6GT2891-0MH50 - Siemens - Datasheet.Live

SIMATIC RF200 IO-Link

_________________

SIMATIC Ident

RFID systems

SIMATIC RF200 IO-Link

System Manual

03/2012

C79000-G8976-C276-01

Introduction

Description

System overview

Planning an RF200 IO-Link

system

Commissioning and

parameter assignment

Readers

Diagnostics

Technical data

Connecting cable

Ordering data

Service & support

Appendix

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

with a safety alert symbol, indicates that minor personal injury can result if proper precautions are not taken.

CAUTION

without a safety alert symbol, indicates that property damage can result if proper precautions are not taken.

NOTICE

indicates that an unintended result or situation can occur if the relevant information is not taken into account.

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.

Siemens AG

Industry Sector

Postfach 48 48

90026 NÜRNBERG

GERMANY

Order number: C79000-G8976-C276

Ⓟ 03/2012 Technical data subject to change

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 3

Table of contents

1 Introduction................................................................................................................................................ 5

2 Description................................................................................................................................................. 7

2.1 Area of application of the RF200 IO-Link reader ...........................................................................7

2.2 IO-Link basics ................................................................................................................................7

2.3 Characteristics of the RF200 IO-Link reader .................................................................................9

2.4 System integration .........................................................................................................................9

3 System overview...................................................................................................................................... 11

3.1 RFID components and their function ...........................................................................................11

3.2 Overview of transponders ............................................................................................................13

4 Planning an RF200 IO-Link system ......................................................................................................... 15

4.1 Fundamentals of application planning .........................................................................................15

4.1.1 Selection criteria for SIMATIC RF200 components.....................................................................15

4.1.2 Transmission window and read/write distance ............................................................................15

4.1.3 Width of the transmission window................................................................................................18

4.1.4 Permissible directions of motion of the transponder....................................................................19

4.1.5 Operation in static and dynamic mode ........................................................................................20

4.1.6 Communication between the IO-Link master, reader and transponder.......................................21

4.1.7 Impact of secondary fields ...........................................................................................................22

4.2 Field data of transponders and readers.......................................................................................25

4.2.1 Field data .....................................................................................................................................25

4.2.2 Minimum clearances ....................................................................................................................27

4.3 Installation guidelines...................................................................................................................29

4.3.1 Overview ......................................................................................................................................29

4.3.2 Reduction of interference due to metal........................................................................................29

4.3.3 Effects of metal on different transponders and readers...............................................................32

4.3.4 Impact of metal on the transmission window...............................................................................32

4.3.4.1 RF210R........................................................................................................................................33

4.3.4.2 RF220R........................................................................................................................................35

4.3.4.3 RF260R........................................................................................................................................37

4.4 Further information.......................................................................................................................39

5 Commissioning and parameter assignment............................................................................................. 41

5.1 Configuring...................................................................................................................................41

5.2 Parameter assignment of the IO-Link system..............................................................................45

5.2.1 The Port Configuration Tool (PCT) ..............................................................................................47

5.2.2 Parameter assignment with PCT .................................................................................................48

5.3 The modes of the RF200 IO-Link reader.....................................................................................68

5.3.1 SIO mode.....................................................................................................................................68

5.3.2 IO-Link mode: Scan UID ..............................................................................................................68

Table of contents

SIMATIC RF200 IO-Link

4 System Manual, 03/2012, C79000-G8976-C276-01

5.3.3 IO-Link mode: Scan user data .................................................................................................... 69

5.4 ISDU data traffic.......................................................................................................................... 71

5.4.1 IOL_CALL.................................................................................................................................... 71

5.5 Application example .................................................................................................................... 72

6 Readers................................................................................................................................................... 75

6.1 Features ...................................................................................................................................... 75

6.2 Pin assignment of the RF200 reader with IO-Link interface ....................................................... 76

6.3 Display elements of the RF200 reader .......................................................................................76

6.4 Minimum distance between several readers............................................................................... 77

6.5 Dimensional drawings................................................................................................................. 79

7 Diagnostics .............................................................................................................................................. 81

8 Technical data ......................................................................................................................................... 83

8.1 Technical data of the RF200 reader ........................................................................................... 83

8.2 FCC information .......................................................................................................................... 85

8.3 cULus information ....................................................................................................................... 85

9 Connecting cable..................................................................................................................................... 87

10 Ordering data........................................................................................................................................... 89

11 Service & support .................................................................................................................................... 91

A Appendix.................................................................................................................................................. 93

A.1 IO-Link error codes ..................................................................................................................... 93

A.1.1 ISDU return error codes.............................................................................................................. 93

A.1.2 Event error codes........................................................................................................................ 94

A.2 Overview of the service data....................................................................................................... 96

A.3 Certificates and Approvals ........................................................................................................ 101

Index...................................................................................................................................................... 103

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 5

Introduction 1

Purpose of this system manual

The information provided in this system manual enables you to commission the IO Link

reader.

Basic knowledge required

This system manual assumes general knowledge of automation engineering and

identification systems.

Scope of the manual

The system manual is valid for the IO-Link reader.

Position in the information landscape

In addition to this system manual, you require the operating instructions for the IO Link

master you are using.

Conventions

The following terms/abbreviations are used synonymously in this document:

● Reader, reading device, SLG

● Tag, transponder, mobile data memory, data carrier, MDS

Registered trademarks

SIMATIC ® is a registered trademark of Siemens AG.

IO-Link is a registered trademark of the IO-Link consortium.

Introduction

SIMATIC RF200 IO-Link

6 System Manual, 03/2012, C79000-G8976-C276-01

Guide

This system manual describes hardware and programming of the IO-Link reader. They

comprise introductory chapters and reference chapters (e.g. technical data).

The system manual covers the following topics:

● Introduction to IO-Link

● Connecting the reader

● Assigning reader parameters

● Commissioning

● Diagnostics

● Technical specifications

● Ordering data

Additional documentation

The following documents contain information on the IO-Link masters ET 200S and ET

200eco and may contain further information that is relevant for you:

● Distributed I/O system ET 200S

(http://support.automation.siemens.com/WW/view/en/1144348)

● Distributed I/O device ET 200eco PN

(http://support.automation.siemens.com/WW/view/en/29999018)

Recycling and disposal

● Since RF200 IO-Link readers only contain low levels of harmful substances, they are

suitable for recycling.

● For ecologically compatible recycling and disposal of your old device, contact a

certificated disposal service for electronic scrap.

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 7

Description 2

2.1 Area of application of the RF200 IO-Link reader

SIMATIC RF200 IO-Link is an inductive identification system that is compatible with the ISO

15693 standard and was specially designed for use in industrial production for the control

and optimization of material flow. With the IO-Link communications interface, readers can be

used below the fieldbus level.

SIMATIC RF200 IO-Link is an alternative to SIMATIC RF300 and represents a simple and

cost-effective option for RFID applications.

2.2 IO-Link basics

The system components

IO-Link is a specified point-to-point communications interface for sensors/actuators and

consists of the following system components:

● IO-Link master,

● IO-Link device (e.g. sensors, actuators, RFID readers),

● Unshielded 3-wire standard cable.

The master / the port operating modes

A master has one or more ports and one device can be connected to each port.

The port can basically be set to two different operating modes:

● SIO mode (Standard Input Output mode)

In this mode, the device can be used like a digital input module.

● IO-Link mode (SDCI: Single Drop digital Communication Interface)

In this mode, the master communicates with the device and process data and service

data can be transferred.

Description

2.2 IO-Link basics

SIMATIC RF200 IO-Link

8 System Manual, 03/2012, C79000-G8976-C276-01

The types of communication

During communication at the IO-Link level, the following types of data are distinguished:

● Cyclic process data (input/output data)

The data is always transferred with a previously specified length.

● Acyclic service data (parameters, on-request data)

The data to be written or read is transferred only on request. Since a fixed area is

reserved for this in the communication cycle, the acyclic data transfer does not influence

the transfer of the cyclic process data.

● Events (errors, warnings, notifications)

This works in the same way as with acyclic service data, the only difference being that

the transfer is triggered by the device due to events.

The data types

While the cyclic process data is exchanged via a defined fixed area, the acyclic service data

is selected and addressed using an index or subindex. The indexes available for the RF200

IO-Link reader can be found in the section "Commissioning and parameter assignment

(Page 41)".

To allow system integration, each device type has an IODD file available that contains the

following information:

● Representation of the communications properties

● Representation of accessible device data

● Identification, process and diagnostics data

● Menu layout

● Textual descriptions in various languages

● Image of the device

● Logo of the manufacturer

Description

2.3 Characteristics of the RF200 IO-Link reader

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 9

2.3 Characteristics of the RF200 IO-Link reader

The IO-Link reader reads out either the UID or user-specific data of a transponder and maps

this to cyclically updated process data. This data can be read out via the IO-Link master by a

PC or a PLC.

The IO-Link reader has the following characteristics:

● Point-to-point communication, the address of the IO-Link device does not need to be set

● Supports IO-Link according to specification V1.0

● IO-Link baud rate 38.4 Kbaud, cycle time 2.5 ms

● Transfer of service data parallel to process data

● SIO mode (reader indicates the presence of a transponder on the data line (C/Q))

● IODD file for support of parameter assignment, diagnostics and data access.

● System integration (TIA) using Port Configuration Tool (PCT)

● Degree of protection IP67

● RFID 13.56 MHz complying with ISO 15693

2.4 System integration

The readers are IO-Link device modules intended for operation with an IO-Link master.

Depending on the category of the IO-Link master, this can be connected to various

controllers or fieldbus systems.

The number of devices or readers that can be connected to an IO-Link master differs

depending on the master type. The master type and the number of available IO-Link ports

affect the maximum process data length of the master.

Description

2.4 System integration

SIMATIC RF200 IO-Link

10 System Manual, 03/2012, C79000-G8976-C276-01

Interfacing to the controller

With the readers RF210R, RF220R and RF260R, the connection to the controller is via the

following IO-Link masters from Siemens:

● ET 200eco PN

● ET 200S with 4SI IO-Link master

or via masters of other manufacturers.

