as far as the limit stop.

3. The connector is correctly locked

when the opening of the locking

mechanism is at the side and the

side edges are flush with the con-

nector.

Note:

If necessary, the connector can

be closed with pliers.

Removal from an RJ-45 jack

1. If space is limited, release the plug

using a screwdriver (blade 3 mm

wide).

Notice:

When releasing, do not pull on

the plug!

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

148 System Manual, 05/2016, C79000-G8976-C271-01

5.3.6

Fitting the IE FC TP cable with an IE FC M12 plug PRO

Introduction

The individual steps required to assemble an IE FC TP cable and an IE FC M12 plug PRO

are explained below.

Note the information in the assembly instructions of the plug.

Procedure

a front part of connector

b connector housing

c catch

1. Press the catch (c) in the direction

of the arrow.

2. While holding the catch open, un-

screw the connector housing (b)

from the front part of the connector

(a).

1. Fit the connector housing (b) over

the cable.

4. Strip the cable as shown in the draw-

ing using a suitable stripping tool with

the required cutting depth or using the

IE stripping tool*.

* The stripping tool is not suitable for

cables other than FC cables.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 149

1. Use the stripping tool 6GK1 901-

1GA00 with the green knife cas-

sette 6GK1 901-1GB01.

2. Measure the cable length against

the measuring template. The cor-

rect length is indicated by the mark-

er with the number 6GK1901-

0DB....

Note:

If the required marks are not

available on the stripping tool, make a

mark manually 32 mm from the left-

hand edge.

1. Insert the cable. Your index finger

acts as the limit stop.

2. Clamp the stripping tool as far as it

will go.

3. Turn the stripping tool as follows:

– 4 times for PVC cables,

– 8 times for PUR cables

in the direction of the arrow and

remove remnants of the jacket

and if necessary nip off the

dummy elements.

1. Open the flap (e) and push the

wires according to the colored

marking* as far into the holder as

they will go.

2. Press down the holder flap (e) until

it is fully closed. Make sure that the

jacket shield fully covers the shield

contact surface.

*To create a crossover cable, connect

white with yellow and blue with orange

one

end of the cable.

Note

• Replace the knife cassette if the cut

is not clean or after stripping ap-

proximately

– 1500 operations on cables with

PVC outer jackets

– 150 operations on cables with

PUR outer jackets

• The piercing contacts of the IE FC

M12 Plug PRO can be released and

re-used up to 10 times. Cable ends

that have already been pierced

must not be used again but must be

cut off.

• Screw the IE FC M12 plug PRO to

devices with a torque of 0.6 Nm +/-

0.1.

1. Push the connector housing (b) up

to the front part of the connector (a).

1. Screw the connector housing and

the front of the connector together

until the catch (c) locks in position.

2. Screw the pressure nut (d) and the

connector housing together with a

torque of 1.3 Nm +0.2.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

150 System Manual, 05/2016, C79000-G8976-C271-01

Dismantling the plug

1. Release the pressure nut (d). 1. Press the catch (c) in the direction

of the arrow and at the same time

unscrew the connector housing

from the front part of the connector

in an anticlockwise direction.

1. Push the connector housing to the

back.

2. Open the holder flap (e) of the front

part of the connector by pushing up

the inserted cable.

3. Remove the cable from the holder

(e) and remove the connector hous-

ing from the cable.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 151

5.3.7

Assembling an IE hybrid cable 2 x 2 + 4 x 0.34 with an IE IP 67 hybrid

connector

Introduction

The individual steps required to assemble an IE FC TP hybrid cable 2x2 + 4x0.34 and an IE

IP67 hybrid plug are explained below.

Note the information in the compact operating instructions of the SCALANCE W700 devices.

Procedure

Remove the two inner shells of the universal

sealing ring to adapt it to the diameter of the

hybrid cable.

Push the bushing, the washer, the adapted uni-

versal sealing ring and the housing over the

cable jacket.

Remove the following lengths of cable jacket and

shield braid:

• 25 mm for the power leads.

• 30 mm for the data leads

(to achieve good shielding, the shield braid

must be at least 30 mm long).

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

152 System Manual, 05/2016, C79000-G8976-C271-01

Arrange the data leads according to the color

codes on the splice element. The following table

shows the assignment of the data leads.

Contact and color assignment of the splice ele-

ment.

Wire color code (stand-

ard)

White Blue Yellow Orange

Connector color code

(Siemens IE)

White Blue Yellow Orange

Siemens IE FC RJ-45

socket (reference)

3 6 1 2

Insert the all the data leads at the same time into

the splice element is far as they will go.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 153

Close the splice element and RJ-45 data module

until they lock together.

Insert the data module and the splice element

into the supplied IDC assembly tool.

Press the data module and the IDC assembly tool

together to establish the installation piercing

connection.

Remove the assembled data module from the

IDC assembly tool.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

154 System Manual, 05/2016, C79000-G8976-C271-01

Position the top shield plate and press it over the

cable shield.

Position the lower shield plate and press it and

the upper shield plate together until they lock

together with an audible "click".

Arrange the power leads and insert them as far

as they will go into the hinge elements of the

isolation body.

The following table shows the pin assignment of

the power leads.

Wire color code

(standard)

Brown

Black

24 V

Ground

Power supply insert

module

1 2 3 4

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 155

Press each individual hinge element together with

the integrated IDC contact.

Recommendation: Use a small slotted screwdriv-

er (max. 3.5 mm) as a lever.

Push the housing over the assembled data mod-

ule and the insulator body until they lock together

(there should be an audible click).

Tighten the cable gland. We recommend an open

ring key with a size of 21 mm.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

156 System Manual, 05/2016, C79000-G8976-C271-01

5.3.8

Fitting the IE FC TP standard cable 4 x 2 GP to an IE IP 67 hybrid connector

Introduction

The individual steps required to assemble an IE FC TP standard cable 4x2 and an IE IP67

hybrid plug are explained below.

Note the information in the compact installation instructions of the SCALANCE W700

devices.

Procedure

Remove the two inner shells of the universal sealing ring

to adapt it to the diameter of the hybrid cable.

Push the bushing, washer, adapted universal sealing

ring and the housing over the cable jacket.

Remove the following lengths of cable jacket and shield

braid:

• 25 mm for the power leads

• 30 mm for the data leads

To achieve good shielding, the shield braid must be alt

least 30 mm long.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 157

Arrange the data leads according to the color codes on

the splice element. The following table shows the as-

signment of the data leads.

Wind the shield braid around the data leads. As a result,

the shielding of the cable has contact to the shield plate

of the splice element that will be fitted later.

Contact and color assignment of the splice element.

Color coding of the standard cable

White /

orange *

Orange

White /

green *

Green

Connector color code (Siemens IE)

White

Blue

Yellow

Orange

Siemens IE FC RJ-45 socket (reference)

* White wire of the pair.

Insert the all the data leads at the same time into the

splice element is far as they will go.

Close the splice element and RJ-45 data module until

they lock together.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

158 System Manual, 05/2016, C79000-G8976-C271-01

Insert the data module and the splice element into the

supplied IDC assembly tool.

Press the data module and the IDC assembly tool to-

gether to establish the installation piercing connection.

Remove the assembled data module from the IDC as-

sembly tool.

Position the top shield plate and press it over the cable

shield.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 159

Position the lower shield plate and press it and the upper

shield plate together until they lock together with an

audible "click".

Arrange the power leads and insert them as far as they

will go into the hinge elements of the isolation body.

The following table shows the assignment of the power

leads.

Wire color code (standard)

White /

blue *

Blue

White /

brown *

Brown

Function

24 V

Ground

Power supply insert module

* White wire of the pair.

Press each individual hinge element together with the

integrated IDC contact.

Recommendation: Use a small slotted screwdriver (max.

3.5 mm) as a lever.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

160 System Manual, 05/2016, C79000-G8976-C271-01

Push the housing over the assembled data module and

the insulator body until they lock together (there should

be an audible click).

Tighten the cable gland. We recommend an open key

with a size of 21 mm.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 161

5.3.9

Fitting IE FC outlet RJ-45

Introduction

The individual steps required to assemble an IE FC cable and an IE FC outlet RJ-45 are

explained below.

Note the information in the assembly instructions of the outlet.

Procedure

1. Strip the IE FC cable with the IE FC

stripping tool; refer to the section

"Industrial Ethernet FastConnect

Stripping Tool (Page 130)".

1. Pull the protective foil off the wires.

2. Remove the support elements be-

tween the wires.

1. Spread out the wire pairs according

to the colors marked on the contact

cover.

1. Open the casing cover of the IE FC

outlet RJ-45.

1. Open both contact covers. 1. Push the pairs into the contact

cover according to the color mark-

ings.

1. Press down both contact covers to

contact the wires.

1. Close the cover of the FC outlet RJ-

45 casing and screw down the cov-

er.

1. Connect the end device or the net-

work component using a suitable

RJ-45 patch cable.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

162 System Manual, 05/2016, C79000-G8976-C271-01

5.3.10

Fitting the IE FC RJ-45 modular outlet

5.3.10.1

Connecting the RJ-45 Modular Outlet

Introduction

Below, you will see the individual steps in connecting the RJ-45 modular outlet.

Procedure

The modular outlet consists of the fol-

lowing:

•

: Insert

•

: Base module

1. Remove the locking screw of the

insert.

2. Pull the insert forward as far as the

limit stop.

1. Now release the two cover screws

that are now accessible.

1. Lift up the cover of the IE FC RJ-45

modular outlet.

1. Insert the wires into the contact

element of the FC RJ-45 modular

outlet as far as the limit stop ac-

cording to the color markings.

1. Secure the wires in position by

pressing down the terminals as far

as the limit stop.

While doing this, make sure the

wires remain in the guide slits.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 163

1. Close the cover. 1. Tighten the two cover screws.

2. Push the insert into the base model

as far as the limit stop.

3. Tighten the securing screw of the

insert until the insert is flush with

the base module.

Replacing the insert

Remove the locking screw of the insert.

Pull the insert forward as far as the limit

stop.

Unlock the insert by pressing on the

locking spring that is now accessible

from above.

Remove the insert completely from the

base module.

Push the insert into the base model as

far as the limit stop.

