Phoenix Contact AXL E PN DI8 DO8 M12 6M, AXL E PN DI16 M12 6P, AXL E PN DI16 M12 6M, AXL E PN DI8 DO8 M12 6P, AXL E PN DI8 DO4 2A M12 6P User Manual

Axioline E: system and installation

User manual

UM EN AXL E SYS INT

User manual

Axioline E: system und installation

Revision 03

This user manual is valid for Axioline E devices.

2018-01-05

8395_en_03

PHOENIX CONTACT GmbH & Co. KG • Flachsmarktstraße 8 • 32825 Blomberg • Germany

phoenixcontact.com

Table of contents

1.1 Labeling of warning notes......................................................................................5

1.2 Qualification of users .............................................................................................5

1.3 Product changes ................................................................................................... 6

1.4 Security in the network ..........................................................................................6

2 Axioline E product group ............................................................................................................7

2.1 Axioline E networks ...............................................................................................7

2.2 Axioline E product variants ....................................................................................8

2.3 Axioline E- product portfolio...................................................................................9

2.4 Axioline E product designation ............................................................................ 11

2.5 Axioline E documentation ....................................................................................12

2.6 Axioline E Device description file .........................................................................15

2.7 For your safety.....................................................................................................16

2.7.1 Intended use ........................................................................................ 16

2.7.2 Rulations ..............................................................................................16

2.7.3 Safety notes .........................................................................................16

3 Description of the Axioline E devices ......................................................................................17

3.1 Housing dimensions of Axioline E plastic devices ...............................................17

TM

3.1.1 Ethernet versions (PROFINET, EtherNet/IP

Ethernet (Modbus/TCP), EtherCAT® ) .................................................17

3.1.2 PROFIBUS versions ............................................................................18

3.2 Housing dimensions of Axioline E metal devices.................................................19

3.2.1 Ethernet versions (PROFINET, EtherNet/IP

Ethernet (Modbus/TCP), EtherCAT®) ..................................................19

3.2.2 PROFIBUS versions ............................................................................20

3.3 Dimensions of screw holes in the fixing clips ....................................................... 21

3.4 Basic structure of the Axioline E devices ............................................................. 22

3.5 Marking the Axioline E devices............................................................................ 23

3.6 Diagnostics and status indicators of the Axioline E devices................................. 24

, Sercos,

TM

, Sercos,

4 Mounting Axioline E devices and connecting cables ................................................................25

4.1 General information on installation ......................................................................25

4.1.1 Installing network/bus cables between buildings .................................27

4.1.2 Interference suppression measures .....................................................28

4.1.3 Grounding concept ..............................................................................28

4.2 Installation instructions ........................................................................................29

4.3 Mounting distances .............................................................................................29

4.4 Mounting Axioline E plastic devices..................................................................... 30

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4.5 Mounting Axioline E metal devices ......................................................................31

4.5.1 Mounting metal devices using extendable fixing clips .......................... 31

4.5.2 Attaching the metal device using a mounting plate ..............................32

4.6 Setting the address..............................................................................................34

4.7 Cable connection.................................................................................................36

4.8 Connecting power supplies ................................................................................. 37

4.8.1 Power supplies U

and UA ................................................................... 37

S

4.8.2 Power supply for sensors and actuators of individual devices .............39

4.8.3 Examples for voltage supply ................................................................40

4.8.4 Supply line and power supply (M12) .................................................... 40

4.8.5 Calculation example for sensor and actuator currents ......................... 41

4.9 Connecting sensors and actuators ......................................................................42

5 Axioline E IO-Link devices .......................................................................................................43

5.1 Axioline E- IO-Link master ...................................................................................45

5.2 Axioline E IO-Link digital input and output devices ..............................................46

5.2.1 Housing dimensions

of the Axioline E IO-Link digital input and output devices ..................... 46

5.2.2 Basic structure

of the Axioline E IO-Link digital input and output devices ..................... 47

5.2.3 Marking of

the Axioline E IO-Link digital input and output devices .........................48

5.2.4 Diagnostic and status indicators

of the Axioline E IO-Link digital input and output devices ..................... 48

5.2.5 Mounting

of the Axioline E IO-Link digital input and output devices ..................... 49

5.3 IO-Link/analog converter .....................................................................................50

5.3.1 Dimensions of the straight IO-Link/analog converter ............................52

5.3.2 Dimensions of the rectangular IO-Link/analog converter .....................52

5.3.3 Connections of the straight IO-Link/analog converter ..........................53

5.3.4 Connections of the rectangular IO-Link/analog converter .................... 53

5.3.5 Mounting of the IO-Link/analog converter ............................................ 54

5.4 Axioline E IO-Link topology..................................................................................55

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PHOENIX CONTACT 8395_en_03

1For your safety

Read this user manual carefully and keep it for future reference.

1.1 Labeling of warning notes

For your safety

This symbol indicates hazards that could lead to personal injury.
There are three signal words indicating the severity of a potential injury.

DANGER

Indicates a hazard with a high risk level. If this hazardous situation is not
avoided, it will result in death or serious injury.

WARNING

Indicates a hazard with a medium risk level. If this hazardous situation is not
avoided, it could result in death or serious injury.

CAUTION

Indicates a hazard with a low risk level. If this hazardous situation is not avoided,
it could result in minor or moderate injury.

This symbol together with the NOTE signal word alerts the reader to a situation
which may cause damage or malfunction to the device, hardware/software, or
surrounding property.

Here you will find additional information or detailed sources of information.

1.2 Qualification of users

The use of products described in this user manual is oriented exclusively to:
– Qualified electricians or persons instructed by them. The users must be familiar with the

relevant safety concepts of automation technology as well as applicable standards and
other rulations.

– Qualified application programmers and software engineers. The users must be familiar

with the relevant safety concepts of automation technology as well as applicable stan­dards and other rulations.

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1.3 Product changes

Changes or modifications to hardware and software of the device are not permitted.

Incorrect operation or modifications to the device can endanger your safety or damage the
device. Do not repair the device yourself. If the device is defective, please contact
Phoenix Contact.

1.4 Security in the network

NOTE: : Risk of unauthorized network access

Connecting devices to a network via Ethernet always entails the risk of unauthorized ac­cess to the network.

Therefore, please check your application for any option of deactivating active communi­cation channels . Setting passwords to prevent third parties from accessing the controller
without authorization and modifying the system.

Because of the controller's communication interfaces, we advise against using the con­troller in safety-critical applications without additional security appliances.
Please take additional protective measures according to the IT security requirements and
the standards applicable to your application (for instance virtual networks (VPN) for re­mote maintenance access, firewalls, etc.) for protection against unauthorized network ac­cess.

On first request, you shall release Phoenix Contact and the companies associated with
Phoenix Contact GmbH & Co. KG, Flachsmarktstraße 8, 32825 Blomberg in accordance
with §§ 15 ff. AktG or German Stock Corporation Act (hereinafter collectively referred to
as "Phoenix Contact") from all third-party claims that are made due to improper use.