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Figure 2-1 Configuration example

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 11

System overview 3

3.1 RFID components and their function

RF200 system components

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System overview

3.1 RFID components and their function

SIMATIC RF200 IO-Link

12 System Manual, 03/2012, C79000-G8976-C276-01

Table 3- 1 Possible reader-transponder combinations

Transponder /

MDS

RF210R RF220R RF260R RF310M

MDS D100 -- ○ ✓ ✓

MDS D124 ✓ ✓ ✓ ✓

MDS D126 -- ✓ ✓ ✓

MDS D139 1) -- ○ ✓ ✓

MDS D160 2) ✓ ✓ ✓ ✓

MDS D165 -- ○ ✓ ✓

MDS D200 -- ○ ✓ ✓

MDS D261 -- ○ ✓ ✓

MDS D324 ✓ ✓ ✓ ✓

MDS D421 ✓ ○ -- --

MDS D422 ✓ ✓ ○ --

MDS D424 ✓ ✓ ✓ ✓

MDS D425 ✓ ✓ -- ✓

MDS D426 -- ✓ ✓ ✓

MDS D428 ✓ ✓ ✓ ✓

MDS D460 ✓ ✓ ✓ ✓

1) Only with the order number 6GT2600-0AA10

2) Only with the order number 6GT2600-0AB10

✓ Combination possible

-- Combination not possible

○ Combination possible, but not recommended

Note

For further information about the SIMATIC RF310M mobile reader, please refer to the

SIMATIC RF310M Operating Instructions

(http://support.automation.siemens.com/WW/view/en/40959516).

System overview

3.2 Overview of transponders

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 13

3.2 Overview of transponders

Overview of the ISO transponders for RF200 available today from Siemens and their typical

areas of application:

Transponder Area of application

MDS D100 Barcode supplement for storage and distribution logistics

MDS D124 Small paint shops up to 180° C

MDS D126 Identification of transport units

MDS D139 Paint spraying lines in the automobile industry

MDS D160 Hired workwear, hospital clothing

MDS D165 Smart labels (self-adhering labels) as substitute for electronic barcode

MDS D200 Warehouse and distribution logistics

MDS D261 Smart labels (self-adhering labels) as substitute for electronic barcode

MDS D324 Assembly and production lines

MDS D422 Identification of metallic workpiece holders, workpieces or containers

MDS D421 Tool coding according to DIN 69873

MDS D424 Use in assembly and manufacturing lines

MDS D425 For applying to motors, gearboxes and workpiece holders

MDS D426 Identification of transport units

MDS D428 Compact ISO transponder for automatic assembly with screws

MDS D460 Assembly lines with very small workpiece holders

See also

Field data of transponders and readers (Page 25)

Planning an RF200 IO-Link system

4.1 Fundamentals of application planning

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 21

4.1.6 Communication between the IO-Link master, reader and transponder

Communication between the IO-Link master, reader and transponder is asynchronous via

the IO-Link interface.

Calculation of the communication time for interference-free transfer

The communication time for fault-free data transfer is calculated as follows:

=+ ⋅tKtn

KByte

(n >1)

If the transmission is interrupted briefly due to external interference, the reader automatically

continues the command.

Calculation of the maximum amount of user data

The maximum amount of user data is calculated as follows:

tk: Communication time between IO-Link master, reader and transponder

tv: Dwell time

n: Amount of user data in bytes

nmax: Max. amount of user data in bytes in dynamic mode

tbyte: Transmission time for 1 byte

: Constant; the constant is an internal system time. This contains the time for power

buildup on the transponder and for command transfer

Time constants K and tbyte

Table 4- 1 Typical time constants for static operation with an IO-Link cycle of 3 ms (data hold time =

minimum / ready delay = deactivated)

Read

IO-Link in the

"UID acquisition" mode

IO-Link in the

"user data acquisition" mode

[ms]

tbyte

[ms]

tbyte

[ms]

90 0 0 40

Here, it must be taken into account that 4-byte blocks are always read.

Planning an RF200 IO-Link system

4.1 Fundamentals of application planning

SIMATIC RF200 IO-Link

22 System Manual, 03/2012, C79000-G8976-C276-01

4.1.7 Impact of secondary fields

Secondary fields in the range from 0 mm to 30 % of the limit distance (Sg) always exist.

They should only be used during configuration in exceptional cases, however, since the

read/write distances are very limited. Exact details of the secondary field geometry cannot be

given, since these values depend heavily on the operating distance and the application.

When working, it must be taken into account that at the changeover from the secondary field

to the main field, the presence of the transponder can be lost temporarily. It is therefore

advisable to select a distance > 30 % of Sg.

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Planning an RF200 IO-Link system

4.1 Fundamentals of application planning

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 23

Secondary fields without shielding

The following graphic shows typical primary and secondary fields, if no shielding measures

are taken.

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In this arrangement, the reader can also read transponders via the secondary field. Shielding

is required in order to prevent unwanted reading via the secondary field, as shown and

described in the following.

Planning an RF200 IO-Link system

4.1 Fundamentals of application planning

SIMATIC RF200 IO-Link

24 System Manual, 03/2012, C79000-G8976-C276-01

Secondary fields with shielding

The following graphic shows typical primary and secondary fields, with metal shielding this

time.

The metal shielding prevents the reader from detecting transponders via the secondary field.

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Planning an RF200 IO-Link system

4.2 Field data of transponders and readers

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 25

4.2 Field data of transponders and readers

4.2.1 Field data

The limit distances (Sg) and operating distances (Sa) along with the length of the

transmission window for each reader-transponder combination are listed in the tables below.

All dimensions in mm.

Table 4- 2 SIMATIC RF210R field data

Length of the

transmission window (L)

Operating distance (Sa) Limit distance (Sg)

MDS D124 25 1 ... 18 20

MDS D160 20 1 ... 10 12

MDS D324 20 1 ... 8 9

MDS D421 5 0 ... 3 4

MDS D422 8 1 ... 9 10

MDS D424 24 1 … 16 18

MDS D425 14 1 ...7 8

MDS D428 20 1 … 10 11

MDS D460 8 1 … 8 9

Table 4- 3 SIMATIC RF220R field data

Length of the

transmission window (L)

Operating distance (Sa) Limit distance (Sg)

MDS D124 35 1 ... 28 31

MDS D126 40 2 ... 30 35

MDS D160 20 1 … 20 22

MDS D324 30 2 … 21 25

MDS D422 18 1 ... 12 14

MDS D424 30 2 … 25 29

MDS D425 20 1 ... 12 14

MDS D426 45 2 ... 18 20

MDS D428 25 1 … 18 21

MDS D460 25 1 … 18 20

Planning an RF200 IO-Link system

4.2 Field data of transponders and readers

SIMATIC RF200 IO-Link

26 System Manual, 03/2012, C79000-G8976-C276-01

Table 4- 4 SIMATIC RF260R field data

Length of the

transmission window (L)

Operating distance (Sa) Limit distance (Sg)

MDS D100 120 2 ... 110 130

MDS D124 60 2 ... 80 85

MDS D126 80 2 ... 75 100

MDS D139 120 2 ... 80 110

MDS D160 60 2 ... 40 45

MDS D165 120 2 ... 120 135

MDS D200 120 2 ... 100 120

MDS D261 80 2 ... 75 90

MDS D324 80 2 ... 60 70

MDS D424 80 2 ... 60 70

MDS D426 100 2 ... 50 60

MDS D428 50 2 ... 40 45

MDS D460 50 2 ... 40 45

Planning an RF200 IO-Link system

4.2 Field data of transponders and readers

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 27

4.2.2 Minimum clearances

Minimum distance from transponder to transponder

The specified distances refer to a metal-free environment. For a metallic environment, the

specified minimum distances must be multiplied by a factor of 1.5.

Table 4- 5 Minimum clearances for transponder

RF210R RF220R RF260R

MDS D100 - ≥ 60 ≥ 240

MDS D124 ≥ 25 ≥ 40 ≥ 180

MDS D126 - ≥ 50 ≥ 180

MDS D139 - ≥ 100 ≥ 200

MDS D160 ≥ 20 ≥ 25 ≥ 150

MDS D165 - ≥ 60 ≥ 240

MDS D200 - ≥ 60 ≥ 240

MDS D261 - ≥ 50 ≥ 200

MDS D324 ≥ 25 ≥ 40 ≥ 180

MDS D421 ≥ 10 ≥ 15 -

MDS D422 ≥ 15 ≥ 20 ≥ 100

MDS D424 ≥ 25 ≥ 40 ≥ 180

MDS D425 ≥ 20 ≥ 25 -

MDS D426 - ≥ 50 ≥ 180

MDS D428 ≥ 25 ≥ 25 ≥ 150

MDS D460 ≥ 20 ≥ 25 ≥ 150

The values are all in mm, relative to the operating distance (Sa) between reader and transponder, and

between transponder edge and transponder edge

Planning an RF200 IO-Link system

4.2 Field data of transponders and readers

SIMATIC RF200 IO-Link

28 System Manual, 03/2012, C79000-G8976-C276-01

Minimum distance from reader to reader

RF210R to RF210R RF220R to RF220R RF260R to RF260R

≥ 60 mm ≥ 100mm ≥ 150 mm

All values are in mm

NOTICE

Effect on inductive fields by not maintaining the minimum distances of the readers

If the values fall below those specified in the "minimum distance from reader to reader",

there is a risk of the function being affected by inductive fields. In this case, the data

transfer time would increase unpredictably or a command would be aborted with an error.

Adherence to the values specified in the "Minimum distance from reader to reader" table is

therefore essential.

If the minimum clearance cannot be maintained due to the construction, the HF field

(antenna) of the reader can be turned on or off via the process image (PIQ).

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 29

4.3 Installation guidelines

4.3.1 Overview

The transponder and reader complete with their antennas are inductive devices. Any type of

metal in the vicinity of these devices affects their functionality. Some points need to be

considered during configuration and installation if the values described in the section "Field

data (Page 25)" are to retain their validity:

● Minimum spacing between two readers or their antennas

● Minimum distance between two adjacent data memories

● Metal-free area for flush-mounting of readers or their antennas and transponders in metal

● Mounting of multiple readers or their antennas on metal frames or racks

The following sections describe the impact on the operation of the RFID system when

mounted in the vicinity of metal.

4.3.2 Reduction of interference due to metal

Interference due to metal rack Problem

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particular, the transmission window

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reduced.

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mounted differently.

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

30 System Manual, 03/2012, C79000-G8976-C276-01

Flush-mounting

Flush-mounting of transponders and readers Problem

1RQPHWDOOLFVSDFHU 6KHHW

0HWDO

5HDGHUV

Flush-mounting of transponders and

readers is possible in principle.

However, the size of the

transmission window is significantly

reduced. The following measures

can be used to counteract the

reduction of the window:

Remedy:

PP [!PP

5HDGHU

Enlargement of the non-metallic

spacer below the transponder

and/or reader.