Tighten the securing screw of the in-

sert until the insert is flush with the

base module

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

164 System Manual, 05/2016, C79000-G8976-C271-01

5.3.10.2

Assembling IE FC TP standard cable 4x2 GP and IE FC RJ-45 modular outlet

Introduction

The individual steps required to assemble an IE FC TP standard cable 4x2 (22 AWG) and an

IE FC RJ-45 modular outlet are explained below. Note the information in the assembly

instructions of the plug.

To assemble 8-wire FC cables, the following inserts are available:

● Insert 2 FE

● Insert 1GE

Note

Instructions for assembly

•

The IE hybrid cable 2x2 + 4x0.34 6XV1870-2J and 4-wire FC cables (Cat 5) are not

suitable for insert 2 FE and insert 1 GE

•

The insulation-piercing contacts of the IE FC RJ-45 plug 4x2 can be released and

recontacted with the same cable cross section up to 10 times.

•

Once the ends of cables have made contact, do not make contact with them again but

cut them off.

Procedure

Remove the locking screw of the insert.

(1.)

Pull the insert forward as far as the limit

stop. (2.)

Now release the two cover screws that

are now accessible.

Lift up the cover of the IE FC RJ-45

modular outlet. (4.)

Lift up the 4 terminals of the terminal

block. (5.)

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 165

Use the green knife cassette (5.1 mm)

in the stripping tool.

If necessary adjust the cutting depth of

the knife cassette with the middle

socket-head screw.

Take the stripping tool in your right

hand.

Measure the cable length against the

measuring template. Use your left in-

dex finger as the limit stop. (9.)

Place the cable in the stripping tool.

Your left index finger is the limit stop.

Tighten the stripping tool until it locks

into place (audible click).

To strip the insulation, turn the tool in

the direction of the arrow

• approx. 4 times for PVC insulation

• approx. 8 times for PUR insulation

Remove the cable jacket, shield and

the white filler with your hand.

Cut off the central support element.

Spread out the wires according to the

color markings on the terminal block of

the Modular Outlet.

Do not undo the twisting of the wire

more than necessary to make the con-

nection.

Shorten the two middle pairs so that all

wires end in a line.

Guide the wires according to the color

markings, pair by pair into the wire

channels of the insulation piercing

terminals as far as the limit stop on the

back panel. (17.)

The ends of the wires must be visible in

the last viewing window of the terminal

block! (18.)

Secure the wires in position by press-

ing down the terminals as far as the

limit stop.

Repeat these steps until all four pairs

or wires are connected.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

166 System Manual, 05/2016, C79000-G8976-C271-01

Align the cable so that the braided

shield is in the center of the middle

section of the shield clamp.

Fold down the upper part.

Tighten the two cover screws. (23.)

Tighten the insert screw until the insert

is flush with the casing of the outlet.

(24.)

Fit the outlet on a DIN rail or secure it

to a smooth surface using the three

holes in the casing.

WARNING

Keep to the instructions in the SCALANCE W manual for fitting an IP67 hybrid cable

connector to a SCALANCE W device!

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 167

5.3.10.3

Fitting IE hybrid cable 2x2 + 4x0.34 and IE FC RJ-45 modular outlet

Introduction

The individual steps required to assemble an IE hybrid cable 2x2+ 4x0.34 and an IE FC RJ-

45 modular outlet are explained below.

Note the information in the assembly instructions of the plug.

Note

Instructions for assembly

•

The IE Hybrid Cable 2x2 + 4x0.34 6XV1870--2J is not suitable for operation of the 2FE

insert or 1GE insert!

•

The insulation-piercing contacts of the IE FC RJ-45 plug 4x2 can be released and

recontacted with the same cable cross section up to 10 times.

•

Once the ends of cables have made contact, do not make contact with them again but cut

them off.

Note

Conditions for use of the power insert

Use the

power insert only under the following conditions:

•

Extra-low voltages SELV, PELV to IEC 60364-4-41

•

In USA/CAN with power supplies according to NEC class 2

•

In USA/CAN, the cabling must meet the requirements of the NEC/CEC

•

Current load maximum 0.5 A.

Procedure

Remove the locking screw of the in-

sert. (1.)

Pull the insert forward as far as the

limit stop. (2.)

Now release the two cover screws that

are now accessible

Lift up the upper part of the IE FC RJ-45

Modular Outlet. (4.)

Lift up the 4 terminals of the terminal

block. (5.)

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

168 System Manual, 05/2016, C79000-G8976-C271-01

Strip the approx. 55 mm of the jacket

of the IE Hybrid Cable 2x2 + 4x0.34.

Shorten the shield of the data wires by

approx. 5 to maximum 20 mm.

Cut off the dummy cores.

Spread the wires according to the

color markings in the figure above.

Cut all the wires in a straight line to

leave 48 mm to the cable jacket.

Insert the wires pair by pair into the

wire channels of the insulation piercing

terminals according to the color codes

in the picture on the left.

The color codes on the terminal block

of the modular outlet have no meaning

for the hybrid cable!

The ends of the wires must be visible in

the last viewing window of the terminal

block and must meet the back panel of

the terminal block!

Secure the wires in position by pressing

down the terminals as far as the limit

stop.

Repeat these steps until all four pairs or

wires are connected.

Center the cable in the shield clamp so

that the power wires are at the bottom

in the shield clamp and the braided

shield makes contact with the pressure

surface in the upper part of the outlet.

(15.)

Fold down the upper part. (16.)

Make sure that the power wires do not

slip and are not jammed by the lateral

metal bars.

Tighten the two cover screws.

Tighten the insert screw until the insert

is flush with the casing of the outlet.

Fit the outlet on a DIN rail or secure it to

a smooth surface using the three holes

in the casing.

WARNING

Keep to the rules in the SCALANCE W manual for fitting an IP67 hybrid cable connector to

a SCALANCE W device!

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 169

5.3.11

Assembly of Industrial Twisted Pair connectors

5.3.11.1

Assembling Industrial Twisted Pair Connectors

General

To maintain the excellent EMC and transmission characteristics of the twistedpair cabling

system, connectors must be fitted with extreme care.

Note the assembly instructions.

How to fit 9pin and 15pin connectors is explained in detail on the following pages.

Note

Instructions for assembly

Fit the D

-sub plugs for self-assembly only to the ITP standard cable or the ITP FRNC cable.

The cable clamp used for contacting the shield is designed for the diameter of this cable.

The two ITP cables are not suitable for connection to the IE FC outlet RJ

-45, IE FC RJ-45

plug and IE FC RJ

-45 modular outlet due to their diameters. Use the FastConnect (FC)

twisted pair cables for this.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

170 System Manual, 05/2016, C79000-G8976-C271-01

Connector pinout

During assembly, the pairs of wires are assigned to the screw terminals. The following

figures show the connector pinout:

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 171

5.3.11.2

Fitting a 9-pin D-sub plug

9-pin D-sub plug

The figure shows all the components of a 9-pin D-sub plug.

Figure 5-1 Industrial Twisted Pair D-sub plug (9-pin) for user assembly

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

172 System Manual, 05/2016, C79000-G8976-C271-01

Steps

1. Remove approximately 30 mm of the outer sheath from the braided shield.

2. Cut the braided shield approximately 10 mm from the edge of the outer sheath

and pull off the loose shield.

3. Turn back the braided shield over the outer sheath.

– Unwind the aluminum foil shield up to a point approximately 15 mm from the folded

back braided shield and cut off the unwound material.

– Remove the plastic foil and blind elements.

– Remove approximately 5 mm of the insulation from the conductors.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 173

4. Wrap copper band around the braided shield.

5. Fit the connector

– Fit the connector insert into the connector casing

– Fit the lower cable clamp into the grooves of the connector casing

– Match the wire pairs to the screw terminals

You will find the assignment required for a particular cable type in the section

Connector pinout (Page 169).

– Fit the cable into the connector casing so that the braided shield with the copper band

lies in the cable clamp

– Fit the upper cable clamp into the grooves of the connector casing and screw it tight

– Secure the conductors in the screw terminals

– Screw the cover on to the connector casing

Figure 5-2 9-pin D-sub plug fitted to the standard cable

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

174 System Manual, 05/2016, C79000-G8976-C271-01

5.3.11.3

Fitting a 15-pin D-sub plug

15-pin D-sub plug

The figure shows all the components of a 15-pin D-sub plug.

Figure 5-3 15-pin D-sub plug for user assembly

Steps

1. Remove approximately 35 mm of the outer sheath from the braided shield.

2. Cut the braided shield approximately 10 mm from the edge of the outer sheath

and pull off the loose shield.

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 175

3. Shorten the white-blue pair by approximately 3 mm to 32 mm

(to introduce the cable as shown in Figure 1–10).

– Turn back the braided shield over the outer sheath.

– Unwind the aluminum foil shield leaving approximately 15 mm (shorter pair) or

approximately 18 mm (longer pair) to the folded back braided shield and cut off the

unwound shield.

– Remove the plastic foil and blind element.

– Remove approximately 5 mm of the insulation from the conductors.

4. Wrap copper band around the braided shield.

5. Fit the connector

– Fit the lower cable clamp into the grooves of the connector casing.

– Fit the cable into the connector casing so that the braided shield with the copper band

lies in the cable clamp

– Fit the upper cable clamp into the grooves of the connector casing and screw it tight

– Match the wire pairs to the screw terminals

You will find the assignment required for a particular cable type in the section

"Connector pinout (Page 169)".

– Secure the conductors in the screw terminals

– Screw the cover on to the connector casing

Instructions for fitting connectors, attachments and devices

5.3 Electrical networks

Passive network components

176 System Manual, 05/2016, C79000-G8976-C271-01

Figure 5-4 15-pin D-sub plug fitted to the standard cable

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 177

5.4

Optical networks

5.4.1

Fitting an IE FC FO cable with an ST/ BFOC plug

Introduction

Below, we will show the individual steps involved in assembling an IE FC FO cable and an

ST/BFOC plug with the FC FO termination kit for ST/BFOC plugs.

Note the instructions in the assembly instructions that accompany the FC FO termination kit

for ST/BFOC plugs.

Procedure

FC FO termination kit

•

Kevlar scissors

•

stripping pliers

•

cleave tool

•

microscope

•

fiber container

ST/BFOC plug

•

anti-kink sleeve

•

forcing nut

•

buffer and Kevlar clamp

•

body of connector

•

dust protection cap

1. Remove the outer jacket using a

suitable stripping tool.

