6GT2301-0CA00 - SIEMENS - Datasheet.Live

Table of Contents

General 1

Introduction – MOBY E 2

Configuration and Mounting

Guidelines 3

Mobile Data Memories 4

Read/Write Devices

Read/Write Antennas 5

Interfaces 6

Accessories 7

Documentation A

Error Messages B

ASCII Table C

Compatibility D

Published in April 2005

6GT2 397-4BA00-0EA2

Configuration,

Installation and Service

Manual

MOBY E

MOBY E

(4) J31069 D0105 U001 A0 7618

This manual contains notices which you should observe to ensure your own personal safety, as

well as to protect the product and connected equipment. These notices are highlighted in the

manual by a warning triangle and are marked as follows according to the level of danger:

!Danger

indicates that death, severe personal injury or substantial property damage will result if proper

precautions are not taken.

!Warning

indicates that death, severe personal injury or substantial property damage can result if proper

precautions are not taken.

!Caution

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

Caution

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

Note

draws your attention to particularly important information on the product, handling the product, or

to a particular part of the documentation.

The device/system may only be set up and operated in conjunction with this manual.

Only qualified personnel should be allowed to install and work on this equipment. Qualified

persons are defined as persons who are authorized to commission, to ground, and to tag circuits,

equipment, and systems in accordance with established safety practices and standards.

Note the following:

!Warning

This device and its components may only be used for the applications described in the catalog or the

technical description, and only in connection with devices or components from other manufacturers

which have been approved or recommended by Siemens.

This product can only function correctly and safely if it is transported, stored, set up, and installed

correctly, and operated and maintained as recommended.

MOBY, SIMATIC and SINEC are trademarks of SIEMENS AG.

Some of the other designations used in these documents are also registered trademarks; the own-

er’s rights may be violated if they are used by third parties for their own purposes.

We have checked the contents of this manual for agreement with the

hardware and software described. Since deviations cannot be pre-

cluded entirely, we cannot guarantee full agreement. However, the

data in this manual are reviewed regularly and any necessary cor-

rections included in subsequent editions. Suggestions for improve-

ment are welcomed.

The reproduction, transmission or use of this document or its

contents is not permitted without express written authority.

Offenders will be liable for damages. All rights, including rights

created by patent grant or registration of a utility model or design, are

reserved.

Siemens AG

Automation and Drives

Special Products, Projects Automotive Industry, Training

P.O. Box 4848, D-90327 Nuernberg

Siemens Aktiengesellschaft Order No. 6GT2 397-4BA00-0EA2

 Siemens AG 1997, 1998, 1999, 2000, 2002, 2003, 2005

Technical data subject to change.

Safety Guidelines

Qualified Personnel

Correct Usage

Trademarks

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Contents

1 General 1-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2 Introduction to MOBY E 2-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3 Configuration and Mounting Guidelines 3-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.1 Basic Requirements 3-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.1.1 Transmission Window 3-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.1.2 Transmit Period of the MDS 3-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.1.3 Communication between ASM, SLG/SLA and MDS 3-7. . . . . . . . . . . . . . . . . .

3.1.4 Communication between ASM and User Program 3-8. . . . . . . . . . . . . . . . . . .

3.1.5 Sample Calculation 3-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.2 Field Data of MDS, SLG and SLA 3-11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.3 Presentation of Speed to Amount of Data 3-14. . . . . . . . . . . . . . . . . . . . . . . . . . .

3.4 Installation Guidelines 3-19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.4.1 Definition of the Metal-Free Area 3-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.4.2 Effects of Metal on the Transmission Window 3-28. . . . . . . . . . . . . . . . . . . . . . .

3.4.3 Reduction of Metallic Effects 3-34. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.4.4 Chemical Resistance of the Mobile Data Memories 3-37. . . . . . . . . . . . . . . . . .

3.5 EMC Guidelines 3-40. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.1 Foreword 3-40. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.2 General 3-41. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.3 Spreading of Interference 3-42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.4 Cabinet Layout 3-45. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.5 Avoiding Interference Sources 3-48. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.6 Equipotential Bonding 3-49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.7 Ground Fault Monitoring with MOBY 3-50. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.8 Shielding the Cables 3-51. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.5.9 Basic Rules on EMC 3-53. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.6 Concept of MOBY Shielding 3-55. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.7 Cable and Connector Assignments 3-58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.7.1 Cable Configuration 3-58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.7.2 Connector Assignment 3-60. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.7.3 Connecting Cables 3-64. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3.7.4 Cable Lengths 3-69. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4 Mobile Data Memories 4-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.1 Introduction 4-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.2 MDS E600 4-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.3 MDS E611 4-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.4 MDS E623 4-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4.5 MDS E624 4-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

ii MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

5 Read/Write Devices

Read/Write Antennas 5-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5.1 Introduction 5-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5.2 SLG 72 5-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5.3 SLG 75 5-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5.4 SLA 71 5-24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6 Interfaces 6-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.1 Introduction 6-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.2 ASM 400 6-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.2.1 Overview 6-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.2.2 Hardware Description 6-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.2.3 SIMATIC S5 Configuration 6-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.3 ASM 410 6-16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.4 ASM 450/452 6-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.5 ASM 454/424 6-36. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6 ASM 456 6-42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.1 Description 6-42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.2 Setting the PROFIBUS Address 6-46. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.3 Wiring ASM 456 6-49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.4 Diagnosis using LEDs 6-54. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.5 Technical data 6-56. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.6 Dimensional drawings 6-57. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.6.7 Ordering data 6-58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.7 ASM 470/475 6-59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.8 ASM 473 6-69. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.9 ASM 724/754 6-77. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.10 SIM Serial Interface Module 6-86. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.10.1 Overview 6-86. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.10.2 Cable and Connector Allocation 6-92. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.10.3 Programming the SIM Module with the 3964R Procedure 6-98. . . . . . . . . . . . .

6.10.4 SIM 70 ANT 0 6-99. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.10.5 SIM 70 ANT 1 6-104. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6.10.6 SIM 72 6-109. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7 Accessories 7-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7.1 MOBY Software 7-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7.2 MOBY Wide-Range Power Supply 7-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7.3 Wide-Range Connector Power Pack 7-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7.4 MOBY STG E Hand-Held Terminal 7-10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7.5 Acquisition Station ES 030-K 7-15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Contents

iii

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

A Documentation A-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B Error Messages B-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B.1 General Errors B-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B.2 ASM-specific error B-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B.2.1 ASM 400 with FB 250 B-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B.2.2 ASM 470 with FB 47/FC 47 B-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B.2.3 ASM 450 with FB 240 B-11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

C ASCII Table C-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

D Compatibility D-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Contents

iv MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Figures

2-1 Overview of MOBY E components 2-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-1 Transmission window 3-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-2 Direction of movement of the MDS 3-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-3 Working in static operation 3-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-4 Working in dynamic operation 3-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-5 Tolerances of the side allowance of the pallet 3-9. . . . . . . . . . . . . . . . . . . . . . .

3-6 Tolerance of the side allowance of the pallet 3-10. . . . . . . . . . . . . . . . . . . . . . . .

3-7 SLG 75 ANT 1/SLA 71 with MDS E600 3-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-8 SLG 75 ANT 1/SLA 71 with MDS E611 3-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-9 SLG 75 ANT 1/SLA 71 with MDS E624 3-15. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-10 SLG 75 ANT 4 with MDS E600 (length Lx of the transmission window) 3-15.

3-11 SLG 75 ANT 4 with MDS E611 (length Lx of the transmission window) 3-16. .

3-12 SLG 75 ANT 4 with MDS E624 (length Lx of the transmission window) 3-16.