The transponder and/or reader are

10 to 20 mm higher than the metal

surround.

(The value x ≥ 100 mm is valid, e.g.

for RF310R. It indicates that, for a

distance x ≥ 100 mm, the reader

can no longer be significantly

affected by metal.)

Remedy:

E5HDGHU

Increase the non-metallic distance

a, b.

The following rule of thumb can be

used:

• Increase a, b by a factor of 2 to 3

over the values specified for

metal-free areas

• Increasing a, b has a greater

effect for readers or

transponders with a large limit

distance than for readers or

transponders with a small limit

distance.

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 31

Mounting of several readers on metal frames or racks

Any reader mounted on metal couples part of the field to the metal frame. There is normally

no interaction as long as the minimum distance D and metal-free areas a, b are maintained.

However, interaction may take place if an iron frame is positioned unfavorably. Longer data

transfer times or sporadic error messages at the communication module are the result.

Mounting of several readers on metal racks Problem: Interaction between readers

Remedy

5HDGHU 5HDGHU

Increase the distance D between the two readers.

Remedy

5HDGHU 5HDGHU

Introduce one or more iron struts in order to short-

circuit the stray fields.

Remedy

1RQPHWDOOLF

VSDFHU

5HDGHU 5HDGHU

Insert a non-metallic spacer of 20 to 40 millimeter

thickness between the reader and the iron frame. This

will significantly reduce the induction of stray fields on

the rack:

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

32 System Manual, 03/2012, C79000-G8976-C276-01

4.3.3 Effects of metal on different transponders and readers

Mounting different transponders and readers on metal or flush-mounting

Certain conditions have to be observed when mounting the transponders and readers on

metal or flush-mounting. For more information, please refer to the descriptions of the

individual transponders and readers in the relevant section.

4.3.4 Impact of metal on the transmission window

In general, the following points should be considered when mounting RFID components:

● Direct mounting on metal is allowed only in the case of specially approved transponders.

● Flush-mounting of the components in metal reduces the field data; a test is

recommended in critical applications.

● When working inside the transmission window, it should be ensured that no metal rail (or

similar part) intersects the transmission field.

The metal rail would affect the field data.

The impact of metal on the field data (Sg, Sa, L) is shown in a table in this section. The

values in the table describe the reduction of the field data in % with reference to non-metal

(100% means no impact).

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 33

4.3.4.1 RF210R

The RF210R can be flush-mounted in metal. Please allow for a possible reduction in the field

data values.

The following table shows the different arrangements for the reader with and without a

metallic environment:

Case Diagram Description

Reader metal-free

Reader on metal,

distance from metal 12 mm

Reader on metal,

flush against M18 nut

Reader mounted surrounded by metal

To avoid any impact on the field data, in Case d, the distance a should be ≥ 10 mm.

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

34 System Manual, 03/2012, C79000-G8976-C276-01

Table 4- 6 Reduction of field data by metal: Transponder and RF210R

Transponder Reader without metal

(Case a, b and d)

Reader flush-mounted in

metal

(Case c)

Metal-free 100 82

On metal, distance 25 mm 90 90

MDS D124

Flush-mounted in metal;

distance all-round 25 mm

85 80

Metal-free 100 95

On metal, distance 25 mm 100 95

MDS D160

Flush-mounted in metal Not envisaged Not envisaged

Metal-free 100 90

On metal,

distance 25 mm

90 90

MDS D324

Flush-mounted in metal;

distance all-round 25 mm

80 90

Metal-free 100 90 MDS D421

Flush-mounted in metal 75 50

Metal-free 100 80 MDS D422

Flush-mounted in metal 90 40

Metal-free 100 60

On metal,

distance 25 mm

95 75

MDS D424

Flush-mounted in metal;

distance all-round 25 mm

80 70

Metal-free 100 85

Screwed onto metal 100 85

MDS D425

Flush-mounted in metal;

distance all-round 25 mm

90 70

Metal-free 100 90

On metal 100 80

MDS D428

Flush-mounted in metal;

distance all-round 25 mm

90 80

Metal-free 100 90

On metal,

distance 25 mm

100 90

MDS D460

Flush-mounted in metal 90 90

The values in the table describe the reductions in field data. All values are percentages, with reference

to metal-free (100% means no impact).

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 35

4.3.4.2 RF220R

The RF220R can be flush-mounted in metal. Please allow for a possible reduction in the field

data values.

The following table shows the different arrangements for the reader with and without a

metallic environment:

Case Diagram Description

Reader metal-free

Reader on metal,

distance from metal 12 mm

Reader on metal,

flush against M30 nut

Reader mounted surrounded by metal

To avoid any impact on the field data, in Case d, the distance a should be ≥ 15 mm.

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

36 System Manual, 03/2012, C79000-G8976-C276-01

Table 4- 7 Reduction of field data by metal: Transponder and RF220R

Transponder Reader without metal

(Case a, b and d)

Reader mounted in

metal

(Case c)

Metal-free 100 94

On metal,

distance 25 mm

97 89

MDS D124

Tag flush-mounted in metal;

distance all-round 25 mm

86 83

Metal-free 100 75

On metal,

distance 25 mm

85 70

MDS D126

Flush-mounted in metal;

distance all-round 25 mm

80 65

Metal-free 100 89

On metal,

distance 25 mm

93 89

MDS D160

Flush-mounted in metal Not envisaged

Metal-free 100 90

On metal,

distance 25 mm

97 86

MDS D324

Flush-mounted in metal;

distance all-round 25 mm

93 86

Metal-free 100 90 MDS D422

Flush-mounted in metal 85 85

Metal-free 100 93

On metal,

distance 25 mm

96 89

MDS D424

Flush-mounted in metal;

distance all-round 25 mm

86 82

Metal-free 100 90

Screwed onto metal 100 75

MDS D425

Flush-mounted in metal;

distance all-round 25 mm

95 75

Metal-free 100 90

On metal,

distance 25 mm

90 75

MDS D426

Flush-mounted in metal;

distance all-round 25 mm

80 70

Metal-free 100 94

On metal 100 94

MDS D428

Flush-mounted in metal;

distance all-round 25 mm

94 94

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 37

Transponder Reader without metal

(Case a, b and d)

Reader mounted in

metal

(Case c)

Metal-free 100 92

On metal,

distance 25 mm

100 92

MDS D460

Flush-mounted in metal

distance all-round 25 mm

100 92

The values in the table describe the reductions in field data. All values are percentages, with reference

to metal-free (100% means no impact).

4.3.4.3 RF260R

The RF260R can be flush-mounted in metal. Please allow for a possible reduction in the field

data values.

6,0$7,&

5)5

Figure 4-8 Metal-free area for RF260R

To avoid any impact on the field data, the distance a should be ≥ 20 mm.

Planning an RF200 IO-Link system

4.3 Installation guidelines

SIMATIC RF200 IO-Link

38 System Manual, 03/2012, C79000-G8976-C276-01

Table 4- 8 Reduction of field data by metal: Transponder and RF260R

Transponder Reader

without metal

Reader on

metal

(metal plate)

Reader flush-

mounted in metal

(all-round 20 mm)

Without metal 100 85 65

On metal, distance 20 mm 70 65 50

MDS D100

Flush-mounted in metal;

distance all-round 20 mm

65 50 40

Without metal 100 93 75

On metal, distance 25 mm 95 85 70

MDS D124

Flush-mounted in metal;

distance all-round 25 mm

78 75 65

Without metal 100 85 73

On metal, distance 25 mm 75 68 60

MDS D126

Flush-mounted in metal;

distance all-round 25 mm

55 53 40

Without metal 100 90 75

On metal, distance 30 mm 95 90 75

MDS D139

Flush-mounted in metal Not

permissible

Not permissible Not permissible

Without metal 100 90 75

On metal, distance 25 mm 90 80 80

MDS D160

Flush-mounted in metal Not

envisaged

Not envisaged Not envisaged

Without metal 100 85 65

On metal, distance 20 mm 65 60 45

MDS D165

Flush-mounted in metal

distance all-round 20 mm

55 50 40

Without metal 100 85 70

On metal, distance 20 mm 70 65 50

MDS D200

Flush-mounted in metal

distance all-round 20 mm

55 50 45

Without metal 100 85 70

On metal, distance 20 mm 80 70 60

MDS D261

Flush-mounted in metal

distance all-round 20 mm

75 65 50

Without metal 100 90 75

On metal, distance 25 mm 90 80 70

MDS D324

Flush-mounted in metal;

distance all-round 25 mm

70 65 55

Without metal 100 90 75

On metal, distance 30 mm 95 90 75

MDS D339

Flush-mounted in metal Not

permissible

Not permissible Not permissible

Planning an RF200 IO-Link system

4.4 Further information

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 39

Transponder Reader

without metal

Reader on

metal

(metal plate)

Reader flush-

mounted in metal

(all-round 20 mm)

Without metal 100 90 80

On metal, distance 25 mm 90 80 70

MDS D424

Flush-mounted in metal;

distance all-round 25 mm

60 60 50

Without metal 100 100 73

On metal, distance 25 mm 88 85 68

MDS D426

Flush-mounted in metal;

distance all-round 25 mm

65 55 55

Without metal 100 90 90

On metal 90 90 85

MDS D428

Flush-mounted in metal;

distance all-round 25 mm

80 75 65

Without metal 100 95 90

On metal, distance 25 mm 90 85 80

MDS D460

Flush-mounted in metal Not envisaged

The values in the table describe the reductions in field data. All values are percentages, with reference

to metal-free (100% means no impact).

4.4 Further information

For more detailed information on "fundamentals of application planning" and "EMC", refer to

chapter 4 of the "MOBY D system manual

(http://support.automation.siemens.com/WW/view/en/13628689)".

Planning an RF200 IO-Link system

4.4 Further information

SIMATIC RF200 IO-Link

40 System Manual, 03/2012, C79000-G8976-C276-01

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 41

Commissioning and parameter assignment 5

After the system has been installed and wired up, the following steps are necessary to

commission an RF200 IO-Link reader.

5.1 Configuring

Depending on the operating modes SIO mode or IO-Link communication, the reader needs

to be assigned parameters.

● SIO mode:

In the SIO mode, the reader does not need to be assigned parameters. The reader can

be connected as a standard IO to the input modules (for example IO-Link master).

● IO-Link mode:

In the IO-Link mode, the process image required by the device must be assigned to a

specific port of the IO-Link master and the type and length must be configured.

Using an engineering tool (for example SIMATIC Manager), a new project must be

created or an existing project opened in which the IO-Link master is inserted.

