Siemens RF280R RFID Reader 13.56 MHz User Manual SIMATIC RF200

Siemens AG RFID Reader 13.56 MHz SIMATIC RF200

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SYH_RF200_76_Part 1

SIMATIC Ident

RFID systems

SIMATIC RF200

System Manual

07/2017

J31069

-D0227-U001-A9-7619

Introduction

Safety notes

System overview

Planning the RF200 system

Readers

Antennas

Transponder

System integration

System diagnostics

Appendix

Siemens AG

Division Process Industries a

nd Drives

Postfach 48 48

90026 NÜRNBERG

GERMANY

Ⓟ

07/2017 Subject to change

Legal information

Warning notice system

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

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

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

graded according to the degree of danger.

DANGER

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

WARNING

indicates that death or severe personal injury

may

result if proper precautions are not taken.

CAUTION

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

NOTICE

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

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

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

property damage.

Qualified Personnel

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

personnel qualified

for the specific

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

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

avoiding potential hazards when working with these products/systems.

Proper use of Siemens products

Note the following:

WARNING

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

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

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

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

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

Trademarks

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

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

Disclaimer of Liability

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

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

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

editions.

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 3

Table of contents

1 Introduction ........................................................................................................................................... 13

1.1 Abbreviations and naming conventions .................................................................................. 14

2 Safety notes .......................................................................................................................................... 15

3 System overview ................................................................................................................................... 19

3.1 RFID components and their function ...................................................................................... 20

3.2 Overview of transponders ....................................................................................................... 23

4 Planning the RF200 system .................................................................................................................. 27

4.1 Fundamentals of application planning .................................................................................... 27

4.1.1 Selection criteria for SIMATIC RF200 components ................................................................ 27

4.1.2 Transmission window and read/write distance ....................................................................... 27

4.1.3 Width of the transmission window .......................................................................................... 30

4.1.4 Impact of secondary fields ...................................................................................................... 31

4.1.5 Permissible directions of motion of the transponder ............................................................... 34

4.1.6 Operation in static and dynamic mode ................................................................................... 35

4.1.7 Dwell time of the transponder ................................................................................................. 36

4.1.8 Communication between communication module, reader and transponder .......................... 37

4.2 Field data of transponders and readers .................................................................................. 38

4.2.1 Field data ................................................................................................................................ 39

4.2.2 Minimum clearances ............................................................................................................... 48

4.3 Installation guidelines.............................................................................................................. 50

4.3.1 Overview ................................................................................................................................. 50

4.3.2 Reduction of interference due to metal ................................................................................... 51

4.3.3 Effects of metal on different transponders and readers .......................................................... 53

4.3.4 Impact of metal on the transmission window .......................................................................... 54

4.3.4.1 RF210R ................................................................................................................................... 55

4.3.4.2 RF220R ................................................................................................................................... 58

4.3.4.3 RF240R ................................................................................................................................... 60

4.3.4.4 RF250R ................................................................................................................................... 63

4.3.4.5 RF260R ................................................................................................................................... 71

4.3.4.6 RF280R ................................................................................................................................... 74

4.3.4.7 RF290R ................................................................................................................................... 76

4.3.5 Installation and connection of 2 to 6 antennas with one RF290R reader ............................... 80

4.3.5.1 Installation options with the antenna splitter (2-4 antennas) .................................................. 80

4.3.5.2 Antenna installation ................................................................................................................. 84

4.3.5.3 Installation options with the antenna multiplexer (2-6 antennas) ........................................... 88

4.3.6 Chemical resistance of the reader and transponders ............................................................. 89

4.3.6.1 Readers .................................................................................................................................. 89

4.3.6.2 Transponder ............................................................................................................................ 93

4.4 Further information ................................................................................................................ 101

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5 Readers ............................................................................................................................................... 103

5.1 SIMATIC RF210R ................................................................................................................ 104

5.1.1 Features ............................................................................................................................... 104

5.1.2 RF210R ordering data ......................................................................................................... 104

5.1.3 Pin assignment RF210R with RS422 interface .................................................................... 105

5.1.4 LED operating display .......................................................................................................... 105

5.1.5 Minimum distance between RF210R readers ...................................................................... 106

5.1.6 Technical specifications of the RF210R reader ................................................................... 107

5.1.7 Approvals ............................................................................................................................. 108

5.1.8 Dimension drawing .............................................................................................................. 109

5.2 SIMATIC RF210M ................................................................................................................ 110

5.2.1 Features ............................................................................................................................... 110

5.2.2 Ordering data RF210M ........................................................................................................ 110

5.2.3 Installing the RF210M reader ............................................................................................... 111

5.2.4 Pin assignment RF210M with RS-422 interface .................................................................. 112

5.2.5 LED operating display .......................................................................................................... 112

5.2.6 Technical specifications of the RF210M reader ................................................................... 113

5.2.7 Approvals ............................................................................................................................. 114

5.2.8 Dimension drawing .............................................................................................................. 115

5.3 SIMATIC RF220R ................................................................................................................ 116

5.3.1 Features ............................................................................................................................... 116

5.3.2 RF220R ordering data ......................................................................................................... 116

5.3.3 RF220R pin assignment with RS422 interface .................................................................... 117

5.3.4 LED operating display .......................................................................................................... 117

5.3.5 Minimum distance between RF220R readers ...................................................................... 118

5.3.6 Technical specifications of the RF220R reader ................................................................... 119

5.3.7 Approvals ............................................................................................................................. 120

5.3.8 Dimension drawing .............................................................................................................. 121

5.4 SIMATIC RF240R ................................................................................................................ 122

5.4.1 Features ............................................................................................................................... 122

5.4.2 RF240R ordering data ......................................................................................................... 122

5.4.3 Pin assignment RF240R ...................................................................................................... 123

5.4.4 LED operating display .......................................................................................................... 123

5.4.5 Minimum distance between several RF240R readers ......................................................... 124

5.4.6 Technical specifications of the RF240R reader ................................................................... 125

5.4.7 Approvals ............................................................................................................................. 127

5.4.8 Dimension drawing .............................................................................................................. 128

5.5 SIMATIC RF250R ................................................................................................................ 128

5.5.1 Features ............................................................................................................................... 128

5.5.2 Ordering data RF250R ......................................................................................................... 129

5.5.3 Pin assignment RF250R ...................................................................................................... 129

5.5.4 LED operating display .......................................................................................................... 129

5.5.5 Technical specifications of the RF250R reader ................................................................... 130

5.5.6 Approvals ............................................................................................................................. 131

5.5.7 Dimension drawing .............................................................................................................. 133

5.6 SIMATIC RF260R ................................................................................................................ 134

5.6.1 Features ............................................................................................................................... 134

5.6.2 Ordering data for RF260R ................................................................................................... 134

5.6.3 Pin assignment RF260R ...................................................................................................... 135

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5.6.4 LED operating display ........................................................................................................... 135

5.6.5 Minimum distance between several RF260R ....................................................................... 136

5.6.6 Technical data of the RF260R reader................................................................................... 137

5.6.7 Approvals .............................................................................................................................. 138

5.6.8 Dimension drawing ............................................................................................................... 139

5.7 SIMATIC RF280R ................................................................................................................. 140

5.7.1 Features ................................................................................................................................ 140

5.7.2 Ordering data RF280R.......................................................................................................... 140

5.7.3 Pin assignment RF280R ....................................................................................................... 141

5.7.4 LED operating display ........................................................................................................... 141

5.7.5 Minimum distance between RF280R readers ...................................................................... 142

5.7.6 Technical specifications of the RF280R reader .................................................................... 143

5.7.7 Approvals .............................................................................................................................. 144

5.7.8 Dimension drawing ............................................................................................................... 146

5.8 SIMATIC RF290R ................................................................................................................. 147

5.8.1 Features ................................................................................................................................ 147

5.8.2 Ordering data RF290R.......................................................................................................... 147

5.8.3 Pin assignment RF290R ....................................................................................................... 149

5.8.4 LED operating display ........................................................................................................... 151

5.8.5 Installing the RF290R reader ................................................................................................ 152

5.8.5.1 Wall mounting ....................................................................................................................... 152

5.8.5.2 Installing on the S7-300 standard rail ................................................................................... 153

5.8.5.3 Installation on a DIN rail ........................................................................................................ 153

5.8.6 Technical specifications of the RF290R reader .................................................................... 155

5.8.7 Approvals .............................................................................................................................. 156

5.8.8 Note on the use of the RF290R as a replacement for SLG D10 / SLG D10S ...................... 158

5.8.9 Dimension drawing ............................................................................................................... 159

6 Antennas ............................................................................................................................................ 161

6.1 ANT 1 .................................................................................................................................... 161

6.1.1 Characteristics ...................................................................................................................... 161

6.1.2 Ordering data ........................................................................................................................ 161

6.1.3 Flush-mounted in metal ........................................................................................................ 162

6.1.4 Operating / limit distances .................................................................................................... 162

6.1.5 Minimum clearances ............................................................................................................. 163

6.1.6 Technical specifications ........................................................................................................ 164

6.1.7 Dimension drawing ............................................................................................................... 165

6.2 ANT 3 .................................................................................................................................... 166

6.2.1 Features ................................................................................................................................ 166

6.2.2 Ordering data ........................................................................................................................ 166

6.2.3 Mounting on/in metal............................................................................................................. 167

6.2.4 Operating / limit distances .................................................................................................... 168

6.2.5 Minimum spacing .................................................................................................................. 169

6.2.6 Technical data ....................................................................................................................... 170

6.2.7 Dimension drawing ............................................................................................................... 171

6.3 ANT 8 .................................................................................................................................... 172

6.3.1 Features ................................................................................................................................ 172

6.3.2 Ordering data ........................................................................................................................ 172

6.3.3 Transmission window............................................................................................................ 173

6.3.4 Flush-mounted in metal ........................................................................................................ 173

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6.3.5 Minimum spacing ................................................................................................................. 174

6.3.6 Technical data ...................................................................................................................... 175

6.3.7 Dimension drawing .............................................................................................................. 176

6.4 ANT 12 ................................................................................................................................. 177

6.4.1 Features ............................................................................................................................... 177

6.4.2 Ordering data ....................................................................................................................... 177

6.4.3 Transmission window ........................................................................................................... 178

6.4.4 Flush-mounted in metal ....................................................................................................... 178

6.4.5 Minimum spacing ................................................................................................................. 179

6.4.6 Technical data ...................................................................................................................... 180

6.4.7 Dimension drawing .............................................................................................................. 181

6.5 ANT 18 ................................................................................................................................. 182

6.5.1 Features ............................................................................................................................... 182

6.5.2 Ordering data ....................................................................................................................... 182

6.5.3 Transmission window ........................................................................................................... 183

6.5.4 Flush-mounted in metal ....................................................................................................... 183

6.5.5 Minimum spacing ................................................................................................................. 184

6.5.6 Technical data ...................................................................................................................... 185

6.5.7 Dimension drawing .............................................................................................................. 186

6.6 ANT 30 ................................................................................................................................. 187

6.6.1 Features ............................................................................................................................... 187

6.6.2 Ordering data ....................................................................................................................... 187

6.6.3 Transmission window ........................................................................................................... 188

6.6.4 Flush-mounted in metal ....................................................................................................... 189

6.6.5 Minimum spacing ................................................................................................................. 189

6.6.6 Technical data ...................................................................................................................... 190

6.6.7 Dimension drawing .............................................................................................................. 191

6.7 ANT D5 ................................................................................................................................ 192

6.7.1 Features ............................................................................................................................... 192

6.7.2 Ordering data ....................................................................................................................... 192

6.7.3 Transmission window ........................................................................................................... 193

6.7.4 Flush-mounted in metal ....................................................................................................... 194

6.7.5 Minimum spacing ................................................................................................................. 194

6.7.6 Technical data ...................................................................................................................... 195

6.7.7 Dimension drawing .............................................................................................................. 197

6.8 ANT D6 ................................................................................................................................ 198

6.8.1 Features ............................................................................................................................... 198

6.8.2 Ordering data ....................................................................................................................... 198

6.8.3 Transmission window ........................................................................................................... 199

6.8.4 Metal-free area ..................................................................................................................... 200

6.8.5 Minimum spacing ................................................................................................................. 200

6.8.6 Technical data ...................................................................................................................... 201

6.8.7 Dimensional diagram ........................................................................................................... 202

6.9 ANT D10 .............................................................................................................................. 203

6.9.1 Features ............................................................................................................................... 203

6.9.2 Ordering data ....................................................................................................................... 203

6.9.3 Transmission window ........................................................................................................... 204

6.9.4 Metal-free area ..................................................................................................................... 205

6.9.5 Minimum spacing ................................................................................................................. 206

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6.9.6 Technical data ....................................................................................................................... 206

6.9.7 Dimensional diagram ............................................................................................................ 208

7 Transponder ....................................................................................................................................... 209

7.1 Memory configuration of ISO the transponders .................................................................... 209

7.2 MDS D100 ............................................................................................................................ 210

7.2.1 Characteristics ...................................................................................................................... 210

7.2.2 Ordering data ........................................................................................................................ 210

7.2.3 Metal-free area ...................................................................................................................... 211

7.2.4 Technical data ....................................................................................................................... 212

7.2.5 Dimension drawing ............................................................................................................... 214

7.3 MDS D117 ............................................................................................................................ 215

7.3.1 Features ................................................................................................................................ 215

7.3.2 Ordering data ........................................................................................................................ 215

7.3.3 Mounting in metal .................................................................................................................. 215

7.3.4 Technical specifications ........................................................................................................ 216

7.3.5 Dimension drawing ............................................................................................................... 217

7.4 MDS D124 ............................................................................................................................ 218

7.4.1 Characteristics ...................................................................................................................... 218

7.4.2 Ordering data ........................................................................................................................ 218

7.4.3 Mounting on metal ................................................................................................................ 219

7.4.4 Technical specifications ........................................................................................................ 220

7.4.5 Use of the MDS D124 in hazardous area ............................................................................. 221

7.4.6 Dimension drawing ............................................................................................................... 223

7.5 MDS D126 ............................................................................................................................ 224

7.5.1 Characteristics ...................................................................................................................... 224

7.5.2 Ordering data ........................................................................................................................ 224

7.5.3 Mounting on metal ................................................................................................................ 225

7.5.4 Technical specifications ........................................................................................................ 226

7.5.5 Dimension drawing ............................................................................................................... 227

7.6 MDS D127 ............................................................................................................................ 228

7.6.1 Features ................................................................................................................................ 228

7.6.2 Ordering data ........................................................................................................................ 228

7.6.3 Mounting in metal .................................................................................................................. 229

7.6.4 Technical specifications ........................................................................................................ 230

7.6.5 Dimension drawing ............................................................................................................... 231

7.7 MDS D139 ............................................................................................................................ 232

7.7.1 Characteristics ...................................................................................................................... 232

7.7.2 Ordering data ........................................................................................................................

232

7.7.3 Metal-free area ...................................................................................................................... 233

7.7.4 Mounting in metal .................................................................................................................. 234

7.7.5 Cleaning the transponder ..................................................................................................... 234

7.7.6 Technical specifications ........................................................................................................ 235

7.7.7 Use of the MDS D139 in hazardous areas ........................................................................... 236

7.7.8 Dimension drawings .............................................................................................................. 238

7.8 MDS D160 ............................................................................................................................ 239

7.8.1 Characteristics ...................................................................................................................... 239

7.8.2 Ordering data ........................................................................................................................ 239

7.8.3 Mounting on metal ................................................................................................................ 240

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7.8.4 Technical specifications ....................................................................................................... 240

7.8.5 Dimension drawings ............................................................................................................. 242

7.9 MDS D165 ............................................................................................................................ 243

7.9.1 Features ............................................................................................................................... 243

7.9.2 Ordering data ....................................................................................................................... 243

7.9.3 Technical data ...................................................................................................................... 244

7.9.4 Dimension drawing .............................................................................................................. 245

7.10 MDS D200 ............................................................................................................................ 246

7.10.1 Features ............................................................................................................................... 246

7.10.2 Ordering data ....................................................................................................................... 246

7.10.3 Mounting on metal ............................................................................................................... 247

7.10.4 Technical data ...................................................................................................................... 248

7.10.5 Dimension drawing .............................................................................................................. 250

7.11 MDS D261 ............................................................................................................................ 250

7.11.1 Features ............................................................................................................................... 250

7.11.2 Ordering data ....................................................................................................................... 250

7.11.3 Technical data ...................................................................................................................... 251

7.11.4 Dimension drawing .............................................................................................................. 252

7.12 MDS D324 ............................................................................................................................ 253

7.12.1 Characteristics ..................................................................................................................... 253

7.12.2 Ordering data ....................................................................................................................... 253

7.12.3 Mounting on metal ............................................................................................................... 254

7.12.4 Technical specifications ....................................................................................................... 255

7.12.5 Dimension drawing .............................................................................................................. 256

7.13 MDS D339 ............................................................................................................................ 257

7.13.1 Characteristics ..................................................................................................................... 257

7.13.2 Ordering data ....................................................................................................................... 257

7.13.3 Mounting on metal ............................................................................................................... 258

7.13.4 Mounting in metal ................................................................................................................. 259

7.13.5 Cleaning the transponder ..................................................................................................... 259

7.13.6 Technical specifications ....................................................................................................... 260

7.13.7 Use of the MDS D339 in hazardous areas .......................................................................... 261

7.13.8 Dimensional drawing ............................................................................................................ 263

7.14 MDS D400 ............................................................................................................................ 264

7.14.1 Features ............................................................................................................................... 264

7.14.2 Ordering data ....................................................................................................................... 264

7.14.3 Mounting on metal ............................................................................................................... 265

7.14.4 Technical specifications ....................................................................................................... 266

7.14.5 Dimension drawing .............................................................................................................. 268

7.15 MDS D421 ............................................................................................................................ 269

7.15.1 Characteristics ..................................................................................................................... 269

7.15.2 Ordering data ....................................................................................................................... 269

7.15.3 Mounting on metal ............................................................................................................... 270

7.15.4 Technical specifications ....................................................................................................... 272

7.15.5 Dimension drawing .............................................................................................................. 273

7.16 MDS D422 ............................................................................................................................ 274

7.16.1 Characteristics ..................................................................................................................... 274

7.16.2 Ordering data ....................................................................................................................... 274

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7.16.3 Mounting in metal .................................................................................................................. 274

7.16.4 Technical specifications ........................................................................................................ 275

7.16.5 Dimension drawing ............................................................................................................... 276

7.17 MDS D423 ............................................................................................................................ 277

7.17.1 Characteristics ...................................................................................................................... 277

7.17.2 Ordering data ........................................................................................................................ 277

7.17.3 Mounting on metal ................................................................................................................ 277

7.17.4 Technical specifications ........................................................................................................ 279

7.17.5 Dimensional drawing............................................................................................................. 281

7.18 MDS D424 ............................................................................................................................ 281

7.18.1 Characteristics ...................................................................................................................... 281

7.18.2 Ordering data ........................................................................................................................ 282

7.18.3 Mounting on metal ................................................................................................................ 282

7.18.4 Technical specifications ........................................................................................................ 283

7.18.5 Dimension drawing ............................................................................................................... 285

7.19 MDS D425 ............................................................................................................................ 285

7.19.1 Characteristics ......................................................................................................................