3-13 SLG 72 with MDS E600 (length Lx of the transmission window) 3-17. . . . . . . .

3-14 SLG 72 with MDS E611 (length Lx of the transmission window) 3-17. . . . . . . .

3-15 SLG 72 with MDS E624 (length Lx of the transmission window) 3-18. . . . . . . .

3-16 Mounting on metal: MDS E600/E611 3-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-17 Flush mounting: MDS E600/E611 3-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-18 Mounting on metal: MDS E623 3-21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-19 Metal-free space for MDS E623 3-21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-20 Mounting on metal: MDS E624 3-22. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-21 Flush mounting in metal (static): MDS E624 3-22. . . . . . . . . . . . . . . . . . . . . . . . .

3-22 Flush mounting in metal (static): ANT 18 3-23. . . . . . . . . . . . . . . . . . . . . . . . . . .

3-23 Mounting in a metallic environment: SLG 75 ANT 1 3-24. . . . . . . . . . . . . . . . . .

3-24 Mounting in a metallic environment: SLG 75 ANT 4 3-24. . . . . . . . . . . . . . . . . .

3-25 Mounting on metal: SLG 72 3-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-26 Flush mounting in metal: SLG 72 3-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-27 Flush mounting in metal: SLG 75 ANT 12 3-26. . . . . . . . . . . . . . . . . . . . . . . . . . .

3-28 Flush mounting in metal: SLG 75 ANT 30 3-26. . . . . . . . . . . . . . . . . . . . . . . . . . .

3-29 Flush mounting in metal: SLA 71 3-27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-30 MDS in metal-free environment (example: MDS E 611) 3-32. . . . . . . . . . . . . . .

3-31 The MDS in a metallic environment (example: MDS E611) 3-33. . . . . . . . . . . .

3-32 Interfering metal supports 3-34. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-33 Flush mounting 3-35. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-34 Spreading of Interference 3-42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-35 The four kinds of interference coupling 3-44. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-36 Shielding via housing 3-45. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-37 Avoidance of interference via optimal layout 3-46. . . . . . . . . . . . . . . . . . . . . . . . .

3-38 Filtering the supply voltage 3-47. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-39 Inductive interference 3-48. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-40 Equipotential bonding 3-49. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-41 Circuit diagram of the principle of ground fault monitoring 3-50. . . . . . . . . . . . .

3-42 SIMATIC AG 100U with ASM 410 3-50. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-43 Shielding of the cables 3-51. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-44 Connection of the shield rail 3-52. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-45 Interruption of shielded cables 3-52. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-46 Simple layout with ASM 400 3-55. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-47 Layout of the ASM 470/475 with shield contact element 3-56. . . . . . . . . . . . . .

3-48 Baring of the cable shield 3-56. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-49 Voltage supply with power pack 3-57. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-50 SLG with extra power pack 3-59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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3-51 MOBY wide-range power pack on the ASM 400 3-59. . . . . . . . . . . . . . . . . . . . .

3-52 Drawing of mounting the SLG connector 3-63. . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-53 Connecting cable ASM 400/424/454, ES 030 ↔ SLG 3-64. . . . . . . . . . . . . . . .

3-54 Connecting cable ASM 410 ↔ SLG 3-64. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-55 Connecting cable ASM 450/452/473 ↔ SLG 3-65. . . . . . . . . . . . . . . . . . . . . . . .

3-56 Connecting cable ASM 470/475 ↔ SLG 3-65. . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-57 Connecting cable RS 232 PC ↔ ASM 424/724 3-66. . . . . . . . . . . . . . . . . . . . . .

3-58 Connecting cable ASM 724/754 ↔ SLA 71 3-66. . . . . . . . . . . . . . . . . . . . . . . . .

3-59 Extension cable ASM 724/754 ↔ SLA 71 3-67. . . . . . . . . . . . . . . . . . . . . . . . . . .

3-60 Connecting cable ASM 456 ↔ SLG 3-67. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-61 Extension cable ASM 456 ↔ SLG 3-67. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-62 Connecting cable for RS 232 PC ↔ SIM 3-68. . . . . . . . . . . . . . . . . . . . . . . . . . .

4-1 MDS E600 4-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-2 MDS E600 and its mounting bracket 4-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-3 Metal-free space for MDS E600 4-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-4 MDS E611 4-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-5 Dimensions of MDS E611 4-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-6 Dimensions of the spacer and mounting bracket for the MDS E611

(for use with the MDS E600, see note in Figure 4-2) 4-10. . . . . . . . . . . . . . . . .

4-7 Metal-free space for MDS E611 4-11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-8 MDS E623 4-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-9 Mounting on metal: MDS E623 4-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-10 Metal-free space for MDS E623 4-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-11 Dimensions and installation space for MDS E623 4-15. . . . . . . . . . . . . . . . . . . .

4-12 Example of mounting the MDS E623 in a quick-release taper shaft 4-16. . . . .

4-13 Example of mounting the MDS E623 in a retention shaft 4-16. . . . . . . . . . . . . .

4-14 MDS E624 4-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-15 Dimensions of MDS E624 4-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-16 Metal-free space for MDS E624 4-19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-1 Read/write device SLG 72 5-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-2 Transmission window of the SLG 72 5-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-3 Metal-free space of SLG 72 5-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4 Distance D: SLG 72 5-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-5 Dimensioned drawing SLG 72 5-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-6 Read/write device SLG 75 5-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-7 ANT 1 for SLG 75 5-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-8 ANT 4 for SLG 75 5-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-9 ANT 12 for the SLG 75 5-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-10 ANT 18 for the SLG 75 5-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-11 ANT 30 for the SLG 75 5-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-12 Transmission window of the ANT 1 5-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-13 Transmission window of the ANT 4 5-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-14 Transmission window of the ANT 12 5-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-15 Transmission window of the ANT 18 5-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-16 Transmission window of the ANT 30 5-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-17 Metal-free space for the ANT 1 5-15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-18 Metal-free space for the ANT 4 5-15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-19 Metal-free space for the ANT 12 5-16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-20 Metal-free space for the ANT 18 5-16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-21 Metal-free space for the ANT 30 5-16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-22 Distance D: ANT 1 5-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-23 Distance D: ANT 4 5-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-24 Distance D: ANT 12 5-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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5-25 Distance D: ANT 18 5-19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-26 Distance D: ANT 30 5-19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-27 Dimensioned drawing of SLG 75 5-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-28 Dimensioned drawing of the ANT 1 5-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-29 Dimensioned drawing of the ANT 4 5-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-30 Dimensioned drawing of the ANT 12 5-21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-31 Dimensioned drawing of the ANT 18 5-21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-32 Dimensioned drawing of the ANT 30 5-21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-33 ASM 450 connecting cables with split toroidal cores (example) 5-22. . . . . . . .

5-34 Antenna line with round cores 5-23. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-35 Read/write antenna SLA 71 5-24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-36 Transmission window of the SLA 71 5-26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-37 Metal-free space for SLA 71 5-26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-38 Distance D: SLA 71 5-27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-39 Dimensioned drawing of SLA 71 5-27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1 Configurator of ASM 400 6-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2 Connectors and their assignment for the ASM 400 6-9. . . . . . . . . . . . . . . . . . .

6-3 Switches and plug-in jumpers for the ASM 400 6-10. . . . . . . . . . . . . . . . . . . . . .

6-4 Settings on the channel module 6-11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-5 Module rack CR 700-0LA (S5-115U) 6-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-6 Module rack CR 700-0LB (S5-115U) 6-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-7 Module rack CR 700-1 (S5-115U) 6-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-8 Module rack CR 700-2 (S5-115U) 6-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-9 Module rack CR 700-3 (S5-115U) 6-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-10 Module rack ER 701-3 (S5-115U) 6-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-11 Central controller S5-135U/ -155U 6-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-12 Central controller S5-155U/-155H 6-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-13 Expansion unit EG S5-183U for S5-135U/-155U 6-14. . . . . . . . . . . . . . . . . . . . .