For the protection of networks for remote maintenance via VPN, Phoenix Contact offers
the mGuard product series security appliances which you can find described in the latest
Phoenix Contact catalog (phoenixcontact.net/products

Additional measures for protection from unauthorized network access can be found in the
AH EN INDUSTRIAL SECURITY application note. The application note can be download­ed at phoenixcontact.net/products.

).

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2 Axioline E product group

The input and output devices in the Axioline E product group are designed for distributed
automation tasks in harsh environmental conditions. The devices meet the requirements for
IP65/IP67 protection. They enable the direct connection of sensors and actuators in the
field.

The connection of the network, I/Os and the supply is carried out via screwable
M12 connectors.

2.1 Axioline E networks

The Axioline E devices are available for the following networks:

PROFINET

Axioline E product group

EtherNet/IP

Sercos

Ethernet (Modbus/TCP)

EtherCAT

PROFIBUS

TM

®

®

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2.2 Axioline E product variants

The Axioline E product group includes devices with the following functions:

- DI Digital input devices acquire digital control signals from the process level. These signals are
transferred to the higher-level automation device via the network. The signal status is indi­cated on the Axioline E device using LEDs. The sensors are connected via M12 screw con­nectors. The sensors are supplied from the sensor voltage U

- DO Digital output devices transfer the digital control signals from the automation device to the
process level at the actuators. For the specified load currents for the outputs of various de­vices, please refer to the data sheet. The signal status is indicated on the device using
LEDs. The actuators are connected via M12 screw connectors. The outputs are short­circuit-proof and protected against overload. The actuators are supplied from the actuator
voltage U

- DIO Digital I/O devices have digital inputs and digital outputs with the same properties as the
input and output devices. The inputs and outputs are freely configurable.
vices, the actuator supply is via U

- DI DO Digital I/O devices have digital inputs and digital outputs with the same properties as the
input and output devices.

- IOL These devices have IO-Link ports for communication-capable sensors and actuators.
IO-Link is a communication system for the connection of intelligent sensors and actuators
to an automation system.

(Exception DIO).

A

.

S

.

S

For the DIO de-

IO-Link master The Axioline E product portfolio contains an IO-Link master for each of the networks listed

in chapter

The IO-Link master enables the operation of up to eight IO-Link sensors/actuators and is
also used to acquire digital signals. Together with the IO-Link/analog converters, the de­vices allow flexible processing of the signal volume in the field installation.

You will find further information on IO-Link masters in the
Chapter

Digital input and output
devices via IO-Link

IO-Link/analog converter The IO-Link/analog converter is an IO-Link device that converts analog signals into the

The Axioline E product group is supplemented with IO-Link digital input and output devices.
These IO-Link devices solve the customer's request to capture or output various I/O signals
at a central point via IO-Link.

The Axioline E digital input device is connected to an IO-Link master via an IO-Link A port.
It is used to acquire digital signals via IO-Link.

The Axioline E digital input device is connected to an IO-Link master via an IO-Link B port.
It is used to output digital signals via IO-Link. Via the IO-Link master the use within different
networks is possible.

IO-Link protocol. Depending on the version, it allows you to acquire the signals from analog
sensors via an IO-Link master or to transmit them to analog actuators.

2.1. The IO-Link master is versatile and is available as a plastic or metal variant.

3 „Description of the Axioline E devices“ and in the corresponding data sheets.

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Axioline E devices
(Digital I/O devices
and IO-Link master)

Axioline E product group

2.3 Axioline E- product portfolio

The following tables give an overview of the Axioline E product portfolio.

Axioline E plastic devices Axioline E metal devices
Article designation Order No. Article designation Order No.
PROFINET PROFINET

AXL E PN DI16 M12 6P 2701510 AXL E PN DI16 M12 6M 2701516
AXL E PN DIO16 M12 6P 2701511 AXL E PN DIO16 M12 6M 2701517
AXL E PN DI8 DO8 M12 6P 2701509 AXL E PN DI8 DO8 M12 6M 2701515
AXL E PN DI8 DO4 2A M12 6P 2701512 AXL E PN DI8 DO4 2A M12 6M 2701518
AXL E PN IOL8 DI4 M12 6P 2701513 AXL E PN IOL8 DI4 M12 6M 2701519

EtherNet/IP™ EtherNet/IP™

AXL E EIP DI16 M12 6P 2701493 AXL E EIP DI16 M12 6M 2701488
AXL E EIP DIO16 M12 6P 2701494 AXL E EIP DIO16 M12 6M 2701489
AXL E EIP DI8 DO8 M12 6P 2701492 AXL E EIP DI8 DO8 M12 6M 2701487
AXL E EIP DI8 DO4 2A M12 6P 2701495 AXL E EIP DI8 DO4 2A M12 6M 2701490
AXL E EIP IOL8 DI4 M12 6P 2701496 AXL E EIP IOL8 DI4 M12 6M 2701491

Sercos

AXL E S3 DI16 M12 6P 2701544 AXL E S3 DI16 M12 6M 2701549
AXL E S3 DIO16 M12 6P 2701545 AXL E S3 DIO16 M12 6M 2701550
AXL E S3 DI8 DO8 M12 6P 2701542 AXL E S3 DI8 DO8 M12 6M 2701548
AXL E S3 DI8 DO4 2A M12 6P 2701546 AXL E S3 DI8 DO4 2A M12 6M 2701551
AXL E S3 IOL8 DI4 M12 6P 2701547 AXL E S3 IOL8 DI4 M12 6M 2701552

Ethernet Ethernet

AXL E ETH DI16 M12 6P 2701533 AXL E ETH DI16 M12 6M 2701538
AXL E ETH DIO16 M12 6P 2701534 AXL E ETH DIO16 M12 6M 2701539
AXL E ETH DI8 DO8 M12 6P 2701532 AXL E ETH DI8 DO8 M12 6M 2701537
AXL E ETH DI8 DO4 2A M12 6P2701535 AXL E ETH DI8 DO4 2A M12 6M 2701540

®

Sercos

®

AXL E ETH IOL8 DI4 M12 6P 2701536 AXL E ETH IOL8 DI4 M12 6M 2701541

EtherCAT

®

EtherCAT

®

AXL E EC DI16 M12 6P 2701521 AXL E EC DI16 M12 6M 2701526
AXL E EC DIO16 M12 6P 2701522 AXL E EC DIO16 M12 6M 2701528
AXL E EC DI8 DO8 M12 6P 2701520 AXL E EC DI8 DO8 M12 6M 2701525
AXL E EC DI8 DO4 2A M12 6P 2701523 AXL E EC DI8 DO4 2A M12 6M 2701529
AXL E EC IOL8 DI4 M12 6P 2701524 AXL E EC IOL8 DI4 M12 6M 2701531

PROFIBUS PROFIBUS

AXL E PB DI16 M12 6P 2701498 AXL E PB DI16 M12 6M 2701505
AXL E PB DIO16 M12 6P 2701499 AXL E PB DIO16 M12 6M 2701506
AXL E PB DI8 DO8 M12 6P 2701497 AXL E PB DI8 DO8 M12 6M 2701504
AXL E PB DI8 DO4 2A M12 6P 2701502 AXL E PB DI8 DO4 2A M12 6M 2701507
AXL E PB IOL8 DI4 M12 6P 2701503 AXL E PB IOL8 DI4 M12 6M 2701508

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Axioline E
digital input and output
device via IO-Link

Axioline E
IO-Link/analog converter

Axioline E digital input and output devices via IO-Link (plastic)
Article designation Order No.