285

7.19.2 Ordering data ........................................................................................................................ 286

7.19.3 Application example .............................................................................................................. 286

7.19.4 Technical specifications ........................................................................................................ 286

7.19.5 Dimension drawing ............................................................................................................... 288

7.20 MDS D426 ............................................................................................................................ 288

7.20.1 Characteristics ...................................................................................................................... 288

7.20.2 Mounting on metal ................................................................................................................ 289

7.20.3 Ordering data ........................................................................................................................ 290

7.20.4 Technical specifications ........................................................................................................ 290

7.20.5 Dimension drawing ............................................................................................................... 291

7.21 MDS D428 ............................................................................................................................ 292

7.21.1 Characteristics ...................................................................................................................... 292

7.21.2 Ordering data ........................................................................................................................ 292

7.21.3 Application example .............................................................................................................. 293

7.21.4 Technical specifications ........................................................................................................ 293

7.21.5 Dimension drawing ............................................................................................................... 295

7.22 MDS D460 ............................................................................................................................ 295

7.22.1 Characteristics ...................................................................................................................... 295

7.22.2 Ordering data ........................................................................................................................ 296

7.22.3 Mounting on metal ................................................................................................................ 296

7.22.4 Technical specifications ........................................................................................................ 297

7.22.5 Dimension drawings .............................................................................................................. 298

7.23 MDS D521 ............................................................................................................................ 299

7.23.1 Characteristics ...................................................................................................................... 299

7.23.2 Ordering data ........................................................................................................................ 299

7.23.3 Mounting on metal ................................................................................................................ 299

7.23.4 Technical specifications ........................................................................................................ 301

7.23.5 Dimension drawing ............................................................................................................... 303

7.24 MDS D522 ............................................................................................................................ 303

7.24.1 Characteristics ...................................................................................................................... 303

7.24.2 Ordering data ........................................................................................................................ 304

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7.24.3 Mounting in metal ................................................................................................................. 304

7.24.4 Technical specifications ....................................................................................................... 305

7.24.5 Dimension drawing .............................................................................................................. 306

7.25 MDS D522 special variant ................................................................................................... 307

7.25.1 Characteristics ..................................................................................................................... 307

7.25.2 Ordering data ....................................................................................................................... 307

7.25.3 Mounting in metal ................................................................................................................. 308

7.25.4 Installation instructions ......................................................................................................... 308

7.25.5 Technical specifications ....................................................................................................... 310

7.25.6 Dimensional drawing ............................................................................................................ 311

7.26 MDS D524 ............................................................................................................................ 312

7.26.1 Characteristics ..................................................................................................................... 312

7.26.2 Ordering data ....................................................................................................................... 312

7.26.3 Mounting on metal ............................................................................................................... 313

7.26.4 Technical specifications ....................................................................................................... 314

7.26.5 Dimension drawing .............................................................................................................. 315

7.27 MDS D526 ............................................................................................................................ 316

7.27.1 Characteristics ..................................................................................................................... 316

7.27.2 Ordering data ....................................................................................................................... 316

7.27.3 Mounting on metal ............................................................................................................... 317

7.27.4 Technical specifications ....................................................................................................... 318

7.27.5 Dimension drawing .............................................................................................................. 319

7.28 MDS D528 ............................................................................................................................ 320

7.28.1 Characteristics ..................................................................................................................... 320

7.28.2 Ordering data ....................................................................................................................... 320

7.28.3 Application example ............................................................................................................. 321

7.28.4 Technical specifications ....................................................................................................... 321

7.28.5 Dimension drawing .............................................................................................................. 323

8 System integration ............................................................................................................................... 325

9 System diagnostics .............................................................................................................................. 329

9.1 Error codes of the RF200 readers ....................................................................................... 329

9.2 Diagnostics functions - STEP 7 ........................................................................................... 331

9.2.1 Reader diagnostics with "Reader Status" (SLG Status) ...................................................... 331

9.2.2 Transponder diagnostics with "Tag Status" (MDS Status) .................................................. 333

A Appendix ............................................................................................................................................. 335

A.1 Certificates & approvals ....................................................................................................... 335

A.2 Accessories .......................................................................................................................... 337

A.2.1 Antenna splitter .................................................................................................................... 337

A.2.2 Antenna multiplexer SIMATIC RF260X ............................................................................... 339

A.2.2.1 Characteristics ..................................................................................................................... 339

A.2.2.2 Ordering data ....................................................................................................................... 339

A.2.2.3 Description ........................................................................................................................... 340

A.2.2.4 Principle of operation ........................................................................................................... 340

A.2.2.5 Connectors ........................................................................................................................... 341

A.2.2.6 Configuration ........................................................................................................................ 342

A.2.2.7 Parameterization .................................................................................................................. 342

A.2.2.8 RF260X commands ............................................................................................................. 344

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A.2.2.9 Technical specifications ........................................................................................................ 345

A.2.2.10 Dimensional drawing............................................................................................................. 346

A.2.3 Wide-range power supply unit for SIMATIC RF systems ..................................................... 347

A.2.3.1 Features ................................................................................................................................ 347

A.2.3.2 Scope of supply .................................................................................................................... 348

A.2.3.3 Ordering data ........................................................................................................................ 348

A.2.3.4 Safety Information ................................................................................................................. 348

A.2.3.5 Connecting ............................................................................................................................ 349

A.2.3.6 Technical specifications ........................................................................................................ 350

A.2.3.7 Pin assignment of DC outputs and mains connection .......................................................... 352

A.2.3.8 Dimension drawing ............................................................................................................... 353

A.2.3.9 Certificates and approvals .................................................................................................... 354

A.2.4 Transponder holders ............................................................................................................. 355

A.3 Connecting cable .................................................................................................................. 361

A.3.1 Reader RF2xxR (RS-422) with ASM 456 / RF160C / RF170C / RF180C / RF182C ........... 361

A.3.2 Reader RF2xxR (RS-422) with ASM 475 ............................................................................. 363

A.3.3 Reader RF2xxR (RS-422) with RF120C...............................................................................

364

A.3.4 Reader RF240R/RF260R/RF290R (RS232) with PC ........................................................... 364

A.3.5 Reader RF290R .................................................................................................................... 366

A.4 Ordering data ........................................................................................................................ 367

A.5 Service & Support ................................................................................................................. 377

Index................................................................................................................................................... 379

Table of contents

SIMATIC RF200

12 System Manual, 07/2017, J31069-D0227-U001-A9-7619

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 13

Introduction

SIMATIC RF200 is a compact RFID system in the SIMATIC RFID product family. The

product range comprises cost-efficient RF readers that are ideal for use in small assembly

lines or in intralogistics. SIMATIC RF200 RFID readers only support the RFID standard ISO

15693 and are therefore ideal for operation with the extensive range of ISO 15693

transponders.

The readers of the RF200 product family are available with the following interfaces:

● RS-422 for connecting to the communications modules

● RS-232 with a simple ASCII protocol for connection to PCs and third-party controllers

● IO-Link for connection to IO Link masters from Siemens and third-party controllers

Readers with an internal antenna have a particularly compact design

(RF210R/RF220R/RF240R/RF260R). RF250R and RF290R are designed for operation with

external antennas either to achieve longer distances or larger field sizes (RF290R with ANT

D5/D6/D10) or to allow installation where there is very little space (RF250R with ANT

3/8/12/18/30).

Scope of validity of this document

This documentation is valid for all variants of the SIMATIC RF200 system and describes the

devices shipped as of July 2015.

Registered trademarks

SIMATIC ®, SIMATIC RF ®, MOBY ®, RF MANAGER ® and SIMATIC Sensors ® are registered

trademarks of Siemens AG.

Further information

For additional information, refer to the manuals:

● Function manual "Ident profile and Ident blocks"

(https://support.industry.siemens.com/cs/us/en/view/106368029)

● Function manual "FB 45" (https://support.industry.siemens.com/cs/ww/en/view/21738808)

● Operating instructions "RF200 IO-Link"

(https://support.industry.siemens.com/cs/ww/en/view/60641859)

● System manual "MOBY D"

(https://support.industry.siemens.com/cs/ww/en/view/13628689)

Introduction

1.1 Abbreviations and naming conventions

SIMATIC RF200

14 System Manual, 07/2017, J31069-D0227-U001-A9-7619

● Operating instructions "RF310M"

(https://support.industry.siemens.com/cs/us/en/view/51812642)

● Product information "RF200 command set"

(https://support.industry.siemens.com/cs/us/en/view/44864850)

History

The following issues of the SIMATIC RF200 system manual have been published:

Output

Note

03/2011

First edition

05/2011 Expansion of the documentation with the addition of the device variant RF260R with

RS-232 interface

09/2011

Expansion of the documentation with the device variant RF240R

03/2013 Expansion of the documentation with the device variant RF290R

09/2013 Expansion of the documentation by the following:

• The device variant RF250R

• The device variants RF240R and RF260R with ASCII interface

• Antennas ANT 8, ANT 12, ANT 18 and ANT 30

• Transponder

07/2015 Expansion of the documentation by the following:

• ANT 3 antennas

• MDS D5xx transponder

• Mobile reader RF210R

05/2017 Expansion of the documentation by the following:

• Device version RF280R

• Mobile Reader RF350M

1.1

Abbreviations and naming conventions

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

Reader

Write/read device (SLG)

Transponder, tag

Data carrier, mobile data storage, (MDS)

Communications module (CM)

Interface module (ASM)

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 15

Safety notes

SIMATIC RFID products comply with the salient safety specifications acc. to IEC, VDE, EN,

UL and CSA. If you have questions about the permissibility of the installation in the planned

environment, please contact your service representative.

WARNING

Opening the device

Do not open the device when when the power supply is on. Unauthorized opening of and

improper repairs to the device may result in substantial damage to equipment or risk of

personal injury to the user.

NOTICE

Alterations not permitted

Alterations to the devices are not permitted.

Failure to observe this requirement shall constitute a revocation of the radio equipment

approval, CE approval and manufacturer's warranty.

Installation instructions

NOTICE

Switch/fuse to disconnect the reader from the power supply

Make sure that the readers can be disconnected from the power supply with a switch or a

fuse. The function of the switch or fuse must be clearly recognizable.

Operating temperature

CAUTION

Danger of burns

Note that some outer components of the reader are made of metal. Depending on the

environmental conditions temperatures can occur on the device that are higher than the

maximum permitted operating temperature.

Safety notes

SIMATIC RF200

16 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Repairs

WARNING

Repairs only by authorized qualified personnel

Repairs may only be carried out by authorized qualified personnel. Unauthorized openi

ng of

and improper repairs to the device may result in substantial damage to equipment or risk of

personal injury to the user.

System expansions

Only install system expansions intended for this system. If you install other expansions, you

may damage the system or violate the safety requirements and regulations for radio

frequency interference suppression. Contact Technical Support or your local sales

department to find out which system expansions are suitable for installation.

NOTICE

Warranty conditions

If you cause system defects by installing or exchanging system expansion devices, the

warranty becomes void.

Safety distances

CAUTION

Safety distance between reader/antenna and persons

Note that for permanent exposure, the following safety distances must be adhered to:

• RF310R: ≥ 80 mm

• RF340R: ≥ 130 mm

• RF350R + ANT 1: ≥ 140 mm

• RF350R + ANT 3: ≥ 80 mm

• RF350R + ANT 12: ≥ 25 mm

• RF350R + ANT 18: ≥ 50 mm

• RF350R + ANT 30: ≥ 80 mm

• RF380R: ≥ 250 mm

• RF382R: ≥ 130 mm

Note

Safety distance with pacemakers

A safety distance between reader/antenna and persons with pacemakers is not necessary.

Safety notes

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 17

Security information

Siemens provides products and solutions with industrial security functions that support the

secure operation of plants, systems, machines and networks.

In order to protect plants, systems, machines and networks against cyber threats, it is

necessary to implement – and continuously maintain – a holistic, state-of-the-art industrial

security concept. Siemens’ products and solutions only form one element of such a concept.

Customer is responsible to prevent unauthorized access to its plants, systems, machines

and networks. Systems, machines and components should only be connected to the

enterprise network or the internet if and to the extent necessary and with appropriate security

measures (e.g. use of firewalls and network segmentation) in place.

Additionally, Siemens’ guidance on appropriate security measures should be taken into

account. For more information about industrial security, please visit

Link: (http://www.siemens.com/industrialsecurity)

Siemens’ products and solutions undergo continuous development to make them more

secure. Siemens strongly recommends to apply product updates as soon as available and to

always use the latest product versions. Use of product versions that are no longer supported,

and failure to apply latest updates may increase customer’s exposure to cyber threats.

To stay informed about product updates, subscribe to the Siemens Industrial Security RSS

Feed under

Link: (http://www.siemens.com/industrialsecurity).

Safety notes

SIMATIC RF200

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SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 19

System overview

SIMATIC RF200 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 flows.

In contrast to SIMATIC RF300, SIMATIC RF200 is intended for RFID applications where

performance requirements are not very high, for example with regard to data volume,

transfer rate or diagnostics options. SIMATIC RF200 is characterized by particularly

favorable prices.

System overview

3.1 RFID components and their function

SIMATIC RF200

20 System Manual, 07/2017, J31069-D0227-U001-A9-7619

3.1

RFID components and their function

RF200 system components

Figure 3-1 RF200 system overview

System overview

3.1 RFID components and their function

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 21

Table 3- 1 Reader-transponder combination options, Part 1

Transponder

RF210R/

RF210M

RF220R

RF240R

RF260R

RF280R

RF290R 4)

RF350M

MDS D100

○

✓

MDS D117

○ -- -- -- -- -- ✓ 6)

MDS D124

✓

MDS D126

✓

MDS D127

✓

MDS D139

○

✓

MDS D160

✓

MDS D165

○

✓

MDS D200

○

✓

MDS D261

○

✓

MDS D324

✓

MDS D339

○

✓

MDS D400

✓

MDS D421

✓

○

✓

MDS D422

✓

MDS D423

✓

MDS D424

✓

MDS D425

✓

MDS D426

✓

MDS D428

✓

MDS D460

✓ ✓ ✓ ✓ ✓ ○ / ✓ 5) ✓

MDS D521

✓

○

✓

MDS D522

✓

MDS D524

✓

MDS D525

✓

MDS D526

✓

MDS D528

✓

only with the article number 6GT2600-0AA10

only with the article number 6GT2600-0AB10

The transponder MDS D522 special variant has the same compatibility as the transponder MDS D522.

in conjunction with ANT D5, D6 or D10

combination recommended only in conjunction with ANT D5.

6) Only in conjunction with RF350M for external antennas (6GT2803-1BA10)

✓

Combination possible

Combination not possible

○

Combination possible, but not recommended

System overview

3.1 RFID components and their function

SIMATIC RF200

22 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 3- 2 Reader-transponder combination options, Part 2

RF250R with

Tran-

sponder

ANT 1

ANT 3

ANT 8

ANT 12

ANT 18

ANT 30

MDS D100

✓

○

MDS D117

✓

MDS D124

✓ ✓ -- -- ✓ ✓

MDS D126

✓

MDS D127

✓

MDS D139

✓

○

MDS D160

✓

MDS D165

✓

○

MDS D200

✓

○

MDS D261

✓

○

MDS D324

✓

○

✓

MDS D339

✓

○

MDS D400

✓

○

MDS D421

✓

MDS D422

✓

MDS D423

✓

MDS D424

✓

MDS D425

✓

MDS D426

✓

MDS D428

✓

MDS D460

✓

MDS D521

-- -- ✓ ✓ ✓ --

MDS D522

)

✓

MDS D524

✓

MDS D525

✓

MDS D526

✓

MDS D528

✓

Combination possible

Combination not possible

○

Combination possible, but not recommended

System overview

3.2 Overview of transponders

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 23

3.2

Overview of transponders

Overview of typical areas of application of ISO transponders for RF200

Transponder

Area of application

MDS D100 From simple identification such as electronic barcode replacement or supplementation, through ware-

house and distribution logistics, right up to product identification. With this transponder, the maximum

ranges are achieved in combination with the SIMATIC RF260R reader.

MDS D117 Very compact data carrier that can be cemented into objects where precise positioning is necessary. e.g.

tool identification.

MDS D124

Application areas in factory automation (e.g. small paintshops to 180°C).

MDS D126 Compact and rugged ISO transponder; suitable for identification of transport units in production-related

logistics; can also be deployed in harsh conditions.

MDS D127 Very compact data carrier that can be screwed into areas where precise positioning is necessary. e.g. tool

identification.

MDS D139 1) Applications in production automation with high temperature demands (up to +220 °C).

Typical application areas:

• Paintshops and their preparatory treatments

• Primer coat, electrolytic dip area, cataphoresis with the associated drying furnaces

• Top coat area with drying furnaces

• Washing areas at temperatures > 85 °C

• Other applications with higher temperatures

MDS D160 2) Typical applications are, for example:

• Rented work clothing

• Hotel laundry

• Surgical textiles

• Hospital clothing

• Dirt collection mats

• Clothing for nursing homes/hostels

• Assembly lines with very small workpiece holders

MDS D165 Smart label (self-adhesive label)

From simple identification such as electronic barcode replacement/supplementation, through warehouse

and distribution logistics, right up to product identification

MDS D200 From simple identification such as electronic barcode replacement/supplementation, through warehouse

and distribution logistics, right up to product identification.

MDS D261 Smart label (self-adhesive label)

The design of the transponder (self-adhesive label) permits a variety of designs in order to ensure opti-

mum dimensioning for the widest variety of applications.

From simple identification such as electronic barcode replacement/supplementation, through warehouse

and distribution logistics, right up to product identification.

MDS D324 Production and distribution logistics as well as in assembly and production lines

MDS D339 Applications in production automation with high temperature demands (up to +220 °C).

For typical areas of application, see "MDS D139".

System overview

3.2 Overview of transponders

SIMATIC RF200

24 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Transponder

Area of application

MDS D400 Simple identification such as electronic barcode replacement/supplements, from warehouse and distribu-

tion logistics right through to product identification.

MDS D421 The MDS D421 is designed for tool coding according to DIN 69873.

It can be used wherever small data carriers and exact positioning are required, e.g. tool identification,

workpiece holders

MDS D422

Identification of metallic workpiece holders, workpieces or containers

MDS D423 Identification of metallic workpiece holders, workpieces or containers, production automation

MDS D424

Production and distribution logistics as well as in assembly and production lines

MDS D425 Compact and rugged ISO transponder; suitable for screw mounting.

Use in assembly and production lines in the powertrain sector; ideal for mounting on motors, gearboxes,

and workpiece holders

MDS D426 Compact and rugged ISO transponder; suitable for identification of transport units in production-related

logistics; can also be deployed in harsh conditions

MDS D428 Compact and rugged ISO transponder; suitable for screw mounting

Use in assembly and production lines in the powertrain sector

MDS D460

Assembly lines with very small workpiece holders

MDS D521 The MDS D521 is constructed for tool coding according to DIN 69873. It can be used wherever small data

carriers and exact positioning are required, e.g. tool identification, workpiece holders.