6-14 Expansion unit EG S5-184U for S5-135U/-155U 6-15. . . . . . . . . . . . . . . . . . . . .

6-15 Expansion unit EG S5-185U for S5-135U/-155U/-155H 6-15. . . . . . . . . . . . . . .

6-16 Expansion unit EG S5-187U for S5-135U/-155U 6-15. . . . . . . . . . . . . . . . . . . . .

6-17 Configurator for ASM 410 in SIMATIC S5 6-16. . . . . . . . . . . . . . . . . . . . . . . . . . .

6-18 Configurator for ASM 410 in ET 100U 6-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-19 ASM 410 interface with operational and indicator elements 6-21. . . . . . . . . . . .

6-20 Wiring of one or two SLGs for ASM 410 6-24. . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-21 ASM 450/452 interface 6-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-22 Configurator for ASM 450/452 6-29. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-23 Connector ASM 450/452/473 ↔ SLG (6GT2 090-0BC00) 6-30. . . . . . . . . . . . .

6-24 Connecting cable ASM 450/452/473 ↔ SLG (6GT2 091-1CH20) 6-30. . . . . .

6-25 PROFIBUS cable with 24 V supply 6-31. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-26 SLG and DI/DO configuration for ASM 450/452 6-32. . . . . . . . . . . . . . . . . . . . . .

6-27 Dimensioned drawing of the ASM 450/452 6-32. . . . . . . . . . . . . . . . . . . . . . . . . .

6-28 Pin assignment and LEDs of the ASM 450/452 6-33. . . . . . . . . . . . . . . . . . . . . .

6-29 Length of baring for a PROFIBUS cable 6-35. . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-30 Setting the PROFIBUS address and circuiting the terminating resistance 6-35

6-31 ASM 454/424 interface 6-36. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-32 Configurator for the ASM 454/424 6-39. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-33 Serial interfaces of the ASM 454/424 to the SLG 6-40. . . . . . . . . . . . . . . . . . . .

6-34 Serial interfaces of the ASM 454/424 to the user 6-40. . . . . . . . . . . . . . . . . . . . .

6-35 Dimensioned drawing of the ASM 454/424 6-41. . . . . . . . . . . . . . . . . . . . . . . . . .

6-36 How to mount the adapter plate 6-41. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-37 Interface module ASM 456 with M12, 7/8” or

ECOFAST connection block 6-42. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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6-38 Basic design of the ASM 456 6-44. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-39 Configurator ASM 456 6-45. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-40 Setting PROFIBUS addresses on connection block M12, 7/8” 6-47. . . . . . . . .

6-41 Loosening the configuration plug’s screw connection 6-48. . . . . . . . . . . . . . . . .

6-42 Setting PROFIBUS address on configuration plug 6-48. . . . . . . . . . . . . . . . . . .

6-43 Connecting the ASM 456 up to protective earth 6-51. . . . . . . . . . . . . . . . . . . . . .

6-44 Connecting cable ASM 456 ↔ SLG; l = 2 m, 5 m 6-52. . . . . . . . . . . . . . . . . . . .

6-45 Extension cable ASM 456 ↔ SLG; l = 2 m, 5 m, 10 m, 20 m, 50 m 6-52. . . . .

6-46 LEDs of the ASM 456 6-54. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-47 Dimensional drawing of ASM 456 (in mm) 6-57. . . . . . . . . . . . . . . . . . . . . . . . . .

6-48 ASM 470/475 interface 6-59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-49 Configurator for the ASM 470/475 6-60. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-50 Front plate and inside of the front door of the ASM 470/475 6-64. . . . . . . . . . .

6-51 Wiring from the ASM 470/475 to the SLG (6GT2 091-0E...) 6-66. . . . . . . . . . .

6-52 Baring of the cable shield for a cable made by the customer 6-66. . . . . . . . . . .

6-53 ASM 470/475 directory in the hardware catalog 6-67. . . . . . . . . . . . . . . . . . . . . .

6-54 ASM 473 interface 6-69. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-55 Configurator for the ASM 473 6-72. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-56 Maximum configuration of the ASM 473 on one ET 200X 6-74. . . . . . . . . . . . .

6-57 Pin assignment and LEDs of the ASM 473 6-75. . . . . . . . . . . . . . . . . . . . . . . . . .

6-58 Dimensions for mounting holes for basic and expansion modules 6-76. . . . . .

6-59 ASM 724/754 interface 6-77. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-60 Configurator for the ASM 724 and ASM 754 6-78. . . . . . . . . . . . . . . . . . . . . . . .

6-61 Serial interfaces of the ASM 724/754 to the SLA 71 6-83. . . . . . . . . . . . . . . . . .

6-62 Serial interfaces of the ASM 724/754 to the user 6-84. . . . . . . . . . . . . . . . . . . . .

6-63 Dimensioned drawing of the ASM 724/754 with mounting holes 6-85. . . . . . . .

6-64 How to mount the adapter plate 6-85. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-65 Configurator for SIM (example) 6-87. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-66 Data structure of the MOBY E MDS (MIFARE) with SIM 6-88. . . . . . . . . . . .

6-67 Assignment of the ASM addressing to the block structure of the MDS 6-89. .

6-68 Installation with one connecting cable for rugged environments 6-93. . . . . . . .

6-69 Installation with several connecting cable on the SIM connector 6-93. . . . . . .

6-70 Installation with test cable and plug-in power supply (see Section 3.7.3) 6-94

6-71 Standard cabling for PC/SIM, RS 232 6-96. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-72 Standard cabling for PC/SIM, RS 422 6-96. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-73 DI/DO cabling with power supply 6-97. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-74 SIM 70 ANT 0 6-99. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-75 Distance D: SIM 70 ANT 0 6-102. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-76 Dimensioned drawing of the SIM 70 ANT 0 6-102. . . . . . . . . . . . . . . . . . . . . . . . .

6-77 Transmission window of the SIM 70 ANT 0 6-103. . . . . . . . . . . . . . . . . . . . . . . . .

6-78 Metal-free space for the SIM 70 ANT 0 6-103. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-79 SIM 70 ANT 1 6-104. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-80 Transmission window of the SIM 70 ANT 1 6-106. . . . . . . . . . . . . . . . . . . . . . . . .

6-81 Metal-free space for SIM 70 ANT 1 6-107. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-82 Distance D: SIM 70 ANT 1 6-108. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-83 Dimensioned drawing of the SIM 70 ANT 1 6-108. . . . . . . . . . . . . . . . . . . . . . . . .

6-84 SIM 72 6-109. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-85 Transmission window of the SIM 72 6-111. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-86 Metal-free space of the SIM 72 6-112. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-87 Distance D: SIM 72 6-113. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-88 Dimensioned drawing of the SIM 72 6-113. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-1 MOBY wide-range power supply 7-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-2 Connector pin assignment 24 V output 7-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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7-3 Dimensions of the MOBY wide-range power supply 7-7. . . . . . . . . . . . . . . . . .

7-4 MOBY STG E hand-held terminal 7-10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-5 Hardware of the STG E 7-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-6 Configurator of ES 030-K 7-16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-7 Configuration example ES 030-K 7-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Contents

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Tables

2-1 Technical data of MOBY E (field components) 2-1. . . . . . . . . . . . . . . . . . . . . . .

3-1 Time constants K and tbyte 3-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-2 Field data of all MDSs, SLGs and SLAs without metal effects 3-11. . . . . . . . .