AXL E IOL DI8 M12 6P 2702658
AXL E IOL DO8 M12 6P 2702659

Axioline E IO-Link/analog converter (plastic)
Article designation Order No.

AXL E IOL AI1 U M12 R 2700273
AXL E IOL AI1 I M12 R 2700275
AXL E IOL AO1 U M12 R 2700278
AXL E IOL AO1 I M12 R 2700282
AXL E IOL RTD1 M12 R 2700305

AXL E IOL AI1 U M12 S 2700336
AXL E IOL AI1 I M12 S 2700338
AXL E IOL AO1 U M12 S 2700350
AXL E IOL AO1 I M12 S 2700351
AXL E IOL RTD1 M12 S 2700352

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Axioline E product group

2.4 Axioline E product designation

Structure of the
product designation

g

Product
range

AXL E PN DIx 2A M12 6M

Example:
AXL E PB DI8 DO4 2A M12 6P
AXL E - IOL DO8 - M12 6P

Product
group

Network I/O type Extention Network connection

I/O connection

EIP DIx DOx
S3 DIOx
ETH IOLx DIx
EC IOL DIx
PB IOL DOx

Width in cm/
housing material

Meaning of the
product designation

Abbreviation Meaning

AXL Axioline
E Name of thr product group
PN PROFINET
EIP EtherNet/IP

TM

S3 Sercos
ETH Ethernet (Modbus/TCP)
EC EtherCAT

®

PB PROFIBUS
DIx x digital inputs
DOx x digital outputs
DIx DOx x digitale inputs; x digital outputs
DIOx x freely configurable inputs or outputs
IOL IO-Link
2A Nominal current of an output is 2 A
M12 M12 connector
6M 6 cm wide, metal housing
6P 6 cm wide, plastic housing

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2.5 Axioline E documentation

The documentation for the Axioline E product group is modular in order to meet your specific
requirements, e.g., for installation or commissioning with a software to provide the best in­formation.

User manual This user manual is the higher - level system manual for the Axioline E product group.

It includes:
– Description of the Axioline E system
– Functions and properties of the devices
–Mounting
– Concept of power supply

Network specific
IO-Link user manuals

For the IO-Link devices, there is a user manual for each network. This describes the
network/bus-specific properties of an Axioline E-IO-Link device.

The following user manuals are available:
– Network-specific properties of

the Axioline E-PROFINET IO-Link devices

– Network-specific properties of

TM

the Axioline E EtherNet/IP

IO-Link devices

– Network-specific properties of

the Axioline E Sercos

IO-Link devices

– Network-specific properties of

the Axioline E-Ethernet-IO-Link devices

– Network-specific properties of

the Axioline E-EtherCAT

®

-IO-Link devices

– Bus-specific properties of

the Axioline E-PROFIBUS-IO-Link devices

Packing slip A package slip is included with the unit upon delivery. It contains the most important infor-

mation about the electrical installation of a device or a group of devices.

This includes:
– Short desciption of the device
–Safty notes
– Drawing, dimensions in mm
– Mounting/demounting
– Connections
– Pin assignment

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PHOENIX CONTACT 8395_en_03

Axioline E product group

Device-specific
data sheets

Application notes
and quickstarts

There is a data sheet for every device. The data sheet describes the specific properties of
an Axioline E device.

This includes:
– Device description
– Ordering data and technical data
– Basic circuit diagram
– Connection assignment
– Connection example
– Local diagnostics and status indicators
– Processdata*
–Startup*
– Specific network/bus features*

* Refer to the IO link masters in the network/bus-specific user manuals.

For complete information, please use the application notes and quickstarts.
An application notes provides additional information on specific topics.
A quickstarts describes the commissioning of a device step by step on an example.

The following application notes and quickstarts are available for the Axioline E system:

PROFINET

®

– Startup of Axioline E PROFINET devices on a SIMATIC
– Startup of Axioline E PROFINET IO-Link devices on a SIMATIC

S7 controlle r

®

S7 controller

– Startup of Axioline E PROFINET IO-Link devices on a SIMATIC® S7 controller

in the TIA portal
– Startup of Axioline E PROFINET devices using PC WORX
– Startup of Axioline E PROFINET IO-Link devices using PC WORX
– Updating the firmware of AXL E devices using the Windows Explorer
– Changing the partner ports with AXL E PROFINET devices under STEP 7
– Changing the partner ports with AXL E PROFINET devices under STEP 7

in the TIA Portal

EtherNet/IP

TM

– Startup of Axioline E EtherNet/IPTM IO-Link devices with RSLOGIX
– Updating the firmware of AXL E devices using the Windows Explorerr

Sercos

– Startup of Axioline E Sercos devices with INDRAWORKS
– Updating the firmware of AXL E devices using the Windows Explorer

Ethernet

– Startup of Axioline E-Ethernet devices with MODSCAN32
– Updating the firmware of AXL E devices using the Windows Explorer

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EtherCAT

– Startup of Axioline E-EtherCAT® devices with TwinCAT

®

®

– Startup of Axioline E-EtherCAT® IO-Link devices with CODESYS
– Startup of the Axioline F buscoupler for EtherCAT

®

and for Axioline E devices for EtherCAT® at Sysmac Studio

PROFIBUS

®

– Startup of Axioline E PROFIBUS devices on a SIMATIC

S7

Phoenix Contact catalogs The Phoenix Contact catalogs contain the ordering data for all Axioline E products.

This includes:

–Bus cables

–Shielded bus connectors

– Unshielded connectors

– Mounting systems

– Termination resistors

– Other accessories

Documentation
on the internet

This documentation can be downloaded at phoenixcontact.net/products

. Here you will find
information on each product. During your search, take into account the difference between
“Generate product PDF” and “Download”.

Generate product PDF Click the “Generate product PDF” button to receive up-to-date selected information. It pro-

vides a short overview of the device.The generated PDF file contains the essential product
information. If you require further information, you can use the “Downloads” tab.

Downloads Under the “Downloads” tab, you can access the complete documentation and all other

downloads related to a device.

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2.6 Axioline E Device description file

An Axioline E device is intrated into a control system via a standardized device description
file. This is evaluated at runtime, thus enabling the Axioline E device to be operated with the
specific settings. Axioline E devices in the ETH (Modbus / TCP) network are excluded.
These do not require a device description file.

Device description file Network

GSDML

Generic Station Description
Markup Language

EDS

Electronic Data Sheet

Axioline E product group

Axioline E.PROFINET devices are intrated language in­dependent XML-based files (GSDML).