MDS D522

Identification of metallic workpiece holders, workpieces or containers

MDS D522

Special vari-

ants

If Identification of metallic workpiece holders or workpieces

MDS D524 Production and distribution logistics as well as in assembly and production lines

MDS D526 Compact and rugged ISO transponder; suitable for identification of transport units in production-related

logistics; can also be deployed in harsh environmental conditions

MDS D528 Compact and rugged ISO transponder; suitable for screw mounting

Use in assembly and production lines in the powertrain sector

Only with the MLFB 6GT2600-0AA10

2) Only with the MLFB 6GT2600-0AB10

Overview of the memory sizes of the ISO transponders for RF200

Transponder

Memory size

MDS D1xx

112 bytes of EEPROM

MDS D2xx

256 bytes of EEPROM

MDS D3xx

992 bytes of EEPROM

MDS D4xx

2000 bytes FRAM

MDS D5xx

8192 bytes FRAM

System overview

3.2 Overview of transponders

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 25

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 27

Planning the RF200 system

4.1

Fundamentals of application planning

4.1.1

Selection criteria for SIMATIC RF200 components

Assess your application according to the following criteria, in order to choose the right

SIMATIC RF200 components:

● Static or dynamic data transfer

● Data volume to be transferred

● Speed in case of dynamic transfer

● Ambient conditions such as relative humidity, temperature, chemical impacts, etc.

4.1.2

Transmission window and read/write distance

The reader generates an inductive alternating field. The field is strongest close to the reader;

however, a read/write distance of "zero" between reader and transponder is not

recommended.

The field strength of the alternating field decreases quickly in proportion to the distance from

the reader. The distribution of the field depends on the structure and geometry of the

antennas in the reader and transponder

A prerequisite for the function of the transponder is a minimum field strength at the

transponder, which is still barely achieved at distance Sg from the reader.

The picture below shows the transmission window of the SIMATIC RF210R and

SIMATIC RF220R readers between transponder and reader:

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

28 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Operating distance between transponder and reader

Sg Limit distance (maximum clear distance between upper surface of the reader and the tran-

sponder, at which the transmission can still function under normal conditions)

Diameter of a transmission window

Intersection of the axes of symmetry of the transponder

Figure 4-1 RF210R/RF220R transmission window

The figure below shows the transmission window of the SIMATIC RF240R and SIMATIC

RF260R readers between transponder and reader:

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 29

Operating distance between transponder and reader

Sg Limit distance (maximum clear distance between upper surface of the reader and the tran-

sponder, at which the transmission can still function under normal conditions)

Length of a transmission window

Field centerpoint

Figure 4-2 RF240R/RF260R transmission window

The transponder can be used as soon as the intersection (SP) of the transponder enters the

area of the transmission window.

From the diagrams above, it can also be seen that operation is possible within the area

between Sa and Sg. The active operating area reduces as the distance increases, and

shrinks to a single point at distance Sg. Only static mode should thus be used in the area

between Sa and Sg.

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

30 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.1.3

Width of the transmission window

Determining the width of the transmission window

The following approximation formula can be used for practical applications:

Width of the transmission window

Length of the transmission window

Tracking tolerances

The width of the transmission window (B) is particularly important for the mechanical tracking

tolerance. The formula for the dwell time is valid without restriction when B is observed.

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 31

4.1.4

Impact of secondary fields

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

exist.

They should, however, only be used during configuration in exceptional cases, 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 in dynamic mode, remember that during the transition from the secondary

field to the main field the presence of the tag is lost temporarily. It is therefore advisable to

select a distance > 30 % of Sg.

①

Main field

②

Secondary field

Figure 4-3 Gap in the field resulting from secondary fields

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

32 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Secondary fields without shielding

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

are taken.

①

Main field

②

Secondary field

Figure 4-4 Secondary field without shielding

In this arrangement, the reader can also read tags 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 the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 33

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 tags via the secondary field.

①

Main field

②

Secondary field

Figure 4-5 Secondary field with shielding

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

34 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.1.5

Permissible directions of motion of the transponder

Detection area and direction of motion of the transponder

The transponder and reader have no polarization axis, i.e. the transponder can come in from

any direction, assume any position as parallel as possible to the reader, and cross the

transmission window. The figure below shows the active area for various directions of

transponder motion:

Transmission window

Direction of motion of the transponder

Detection area L x W

Figure 4-6 Detection areas of the reader for different directions of transponder motion

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 35

4.1.6

Operation in static and dynamic mode

Operation in static mode

If working in static mode, the transponder can be operated up to the limit distance (Sg). The

transponder must then be positioned exactly over the reader:

Figure 4-7 Operation in static mode

Note

Note that in a metallic environment the values for the limit distance are reduced.

Operation in dynamic mode

When working in dynamic mode, the transponder moves past the reader. The transponder

can be used as soon as the intersection (SP) of the transponder enters the circle of the

transmission window. In dynamic mode, the operating distance (Sa) is of primary importance.

[Operating distances, see Chapter Field data of transponders and readers (Page 38)]

Figure 4-8 Operation in dynamic mode

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

36 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.1.7

Dwell time of the transponder

The dwell time is the time in which the transponder remains within the transmission window

of the reader. The reader can exchange data with the transponder during this time.

The dwell time is calculated as follows:

Dwell time of the transponder

Length of the transmission window

Tag

Speed of the transponder (tag) in dynamic mode

0.8:

Constant factor used to compensate for temperature influence and production tole

ances

The dwell time can be of any duration in static mode. The dwell time must be sufficiently long

to allow communication with the transponder.

The dwell time is defined by the system environment in dynamic mode. The volume of data

to be transferred must be matched to the dwell time or vice versa. As a general rule:

Dwell time of the data memory in the field of the reader

Communication time between transponder and communication module

or Calculation of the maximum amount of user data

Communication time between transponder and communication module

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

buildup on the MDS and for command transfer

tByte

Transmission time for 1 byte

Amount of user data in bytes

max

Maximum amount of user data in bytes in dynamic mode

Dwell time of the data memory in the field of the reader

Planning the RF200 system

4.1 Fundamentals of application planning

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 37

4.1.8

Communication between communication module, reader and transponder

Aids for calculating the data transmission times

User-friendly calculation tools are available for the communications modules ASM 456,

RF160C, RF170C and RF180C to calculate data transfer times. The calculation tools can be

found on the DVD "Ident Systems Software & Documentation", article number 6GT2080-

2AA20.

Figure 4-9 User interface of the calculation tool for command processing time

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

38 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Aids for calculating the field data

You will also find a tool for calculating field data on the DVD "Ident Systems, Software &

Documentation". Using this tool, among other things you can calculate the operating

distance (Sa), limit distance (Sg) and transmission window (L).

Figure 4-10 User interface of the calculation tool for field data acquisition

4.2

Field data of transponders and readers

The following tables show the field data for all SIMATIC RF200 components of transponders

and readers. This makes the correct selection of a transponder and reader particularly easy.

All the technical specifications listed are typical data and are applicable for an ambient

temperature between 0 °C and +50 °C, a supply voltage between 22 and 27 VDC and a

metal-free environment.

Tolerances of ±20 % are permitted due to production or temperature

conditions.

If the entire voltage range at the reader of 20 VDC to 30 VDC and/or the entire temperature

range of transponders and readers is used, the field data is subject to further tolerances.

Note

Transmission gaps

If the minimum operating distance (S

a) is not observed, a transmission gap can occur in the

center of the field. Communication with the transponder is not possible in the transmission

gap.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 39

Note

Possible reader-transponder combinations

The

tables of the following section show the possible reader-transponder combinations.

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.

Table 4- 1 SIMATIC RF210R field data

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D124

1 ... 18

MDS D127

0 ... 2

MDS D160

1 ... 10

MDS D324

1 ... 8

MDS D421

0 ... 3

MDS D422

1 ... 9

MDS D423

2 ... 10

MDS D424

1 ... 16

MDS D425

1 ... 6

MDS D428

1 ... 10

MDS D460

1 … 8

MDS D521

0 ... 3

MDS D522

1 ... 8

MDS D522

Special variants

8 1 ... 8 9

MDS D524

1 ... 15

MDS D525

1 ... 6

MDS D528

1 ... 10

The transponder is only suitable for static mode.

All dimensions in mm.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

40 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 2 SIMATIC RF220R field data

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D124

1 ... 28

MDS D126

45 2 ... 30 35

MDS D160

1 ... 20

MDS D324

2 ... 21

MDS D422

1 ... 12

MDS D423

2 ...24

MDS D424

2 ... 25

MDS D425

1 ... 11

MDS D426

2 ... 25

MDS D428

1 ... 18

MDS D460

1 ... 18

MDS D522

1 ... 10

MDS D522

Special variants

15 1 ... 10 12

MDS D524

2 ... 22

MDS D525

1 ... 11

MDS D526

2 ... 25

MDS D528

1 ... 15

All dimensions in mm.

Table 4- 3 SIMATIC RF240R field data

Length of the transmis-

sion window (L)

Operating distance (Sa)

Limit distance (Sg)

MDS D100

100

2 ... 84

MDS D124

2 ... 53

MDS D126

80 2 ... 57 65

MDS D160

1 ... 33

MDS D165

105 2 ... 80 94

MDS D200

2 ... 69

MDS D261

2 ... 60

MDS D324

1 ... 36

MDS D400

2 ... 80

MDS D422

1 ... 12

MDS D423

2 ... 35

MDS D424

1 ... 47

MDS D425

1 ... 15

MDS D426

2 ... 45

MDS D428

1 ... 30

MDS D460

1 ... 30

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 41

Length of the transmis-

sion window (L)

Operating distance (Sa)

Limit distance (Sg)

MDS D522

1 ... 10

MDS D522

Special variants

20 1 ... 10 12

MDS D524

1 ... 45

MDS D525

30 1 ... 15 17

MDS D526

2 ... 45

MDS D528

1 ... 30

All dimensions in mm.

Table 4- 4 Field data SIMATIC RF250R, with ANT 1

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D100

5 ... 95

115

MDS D124

2 ... 60

MDS D126

150

2 ... 80

MDS D139

5 ... 90

105

MDS D160

2 ... 35

MDS D165

140

5 ... 95

110

MDS D200

130

5 ... 90

100

MDS D261

100

2 ... 90

110

MDS D324

5 ... 60

MDS D339

110

2 ... 85

100

MDS D400

140

10 ... 95

110

MDS D423

2 ... 35

MDS D424

2 ... 70

MDS D425

40 2 ... 25 30

MDS D426

110

2 ... 80

MDS D428

40 2 ... 40 50

MDS D460

2 ... 30

MDS D524

2 ... 65

MDS D525

2 ... 25

MDS D526

110

2 ... 80

MDS D528

2 ... 40

All dimensions in mm.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

42 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 5 Field data SIMATIC RF250R, with ANT 3

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D124

1 ... 32

MDS D126

65 0 ... 47 60

MDS D160

1 ... 23

MDS D324

1 ... 22

MDS D422

0 ... 12

MDS D423

2 ... 18

MDS D424

0 ... 34

MDS D425

1 ... 12

MDS D426

0 ... 44

MDS D428

1 ... 20

MDS D460

1 ... 21

MDS D522

1 ... 12

MDS D522

Special variants

20 1 ... 12 15

MDS D524

1 ... 35

MDS D525

1 ... 12

MDS D526

2 ... 35

MDS D528

1 ... 20

All dimensions in mm.

Table 4- 6 Field data SIMATIC RF250R, with ANT 8

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D117

0 ... 2

MDS D127

0 ... 3

MDS D421

3 0 ... 3 4

MDS D521

0 ... 3

All dimensions in mm.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 43

Table 4- 7 Field data SIMATIC RF250R, with ANT 12

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D117

0 ... 3

MDS D127

4 0 ... 4 5

MDS D160

0 ... 12

MDS D421

0 ... 3

MDS D422

0 ... 7

MDS D425

0 ... 8

MDS D428

1 ... 8

MDS D460

1 ... 10

MDS D521

0 ... 3

MDS D522

1 ... 7

MDS D522

Special variants

10 1 ... 7 9

MDS D525

1 ... 8

MDS D528

1 ... 8

All dimensions in mm.

Table 4- 8 Field data SIMATIC RF250R, with ANT 18

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D124

0 ... 24

MDS D160

1 ... 18

MDS D324

1 ... 18

MDS D421

0 ... 3

MDS D422

1 ... 8

MDS D423

1 ... 15

MDS D424

26 1 ... 27 36

MDS D425

1 ... 11

MDS D428

19 1 ... 18 25

MDS D460

1 ... 17

MDS D521

0 ... 4

MDS D522

1 ... 10

MDS D522

Special variants

15 1 ... 10 12

MDS D524

1 ... 25

MDS D525

1 ... 11

MDS D528

1 ... 15

All dimensions in mm.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

44 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 9 Field data SIMATIC RF250R, with ANT 30

Length of the transmis-

sion window (Ld)

Operating distance (Sa)

Limit distance (Sg)

MDS D124

1 ... 35

MDS D126

65 0 ... 47 60

MDS D160

1 ... 23

MDS D324

1 ... 22

MDS D422

0 ... 12

MDS D423

2 ... 18

MDS D424

0 ... 34

MDS D425

1 ... 12

MDS D426

0 ... 44

MDS D428

1 ... 20

MDS D460

1 ... 21

MDS D522

1 ... 12

MDS D522

Special variants

20 1 ... 12 15

MDS D524

1 ... 35

MDS D525

1 ... 12

MDS D526

2 ... 35

MDS D528

1 ... 20

All dimensions in mm.

Table 4- 10 SIMATIC RF260R field data

Length of the transmis-

sion window (L)

Operating distance (Sa)

Limit distance (Sg)

MDS D100

120

2 ... 110

130

MDS D124

2 ... 80

MDS D126

110 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

2 ... 75

MDS D324

2 ... 60

MDS D339

110

5 ... 65

MDS D400

140

2 ... 110

140

MDS D423

2 ... 40

MDS D424

2 ... 60

MDS D426

2 ... 70

MDS D428

2 ... 40

MDS D460

2 ... 40

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 45

Length of the transmis-

sion window (L)

Operating distance (Sa)

Limit distance (Sg)

MDS D524

2 ... 60

MDS D526

80 2 ... 70 85

MDS D528

2 ... 35

All dimensions in mm.

Table 4- 11 Field data SIMATIC RF280R

Length of the transmission window

(L)

Operating distance

(Sa)

Limit distance (Sg)

in the x direc-

tion (Lx)

in the y direction

(Ly)

MDS D100

140

100

10 ... 160

200

MDS D124

2 ... 110

130

MDS D126

180

140

2 ... 135

160

MDS D139

140

5 ... 115

190

MDS D160

2 ... 55

MDS D165

200

140

10 ... 160

190

MDS D200

200

160

20 ... 140

185

MDS D261

190

120

20 ... 110

150

MDS D324

100

2 ... 85

110

MDS D339

290

140

5 ... 115

170

MDS D400

240

120

10 ... 170

200

MDS D423

110

5 ... 60

MDS D424

100

2 ... 100

140

MDS D425

2 ... 30

MDS D426

220

160

2 ... 145

175

MDS D428

2 ... 60

MDS D460

2 ... 55

MDS D524

100 70 2 ... 110 130

MDS D525

2 ... 30

MDS D526

220

160

2 ... 135

165

MDS D528

2 ... 60

All dimensions in mm.

Be aware that the minimum distance must be increased 10 mm starting at 40 °C ambient tempera-

ture.

Be aware that the minimum distance of the reader to the transponder must be increased approxi-

mately 6 mm every 5 °C starting at an ambient temperature of 25 °C and approximately 15 mm

starting at an ambient temperature of 50 °C.

Be aware that the minimum distance of the reader to the transponder must be increased approxi-

mately 3 mm every 5 °C starting at an ambient temperature of 25 °C and approximately 14 mm

starting at an ambient temperature of 50 °C.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

46 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 12 Field data SIMATIC RF290R, with ANT D5 (at 4 W)

Length of the transmis-

sion window (L)

Operating distance (Sa)

Limit distance (Sg)

MDS D100

320

0 ... 400

500

MDS D124

300 0 ... 200 280

MDS D126

320

0 ... 350

400

MDS D139

320

0 ... 400

500

MDS D160

300

0 ... 130

180

MDS D165

320

0 ... 350

450

MDS D200

320

0 ... 400

500

MDS D261

320

0 ... 300

400

MDS D324

300

0 ... 200

280

MDS D339

320

0 ... 300

380

MDS D400

320

0 ... 400

500

MDS D424

300

0 ... 200

280

MDS D426

320

0 ... 300

350

MDS D460

300

0 ... 120

160

MDS D524

300

0 ... 200

280

MDS D526

320

0 ... 300

350

All dimensions in mm.

Table 4- 13 Field data SIMATIC RF290R, with ANT D6 (at 4 W)

Length of the transmission

window (L)

Operating distance (Sa)

Limit distance (Sg)

X direction

Y direction

MDS D100

520

420

0 ... 550

650

MDS D124

500

400

0 ... 220

300

MDS D126

520

420

0 ... 400

500

MDS D139

520

420

0 ... 500

600

MDS D160

500 400 0 ... 130 180

MDS D165

520

420

0 ... 400

500

MDS D200

520 420 0 ... 500 600

MDS D261

520

420

0 ... 350

450

MDS D324

500

400

0 ... 200

280

MDS D339

520

420

0 ... 400

480

MDS D400

520

420

0 ... 500

650

MDS D424

500

400

0 ... 220

300

MDS D426

520

420

0 ... 350

400

MDS D524

500

400

0 ... 220

300

MDS D526

520

420

0 ... 350

400

All dimensions in mm.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 47

Table 4- 14 Field data SIMATIC RF290R, with ANT D10 (at 4 W)

Length of the transmission

window (L)

Operating distance (Sa)

Limit distance (Sg)

X direction

Y direction

MDS D100

1050

350

0 ... 500

600

MDS D124

1000

300

0 ... 200

280

MDS D126

1050 350 0 ... 400 500

MDS D139

1050

350

0 ... 450

550

MDS D160

1000 300 0 ... 130 180

MDS D165

1050

350

0 ... 350

450

MDS D200

1050

350

0 ... 450

550

MDS D261

1050

350

0 ... 350

450

MDS D324

1000

300

0 ... 200

280

MDS D339

1050

350

0 ... 300

380

MDS D400

1050

350

0 ... 400

500

MDS D424

1000

300

0 ... 200

280

MDS D426

1050

350

0 ... 350

400

MDS D524

1000

300

0 ... 220

300

MDS D526

1050

350

0 ... 350

400

All dimensions in mm.

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

48 System Manual, 07/2017, J31069-D0227-U001-A9-7619

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. The transponders

designed specifically for installation in/on metal are an exception to this.