3-3 Minimum distance from MDS to MDS 3-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-4 Minimum distance from SLG/SLA to SLG/SLA 3-13. . . . . . . . . . . . . . . . . . . . . .

3-5 Reduction in field data due to metal (in %):

MDS and SIM 70 with ANT 0 and SLG 75 with ANT 18/ANT 30 3-28. . . . . . . .

3-6 Reduction in field data due to metal (in %):

MDS and SIM 70/SLG 75 with ANT 1 and SLA 71 3-29. . . . . . . . . . . . . . . . . . .

3-7 Reduction in field data due to metal (in %):

MDS and SLG 75 with ANT 4 3-30. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-8 Reduction in field data due to metal (in %):

MDS and SLG 75 with ANT 12 3-30. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-9 Reduction in field data due to metal (in %): MDS and SLG 72/SIM 72 3-31. .

3-10 Chemical resistance of the MDS E600 3-37. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-11 Chemical resistance of data memories made of fiber glass reinforced

epoxy resin (MDS E611/E623/E624) 3-38. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-12 Sources of interference: origins and effects 3-43. . . . . . . . . . . . . . . . . . . . . . . . .

3-13 Causes of coupling paths 3-44. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-14 Cable configuration 3-58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-15 Connector assignment of the SLG connector 3-60. . . . . . . . . . . . . . . . . . . . . . . .

3-16 Connector assignment of the 9-pin subminiature D connector 3-60. . . . . . . . .

3-17 Connector assignment of SLA connector 3-61. . . . . . . . . . . . . . . . . . . . . . . . . . .

3-18 Connector assignment of the 9-pin subminiature D connector 3-61. . . . . . . . .

3-19 Connector assignment for 4-pin power supply connector

(pin on the side of the housing) 3-62. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-20 Ordering data for the power supply connector 3-62. . . . . . . . . . . . . . . . . . . . . . .

3-21 Ordering data for the SLG connector 3-63. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-22 Ordering data for MOBY cables 3-69. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-1 Overview of MDS 4-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-2 Operational requirements/environmental requirements of MDS 4-3. . . . . . . .

4-3 Ordering data for MDS E600 4-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-4 Technical data of the MDS E600 4-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-5 Field data of MDS E600 4-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-6 Ordering data for MDS E611 4-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-7 Technical data of the MDS E611 4-8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-8 Field data of MDS E611 4-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-9 Ordering data for MDS E623 4-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-10 Technical data of the MDS E623 4-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-11 Field data MDS E623 4-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-12 Dimensions of MDS E623/installation space in accordance

with DIN 69873 4-15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-13 Ordering data for MDS E624 4-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-14 Technical data of the MDS E624 4-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-15 Field data of MDS E624 4-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-1 Overview table of SLG/SLA 5-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-2 Ordering data for the SLG 72 5-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-3 Technical data of the SLG 72 5-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4 Field data of SLG 72 5-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-5 Ordering data for the SLG 75 and ANT xx 5-9. . . . . . . . . . . . . . . . . . . . . . . . . .

5-6 Technical data of the SLG 75 5-10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Contents

xMOBY E Configuration, Installation and Service Manual

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5-7 Technical data of the antennas 5-11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-8 Cable specification of the ANT 12 antenna 5-12. . . . . . . . . . . . . . . . . . . . . . . . . .

5-9 Field data of the SLG 75 with antenna 5-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-10 Standard connecting cables which will take split toroidal cores 5-22. . . . . . . . .

5-11 Ordering data for the SLA 71 5-24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-12 Technical data of the SLA 71 5-24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-13 Field data of SLA 71 5-25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1 Overview of the interfaces 6-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2 Ordering data for the ASM 400 6-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-3 Technical data of the ASM 400 6-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-4 Address settings for ASM 400 with FB 250/252 6-10. . . . . . . . . . . . . . . . . . . . . .

6-5 Ordering data for the ASM 410 6-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-6 Technical data of the ASM 410 6-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-7 Status and error LEDs of ASM 410 6-22. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-8 Operating modes for ASM 410 6-23. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-9 Ordering data for the ASM 450/452 6-26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-10 Technical data of the ASM 450/452 6-27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-11 LEDs for PROFIBUS diagnostics 6-34. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-12 Ordering data for the ASM 454/424 6-37. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-13 Technical data of the ASM 454/424 6-38. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-14 Connection assignment for ECOFAST connector plugs 6-49. . . . . . . . . . . . . . .

6-15 Connection assignment for M12 connector (PROFIBUS DP) 6-50. . . . . . . . . .

6-16 Connection assignment for 7/8” connector (supply voltages) 6-50. . . . . . . . . .

6-17 Pin assignment 6-53. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-18 Status LEDs for ASM 456 6-54. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-19 LED display for PROFIBUS diagnosis 6-55. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-20 Technical data of ASM 456 6-56. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-21 Ordering data of ASM 456 6-58. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-22 Ordering data for the ASM 470/475 6-61. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-23 Technical data of the ASM 470/475 6-62. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-24 Function of the LEDs on the ASM 470/475 6-65. . . . . . . . . . . . . . . . . . . . . . . . . .

6-25 Operating states shown by LEDs on the ASM 475 6-65. . . . . . . . . . . . . . . . . . .

6-26 Ordering data for the ASM 473 6-70. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-27 Technical data of the ASM 473 6-70. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-28 Prerequisite for operation of the ASM 473 6-73. . . . . . . . . . . . . . . . . . . . . . . . . .

6-29 Ordering data for the ASM 724/754 6-79. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-30 Technical data of the ASM 724/754 6-80. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-31 Field data of all MDSs and SIMs without the influence of metal 6-90. . . . . . . .

6-32 Minimum distance from MDS to MDS 6-90. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-33 Minimum distance from SIM to SIM 6-91. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-34 Overview of the SIM connector allocation 6-92. . . . . . . . . . . . . . . . . . . . . . . . . . .

6-35 Voltage supply of SIM 6-95. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-36 Cable configuration SIM 6-95. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-37 Ordering data for SIM 70 ANT 0 6-99. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-38 Technical data of the SIM 70 ANT 0 6-99. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-39 Ordering data for SIM 70 ANT 1 6-104. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-40 Technical data of the SIM 70 ANT 1 6-104. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-41 Ordering data for the SIM 72 6-109. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-42 Technical data of the SIM 72 6-109. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-1 Ordering data for MOBY software 7-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-2 Ordering data for the MOBY wide-range power pack 7-5. . . . . . . . . . . . . . . .

7-3 Technical data of the MOBY wide-range power supply 7-5. . . . . . . . . . . . . . . .

7-4 Technical data of the wide-range connector power pack 7-8. . . . . . . . . . . . . .

Contents

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

7-5 Ordering data for the wide-range, plug-in power pack 7-9. . . . . . . . . . . . . . . .

7-6 Ordering data for the STG E 7-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-7 Technical data of the STG E hand-held terminal 7-13. . . . . . . . . . . . . . . . . . . . .

7-8 Ordering data for the ES 030-K 7-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-9 Technical data of the ES 030-K 7-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B-1 General Errors B-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B-2 Error messages of FB 250 B-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B-3 Error messages of FB 47/FC 47 B-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

B-4 Error messages of FB 240 B-11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

D-1 Compatibility of MOBY E components (as at July 2003) D-1. . . . . . . . . . . . . .

Contents

xii MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Contents

1-1

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

General

This configuration, installation and service manual will help you to plan and

configure your MOBY E system. It covers the guidelines on configuration

and installation and provides complete technical data on the individual com-

ponents.

The specialists of Technical Support are ready to advise and support you

when you have questions on the functions and handling of our MOBY pro-

ducts.

You can reach us around the clock anywhere in the world.