"HW Config" is used for configuration in SIMATIC Manager.

Configuration of the IO-Link master in HW Config

With the aid of HW Config, the IO-Link masters can be dragged from the catalog to the

required location in the PROFIBUS/PROFINET system and the addresses assigned.

Consistency:

For data consistency, the entire communication path must be taken into account. As far as

the various CPUs are concerned, a distinction must be made between PROFIBUS DP and

PROFINET IO.

The consistent data transfer in PROFIBUS DP (1 to 32 bytes) or in PROFINET IO (1 to 254

bytes) takes place in the process image of the inputs and outputs. With the load commands,

up to 4 bytes can be read out consistently from the process image of the inputs. The process

image depends on the CPU and details can be found in the relevant manual.

The S7 CPUs have the system functions "SFC14/15" available that make it possible to

guarantee consistent data transfer outside the process image. The amount of data that can

be transferred consistently depends on the CPU and the bus system being used and details

can be found in the relevant manuals.

For the data transfer between the IO-Link master and IO-Link device, the master guarantees

consistency for 8 bytes without the "Port Qualifier" being selected in the "Ports" menu.

Transfer consistency is also increased by the "Ready delay" setting. This delays the transfer

of the "Done" bit by one cycle so that the system has time to transfer the data.

Commissioning and parameter assignment

5.1 Configuring

SIMATIC RF200 IO-Link

42 System Manual, 03/2012, C79000-G8976-C276-01

The following IO-Link Masters are currently available from SIEMENS:

● ET 200eco PN

● ET 200S 4SI IO-Link

Figure 5-1 Configuration example for an ET 200eco PN

Commissioning and parameter assignment

5.1 Configuring

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 43

Figure 5-2 Address selection with the ET 200eco PN

Commissioning and parameter assignment

5.1 Configuring

SIMATIC RF200 IO-Link

44 System Manual, 03/2012, C79000-G8976-C276-01

Figure 5-3 Configuration example for an ET 200S

Figure 5-4 Address selection with the ET 200S (I/O and PROFIBUS address)

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 45

5.2 Parameter assignment of the IO-Link system

You can call up the Port Configuration Tool from HW Config.

Figure 5-5 Calling the PCT from HW Config using the menu bar

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

46 System Manual, 03/2012, C79000-G8976-C276-01

Figure 5-6 Calling the PCT from HW Config using the master

Note

Calling the PCT with STEP 7 V5.4 or older installed

If PCT was not installed along with the STEP 7 installation (up to V5.4), you will need to

install PCT extra. In this case, you can call up PCT directly using the master. Right click on

the master and then on "Configure IO-Link" in the shortcut menu.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 47

5.2.1 The Port Configuration Tool (PCT)

When using SIEMENS masters, the "Port Configuration Tool" is available for configuring the

IO-Link master and to set parameters for the devices.

When using third-party masters, you will first need to install the tool provided by the

manufacturer or use the parameter assignment options of the configuration system.

With the PCT (as of V2.3), STEP 7 engineering has a powerful software for assigning

parameters for Siemens IO-Link master modules and IO-Link devices. S7 PCT is integrated

in STEP 7 as of V5.4 SP5 and is called via the hardware configuration of the IO-Link master.

Apart from this program form integrated in STEP 7 engineering, a standalone version of S7

PCT is also available and can be installed separately.

The S7 PCT standalone variant allows simple use of the IO-Link with the distributed

SIMATIC I/O ET200 in control systems of other providers (without STEP 7). The standalone

variant is also required to configure via the TIA Portal.

With the Port Configuration Tool, parameter data of the IO-Link devices can be set, changed,

copied and saved in the STEP 7 project: In this way, all configuration data and parameters

right down to the device level are stored consistently.

Properties of the Port Configuration Tool (S7 PCT)

● Available free of charge as a download at Internet

(http://support.automation.siemens.com/WW/view/en/32469496)

● Configuration screens (tabs) in S7 PCT with plain language and product image directly

from the IODD of the certified device

● Central data storage of all project data in the STEP 7 project with the integrated PCT call

● Wide-ranging test and diagnostics functions

● Reading out identification data from the devices

● Reading back of device information including the parameter assignment supported fully

The PCT integrates IO-Link devices below the fieldbus level completely in all areas of

production automation in "Totally Integrated Automation" (TIA).

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

48 System Manual, 03/2012, C79000-G8976-C276-01

5.2.2 Parameter assignment with PCT

With the S7 PCT, you can configure IO-Link master ports, change and read out parameters

and much more.

Make sure that the necessary IODD files exist in the hardware catalog. If they do not, import

them using the "Options" menu. Then transfer the IODD files by dragging them to the PCT

tool.

Note

Assigning rights

In the "Options" menu, it is possible to assign rights for the particular view under "User Role".

All the parameters are enabled with the "Commissioning" role.

The following screenshots show some of the important parameter assignment options at the

master and device level:

Master level





Figure 5-7 You can configure the ports on the "Ports" tab

Figure 5-8 With the help of the "Inspection level" drop-down list, you can disable the checking of the

device type

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 49

Figure 5-9 In the "Addresses" tab, you can see the addresses that have been set

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

50 System Manual, 03/2012, C79000-G8976-C276-01



Figure 5-10 Reading out and updating the device status

Figure 5-11 Any status errors are displayed in the event display on the "Status" tab

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 51

Figure 5-12 On the "I&M" tab, you can read out the I&M master data

Figure 5-13 With the help of the toolbar, you can open the parameter window

Device level



Figure 5-14 Click on the "Load to PG" symbol to display the identification parameters

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

52 System Manual, 03/2012, C79000-G8976-C276-01

Figure 5-15 The "Parameters" tab

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 53

Figure 5-16 In the "Parameters" tab, you can change the IO-Link mode

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

54 System Manual, 03/2012, C79000-G8976-C276-01

Figure 5-17 Change the "Air interface" to "User defined" to be able to adapt the "Air interface"

parameter manually

Note

The manual adaptation of the "Air interface" parameter is intended only for experts.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 55

Figure 5-18 In the "Parameters" tab, you can change the data hold time

You will find more detailed information on the data hold time in the section "IO-Link mode:

Scan UID (Page 68)".

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

56 System Manual, 03/2012, C79000-G8976-C276-01

Figure 5-19 In the "Parameters" tab, you can enable the ready delay

You will find more information on the ready delay in the section "Configuring (Page 41)".

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 57

Figure 5-20 In the "Parameters" tab, you can enable or disable the event indications

You will find more information on the event indications in the section "Event error codes

(Page 94)".

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

58 System Manual, 03/2012, C79000-G8976-C276-01



Figure 5-21 With the "Device Reset" system command, you can reset event indications, error count, UID history etc. of the

diagnostics page

Note

Event messages can only be reset using S7 PCT or the "IOL_CALL" function (system

command).

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 59



Figure 5-22 With the system command "Restore Factory Setting", you can reset all the parameters back to the original

status as when the device shipped

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

60 System Manual, 03/2012, C79000-G8976-C276-01



Figure 5-23 Click the "Load" symbol to download modified data to the device

Note

When downloading the data, make sure that you have selected the required reader.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 61

Figure 5-24 The successful download is displayed in "Communication Results"

In rare cases, writing to the flash when downloading the parameters can lead to a brief

interruption in communication (a few ms). These interruptions have no effect on the transfer

of the parameters.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

62 System Manual, 03/2012, C79000-G8976-C276-01



Figure 5-25 In the "Status" tab, click "Refresh" to update the event display

By updating the event display, the error message disappears.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 63

Figure 5-26 The "Diagnostics" tab

You can call the "Diagnostics" tab using the menu command "Device > Diagnostics".

Note

Changing tabs in offline mode

Change to offline mode before you change between the "Identification", "Parameters",

"Monitoring" or "Diagnostics" tabs.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

64 System Manual, 03/2012, C79000-G8976-C276-01







Number Description

① The values in the "Value" column are not changed by the system command "Device

Reset". The values that were read from the device with the last "Load to PG" are always

shown.

② The values of this column are only displayed in "online mode" and are up-to-date values.

Values that are changing or have changed can be recognized by the light background. In

the example shown, the modified values are displayed after the "Device Reset" system

command.

③ UID of the transponder currently in the field of the reader.

④ UID history of the transponders

Figure 5-27 The "Diagnostics" tab after the "Device Reset" system command

In the "Event history" section (index 74) of the "Diagnostics" tab, errors and warnings are

displayed that were transferred to the master. The master only signals errors of the category

"coming/going" to the CPU. This is indicated by the LEDs of the master or of the CPU (SF).

With the help of the diagnostics function "OB82 + SFB/SFC(SFC13, 51/SFB54)" of the

relevant CPU, you can perform other diagnostics functions or display them.

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 65

Explanations of the "Diagnostics" tab

The following values are examples.

Reader diagnostics

Error count 3 Number of errors that have occurred (not

warnings)

Event history (index 74)

- Last event Warning going:

Overtemperature

Display of the error or warning that has

occurred

- Second last event Invalid PIQ Display of the error or warning that has

occurred

- Third last event Error: Overload Display of the error or warning that has

occurred

- Fourth last event Warning:

Overtemperature

Display of the error or warning that has

occurred

- Fifth last event No event Display of the error or warning that has

occurred

Reader status (index 90)

- Time since startup 2641 Operating time in seconds

- Tags in the field 1 Current number of transponders in the field

- Antenna status On Antenna turned on/off

- Tag changes 11 Number of transponders changes

- IO-Link line driver version 0x1a Version of the IO-Link line driver

- Error counter passive 0 Air interface: Counter for errors in idle state

- Abort counter 0 Air interface: Communication aborted

- Code error counter 135 Air interface: Communication disruption

- Signature error counter 0 Reserved

- CRC error counter 255 Air interface: Communication disruption

- Current command status 0 Reserved

- Error count 3 HOST interface: Communication disruption

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

66 System Manual, 03/2012, C79000-G8976-C276-01

Tag status (index 91)

- UID byte 0 0xe0 Byte 0 of the unique identifier of the

transponder

- UID byte 1 0x04 Byte 1 of the unique identifier of the

transponder

- UID byte 2 0x01 Byte 2 of the unique identifier of the

transponder

- UID byte 3 0x00 Byte 3 of the unique identifier of the

transponder

- UID byte 4 0x01 Byte 4 of the unique identifier of the

transponder

- UID byte 5 0x9c Byte 5 of the unique identifier of the

transponder

- UID byte 6 0xe9 Byte 6 of the unique identifier of the

transponder

- UID byte 7 0x1c Byte 7 of the unique identifier of the

transponder

- Tag type MDS D1xx,

I-Code SLI (NXP)

Transponder name /

name of the chip / (manufacturer)

- Chip version 0x01 Version of the chip

- Memory size in bytes 112 Memory size of the chip in bytes

- Lock status 0 Disabled blocks on the chip

- Memory block size 4 Size of the memory blocks of the chip

- Number of blocks 28 Number of memory blocks of the chip

UID history (index 92)

- Last UID 0xe0040100019ce91c Transponder history

- Second UID 0x00 Transponder history

- Third UID 0x00 Transponder history

- Fourth UID 0x00 Transponder history

- Fifth UID 0x00 Transponder history

Commissioning and parameter assignment

5.2 Parameter assignment of the IO-Link system

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 67

Figure 5-28 The "Monitoring" tab in the "Scan user data" or "Scan UID" mode

Commissioning and parameter assignment

5.3 The modes of the RF200 IO-Link reader

SIMATIC RF200 IO-Link

68 System Manual, 03/2012, C79000-G8976-C276-01

5.3 The modes of the RF200 IO-Link reader

5.3.1 SIO mode

You can change to the SIO mode by configuring the relevant ports of the IO-Link master as

digital inputs. In this mode, there is no communication between the reader and master.