Recommendation:

The length of the

stripped piece of cable should not be

less than 200 mm.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

178 System Manual, 05/2016, C79000-G8976-C271-01

1. Pull off the outer jacket.

2. Expose the individual elements.

Recommendation:

To provide addition-

al mechanical protection, a shrink tube

can be pulled over the cable on com-

pletion of step 2 for later handling.

1. Cut the fleece (white) and the re-

maining threads with the Kevlar

scissors (A) as close as possible to

the cable jacket.

2. Cut off the blind elements (gray)

and the support element (white)

with the side cutter as close as pos-

sible to the cable jacket.

1. Position the ø 1.0 mm opening of

the stripping pliers (B) approximate-

ly 60 mm from the end of the wire.

1. Cut into the wire jacket and pull the

jacket off without skewing.

1. Cut back the Kevlar with the Kevlar

scissors (A) leaving 3 mm.

1. Place the ø 0.3 mm opening of the

stripping pliers (B) on the buffer

(blue).

2. Cut into the buffer and pull off the

buffer parallel to the axis of the fiber

without skewing.

Note:

It is advisable to pull off the buffer

in 2 to 3 steps. 3 mm of the buffer must

be left (same length as the Kevlar).

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 179

1. Clean the fiber of remnants of the

buffer with a lint-free cloth.

2. Remove the screw-down nut (b)

and the buffer and Kevlar clamp (c)

from the body of the connector (d).

1. First push the anti-kink sleeve (a)

and then the screw-down nut (b)

over the fiber and the wire sleeve.

1. Push the buffer and Kevlar clamp

sleeve.

2. Feed the Kevlar yarn through the

opening.

3. Remove the dust protection cap (e)

from the body of the connector (d).

Note:

It is easier to maneuver the Kev-

lar threads through with twisting

movements.

1. Thread the connector body (d) with

the ferrule on to the fiber as far as it

will go.

1. Screw the screw-down nut (b) and

connector body tight (d).

2. When screwing them together,

make sure that the buffer and Kev-

lar clamp (c) do not skew.

3. Push the anti-kink sleeve (a) onto

the screw-down nut (b).

Note:

The fiber should extend at least

30 mm out of the ferrule. Otherwise the

connector must be fitted again.

Cleave tool

1 trigger

2 adapter plate

3 jaw for fiber limit stop

4 jaw with diamond

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

180 System Manual, 05/2016, C79000-G8976-C271-01

1. Make sure that the adapter plate (2)

with the correct labeling (ST for

BFOC connector) is fitted to the

cleave tool (C).

Note:

How to change adapter plates is

described in the appendix.

1. Insert the connector into the cleave

tool (C) as far as the limit stop and

hold the connector in position. The

fiber extends out of the cleave tool

(C).

1. Press the trigger (1) slowly until you

hear a click.

2. Dispose of the fiber remnants in the

supplied container (E).

1. Check the assembled connector

with the microscope (D).

2. If the connector is dirty, clean it with

the supplied lint-free cloths. If it is

badly contaminated, dampen the

cloth with isopropanol.

3. Place the dust protection cap (e) on

the connector ferrule.

Note:

The connector surface is okay.

Slight irregularities at the edge are of

no significance.

1. If the result of cleaving is unsatis-

factory (bad case: see photo), re-

peat the fitting of the connector.

2. Follow the same steps with the

other cores.

Note:

The stripe pattern in right-hand

picture suggests damaged cladding.

The speckled pattern in the middle of

the left picture indicates an unevenly

broken core.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 181

5.4.2

Fitting an SC RJ plug to a plastic FO cable (POF)

Introduction

The next section explains the individual steps when assembling a POF FO cable with SC RJ

plug using the IE termination kit for SC RJ POF plug.

You should also refer to the assembly instructions supplied with the IE termination kit for SC

RJ POF plug.

Procedure

A stripping pliers

B Kevlar scissors

C Microscope

D grinding and polishing base

E polishing plate, abrasive and polish-

ing paper

a anti-kink sleeve

b knurled nut

c SC RJ housing

d body of connector

e dust protection

1. Remove the outer jacket using a

stripping tool.

Set the cutting depth of the stripping

tool so that the inner cores cannot

be damaged.

1. Pull off the outer jacket. 1. Cut off the Kevlar yarn and fleece

wrapping with the Kevlar scissors.

1. Cut off the cable strain relief ele-

ments (brown) with the side cutter.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

182 System Manual, 05/2016, C79000-G8976-C271-01

1. Place the ø 1.6 mm opening of the

stripping pliers marked with a white

dot on the orange colored core.

1. Position the cutter 30 mm from the

end of the core.

1. When the pliers are closed, the

sleeve is removed. The black core

is stripped in the same way.

1. First remove the dust protection

caps. Push the preassembled plug

onto both cores at the same time as

far as it will go.

1. The arrow on the orange core points in the same direction as the arrow on

the SC RJ housing. The fibers of the plastic fiber-optic cable extend 5 to 10

mm out of the plug ferrules.

1. Tighten the two knurled nuts in the

direction of the arrow.

1. Shorten the excess fiber to 1 mm

with a sharp side cutter.

1. Insert the plug into the SC RJ grind-

ing plate. The coding (stud) on the

plug housing is inserted into the

groove (1) of the grinding plate.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 183

1. Place the abrasive paper and pol-

ishing foil on the polishing base.

2. Take hold of the SC RJ plug hous-

ing and press down gently. Grind

the excess fiber with approximately

10 figure-of-eight movements on

the 1500 grade abrasive paper

(gray) until it is flush.

1. Polish the plug in the same way on

the matt side of the 1 µm polishing

foil (green), approx. 10 figure-of-

eight movements.

1. Remove any resulting dust with a

clean, lint-free cloth.

1. Check the assembled plug with the

microscope.

1. You can also use the magnifier of

the microscope to check the results.

1. The surface of the fiber-optic cable

must be even and free of scratches.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

184 System Manual, 05/2016, C79000-G8976-C271-01

5.4.3

Fitting an SC RJ plug to PCF FO cable

Introduction

The next section explains the individual steps assembling a PCF FO cable with an SC RJ

plug using the IE termination kit for SC RJ PCF plug.

You should also refer to the assembly instructions supplied with the IE termination kit for SC

RJ PCF plug.

Procedure

A stripping pliers

B Kevlar scissors

C cleave tool

D fiber container

E card cleaner

F microscope

a anti-kink sleeve

b union nut

c buffer and Kevlar clamp

d body of connector

e ferrules

f SC RJ housing

g dust protection

1. Remove the outer jacket using a

stripping tool.

Set the cutting depth of the stripping

tool so that the inner cores cannot

be damaged.

1. Pull off the outer jacket. 1. Cut off the Kevlar yarn and fleece

wrapping with the Kevlar scissors.

1. Cut off the blind elements (gray)

and the support element (white)

with the side cutter.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 185

1. Position the ø 1 mm opening of the

stripping pliers approximately 80

mm from the end of the core.

1. Cut into the core jacket and pull the

jacket partly off without skewing.

1. Remove the loose core sleeve with

your hand.

1. Cut back the Kevlar with the Kevlar

scissors leaving 5 mm.

1. Push the anti-kink sleeve over the

fiber and the core jacket.

1. Push the buffer and Kevlar clamp

onto the fiber as far as the core

sleeve.

2. Feed the Kevlar yarn through the

opening.

1. Cut into the buffer with pliers open-

ing ø 0.3 mm and pull off the buffer

without skewing. Approximately 5

mm of the buffer remain.

1. Push the connector body with the

ferrule on to the fiber.

1. Screw the connector body and

union nut together.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

186 System Manual, 05/2016, C79000-G8976-C271-01

1. Turn the "Clamp" (1) wheel to

"Open" and the "Cleave" (2) wheel

to the "0“ setting.

1. Feed the fiber into the cleave tool

and lock the plug. The fiber projects

through the clamp wheel.

1. Turn the "Clamp" wheel gently

towards the "Lock" direction to

clamp the fiber.

Turn the "Cleave" wheel slowly from

setting "0" to setting "2".

1. Turn the "Clamp" wheel in the direc-

tion of "Open" and remove the fiber

remnant.

2. Unlock the connector and remove it.

1. Dispose of the fiber remnants in the

supplied container.

1. Check the assembled plug with the

microscope.

2. Then place the dust protection cap

on the ferrule.

1. The plug surface is OK. Slight ir-

regularities at the edge are of no

significance.

2. Clean a contaminated plug with the

card cleaner

1. Greater irregularities in the broken

edges and irregular light distribution

indicate a damaged connector sur-

face.

2. Repeat the connector assembly.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 187

1. Clean the contaminated connector

with the card cleaner by rubbing the

connector in one direction over a

clean area.

1. The main body of the connector clicks into place in the SC RJ housing. The

flat side of the main body is against the inner bar. The arrow on the orange

core points in the same direction as the arrow on the SC RJ housing.

Note

If you find that the edge breaks are on the increase, send in the cleave tool for inspection.

When used

correctly, up to 2000 assemblies are possible.

If you need to return the tool, talk to your Siemens contact.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

188 System Manual, 05/2016, C79000-G8976-C271-01

5.4.4

Mounting a SIMATIC NET FC FO LC plug on an FC FO standard cable or FC

FO trailing cable

Introduction

The following instructions describe assembling the

● SIMATIC NET FC FO LC plug, article number 6GK1900-1RB00-2AB0

on one of the following fiber-optic cables:

● SIMATIC NET FC FO standard cable, article number 6XV1847-2A

● SIMATIC NET FC FO trailing cable, article number 6XV1847-2C

For this the following set of tools is required:

● SIMATIC NET FC FO termination kit, article number 6GK1900-0RL00-0AA0

General notes on installation

CAUTION

Risk of injury due to material remnants

During assembly fibers of the fiber-optic cable are separated with the cleave tool. These

material remnants can cause injuries. While cleaving you should therefore wear protective

glasses and dispose of the fiber remnants in the fiber container that ships with the

termination kit.

NOTICE

Damage to cables and devices through improper handling

Note the following points to avoid damage to cables and devices:

• Never exceed the maximum permitted forces (tensile strain, transverse compression

etc.) specified in the data sheet of the cable you are using. Excessive transverse

compression can, for example, arise when using screw-down clamps to secure the

cable.