Telephone: +49 (0) 180 5050-222

Fax: +49 (0) 180 5050-223

E-mail: adsupport@siemens.com

General news on MOBY E or an overview of our other identification systems

are available on the Internet under the following address.

http://www.siemens.de/moby

Technical support

Internet

1-2 MOBY E Configuration, Installation and Service Manual

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General

2-1

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Introduction to MOBY E

MOBY E is an RF identification system with low-cost EEPROM data storage

for optimization of material handling and production processes for the low-

end and medium-range performance level. This powerful system offers high-

speed data transmission between data memories (i.e. MDSs) and read/write

devices (i.e. SLGs).

MOBY E is primarily used when object identification must be inductive (i.e.

without contact), reliable and fast and production and manufacturing parame-

ters must be carried on the object.

Storage, logistics, and distribution

Merchandise distribution

Product identification

Container identification

Assembly lines

Tool identification

Table 2-1 Technical data of MOBY E (field components)

Storage capacity 752 bytes for use as desired

Memory type EEPROM

Data organization Address-oriented

Protection rating IP65 to IP68

Operating temperature –25 to +125°C

Data transmission speed (SLG -

MDS)

≥ 2.55 ms/byte for reading

≥ 2.8 ms/byte for writing

Read/write distance 0 to 100 mm

Can be connected to SIMATIC S 5/S7, PCs, computers, PLCs of

other manufacturers, and PROFIBUS

Principal

application areas

Technical data of

MOBY E

2-2 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

MDS: Mobile data memory

SLA: Read/write antenna

SLG: Read/write device

SIM: Serial Interface Module

ASM: Interface module

Service and test device

MDS E623

Pill

SLG 75 ANT 12

SLG 75 ANT 18

SLG 75 ANT 30

SLG 75 ANT 1

SLG 75 ANT 4

SLG 72 SIM 72

MOBY E

MDS E600

MOBY E

MDS E611

MDS E624

752 Byte EEPROM

Button

MDS E600

752 Byte EEPROM

ISO-Card

MDS E611

752 Byte EEPROM

EPOXY-Card

MOBY E

RS 232 / RS 422

SIM 70 ANT 0

SIM 70 ANT 1

752 Byte EEPROM

SLA 71

SIEMENS SIEMENS

ASM 456

for

PROFIBUS

DPV1 connection

with FB/FC 45

for SIMATIC S7

SIMs can be

operated directly on

a serial interface

ASM 400

for SIMATIC

115U

135U

155U/H

with

FB 250/230

ASM 410

for SIMATIC

90U

95U

100U/H

ET 100

ET 200

ASM 450/452

for

PROFIBUS DP/

DPV1 connection

with FB/FC for

SIMATIC S5/S7

ASM 424

to connect

PC

External

PLC

SINUMERIK

computer via

serial Interface

ASM 454

for

PROFIBUS DPV1

connection with

FC 45

for SIMATIC S7

ASM 470/475

for SIMATIC

S7-300 with

FC 47/FC 45

ET 200M

with

FB 47/FC 47

ASM 473

Connectable

to ET 200X;

control via

PROFIBUS

DPV1 with

FC 45

ASM 724

to connect

PC

External

PLC

SINUMERIK

computer via

serial Interface

ASM 754

for

PROFIBUS DPV1

connection with

FC 45

for SIMATIC S7

Internal system interface/max. cable length of 1,000 m

Inductive power/data transmission (13.56 MHz)

Max. of 55 m

Figure 2-1 Overview of MOBY E components

Overview of

MOBY E

components

Introduction to MOBY E

3-1

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Configuration and Mounting Guidelines 3

3-2 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

3.1 Basic Requirements

!Warning

Do not make changes to the devices.

Violation will invalidate interference emission certification (BZT, FCC), CE

and the manufacturer’s warranty.

To choose the correct MOBY E components, apply the following criteria to

your particular application.

Transmission distance (i.e. read/write distance)

The amount of data to be transferred

Metal-free spaces for MDS and SLG/SLA

Static of dynamic transmission of the data

Speed for dynamic transmission

Tolerances of the tracking

Environmental conditions (e.g., moisture, temperature, chemical effects,

and so on)

Maximum write frequency per MDS

Configuration and Mounting Guidelines

3-3

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

3.1.1 Transmission Window

The read/write device (i.e. SLG/SLA) generates an inductive alternating

field. The field is strongest in the vicinity of the SLG/SLA and decreases in

strength the further away from the SLG/SLA it moves. Distribution of the

field depends on the layout and geometry of the antennas on the SLG/SLA

and the MDS.

MDS functionality requires a minimum field strength on the MDS achieved

at a distance of Sg from the SLG/SLA. The figure below shows the transmis-

sion window between the MDS and the SLG/SLA.

ŠŠŠŠŠŠ

View of the side

View of the top

Transmission

window

ŠŠŠŠŠŠ

MDS

ANT 1

L (Sa,min) = Lmax

ŠŠŠŠ

L (Sa,max) = Ld

Sa: Working distance between the MDS and SLG/SLA

Sg: Limit distance (The limit distance is the maximum clearance between the top of the

SLG/SLA and the top of the MDS at which the transmission will still function under

normal conditions.)

L: Length of a transmission window.

The length Ld is valid for the calculation.

In the case of Sa, min, the field length increases from Ld to Lmax.

PI: Point of intersection of the symmetry axes of the MDS

Figure 3-1 Transmission window

The active field to the MDS is a circle. See view from top.

The MDS can be processed as soon as the point of intersection (IP) of the

MDS enters the circle of the transmission window.

If an MDS E600 or E611 enters the transmission window diagonally (hatched

portion in Figure 3-1), the length of the field is reduced by approx. 15 per-

cent.

Configuration and Mounting Guidelines

3-4 MOBY E Configuration, Installation and Service Manual

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The above figure also shows that operation in the area between Sa and Sg is

possible. The greater the distance, the smaller the active working area be-

comes until it is reduced to one point at distance Sg. For this reason, only

static operation should be used in the area between Sa and Sg.

The MDS and the SLG/SLA do not have a polarization axis (i.e. the MDS

can come from any direction, assume any position and traverse the transmis-

sion window). The active area is shown below (i.e. for vertical, horizontal

and diagonal operation).

or or

ÏÏÏ

ŠŠŠŠŠ

ÏÏÏÏ

ŠŠŠŠŠ

ÏÏÏÏ

ŠŠŠŠŠŠ

Figure 3-2 Direction of movement of the MDS

When static operation is used, the MDS can be processed into the area of the

limit distance (i.e. Sg). The MDS must be positioned exactly over the SLG/

SLA as shown below.

ŠŠŠŠŠ

Transmission

window

MDS

ANT 1

Figure 3-3 Working in static operation

Direction of

movement of the

MDS

Working in static

operation

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ŠŠŠŠŠŠ

ŠŠŠŠŠ

View of the top

MDS

Transmission

window

Figure 3-4 Working in dynamic operation

The following approximation formula applies to practical applications:

B0, 4 L

W: Width of the transmission window

L: Length of the transmission window

The width of the transmission window (W) is particularly important for the

tolerance of mechanical tracking. When W is maintained, the formula can be

used without restriction for the transmit period.

There are generally secondary fields in the range from 0 to 20 mm.

However, they should only be considered for configuration in exceptional

cases because the write/read intervals are only very limited. Exact details on

the field geometry of the secondary fields cannot be provided because the

values very much depend on the working distance and the application.

Working in

dynamic operation

Width of the

transmission

window

Transmission

window with

secondary fields

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3.1.2 Transmit Period of the MDS

The transmit period is the time during which the MDS is located in the trans-

mission window of an SLG/SLA. During this time, the SLG/SLA can ex-

change data with the MDS.