The reader is also in the SIO mode when it is connected to a standard input module.

The RF200 reader behaves like a standard input whose signal state behaves as follows:

24 V Transponder in the field of the reader

0 V No transponder in the field of the reader

5.3.2 IO-Link mode: Scan UID

You change to the "Scan UID" mode by setting the value "Scan UID" for the "Operating

Mode" reader parameter. The value "Scan UID" is set as the default in the IODD file.

With IO-Link communication, 8 bytes of the process image of the inputs (PII) and 8 bytes of

the process image of the outputs (PIQ) are transferred with the following structure:

Address

offset

0 1 2 3 4 5 6 7

PIQ 0 0 0 0 0 0 0 0 Normal operation

0 0 0 0 0 0 0 0 No transponder present PII

UID0 UID1 UID2 UID3 UID4 UID5 UID6 UID7 ISO transponder present

The 8-byte long UID of the transponder currently in the antenna field is displayed in the PII. If

the transponder leaves the field, 0 is displayed in the PII.

With the reader parameter data hold time, a minimum display time can be set in which the

data of the reader remain displayed when the transponder has already left the field. This

display time also applies if there is no longer a transponder in the field or when the

transponder has left the field and the value "0" is shown in the PII. A new transponder will

only be displayed after the data hold time has elapsed.

To be certain that all transponders are displayed, there must be an adequate distance

between the individual transponders. If the distance between the individual transponders is

not great enough, individual transponders will not be displayed due to the data hold time.

Commissioning and parameter assignment

5.3 The modes of the RF200 IO-Link reader

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 69

The most significant bit of the address 0 (UID0.7) is "1" when there is a transponder in the

field. The 1 at the most significant UID place is guaranteed by the ISO 15693 standard.

By setting bit 4 in byte 0 in the PIQ, you can turn off the antenna of the reader and therefore

also the HF field.

In the PII, the turned off antenna is confirmed by 0xFF.

Address

offset

0 1 2 3 4 5 6 7

PIQ 0x10 0 0 0 0 0 0 0 Antenna off

PII 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF Antenna off

5.3.3 IO-Link mode: Scan user data

You can change to the "Scan user data" mode by setting the value "Scan user data" for the

"Operating Mode" parameter of the reader.

With IO-Link communication, 8 bytes of the process image of the inputs (PII) and 8 bytes of

the process image of the outputs (PIQ) are transferred. You can decide which data is read

via the process image "output" with a command or by entering an address.

Address

offset

0 1 2 3 4 5 6 7

PIQ CMD 0 Adr-H Adr-L 0 0 0 0 Read

0 0 0 0 0 0 0 0 No transponder present

Status error_

RFID

Adr-H Adr-L Data

(MSB)

Data Data Data

(LSB)

Transponder present

0x10 0 0 0 0 0 0 0 Antenna off

PII

Status error_

RFID

0 0 0 0 0 0 Error message of the

RFID reader

CMD Command byte

Adr-H More significant address byte of the data to be read on the transponder.

Adr-L Less significant address byte of the data to be read on the transponder.

error_RFID Error message of the RFID reader: Errors are acknowledged (=RESET) by

the command antenna off or by the transponder leaving the field.

You will find more detailed information on the error messages in the section

"Diagnostics (Page 81)".

Status Status byte

Commissioning and parameter assignment

5.3 The modes of the RF200 IO-Link reader

SIMATIC RF200 IO-Link

70 System Manual, 03/2012, C79000-G8976-C276-01

PIQ

Command byte:

&RPPDQGFRGH

 QRFRPPDQGDFWLYH

 UHDG



$172))

 DQWHQQDRQGHIDXOW

 DQWHQQDRII

%LW 

Figure 5-29 Structure of the command byte "PIQ"

PII

Status byte:

&RPPDQGFRGH

FRPPDQGH[HFXWHG

$172))&RQI

 DQWHQQDLVDFWLYH

 DQWHQQDLVLQDFWLYH

$1:

 QRWUDQVSRQGHULQWKHILHOGRIWKHUHDGHU

 WUDQVSRQGHULQWKHILHOGRIWKHUHDGHU

(UURU

 1RHUURU

 HUURURFFXUUHGHUURUFRGH

ORFDWHGLQE\WHHUURUB5),'

5'<

 FRPPDQGSHQGLQJGDWDLVLQYDOLG

&KHFNHUURUELWWRILQGRXWLIHUURURFFXUUHG

 FRPPDQGFRPSOHWHGGDWDLVYDOLG

%LW 

Figure 5-30 Structure of the status byte in the "PII"

Note

Error message of the RFID reader

Errors are acknowledged (=RESET) by the command antenna off or by the transponder

leaving the field.

Commissioning and parameter assignment

5.4 ISDU data traffic

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 71

5.4 ISDU data traffic

Apart from the process data, various data objects (Indexed Service Data Unit) can be

addressed acyclically as necessary for diagnostics and maintenance purposes (you will find

further information in the section "Overview of the service data (Page 96)"). For SIEMENS

CPUs, the IOL_CALL block is available for this.

5.4.1 IOL_CALL

Using the IOL_CALL function block, you can read any data objects of IO-Link devices, save

them in non-volatile memory and after replacing an IO-Link device or master write the

objects back to the IO-Link device using the IOL_CALL again.

You can control the IOL_CALL function block call and the retentive saving of the objects from

the user program.

Properties of the IOL_CALL function block

The IOL_CALL function block is convenient when programming and assigning parameters in

the IO-Link engineering due to the following properties:

● Can run on all SIMATIC S7 CPUs

● Little programming effort required for IO-Link parameter assignment and diagnostics in

the runtime environment

● Can be used universally for all masters and devices

● Supports IO-Link masters on PROFINET and PROFIBUS DP

● Contains HMI faceplates with user interfaces for SIEMENS masters and devices for

SIMATIC HMI

● Parameter assignment and diagnostics during operation without an engineering system

● (Re)assignment of parameters of an IO-Link device during operation

● Reading out of additional information from the IO-Link device (for example diagnostics,

maintenance etc.)

● Execution of IO-Link port functions

● Saving/restoring IO-Link parameters when replacing IO-Link masters or devices

● Use of FB1 "IOL_CALL" for replacing IO-Link masters and IO-Link devices without a PG

Commissioning and parameter assignment

5.5 Application example

SIMATIC RF200 IO-Link

72 System Manual, 03/2012, C79000-G8976-C276-01

5.5 Application example

In the following example, a transponder MDS D124 is read completely with a simple loop

and an RF2X0 IO-Link reader in mode 2. The valid read data is saved in a global data block.

Table 5- 1 Programming example

Program code //Comments

//If there is no transponder in the field, jumped to error evaluation

U "ANW"; // Presence (I10.5)

SPBN ende;

//Run through the read loop only once

U "Once_flag"; // Run through loop once (M2.0)

SPB ende;

//If an error occurs, increment error counter

U "Error";; // Error bit (I10.6)

SPB erro; // => Abort if error

//New read command when <ready bit>is set and no <error>

U "Done";; // Ready bit (I10.7)

SPBN ende;

//Does the address <read command> = <read acknowledgement>?

//Address 10 is set (see hardware configuration)

L "PAE_Status"; // PII : CMD

UW W#16#2;

L B#16#2; // Read command

==I ; //Acknowledgement

U( ;

L "PAA_Adr_L"; // PIQ : Adr-L

L "PAE_Adr_L"; // PII : Adr-L

==I ;

) ;

SPB adre; // Valid acknowledgment => adopt data

SPA Lese; // => Output read command

//Save data at current transponder address in data DB

adre: L "PAE_Adr_L"; // PII : Adr-L

SLD 3; // Expand to 16-bit address

T "lwa";; // Memory of the current address (MD3)

L "PAE_Data"; // PII : Data (bytes 4-7)

AUF "FC1Daten";; // Memory DB (DB100)

T DBD ["lwa"]; // Enter read data in DB

L "PAE_Adr_L"; // Increment address by 4 bytes

+ B#16#4;

T "FC1Daten".dbadresse; // Save new read address

//New read command when <ready bit>is set and no <error>

Read: L B#16#2; // Read command

T "PAA_CMD"; // PII: CMD

//Load the last valid address

L "FC1Daten".dbadresse;; // Memory DB (DB100.DBB114)

T "PAA_Adr_L"; // PII: Adr-L

//Increment read address (address range 112 bytes = 70 Hex for MDS D124)

L "FC1Daten".dbadresse;; // Memory DB (DB100.DBB114)

L B#16#6C; // Check end address

Commissioning and parameter assignment

5.5 Application example

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 73

Program code //Comments

(MDS D124 = 112 bytes = 6F hex)

>I ;

SPB enda; // => End when end address reached

SPA ende; // => Continue reading in next cycle

//Read next transponder

enda: U "VKE1"; // When all data has been read

= "Once_flag";

L 0; // End reading of the transponder

T "PAA_CMD"; // => then deleted address etc.