Table 4- 15 Minimum clearances for transponders

RF210R

RF220R

RF240R

RF260R

RF280R

MDS D100

≥ 240

≥ 420

MDS D117

≥ 15 -- -- -- --

MDS D124

≥ 25

≥ 40

≥ 90

≥ 180

≥ 360

MDS D126

≥ 50

≥ 100

≥ 180

≥ 400

MDS D127

≥ 15

MDS D139

≥ 200

≥ 450

MDS D160

≥ 20

≥ 25

≥ 70

≥ 150

≥ 300

MDS D165

≥ 240

≥ 500

MDS D200

≥ 240

≥ 500

MDS D261

≥ 200

≥ 400

MDS D324

≥ 25

≥ 40

≥ 90

≥ 180

≥ 360

MDS D339

≥ 200

≥ 450

MDS D400

≥ 240

≥ 500

MDS D421

≥ 10

MDS D422

≥ 15

≥ 20

≥ 50

MDS D423

≥ 80

≥ 160

≥ 250

MDS D424

≥ 25

≥ 40

≥ 90

≥ 180

≥ 360

MDS D425

≥ 20

≥ 25

≥ 75

≥ 250

MDS D426

≥ 50

≥ 90

≥ 180

≥ 400

MDS D428

≥ 25

≥ 75

≥ 150

≥ 300

MDS D460

≥ 20 ≥ 25 ≥ 70 ≥ 150 ≥ 300

MDS D521

≥ 10

MDS D522

≥ 15

≥ 20

≥ 50

MDS D522

Special vari-

ants

≥ 15 ≥ 20 ≥ 50 -- --

MDS D524

≥ 25

≥ 40

≥ 90

≥ 180

≥ 360

MDS D526

≥ 50

≥ 90

≥ 180

≥ 400

MDS D528

≥ 25

≥ 75

≥ 150

≥ 300

All values are in mm, relative to the operating distance (S

a) between reader and transponder, and

between transponder edge and transponder edge

Planning the RF200 system

4.2 Field data of transponders and readers

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 49

Table 4- 16 Minimum clearances for transponders

RF250R 1)

RF290R 2)

ANT 3

ANT 8

ANT 12

ANT 18

ANT 30

ANT D5

ANT D6

ANT D10

MDS D100

≥ 1000

≥ 1500

≥ 2000

MDS D117

≥ 30

≥ 50

MDS D124

≥ 100 -- -- ≥ 80 ≥ 100 ≥ 800 ≥ 1200 ≥ 1800

MDS D126

≥ 100

≥ 1000

≥ 1500

≥ 2000

MDS D127

≥ 40

≥ 60

MDS D139

≥ 1000

≥ 1500

≥ 2000

MDS D160

≥ 100

≥ 60

≥ 80

≥ 100

≥ 800

≥ 1200

≥ 1800

MDS D165

≥ 1000

≥ 1500

≥ 2000

MDS D200

≥ 1000

≥ 1500

≥ 2000

MDS D261

≥ 1000

≥ 1500

≥ 2000

MDS D324

≥ 100

≥ 80

≥ 100

≥ 800

≥ 1200

≥ 1800

MDS D339

≥ 1000

≥ 1500

≥ 2000

MDS D400

≥ 1000

≥ 1500

≥ 2000

MDS D421

≥ 30

≥ 40

≥ 50

MDS D422

≥ 70

≥ 50

≥ 60

≥ 70

MDS D423

≥ 100

≥ 80

≥ 100

MDS D424

≥ 100

≥ 80

≥ 100

≥ 800

≥ 1200

≥ 1800

MDS D425

≥ 80

≥ 50

≥ 60

≥ 80

MDS D426

≥ 100

≥ 800

≥ 1200

≥ 1800

MDS D428

≥ 80

≥ 50

≥ 60

≥ 80

MDS D460

≥ 100

≥ 60

≥ 80

≥ 100

≥ 800

MDS D521

-- ≥ 30 ≥ 40 ≥ 50 -- -- -- --

MDS D522

≥ 70

≥ 50

≥ 60

≥ 70

MDS D522

Special vari-

ants

≥ 70 -- ≥ 50 ≥ 60 ≥ 70 -- -- --

MDS D524

≥ 100

≥ 80

≥ 100

≥ 800

≥ 1200

≥ 1800

MDS D526

≥ 100

≥ 800

≥ 1200

≥ 1800

MDS D528

≥ 80

≥ 50

≥ 60

≥ 80

Depends on the connected antenna (ANT 3, 8, 12, 18 or 30).

Depends on the connected antenna (ANT D5, D6 or D10).

All values are in mm, relative to the operating distance (S

a) between reader and transponder, and

between transponder edge and transponder edge

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

50 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Minimum distance from reader to reader

Table 4- 17 Minimum distances to readers or antennas

RF210R to

RF210R

RF220R to

RF220R

RF240R to

RF240R

ANT x to ANT x

with RF250R

RF260R to

RF260R

RF280R to

RF280R

ANT Dx to ANT

with RF290R

≥ 60 ≥ 100 ≥ 120

ANT 3: ≥ 100

≥ 150 with 2

readers ≥

400

with multi-

ple read-

ers ≥ 500

ANT D5: ≥ 2000

ANT 8: ≥ 50 ANT D10: ≥

2000

ANT 12: ≥ 60

ANT 18: ≥ 80

ANT 30: ≥ 100

All values are in mm

Note

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

If the values fall below those specified in the "minimum distance readers or antennas", 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.

Keeping to the values specified in the "Minimum distance readers or antennas" table is

therefore essential.

If the specified minimum distance cannot be complied with due to the physical configuration,

the SET-ANT command can be used to activate and deactivate the HF field of the reader.

The application software must be used to ensure that only one reader is active (antenna is

switched on) at a time.

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 planning and installation if the values described in the "Field data

(Page 39)" section 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

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 51

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

Table 4- 18 Interference due to metal rack

Representation

Description

Problem:

A metal rack is located above the

transmission window of the reader.

This affects the entire field. In par-

ticular, the transmission window

between reader and transponder is

reduced.

Remedy:

The transmission window is no

longer affected if the transponder is

mounted differently.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

52 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 19 Flush-mounting of transponders and readers

Representation

Description

Problem:

Flush-mounting of transponders and

readers is possible in principle.

However, the size of the transmis-

sion window is significantly reduced.

The following measures can be

used to counteract the reduction of

the window:

Remedy:

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, for

example, for RF260R. It indicates

that, for a distance x ≥ 100 mm, the

reader can no longer be significantly

affected by metal.)

Remedy:

Increase the distances a, b to metal.

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 transpond-

ers with a large limit distance

than for readers or transponders

with a small limit distance.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 53

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.

Table 4- 20 Mounting of several readers on metal frames or racks

Representation

Description

Problem:

Interaction between readers

Remedy:

Increase the distance D between the two readers.

Remedy:

Introduce one or more iron struts in order to short-

circuit the stray fields.

Remedy:

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:

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.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

54 System Manual, 07/2017, J31069-D0227-U001-A9-7619

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, make sure that no metal rail (or similar

part) intersects the transmission field.

The metal rail would affect the field data.

● With readers with a large antenna surface (e.g. RF340R) for reasons of communication

reliability, when the transponders are flush-mounted in metal, a metal-free space around

the transponders is recommended. This metal-free space should match the size of the

antenna surface.

● The reduction of field data is also based on the minimum distance between the reader

and transponder. The respective recommendations are listed in the following table.

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

values in the tables describe field data reduction and show the reduced range as a

percentage. The range relates to use in a non-metallic environment. A value of 100% means

no influence on the range.

Note

Possible reader-transponder combinations

The tables of the following section show the possible reader

-transponder combinations.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 55

4.3.4.1

RF210R

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

data values. To avoid reduction in the case of d), the distance a should be ≥ 10 mm.

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 in metal,

flush against M18 nut

Reader in metal,

all around

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

56 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 21 Reduction of field data due to metal, range as %: Transponder and RF210R

Transponder

Reader without direct

metal influence

(Case a, b and d)

Reader flush-

mounted in metal

(Case c)

MDS D124

Metal-free

100

On metal, distance 15 mm 90 90

Flush-mounted in metal;

distance all round 15 mm

85 80

MDS D127

Flush-mounted in metal;

distance all round 0 mm

100 75

MDS D160

Metal-free

100

On metal, distance 10 mm

100

MDS D324

Metal-free

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

80 90

MDS D421

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

75 50

MDS D422

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

90 40

MDS D423

Metal-free

100

On metal, distance 0 mm

110

100

Flush-mounted in metal;

distance all round 10 mm

95 85

MDS D424

Metal-free

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

85 75

MDS D425

Metal-free

100

On metal, distance 0 mm

100

MDS D428

Metal-free

100

On metal, distance 0 mm

100

MDS D460

Metal-free

100

On metal, distance 25 mm

100

MDS D521

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

75 50

MDS D522

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

90 40

MDS D522

Special variants

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

90 40

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 57

Transponder

Reader without direct

metal influence

(Case a, b and d)

Reader flush-

mounted in metal

(Case c)

MDS D524

Metal-free

100

On metal, distance 15 mm 90 80

Flush-mounted in metal;

distance all round 25 mm

85 75

MDS D528

Metal-free 100 90

On metal, distance 0 mm

100

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

58 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.3.4.2

RF220R

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

data values. To avoid reduction in the case of d), the distance a should be ≥ 15 mm.

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 in metal,

flush against M30 nut

Reader in metal,

all round

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 59

Table 4- 22 Reduction of field data due to metal, range as %: Transponder and RF220R

Transponder

Reader without direct

metal influence

(Case a, b and d)

Reader flush-

mounted in metal

(Case c)

MDS D124

Metal-free

100

On metal, distance 15 mm 97 89

Tag flush-mounted in metal;

distance all round 15 mm

86 83

MDS D126

1) Metal-free 100 75

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

80 65

MDS D160

Metal-free

100

On metal, distance 10 mm

100

MDS D324

Metal-free

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

93 86

MDS D422

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

85 85

MDS D423

Metal-free

100

On metal, distance 0 mm

125

115

Flush-mounted in metal;

distance all round 10 mm

80 75

MDS D424

1) Metal-free 100 93

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

86 82

MDS D425

Metal-free

100

Screwed onto metal

100

Flush-mounted in metal;

distance all round 25 mm

95 75

MDS D426

Metal-free

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

80 70

MDS D428

Metal-free

100

On metal, distance 0 mm

100

MDS D460

Metal-free

100

On metal, distance 0 mm

100

MDS D522

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

85 85

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

60 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Transponder

Reader without direct

metal influence

(Case a, b and d)

Reader flush-

mounted in metal

(Case c)

MDS D522

Special variants

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

85 85

MDS D524

Metal-free

100

On metal, distance 0 mm 96 89

Flush-mounted in metal;

distance all round 0 mm

86 82

MDS D526

Metal-free

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

80 70

MDS D528

Metal-free

100

On metal, distance 0 mm

100

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

4.3.4.3

RF240R

The RF240R can be flush-mounted in metal. Please allow for a possible reduction in the field

data values. To avoid reduction, the distance a should be ≥ 20 mm.

Figure 4-11 Metal-free space RF240R

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 61

Table 4- 23 Reduction of field data due to metal, range as %: Transponder and RF240R

Transponder

Reader without

direct

metal influence

Reader on

metal

(metal plate)

Reader flush-

mounted in metal

(all round

20 mm)

MDS D100

Without metal

100

On metal, distance 20 mm 95 90 75

Flush-mounted in metal;

distance all round 20 mm

90 75 70

MDS D124

1) Without metal 100 85 75

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

85 70 65

MDS D126

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

70 55 55

MDS D160

Without metal

100

On metal, distance 10 mm

MDS D165

Without metal

100

On metal, distance 25 mm

MDS D200

Without metal

100

On metal, distance 20 mm

Flush-mounted in metal,

distance all round 20 mm

70 60 50

MDS D261

Without metal

100

On metal, distance 25 mm

MDS D324

1) Without metal 100 90 80

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

90 75 70

MDS D400

Without metal

100

On metal, distance 20 mm 80 75 55

Flush-mounted in metal,

distance all round 20 mm

75 70 50

MDS D422

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

90 60 40

MDS D423

Without metal

100

On metal, distance 0 mm

150

140

Flush-mounted in metal;

distance all round 10 mm

70 60 60

MDS D424

Without metal

100

On metal, distance 15 mm

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

62 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Transponder

Reader without

direct

metal influence

Reader on

metal

(metal plate)

Reader flush-

mounted in metal

(all round

20 mm)

Flush-mounted in metal;

distance all round 25 mm

80 70 65

MDS D425

Without metal

100

On metal, distance 0 mm

MDS D426

1) Without metal 100 80 70

On metal, distance 25 mm

Flush-mounted in metal;

Distance all-round 50 mm

85 65 60

MDS D428

Without metal

100

On metal, distance 0 mm

MDS D460

Without metal

100

On metal, distance 0 mm

MDS D522

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

90 60 40

MDS D522

Special vari-

ant

Metal-free

100

Flush-mounted in metal;

distance all round 0 mm

90 60 40

MDS D524

Metal-free

100

On metal, distance 0 mm

Flush-mounted in metal;

distance all round 0 mm

80 70 65

MDS D526

Metal-free

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

85 65 60

MDS D528

Metal-free

100

On metal, distance 0 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 63

4.3.4.4

RF250R

The RF250R reader is operated with the external antennas ANT 3, 8, 12, 18 and 30. The

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

data values.

Figure 4-12 Metal-free space for ANT 8 / ANT 12 and ANT 18 / ANT 30

Table 4- 24 Reduction of field data due to metal, range as %: Transponder and RF250R with ANT 1

Transponder

ANT 1 without

metal

ANT 1 on metal

ANT 1 mounted

in metal

(all round

40 mm)

MDS D100

Without metal

100

On metal; distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

60 45 45

MDS D124

Without metal

100

On metal; distance 15 mm

Flush-mounted in metal;

distance all round 20 mm

85 80 50

MDS D126

Without metal

100

On metal; distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

80 70 70

MDS D139

1) Without metal 100 90 85

On metal; distance 30 mm

Flush-mounted in metal;

distance all round 100 mm

95 85 85

MDS D160

Without metal

100

On metal; distance 10 mm 85 85 80

MDS D165

Without metal

100

On metal; distance 25 mm

MDS D200

Without metal

100

On metal; distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

75 65 65

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

64 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Transponder

ANT 1 without

metal

ANT 1 on metal

ANT 1 mounted

in metal

(all round

40 mm)

MDS D261

Without metal

100

On metal; distance 25 mm 85 80 80

MDS D324

Without metal

100

On metal; distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

80 75 65

MDS D339

Without metal

100

On metal; distance 30 mm

Flush-mounted in metal;

distance all round 100 mm

95 85 85

MDS D400

Without metal

100

On metal; distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

65 60 60

MDS D423

Without metal

100

On metal; distance 0 mm

115

Flush-mounted in metal;

distance all round 0 mm

80 65 65

MDS D424

Without metal

100

On metal; distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70 70

MDS D425

Without metal

100

On metal; distance 0 mm

MDS D426

Without metal

100

On metal; distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

80 75 70

MDS D428

Without metal

100

On metal; distance 0 mm

MDS D460

Without metal

100

On metal; distance 10 mm

MDS D524

Without metal

100

On metal; distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70 70

MDS D525

Without metal

100

On metal; distance 0 mm

MDS D526

Without metal

100

On metal; distance 25 mm

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 65

Transponder

ANT 1 without

metal

ANT 1 on metal

ANT 1 mounted

in metal

(all round

40 mm)

Flush-mounted in metal;

distance all round 50 mm

80 75 70

MDS D528

Without metal

100

On metal; distance 0 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % can occur if transponders were developed specifically for mounting in/on metal-

lic surroundings.

Table 4- 25 Reduction of field data due to metal, range as %: Transponder and RF250R with ANT 3

Transponder

RF250R with ANT 3

Antenna without

metal

Antenna flush-

mounted in metal

(all round 20 mm)

MDS D124

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70

MDS D126

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

60 50

MDS D160

Without metal

100

On metal, distance 10 mm

MDS D324

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

85 70

MDS D422

Without metal 100 95

Flush-mounted in metal;

distance all round 0 mm

95 80

MDS D423

Without metal 100 90

On metal, distance 0 mm

130

110

Flush-mounted in metal;

distance all round 10 mm

80 70

MDS D424

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

66 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Transponder

RF250R with ANT 3

Antenna without

metal

Antenna flush-

mounted in metal

(all round 20 mm)

MDS D425

Without metal

100

On metal, distance 0 mm

MDS D426

1) Without metal 100 70

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 25 mm

55 45

MDS D428

Without metal

100

On metal, distance 0 mm

100

MDS D460

Without metal

100

On metal, distance 10 mm

MDS D522

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

95 80

MDS D522

Special variants

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

95 80

MDS D524

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70

MDS D526

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 25 mm

55 45

MDS D528

Without metal 100 90

On metal, distance 0 mm

100

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 67

Table 4- 26 Reduction of field data due to metal, range as %: Transponder and RF250R with ANT 8

Transponder

RF250R with ANT 8

Antenna without

metal

Antenna flush-

mounted in metal

MDS D117

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

65 55

MDS D127

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

70 60

MDS D421

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

75 70

MDS D521

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

75 70

Table 4- 27 Reduction of field data due to metal, range as %: Transponder and RF250R with ANT 12

Transponder

RF250R with ANT 12

Antenna without

metal

Antenna flush-

mounted in metal

(all round 7 mm)

MDS D117

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

50 40

MDS D127

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

65 50

MDS D160

Without metal

100

On metal, distance 10 mm

MDS D421

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

65 45

MDS D422

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

90 75

MDS D425

Without metal

100

On metal, distance 0 mm

115

100

MDS D428

Without metal

100

On metal, distance 0 mm

110

MDS D460

Without metal

100

On metal, distance 10 mm

Flush-mounted in metal;

distance all round 0 mm

85 75

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

68 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Transponder

RF250R with ANT 12

Antenna without

metal

Antenna flush-

mounted in metal

(all round 7 mm)

MDS D521

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

65 45

MDS D522

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

90 75

MDS D528

Without metal

100

On metal, distance 0 mm

110

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

Table 4- 28 Reduction of field data due to metal, range as %: Transponder and RF250R with ANT 18

Transponder

RF250R with ANT 18

Antenna without

metal

Antenna flush-

mounted in metal

(all round 10 mm)

MDS D124

Without metal

100

On metal, distance 15 mm

100

Flush-mounted in metal;

distance all round 25 mm

95 70

MDS D160

Without metal

100

On metal, distance 10 mm

100

MDS D324

Without metal

100

On metal, distance 15 mm

100

Flush-mounted in metal;

distance all round 25 mm

95 75

MDS D421

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

65 50

MDS D422

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

90 90

MDS D423

Without metal

100

On metal, distance 0 mm

120

110

Flush-mounted in metal;

distance all round 10 mm

90 75

MDS D424

Without metal

100

On metal, distance 15 mm

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 69

Transponder

RF250R with ANT 18

Antenna without

metal

Antenna flush-

mounted in metal

(all round 10 mm)

Flush-mounted in metal;

distance all round 25 mm

95 75

MDS D425

Without metal

100

On metal, distance 0 mm

100

MDS D428

Without metal

100

On metal, distance 0 mm

100

MDS D460

Without metal

100

On metal, distance 10 mm

100

MDS D521

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

65 50

MDS D522

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

90 90

MDS D522

Special variants

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

90 90

MDS D524

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

95 75

MDS D528

Without metal

100

On metal, distance 0 mm 100 85

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

70 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 29 Reduction of field data due to metal, range as %: Transponder and RF250R with ANT 30

Transponder

RF250R with ANT 30

Antenna without

metal

Antenna flush-

mounted in metal

(all round 20 mm)

MDS D124

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70

MDS D126

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

60 50

MDS D160

Without metal

100

On metal, distance 10 mm

MDS D324

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

85 70

MDS D422

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

95 80

MDS D423

Without metal

100

On metal, distance 0 mm

130

110

Flush-mounted in metal;

distance all round 10 mm

80 70

MDS D424

Without metal

100

On metal, distance 15 mm 90 75

Flush-mounted in metal;

distance all round 25 mm

75 70

MDS D425

Without metal

100

On metal, distance 0 mm

MDS D426

1) Without metal 100 70

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 25 mm

55 45

MDS D428

Without metal

100

On metal, distance 0 mm

100

MDS D460

Without metal

100

On metal, distance 10 mm

MDS D522

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

95 80

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 71

Transponder

RF250R with ANT 30

Antenna without

metal

Antenna flush-

mounted in metal

(all round 20 mm)

MDS D522

Special variants

Without metal

100

Flush-mounted in metal;

distance all round 0 mm

95 80

MDS D524

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

75 70

MDS D526

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 25 mm

55 45

MDS D528

Without metal

100

On metal, distance 0 mm

100

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Values of > 100 % related to non metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

4.3.4.5

RF260R

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

data values. To avoid reduction, the distance a should be ≥ 20 mm.