Axioline E-EtherNet/IP ™ devices are intrated using
Electronic Data Sheets (EDS).

SDDML

Sercos Device Description
Markup Language

ESI

®

EtherCAT

Slave Information

GSD

General Station Description

For Axioline E Sercos devices the intration is via
XML-based device description files (SDDML).

Axioline E-EtherCAT® devices are intrated via
EtherCAT

®

Slave Information (ESI).

Axioline E PROFIBUS devices are intrated using device
description files (GSD).

You will find current device description files at the address

phoenixcontact.net/products

.

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2.7 For your safety

2.7.1 Intended use

The Axioline E devices are designed for use as specified in this user manual and in the
device-specific data sheets.

Observe the data specified in the data sheets and in the user manual. If the operating in­structions and safety notes for configuration, installation, and operation given in the docu­mentation are followed, the devices should not normally present a danger to people
or property.

2.7.2 Rulations

During device configuration, installation, startup, and maintenance, the applicable safety
and accident prevention rulations for the specific application must be observed.

2.7.3 Safety notes

NOTE: Device damage

To ensure IP65/IP67 protection, seal unused connections with protective caps.

NOTE: Data corruption or loss

Ground the devices to provide immunity to interference.

NOTE: Device damage

Only operate the Axioline E devices with a maximum SELV of 30 V according to
IEC 60950/EN 60950/VDE 0805.

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Description of the Axioline E devices

3 Description of the Axioline E devices

Axioline E devices are designed for use without a control cabinet in systems manufacturing.
Irrespective of the network/bus system, the devices are available in plastic or metal. The Ax­ioline E IO-Link digital input and output devices and the IO-Link/analog converter are only
available in plastic variants.

The metal devices are particularly suitable for use under harsh industrial conditions. They
can be used on tool platforms, directly on welding robots or in conveying technology, for ex­ample.

The housing dimensions of the plastic and metal devices are identical. They only differ with
rard to the fixing clips. These are fixed for the plastic devices, but are extendable in the case
of the metal devices. Furthermore, a mounting plate can be used to fix the metal devices.

The housing dimensions of the PROFIBUS devices differ from the housing dimensions of
the Ethernet versions with rard to the depth at socket X21.

3.1 Housing dimensions of Axioline E plastic devices

3.1.1 Ethernet versions (PROFINET, EtherNet/IPTM, Sercos,

®

Ethernet (Modbus/TCP), EtherCAT

)

212

185

30.5

198.5

60

30

X21

Figure 3-1 Housing dimensions (mm) plastic devices, Ethernet versions

The height is 212 mm including fixing clips.

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185

212

30.5

198.5

60

30

X21

3.1.2 PROFIBUS versions

Figure 3-2 Housing dimensions (mm) of PROFIBUS plastic devices

The height is 212 mm including fixing clips.

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PHOENIX CONTACT 8395_en_03

Description of the Axioline E devices

194.5

185

38

60

3.2 Housing dimensions of Axioline E metal devices

3.2.1 Ethernet versions (PROFINET, EtherNet/IPTM, Sercos,

Ethernet (Modbus/TCP), EtherCAT

Figure 3-3 Housing dimensions (mm) of metal devices with mounting plate

®

)

The height is 194.5 mm including the mounting plate. The depth is 38 mm including the
mounting plate.

212

185

30.5

198.5

60

30

X21

Figure 3-4 Housing dimensions (mm) of metal devices with extended fixing clips

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194.5

185

38

60

185

212

30.5

198.5

60

30

X21

3.2.2 PROFIBUS versions

Figure 3 -5 Housing dimensions (mm) of PROFIBUS metal devices with mounting plate

The height is 194.5 mm including the mounting plate. The depth is 38 mm including the
mounting plate.

Figure 3-6 Housing dimensions (mm) of PROFIBUS metal devices

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PHOENIX CONTACT 8395_en_03

with extended fixing clips

Description of the Axioline E devices

3.3 Dimensions of screw holes in the fixing clips

The drawing below shows the dimensions of the screw holes in the fixing clips.

6.3

1

7.3

Figure 3-7 Dimensions of the screw holes in mm

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X21 X22

PWR IN PWR OUT

X31 X32

X01 X02

X03 X04

X05 X06

X07 X08

1

2

4

3

1

5

6

7

10

9

8

3.4 Basic structure of the Axioline E devices

The figure shows the basic structure of the Axioline E devices.

Figure 3-8 Basic structure of the Axioline E devices

1 Fixing clips (FE connection);

optional for metal devices

2 Network or bus connection (IN, OUT)
3 Connections for the supply voltages
4 Connections of the input/outputs or IO-Link ports
5 Markers for marking
6 Status indicators of the inputs/outputs

7 Diagnostics and status indicators

for the supply voltages

8 Rotary coding switch
9 Diagnostics and status indicators

for the network/bus system

10 Diagnostics and status indicators for the network

(not for PROFIBUS)

or the IO-Link ports

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PHOENIX CONTACT 8395_en_03

Description of the Axioline E devices

3.5 Marking the Axioline E devices

It is possible to mark the devices next to the connections for the network,
to mark the connections for the power supply, and to mark every I/O connection/IO-Link port
(5 in Figure 3-8).

The devices are supplied as standard with ten unprinted marking labels.

If you want to swap a label, you can lift it out of the recess using a screwdriver.

Phoenix Contact offers the CMS-MARK-WIN software for professional marking,
see Phoenix Contact catalog.

8395_en_03PHOENIX CONTACT 23 / 58

UM EN AXL E SYS INST

3.6 Diagnostics and status indicators

of the Axioline E devices

Diagnostics The diagnostics indicators (green/yellow/red) indicate whether an error is present or not.

In the event of an error, they indicate the error type and location.

Status The status indicators (yellow) indicate the signal state of the corresponding input/output or

of the IO-Link port. If the yellow status indicators are on, this indicates signal state “1” of the
input/output signal.

The Axioline E devices have three main areas for diagnostics and status indicators.
– Indicators for the network/bus system (network/bus-specific) - data
– Indicators for the power supplies - power
– Indicators for the inputs and outputs and the IO-Link ports (device-specific) - signal

These areas are shown in Figure 3-9.

Figure 3-9 Main diagnostics and status indicators of the Axioline E devices

For more detailed information on the diagnostics and status indicators, please refer to the
data sheet for the respective device.

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PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

4 Mounting Axioline E devices and connecting cables

4.1 General information on installation

When preparing for cable installation, the local conditions and the corresponding mounting
rulations are very important. Cables can be installed, for example, in cable ducts or on cable
bridges.

NOTE: Data corruption and loss

A minimum distance between the cabling and possible sources of interference
(e.g., machines, welding equipment, power lines) is defined in the applicable rulations
and standards. During system planning and installation, these rulations and standards
must be taken into account and observed.

NOTE: Data corruption and loss

Protect the bus cables from sources of electric/magnetic interference and mechanical
strain.