T "lwa"; // "

T "PAA_Adr_L"; // "

T "FC1Daten".dbadresse; // => wait for new transponder

SPA ende;

// Troubleshooting

erro: L "FC1Daten".fehler1; // Count errors

L 1;

+I ;

T "FC1Daten".fehler1; // and end reading

L "PAA_Adr_L"; // Data that led to error

T "FC1Daten".err_dbadresse; // save

L "PAA_CMD"; // "

T "FC1Daten".err_cmd; // "

L "PAE_Status"; // "

T "FC1Daten".err_Status; // "

L "PAE_Error_RFID"; // "

T "FC1Daten".err_ErrorRFID; // "

L 0; // Delete addresses/memory bits/memory

T "FC1Daten".dbadresse; // "

T "lwa"; // "

T "PAA_Adr_L"; // "

T "PAA_CMD"; // "

U "VKE1"; // End reading

= "Once_flag";

ende: BE ;

Commissioning and parameter assignment

5.5 Application example

SIMATIC RF200 IO-Link

74 System Manual, 03/2012, C79000-G8976-C276-01

Table 5- 2 Shared data block

Program code //Comments

DATA_BLOCK "FC1Daten"

TITLE =ScanUserData

AUTHOR : IASCCI

FAMILY : RFID

NAME : IOLink

VERSION : 1.0

STRUCT

data : ARRAY [1 .. 112 ] OF BYTE; // Memory for "data"

fehler1 : WORD := W#16#0; // Memory for "error" count

dbadresse : Byte := B#16#0; // Memory for "dbadresse"

err_dbadresse : BYTE ; // Memory address if error occurs

err_cmd : BYTE ; // memory Command if error occurs

err_Status : BYTE ; // Memory status if error occurs

err_ErrorRFID : BYTE ; // memory Error_RFID if error occurs

END_STRUCT ;

BEGIN

fehler1 := W#16#0; // Memory for "error" count

dbadresse := B#16#0; // Memory for "dbadresse"

err_dbadresse := B#16#0; // Memory address if error occurs

err_cmd := B#16#0; // memory Command if error occurs

err_Status := B#16#0; // Memory status if error occurs

err_ErrorRFID := B#16#0; // memory Error_RFID if error occurs

END_DATA_BLOCK

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 75

Readers 6

6.1 Features

Table 6- 1

SIMATIC RF210R Characteristics

Area of application Identification tasks on assembly lines in harsh

industrial environments





Design ① RF200 IO-Link interface

② Operating indicator

SIMATIC RF220R Characteristics

Area of application Identification tasks on assembly lines in harsh

industrial environments





Design ① RF200 IO-Link interface

② Operating indicator

SIMATIC RF260R Characteristics

Area of application Identification tasks on assembly lines in harsh

industrial environments





Design ① RF200 IO-Link interface

② Operating indicator

Readers

6.2 Pin assignment of the RF200 reader with IO-Link interface

SIMATIC RF200 IO-Link

76 System Manual, 03/2012, C79000-G8976-C276-01

6.2 Pin assignment of the RF200 reader with IO-Link interface

Table 6- 2

Pin Pin

Device end

4-pin M12

Assignment

1 24 VDC

2 reserved

3 GND









4 IO-Link data signal or out port in SIO mode

6.3 Display elements of the RF200 reader

As the display element, there is an LED on the reader.

LED display Operating state

off No power supply on the reader

pulsed Startup Red

Flashing Error occurred, the number of pulses provides information about the error that has occurred

(see section "Diagnostics (Page 81)")

For example hardware fault, invalid parameters, watchdog

Flashing Antenna turned off

On-off ratio 1:1, 1 Hz

Permanently

SIO mode, no transponder in the field

Green

pulsed IO-Link mode, no transponder in the field

On-off ratio 1:10

Permanently

SIO mode, transponder in the field Yellow

pulsed IO-Link mode, transponder in the field

On-off ratio 1:10

Alternating, flashing

red/green

Firmware update

Pulse duration 500 ms

Readers

6.4 Minimum distance between several readers

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 77

6.4 Minimum distance between several readers

RF210R/RF220R one beside the other

Readers D

RF210R ≥ 60 mm

RF220R ≥ 100 mm

Figure 6-1 Minimum distance between several RF210R/RF220R

RF210R/RF220R face-to-face

Readers D

RF210R ≥ 100 mm

RF220R ≥ 150 mm

Figure 6-2 Face-to-face distance between two RF210R/RF220R

Readers

6.4 Minimum distance between several readers

SIMATIC RF200 IO-Link

78 System Manual, 03/2012, C79000-G8976-C276-01

RF260R side by side

6,0$7,&

5)5

6,0$7,&

5)5

6,0$7,&

5)5

Readers D

RF260R ≥ 150 mm (with 2 readers)

RF260R ≥ 250 mm (with more than 2 readers)

Figure 6-3 Minimum distance between several RF260R

RF260R face to face

Readers D

RF260R ≥ 500 mm

Figure 6-4 Face-to-face distance between two RF260R

Readers

6.5 Dimensional drawings

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 79

6.5 Dimensional drawings



º

Figure 6-5 RF210R dimension drawing



º



Figure 6-6 RF220R dimension drawing











6,0$7,&

5)5





Figure 6-7 Dimension drawing RF260R

All dimensions in mm

Readers

6.5 Dimensional drawings

SIMATIC RF200 IO-Link

80 System Manual, 03/2012, C79000-G8976-C276-01

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 81

Diagnostics 7

RFID error codes of the RF 200 reader

You can identify the error in several ways:

● Directly on the reader by counting the flashing pattern of the red error LED

● Error code in the PII byte 1 "error_RFID" (see section "IO-Link mode: Scan user data

(Page 69)")

● Message as IO-Link event (compare section "Event error codes (Page 94)")

Flashing of

red LED on

reader

Error code

(hexa-

decimal)

Description

00 00 No error

02 01 Presence error, possible causes:

• The active command was not carried out completely

• The transponder left the field while the command was being

processed - Communication disruption between reader and

transponder

05 05 Parameter assignment error, possible causes:

• Unknown command

• Incorrect parameter

• Function not allowed

06 06 Air interface faulty

13 0D Error in the specified memory address (access attempted to non-existent

or non-accessible memory areas).

17 11 Short-circuit or overload or overtemperature

• The affected output is turned off

• All outputs are turned off when total overload occurs

• A reset can only be performed by turning the 24 V voltage off and on

again

18 12 Internal hardware fault, possible causes:

• Connector contact problem on the reader

• Hardware defective

20 14 Major system fault (hardware fault)

21 15 Parameter assignment error: Bad parameter

24 18 Only "RESET" permitted

25 19 Previous command is still active

- 1F Active command cancelled by "RESET"

Diagnostics

SIMATIC RF200 IO-Link

82 System Manual, 03/2012, C79000-G8976-C276-01

Note

These errors are acknowledged (= RESET) by the command antenna off or by the

transponder leaving the field. The hexadecimal errors 11, 12, 14 and 15 are only indicated

by the LED "flashing" the "error_RFID" byte is not used.

So-called event messages are also passed on to the master (see section "Event error codes

(Page 94)"). You can display these error messages using S7-PCT (diagnostics) or read them

out using the "IOL_CALL" function block. You can only reset event messages using S7 PCT

or the "IOL_CALL" function (system command).

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 83

Technical data 8

8.1 Technical data of the RF200 reader

Table 8- 1 Technical data of the RF200 reader

Operating frequency 13.56 MHz

Antenna Integrated

Interface to the IO-Link master IO-Link

Maximum data transmission rate

Point-to-point connection

38.4 kbps

Cable length reader - IO-Link master Max. 20 m

Read distances of the reader See section "Field data (Page 25)."

Protocol for wireless transmission ISO 15693, ISO 1800-3

Maximum data transmission rate

Wireless transmission

26.6 kbps

Transmission time for reading 40 ms/byte

Plug connector M12, 4-pin

Power supply (min ... max) 24 VDC (20.4 to 28.8 VDC)

power consumption (at 24 V DC) 50 mA

Display elements 3-color LED

(operating voltage, presence, error)

Ambient temperature

• During operation

• During transportation and storage

• -20 ... +70 °C

• -25 ... +80 °C

Degree of protection in accordance with EN 60529 IP67

Shock resistance

• Shock acceleration

• Vibration acceleration

EN 60721-3-7 Class 7 M2

• 500 m/s²

• 200 m/s²

Approvals Wireless to R&TTE guidelines

EN 300 330, EN 301489, CE, FCC, UL/CSA

MTBF 505 a

Technical data

8.1 Technical data of the RF200 reader

SIMATIC RF200 IO-Link

84 System Manual, 03/2012, C79000-G8976-C276-01

Table 8- 2 Technical specifications specific to RF210R

Housing

• Dimensions

(length x diameter)

• Color

• Material

• 83 x 18 mm (incl. 8-pin connector sleeve

and plastic cap)

• Silver

• Brass, nickel-plated

Fixing 2 metal M18 hexagonal nuts; thickness: 4 mm

Tightening torque ≤ 20 Nm

Weight approx. 65 g

(incl. two M18 nuts)

Table 8- 3 Technical specifications specific to RF220R

Housing

• Dimensions

(length x diameter)

• Color

• Material

• 83 x 30 mm (incl. 8-pin connector sleeve

and plastic cap)

• Silver

• Brass, nickel-plated

Fixing 2 metal M30 hexagonal nuts; thickness: 5 mm

Tightening torque ≤ 40 Nm

Weight approx. 140 g

(incl. two M30 nuts)

Table 8- 4 Technical specifications specific to RF260R

Housing

• Dimensions

(length x width x height)

• Color

• Material

• 75 x 75 x 41 mm (without M12 housing

connector)

• Anthracite

• Plastic PA 6.6

Fixing 2 metal M5 screws;

Tightening torque ≤ 1.5 Nm

Weight Approx. 200 g

Technical data

8.2 FCC information

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 85

8.2 FCC information

Siemens SIMATIC RF210R (MLFB 6GT2821-1AC32) FCC ID: NXW-RF210RIOL

Siemens SIMATIC RF220R (MLFB 6GT2821-2AC32) FCC ID: NXW-RF220RIOL

Siemens SIMATIC RF260R (MLFB 6GT2821-6AC32) FCC ID: NXW-RF260RIOL

This device complies with part 15 of the FCC rules. Operation is subject to the following two

conditions:

(1) This device may not cause harmful interference.

(2) This device must accept any interference received, including interference that may cause

undesired operation.

Caution

Any changes or modifications not expressly approved by the party responsible for

compliance could void the user's authority to operate the equipment.

Canada information

This device complies with Industry Canada licence-exempt RSS standard(s). Operation is

subject to the following two conditions:

(1) this device may not cause interference, and

(2) this device must accept any interference, including interference that may cause

undesired operation of the device.