Figure 4-13 Metal-free space for RF260R

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

72 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 30 Reduction of field data due to metal, range as %: Transponder and RF260R

Transponder

Reader

without

metal direct

metal influ-

ence

Reader on met-

(metal plate)

Reader flush-

mounted in metal

(all round 20 mm)

MDS D100

Without metal

100

On metal, distance 20 mm 70 65 50

Flush-mounted in metal;

distance all round 20 mm

65 50 40

MDS D124

1) Without metal 100 93 75

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

78 75 65

MDS D126

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

55 53 40

MDS D139

Without metal

100

On metal; distance 30 mm

MDS D160

Without metal

100

On metal, distance 10 mm

MDS D165

Without metal

100

On metal; distance 25 mm

MDS D200

Without metal

100

On metal, distance 20 mm

Flush-mounted in metal,

distance all round 20 mm

55 50 45

MDS D261

Without metal 100 85 70

On metal; distance 25 mm

MDS D324

1) Without metal 100 90 75

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm 2)

70 65 55

MDS D339

Without metal

100

On metal; distance 30 mm

MDS D400

Without metal

100

On metal, distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

55 50 45

MDS D423

Without metal

100

On metal, distance 0 mm

120

115

110

Flush-mounted in metal;

distance all round 10 mm 2)

75 65 60

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 73

Transponder

Reader

without

metal direct

metal influ-

ence

Reader on met-

(metal plate)

Reader flush-

mounted in metal

(all round 20 mm)

MDS D424

Without metal

100

On metal, distance 15 mm 90 80 70

Flush-mounted in metal;

distance all round 25 mm

60 60 50

MDS D426

1) Without metal 100 100 73

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

65 55 55

MDS D428

Without metal

100

On metal, distance 0 mm

MDS D460

Without metal

100

On metal, distance 10 mm

MDS D524

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

60 60 50

MDS D526

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

65 55 55

MDS D528

Without metal

100

On metal, distance 0 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Transponder flush-mounted in metal; minimum distance to reader 5 mm

Transponder flush-mounted in metal; minimum distance to reader 10 mm

Transponder flush-mounted in metal; minimum distance to reader 15 mm

Values > 100 % can occur if transponders were developed specifically for mounting in/on metallic

surroundings.

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

74 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.3.4.6

RF280R

The RF280R can be flush-mounted in metal. Please allow for a possible reduction in the field

data values. To avoid reduction, the distance a should be ≥ 20 mm.

Figure 4-14 Metal-free area RF280R

Table 4- 31 Reduction of field data due to metal, range as %: Transponder and RF280R

Transponder

Reader without

metal direct

metal influence

Reader on

metal (metal

plate)

Flush-mounted

in metal (20 mm

all-round)

MDS D100

Without metal

100

On metal; distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

55 50 45

MDS D124

Without metal

100

On metal; distance 15 mm 95 90 85

Flush-mounted in metal;

distance all round 20 mm

70 65 50

MDS D126

1) Without metal 100 90 80

On metal; distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

75 65 65

MDS D139

Without metal

100

On metal; distance 30 mm

Flush-mounted in metal;

distance all round 100 mm

90 80 70

MDS D160

Without metal

100

On metal; distance 10 mm

MDS D165

Without metal

100

On metal; distance 25 mm

MDS D200

Without metal

100

On metal; distance 20 mm

Planning the RF200 system

4.3 Installation guidelines

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 75

Transponder

Reader without

metal direct

metal influence

Reader on

metal (metal

plate)

Flush-mounted

in metal (20 mm

all-round)

Flush-mounted in metal;

distance all round 20 mm

65 60 55

MDS D261

Without metal 100 95 85

On metal; distance 25 mm

MDS D324

1) Without metal 100 95 85

On metal; distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

70 65 60

MDS D339

Without metal

100

On metal; distance 30 mm

Flush-mounted in metal;

distance all round 100 mm

80 75 70

MDS D400

Without metal

100

On metal; distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

60 60 55

MDS D423

Without metal

100

On metal; distance 0 mm

100

Flush-mounted in metal;

distance all round 10 mm

75 65 60

MDS D424

MDS D524

Without metal

100

On metal; distance 15 mm 75 75 60

Flush-mounted in metal;

distance all round 25 mm

60 55 40

MDS D425

MDS D525

Without metal

100

On metal; distance 0 mm

MDS D426

MDS D526

Without metal

100

On metal; distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

75 65 65

MDS D428

MDS D528

Without metal

100

On metal; distance 0 mm

MDS D460

Without metal

100

On metal; distance 10 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

Transponder flush-mounted in metal; minimum distance to reader 5 mm

Transponder flush-mounted in metal; minimum distance to reader 10 mm

Transponder flush-mounted in metal; minimum distance to reader 15 mm

Values > 100 % in relation to non-metal surroundings can occur if transponders were developed

specifically for mounting in/on metallic surroundings.

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76 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.3.4.7

RF290R

The RF290R reader is operated with the external antennas ANT D5, D6 and D10. The

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

data values. To avoid reduction, the distance a should be ≥ 150 or 200 mm.

Figure 4-15 Metal-free space for ANT D5

Table 4- 32 Reduction of field data due to metal, range as %: Transponder and RF290R

with ANT D5

Transponder

RF290R with ANT D5

Antenna on metal

(metal plate)

Antenna flush-

mounted in metal

(all round 150 mm)

MDS D100

Without metal

100

On metal, distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

45 40

MDS D124

Without metal

100

On metal, distance 15 mm

Flush-mounted in metal;

distance all round 25 mm

65 60

MDS D126

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

55 50

MDS D139

Without metal

100

On metal, distance 30 mm

MDS D160

Without metal

100

On metal, distance 10 mm

MDS D165

Without metal

100

On metal, distance 25 mm

MDS D200

Without metal

100

On metal, distance 20 mm

Planning the RF200 system

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 77

Transponder

RF290R with ANT D5

Antenna on metal

(metal plate)

Antenna flush-

mounted in metal

(all round 150 mm)

Flush-mounted in metal;

distance all round 20 mm

45 40

MDS D261

Without metal

100

On metal, distance 25 mm

MDS D324

Without metal

100

On metal, distance 15 mm

MDS D339

Without metal

100

On metal, distance 30 mm

MDS D400

Without metal

100

On metal, distance 20 mm

Flush-mounted in metal;

distance all round 20 mm

45 40

MDS D424

Without metal

100

On metal, distance 15 mm

MDS D426

Without metal

100

On metal, distance 25 mm

Flush-mounted in metal;

distance all round 50 mm

50 45

MDS D460

Without metal

100

On metal, distance 10 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

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78 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 4- 33 Reduction of field data due to metal, range as %: Transponder and RF290R

with ANT D6

Transponder

RF290R with ANT D6

Antenna on metal

(metal plate)

Antenna flush-

mounted in metal

(all round 200 mm)

MDS D100

Without metal

100

On metal, distance 20 mm

MDS D124

1) Without metal 100 95

On metal, distance 25 mm

MDS D126

Without metal

100

On metal, distance 25 mm

MDS D139

Without metal

100

On metal, distance 30 mm

MDS D160

Without metal

100

On metal, distance 25 mm

MDS D165

Without metal

100

On metal, distance 20 mm

MDS D200

Without metal

100

On metal, distance 20 mm

MDS D261

Without metal

100

On metal, distance 20 mm

MDS D324

Without metal

100

On metal, distance 25 mm

MDS D339

Without metal

100

On metal, distance 30 mm

MDS D400

Without metal

100

On metal, distance 20 mm 60 55

MDS D424

Without metal

100

On metal, distance 25 mm

MDS D426

Without metal

100

On metal, distance 25 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 79

Table 4- 34 Reduction of field data due to metal, range as %: Transponder and RF290R with ANT

D10

Transponder

RF290R with ANT D10

Antenna on metal

(metal plate)

Antenna flush-

mounted in metal

(all round 200 mm)

MDS D100

Without metal

100

On metal, distance 20 mm

MDS D124

1) Without metal 100 90

On metal, distance 25 mm

MDS D126

Without metal

100

On metal, distance 25 mm

MDS D139

Without metal

100

On metal, distance 30 mm

MDS D160

Without metal

100

On metal, distance 25 mm

MDS D165

Without metal

100

On metal, distance 20 mm

MDS D200

Without metal

100

On metal, distance 20 mm

MDS D261

Without metal

100

On metal, distance 20 mm

MDS D324

Without metal

100

On metal, distance 25 mm

MDS D339

Without metal

100

On metal, distance 30 mm

MDS D400

Without metal

100

On metal, distance 20 mm 50 40

MDS D424

Without metal

100

On metal, distance 25 mm

MDS D426

Without metal

100

On metal, distance 25 mm

MDS D524

Without metal

100

On metal, distance 25 mm

MDS D526

Without metal

100

On metal, distance 25 mm

Mounting the transponder on or in metal is only possible with the appropriate spacer or if there is

adequate clearance to the metal.

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80 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.3.5

Installation and connection of 2 to 6 antennas with one RF290R reader

If several antennas need to be operated on one reader, this can be achieved by using the

antenna splitter or the antenna multiplexer RF260X.

Note that the antenna splitter is a purely passive device that splits the power at the input to

two outputs and therefore halves it. This is possible both in PC mode (RS-232) and CM

mode (RS-422). You can cascade the antenna splitters in such a way that up to 4 antennas

can be connected at the same time.

The antenna multiplexer RF260X works only in PC mode (RS-232) in time division multiplex

mode. This means that each antenna operates with full power for a certain time before the

device moves on automatically to the next antenna. The antenna multiplexer normally

operates in scan mode or buffered read mode which with suitable parameter assignment add

the information about the antenna number to the reply of the transponder. You can operate

up to six antennas on one reader via the multiplexer.

4.3.5.1

Installation options with the antenna splitter (2-4 antennas)

Possible configurations of the antennas

The antenna installations described here have been designed for reading smartlabels

(transponders) on goods on conveyor belts, conveyor systems or pallets.

A prerequisite is that there are no magnetically conducting materials (e.g. metal) in the

vicinity of the antenna or the label.

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 81

Figure 4-16 Possible configuration of RF290R with ANT D5/D6/D10

Planning the RF200 system

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82 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Installation examples

Figure 4-17 Installation example with 2 ANT D6 (portal)

Figure 4-18 Installation example with ANT D6 (C arrangement)

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 83

Figure 4-19 Installation example with ANT D6 (tunnel)

Note

The minimum spacings between the antennas for operation with only one reader may be

less than the distances described because this configuration has the same phase.

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84 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.3.5.2

Antenna installation

Configuring instructions

The antenna installation described below enables detection of transponders moving

horizontally through the installation. Depending on the installation (antennas exactly opposite

each other or offset in parallel), the label is aligned in parallel with the antennas or arbitrarily.

The size of the sensing range depends on the label alignment:

Note

Remember that the entire acquisition range of the antenna is larger than the transmission

window in which the transponder is normally configured. This m

eans there can be label

alignments where even labels outside the transmission window will be identified. Labels

aligned in parallel with the antennas, for example, can also be detected at larger distances

beside or outside the antenna range.

For this reaso

n, goods with labels must not be stored within a distance of up to 0.5 m from

the installation. If this cannot be complied with, the antennas must be shielded.

To achieve three

-dimensional detection of the labels in the sensing range, the following

require

ments must be met:

•

The gate width must be less than or equal to 800 mm.

•

The antenna size of the labels should be at least the size of an ISO card (85 mm x 54

mm).

•

The distance from label to label must be greater than 100 mm. The distance from label to

labe

l can be reduced if the gate width is correspondingly reduced. This applies especially

for distances under 50 mm.

•

There should be no more than 16 labels within the sensing range of the antennas at the

same time.

The number of labels can be increased if the gate width is correspondingly reduced and

the maximum speed suitably adapted.

•

The maximum speed of the labels must not exceed 1 m/s. (This depends on the number

and alignment of the labels, the number of data blocks to be processed, the data protocol

required and the label type).

•

To the front and sides of the antenna, there must be a distance of more than 150 mm to

metal parts.

•

There must be no interference to the write/read device from other electrical equipment in

the surrounding area.

Note

The RF290

R reader is not capable of multitag operation in the CM mode.

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 85

Required components

For installation with

● 2 antennas (gate)

● 3 antennas (C arrangement)

● 4 antennas (tunnel)

the following components are required:

Table 4- 35 Components required for setting up with 2, 3 or 4 antennas

Number for installation

with

Component

Article number

2 ant.

3 ant.

4 ant.

1 1 1 Basic device:

RF290R (↔ CM or PC)

RF290R: 6GT2821-0AC12

optionally:

ASM 475: 6GT2002-0GA10

ASM 456: 6GT2002-0ED00

RF170C: 6GT2002-0HD00

RF180C: 6GT2002-0JD00

RF182C: 6GT2002-0JD10

2 3 4 Antenna ANT D5 / D6 / D10 optionally:

ANT D5: 6GT2698-5AA10

ANT D6: 6GT2698-5AB00

ANT D10: 6GT2698-5AF00

2 3 4 With ANT D6 if required:

cover

6GT2698-5AD00

Antenna splitter

6GT2603-0AC00

1 1 1 Wide-range power supply unit for

SIMATIC RF systems

(for PC mode only)

EU: 6GT2898-0AA00

UK: 6GT2898-0AA10

US: 6GT2898-0AA20

1 1 1 24 V connecting cable, length 5 m

(for PC mode only)

6GT2491-1HH50

1 1 1 Connecting cable:

RF290R ↔ PC

RF290R ↔ CM

6GT2891-4KH ...

optionally:

6GT2891-4F ...

6GT2891-4EH ...

Installation information

The cables on the antennas and the antenna splitter are 3.3 m or 10.5 m long. The

write/read device must be installed in the vicinity of the antennas. If there are greater

distances between the write/read device and the antennas, the antenna cable can be

increased by 7.2 m with the extension (6GT2691-0DH72). This results in shorter ranges.

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Metal-free space

To guarantee perfect functioning of the individual installation versions, all larger metal parts

in the vicinity of the antennas must be removed.

Figure 4-20 Metal-free space, side view (based on the example of a tunnel arrangement on a

conveyor belt)

approx. half antenna length

min. 100 mm

max. 600 mm

Metal-free space

Figure 4-21 Metal-free space, view from above (based on the example of a tunnel arrangement on a

conveyor belt)

Metal in the vicinity of the antennas

If metal in the vicinity of the antennas cannot be avoided, the following must be noted:

● There must be a minimum allround gap of 100 mm between the antenna and metal.

Serious loss of sensing range must be expected above 50 mm. There is no discernible

influence at distances greater than 150 mm from the metal.

● The influence of the metal depends heavily on its size and shape. Thin metal rods have

less influence on the magnetic field than large surfaces.

● Larger metal surfaces (edge length > 50 mm) in parallel with the antennas or labels result

in a short-circuit of the magnetic lines of force. As a result, the labels cannot be read.

● Metal parts under the conveyor belt change the direction of the magnetic lines of force.

Serious loss of sensing range must be expected as a result. Horizontally aligned labels

cannot be read in such cases.

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System Manual, 07/2017, J31069-D0227-U001-A9-7619 87

●

The metal parts must not form closed loops or circuits. If necessary, these must be

electrically interrupted at one point

● The metal parts in the immediate vicinity of the antenna must be grounded in a mesh with

a good HF connection.

● Since the write/read device is installed in a metal housing, and the antennas can couple

into the cables to the write/read device, it must be installed at a distance of at least 500

mm from the antennas.

Notes on installing and laying the antenna cable

To suppress possible interference, an EMC hinged ferrite choke must be fitted to the

antenna cables (as well as the antenna cable between the reader and the antenna splitter).

The coaxial cable must be wound tightly at least four times through the EMC ring core. The

maximum distance between the connecting plug for the reader or the antenna splitter and

the ring core must be 100 mm.

The antenna cable must always be run vertically from the antennas. A minimum distance of

200 mm to the antennas must be observed as the cables continue. Otherwise, performance

losses must be expected.

There must be a distance of at least 300 mm between antenna cables and parallel power

cables.

Unrequired cable length must be secured in a bundle with a diameter of 100 to 150 mm.

If the standard antenna cable is too short, it can be increased by 7.20 m with the extension.

Slight range losses must be expected here.

To achieve optimal read ranges, the antenna cable should not be shortened or lengthened.

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88 System Manual, 07/2017, J31069-D0227-U001-A9-7619

4.3.5.3

Installation options with the antenna multiplexer (2-6 antennas)

You can operate up to six antennas on one reader via the multiplexer.

The data is processed sequentially.

Antenna switchover is performed in time-multiplex mode, so by connecting several antennas

together, the processing time / activation time per antenna is lengthened accordingly.

Figure 4-22 Configuration example of the antenna multiplexer with ANT D5

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4.3.6

Chemical resistance of the reader and transponders

4.3.6.1

Readers

Overview of the readers and their housing materials

The following sections describe the chemical resistance of the various transponders. The

chemical resistance depends on the housing materials used to manufacture the reader. The

following table provides an overview of the housing materials used for the readers RF210R,

RF220R, RF240R, RF250R, RF260R and RF280R:

Readers

Individual parts of the

reader

Housing material of the reader

RF210R, RF220R Sleeves Brass (copper alloy)

CuZn40Pb2

Fiber-optic cable Makrolon®2405

Cap (antenna)

Thermocomp OF-1008-L-EM

Valox 357

RF240R, RF250R,

RF260R

Top shell and base

plate

Polyamide 6.6 GF30;

The chemical resistance of this plastic is listed in the section "Polyamide 6

and Polyamide 6.6 GF30 (Page 90)".

Fiber-optic cable

Makrolon®2405

Decorative foil

Autotex V200

RF280R Top shell and base

plate

Polyamide 12;

The chemical resistance of this plastic is listed in the section "Polyamide

12 (Page 91)".

Fiber-optic cable

Makrolon®2405

Decorative foil

Autotex V200

1) Component irrelevant for resistance of the overall housing

Note

If you have any questions, please contact Siemens Support, see section "

Service & Support

(Page

377)".