NOTE: Data corruption and loss

Observe the following guidelines rarding “electromagnetic compatibility” (EMC) to keep
mechanical risks and interference to a minimum:

Mechanical strain – Choose the correct cable type for the respective application

(e.g., indoor or outdoor installation, drag chains).
– Observe the minimum bending radius.
– Make sure that cables do not enter the shear area of moving machine parts.
– Do not install bus cables at right angles to driving routes and machine movements.
– Use cable ducts and cable bridges.

Observe the specifications of the cables used.

8395_en_03 PHOENIX CONTACT 25

UM EN AXL E SYS INST

Sources of interference – Signal cables and power supply lines should not be installed in parallel. If necessary,

metal isolating sments should be placed between the power supply lines and signal

cables.
– Only use connectors with metal housing and connect as much of the shielding as

possible to the housing.
– For outdoor cables between buildings, make sure that grounding is carried out in

accordance with on page 27.
– During installation, all connector locking mechanisms (screws, union nuts) must be

firmly tightened in order to ensure the best possible contact between shielding and

ground. Before initial startup, the ground or shielding connection of cables must be

checked for low-resistance continuity.
– Install network/bus cables in separate cable ducts or separate cable bundles.
– Where possible, do not install network/bus cables parallel to power supply lines.
– Install network/bus cables at least 10 cm away from power lines.

Cable routing in buildings – Where possible, use metal cable hangers.

– Do not install network/bus cables together with or parallel to power supply lines.
– Separate network/bus cables on cable bridges or in cable ducts from power supply

lines using isolating sments.
– Install network/bus cables as far away as possible from sources of interference, such

as motors and welding equipment.
– For long cable connections, install an additional equipotential bonding line between the

terminal points.

Cable routing
outside buildings

– Install network/bus cables in metal pipes that are grounded on both sides or in concrete

cable ducts with continuous reinforcement.
– For long cable connections, install an additional equipotential bonding line between the

terminal points.

26

PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

1

6 6 5 1 A 0 4 1

2

3

4.1.1 Installing network/bus cables between buildings

Causes of surge voltages Surge voltages occur as a result of switching operations, electrostatic disharge, and light-

ning discharge. Surge voltages can be inductively, capacitively or galvanically coupled into
electrical cables for mains supply, measured value transmission, and data transmission. In
this way, surge voltages reach the power supply units and the interfaces of systems and ter­mination devices.

Equipotential bonding line Install an additional equipotential bonding line between the grounding points of buildings

(3 in Figure 4-1), which is preferably in the form of:
– A metal-reinforced concrete channel
– An additional grounding cable
–A metal pipe

Surge protective
devices

Phoenix Contact recommends wiring all the wires of the cable to surge protective devices
(1 in Figure 4-1) in order to protect the devices against surge voltages.

For information on surge protective devices, please refer to the Phoenix Contact catalogs.
Observe all national and international rulations when installing surge protective
devices.

Figure 4-1 Surge protection measures

1 Surge protective devices
2 Cable shielding
3 Equipotential bonding line

8395_en_03 PHOENIX CONTACT 27

UM EN AXL E SYS INST

5001B301

4.1.2 Interference suppression measures

Phoenix Contact recommends wiring relay coils or motor coils to an RC element in order to
protect the devices against interference. Depending on the application, the delay time of the
relay can be increased by approximately 1 ms.

Figure 4-2 Relay coil with RC element

The following values are recommended for the purpose of dimensioning the RC element:
R = 100  to 200 ; C = 220 nF to 470 nF.

4.1.3 Grounding concept

Axioline E devices operate in the low-level signal voltage range. In the case of low-level sig­nal devices, interference is discharged via functional earth ground (FE). Functional earth
ground (FE) is only used to discharge interference. It does not provide shock protection for
people. Functional earth grounding is crucial for interference-free operation!

The Axioline E devices are designed to be screwed onto on a flat mounting surface.

Axioline E master Ground the plastic master by means of the mounting screws of the fixing clips,

see page 30.

Ground the metal master by means of the mounting screws of the fixing clips or the mount­ing plate or the DIN rail, see page 31.

Axioline E IO-Link

Implement the FE connection via the grounding lug in order to ensure noise immunity.

digital input and output
device

Axioline E
IO-Link/analog converter

In en vir on ment s wit h hi gh lev el s of i nter fer ence, in particular, Phoenix Contact recommends
connecting the converter to an appropriate functional earth ground point using an M4 screw,
see page 50.

28

PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

4.2 Installation instructions

NOTE: Damage to the electronics

The device contains components that can be damaged or destroyed by electrostatic dis­charge. When handling the device, observe the necessary safety precautions against
electrostatic discharge (ESD) according to EN 61340-5-1 and IEC 61340-5-1.

NOTE: Damage to the electronics

The device may only be installed and removed by qualified electricians in accordance
with the ESD rulations.

NOTE: Data corruption or loss

Implement the FE connection via mounting screws in order to ensure noise immunity.

NOTE: Damage to the electronics

To ensure IP65/IP67 protection, seal unused connections with protective caps.

NOTE: Damage to the electronics

Only supply the sensors with voltage U

NOTE: Damage to the electronics

Avoid polarity reversal of supply voltages US and UA.

which is provided at the terminal points.

S

4.3 Mounting distances

No specific distances are required between devices or between a device and a cabinet door
or cover. Mounting distances are determined solely by the plugs used and the bending radii
of the cables.

8395_en_03 PHOENIX CONTACT 29

UM EN AXL E SYS INST

X21 X22

PWR IN PWR OUT

X31 X32

X01 X02

X03 X04

X05 X06

X07 X08

1

1

Drill hole spacing

4.4 Mounting Axioline E plastic devices

• Screw the device directly onto the flat mounting surface using the drill holes (1) of the

fixing clips.

30

198.5

Figure 4-3 Mounting

Functional earth
grounding

30

PHOENIX CONTACT 8395_en_03

Use standard M5 screws with toothed lock washer and self-locking nuts. Observe the
maximum torque of the screws.

NOTE: Data corruption or loss

Functional earth grounding is crucial for interference-free operation.
Ground the device by means of the mounting screws of the fixing clips.

Fixing clips of the metal

30

198.5

device

Mounting Axioline E devices and connecting cables

4.5 Mounting Axioline E metal devices

There are two options for mounting the metal devices. You can:
– Screw the device to the extendable fixing clips
– Mount the device using a mounting plate

4.5.1 Mounting metal devices using extendable fixing clips

A fixing clip is located on the back of the metal device at the top and bottom.

• Extend the fixing clips.

• Screw the device directly onto a flat mounting surface using the fixing clips.

Figure 4-4 Extending the fixing clips of the metal device

Drill hole spacing Please refer to the diagram below for the drill hole spacing.

8395_en_03 PHOENIX CONTACT 31

Figure 4-5 Drill hole spacing

UM EN AXL E SYS INST

Functional earth
grounding

NOTE: Data corruption or loss

Functional earth grounding is crucial for interference-free operation.
Ground the device by means of the mounting screws of the fixing clips

4.5.2 Attaching the metal device using a mounting plate

You can order the mounting plate for metal devices from Phoenix Contact under
Order No. 2701761.