Le présent appareil est conforme aux CNR d`Industrie Canada applicables aux appareils

radio exempts de licence. L`exploitation est autorisée aux deux conditions suivantes :

(1) l`appareil ne doit pas produire de brouillage, et

(2) l'utilisateur de l`appareil doit accepter tout brouillage radioélectrique subi,

même si le brouillage est susceptible d`en compromettre le fonctionnement.

8.3 cULus information

When using an ET200S IO-Link master, make sure that the power supply unit being used

corresponds to a Class 2 device (limited current/limited voltage) and that it is listed in the UL

file.

Technical data

8.3 cULus information

SIMATIC RF200 IO-Link

86 System Manual, 03/2012, C79000-G8976-C276-01

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 87

Connecting cable 9

ET 200S IO-Link master

The connecting cable is available in lengths of 5 m (standard) or 10 m.

6/*FRQQHFWRU

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,2/LQNPRGH

6HQVRU

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EURZQ

EOXH

EODFN

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

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/

/

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

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0

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Figure 9-1 Design of the connecting cable between the IO-Link master module and reader

General terminal assignment

Note

Terminals A4, A8, A3 and A7 are only available at specified terminal modules.

Terminal assignment for the 4SI IO-Link electronic module (6ES7138-4GA50-0AB0)

Terminal Assignment Terminal Assignment Explanations

1 C/Q Port 1 5 C/Q Port 2

2 C/Q Port 3 6 C/Q Port 4

3 L+ Port 1 7 L+ Port 2

4 L+ Port 3 8 L+ Port 4

A4 M Port 1 (AUX) A8 M Port 2 (AUX)

A3 M Port 3 (AUX) A7 M Port 4 (AUX)

• C/Q: Communication signal / DI/DO

• L+: Supply voltage

• L-/M: Mass

Connecting cable

SIMATIC RF200 IO-Link

88 System Manual, 03/2012, C79000-G8976-C276-01

Usable terminal modules

TM-E15C26-A1

(6ES7193-4CA50-0AA0)

Spring terminal

TM-E15S26-A1

(6ES7193-4CA40-0AA0)

Screw terminal

TM-E15N26-A1

(6ES7193-4CA80-0AA0)

Fast Connect

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$

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SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 89

Ordering data 10

Table 10- 1 IO-Link interfaces

Order number

RF210R with IO-Link interface 6GT2821-1AC32

RF220R with IO-Link interface 6GT2821-2AC32

RF260R with IO-Link interface 6GT2821-6AC32

Table 10- 2 Accessories

Order number

5 m 6GT2891-0LH50 Plug-in cable IO-Link,

open end - M12 10 m 6GT2891-0LN10

5 m 6GT2891-0MH50 Plug-in cable IO-Link,

M12 plug - M12 socket 10 m 6GT2891-0MN10

Ordering data

SIMATIC RF200 IO-Link

90 System Manual, 03/2012, C79000-G8976-C276-01

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 91

Service & support 11

Contact partner

If you have any further questions on the use of our products, please contact one of our

representatives at your local Siemens office.

The addresses are found on the following pages:

● In Internet (http://www.siemens.com/automation/partner)

● In Catalog CA 01

● In Catalog ID 10 specifically for industrial communication / industrial identification systems

Technical Support

You can access technical support for all IA/DT projects via the following:

● Phone: + 49 (0) 911 895 7222

● Fax: + 49 (0) 911 895 7223

● E-mail (mailto:support.automation@siemens.com)

● Internet: Online support request form: (http://www.siemens.com/automation/support-

request)

Service & support for industrial automation and drive technologies

You can find various services on the Support homepage

(http://www.siemens.com/automation/service&support) of IA/DT on the Internet.

There you will find the following information, for example:

● Our newsletter containing up-to-date information on your products.

● Relevant documentation for your application, which you can access via the search

function in "Product Support".

● A forum for global information exchange by users and specialists.

● Your local contact for IA/DT on site.

● Information about on-site service, repairs, and spare parts. Much more can be found

under "Our service offer".

RFID homepage

For general information about our identification systems, visit RFID homepage

(http://www.siemens.com/ident).

Service & support

SIMATIC RF200 IO-Link

92 System Manual, 03/2012, C79000-G8976-C276-01

Technical documentation on the Internet

A guide to the technical documentation for the various products and systems is available on

the Internet:

SIMATIC Guide manuals (http://www.siemens.com/simatic-tech-doku-portal)

Online catalog and ordering system

The online catalog and the online ordering system can also be found on the Industry Mall

Homepage (http://www.siemens.com/industrymall).

Training center

We offer appropriate courses to get you started. Please contact your local training center or

the central training center in

D-90327 Nuremberg.

Phone: +49 (0) 180 523 56 11

(€ 0.14 /min. from the German landline network, deviating mobile communications prices are

possible)

For information about courses, see the SITRAIN homepage (http://www.sitrain.com).

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 93

Appendix A

To understand this appendix, you should be familiar with the "IOL_CALL" function.

A.1 IO-Link error codes

A.1.1 ISDU return error codes

S7-PCT, IOL_CALL and the IO-Link device (reader) use the frame transport layer "ISDU".

The following table lists possible ISDU return error codes. The ISDU return error codes are

not generated by the reader. You can display the error codes using the "IOL_CALL" function

block.

Error code

(hex)

Error description Remedy

8000 Command error -

8011 Index not available Correct index

8012 Subindex not available Correct subindex

8020 Service temporarily not available Repeat query after a waiting time

8021 Service temporarily not available.

Local control unit blocked.

Repeat query after a waiting time

8022 Service temporarily not available.

Device is busy with another task.

Repeat query after a waiting time

8023 Access denied Index can only be read

8030 Parameter value is outside the permitted range Transfer the correct value

8031 Parameter value is above the limit Transfer the correct value

8032 Parameter value is below the limit Transfer the correct value

8033 Parameter length exceeded Check parameter length

8034 Parameter not long enough Check parameter length

8035 Function not available Check call parameters

8036 Function temporarily not available Repeat query after a waiting time

8040 Invalid parameter set Transfer correct parameter set

8041 Invalid parameter set Transfer correct parameter set

8082 Application not ready -

Appendix

A.1 IO-Link error codes

SIMATIC RF200 IO-Link

94 System Manual, 03/2012, C79000-G8976-C276-01

A.1.2 Event error codes

The following event error codes are displayed if you have enabled the "Event message"

parameter in S7-PCT.

The event error codes with the event type "coming/going" are signaled by the IO-Link reader

and forwarded by the IO-Link master to the programmable controller (PLC) at the fieldbus

level for diagnostics purposes. You can display these event error codes using the standard

diagnostics of the CPU. You can display all other event types using the "IOL_CALL" function

block or the PCT tool.

Error code

(hex)

Error description Device status 1) Event type Causes of errors

1823 Internal error RFID error code (hex) 01 Warning The read command is at the air interface and

there is a communication disruption.

Possible causes:

• The active command was not carried out

completely

• The transponder left the field while the

command was being processed

• Communication disruption between

reader and transponder, for example due

to EMC interference

1831 Flash error RFID error code (hex) 12 Error

coming/

going

Hardware fault when saving

(flash error)

1833 Internal error RFID error code (hex) 05,

06, 0D, 15, 18, 19

Fault/error Group error, classic RFID error.

Possible causes (in the "Scan user data"

mode):

• Firmware/parameter assignment errors

• Errors in the specified memory address

(RFID error 0D)

• Air interface disturbed

(RFID error 06)

• Parameter assignment error

(RFID error 05):

– Unknown command

(wrong information in the PIQ)

– Bad parameter (for example address

wrong, length wrong)

– Function not permitted (for example

sending a command in UID mode)

1834 Invalid PIQ RFID error code (hex) 05 Error

coming/

going

Command was written to the PIQ although

this is not permitted.

For example "read" command in the "Scan

UID" mode

4000 Overtemperature RFID error code (hex) 11 Error

coming/

going

Overtemperature in the reader device (>

110°C) so that a dangerous state is detected.

Turn off the power to the device.

Appendix

A.1 IO-Link error codes

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 95

Error code

(hex)

Error description Device status 1) Event type Causes of errors

5100 General problem

with the power

supply

RFID error code (hex) 11 Error

coming/

going

Hardware fault:

Under/overvoltage

Check the power supply.

6000 Firmware error RFID error code (hex) 14 Error

coming/

going

The firmware has detected an internal error

(system).

For example illogical status or watchdog etc.

6320 Parameter

assignment error

RFID error code (hex) 15 Error

coming/

going

Parameter assignment error:

Bad parameter

8C00 Reset Device RFID error code (hex) 14 Error

coming/

going

Serious system error, watchdog:

Cycle power

1) The device status has the same meaning as the RFID error code.

Note

You can display these event messages using S7-PCT or read them out using the

"IOL_CALL" function block. You can only reset event messages using S7 PCT or the

"IOL_CALL" function.

The event messages cannot be reset by "antenna off" or "move transponder out of field" as

is possible with the RFID errors (compare section "Diagnostics (Page 81)").

Appendix

A.2 Overview of the service data

SIMATIC RF200 IO-Link

96 System Manual, 03/2012, C79000-G8976-C276-01

A.2 Overview of the service data

The device RF200R IO-Link supports the following indexes for service data and parameter

assignment:

Note

Direct Parameter Page 1 (Index 0)

These parameters are only used internally in the system and do not normally need to be

taken into account. When necessary, however, they can be read out using index 0 (see

section "IOL_CALL (Page 71)").

Index Object

name

Subindex Length

in bytes

Access Parameter

name

Description

0x00 16 r - Entire index selected

0x01 1 r Master-

Command

Switch the IO-Link operating mode

(Fallback, Operate, Preoperate)

0x02 1 r MasterCycle-

Time

Master cycle time

0x03 1 r MinCycleTime Minimum device cycle time (reader)

0x04 1 r F-sequence

Capability

Supported frame types for communication.

0x05 1 r RevisionID IO-Link protocol version implemented on the

device

0x06 1 r ProcessDataIn Number and structure of the data process image

of the inputs to the master

0x07 1 r ProcessDataO

Number and structure of the data process image

of the outputs from the master

0x08 1 r VendorID 1

(MSB)

Unique vendor identification number

0x09 1 r VendorID 2

(LSB)

SIEMENS: 0x002A

0x0A 1 r DeviceID 1

(Octet 2, MSB)

0x0B 1 r DeviceID 2

(Octet 1)

0x0C 1 r DeviceID 3

(Octet 0, LSB)

Unique device identification number.