• Install FO cables so that exposed wires and LC connectors are not subjected to tensile

stress.

• When cutting cable sections to length, make sure that no loops result and that the cable

is not twisted. Loops and torsion can cause kinks or tears under tensile load and cause

damage to the cable.

• Never insert dirty LC connectors or LC connectors with protruding fibers into the device

sockets. This can destroy the optical transmit and receive elements.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 189

Suitability of the components used

Make sure that the selected cable is suitable for your particular application, in particular

regarding the following properties.

● Required temperature range.

● Resistance of the jacket materials to chemicals, water, oils, rodents etc. to which your

cable will be exposed when in use.

● Required mechanical properties (bending radii, tensile strain, transverse compression)

● Requirements regarding the behavior of the cable in fire.

● Suitability of the cable and connectors for the devices being connected

● If in doubt, use a special cable to meet your requirements. Your SIMATIC NET contact in

your Siemens branch will be happy to advise you.

● Only use FC FO fiber-optic cables in conjunction with devices approved for these cables.

Remember the maximum permitted cable lengths.

Fitting connectors

● Follow the steps described in these installation instructions and use only the tools

specified here.

● When stripping the wire jacket, use only the opening labeled 1.0 mm on the stripping

pliers.

● If you find that the edge breaks are on the increase, the cleave tool should be sent in for

inspection. When used correctly, up to 2000 assemblies are possible. If you need to

return the tool, talk to your Siemens contact.

● As soon as the screw-down nut of an assembled LC connector has been loosened, the

LC connector must be reassembled.

Using the assembled cables

● Make sure that the outer jacket, the jackets of the cores, and the FC FO optical fibers are

not damaged.

● Close unused LC connectors with dust protection caps. Remove the dust protection caps

only immediately before connecting cables together or plugging cables into devices.

● When assembling adapters for connectors or when connecting the cable to them, make

sure that send and receive lines are crossed over.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

190 System Manual, 05/2016, C79000-G8976-C271-01

Fitting connectors

Components supplied with the FC FO termination

kit

crimping pliers

Kevlar scissors

stripping pliers

cleave tool

alcohol cloths

fiber container

Components supplied with the SIMATIC NET FC

FO LC plug

anti-kink sleeve

LC connector

dust protection cap

• Separate the cable jacket with stripping pliers

(not supplied).

Note:

The length of the stripped section of cable

should not be less than 200 mm.

• Pull off the outer jacket.

• Expose the individual elements.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 191

• Cut the fleece (white) and the remaining

threads with the Kevlar scissors as close as

possible to the cable jacket.

• Cut off the blind elements (gray) and the sup-

port element (white) with the Kevlar scissors

as close as possible to the cable jacket.

• Push on the anti-kink sleeve.

• Position the ø

1.0 mm opening of the stripping

pliers approximately 60 mm from the end of

the wire.

• Cut into the fiber jacket and pull the jacket off

without skewing.

• Cut back the Kevlar with the Kevlar scissors

leaving 4 mm.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

192 System Manual, 05/2016, C79000-G8976-C271-01

• Place the ø 0.3 mm opening of the stripping

pliers on the buffer (blue).

• Cut into the buffer and pull off the buffer paral-

lel to the axis of the fiber without skewing.

Note:

It is advisable to pull off the buffer in 2 to 3

steps. 4 mm of the buffer must be left (same

length as the Kevlar).

• Clean the fiber of remnants of adhesive with

an alcohol cloth.

• Push the fiber into the LC connector. Make

sure that part of the Kevlar is pushed into the

crimp opening.

• Place the LC connector in the crimping pliers.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 193

• Close the crimping pliers as far as the limit

stop.

• Push the anti-kink sleeve onto the LC con-

nector.

CAUTION

Risk of injury due to material remnants

While cleaving you should therefore wear protective glasses and dispose of the fiber

remnants in the fiber container that ships with the termination kit.

Instructions for fitting connectors, attachments and devices

5.4 Optical networks

Passive network components

194 System Manual, 05/2016, C79000-G8976-C271-01

• Insert the LC connector with the fiber into the

cleave tool.

• Close the cleave tool and dispose of the fiber

remnants.

• Push on the protective cap.

• For use of the LC connector as a duplex vari-

ant, reverse the double clips.

Article numbers

FC LC Plug (10 duplex plugs)

Pack of 10

6GK1900-1RB00-2AB0

SIMATIC NET FC FO standard cable 62.5/200/230

Sold by the meter

6XV1847-2A

SIMATIC NET FC FO trailing cable 62.5/200/230

Sold by the meter

6XV1847-2C

FC FO termination kit (LC)

1 case

6GK1900-0RL00-0AA0

Instructions for fitting connectors, attachments and devices

5.5 Power supply

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 195

5.5

Power supply

5.5.1

Fitting the energy cable 5 x 1.5 with a power plug PRO

Introduction

The next section explains the individual steps assembling an energy cable with a power plug

PRO.

Note the information in the assembly instructions of the plug.

Connector pinout

An IE M12 plug PRO / IE FC M12 plug PRO with the pinning as shown in the following table

must be connected to both ends of the IE FC cable.

Table 5- 1 Pinning at both ends of a straight-through cable

Pin number

Pinning as a network component

Color

Pin 1

RX+

Yellow

Pin 2 TX+ White

Pin 3

RX-

Orange

Pin 4

TX-

Blue

The signal assignment in the table corresponds to the pin assignment of the 4-pin

10/100BaseTX M12 socket of SCALANCE X208 PRO.

The pin assignment of the M12 socket of a network component on the other hand is as

follows:

Table 5- 2 Crossover pin assignment at one end of a crossover cable

Pin number

Assignment

Pin 1

TX+

White

Pin 2 RX+ Yellow

Pin 3

TX-

Blue

Pin 4

RX-

Orange

The difference is that the send pin at one end must connect to the receive pin at the other

end. With straight-through cables, this is only the case if the connector pin assignment is not

the same at both ends. With devices that have autocrossing, a transmission would work

even if the pin assignment was the same.

Instructions for fitting connectors, attachments and devices

5.5 Power supply

Passive network components

196 System Manual, 05/2016, C79000-G8976-C271-01

Procedure

Only use cables with the power plug PRO

that meet the following specifications:

Cable diameter

9 ... 13 mm

Cable cross section

mm2

2.5 1.5

Cable cross section

AWG

10 x 2.2 10 x 1.7 a forcing nut

b sealing ring

c rear wall

d latch

e plug insert

f housing notch

g housing

1. Thread the forcing nut (a), the seal-

ing ring (b) and the back wall (c)

loosely over the cable.

Max. current at ambi-

ent temperature

16 A

58 ℃

16 A

45 ℃

13 A

73 ℃

13 A

60 ℃

1. Strip 35 mm of the cable jacket.

2. Remove 10 mm of the insulation from

the wires.

1. With a wire cross section of 2.5

mm² (AWG14), crimp ferrules

DIN 46228-A2.5-10 (dimensions

see figure) to the wire ends. For

a wire cross section of 1.5 mm²

(16 AWG), use the DIN 46228-

A1.5-10 ferrules.

2. Push the wires into the spring

terminal clamps as shown in the

table.

PROFINET

1. Check that good contact is estab-

lished by pulling lightly on the wires.

Instructions for fitting connectors, attachments and devices

5.5 Power supply

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 197

1. Put the sealing ring into the rear wall

and screw the forcing nut over it loose-

ly.

2. Turn the latch of the rear wall to the

same side as the red coding bars of

the plug insert.

3. Push the rear wall as far as the limit

stop of the plug insert.

1. Turn the latch of the rear wall

and the notch in the housing to

the same side.

2. Push the housing over the plug

insert as far as the limit stop.

1. Press the rear wall into the housing

until it clicks in place audibly.

2. Screw the pressure nut tight.

Dismantling the plug

1. To open the plug, lever the catch in the

housing towards the side wall with a

slotted screwdriver.

2. Pull the rear wall out of the housing by

the cable while holding down the

screwdriver.

1. Press open the cage springs

with a slotted screwdriver.

2. Pull the wires out of the contact

clamps one by one.

Instructions for fitting connectors, attachments and devices

5.5 Power supply

Passive network components

198 System Manual, 05/2016, C79000-G8976-C271-01

5.5.2

Fitting a 7/8" energy connector to an energy cable

Design

Figure 5-5 7/8" energy connector

Suitable cables

7/8" energy connectors are intended for making connections to the SIMATIC NET energy

cable (5 x 1.5 mm2). The stranded wires of the energy cable must be fitted with 0.75 mm²

wire-end ferrules.

Note

The

mechanical data of the 7/8" energy connector are tailored to the SIMATIC NET energy

cables (6XV1

830-8AH10). Fitting 7/8" energy connectors to cables with different electrical or

mechanical properties can cause problems during operation!

Connecting up the bus cable

Fit the energy connector to the energy cable (6XV1 830-0AH10) as follows:

Instructions for fitting connectors, attachments and devices

5.5 Power supply

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 199

Figure 5-6 Energy connector - fitting

Fitting connectors to cables

1. Push the clamping screw (a), pinch ring (b) and sealing ring (c) over the cable.

2. Strip the jacket and wires as shown in the drawing.

3. Fit the 0.75 mm² wire-end ferrules to the stranded wires.

4. Push the connector sleeve (d) over the wires.

5. Screw the wires into the screw terminals of the female or male connector insert as shown

in the chart.

6. Push the connector sleeve (d) onto the female or male insert (e) and screw the two parts

together.

7. Push the pinch ring (b) over the sealing ring (c) and press the two parts together with the

pressure nut (a) into the connector sleeve.

8. Screw the pressure nut tight.

Instructions for fitting connectors, attachments and devices

5.5 Power supply

Passive network components

200 System Manual, 05/2016, C79000-G8976-C271-01

Pin assignment

View of the connector

face

(6GK1905-0EA00)

Cable

Socket

(6GK1905-0EB00)

View of the connector

face

Pin 1

Wire 1

Pin 1

Pin 2 Wire 2 Pin 2

Pin 3

Pin 4 Wire 3 Pin 4

Pin 5 Wire 4 Pin 5

5.5.3

Connecting the 7/8" energy connector to a module

Properties

The 7/8" energy connector of a device consists of a 7/8" male incoming connector and a 7/8"

female outgoing connector. This means that the 7/8" connector must be equipped with

socket contacts for the incoming energy cable and pin contacts for the outgoing energy

cable.