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Polyamide 6 and Polyamide 6.6 GF30

Table 4- 36 Chemical resistance - PA6 and PA6.6 GF30

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Mineral lubricants

++++

Aliphatic hydrocarbons

++++

Aromatic hydrocarbons - - ++++

Gasoline

++++

Weak mineral acids

+++

Strong mineral acids

￮

Weak organic acids

Strong organic acids

￮

Oxidizing acids

￮

Weak alkaline solutions

Strong alkaline solutions

￮

Trichloroethylene

++++

Perchloroethylene

++++

Acetone

++++

Alcohols

++++

Hot water (hydrolysis resistance)

Explanation of the rating

++++

Resistant

+++

Practically resistant

Conditionally resistant

Less resistant

￮

Not resistant

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Polyamide 12

The resistance of the plastic housing to chemicals used in the automobile sector (e.g.: oils,

greases, diesel fuel, gasoline, etc,) is not listed extra.

Table 4- 37 Chemical resistance - Polyamide 12

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Battery acid

30%

20 ℃

Ammonia, gaseous

60 ℃

++++

Ammonia, w. conc. 60 ℃ ++++

10%

60 ℃

++++

Benzene - 20 ℃ ++++

60 ℃

+++

Bleach solution (12.5% effective chlo-

rine)

- 20 ℃ ++

Butane, gas, liquid

60 ℃

++++

Butyl acetate (acetic acid butyl ester)

60 ℃

++++

n(n)

20 ℃

++++

60 ℃

+++

Calcium chloride, w.

20 ℃

++++

60 ℃

+++

Calcium nitrate, w.

c. s.

20 ℃

++++

c. s.

60 ℃

+++

Chlorine

20 ℃

￮

Chrome baths, tech.

20 ℃

￮

Iron salts, w.

c. s.

60 ℃

++++

Acetic acid, w.

50%

20 ℃

￮

Ethyl alcohol, w., undenaturated 95% 20 ℃ ++++

95%

60 ℃

+++

50%

60 ℃

++++

Formaldehyde, w.

30%

20 ℃

+++

10%

20 ℃

++++

10%

60 ℃

+++

Formalin - 20 ℃ +++

Glycerine

60 ℃

++++

Isopropyl alcohol

20 ℃

++++

60 ℃

+++

Potassium hydroxide, w.

50%

60 ℃

++++

Lysol

20 ℃

Magnesium salts, w.

c. s.

60 ℃

++++

Methyl alcohol, w.

50%

60 ℃

++++

Lactic acid, w.

50%

20 ℃

10%

20 ℃

+++

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Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

10%

60 ℃

Sodium carbonate, w. (soda)

c. s.

60 ℃

++++

Sodium chloride, w. c. s. 60 ℃ ++++

Sodium hydroxide

60 ℃

++++

Nickel salts, w.

c. s.

60 ℃

++++

Nitrobenzene

20 ℃

+++

60 ℃

Phosphoric acid

10%

20 ℃

Propane

60 ℃

++++

Mercury

60 ℃

++++

Nitric acid

10%

20 ℃

Hydrochloric acid

10%

20 ℃

Sulfur dioxide

low

60 ℃

++++

Sulfuric acid

25%

20 ℃

10%

20 ℃

+++

Hydrogen sulfide

low

60 ℃

++++

Carbon tetrachloride

60 ℃

++++

Toluene

20 ℃

++++

60 ℃

+++

Detergent

high

60 ℃

++++

Plasticizer

60 ℃

++++

Explanation of the rating

++++

Resistant

+++

Practically resistant

Conditionally resistant

Less resistant

￮ Not resistant

Water solution

c. s.

Cold saturated

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4.3.6.2

Transponder

Overview of the transponders and their housing materials

The following sections describe the resistance to chemicals of the various transponders.

Resistance to chemicals depends on the housing material used to manufacture the

transponders.

The following table provides an overview of the housing materials of the transponders:

Table 4- 38 Overview of the housing materials of the transponders

Housing material

Transponder

Polyphenylene sulfide (PPS) MDS D117

MDS D124 (6GT2600-0AC10)

MDS D139

MDS D160

MDS D339

MDS D423

Polycarbonate (PC)

MDS D100 (6GT2600-0AD10)

Polyvinyl chloride (PVC) MDS D100 (6GT2600-0AD00-0AX0)

MDS D200

MDS D400

Epoxy resin MDS D124 (6GT2600-0AC00)

MDS D324

MDS D421

MDS D424

MDS D460

MDS D521

MDS D524

PA6

MDS D127

PA6.6 GF30 MDS D126

MDS D422

MDS D425

MDS D426

MDS D428

MDS D522

MDS D526

MDS D528

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Note

Chemical substances not listed

The following sections describe the resistance of the various transponders to specific

substances. If you require information about chemical substances t

hat are not listed, contact

Customer Support.

Polyphenylene sulfide (PPS)

The data memory has special chemical resistance to solutions up to a temperature of 200

°C. A reduction in the mechanical properties has been observed in aqueous solutions of

hydrochloric acid (HCl) and nitric acid (HNO3) at 80 °C. The plastic housings are resistant to

all types of fuel including methanol.

Table 4- 39 Chemical resistance - polyphenylene sulfide (PPS)

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Acetone

55 ℃

++++

n-Butanol (butyl alcohol)

80 ℃

++++

Butanone-2 (methyl ethyl ketone)

60 ℃

++++

n-Butyl acetate

80 ℃

++++

Brake fluid

80 ℃

++++

Calcium chloride (saturated)

80 ℃

++++

Diesel fuel

80 ℃

++++

Diethyl ether

23 ℃

++++

Frigen 113

23 ℃

++++

Anti-freeze

120 ℃

++++

Kerosene

60 ℃

++++

Methanol

60 ℃

++++

Engine oil

80 ℃

++++

Sodium chloride (saturated)

80 ℃

++++

Sodium hydroxide

30%

80 ℃

++++

Sodium hypochlorite

(30 or 180 days)

80 ℃

5% 80 ℃ -

Sodium hydroxide solution

30%

90 ℃

++++

Nitric acid

10%

23 ℃

++++

Hydrochloric acid

10%

80 ℃

Sulfuric acid

10%

23 ℃

++++

10%

80 ℃

30%

23 ℃

++++

Tested fuels

80 ℃

++++

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Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

FAM testing fluid

acc. to DIN 51 604-A

Toluene

- 80 ℃ ++

1, 1, 1-Trichloroethane

Xylene

- 80 ℃ ++++

Zinc chloride (saturated)

80 ℃

75 ℃

++++

Explanation of the rating

++++

Resistant

+++

Practically resistant

Conditionally resistant

Less resistant

￮

Not resistant

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

96 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Polycarbonate (PC)

Table 4- 40 Chemical resistance - polycarbonate (PPS)

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Mineral lubricants

Aliphatic hydrocarbons

++++

Aromatic hydrocarbons - - ￮

Gasoline

￮

Weak mineral acids

++++

Strong mineral acids

Weak organic acids

++++

Strong organic acids

Oxidizing acids

￮

Weak alkaline solutions

￮

Strong alkaline solutions

￮

Trichloroethylene

￮

Perchloroethylene

￮

Acetone

￮

Alcohols

Hot water (hydrolysis resistance)

￮

Explanation of the rating

++++

Resistant

+++

Practically resistant

Conditionally resistant

Less resistant

￮

Not resistant

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 97

Polyvinyl chloride (PVC)

Table 4- 41 Chemical resistance - polyvinyl chloride (PVC)

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Salt water

++++

Sugared water

10%

++++

Acetic acid, w. 5% - ++++

Sodium carbonate, w.

++++

Ethyl alcohol, w.

60%

++++

Ethylene glycol

50%

++++

Fuel B

(acc. to ISO 1817)

- - ++++

Human sweat

++++

Explanation of the rating

++++

Resistant

++++

Practically resistant

Conditionally resistant

Less resistant

￮

Not resistant

Epoxy resin

Table 4- 42 Chemical Resistance - epoxy resin

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Allyl chloride

20 ℃

++++

Formic acid

50%

20 ℃

++++

100%

20 ℃

Ammonia, gaseous

20 ℃

++++

Ammonia, liquid, water-free

20 ℃

￮

Ammonium hydroxide

10%

20 ℃

++++

Ethanol

40 ℃

++++

60 ℃

++++

Ethyl acrylate

20 ℃

++++

Ethyl glycol - 60 ℃ ++++

Gasoline, aroma-free

20 ℃

++++

Gasoline, containing benzene - 20 ℃ ++++

Benzoates (Na–, Ca– among others)

40 ℃

++++

Benzoic acid

20 ℃

++++

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

98 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Benzene

20 ℃

++++

Borax

60 ℃

++++

Boric acid - 20 ℃ ++++

Bromine, liquid

20 ℃

￮

Bromides (K–, Na– among others)

60 ℃

++++

Bromoform

100%

20 ℃

++++

Bromine water

20 ℃

￮

Butadien (1.3–)

20 ℃

++++

Butane, gaseous

20 ℃

++++

Butanol

20 ℃

￮

Butyric acid

100%

20 ℃

Carbonates (ammonium–, Na– among

others)

- 60 ℃ ++++

Chlorine, liquid

20 ℃

￮

Chlorine, gaseous, dry

100%

20 ℃

￮

Chlorobenzene

20 ℃

++++

Chlorides (ammonium–, Na– among

others)

- 60 ℃ ++++

Chloroform

20 ℃

￮

Chlorophyll

20 ℃

++++

Chlorosulfuric acid

100%

20 ℃

￮

Chlorine water (saturated solution)

20 ℃

Chromates (K–, Na– among others)

Up to 50 %

40 ℃

++++

Chromic acid Up to 30 % 20 ℃ ￮

Chromosulfuric acid

20 ℃

￮

Citric acid

20 ℃

++++

Cyanamide

20 ℃

++++

Cyanides (K–, Na– among others)

60 ℃

++++

Dextrin, w.

60 ℃

++++

Diethyl ether

20 ℃

++++

Diethylene glycol

60 ℃

++++

Dimethyl ether

20 ℃

++++

Dioxane

20 ℃

￮

Developer

40 ℃

++++

Acetic acid

100%

20 ℃

Ethanol

60 ℃

++++

Fixing bath

40 ℃

++++

Fluorides (ammonium–, K–, Na–

among others)

- 40 ℃ ++++

Hydrofluoric acid

Up to 40 %

20 ℃

++++

Formaldehyde

50%

20 ℃

++++

Formamide 100% 20 ℃ ++++

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 99

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Gluconic acid

20 ℃

++++

Glycerine

60 ℃

++++

Glycol - 60 ℃ ++++

Urine

20 ℃

++++

Uric acid

20 ℃

++++

Hydroxides (ammonium...)

10%

20 ℃

++++

Hydroxides (Na–, K–)

40%

20 ℃

++++

Hydroxides (alkaline earth metal)

60 ℃

++++

Hypochlorites (K–, Na– among others)

60 ℃

++++

Iodides (K–, Na– among others)

60 ℃

++++

Silicic acid

60 ℃

++++

Cresol

Up to 90 %

20 ℃

￮

Methanol

100%

40 ℃

++++

Methylene chloride

20 ℃

￮

Lactic acid

100%

20 ℃

Mineral oils

40 ℃

++++

Nitrates (ammonium..., K– among

others)

- 60 ℃ ++++

Nitroglycerin

20 ℃

￮

Oxalic acid

20 ℃

++++

Phenol 1% 20 ℃ ++++

Phosphates (ammonium..., Na– among

others)

60 ℃ ++++

Phosphoric acid 50% 60 ℃ ++++

85%

20 ℃

++++

Propanol

20 ℃

++++

Nitric acid

25%

20 ℃

￮

Hydrochloric acid

10%

20 ℃

￮

Brine

60 ℃

￮

Sulfur dioxide

100%

20 ℃

Carbon disulfide

100%

20 ℃

￮

Sulfuric acid

40%

20 ℃

￮

Sulfurous acid

20 ℃

Soap solution

60 ℃

++++

Sulphates (ammonium..., Na– among

others)

- 60 ℃ ++++

Sulfites (ammonium..., Na– among

others)

- 60 ℃ ￮

Tar, aroma-free

60 ℃

++++

Turpentine

20 ℃

++++

Trichloroethylene

20 ℃

￮

Planning the RF200 system

4.3 Installation guidelines

SIMATIC RF200

100 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Hydrogen peroxide

30%

20 ℃

++++

Tartaric acid

20 ℃

++++

Explanation of the rating

++++

Resistant

+++

Practically resistant

Conditionally resistant

Less resistant

￮ Not resistant

Polyamide 6 and Polyamide 6.6 GF30

Table 4- 43 Chemical resistance - PA6 and PA6.6 GF30

Substance

Test conditions

Rating

Concentration [%]

Temperature [°C]

Mineral lubricants

++++

Aliphatic hydrocarbons

++++

Aromatic hydrocarbons

++++

Gasoline

++++

Weak mineral acids

+++

Strong mineral acids

￮

Weak organic acids

Strong organic acids

￮

Oxidizing acids

￮

Weak alkaline solutions

Strong alkaline solutions

￮

Trichloroethylene

++++

Perchloroethylene

++++

Acetone - - ++++

Alcohols

++++

Hot water (hydrolysis resistance)

Explanation of the rating

++++

Resistant

+++ Practically resistant

Conditionally resistant

Less resistant

￮

Not resistant

Planning the RF200 system

4.4 Further information

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 101

4.4

Further information

Further information on "Fundamentals of application planning" and "EMC" can be found in

RF300 system manual (https://support.industry.siemens.com/cs/ww/en/view/21738946).

Planning the RF200 system

4.4 Further information

SIMATIC RF200

102 System Manual, 07/2017, J31069-D0227-U001-A9-7619

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 103

Readers

NOTICE

Pulling and plugging readers

Pull or plug the reader only when the power supply is turned off

If this is not observed, under certain conditions, the reader will not start up correctly and

communication with a transponder will not be possible.

Note

IO-Link variants of the RF200 readers

The IO

-Link variants of the readers are not included in the system manual. You will find

these in the "SIM

ATIC RF200 IO-Link

(

https://support.industry.siemens.com/cs/ww/en/view/60641859)" operating instructions.

Readers

5.1 SIMATIC RF210R

SIMATIC RF200

104 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.1

SIMATIC RF210R

5.1.1

Features

SIMATIC RF210R

Characteristics

Design ① RS422 interface

②

Status display

Application Identification tasks on assembly lines in harsh in-

dustrial environments

5.1.2

RF210R ordering data

Article number

RF210R with RS422 interface (3964R)

6GT2821-1AC10

Readers

5.1 SIMATIC RF210R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 105

5.1.3

Pin assignment RF210R with RS422 interface

Device end 8-pin M12

Assignment

+ 24 V

2 - Transmit

0 V

+ Transmit

+ Receive

- Receive

Unassigned

Ground (shield)

5.1.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 1 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

Readers

5.1 SIMATIC RF210R

SIMATIC RF200

106 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.1.5

Minimum distance between RF210R readers

RF210R side by side

≥ 60 mm

Figure 5-1 Minimum distance between RF210R readers

RF210R face to face

≥ 100 mm

Figure 5-2 Face-to-face distance between two RF210Rs

Readers

5.1 SIMATIC RF210R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 107

5.1.6

Technical specifications of the RF210R reader

Table 5- 2 Technical specifications of the RF210R reader

6GT2821-1AC10

Product type designation

SIMATIC RF210R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

20 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

505 years

Interfaces

Electrical connector design

M12, 8-pin

Standard for interfaces for communication

RS-422

Antenna

integrated

Mechanical specifications

Housing

• Material • Brass, nickel-plated

• Color • Silver

Recommended distance to metal 0 mm

Supply voltage, current consumption, power loss

Supply voltage 24 VDC

Typical current consumption 50 mA

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +70 °C

Readers

5.1 SIMATIC RF210R

SIMATIC RF200

108 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2821-1AC10

• During transportation and storage • -25 … +85 °C

Degree of protection to EN 60529

IP67

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (∅ x thread x L)

M18 x 1 x 83 mm

Weight

65 g

Type of mounting

2x nuts M18 x 1

Cable length for RS-422 interface, maximum

1000 m

LED display design 3-color LED

(operating voltage, presence, error)

5.1.7

Approvals

FCC information

Siemens SIMATIC RF210R (MLFB 6GT2821-1AC10) FCC ID NXW-RF210R

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, and

(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.

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

Readers

5.1 SIMATIC RF210R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 109

IC 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.

5.1.8

Dimension drawing

Figure 5-3 RF210R dimension drawing

Dimensions in mm

Readers

5.2 SIMATIC RF210M

SIMATIC RF200

110 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.2

SIMATIC RF210M

5.2.1

Features

SIMATIC RF210M

Characteristics

Design ① RS422 interface

②

Status display

Application Reader for hand work and rework places, picking,

track and trace, tool Ident

5.2.2

Ordering data RF210M

Article number

RF210M with RS-422 interface (3964R)

6GT2823-0AA00

Readers

5.2 SIMATIC RF210M

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 111

5.2.3

Installing the RF210M reader

The following figure shows the completely mounted reader. Note that you can mount the

suspension bracket at two different points ①. If you do not mount the handle, we

recommend that you close the opening ② with the protective cap.

①

Holes for mounting the suspension bracket

②

Thread for mounting the handle

Figure 5-4 Installing the reader

Readers

5.2 SIMATIC RF210M

SIMATIC RF200

112 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.2.4

Pin assignment RF210M with RS-422 interface

Device end 8-pin M12

Assignment

+ 24 V

2 - Transmit

0 V

+ Transmit

+ Receive

- Receive

Unassigned

Ground (shield)

5.2.5

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 3 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

Readers

5.2 SIMATIC RF210M

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 113

5.2.6

Technical specifications of the RF210M reader

Table 5- 4 Technical specifications of the RF210M reader

6GT2823-0AA00

Product type designation

SIMATIC RF210M

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

20 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

505 years

Interfaces

Electrical connector design

M12, 8-pin

Standard for interfaces for communication

RS-422

Antenna

integrated

Mechanical specifications

Housing

• Material • POM

• Color • Black

Supply voltage, current consumption, power loss

Supply voltage

24 VDC

Typical current consumption 50 mA

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +50 °C

• During transportation and storage • -25 … +60 °C

Readers

5.2 SIMATIC RF210M

SIMATIC RF200

114 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2823-0AA00

Degree of protection to EN 60529

IP54

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Design, dimensions and weight

Dimensions

• Reader with handle (L x W x H) 195 x 26 x 140 mm

• Reader without handle (L x W x H) 195 x 26 x 46 mm

• Spiral connecting cable (L) 2 m

maximum working length 3.5 m

Weight

460 g

Type of mounting

Bracket for for hanging up

Cable length for RS-422 interface, maximum

1000 m

LED display design 3-color LED

(operating voltage, presence, error)

5.2.7

Approvals

FCC information

Siemens SIMATIC RF210R (MLFB 6GT2821-1AC10) FCC ID NXW-RF210R

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, and

(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.

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

Readers

5.2 SIMATIC RF210M

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 115

IC 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.