• Screw the mounting plate directly onto a flat mounting surface using the mounting holes

provided or snap the mounting plate onto a DIN rail..

Use standard M5 screws with toothed lock washer and self-locking nuts. Observe the
maximum torque of the screws.

Figure 4-6 Mounting plate

32

PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

A1

A2

B1

B2

• Proceed as illustrated below when snapping the metal device onto the mounting plate

(A1, A2) and removing it (B1, B2).

Figure 4-7 Snapping on and removing the metal device from the mounting plate

Figure 4-8 Snapping the metal device onto the mounting plate

Functional earth
grounding

NOTE: Data corruption or loss

Functional earth grounding is crucial for interference-free operation.
Ground the device by means of the mounting screws of the fixing clips or the mounting
plate or the DIN rail.

8395_en_03 PHOENIX CONTACT 33

UM EN AXL E SYS INST

1

2

0

2

4

6

8

9

S2

x1

0

2

4

6

8

10

12

S1

x10

4.6 Setting the address

The Axioline E devices have rotary coding switches for setting the address and, if required,
the transmission speed .

The rotary coding switches are located below a cover.

• Open the cover.

Example:
PROFIBUS DP

Figure 4-9 Opening the rotary coding switch cover

• Rotary coding switch S1 is used to specify the tens (X10) of the device ID

(module ID).

• Rotary coding switch S2 is used to specify the units (X1) of the device ID

(module ID).

Setting address 77 (e.g., PROFIBUS DP):

Figure 4-10 Address 77

34

PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

0

2

4

6

8

9

A

B

C

D

E

F

S2

x1

0

2

4

6

8

10

12

14

S1

x10

Example:
PROFINET, EtherNet/IP
Sercos, Ethernet,
EtherCAT

®

Setting address 77 on Ethernet-based Axioline E devices:

TM

,

Figure 4-11 Addresse 77

Adjust the rotary coding switches using a suitable screwdriver (according to DIN 5264:
blade width 3.0 mm or 2.5 mm). Using an unsuitable tool may damage the rotary coding
switches.

For additional information on setting the address, please refer to the Axioline E user man­ual for your network/bus system and the device-specific data sheet.

8395_en_03 PHOENIX CONTACT 35

UM EN AXL E SYS INST

4.7 Cable connection

Phoenix Contact recommends using the SPEEDCON fast locking system to connect
M12 cables. The fast locking system is quick to install as it is based on the principle of
“Plug & Turn”. With just a half turn you can create the perfect plug-in connection.
The SPEEDCON fast locking system is 100% compatible with all M12 connectors.

Figure 4-12 Connecting M12 connectors

Figure 4-13 Axioline E device with connected M12 connectors

Figure 4-14 Connectors in straight and angled format

36

PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

4.8 Connecting power supplies

For Axioline E devices, a distinction is made between two voltages:

to supply the communications power and the sensors (always required)

–U

S

for supplying the actuators, only required for devices with fixed outputs or for addi-

–U

A

tional devices

Connection All supply voltages are connected via M12 connectors.

Current carrying capacity

NOTE: Damage to the electronics

Connect both supply voltages completely (to +24 V and GND). Do not connect several
supply voltages via one GND, as this will exceed the current carrying capacity of the con­tacts.

4.8.1 Power supplies US and U

A

Voltages US and UA are fed in at connection X31.

Power supply U

is required to supply the communications power of the device electronics

S

and to supply the sensors. It must be connected to every device. If this supply voltage is
disconnected, the device will not work.

Install the power supply for the device electronics independently of the power supply for the
actuators. Protect the power supplies independently. This means that the bus can continue
running even if some I/O devices are switched off.

Figure 4-15 Voltage feed U

8395_en_03 PHOENIX CONTACT 37

and U

S

A

UM EN AXL E SYS INST

X32X31

4

3

2

1

4

3

2

1

Power supply US
for AXL E devices

Power supply U

A

for AXL E devices

Connect power supply US for the logic and sensors to socket X31. To supply additional de­vices, connect the cable for the outgoing supply voltage to socket X32.

NOTE: Damage to the electronics
The current carrying capacity of the M12 connectors is 12 A per contact. Make

sure that this value is not exceeded. Please note that the connection for the outgoing sup­ply voltage is not monitored for overload. If the permissible current carrying capacity is ex­ceeded, this may result in damage to the connectors.

Phoenix Contact recommends using pre-assembled cables.

Power supply UA is required to supply the actuators. It is only connected to devices with
outputs or is required for additional devices.

When determining the load for a supply voltage, take into account the number of outputs,
the nominal current, and the simultaneity.

Figure 4-16 Connections U

and U

S

A

Pin assignment of
power supplies US and UA

Figure 4-17 Power supplies U

and UA

S

Pin IN OUT Wire colors

1+24VDC (US)+24VDC (US)Brown
2GND (U
3GND (U

)GND (U

A

)GND (U

S

)White

A

)Blue

S

4+24VDC (UA)+24VDC (UA)Black

NOTE: Damage to the electronics

Power supplies US and UA should only be supplied with SELV.

38

PHOENIX CONTACT 8395_en_03

Mounting Axioline E devices and connecting cables

X31

X32

X01

X02

X03 X04

X05

X06

X07 X08

IOL 8

# 4

24V

3.3 V

µC

IO-Link

IC

IO-Link

IC

IO-Link

IC

IO-Link

IC

IO-Link

IC

IO-Link

IC

IO-Link

IC

IO-Link

IC

X21

X22

##

##

EC IN

EC OUT

U OUT

S

U OUT

A

UIN

S

UIN

A

4.8.2 Power supply for sensors and actuators of individual

devices

The following diagram provides an example of which inputs or outputs are supplied by
which supply voltage.

For the actual assignment for your device, please refer to the device-specific data sheet.

Figure 4-18 Supply of inputs and outputs

digital input and output device, e.g., AXL E EC DI8 DO8 M12 6M

Key:

Green area: network/bus

Blue area: U

8395_en_03 PHOENIX CONTACT 39

Yellow area: U

S

A

UM EN AXL E SYS INST

BUS IN BUS OUT

X21 X22

PWR IN PWR OUT

X31 X32

X01 X02

X03 X04

X05 X06

X07 X08

BUS IN BUS OUT

X21 X22

PWR IN PWR OUT

X31 X32

X01 X02

X03 X04

X05 X06

X07 X08

DI16

DI8 DO4 2A DI8 DO8

BUS IN BUS OUT

X21 X22

PWR IN PWR OUT

X31 X32

X01 X02

X03 X04

X05 X06

X07 X08

BUS

S

U
U

A

4.8.3 Examples for voltage supply

NOTE: Damage to the electronics

The total current at U
The total current at U

must not exceed 12 A.

S

must not exceed 12 A.