Note

Insert or remove the 7/8" energy connector only when the power supply is turned off.

connecting the 7/8" energy connector

To connect the 7/8" energy connector to the device, follow the steps below:

1. Turn off the power supply.

2. Turn the connector so that the slot and key of the mating mechanism fit together.

3. Plug the 7/8" energy connector loosely into the module.

4. By carefully turning the plug, make sure the connector and socket are properly

interlocked (slot and key).

5. Tighten the locking nut to secure the 7/8" energy connector to the module.

Closing unused 7/8" connection points

Close all unused 7/8" connection points with sealing caps (6ES7 194-3JA00-0AA0) to

achieve degree of protection IP65 or IP67.

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 201

Installing network components in cabinets

6.1

SIMATIC NET components

Ventilation openings

The casings of most SIMATIC NET network components have ventilation openings. To allow

more effective cooling of the electronics components, ambient air can flow through the

casing. The maximum operating temperatures quoted in the technical specifications apply

only when there is unrestricted flow of air through the ventilation openings.

Depending on the size of the ventilation openings, such modules comply with degree of

protection IP 20, IP 30 to IP 40. You will find the precise degree of protection of a SIMATIC

NET component in its operating instructions.

Components with the degrees of protection mentioned above do not provide protection

against dust and water! If the installation site requires such protection, the components must

be installed in an additional enclosure such as a switching cubicle that provides the higher

degree of protection (for example IP65/ IP67).

If you install these components in an additional enclosure, make sure that the conditions

required for operation are maintained!

Heat dissipation

Make sure that the temperature inside the additional enclosure does not exceed the

permitted ambient temperature for the installed components. Select an enclosure with

adequate dimensions or use heat exchangers.

Outdoor installation

If you install the equipment outdoors, make sure that the additional enclosure is not

subjected to direct sunlight. This can lead to a considerable rise in temperature within the

enclosure.

Clearances

Make sure that there is adequate clearance around the component so that

● the convection cooling of the component is not restricted

● components do not cause neighboring components to heat up more than permitted

● there is enough space for installing cabling

● there is enough space to remove components for maintenance or repair.

Installing network components in cabinets

6.1 SIMATIC NET components

Passive network components

202 System Manual, 05/2016, C79000-G8976-C271-01

Note

Regardless of the degree of protection of the casing, the electrical and optical ports are

always sensitive to

mechanical damage

damage caused by electrostatic contact discharge when touched

contamination by dust and fluids

On devices with degree of protection IP65, always close unused ports with the supplied

dust protection caps. Remove these caps only immediately before connecting up the

cables to the ports.

Standards

EN 60529:2000 degree of protection due to casing (IP code) (IEC 60529:1999)

Installing network components in cabinets

6.2 IP degrees of protection

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 203

6.2

IP degrees of protection

General

Electrical equipment is normally surrounded by a protective casing.

The purpose of this casing includes

● Protection of persons from touching live components or moving parts

(accidental contact protection)

● Protection of equipment from intrusion of solid foreign bodies (solid body protection)

● Protection of equipment from ingress of water (water protection).

IEC 60529, EN 60529 /15/

The degree of protection specifies the degree to which the casing meets these

three protective functions.

The degrees of protection are specified uniformly in the "International Standard IEC 60529"

or in the identical European standard EN 60529.

The degree of protection of a casing is indicated by a code. The code consists of the letters

IP (International Protection) followed by a code number for contact, solid body and water

protection as shown below:

In some situations, the degree of protection is specified in even greater detail by adding

letters to the code numbers.

Scope of protection

The various degrees of protection are listed briefly in Tables 1-1 and 1-2. For more detailed

information on the individual ratings and the test conditions that must be fulfilled, please refer

to the standards listed above.

Table 6- 1 Contact protection (short form)

First number

Protection of equipment from intrusion of

solid foreign bodies

Protection of persons from access to

dangerous parts

not protected

≥ 50.0 mm diameter

back of hand

≥ 12.5 mm diameter

finger

≥ 2.5 mm diameter

tool

≥ 1.0 mm diameter

wire

dust protected

wire

dustproof

wire

Installing network components in cabinets

6.2 IP degrees of protection

Passive network components

204 System Manual, 05/2016, C79000-G8976-C271-01

Table 6- 2 Water protection (short form)

Second number

Protection of equipment from ingress of water

not protected

1 vertically falling drops of water

falling water (15° from vertical)

3 sprayed water

splashwater

jet water

strong jet water

temporary immersion

long period of immersion

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 205

6.3

Guidelines for setting up networked automation systems in buildings

6.3.1

General notes on networking bus cables

Bus cables in plants

Bus cables are important connections for communication between individual components of

an automation system. Mechanical damage or repeated electrical interference affecting

these bus connections reduces the transmission capacity of the system. In extreme cases,

such problems can lead to failure of the entire automation system. The following sections

explain how to protect cables from mechanical and electrical impairment.

Shielding and grounding concept

Bus cables connect programmable controllers. These in turn are connected to transducers,

power supply units, peripheral devices etc. over cables.

All the components together form a complex electrically networked automation system.

When connecting system components via electrical cables (in this case bus cables),

remember to take into account the requirements of the overall system structure.

Connecting cables, in particular, influence the shielding and grounding concept. Shielding

and grounding an electrical installation serves the following purposes:

● Protects both humans and animals from dangerous network voltages

● Prevents unacceptable noise emission and susceptibility to noise

● Protects the system from overvoltage (for example lightning protection)

Networking SIMATIC with SIMATIC NET

SIMATIC NET network components and SIMATIC automation components are designed to

operate together taking into account the aspects listed above. By keeping to the installation

instructions described in the system manuals and in the following sections of this book, your

automation system will meet the legal and normal industrial requirements for safety and

noise immunity.

6.3.2

Protection from electric shock

Twistedpair signal level

The signal levels on twisted pair cables are in the range of only a few volts. Correctly

installed and operated twisted-pair cables do not have dangerous electrical voltages.

Nevertheless you should remember the following rules when installing the power

supply for all components (end devices, bus components, etc.) that you want to connect to

twistedpair cable.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

206 System Manual, 05/2016, C79000-G8976-C271-01

Operation with 24 V DC

Numerous SIMATIC NET components require a voltage of 24 V DC as their operating

voltage or as auxiliary contact voltage. This power supply must meet the requirements of an

extralow voltage with reliable electrical isolation from the main power system, complying with

IEC 60950 or EN 60950 /18/.

Operation with line power

Components operated with line power must meet the requirements for protection against

electric shock as stipulated in EN 60950 /18/, EN 611312 /20/, EN 61010 /19/ or other

applicable product standards.

All the signals of the twistedpair port must meet the requirements of reliable electrical

isolation from the line power supply, complying with IEC 60950 or EN 60950 /18/.

Cabling components

Conductive cable path systems, barriers, and accessories must be included in the protective

measures preventing indirect contact (protection against illegal dangerous contact voltage).

Grounding conductors (PE) and equipotential bonding conductors must be installed

according to the requirements of systems in buildings complying with HD 384.4.41

(protection against electric shock) and HD 384.5.54 (grounding and grounding conductor).

The use of EN 501742 is recommended for the separation of low voltage cabling and IT

cabling.

The requirements of HD 384.4.47 S2 (application of measures for protection against electric

shock) and HD 384.4.482 S1 (selection of protective measures as a function of external

influences) and appropriate national or local regulations must be adhered to.

Safe initial state of the system in case of faults

Problems on communication connections must not be allowed to put system users at risk.

Cable or wire breaks must not lead to undefined statuses in the plant or system.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 207

6.3.3

Mechanical protection of bus cables

Protection of electrical and optical bus cables

Mechanical protection is required to protect bus cables from breaks or mechanical damage.

Note

The measures described here for mechanical protection apply both to electrical and

optical

cables.

Measures for mechanical protection

The following measures are recommended to protect bus cables from physical damage:

● When cable cannot be installed on a cable rack or similar construction, it should be

installed in a conduit (for example PG 11-16)

● In areas where the cable is subject to mechanical stress, install the cable in a heavy-

gauge aluminum conduit or in a heavy-gauge plastic conduit (see Figure 1–5)

● When 90° bends are necessary and at the junctions between buildings (for example

expansion joints), a break in the conduit is acceptable only when there is no likelihood of

damage to the cable, for example due to falling objects (see Figure 1–6).

● In areas where the cable is likely to be walked on or driven over in buildings or in

machines, install the cable in a closed heavy-gauge aluminum or steel conduit or in a

metal cable gutter.

Figure 6-1 Mechanical protection of the bus cable

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

208 System Manual, 05/2016, C79000-G8976-C271-01

Figure 6-2 Interrupting the conduit at an expansion joint

Redundant bus cables

The installation of redundant bus cables involves special requirements. Redundant cables

should always be installed on separate cable racks to avoid simultaneous damage by the

same event.

Install bus cables separately

To prevent accidental damage to bus cables, they should be clearly visible and should be

separate from all other wiring and cables. To improve EMC, it is often advisable to install the

bus cables in a separate cable channel or in conductive metal tubes. Such measures also

make it easier to localize a faulty cable.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 209

6.3.4

Electromagnetic compatibility of fiberoptic cables

Fiberoptic cables

For communications between buildings and/or external facilities, the use of fiberoptic cables

is generally recommended. Due to the optical transmission principle, fiberoptic cables are

not affected by electromagnetic interference. Measures for equipotential bonding and for

overvoltage protection are unnecessary with fiberoptic cables.

Note

Fiber

optic cables are ideally suited for connections in areas with high EMI levels.

Remember, however, that bus components operating on an electrical basis such as OLMs,

OSMs etc. may require additional noise protection measures if they

are operated in such

areas. These must be protected against unacceptable interference using the measures

already mentioned such as shielding, grounding, minimum clearance to sources of

interference etc.

6.3.5

Connecting fiber-optic cables

BFOC plug-in connectors

Among other things, Industrial Ethernet fiber optic network components use glass fiber-optic

cables with ST/BFOC connector technology.

Figure 6-3 BFOC plug with dust cap

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

210 System Manual, 05/2016, C79000-G8976-C271-01

Note

Plug

-in connectors for glass FO cables should only be fitted by trained personnel. When

fitted correctly, they allow extremely low insertion loss and the value is highly reproducible

even after multiple plugging cycles.