5.2.8

Dimension drawing

Figure 5-5 Dimension drawing RF210M

All dimensions in mm, tolerances ± 1 mm

Readers

5.3 SIMATIC RF220R

SIMATIC RF200

116 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.3

SIMATIC RF220R

5.3.1

Features

SIMATIC RF220R

Characteristics

Design ① RS422 interface

②

Status display

Application Identification tasks on assembly lines in harsh in-

dustrial environments

5.3.2

RF220R ordering data

Article number

RF220R with RS-422 interface (3964R)

6GT2821-2AC10

Readers

5.3 SIMATIC RF220R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 117

5.3.3

RF220R pin assignment with RS422 interface

Device end 8-

pin M12

Assignment

+ 24 V

2 - Transmit

0 V

+ Transmit

+ Receive

- Receive

Unassigned

Ground (shield)

5.3.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 5 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

Readers

5.3 SIMATIC RF220R

SIMATIC RF200

118 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.3.5

Minimum distance between RF220R readers

RF220R side by side

≥ 100 mm

Figure 5-6 Minimum distance between RF220R readers

RF220R face to face

≥ 150 mm

Figure 5-7 Face-to-face distance between two RF220Rs

Readers

5.3 SIMATIC RF220R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 119

5.3.6

Technical specifications of the RF220R reader

Table 5- 6 Technical specifications of the RF220R reader

6GT2821-2AC10

Product type designation

SIMATIC RF220R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

35 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

501 years

Interfaces

Electrical connector design

M12, 8-pin

Standard for interfaces for communication

RS-422

Antenna

integrated

Mechanical specifications

Housing

• Material • Brass, nickel-plated

• Color • Silver

Recommended distance to metal 0 mm

Supply voltage, current consumption, power loss

Supply voltage 24 VDC

Typical current consumption 50 mA

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +70 °C

Readers

5.3 SIMATIC RF220R

SIMATIC RF200

120 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2821-2AC10

• During transportation and storage • -25 … +85 °C

Degree of protection to EN 60529

IP67

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (∅ x thread x L)

M30 x 1.5 x 83 mm

Weight

140 g

Type of mounting

2x nuts M30 x 1.5

Cable length for RS-422 interface, maximum

1000 m

LED display design 3-color LED

(operating voltage, presence, error)

5.3.7

Approvals

FCC information

Siemens SIMATIC RF220R (MLFB 6GT2821-2AC10) FCC ID NXW-RF220R

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, and

(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.

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

Readers

5.3 SIMATIC RF220R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 121

IC 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.

5.3.8

Dimension drawing

Figure 5-8 RF220R dimension drawing

Dimensions in mm

Readers

5.4 SIMATIC RF240R

SIMATIC RF200

122 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.4

SIMATIC RF240R

5.4.1

Features

SIMATIC RF240R

Characteristics

Structure ① RS-422 or RS-232 interface

②

Operating indicator

Field of application Identification tasks on assembly lines in harsh in-

dustrial environments

5.4.2

RF240R ordering data

Article number

RF240R with RS-422 interface (3964R)

6GT2821-4AC10

RF240R with RS-232 interface (3964R)

6GT2821-4AC11

RF240R with RS-232 interface (ASCII)

6GT2821-4AC40

Readers

5.4 SIMATIC RF240R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 123

5.4.3

Pin assignment RF240R

Device end 8-

pin M12

Interface assignment

RS-422

RS-232

+24 V

2 - Transmit RXD

0 V

+ Transmit

TXD

+ Receive

Unassigned

- Receive

Unassigned

Ground (shield)

5.4.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 7 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

Readers

5.4 SIMATIC RF240R

SIMATIC RF200

124 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.4.5

Minimum distance between several RF240R readers

RF240R readers side by side

≥ 120 mm (with 2 readers)

≥ 200 mm (with more than 2 readers)

Figure 5-9 Minimum distance between several RF240R readers

RF240R face-to-face

≥ 400 mm

Figure 5-10 Face-of-face distance between two RF240R readers

Readers

5.4 SIMATIC RF240R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 125

5.4.6

Technical specifications of the RF240R reader

Table 5- 8 Technical specifications of the RF240R reader

6GT2821-4AC10

6GT2821-4AC11

6GT2821-4AC40

Product type designation

SIMATIC RF240R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

65 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

430 years

Interfaces

Electrical connector design

M12, 8-pin

Standard for interfaces for communication

• 6GT2821-4AC10 • RS-422 (3964R protocol)

• 6GT2821-4AC11 • RS-232 (3964R protocol)

• 6GT2821-4AC40 • RS-232 (ASCII protocol)

Antenna

integrated

Mechanical specifications

Housing

• Material • Plastic PA 6.6

• Color • Anthracite

Recommended distance to metal 0 mm

Readers

5.4 SIMATIC RF240R

SIMATIC RF200

126 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2821-4AC10

6GT2821-4AC11

6GT2821-4AC40

Supply voltage, current consumption, power loss

Supply voltage

24 VDC

Typical current consumption

25 mA

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +70 °C

• During transportation and storage • -25 … +85 °C

Degree of protection to EN 60529

IP67

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (L x W x H)

50 × 50 × 30 mm

Weight

60 g

Type of mounting 2 x M5 screw

1.5 Nm

Cable length, maximum • RS-422: max. 1000 m

• RS-232: max. 30 m

LED display design 3-color LED

(operating voltage, presence, error)

Readers

5.4 SIMATIC RF240R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 127

5.4.7

Approvals

FCC information

Siemens SIMATIC RF240R (MLFB 6GT2821-4AC10) FCC ID NXW-RF240R

Siemens SIMATIC RF240R (MLFB 6GT2821-4AC11) FCC ID NXW-RF240R

Siemens SIMATIC RF240R (MLFB 6GT2821-4AC40) FCC ID NXW-RF240R

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, and

(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.

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

IC 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.

Readers

5.5 SIMATIC RF250R

SIMATIC RF200

128 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.4.8

Dimension drawing

Figure 5-11 Dimension drawing RF240R

Dimensions in mm

5.5

SIMATIC RF250R

5.5.1

Features

SIMATIC RF250R

Characteristics

Structure ① RS-422 or RS-232 interface

② Operating indicator

③

Antenna connector, M8

Area of application Identification tasks on assembly lines in harsh in-

dustrial environments

Readers

5.5 SIMATIC RF250R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 129

Note

Reader requires external antennas

Note that the RF250R reader is designed only for operation with external antennas and can

only be operated in conjunction with the antennas ANT 3, ANT 8, ANT 12, ANT 18 o

r ANT

30.

5.5.2

Ordering data RF250R

Article number

RF250R with RS-422 interface (3964R)

6GT2821-5AC10

RF250R with RS-232 interface (ASCII)

6GT2821-5AC40

5.5.3

Pin assignment RF250R

Device end 8-

pin M12

Interface assignment

RS-422

RS-232

+24 V

- Transmit

RXD

0 V

+ Transmit

TXD

+ Receive

Unassigned

- Receive

Unassigned

Ground (shield)

5.5.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 9 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

Readers

5.5 SIMATIC RF250R

SIMATIC RF200

130 System Manual, 07/2017, J31069-D0227-U001-A9-7619

LED

Meaning

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

5.5.5

Technical specifications of the RF250R reader

Table 5- 10 Technical specifications of the RF250R reader

6GT2821-5AC10

6GT2821-5AC40

Product type designation

SIMATIC RF250R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

35 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 or 1.2 ms

• for read access • 0.6 or 1.2 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

430 years

Interfaces

Electrical connector design

M8, 4-pin

Standard for interfaces for communication

• RS-422 • 3964R protocol

• RS-232 • ASCII protocol

Readers

5.5 SIMATIC RF250R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 131

6GT2821-5AC10

6GT2821-5AC40

Antenna external, ANT 8, ANT 12, ANT 18, ANT 30 can

be connected

Mechanical specifications

Housing

• Material • Plastic PA 6.6

• Color • Anthracite

Recommended distance to metal

0 mm

Supply voltage, current consumption, power loss

Supply voltage

24 VDC

Typical current consumption

50 mA

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +70 °C

• During transportation and storage • -25 … +85 °C

Degree of protection to EN 60529

IP65

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (L x W x H)

50 × 50 × 30 mm

Weight

60 g

Type of mounting 2 x M5 screw

1.5 Nm

Cable length, maximum • RS-422: max. 1000 m

• RS-232: max. 30 m

LED display design 3-color LED

5.5.6

Approvals

FCC information

Siemens SIMATIC RF250R (MLFB 6GT2821-5AC10) FCC ID NXW-RF250R

Siemens SIMATIC RF250R (MLFB 6GT2821-5AC40) FCC ID NXW-RF250R

Readers

5.5 SIMATIC RF250R

SIMATIC RF200

132 System Manual, 07/2017, J31069-D0227-U001-A9-7619

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, and

(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.

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

IC 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.

If the antenna is detachable, require the following two conditions:

(1) To reduce potential radio interference to other users, the antenna type should be chosen

that the radiated power is not more than that permitted for successful communication.

(2) This device has been designed to operate with the antennas listed below. Antennas not

included in this list are strictly prohibited for use with this device. The required antenna

impedance is 50 Ω.

Si l'antenne est amovible, demandez les deux conditions suivantes :

(1) Afin de réduire le risque d'interférence aux autres utilisateurs, il faut choisir le type

d'antenne et son gain de façon à ce que la puissance rayonnée ne soit pas supérieure au

niveau requis pour l'obtention d'une communication satisfaisante.

Readers

5.5 SIMATIC RF250R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 133

(2) Ce dispositif a été conçu pour fonctionner avec les antennes énumérées ci-dessous. Les

antennes non incluses dans cette liste sont strictement interdites pour l'exploitation de ce

dispositif. L'impéance d'antenne requise est 50 Ω.

5.5.7

Dimension drawing

Figure 5-12 Dimension drawing RF250R

Dimensions in mm

Readers

5.6 SIMATIC RF260R

SIMATIC RF200

134 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.6

SIMATIC RF260R

5.6.1

Features

SIMATIC RF260R

Characteristics

Structure ① RS-422 or RS-232 interface

②

Operating indicator

Field of application Identification tasks on assembly lines in harsh in-

dustrial environments

5.6.2

Ordering data for RF260R

Article number

RF260R with RS-422 interface (3964R)

6GT2821-6AC10

RF260R with RS-232 interface (3964R)

6GT2821-6AC11

RF260R with RS-232 interface (ASCII)

6GT2821-6AC40

Readers

5.6 SIMATIC RF260R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 135

5.6.3

Pin assignment RF260R

Device end 8-

pin M12

Interface assignment

RS-422

RS-232

+24 V

2 - Transmit RXD

0 V

+ Transmit

TXD

+ Receive

Unassigned

- Receive

Unassigned

Ground (shield)

5.6.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 11 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

Readers

5.6 SIMATIC RF260R

SIMATIC RF200

136 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.6.5

Minimum distance between several RF260R

RF260R side by side

≥ 150 mm (with 2 readers)

≥ 250 mm (with more than 2 readers)

Figure 5-13 Minimum distance between several RF260R

RF260R face to face

≥ 500 mm

Figure 5-14 Face-to-face distance between two RF260R

Readers

5.6 SIMATIC RF260R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 137

5.6.6

Technical data of the RF260R reader

Table 5- 12 Technical specifications of the RF260R reader

6GT2821-6AC10

6GT2821-6AC11

6GT2821-6AC40

Product type designation

SIMATIC RF260R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

135 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

480 years

Interfaces

Electrical connector design

M12, 8-pin

Standard for interfaces for communication

• 6GT2821-6AC10 • RS-422 (3964R protocol)

• 6GT2821-6AC11 • RS-232 (3964R protocol)

• 6GT2821-6AC40 • RS-232 (ASCII protocol)

Antenna

integrated

Mechanical specifications

Housing

• Material • Plastic PA 6.6

• Color • Anthracite

Recommended distance to metal 0 mm

Supply voltage, current consumption, power loss

Readers

5.6 SIMATIC RF260R

SIMATIC RF200

138 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2821-6AC10

6GT2821-6AC11

6GT2821-6AC40

Supply voltage

24 VDC

Typical current consumption

50 mA

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +70 °C

• During transportation and storage • -25 … +80 °C

Degree of protection to EN 60529

IP67

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (L x W x H)

75 × 75 × 41 mm

Weight

200 g

Type of mounting 2 x M5 screw

1.5 Nm

Cable length, maximum • RS-422: max. 1000 m

• RS-232: max. 30 m

LED display design 3-color LED

(operating voltage, presence, error)

5.6.7

Approvals

FCC information

Siemens SIMATIC RF260R (MLFB 6GT2821-6AC10) FCC ID NXW-RF260R

Siemens SIMATIC RF260R (MLFB 6GT2821-6AC11) FCC ID NXW-RF260R

Siemens SIMATIC RF260R (MLFB 6GT2821-6AC40) FCC ID NXW-RF260R

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, and

(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.

Readers

5.6 SIMATIC RF260R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 139

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

IC 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.

5.6.8

Dimension drawing

Figure 5-15 Dimension drawing RF260R

Dimensions in mm

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

140 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.7

SIMATIC RF280R

5.7.1

Features

SIMATIC RF280R

Characteristics

Structure ① RS-422 or RS-232 interface

②

Operating indicator

Field of application Identification tasks on assembly lines in harsh in-

dustrial environments

5.7.2

Ordering data RF280R

Article number

RF280R with RS422 interface (3964R)

6GT2821-8AC10

RF280R with RS232 interface (ASCII)

6GT2821-8AC40

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 141

5.7.3

Pin assignment RF280R

Device end 8-

pin M12

Interface assignment

RS-422

RS-232

+24 V

2 - Transmit RXD

0 V

+ Transmit

TXD

+ Receive

Unassigned

- Receive

Unassigned

Ground (shield)

5.7.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 13 LED operating display on the reader

LED

Meaning

The reader is turned off.

Operating voltage present, reader not initialized or antenna switched off

Operating voltage present, reader initialized and antenna switched on

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present and command

currently being executed

There is an error. The number of flashes provides information about the cur-

rent error. You can find more information on error messages in the section

"Error codes of the RF200 readers (Page 329)". The optical error display is

only reset if the corresponding reset parameter ("option_1 = 2") is set (see

product information "SIMATIC RF200 Command Set

(https://support.industry.siemens.com/cs/ww/en/view/44864850)").

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

142 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.7.5

Minimum distance between RF280R readers

RF280R side-by-side

≥ 150 mm (with 2 readers)

≥ 250 mm (with more than 2 readers)

Figure 5-16 Minimum distance between RF280R readers

RF280R Face-to-Face

≥ 800 mm

Figure 5-17 Face-to-face distance between two RF280R

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 143

5.7.6

Technical specifications of the RF280R reader

Table 5- 14 Technical specifications of the RF280R reader

6GT2821-8AC10

6GT2821-8AC40

Product type designation

SIMATIC RF280R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

200 mm

Maximum data transmission speed

reader ↔ transponder

ISO transponder

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

172.6 years

Interfaces

Electrical connector design

M12, 8-pin

Standard for interfaces for communication

• 6GT2821-6AC10 • RS-422 (3964R protocol)

• 6GT2821-6AC40 • RS-232 (ASCII protocol)

Antenna

integrated

Mechanical specifications

Housing

• Material • Plastic PA 12

• Color • TI grey

Recommended distance to metal

0 mm

Supply voltage, current consumption, power loss

Supply voltage

24 VDC

Typical current consumption

130 mA

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

144 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2821-8AC10

6GT2821-8AC40

Permitted ambient conditions

Ambient temperature

• During operation • -25 … +70 °C

• During transportation and storage • -40 … +85 °C

Degree of protection to EN 60529

IP67

Shock-resistant to EN 60721-3-7, Class 7 M3

500 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

200 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (L x W x H)

160 x 80 x 41 mm

Weight

470 g

Type of mounting 4x screws M5

≤ 1.5 Nm

Cable length, maximum • RS-422: max. 1000 m

• RS-232: max. 30 m

LED display design 3-color LED

(operating voltage, presence, error)

Standards, specifications, approvals

Proof of suitability Radio according to R&TTE directives EN 300330,

EN 301489, CE, FCC, UL/CSA

5.7.7

Approvals

FCC information

Siemens SIMATIC RF280R (MLFB 6GT2821-8AC10) FCC ID NXW-RF280R

Siemens SIMATIC RF280R (MLFB 6GT2821-8AC40) FCC ID NXW-RF280R

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, and

(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.

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 145

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

IC 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.

Readers

5.7 SIMATIC RF280R

SIMATIC RF200

146 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.7.8

Dimension drawing

Figure 5-18 Dimensional drawing of RF280R

Dimensions in mm

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 147

5.8

SIMATIC RF290R

5.8.1

Features

SIMATIC RF290R

Characteristics

Design ① RS-422/RS-232 interface, 24 V power supply

② Digital I/O

③ External antenna

④ Operating display, 4 LEDs:

• Power (PWR)

• Active (ACT)

• Present (PRE)

• Error (ERR)

Application Identification tasks in production control and in

intra-logistics, e.g. skid identification, container

management, HF gates (F&B)

When connected via a PC multitag operation is

possible.

Note

Reader requires external antennas

Note that the RF290R reader is designed only for operation with external antennas and can

only be operated in

conjunction with the antennas ANT D5, D6 or D10.

Note

Note on operating the reader with ANT D6 / D10

When operating with a power

≥ 3 W, the limits are adhered to according to 2004/40/EC

(minimum requirements concerning the protection of workers). Note that the antennas may

only be used in an "industrial environment" and not in buildings used by the public.

5.8.2

Ordering data RF290R

Table 5- 15 Ordering data RF290R

Article number

RF290R

with RS-232 interface for PC mode and RS-422 interface for CM mode

6GT2821-0AC12

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

148 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Table 5- 16 Ordering data - accessories - RF290R

Article number

24 V connecting cable

5 m

6GT2491-1HH50

RS-232 connecting cable, with 4-pin M12 connector for

24 V for connection to the wide-range power supply unit

5 m 6GT2891-4KH50

RS-232 connecting cable with open cable ends for 24 V

5 m

6GT2891-4KH50-0AX0

Adapter for mounting on a DIN rail (pack of 3) 6GK5798-8ML00-0AB3

Wide-range power supply unit for SIMATIC RF-systems

(100 - 240 VAC / 24 VDC / 3 A)

with 2 m connecting cable with country-specific plug

EU: 6GT2898-0AA00

UK: 6GT2898-0AA10

US: 6GT2898-0AA20

Connecting cables

Reader ↔ ASM 475

2 m

6GT2891-4EH20

5 m

6GT2891-4EH50

Connecting / extension cable

Reader ↔ CM/ASM

for RF200 / RF300 / RF600 / MV400

or extension cable MOBY U/D

2 m

6GT2891-4FH20

5 m

6GT2891-4FH50

10 m

6GT2891-4FN10

20 m

6GT2891-4FN20

50 m

6GT2891-4FN50

Antennas

Antenna ANT D5

6GT2698-5AA10

Antenna ANT D6

6GT2698-5AB00

Covering hood for ANT D6

6GT2690-0AD00

Antenna ANT D10

6GT2698-5AF00

Accessories for connecting multiple antennas to SIMATIC RF290R

Antenna multiplexer

incl. one antenna connecting cable 0.4 m

6GT2894-0EA00

Antenna splitter

incl. one antenna connecting cable 3.3 m

6GT2690-0AC00

Antenna cables

Antenna cable

3.3 m

6GT2691-0CH33

10.5 m

6GT2691-0CN10

Antenna cable extension

7.2 m

6GT2691-0DH72

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 149

5.8.3

Pin assignment RF290R

RS422/RS232

Table 5- 17 Pin assignment of the RS-422/RS 232 interface

Device end 8-

pin M12

Interface assignment

RS-422

RS-232

+24 V

2 - Transmit RXD

0 V

+ Transmit

TXD

+ Receive

not used

- Receive

not used

Ground (shield)

Digital I/O

only possible in PC mode (RS-232)

Table 5- 18 Pin assignment of the digital I/O interface

Device end 4-

pin M12

Socket assignment

DO - relay contact COM (Common)

DO - relay contact NO (Normaly Open, NO contact)

DI - switched input, +24 V

4 DI - ground, 0 V

Figure 5-19 Pin assignment of the power supply connector

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

150 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Digital input (DI):

The opto-coupler input is electrically isolated from the reader electronics. The external 24 V

must be connected to the DI according to the circuit diagram. Make sure that the polarity of

the 24 V is correct. The current is limited to < 10 mA by the integrated resistor.