A

Figure 4-19 Example for the supply and forwarding of supply voltages

4.8.4 Supply line and power supply (M12)

For M12 connectors in Axioline E devices, a maximum of 12 A per contact is permitted.

To ensure that this condition is met, the following factors must be considered:

1. Current consumption of the Axioline E devices (see data sheets)

2. Current consumption of the connected sensors

3. Current consumption of the connected actuators

4. Length of the cables and losses on these cables

It is particularly important that these factors are observed when forwarding the supply
voltage.

40

PHOENIX CONTACT 8395_en_03

Calculation example for an
AXL E DI8 DO8 device

Mounting Axioline E devices and connecting cables

4.8.5 Calculation example for sensor and actuator currents

The calculation example applies to the assignment of one signal per port.

Figure 4-20 AXL E PB DI8 DO8 M12 6P

Type of sensor: Current consumption:

1 x reflex photoelectric barrier with 2 output signals 30 mA
2 x proximity switch 15 mA each

Type of actuator:

2 x solenoid valve (hydraulic) 1.3 A each
2 x solenoid valve (pneumatic) 67 mA each

Calculation example for an AXL E DI8 DO8 device

U

S

Installation consumption 165 mA
X01, X02 Reflex photoelectric barrier + 30 mA
X03 Proximity switch + 15 mA
X04 Proximity switch + 15 mA

Sensor supply = 225 mA
Current consumption of inputs (5 mA for each input used) + 20 mA

IU total = 245 mA

Current consumption of actuators U

U

A

Installation consumption 30 mA

A

X05 2 x 1.3 A solenoid valve (hydraulic) + 2.6 A
X06 2 x 67 mA solenoid valve (pneumatic) + 134 mA

I

total = 2.764 A

UA

With this wiring, the device loads U

with approximately 245 mA and UA with

S

approximately 2.764 A.

8395_en_03 PHOENIX CONTACT 41

UM EN AXL E SYS INST

Losses on cables

The voltage drop on the cables can be calculated using the following formula:

U

= I x R x 2

A

Where:

U

A

Voltage drop
I Current strength
R Conductor resistance
2 Calculation for forward and return path

For a power supply cable of 4 x 0.75 mm², cable type 186
(e.g., SAC-4P-M12MS/...-186/M12FS), the conductor resistance is 26 /km.

At 4 A:

= 4 A x 26 /km x 2 = 208 V/km which corresponds to 2.08 V on 10 m

U

A

At 2 A:

UA = 2 A x 26 /km x 2 = 104 V/km which corresponds to 1.04 V on 10 m

Other cables have other specific resistance values. These values can be used to calculate
the voltage drop according to the above formula.

4.9 Connecting sensors and actuators

Connect the sensors and actuators using M12 connectors.

NOTE: Damage to the electronics

In general, the maximum current load of 4 A per contact must not be exceeded.

For the pin assignment of inputs and outputs, please refer to the device-specific data
sheet.

Phoenix Contact recommends using pre-assembled cables.

42

PHOENIX CONTACT 8395_en_03

Axioline E IO-Link devices

5 Axioline E IO-Link devices

IO-Link system With IO-Link, you exchange data from the controller to the lowest field level. IO-Link is the

first, globally standardized IO technology (IEC 61131-9) to communicate with sensors and
actuators. An IO-Link system consists of an IO-Link master and one or more IO-Link de­vices. IO-Link is a point-to-point communication.

Axioline E IO-Link master The Axioline E IO Link master provides the interface to the superimposed control (PLC) and

controls the communication with the connected IO-Link devices.
The Axioline E product portfolio is for each of the networks listed in the figure below
IO-Link master available.

Axioline E IO-Link device The Axioline E IO-Link devices solve the customer's request to capture or output various

digital or analog I/O signals as flexibly as possible via IO-Link. The following figure shows
the use of different Axioline E-IO-Link devices in different networks.

Figure 5-1 Exemplary Axioline E IO-Link topology

8395_en_03 PHOENIX CONTACT 43

UM EN AXL E SYS INST

Device description file
IO Device Description
(IODD)

For each Axioline E IO-Link device, there is device-specific information in the form of a
device description file. It contains information on identification, device parameters, process
and diagnostic data, communication properties, and the structure of the user interface in en­gineering tools. The engineering tool can easily read and process this information. Both
about the IODD as well as about a IO-Link device internal device ID, you can identify any
Axioline E IO-Link device type.

To ensure that the parameter data of an Axioline E IO-Link device are not lost during the de­vice exchange, it is possible to store them automatically directly in the Axioline E IO-Link
master. If a new, identical replacement device is connected, the parameters of the prede­cessor device are automatically transferred to the new Axioline E IO-Link device. Changing
parameters can, for example, during operation by the PLC.

The current IODD file is available for download at the address phoenixcontact.net/products

.

44

PHOENIX CONTACT 8395_en_03

Axioline E IO-Link devices

5.1 Axioline E IO-Link master

Der Axioline E IO-Link master enables the operation of up to eight IO-Link sensors/actuators
and is also used to acquire digital signals. By using the various operating modes of an
IO-Link port, the following operating modes can be operated:

– Digital standard signal.
– Analogue signals in combination with IO-Link/analog converters
– IO-Link device communication, flow sensors, valve inserts, light barriers or distance

meters

With the multifunctional IO-Link ports, an IO-Link master becomes a universal I/O device. In
conjunction with the IO-Link /analog converters, a perfect solution scenario results for the
multifaceted advent of analog signals. Together with the IO-Link/analog converters, the de­vices allow flexible processing of the signal volume in the field installation.

Figure 5-2 IO-Link A ports (A) und IO-Link B ports (B) of an AXL E IO-Link masters

Ensure that the voltage supply U
dent, galvanically isolated power supplies.

NOTE: Sensors damage

When connecting an IO-Link type A sensor to an IO-Link B port, note that a voltage is
applied to pin 2 and pin 5. Do not connect it to the sensor.

Use a three-wire cable between port and sensor,
cable type SAC-3P-MS SCO / ... / ... Order No. 1523515.

8395_en_03 PHOENIX CONTACT 45

and the power supply US are made from two indepen-

A

UM EN AXL E SYS INST

156,5

30

60

30

170

141

5.2 Axioline E IO-Link digital input and output devices

The Axioline E product group is supplemented by IO-Link digital input and output devices.
These are designed as plastic variants. The IO-Link technology offers the advantage that
IO-Link master can be used as an IO-Link port for communication with the IO-Link digital
input and output devices.

The IO-Link technology is also used to provide the sensor supply (IO-Link A port, L +) and,
if necessary, the actuator supply (IO-Link B port, L + and U

).

A

Axioline E
digital input device

Axioline E
digital output device

The Axioline E digital input device is connected to an IO-Link master via an IO-Link A port.
It is used to acquire digital signals via IO-Link. The IO-Link master allows the use within dif­ferent networks, see page 7.

The Axioline E digital output device is connected to an IO-Link master via an IO-Link B port.
It is used to output digital signals via IO-Link. The IO-Link master allows the use within dif­ferent networks, see page 7.