Assembled cables

To be able to use glass fiber-optic cables with untrained personnel, glass fiber-optic cables

are also available with 4 ST/BFOC connectors already fitted. See also assembled FO

cables.

Fitting connectors on site

When connectors need to be fitted on site,

– ST/BFOC plugs and matching special tool can be obtained

– SIEMENS provides this service.

If necessary get in touch with your contact for special cables and special lengths.

You will find the address also:

- in our catalog IK PI

on the Internet (http//www.ad.siemens.de)

NOTICE

Protecting FO plug-in connectors from contamination

Fiber-plug-in connectors are susceptible to contamination and mechanical damage to the

face. Protect open connectors with the supplied dust caps. Remove the dust protection only

immediately before establishing the connection.

6.3.6

Electromagnetic compatibility of bus cables

Electromagnetic compatibility (EMC)

Electromagnetic compatibility (EMC) is the capability of a electrical equipment to function

satisfactorily in its electromagnetic environment without influencing this environment and

interfering with other equipment belonging to it (in compliance with DIN VDE 0870).

This mutual influence can take the form of electrical, magnetic, and electromagnetic effects.

These effects can spread both over cable connections (for example a common power

supply) or due to radiated interference affecting the cable.

To avoid interference affecting electrical systems, these effects must be reduced to a certain

level. The measures involved in achieving this limitation include the design, construction, and

correct connection of bus cables. The components and bus cables for SIMATIC NET

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 211

Industrial Ethernet meet the requirements of the European standards for devices used in an

industrial environment. This is documented by the CE marking.

Note

Adherence to the specified limit values can only be guaranteed when using components

from the SIMATIC NET Industrial Ethernet range exclusively and by keeping to the

installation instructions in this

manual!

6.3.6.1

Equipotential bonding system

Aims of equipotential bonding

The noise immunity of extended electronic automation systems or, in general, information

technology systems largely depends on the suitable design of the grounding and

equipotential bonding system of the building.

Equipotential bonding and grounding have two essential aims:

● Protection from the dangers of electricity

– by limiting the contact voltage and creating a fault to ground path

● Improvement of electromagnetic compatibility

– by creating a reference potential and equalizing potential differences between parts of

the system

– by shielding.

Causes of potential differences

Wherever electric currents flow, magnetic fields are produced that in turn induce stray

currents in electrically conductive materials. Induced stray currents can therefore not be

avoided in the vicinity of electrical consumers (drives, electronic controls, lighting etc.) and

their power supply cables. They spread in all conductor loops. Conductor loops are formed

by parts of buildings such as metal banisters on staircases, water pipes or central heating

pipes as well as through the shields of electrical data cables and the protective ground

connectors of electrical devices (PE). The flow of current produces a voltage drop. This can

be measured as a potential difference between two locations within the system.

Extremely high potential differences between two grounding points result from lightning

strikes.

Effects of potential differences in information technology systems

If locations with different grounding potential are connected via cables, currents will flow. The

currents flow on all connections between these two points, for example also on the signal

cables or cable shields connecting them. Attached devices can be disturbed or even

destroyed.

The aim of a grounding and equipotential bonding system is to ensure that the currents flow

in the grounding system and not in the electronic circuits.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

212 System Manual, 05/2016, C79000-G8976-C271-01

Measures for grounding and equipotential bonding

According to EN 50310 /21/, a "common bonding network CBN" with a fine mesh of

conductive elements must be created in buildings with information technology systems.

Systems that extend beyond one floor and that are interconnected by electrical bus cables

require a threedimensional CBN with a lattice construction resembling a Faraday cage.

With the following measures, you can create a grounding and bonding system that will

improve EMC:

● Include all the metal parts of a building in a common bonding network (CBN) with low

impedance and high current carrying capacity. To this network, you should then connect

the main grounding terminal or bar, grounding conductors, metal conduits, reinforcing

rods, equipotential bonding ring conductor, cable racks and any additional bonding

conductors.

● Connect all inactive metal parts in the immediate vicinity of your automation components

and bus cables to the bonding system ensuring good conductivity. This includes all metal

parts of cabinets, machine parts etc. that have no electrical function in the automation

system.

● Include metal, conductive cable channels/racks in the equipotential bonding of the

building and between the individual parts of the system. The individual segments of the

channels/racks must be connected together with low inductance and low resistance and

connected to the CBN system as often as possible. Expansion joints and angled

connections should be bridged by additional flexible grounding bands. The connections

between the individual segments of channels must be protected from corrosion to ensure

longterm stability.

● The effectiveness of equipotential bonding is greater when the impedance of the bonding

conductor is low.

● The impedance of the additional bonding conductor must not exceed 10% of the shield

impedance of parallel Industrial Twisted Pair cables.

● Protect the bonding conductor from corrosion.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 213

● Install the bonding conductor so that the area enclosed by the bonding conductor and

signal cables is as small as possible.

● Use copper or galvanized steel for the bonding conductor.

Figure 6-4 Example of meshed bonding system

For information about grounding and bonding techniques, refer to the system manuals of the

SIMATIC S7300 /9/, S7400 /10/ programmable controllers.

Note

Equipotential

bonding is unnecessary if the sections of a system are connected exclusively

using fiber

optic cable (FO).

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

214 System Manual, 05/2016, C79000-G8976-C271-01

6.3.6.2

Requirements of the AC power distribution system

General

HD 384.3 S2 (IEC 603643:1993, modified, /22/) describes various power distribution

systems (TNS, TNC,S, TNC, TT and IT systems). Additional national or local regulations

stipulate the measures required for protection against electric shock and stipulate the

requirements for a grounding system (see also section 1.2 Protection against electric shock).

The outer surfaces of switching cubicles, device housings, connectors and bus cables are

conductive to provide shielding and must be connected to the grounding system to ensure

safety. To ensure that the EMC shield effect is achieved, they make further requirements of

the grounding system and grounding of the power distribution system. These result in an

alternating power distribution system with noncurrent carrying grounding conductors, for

example as in the TNS system.

Cable shields are part of the equipotential bonding network of a system.

Since the shields of twistedpair cables are included in the bonding system, all the currents

coupled into the bonding system of a building or plant flow through them.

Depending on the intensity and frequency range, these shield currents can cause

disturbances in data communication. Measures must therefore be taken to avoid the

alternating power distribution system of a plant including the bonding system in the power

return cabling. A TN-S system with separate cables or N and PE, for example, meets these

requirements. The EN 50310:2000 /21/ standard provides detailed guidelines for installing a

network system for supplying information technology equipment.

Note

End devices and /or network components

connected over shielded twistedpair cables must

only be supplied by alternating power distribution systems whose grounding conductors

cannot contribute to the transmission of energy. There must be no PEN cable within the

entire system. This condition is m

et, for example, by a TNS system.

Signal connections in existing installations

If unexplained, sporadic disturbances occur in data processing systems or on their

communication connections, it is advisable to check for unwanted shield currents. These can

be measured simply by inserting the cable in question in a clipon ammeter. Currents higher

than approximately 0.1 A indicate problems in the electrical installation, for example in the

TNC system.

If the alternating current power system supplies a large number of electronic devices or

electronically controlled consumers, the highest interference currents can generally be

observed at the third harmonic of the frequency.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 215

Other signs of an unsuitable alternating current power supply are as follows:

● Currents on the PE conductor

● Currents through water pipes and heating pipes

● Progressive corrosion at grounding terminals, on lightning conductors, and water pipes.

Remember that sporadic events such as switching, short circuits, or atmospheric discharge

(lightning strike) can cause current peaks in the system many times higher than the

measured average value.

Troubleshooting

The following measures are suitable for troubleshooting:

● Restructuring the power distribution system (to form a TNS system)

● Replacing the electrical data cabling with fiberoptic cables

● Installing an equipotential bonding conductor parallel to the disturbed data cabling.

Note

If shield currents on bus cables cause problems in communication, the safest often

cheapest solution is to

replace the disturbed electrical bus connection with a fiberoptic

cable.

Example of installing FO cable in a TNCS system

The graphic below illustrates the relationships between the structure of the alternating

current network, equipotential bonding system, and information technology cabling in a

building.

Three PCs and three S7300 PLCs represent the information technology system. These are

networked using two OSMs. The housing of all the end devices and the OSMs are correctly

connected to the grounding and bonding system of the building. The PCs are connected to

the system via the PE contact of their power supply cable. The housing of the OSMs and the

racks of the S7300 PLCs are connected either directly or via a switching cubicle housing

locally to the CBN. The shields of the twistedpair cables interconnect all the device housings

and are therefore connected to the grounding and bonding systems at both ends.

The horizontal power distribution within a floor corresponds to the requirements of a TNS

system. The neutral cable N and grounding conductor PE are separate cables. The PE

grounding conductor does not contribute to the power supply of the devices. The parallel

cable shields of the twistedpair cables are therefore also free of neutral cable currents.

The vertical, interfloor power distribution is designed as a TNC system (common PEN cable

for N and PE). The PEN is the return cable of the power supply of all connected consumers.

A connection between the two OSMs at the righthand edge of the picture over shielded

twistedpair cables would allow the return cable current of the PEN to flow through the entire

bonding system, all PE cables, and all cable shields on both floors. It is therefore strongly

recommended to implement the interfloor connection between the two OSMs with fiberoptic

cables.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

216 System Manual, 05/2016, C79000-G8976-C271-01

Figure 6-5 Fiberoptic links avoid shield currents in the TNCS network

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 217

6.3.6.3

Shielding devices and cables

Shielding cables

The high degree of noise immunity of SIMATIC NET twisted-pair copper networks is

achieved by the exclusive use of shielded twisted-pair cables. The highly symmetrical

twisted signal wires are surrounded by a combination of foil and braided mesh shields. The

shield makes large-area, conductive contact with the casing of the attached end device or

network component at both ends of the twisted-pair cable via the connector/outlet. The entire

communications electronics, consisting of transmitter and receiver chips as well as the signal

cables is protected from electromagnetic influence from the outside world by a closed

"cocoon" of electrically conductive device casing and cable shield.

Note

The values specified for noise emission and noise immunity in the technical specifications of

all SIMATIC NET Industrial Ethernet components assumes the use of shielded twisted

-pair

cables.