The formula used to calculate the transmit period is shown below.

tVL0, 8 [m]

VMDS ms

tV :Transmit period of the MDS

L: Length of the transmission window

VMDS: Speed of the data memory in dynamic operation

0.8: Constant factor. Compensates for temperature influences and pro-

duction tolerances.

During static operation, the transmit period can be any length of time. The

transmit period must last at least as long as necessary to conclude commu-

nication with the MDS.

During dynamic operation, the transmit period is determined by the system

environment. The amount of data to be transferred must be adjusted to the

transmit period or vice versa.

General formula:

tVtK

tV :Transmit period of the data memory in the field of the SLG/SLA

tK: Communication time between MDS and ASM

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3.1.3 Communication between ASM, SLG/SLA and MDS

Communication between ASM, SLG/SLA and MDS is asynchronous with a

transmission speed of 19200 baud.

General formula:

tKKtByte n

Calculation of the maximum amount of user data:

nmax tVK

tByte

tK: Communication time between ASM, SLG/SLA and MDS

tV :Transmit period

n: Amount of user data in bytes

To achieve optimal performance, “n” may not be set to more than

160.

nmax: Maximum amount of user data in bytes during dynamic operation

tByte: Transmission time for 1 byte (see Table 3-1)

K: Constant. The constant represents an internal system time. It con-

tains the time required for power buildup on the MDS and the time

required for command transmission (see Table 3-1).

Table 3-1 Time constants K and tbyte

K [ms]

tbt [ms]

Operating Mode

K [

]

byte

[

]

pera

2.55

2.8

–

Read; Normal operation

Write; Normal operation

Read ID number (4 bytes)

This table applies to all commands. When a user command consists of sev-

eral subcommands, the formula for tK must be applied to each subcommand.

The tK calculation applies to interference-free transmission. When transmis-

sion is briefly interrupted due to external interference, the ASM continues the

command automatically.

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3.1.4 Communication between ASM and User Program

The time required for communication between ASM and user depends on the

following factors.

Cycle time, token rotation time and type of programmable controller

Software used (FB 41, FB 47, FC 44, FC 45, FC 47, FB 240, FB 250)

Communication between the ASM 400 and the user can be divided into three

steps.

a) The user issues a command and starts it. When the FB is called the next

time, the command is transferred to the ASM and is acknowledged by the

ASM.

b) The ASM executes the command with the MDS. The user and the FB are

in wait status. Data communication with the MDS starts as soon as an

MDS enters the transmission window of the SLG/SLA. The MDS data are

stored intermediately on the ASM and checked for correctness.

c) Communication of the ASM with the MDS has been concluded. When the

FB is called the next time, the read data or the results of a write command

are transferred from the ASM to the user. The user receives a finished

message.

See applicable documentation for the exact communication times be-

tween ASM and user.

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3.1.5 Sample Calculation

A transport system moves the pallets with the MDS at a maximum speed of

VMDS = 0.75 m/s. The following MOBY E components were selected.

ASM 400 (with FB 250)

SLG 75 ANT 1

MDS E600

Task:

a) Physical specifications are to be provided to the constructor of the plant.

b) The maximum number of bytes in dynamic operation is to be provided to

the programmer.

For technical data of the components, see the tables in Section 3.2 (”field

data of MDS, SLG and SLA”).

Direction of movement

0 < H < Sa

(View of the side)

0 < H < 50 mm

MDS

SLG

Figure 3-5 Tolerances of the side allowance of the pallet

Customer

application

Tolerance of the

height allowance

of the pallet

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ANT 1

Middle line of the MDS and SLG

Tolerance range of the side allowance

Direction of movement of the MDS

W = Width of the transmission win-

dow in dynamic operation

MDS

Figure 3-6 Tolerance of the side allowance of the pallet

See Table 3-4 for this value.

See Table 3-3 for this value.

tvL*0,8

VMDS 0, 06 m*0,8

0, 75 ms0, 064 s64 ms

For normal operating mode, see Table 3-1 for the values of K and tbyte.

Calculation of nmax

Read:

tv K

tByte 64 ms 35 ms

2, 55 ms 11, 37 nmax 11 Byte

Write:

tv K

tByte 64 ms 51 ms

2, 8 ms 4, 64 nmax 4Byte

Up to 11 bytes can be read or 4 bytes can be written when the MDS passes

by.

Tolerances of the

side allowance of

the pallet

Minimum distance

between SLG/SLA

and SLG/SLA

Minimum distance

between MDS and

MDS

Maximum number

of bytes

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3.2 Field Data of MDS, SLG and SLA

The table below shows the field data of all MOBY E MDS, SLG and SLA

components. This makes selecting an MDS and an SLG/SLA particularly

easy.

All technical data are typical data, based on an ambient room temperature of

0 to +50 °C, a supply voltage of 22 to 27 V DC, and metal-free surround-

ings. Tolerances of +20 % are permitted for production conditions and

temperature fluctuations.

Additional tolerances apply to the field data when the total voltage range

from 20 V to 30 V DC is utilized for the SLG/SLA, and/or the entire temper-

ature range is utilized for MDS and SLG/SLA.

Table 3-2 Field data of all MDSs, SLGs and SLAs without metal effects

MDS

SLG/SLA

MDS E600 MDS E611 MDS E6233MDS E624

Length of the transmission window in mm (L)

SLA 71 (Ld) 605805--- 38

SLG 72 (Lx)2

(Ly)2

755

505

905

605

--- 60

SLG 75 ANT 1 (Ld) 605805--- 38

SLG 75 ANT 4 (Ld) 220 250 --- 200

SLG 75 ANT 12 (Ld) --- --- 8 ---

SLG 75 ANT 18 (Ld) --- --- 4 12

SLG 75 ANT 30 (Ld) --- --- --- 14

Width of the transmission window in mm (W)

SLA 71 24 32 --- 15 (38)1

SLG 72 (Wx)2

(Wy)2

--- 24

SLG 75 ANT 1 24 32 --- 15 (38)1

SLG 75 ANT 4 30 36 --- 24

SLG 75 ANT 12 --- --- 4 ---

SLG 75 ANT 18 --- --- 245 (12)1

SLG 75 ANT 30 --- --- --- 7

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Table 3-2 Field data of all MDSs, SLGs and SLAs without metal effects

MDS MDS E624MDS E6233

MDS E611MDS E600

SLG/SLA

Working distance in mm (Sa)

SLA 71 0 to 50 10 to 70 --- 0 to 25

SLG 72 0 to 50 10 to 70 --- 0 to 30

SLG 75 ANT 1 0 to 50 10 to 70 --- 0 to 25

SLG 75 ANT 4 0 to 50 10 to 70 --- 0 to 25

SLG 75 ANT 12 --- --- 0 to 4 ---

SLG 75 ANT 18 --- --- 0 to 6 0 to 8

SLG 75 ANT 30 --- --- --- 0 to 18

Limit distance in mm (Sg)

SLA 71 70 100 --- 40

SLG 72 70 100 --- 40

SLG 75 ANT 1 70 100 --- 40

SLG 75 ANT 4 70 100 --- 35

SLG 75 ANT 12 --- --- 5 ---

SLG 75 ANT 18 --- --- 6 15

SLG 75 ANT 30 --- --- --- 24

1The width (W) contained in parentheses only applies to static MDS operation.