5.2.1 Housing dimensions of the Axioline E IO-Link digital input and output devices

Figure 5-3 Housing dimensions (mm)

of the Axioline E IO-Link digital input and output devices

46

PHOENIX CONTACT 8395_en_03

Axioline E IO-Link devices

X21

X21

X01 X02

X04X03

X05 X06

X08X07

6

7

3

5

4

2

5.2.2 Basic structure of the Axioline E IO-Link digital input and output devices

The figure shows the basic structure of the Axioline E IO-Link digital input and output
devices.

Figure 5-4 Basic structure of the Axioline E IO-Link digital input and output devices

1 Fixing clips
2 FE connection)
3 Status indicators of the IO-Link port
4 IO-Link A port (digital input device)

IO-Link B port (digital output device)

5 Connections of the IO-Link ports (inputs or outputs)
6 Status indicators of the IO-Link port (inputs or outputs)
7 Markers for marking

8395_en_03 PHOENIX CONTACT 47

UM EN AXL E SYS INST

5.2.3 Marking of the Axioline E IO-Link digital input and output devices

It is possible to mark the devices next to the ports (7 in Figure 5-4) zu beschriften. The de­vices are supplied as standard with nine unprinted marking labels. If you want to swap a la­bel, you can lift it out of the recess using a screwdriver.

Phoenix Contact offers the CMS-MARK-WIN software for professional marking,
see Phoenix Contact catalog.

5.2.4 Diagnostic and status indicators of the Axioline E IO-Link digital input and output devices

Diagnostics The diagnostics indicators (green/yellow/red) indicate whether an error is present or not.

In the event of an error, they indicate the error type and location.

An Axioline E IO-Link digital input and output device works properly when all green indica­tors light/flash.

Status The status indicators (yellow/red) indicate the signal state of the corresponding IO-Link port

(input/output ).

For more detailed information on the diagnostics and status indicators, please refer to the
data sheet for the respective device.

48

PHOENIX CONTACT 8395_en_03

Drill hole spacing

1

1

30

156,5

Axioline E IO-Link devices

5.2.5 Mounting of the Axioline E IO-Link digital input and output devices

Screw the devices tightly down onto a flat surface using the fixing clips (1 in Figure 5-5).
Ground the devices by means of the grounding lug (2 in Figure 5-5).

Use standard M5 screws with toothed lock washer. Observe the maximum torque of the
screws.

Figure 5-5 Mounting of the Axioline E IO-Link digital input and output devices

Functional earth
grounding

NOTE: Data corruption or loss

Connecting cables Then connect the cables , see page 36.

8395_en_03 PHOENIX CONTACT 49

Functional earth grounding is crucial for interference-free operation.
Ground the devices by means of the grounding lug.

For more information on the installation, please refer to the packing slip and the chapters

4.1, 4.2 und 4.3.

UM EN AXL E SYS INST

5.3 IO-Link/analog converter

The IO-Link/analog converter is an IO-Link device that converts analog signals into the
IO-Link protocol. Depending on the version, the IO-Link/analog converter offers you the
possibility to capture the signals from analog sensors via an IO-Link master or to transmit
them to analog actuators. Conversion of analog signals directly at the measurement loca­tion and digital transmission via unshielded cables simplify installation and result in interfer­ence-free transmission of measured values.

The IO-Link/analog converters are designed as plastic versions.
verters can be supplied in straight or rectangular format.

The IO-Link/analog con-

Figure 5-6 Analog data acquiring/transmitting

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Axioline E IO-Link devices

In conjunction with the IO link masters, this results in a perfect solution scenario for the
multifaceted advent of analog signals.

An IO-Link/analog converter is either connected direc tly t o an an alog sens or or pl aced in th e
immediate vicinity of the analog sensor. Thus, expensive, shielded cables between an an­alog sensor and the IO-Link master can be significantly reduced or even completely saved.

Figure 5-7 IO-Link/analog converter and Axioline E IO-Link master

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50

16,5

79,5

28

29

16,6

50

66,5

28

29

41

16,6

5.3.1 Dimensions of the straight IO-Link/analog converter

Figure 5-8 Dimensions in mm

5.3.2 Dimensions of the rectangular IO-Link/analog converter

Figure 5-9 Dimensions in mm

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Axioline E IO-Link devices

3

2 1

3

2

1

5.3.3 Connections of the straight IO-Link/analog converter

Figure 5-10 Connections on the converter

1. IO-Link interface (indicated by IO-Link symbol)

2. Fixing options; options for connection to functional earth ground

3. Analog input/output

5.3.4 Connections of the rectangular IO-Link/analog converter

Figure 5-11 Connections on the converter

1. IO-Link interface (indicated by IO-Link symbol)

2. Fixing options; options for connection to functional earth ground

3. Analog input/output

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5.3.5 Mounting of the IO-Link/analog converter

• Verbinden Sie die IO-Link-Schnittstelle des Konverters mittels einer standardisierten

3-poligen Leitung mit einem IO-Link-Port des übergeordneten IO-Link-Masters.

• Schließen Sie den analogen Sensor direkt oder mittels einer geschirmten 4-poligen

Leitung am analogen Eingang des Konverters an.

• Verschrauben Sie die Anschlüsse jeweils mittels der M12-Steckverbinder.

Figure 5-12 Connection of a sensor to an IO-Link master via a rectangular/straight con-

verter

NOTE: Data corruption or loss

In environments with high levels of interference, in particular, Phoenix Contact recom­mends connecting the converter to an appropriate functional earth ground point using an
M4 screw.

For more information, please refer to the device-specific data sheets.

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Axioline E IO-Link devices

ETH1 ETH2

X21 X22

PWR IN PWR OUT

X31 X32

X01 X02

X03 X04

X05 X06

X07 X08

IO-Link master

Digital input device via IO-Link

DI

AO

AI

IO-Link/analog converter

IP20

PROFINET controller

UL

PROFINET

Digital output device via IO-Link

DO

IP65/67

5.4 Axioline E IO-Link topology

The following figure shows Axioline E IO-Link devices in a PROFINET network.

Figure 5-13 Example Axioline E IO-Link topology

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Please observe the following notes

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Phoenix Contact reserves the right to alter, correct, and/or improve the technical
documentation and the products described in the technical documentation at its own
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same applies to any technical changes that serve the purpose of technical progress.

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to observing the applicable standards and rulations. All information made available in the
technical data is supplied without any accompanying guarantee, whether expressly
mentioned, implied or tacitly assumed.

In general, the provisions of the current standard Terms and Conditions of Phoenix Contact
apply exclusively, in particular as concerns any warranty liability.

This manual, including all illustrations contained herein, is copyright protected. Any
changes to the contents or the publication of extracts of this document is prohibited.

Phoenix Contact reserves the right to rister its own intellectual property rights for the product
identifications of Phoenix Contact products that are used here. Ristration of such intellectual
property rights by third parties is prohibited.

Other product identifications may be afforded lal protection, even where they may not be
indicated as such.

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32825 Blomberg
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