As explained in the installation rules for the devices, the shields of the twisted

-pair cables

must make good conductive contact with the device housings at both

ends. This is ensured

by the SIMATIC NET connectors designed specially to match the devices.

If, on the other hand, the rules are ignored and unshielded cables are used or the shields do

not make contact with the casing at both ends, there is no longer

any guarantee that the

technical data regarding noise emission and noise immunity will apply. In this case, the

operators of the system must take responsibility themselves for compliance with the legal

limit values for noise emission and noise immunity (C

E mark)!

Handling bus cable shields

Note the following points about cable shields:

● Use SIMATIC NET twisted-pair cables throughout your system. The shields of these

cables have an adequate density to meet the legal requirements regarding noise

emission and immunity.

● Always contact the shields of bus cables at both ends. The legal requirements for noise

emission and noise immunity in your system (CE marking) can only be achieved when

the shields make contact at both ends.

● Secure the shield of the bus cable to the connector casing.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

218 System Manual, 05/2016, C79000-G8976-C271-01

● If cables are installed permanently, it is advisable to remove the insulation of the shielded

cable and to establish contact on the shield/PE conductor bar.

Note

If there is a potential difference

between the grounding points, an illegally high

compensating current can flow through the shield grounded at both ends. To rectify the

problem, do not, under any circumstances, open the shield of the bus cable.

This problem can be solved in the following w

ays:

● Install an additional bonding conductor parallel to the bus cable that takes over the shield

current.

● Use fiber-optic cable instead of electrical cable (safest solution).

Establishing shield contact

When contacting the cable shields, please note the following points:

● Secure the braided shield with metal cable clamps.

● The clamps must make good and large-area contact with the shield.

● Contact SIMATIC NET twisted-pair cables only using the braided copper shield and not

the aluminum foil shield. The foil shield is connected to a plastic foil to increase tearing

strength and is therefore non-conductive.

● Contact the shield with the shielding bar directly at the point at which the cable enters the

cabinet.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 219

Figure 6-6 Securing shielded cables with cable clamps and ties (schematic representation)

● When removing the sheath of the cable, make sure that the braid shield of the cables is

not damaged.

● To allow good contact between grounding elements, tin-plated or galvanically stabilized

surfaces are ideal. With galvanized surfaces, the necessary contact should be achieved

using suitable screws. Painted surfaces should be avoided at the contact points.

● Unless specifically intended for this purpose, shield clamps and contacts should not be

used for strain relief. The contact with the shielding bar could be impaired or be broken

altogether.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

220 System Manual, 05/2016, C79000-G8976-C271-01

Figure 6-7 Contacting the shield at the point of entry to a cabinet

6.3.6.4

Special noise suppression measures

Connecting switched inductances to suppressors

Some inductive switching devices (for example relays) create interference voltages that are

a multiple of the connected operating voltage. The SIMATIC S7-300 /9/ and S7-400 /10/

system manuals contain suggestions on how to limit the interference voltages caused by

inductance by connecting them to suppressors.

Power supply for programming devices

It is advisable to include a power socket for programming devices in each cabinet. The

socket must be supplied by the same system to which the PE conductor for the cabinet is

connected.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 221

Cabinet lighting

Use bulbs for the cabinet lighting, for example LINESTRA lamps. Avoid the use of

fluorescent lamps since they cause interference. If you need to use fluorescent lamps, take

the measures shown in the figure below.

Figure 6-8 Measures for interference suppression of fluorescent lamps in a cabinet

6.3.7

Arrangement of devices and cables

Adequate clearance to reduce the effects of interference

One simple but nevertheless effective method of reducing the effects of interference is to

keep the "culprit" and "victim" devices and cables as far apart from each other as possible.

Inductive and capacitive interference injection declines in proportion to the square of the

distance of the elements involved. This means that doubling the clearance reduces the

effects of interference by a factor of four. Taking certain aspects into account during the

planning phase of a building generally incurs little extra cost and can save considerable

effort later.

Standards recommending the spatial arrangement of devices and cables

EN 501742 /13/ includes recommendations on the spatial arrangement of devices and

cables with the aim of achieving the lowest possible mutual interference.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

222 System Manual, 05/2016, C79000-G8976-C271-01

6.3.7.1

The influence of power distribution systems (EN 501742, 6.4.4.2)

Planning the electrical installations

To avoid the power distribution system affecting sensitive devices, the following points must

be taken into account when planning the electrical installation:

● Possible sources of interference, for example voltage distributors, voltage transformers,

elevators, high currents in power supply bars, must be located at a suitable distance from

sensitive devices;

● Metal pipes (for example for water, gas, heating) and cables should enter the building at

the same point;

● The metal surfaces, shields, metal pipes, and connections of such conduits must be

connected with lowresistance conductors to the main bonding conductor of the building;

● Using a common cable route for lowvoltage cable and signal cables with adequate

separation (either by clearance or shielding) between the two to avoid large induction

loops that are created by the different lowvoltage cabling;

● The use of either a single multicore cable for all power supplies or (in the case of higher

power requirements) of conductor bars with weak magnetic fields.

6.3.7.2

Cable categories and clearances

Fiberoptic cables

When using fiberoptic cables, mechanical protection is necessary, however the EMC rules

do not apply.

Grouping in categories

It is useful to group wires and cables into various categories according to the signals they

carry, possible interference signals, and their sensitivity to interference. Minimum clearances

can be specified for these categories so that interferencefree operation can be expected

under normal operating conditions if the clearance is adhered to.

Constraints

Grouping cables according to voltage classes assumes that the interference voltages relate

directly to the power supply voltage conducted (the lower the supply voltage, the lower the

interference voltage). Remember, however, that DC or 50 Hz power supply voltages do not

represent any danger to Industrial Ethernet bus cables. The critical interference voltages in

the kHz to MHz frequency range are created by the consumers connected to the cable. A 24

V DC cable with which a relay is switched regularly has a far more critical interference range

than a 230 V cable supplying a lightbulb.

In the information shown below, it is assumed that all the components within an automation

system and all the plant components controlled by the system (for example machines, robots

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 223

etc.) at least meet the requirements of the European standards for electromagnetic

compatibility in an industrial environment. If devices are defective or incorrectly installed,

higher interference voltages must be expected!

The following is assumed:

● The cables for analog signals, data signals and process signals are always shielded.

● The distance from the cables to the chassis surface of the system (cabinet wall, grounded

and conducting cable channel, ...) is not more than 10 cm.

Note

In general, the greater the distance between cables and the shorter the distances over

which the cables run parallel to each other, the less the danger of interference.

How to read the table

To check how cables of different types must be laid, follow the steps outlined below:

1. Find the cable type of the first cable in column 1 (Cables for ...).

2. Find the cable type of the second cable in the relevant section in column 2 (and cables for

...).

3. Read the guidelines for laying the cables in column 3 (lay ...).

Table 11 Cabling within buildings

Cables for ...

and cables for ...

Lay ...

Bus signals, shielded

(PROFIBUS, Industrial Ether-

net)

Bus signals, unshielded

(ASInterface)

Bus signals, shielded

(PROFIBUS, Industrial Ether-

net)

Bus signals, unshielded

(ASInterface)

Data signal, shielded

(PG, OP, printer, counter inputs

etc.)

Analog signals, shielded

DC voltage

(v 60 V), unshielded

Process signals

(v 25 V), shielded

AC voltage

(v 25 V), unshielded

Monitors (coaxial cable)

In common bundles or cable

channels

DC voltage

(u 60 V and v 400 V), unshield-

AC voltage

(u 25 V and v 400 V), unshield-

In separate bundles or cable

channels (no minimum clear-

ance required)

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

224 System Manual, 05/2016, C79000-G8976-C271-01

Cables for ...

and cables for ...

Lay ...

DC and AC voltage

(u 400 V), unshielded

Within closets:

In separate bundles or cable

channels (no minimum clear-

ance required)

Outside closets:

On separate cable paths with at

least 10 cm clearance

HF cables for transmitter high

level stages and transmitter

antennas with voltages from 10

to 1000 V

Lay HF cables in steel pipes

with multiple ground points; at

least 30 cm clearance

6.3.7.3

Cabling within closets

When running cables within cubicles and cabinets, remember the following rules:

● Install the cables in metallic, electrically conductive cable channels.

● Screw the cable channels to the struts of the rack or cubicle walls approximately every 50

cm making lowresistance and lowinductance contact.

● Separate the cables according to the categories as shown in table 1-1.

● Maintain the minimum clearance between the cables of different categories as explained

in table 1-1. In general, the risk of interference due to crosstalk is less the greater the

clearance between the cables.

● Where cables of different categories cross, they should cross approximately at right

angles (wherever possible avoid sections where the cables run parallel).

● The shields of all cables entering the wiring closet should make largearea contact with

closet ground as close as possible to the point of entry.

6.3.7.4

Cabling within buildings

When laying cables outside cabinets but within buildings, note the following points:

● Install the cables in metallic, electrically conductive cable channels.

● Include the metal cable channels and racks in the bonding system of the building or plant.

Note the information on equipotential bonding in Section 1.3 in this manual.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 225

● Separate the cables according to the categories as described in table 11 and run the

various categories in their own channels/racks.

● If there is only one common metal channel available for all categories, either the

clearances shown in Table 11 must be maintained or the individual categories should be

separated from each other by metallic partitions. The partitions must be connected to the

channel making lowresistance and lowinductance contact.

● Cable racks should cross each other at right angles.

6.3.7.5

Cabling outside buildings

Using fiberoptic cables

Industrial Twisted Pair is intended for use within buildings (tertiary area). The installation of

Industrial Twisted Pair cables between buildings in not permitted. LAN connections between

buildings and between buildings and external facilities are only possible with fiberoptic

cables (FO). Due to the optical transmission principle, fiberoptic cables are not affected by

electromagnetic interference. Measures for equipotential bonding and overvoltage protection

are unnecessary with fiberoptic cables.

6.3.8

Laying bus cables

6.3.8.1

Installation instructions for electrical and optical bus cables

General

During installation, remember that bus cables can only be subjected to a certain amount of

mechanical strain. Cables can be damaged or even destroyed by too much tensile stress or

pressure, by torsion or by bending them too sharply. The following instructions will help you

to avoid damage when installing bus cables. If cables are subjected to too much strain or

stress for one or more reasons, they should always be replaced.