NOTICE

Reader may be damaged

If you exceed the maximum permitted supply voltage, the reader may be damaged. Make

sure that the input voltage does not exceed the maximum permitted supply voltage of the

reader.

Digital output (DO):

At the relay output, a NO contact is available. The output is electrically isolated from the

reader electronics and therefore needs to be supplied externally.

NOTICE

Reader may be damaged

If you exceed the maximum permitted voltage of 24 V / 1 A at the relay output, the reader

may be damaged. Make sure that the voltage does not exceed 24 V.

The output is intended only for switching resistive loads. If it is used to switch inductive

loads, the reader may be damaged. Make sure that if inductive loads occur, the relay

contacts are protected by an external suppressor circuit.

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 151

5.8.4

LED operating display

The operational statuses of the reader are displayed by the LEDs. The LED can adopt the

colors green, red or yellow and the statuses off , on , flashing :

Table 5- 19 LED operating display on the reader

Labeling

LED

Meaning

The reader is turned off.

PWR CM mode:

Operating voltage present, reader not initialized or antenna

switched off

CM mode:

Operating voltage present, reader initialized and antenna

switched on

PC mode:

Supply voltage is on

ACT

Communication on the data line

PRE

• Operating mode "with presence": Transponder present

• Operating mode "without presence": Transponder present

and command currently being executed

ERR CM mode:

There is an error. The number of flashes provides information

about the current error. You can find more information on error

messages in the section "Error codes of the RF200 readers

(Page 329)". The optical error display is only reset if the corre-

sponding reset parameter ("option_1 = 2") is set (see Product

Information " Product information "SIMATIC RF200 command

set"

(https://support.industry.siemens.com/cs/ww/en/view/44864850

)").

PC mode:

Error when connecting the antenna or the interference level in

the antenna environment is too high

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

152 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.8.5

Installing the RF290R reader

5.8.5.1

Wall mounting

Use the holes in the housing to screw the device to the wall or onto a horizontal surface. The

position of the drill holes is shown in the following figure:

Figure 5-20 Drilling pattern for the RF290R (dimensions in mm)

A: M4 threaded socket for potential connection of the reader. You will find further information

on the potential connection in the section "Further information (Page 101)".

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 153

5.8.5.2

Installing on the S7-300 standard rail

Follow the steps below to mount the RF290R reader on a vertical S7-300 standard rail:

1. Place the device on the upper edge of the S7-300 standard rail (position A).

2. Screw the device to the mounting rail (position B).

Figure 5-21 Installing the RF290R reader on the S7-300 standard rail

5.8.5.3

Installation on a DIN rail

The RF290R reader is suitable for installation on 35 mm rails that comply with DIN EN

50022.

Note

The adapter for mounting on a DIN rail does not ship with the RF290R

The adapter for mounting on a DIN rail does not ship with the product. You can obtain a pack

of three with the following article number: 6GK5798

-8ML00-0AB3.

The mounting fittings consist of the following parts:

•

1 DIN rail slider

•

1 spring

•

2 screws

Fit the adapter to the rear of the device as shown in the following figure:

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

154 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Figure 5-22 Mounting the DIN rail adapter

Follow the steps below to mount the RF290R reader on a DIN rail:

1. Place the device on the upper edge of the DIN rail (position A).

2. Pull the spring-mounted DIN rail slider (position B) down and press the device against the

DIN rail until it locks in place.

Figure 5-23 Mounting the RF290R reader on a DIN rail

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 155

5.8.6

Technical specifications of the RF290R reader

Table 5- 20 Technical specifications of the RF290R reader

6GT2821-0AC12

Product type designation

SIMATIC RF290R

Radio frequencies

Operating frequency, rated value

13.56 MHz

Electrical data

Maximum range

65 mm

Maximum data transmission speed

reader ↔ transponder

ISO tags

• Read • approx. 1500 bytes/s

• Write • approx. 1500 bytes/s

Typical transmission time for user data per byte

• for write access • 0.6 ms

• for read access • 0.6 ms

Multitag capability

When connected via a PC

Transmission speed

19.2, 57.6, 115.2 kBd

Read/write distances of the reader

see section "Field data (Page 39)"

MTBF (Mean Time Between Failures)

18 years

Interfaces

Electrical connector design

TNC

Standard for interfaces for communication • RS-422

• RS-232

Antenna

external, ANT D5, D6 or D10 can be connected

Mechanical specifications

Housing

• Material • Aluminum die-casting

• Color • Silver/anthracite

Recommended distance to metal

0 mm

Supply voltage, current consumption, power loss

Supply voltage

24 VDC (± 10%)

Typical current consumption 400 mA (at 24 V and 5 W)

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

156 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6GT2821-0AC12

Permitted ambient conditions

Ambient temperature

• During operation • -20 … +55 °C

• During transportation and storage • -25 … +85 °C

Degree of protection to EN 60529

IP65

Shock-resistant to EN 60721-3-7, Class 7 M3

300 m/s

Vibration-resistant to EN 60721-3-7, Class 7 M3

20 m/s

Torsion and bending load

Not permitted

Design, dimensions and weight

Dimensions (W x H x D)

200 × 80 × 140 mm

Weight

1.8 kg

Type of mounting 2 x M5 screw

1.5 Nm

Cable length, maximum • RS-422: max. 1000 m

• RS-232: max. 30 m

LED display design

4 LEDs

5.8.7

Approvals

FCC information

Siemens SIMATIC RF290R (MLFB 6GT2821-0AC12) FCC ID NXW-RF290R

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, and

(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.

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 157

Note

This equipment has been tested and found to comply with the limits for a Class A digital

device, pursuant to part 15 of the FCC Rules.

These limits are designed to provide reasonable protection against harmful interference

when the equipment is operated in a commercial environment. This equipment generates,

uses, and can radiate radio frequency energy and, if not installed and used in accordance

with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in

which case the user will be required to correct the interference at his own expense.

IC 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.

If the antenna is detachable, require the following two conditions:

(1) To reduce potential radio interference to other users, the antenna type should be chosen

that the radiated power is not more than that permitted for successful communication.

(2) This device has been designed to operate with the antennas listed below. Antennas not

included in this list are strictly prohibited for use with this device. The required antenna

impedance is 50 Ω.

Si l'antenne est amovible, demandez les deux conditions suivantes :

(1) Afin de réduire le risque d'interférence aux autres utilisateurs, il faut choisir le type

d'antenne et son gain de façon à ce que la puissance rayonnée ne soit pas supérieure au

niveau requis pour l'obtention d'une communication satisfaisante.

(2) Ce dispositif a été conçu pour fonctionner avec les antennes énumérées ci-dessous. Les

antennes non incluses dans cette liste sont strictement interdites pour l'exploitation de ce

dispositif. L'impéance d'antenne requise est 50 Ω.

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

158 System Manual, 07/2017, J31069-D0227-U001-A9-7619

5.8.8

Note on the use of the RF290R as a replacement for SLG D10 / SLG D10S

The RF290R reader is the successor to the MOBY D readers SLG D10 / SLG D10S

rounding off the RF200 family; it is operated with external antennas. The following features

distinguish the RF290R from the SLG models:

Table 5- 21 Differences between the RF290R readers and SLG D10 / SLG D10S

Properties SLG D10/SLG D10S

Properties RF290R

Two devices with different interfaces RS-232/RS-422 interface and PC/CM functionali-

ty in one device

M 12, 4-pin male connector for the power supply

9-pin D-sub male connector for connection to the

various communications modules

M12, 8-pin male connector for the power supply

and for direct connection to the various commu-

nications modules

no digital I/O M12, 4-pin female connector for digital I/O (can

only be used in PC mode)

no operating display via LEDs

operating display by four LEDs

Maximum transmit power of 10 W

Maximum transmit power of 5 W

One securing option

Different securing options

Standard protocol in ISO host mode (in PC

mode)

Advanced protocol in ISO host mode (in PC

mode)

Amplitude Shift Keying (ASK) and Frequency

Shift Keying (FSK) modes possible

Amplitude Shift Keying (ASK) mode possible

Support of "ICode1" and "TagIt" and ISO 15693-

compatible transponders

Support of ISO 15693-compatible transponders

The total memory for "repeat_command" is lim-

ited to 32 kB

The total memory for "repeat_command" is lim-

ited to 16 kB

The RF290R reader connectors are compatible with the SLG D10 if a Y connecting cable is used

(6GT2891-4KH50, 6GT2891-4KH50-0AX0).

2) In ISO host mode (in PC mode), a program adaptation is necessary

Readers

5.8 SIMATIC RF290R

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 159

5.8.9

Dimension drawing

Figure 5-24 Dimensional drawing RF290R (dimensions in mm)

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 161

Antennas

Note

The RF250R and RF290R readers require external antennas

Note that the RF250R and RF290R readers are designed for operation with external

antennas.

The RF250R reader can only be used in conjunction with the antennas ANT 3, 8, 12, 18 or

30. The RF290R reader can only be used in conjunction with the antennas

ANT D5, D6 or

D10.

6.1

ANT 1

6.1.1

Characteristics

ANT 1

Characteristics

Area of application

Small assembly lines

Read/write distance

up to 140 mm (depending on the transponder)

Connecting cable

3 m (plug-in antenna cable)

Connectable readers

RF250R

Degree of protection IP67

6.1.2

Ordering data

Table 6- 1 Ordering data ANT 1

Antenna

Article number

ANT 1

(including one plug-in antenna cable 3 m)

6GT2398-1CB00

Table 6- 2 Ordering data ANT 1 accessories

Accessories

Article number

Antenna cable, 3 m

6GT2398-0AH30

Antennas

6.1 ANT 1

SIMATIC RF200

162 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6.1.3

Flush-mounted in metal

The tuning of the ANT 1 antenna is optimized for mounting in metal.

= 40 mm

Figure 6-1 ANT 1 flush-mounted in metal

6.1.4

Operating / limit distances

The operating / limit distances listed in the following table relate to an ANT 1 mounted in

metal.

Table 6- 3 Operating / limit distances of the transponders

RF250R with ANT 1

Operating distance (Sa)

RF250R with ANT 1

Limit distance (Sg)

MDS D100

5...110

140

MDS D124

2...65 85

MDS D126

2...90

120

MDS D139

5...85

115

MDS D160

2...35

MDS D165

5...100

120

MDS D200

5...95

115

MDS D261

5...80

MDS D324

2...66

MDS D339

5...90

105

MDS D400

2...110

135

MDS D423

10...40

MDS D424

2...75

MDS D425

2...25

MDS D426

2...85

MDS D428

2...40

Antennas

6.1 ANT 1

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 163

RF250R with ANT 1

Operating distance (Sa)

RF250R with ANT 1

Limit distance (Sg)

MDS D460

2...32

MDS D524

2...65 85

MDS D525

2...25

MDS D526

2...85

105

MDS D528

2...35

All values are in mm

6.1.5

Minimum clearances

Note

Extension of the data transmission time if distance values are undershot

If the distance values specified in the tables are undershot, it is possible that the inductive

fields will be affected. In this cas

e, the data transmission time can increase unpredictably or

a command is aborted with an error.

For this reason, please observe the values in the tables.

Minimum distances from transponder to transponder (without multitag mode)

Table 6- 4 Minimum distances transponder edge to transponder edge

MDS D423 /

MDS D425

MDS D126 / MDS D160 /

MDS D165 / MDS D200 /

MDS D339 / MDS D426 /

MDS D428 / MDS D460

MDS D100 / MDS D124 /

MDS D139 / MDS D 261 /

MDS D400 / MDS D424

RF250R with ANT 1

≥ 120 mm

≥ 150 mm

≥ 240 mm

Antennas

6.1 ANT 1

SIMATIC RF200

164 System Manual, 07/2017, J31069-D0227-U001-A9-7619

Minimum distances from antenna to antenna

≥ 300 mm

Figure 6-2 Minimum distance ANT 1

≥ 500 mm

Figure 6-3 Face-to-face minimum distance ANT 1

6.1.6

Technical specifications

6GT2398-1CB00

Product type designation

ANT 1

Electrical data

Maximum write/read distance

ANT ↔ Transponder (Sg)

140 mm

Interfaces

Plug connection

M8, 4-pin; pins on antenna side

Antennas

6.1 ANT 1

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 165

6GT2398-1CB00

Mechanical specifications

Housing

• Material • Plastic PA 12

• Color • Anthracite

MTBF

13698 years

Permitted ambient conditions

Ambient temperature

• During operation • -25 ℃ ... +70 ℃

• During transportation and storage • -40 °C ... +85 °C

Degree of protection to EN 60529

IP67

Shock according to EN 60721-3-7 Class 7 M3

500 m/s

Vibration according to EN 60721-3-7 Class 7 M3

200 m/s

Design, dimensions and weight

Dimensions (L × W × H)

75 x 75 x 20 mm

Weight

225 g

Type of mounting

2 x M5 screws

Cable length

3 m (plug-in antenna cable)

Warning: The values for shock and vibration are maximum values and must not be applied contin-

uously.

6.1.7

Dimension drawing

Figure 6-4 Dimensional drawing of ANT 1 (all values in mm)

Antennas

6.2 ANT 3

SIMATIC RF200

166 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6.2

ANT 3

6.2.1

Features

ANT 3

Characteristics

Area of application

Small assembly lines

Writing/reading distance up to 50 mm (depending on the transponder)

Connecting cable

3 m (plug-in antenna cable)

Connectable readers

RF250R

Degree of protection IP67

6.2.2

Ordering data

Table 6- 5 Ordering data ANT 3

Antenna

Article number

ANT 3

(without antenna cable)

6GT2398-1CD30-0AX0

ANT 3

(incl. one plug-in antenna cable 3 m)

6GT2398-1CD40-0AX0

Table 6- 6 Ordering data ANT 3 accessories

Accessories

Article number

Antenna cable, 3 m

6GT2398-0AH30

Antennas

6.2 ANT 3

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 167

6.2.3

Mounting on/in metal

The tuning of the ANT 3 antenna is optimized for mounting on metal.

①

ANT 3

②

Metal

Figure 6-5 ANT 3 mounted on metal

①

ANT 3

②

Metal

= 10 mm

Figure 6-6 ANT 3 flush-mounted in metal

Antennas

6.2 ANT 3

SIMATIC RF200

168 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6.2.4

Operating / limit distances

The operating / limit distances listed in the following table relate to an ANT 3 mounted on

metal.

Table 6- 7 Operating / limit distances of the transponders

RF250R with ANT 3

Operating distance (Sa)

RF250R with ANT 3

Limit distance (Sg)

MDS D124

2 ... 32

MDS D160

1 ... 16 20

MDS D324

2 ... 32

MDS D422

1 ... 12

MDS D423

(without metal)

0 ... 20 25

MDS D423

(on metal)

0 ... 24 30

MDS D423

(in metal - 10 mm

clearance all

round)

0 ... 24 30

MDS D423

(in metal - 0 mm

clearance all

round)

0 ... 16 20

MDS D424

0 ... 45

MDS D425

0 ... 16

MDS D428

0 ... 25

MDS D460

0 ... 18

MDS D522

1 ... 12

MDS D522

Special variant

1 ... 12 15

MDS D524

1 ... 30

MDS D528

1 ... 20

All values are in mm

Antennas

6.2 ANT 3

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 169

6.2.5

Minimum spacing

Note

Extension of the data transmission time if distance values are undershot

If the distance values specified in the tables are undershot, it is possible that the inductive

fields will be affected. In this case, the

data transmission time can increase unpredictably or

a command is aborted with an error.

For this reason, please observe the values in the tables.

Minimum distances from transponder to transponder (without multitag mode)

Table 6- 8 Minimum distances transponder edge to transponder edge

MDS D124 / MDS D160 / MDS D324 /

MDS D423 / MDS D424 / MDS D428 /

MDS D460 / MDS D524 / MDS D528

MDS D422 / MDS D425 / MDS D522

RF250R with ANT 3

> 80 mm

> 60 mm

Minimum distances from antenna to antenna

≥ 150 mm

Figure 6-7 Minimum distance for ANT 3

Antennas

6.2 ANT 3

SIMATIC RF200

170 System Manual, 07/2017, J31069-D0227-U001-A9-7619

≥ 200 mm

Figure 6-8 Face-to-face distance between two ANT 3s

6.2.6

Technical data

6GT2398-1CD30-0AX0

6GT2398-1CD40-0AX0

Product type designation

ANT 3

Electrical data

Maximum write/read distance

ANT ↔ Transponder (S

)

50 mm

Interfaces

Plug connection M8, 4-pin socket on antenna side (with antenna

connecting cable: pin cable end)

Mechanical specifications

Housing

• Material • Plastic PA6-V0

• Color • Black

MTBF

13698 years

Permitted ambient conditions

Ambient temperature

• During operation • -25 ℃ ... +70 ℃

• During transportation and storage • -40 °C ... +85 °C

Degree of protection to EN 60529 IP67

Shock according to EN 60721-3-7 Class 7 M3

500 m/s

Vibration according to EN 60721-3-7 Class 7 M3

200 m/s

Design, dimensions and weight

Dimensions (L × W × H)

Antennas

6.2 ANT 3

SIMATIC RF200

System Manual, 07/2017, J31069-D0227-U001-A9-7619 171

6GT2398-1CD30-0AX0

6GT2398-1CD40-0AX0

• Housing without antenna connector • 50 × 28 × 10 mm

• Housing with antenna connector • 240 × 28 × 10 mm

Weight

• Housing with antenna connector • Approx. 35 g

• Housing with antenna connector and antenna

cable

• Approx. 160 g

Type of mounting

2 x M4 screws

Cable length

3 m (plug-in antenna cable)

Warning: The values for shock and vibration are maximum values and must not be applied contin-

uously.

6.2.7

Dimension drawing

Figure 6-9 Dimension drawing ANT 3 (all values in mm)

Antennas

6.3 ANT 8

SIMATIC RF200

172 System Manual, 07/2017, J31069-D0227-U001-A9-7619

6.3

ANT 8

6.3.1

Features

ANT 8

Characteristics

Area of application

Tool identification

Writing/reading distance up to 4 mm (depending on the transponder)

Connecting cable

3 m

Connectable readers

RF250R

Degree of protection IP67

6.3.2

Ordering data

Table 6- 9 Ordering data ANT 8

Antenna

Article number

ANT 8

(without antenna cable)

6GT2398-1CF00

ANT 8

(including one plug-in antenna cable 3 m)

6GT2398-1CF10

Table 6- 10 Ordering data ANT 8 accessories

Accessories

Article number

Antenna cable, 3 m

6GT2398-0AH30

Siemens RF280R RFID Reader 13.56 MHz User Manual SIMATIC RF200

Siemens AG RFID Reader 13.56 MHz SIMATIC RF200

Contents

SYH_RF200_76_Part 1

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