2 For the field geometry, see also Figure 5-2.

3 MDS E623 together with SIM 75 ANT 12 only in static operation.

4 A maximum average deviation of ±2 mm (without affecting the field data) is permitted in static operation.

5 Reduction by approx. 15 % when the MDS enters the transmission window diagonally. See also Figure 3-1.

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Table 3-3 Minimum distance from MDS to MDS

MDS E600 MDS E611 MDS E623 MDS E624

SLA 71 > 400 mm > 400 mm --- > 250 mm

SLG 72 > 400 mm > 400 mm --- > 250 mm

SLG 75 ANT 1 > 400 mm > 400 mm --- > 250 mm

SLG 75 ANT 4 > 400 mm > 400 mm --- > 250 mm

SLG 75 ANT 12 --- --- > 20 mm ---

SLG 75 ANT 18 --- --- > 30 mm > 50 mm

SLG 75 ANT 30 --- --- --- > 60 mm

Table 3-4 Minimum distance from SLG/SLA to SLG/SLA

SLA 71 SLG 72 SLG 75

ANT 1

SLG 75

ANT 4

SLG 75

ANT 12

SLG 75

ANT 18

SLG 75

ANT 30

SLA 71 > 800 mm > 800 mm > 800 mm > 800 mm --- > 400 mm > 400 mm

SLG 72 > 800 mm > 800 mm > 800 mm > 800 mm --- > 400 mm > 400 mm

SLG 75 ANT 1 > 800 mm > 800 mm > 800 mm > 800 mm --- > 400 mm > 400 mm

SLG 75 ANT 4 > 800 mm > 800 mm > 800 mm > 800 mm --- > 400 mm > 400 mm

SLG 75 ANT 12 --- --- --- --- > 80 mm > 125 mm ---

SLG 75 ANT 18 > 400 mm > 400 mm > 400 mm > 400 mm > 125 mm > 125 mm > 200 mm

SLG 75 ANT 30 > 400 mm > 400 mm > 400 mm > 400 mm --- > 200 mm > 200 mm

Note

Adherence to the values specified in Table 3-4 is essential. There is a danger

of the influence of inductive fields if the values are underranged. This would

increase the time for data transmission incalculably or a command would be

terminated with errors.

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3.3 Presentation of Speed to Amount of Data

The curves shown here will simplify selection of MOBY E MDS and SLG

components for dynamic operation. Information from the table in Sec-

tion 3.1.3 was used to calculate the curves. The curves apply to vertical op-

eration with a single length of the transmission window (Ld).

100

110

0 102030405060708090100

V MDS

(m/s) (m/min)

Number of bytes (n)

1.67

1.33

0.67

0.33

0.16

Write MDS E600

Read MDS E600

1.5

1.17

0.83

0.5

1.83

Figure 3-7 SLG 75 ANT 1/SLA 71 with MDS E600

100

110

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E611

Read MDS E611

1.67

1.33

0.67

0.33

0.16

1.5

1.17

0.83

0.5

1.83

Figure 3-8 SLG 75 ANT 1/SLA 71 with MDS E611

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100

110

0 102030405060708090100

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E624

Read MDS E624

1.67

1.33

0.67

0.33

0.16

1.5

1.17

0.83

0.5

1.83

Figure 3-9 SLG 75 ANT 1/SLA 71 with MDS E624

120

150

180

210

240

270

300

330

0 102030405060708090100110120130

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E600

Read MDS E600

4.5

3.5

2.5

1.5

0.5

4.0

3.0

2.0

1.0

5.0

5.5

Figure 3-10 SLG 75 ANT 4 with MDS E600 (length Lx of the transmission window)

Configuration and Mounting Guidelines

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120

150

180

210

240

270

300

330

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E611

Read MDS E611

4.5

3.5

2.5

1.5

0.5

4.0

3.0

2.0

1.0

5.0

5.5

Figure 3-11 SLG 75 ANT 4 with MDS E611 (length Lx of the transmission window)

120

150

180

210

240

270

300

330

0 102030405060708090100

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E624

Read MDS E624

4.5

3.5

2.5

1.5

0.5

4.0

3.0

2.0

1.0

5.0

5.5

Figure 3-12 SLG 75 ANT 4 with MDS E624 (length Lx of the transmission window)

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100

110

0 102030405060708090100110120130

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E600

Read MDS E600

1.67

1.33

0.67

0.33

0.16

1.5

1.17

0.83

0.5

1.83

Figure 3-13 SLG 72 with MDS E600 (length Lx of the transmission window)

100

110

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E611

Read MDS E611

1.67

1.33

0.67

0.33

0.16

1.5

1.17

0.83

0.5

1.83

Figure 3-14 SLG 72 with MDS E611 (length Lx of the transmission window)

Configuration and Mounting Guidelines

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100

110

0 102030405060708090100

V MDS

(m/s) (m/min)

Number of bytes (n)

Write MDS E624

Read MDS E624

1.67

1.33

0.67

0.33

0.16

1.5

1.17

0.83

0.5

1.83

Figure 3-15 SLG 72 with MDS E624 (length Lx of the transmission window)

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3.4 Installation Guidelines

The MDS, SLG and SLA are devices which work with induction. Every type

of metal, particularly iron and ferromagnetic materials, in the vicinity of

these devices influences their field geometry. To ensure that the field data

described in Section 3.2 retain their validity, several points must be adhered

to when configuring and installing the devices.

Minimum distance between two read/write devices or read/write anten-

nas. (See Table 3-4 and Chapter 5)

Minimum distance between two adjacent data memories.

(See Table 3-3 and Chapter 4)

Metal-free area with flush installation of SLG/SLA and MDS in metal

Installation of several SLGs/SLAs in metal frames or supports

The next few chapters describe how installation in metallic surroundings af-

fects the identification system.

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3.4.1 Definition of the Metal-Free Area

Do not mount the MDS directly on metal (exception: MDS E623). Mounting

the MDS directly on metal will interrupt all its functions. The following figu-

res show the minimum distance of the MDS to metal.

Metal

Non-metal

Data memory

h ≥ 20 mm

Figure 3-16 Mounting on metal: MDS E600/E611

Metal

Non-metal

Data memory

Standard values: a ≥ 20 mm b ≥ 20 mm h ≥ 20 mm

Figure 3-17 Flush mounting: MDS E600/E611

Metal-free space

for MDS

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Metal

Data memory

Mounting on metal

MDS E623 can be mounted directly on metal.MDS E623 can be mounted directly on metal.

SIEMENS

6GT2 300-0CD00

MDS E623

Figure 3-18 Mounting on metal: MDS E623

Flush mounting in metal

Metal

Data memory

MDS E623 can be mounted flush in metal.

SIEMENS

6GT2 300-0CD00

MDS E623

Figure 3-19 Metal-free space for MDS E623

Configuration and Mounting Guidelines

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Metal

Non-metal

Data memory

h ≥ 20 mm

SIEMENS

6GT2 300-0CE00

MDS E624

MOBY E

Figure 3-20 Mounting on metal: MDS E624

Metal

Non-metal

Data memory

h ≥ 20 mm

a ≥ 20 mm

SIEMENS

6GT2 300-0CE00

MDS E624

MOBY E

Figure 3-21 Flush mounting in metal (static): MDS E624

Underranging the standard values (i.e. a, b and h) will reduce the field data

considerably. The MDS may be mounted with metal screws (i.e. M4 counter-

sunk screws). This has no substantial effect on the range.

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When mounting the SLG/SLA, remember that metal in the vicinity of the

antennas may affect the field data. Typical distances to metal are shown in

the drawings below.

The cylindrical ANT 18 antenna can be mounted in metal with a minimum

distance of 10 mm as shown in the following drawing. The field data are not

affected.