Storage and transport

During storage, transportation and cabling, the open ends of the bus cable (without

connectors) must be kept closed with a shrink-on cover to prevent oxidation of the cores and

to keep dampness out of the cable.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

226 System Manual, 05/2016, C79000-G8976-C271-01

Temperatures

During transportation, cabling and operation, the cable must not be exposed to temperatures

below the specified minimum temperature or above the specified maximum temperature

otherwise the electrical and mechanical characteristics of the cables can deteriorate. The

permitted temperature ranges of your bus cable can be found in the technical data sheets of

the particular bus cables.

Tensile strength

The tensile force exerted on the cables during or after installation must not exceed the limits

of tensile strength of the cables. The permitted tensile loads of your bus cable can be found

in the technical data sheets of the particular bus cables.

Pull in assembled cables using cable grips

To pull in assembled cables, make sure that you use cable grips. These surround the fitted

plugs and protect them from damage while pulling them in.

Fitting strain relief

Make sure that you provide strain relief approximately 1 m from the connection point on all

cables subject to tensile loading. Shield clamps are not adequate for strain relief!

Pressure load

Too much pressure on the cables must also be avoided, for example pinching the cable

when securing it in position.

Torsoion

Torsion can lead to the elements of a cable being displaced and degrading the electrical

characteristics of cables. Bus cables must therefore not be twisted.

Bending radii

To avoid damage within the bus cables, they must at no time be bent more sharply than the

minimum bending radius. Note:

● When pulling in cables under tensile load, larger bending radii must be adhered to than

when the cable is in its final installed status.

● Bending radii for non-circular cables apply only to bending the flat, broader surface.

Bends in the narrower surface require much greater radii.

The permitted bending radii of your bus cable can be found in the technical data sheets of

the particular bus cables.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 227

Avoid loops

When laying bus cables, unwind them at a tangent from the cable drum or use appropriate

rotary tables. This prevents loops forming and resulting in kinks and torsion.

Installing other cables

When laying bus cables remember that bus cables must not be subjected to excessive strain

and stress when installed. This can, for example, happen when cables have been installed

along with other cables on a common rack or in a common duct (providing this is electrically

permitted) and then new cables are pulled along the same path later (during repairs or when

extending a system).

6.3.8.2

Additional instructions on installing fiberoptic cables

Protecting connectors from contamination

Fiber-optic cable connectors are sensitive to contamination. Unconnected plugs and sockets

must be protected with the supplied dust caps.

Attenuation variations under load

During installation, fiber-optic cables must not be twisted, stretched or squashed. The

specified limit values for tensile strain, bending radii and temperature ranges must be

adhered to. During installation, the attenuation values can vary slightly, these variations are,

however, reversible providing the strain limits are not exceeded.

Pulling cables using cable grips and protect connectors

To pull in cables without Kevlar pull-in aids use cable grips. Before fitting the cable grip,

make sure that the connectors of preassembled cables are protected from the pressure

exerted by the cable grip, for example using a piece of protective tube.

Fitting strain relief

Although the ST/BFOC plugs have their own strain relief and kink protection, it is advisable

to arrange for additional strain relief as close as possible to the connected device to protect

against mechanical strain.

Plan adequate attenuation reserves

When installing the cables over long distances, it is advisable to plan in one or more repair

splice connections in the attenuation budget.

Installing network components in cabinets

6.3 Guidelines for setting up networked automation systems in buildings

Passive network components

228 System Manual, 05/2016, C79000-G8976-C271-01

EMC robustness

Fiber-optic cables are immune to electromagnetic interference. Installing cables in cable

channels along with other cables (for example 230 V/380 V power supply cables) causes no

problems. When installing in cable channels, however, make sure that the permitted strain

on the fiber-optic cables is not exceeded when pulling in other cables later.

WARNING

Adherence to the technical specifications

During installation and operation, all mechanical requirements for the cable such as

bending radii, tensile strain etc. must be kept to. If these limits are exceeded, permanent

deterioration of the transmission characteristics may result that can cause temporary or

permanent failure of data transmission.

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 229

Index

100BASE-TX, 12

15-pin D-sub plug

Assembly, 174

Fitting, 174

7/8" energy connector

Closing unused connectors, 200

Fitting to an energy cable, 198

Fitting to module, 200

Pin assignment, 200

Suitable cables, 198

9-pin D-sub plug

Assembly, 171

Fitting, 171

Assembly instructions

15-pin D-sub plug, 174

7/8" energy connector to a module, 200

9-pin D-sub plug, 171

Energy cable and power plug PRO, 195

Fitting a 7/8" energy connector to an energy

cable, 198

IE FC cable 2 x 2 with an IE FC RJ-45 plug

PRO, 136

IE FC cable 2x2 and IE FC RJ-45 plug, 133

IE FC cable 2x2 and IE FC RJ-45 plug 4x2, 142

IE FC cable 2x2 and IE RJ-45 plug PRO, 139

IE FC cable 4x2 and IE FC RJ-45 plug 4x2, 145

IE FC FO cable on BFOC plug, 177

IE FC stripping tool, 130

IE FC TP cable and IE FC M12 plug PRO, 148

IE FC TP cable and IE FC outlet RJ-45, 161

IE FC TP standard cable 4x2 and IE FC RJ-45

modular outlet, 164

IE FC TP standard cable 4x2 and IE IP67 hybrid

plug, 156

IE hybrid cable 2x2 and IE FC RJ-45 modular outlet

power insert, 167

IE hybrid cable 2x2 and IE IP 67 hybrid plug, 151

IE RJ-45 modular outlet, 162

PCF Fiber-optic cable with SC RJ plug, 184

POF fiber-optic cable with SC RJ plug, 181

BFOC plug

mounting on IE FC FO cable, 177

Structure, 177

BFOC plug-in connectors, 209

Bus cables, 205

Electrical safety, 205

Handling bus cables, 205

in plants, 205

Cabinet lighting

EMC, 221

Cabling, 224

Within buildings, 224

Within closets, 224

Degrees of protection, 203

Energy cable

Fitting a 7/8" energy connector, 198

Fitting the power plug PRO, 196

FastConnect, 11

FastConnect twisted pair, 11

FC FO LC plug, 104

FC FO termination kit, 105

FC twisted pair, 11

Fiber-optic cables (FO cables), 65

FO FRNC cable 50/125/OM4, 76

Index

Passive network components

230 System Manual, 05/2016, C79000-G8976-C271-01

Glossary, 8

IE FC cable 2x2

Connecting an IE FC RJ-45 plug, 134

Connecting an IE FC RJ-45 plug 180 4x2, 142

Fitting the IE FC RJ-45 plug PRO, 136

Fitting the IE RJ-45 Plug PRO, 139

IE FC cable 4x2

Fitting the IE FC RJ-45 Plug 4x2, 145

IE FC FO cable

mounting on the BFOC plug, 177

IE FC M12 cable connector PRO (PROFINET), 53

IE FC M12 plug PRO

Fitting to IE FC TP cable, 148

IE FC outlet RJ-45

Fitting to IE FC TP cable, 161

IE FC RJ-45 modular outlet

Fitting to IE FC TP standard cable 4x2, 164

IE FC RJ-45 modular outlet power insert

Fitting to IE FC cable 2x2, 167

IE FC RJ-45 plug

Connecting to IE FC cable 2x2, 134

Connector pinout, 133

IE FC RJ-45 PLUG 180 4x2, 46

IE FC RJ-45 plug 4x2

Connecting to IE FC cable 2x2, 142

Connecting to IE FC cable 4x2, 145

IE FC RJ-45 plug PRO

Fitting the IE FC RJ-45 plug PRO, 136

IE FC RJ-45 PLUG PRO, 56

IE FC TP cable

Fitting an IE FC outlet RJ-45, 161

Fitting the IE FC M12 plug PRO, 148

IE FC TP robust flexible cable GP 2x2, 24

IE FC TP robust standard cable GP 2 x 2, 22

IE FC TP standard cable 4x2

Fitting an IE IP67 hybrid plug, 156

IE FC RJ-45 modular outlet, 164

IE hybrid cable 2x2

Fitting an IE FC RJ-45 modular outlet power

insert, 167

Fitting an IE IP67 hybrid plug, 151

IE IP 67 hybrid plug

Fitting to IE FC cable 2x2, 151

IE IP67 hybrid plug

Fitting to IE FC TP standard cable 4x2, 156

IE M12 panel feedthrough 4x2, 47

IE M12 panel feedthrough PRO, 49

IE RJ-45 modular outlet

Fitting, 162

Replacing the insert, 163

IE RJ-45 plug PRO

Connecting to IE FC cable 2x2, 139

IE robust connecting cable M12, 40

IE TP ground cable 2x2, 33

IE TP train cable 2x2, 31

IEEE 802.3u, 12, 67

Industrial Twisted Pair

Connector pinout, 169

ITP plug, 169

IP degrees of protection, 203

ITP plug

15-pin, 174

9-pin, 171

Connector pinout, 169

M12, 12

Maximum lengths

Multimode glass fiber-optic cable, 67

Multimode glass fiber-optic cables with 1 Gbps

Ethernet, 68

Single mode glass fiber-optic cable, 67

Twisted pair sections, 13

MM FO robust cable GP, 71

Networking bus cables

Notes, 205

PCF fiber-optic cables

Fitting SC RJ plug, 184

POF fiber-optic cable

Fitting SC RJ plug, 181

Power plug PRO

Connector pinout, 195

Fitting to an energy cable, 196

Primary area

Cabling buildings, 11

RJ-45, 12

RJ-45 COUPLER PRO, 57

Index

Passive network components

System Manual, 05/2016, C79000-G8976-C271-01 231

Robust Power Connecting Cable, 117

SC RJ plug

Assembly, 181, 184

Fitting to PCF fiber-optic cable, 184

Fitting to POF fiber-optic cable, 181

Secondary area

Cabling buildings, 11

Shield contact

Establishing, 218

Shielding cables, 217

SIMATIC NET glossary, 8

Special cables

Contact person, 8

Special lengths

Contact person, 8

Structured cabling, 11

Tertiary area

Cabling buildings, 11

Twisted pair cord, 11

Index

Passive network components

232 System Manual, 05/2016, C79000-G8976-C271-01