RF210R IO-Link: 0x0C0201

RF220R IO-Link: 0x0C0202

RF260R IO-Link: 0x0C0206

0x0D 1 r FunctionID 1

(MSB)

0x0E 1 r FunctionID 2

(LSB)

reserved

0x0F 1 r - reserved

0x00 Direct

parameter

page 1

010 1 r System-

Command

Unused, system command is enabled using index

Appendix

A.2 Overview of the service data

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 97

Index Object

name

Subindex Length

in bytes

Access Parameter

name

Description

0x02 System

command

0x00 1 w - Supported system commands:

Device Reset: 0x80

Reset to factory setting: 0x82

0x10 Vendor

name

0x00 12 r - Vendor name:

"SIEMENS AG"

0x11 Vendor text 0x00 12 r - Vendor text:

"SIEMENS AG"

0x12 Product

name

0x00 24 r - Product name:

"SIMATIC RF2xxR IO-Link"

0x13 Product ID 0x00 16 r - Product ID:

MLFB of the reader e.g.

"6GT2821-1AC32"

0x14 Product text 0x00 64 r - Product text:

Information on reader properties

0x15 Serial

number

0x00 12 r - Serial number is not supported

0x17 Firmware

revision

0x00 12 r - Firmware version (e.g. V1.0.0)

0x18 Application

specific tag

0x00 32 r/w - User-specific data.

For example, plant designation, function,

maintenance data, location identifier

0x20 Error count 0x00 2 r - Number of errors since turning on (number of

events)

0x28 Process

Data Input

0x00 8 r - Read out last process image of the inputs

0x29 Process

Data

Output

0x00 8 r - Read out last process image of the outputs

Appendix

A.2 Overview of the service data

SIMATIC RF200 IO-Link

98 System Manual, 03/2012, C79000-G8976-C276-01

Index Object

name

Subindex Length

in bytes

Access Parameter

name

Description

8 r/w - Read out the reader parameters of the reader

(entire possible = subindex 0x00)

1 r/w Event

indications

2: Event indication enabled (default)

4: No message

1 r/w Operation

mode

4: Scan UID (default)

8: Scan user data

1 r/w Ready delay 2: Turn off

4: Turn on

additional safety mechanism for consistent data

transfer

1 r/w Data hold time Minimum time during which the process input data

is not changed by the device.

• 0x00: minimum (default)

• 0x0A: 100 ms

• 0x14: 200 ms

• 0x32: 500 ms

• 0x64: 1 s

• 0xC8: 2 s

• 0xFE: Test mode

"Trigger events"

1 r/w Air Interface Setting the

2: ISO default (default)

4: Special settings

1 r/w Modulation Setting for the modulation strength

0 ... 100 % (default 22 %)

1 r/w Subcarrier Subcarrier

2: single (default)

4: double

0x40 Reader

parameter

0x00

1 r/w Data rate Date rate

2: low

4: high (default)

0x43 IO-Link

baudrate

0x00 1 r - IO-Link baud rate

4: 38.4 kbps

0x00 20 r - Entire index selected

0x01 4 r - Last event

0x02 4 r - Second last event

0x03 4 r - Third last event

0x04 4 r - Fourth last event

0x4A Event

history

0x05 4 r - Fifth last event

Appendix

A.2 Overview of the service data

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 99

Index Object

name

Subindex Length

in bytes

Access Parameter

name

Description

18 r - Can only be read out entirely, only subindex 0

possible.

4 r Time since

startup

Operating time of the reader since startup

1 r Tags in the

field

Number of transponders located in the field

Here, only 1 transponder is permitted.

1 r Antenna ctatus Status of the antenna:

• 0: Unknown

• 1: Antenna on

• 2: Antenna off

4 r Tag changes Number of transponders that have passed

through the field since the reader was turned on

1 r Line driver

Revision

Version of the physical IO-Link driver block

1 r Reader FZB HF field, error counter passive (for example

interference pulses)

Is reset when read out.

1 r Reader ABZ HF protocol error, abort counter

Is reset when read out.

1 r Reader CFZ HF protocol error, code error counter

Is reset when read out.

1 r Reader SFZ HF protocol error, signature error counter

Is reset when read out.

1 r Reader

CRCFZ

HF protocol error, CRC error counter

Is reset when read out.

1 r Reader BSTAT Number of command repetitions

Is reset when read out.

0x5A Reader

status

0x00

1 r Reader FZ Error count

Appendix

A.2 Overview of the service data

SIMATIC RF200 IO-Link

100 System Manual, 03/2012, C79000-G8976-C276-01

Index Object

name

Subindex Length

in bytes

Access Parameter

name

Description

15 r - Can only be read out entirely, only subindex 0

possible.

8 r UID Unified identifier of the transponder located in the

field.

1 r Tag type Tag type:

• 0: undetermined

• 1: ISO general, non-specific or unknown

• 3: my-d (Infineon), MDS D3xx

• 4: MB89R118 (Fujitsu), MDS D4xx

• 5: I-Code SLI (NXP), MDS D1xx

• 6: Tag-it (Texas Instruments), MDS D2xx

• 7: LRI2K (ST)

1 r Transponder

Chip version

Chip version of the tag

2 r Transponder

Memory size

Memory size of the tag

1 r Transponder

Lock state

Lock state, OTP information:

One bit per block is used (4x4 bytes or 2x8 bytes).

Bit = 1: Block is disabled.

e.g. 03 = block 1 and block 2 are disabled.

1 r Transponder

Memory block

size

Block size of the transponder

0x5B Tag status 0x00

1 r Transponder

Number of

blocks

Number of blocks of the transponder

0x00 40 r - Entire index selected

0x01 8 r - List of the UIDs of the transponders that were last

located in the field:

Last UID

0x02 8 r - Second UID

0x03 8 r - Third UID

0x04 8 r - Fourth UID

0x5C UID history

0x05 8 r - Fifth UID

System commands

You can execute system commands using the "IOL_CALL" function block or the PCT tool.

● Device reset:

The reader restarts. Corresponds to cycling power.

● Restore Factory Setting:

The reader restarts. The Reader parameter (Index 0x40) and the Application specific tag

(Index 0x18) are also reset to the defaults.

Appendix

A.3 Certificates and Approvals

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 101

A.3 Certificates and Approvals

CE marking

Certificate Description

Conforms to R&TTE directive

The following applies to the system described in this documentation:

If a device has the CE marking, the corresponding approval has been obtained.

DIN ISO 9001 certificate

The quality assurance system for the entire product process (development, production, and

marketing) at Siemens fulfills the requirements of ISO 9001 (corresponds to EN29001:

1987).

This has been certified by DQS (the German society for the certification of quality

management systems).

EQ-Net certificate no.: 1323-01

Country-specific certificates

Safety

One of the following markings on a device is indicative of the corresponding approval:

Underwriters Laboratories (UL) in accordance with UL 508 and C22.2 No. 142

(IND.CONT.EQ)

Appendix

A.3 Certificates and Approvals

SIMATIC RF200 IO-Link

102 System Manual, 03/2012, C79000-G8976-C276-01

EMC

If a device has one of the following marks, the corresponding approval has been obtained:

Brazil

ANATEL

Certificado de Homologação

REPÚBLICA FEDERATIVA DO BRASIL

AGÊNCIA NACIONAL DE TELECOMUNICAÇÕES

CMIIT ID: 20xxDJxxxx China

CMMIT

Radio Transmission Equipment

Type Approval Certificate

In accordance with the provisions on the Radio Regulations of

the People’s Republic of China, the following radio

transmission equipment, after examination, conforms to the

provisions with its CMIIT ID.

Mexico

Estados Unidos Mexicanos

Comision Federal de Telecomunicaciones

South Africa

Independent Communications Authority of South Africa,

Sandton

Radio Equipment Type Approval Certificate

South Korea

Korea Communications Commission

Certificate of Broadcasting and Communication Equipments

The Republic of Korea

You will find the EMC directives for the USA and Canada in the section "FCC information

(Page 85)".

SIMATIC RF200 IO-Link

System Manual, 03/2012, C79000-G8976-C276-01 103

Index

Application Planning

SIMATIC RF200, 15

Approvals, 103

Area of application, 7

Cable

IO-Link master - reader, 89

Certificates, 103

Communication time

Calculating, 21

Contact partner, 93

Conventions, 5

Courses, 94

Data consistency, 41

Data transfer

Acyclic service data, 8

Consistency, 41

Cyclic process data, 8

Data transmission rate, 85

Detection area, 19

Direction of motion

Transponder, 19

Display elements, 78

Dynamic mode, 20

EMC directives, 104

Error codes

Event error codes, 96

IO-Link error codes, 95

ISDU return error codes, 95

RFID error codes, 83

Field data

RF210R, 25

RF220R, 25

RF260R, 26

Flush-mounting

of transponders and readers, 30

Installation

Several readers, 31

Installation guidelines, 29

IO_CALL, 72

IO-Link mode, 7, 41, 69, 70

Scan UID, 69

Scan user data, 70

Metal

Influence on the transmission window, 32

Metal-free area

RF210R reader, 33

RF220R reader, 35

RF260R reader, 37

Minimum distance

Reader to reader, 27, 79

Transponder to transponder, 27

Operating mode

IO-Link mode, 7, 41

SIO mode, 7, 41

Pin assignment, 78

Port Configuration Tool (PCT), 48

Possible combinations

Reader - transponder, 12

Process image

of the inputs (PII), 69, 70

of the outputs (PIQ), 69, 70

Index

SIMATIC RF200 IO-Link

104 System Manual, 03/2012, C79000-G8976-C276-01

Read/write distance, 15

Reader diagnostics, 66

Readers

Characteristics, 77

Mounting, 31

Pin assignment, 78

Reducing interference due to metal, 29

Registered trademarks, 5

RF210R reader, 77

Metal-free area, 33

RF220R reader, 77

Metal-free area, 35

RF260R reader, 77

Metal-free area, 37

Selection criteria

SIMATIC RF200 components, 15

Service data, 98

SIO mode, 7, 41, 69

Static mode, 20

Technical documentation

On the Internet, 94

Technical specifications, 85

RF210R, 86

RF220R, 86

RF260R, 86

Technical Support, 93

Terminal assignment, 89

Terminal module, 90

Time constant, 21

Tracking

Tolerance, 18

Tracking tolerances, 18

Training, 94

Transmission window, 15

Impact of metal, 32

Width, 18

Transponder

Detection area, 19

Directions of motion, 19

Mounting on metal, 32

User data

Calculate maximum number, 21

Calculating, 21