ANT 18

Figure 3-22 Flush mounting in metal (static): ANT 18

Metal-free space

for SLG/SLA

SLG 75 ANT 18

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The ANT 1 resp. ANT 4 antenna can be mounted as shown in the following

drawings. Remember that the field size may be reduced. (see Section 3.4.2)

ANT 1

SLG

Non-metal

Metal

SLG

Metal

SLG

Metal

Non-metal

Metal Metal

ANT 1

Figure 3-23 Mounting in a metallic environment: SLG 75 ANT 1

Metal

SLG

Metal

SLG

Metal

ANT 4

Figure 3-24 Mounting in a metallic environment: SLG 75 ANT 4

SLG 75 ANT 1,

SLG 75 ANT 4

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Since the height of the housing of the SLG 72 with integrated antenna provi-

des a sufficient distance to the metallic base, the device can be mounted di-

rectly on metal. When flush mounting is used, remember to maintain the spe-

cified distance to metal on the sides.

Metal

h = Physical height of the SLG = 40 mm

Figure 3-25 Mounting on metal: SLG 72

Metal

a, b = Metal-free distances = 40 mm

Figure 3-26 Flush mounting in metal: SLG 72

SLG 72

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With the SLG 75 with ANT 12, the antenna can be mounted flush in metal.

This reduces the working and limit distance (see Section 3.4.2)

ANT 12

Figure 3-27 Flush mounting in metal: SLG 75 ANT 12

With the SLG 75 with ANT 30, the antenna can be mounted flush in metal.

A distance of 20 mm must be maintained to the front of the antenna. This

reduces the field data (see Section 3.4.2)

ANT 30

Figure 3-28 Flush mounting in metal: SLG 75 ANT 30

SLG 75 ANT 12

SLG 75 ANT 30

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The SLA 71 can be mounted flush in metal. Remember that the field data

may be reduced (see Section 3.4.2)

Metal-free area for flush mounting

a = 40 mm

Metal

h = 20 mm (non-metallic base)

Figure 3-29 Flush mounting in metal: SLA 71

SLA 71

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3.4.2 Effects of Metal on the Transmission Window

The following general points apply to the mounting of MOBY E compo-

nents.

The MDS may not be mounted directly on metal.

(exception: MDS E623)

Flush installation of the components in metal will reduce the field data. A

test is recommended for critical applications.

When working in the transmission window, make sure that metal rails or

similar do not cut through the transmission field.

The metal rail would affect the field data.

In the case of the SLG 75 ANT 1/SIM 70 ANT 1, SLG 75 ANT 4 and

SLG 72/SIM 72, the field is practically unaffected as of a distance of 40

mm to metal; in the case of the SIM 70 with the ANT 0 this is the case as

of 10 mm.

Using tables and graphics, this chapter shows how the field data (i.e. Sg, Sa,

L, and W) are affected by metal. The values in the tables represent the reduc-

tion of field data in % as related to non-metal (i.e. 100% stands for no effect).

Table 3-5 Reduction in field data due to metal (in %):

MDS and SIM 70 with ANT 0 and SLG 75 with ANT 18/ANT 30

SIM 70

SLG 75

No Metal

[%]

Mounted Flush in Metal

[%]

MDS

ANT 0

ANT 18

ANT 30 ANT 0

ANT 18

Metal-free

10 mm

circumfe-

rence;

10 mm in

depth

ANT 30

Metal-free

20 mm

circumfe-

rence;

20 mm in

depth

MDS E623

MDS without metal 100 --- 100 ---

MDS on metal 80 --- 80 ---

MDS flush mounted in metal 60 --- 60 ---

MDS E624

MDS without metal 100 100 100 80

MDS on metal

Distance 20 mm

100 90 100 75

MDS flush mounted in metal

Distance 20 mm/

Circumference 20 mm

100 75 100 70

MDS and

SIM 70 with ANT 0

and SLG 75 and

ANT 18/ANT 30

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Table 3-6 Reduction in field data due to metal (in %):

MDS and SIM 70/SLG 75 with ANT 1 and SLA 71

MDS

SIM 70

SLG 75

SLA 71

ANT 1/SLA 71

without Metal

[%]

ANT 1/SLA 71

on Metal

Distance 20 mm

[%]

ANT 1/SLA 71

Flush in Metal

Distance of 20 mm

Circumference

40 mm

[%]

ANT 1/SLA 71

on Metal

[%]

MDS E600

MDS without metal 100 100 80 70

MDS on metal

Distance 20 mm

80 70 60 50

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

70 60 50 40

MDS E611

MDS without metal 100 100 80 70

MDS on metal

Distance 20 mm

75 75 55 45

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

70 70 50 40

MDS E624

MDS without metal 100 100 80 60

MDS on metal

Distance 20 mm

100 100 80 60

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

80 60 60 40

MDS and SIM 70/

SLG 75 with ANT 1

and SLA 71

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Table 3-7 Reduction in field data due to metal (in %): MDS and SLG 75 with ANT 4

MDS

SLG 75 ANT 4

without Metal

[%]

ANT 4

on Metal

[%]

ANT 4

Flush in Metal

Circumference 40 mm

[%]

MDS E600

MDS without metal 100 80 70

MDS on metal

Distance 20 mm

80 70 60

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

70 60 50

MDS E611

MDS without metal 100 80 70

MDS on metal

Distance 20 mm

80 70 60

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

70 60 50

MDS E624

MDS without metal 100 80 80

MDS on metal

Distance 20 mm

80 70 70

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

60 40 40

Table 3-8 Reduction in field data due to metal (in %): MDS and SLG 75 with ANT 12

MDS

SLG 75 ANT 12

without Metal

[%]

ANT 12

Flush in Metal

Distance 10 mm

Circumference 10 mm

[%]

ANT 12

Flush Mounted

in Metal

[%]

MDS E623

MDS without metal 100 85 85

MDS on metal

Distance 20 mm

100 85 85

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

75 75 60

MDS and

SLG 75 with ANT 4

MDS and SLG 75

with ANT 12

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Table 3-9 Reduction in field data due to metal (in %): MDS and SLG 72/SIM 72

MDS

SLG/SIM 72 Without Metal

[%]

On Metal

[%]

Flush in Metal

Circumference 40 mm

[%]

MDS E600

MDS without metal 100 100 100

MDS on metal

Distance 20 mm

80 70 70

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

70 60 60

MDS E611

MDS without metal 100 100 80

MDS on metal

Distance 20 mm

80 70 70

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

70 60 60

MDS E624

MDS without metal 100 100 80

MDS on metal

Distance 20 mm

100 80 80

MDS mounted flush in metal

Distance 20 mm/

circumference 20 mm

60 40 40

MDS and

SLG 72/SIM 72

Configuration and Mounting Guidelines

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Below are figures using the ANT 1 with MDS E611 as an example to illus-

trate how metal affects the transmission window.

The percentages apply to field data reduction in relation to a metal-free envi-

ronment (i.e. 100%).

MDS E611

ANT 1

100%

Non-metal

MDS E611

ANT 1

70%

Metal

MDS E611

ANT 1

100%

MDS E611

ANT 1

80%

Metal

20 mm

Non-metal

20 mm

40 mm 40 mm40 mm

Metal

Non-metal

Figure 3-30 MDS in metal-free environment (example: MDS E 611)

MDS in metal-free

environment

Configuration and Mounting Guidelines

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MDS E611

ANT 1

75%

Non-metal

MDS E611

ANT 1

Metal

ANT 1

70%

Non-metal

ANT 1

45%

Metal

Non-metal

Metal

MDS E611

Non-metal

Metal

20 mm

40% MDS E611

Non-metal

20 mm

Metal

20 mm

20 mm 20 mm

20 mm

Figure 3-31 The MDS in a metallic environment (example: MDS E611)

MDS in metallic

environment

Configuration and Mounting Guidelines

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3.4.3 Reduction of Metallic Effects

Sheet metal

ÓÓÓÓÓ

Metal supports

ÏÏÏ

ÏÏÏÏÏ

ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ

Bad:

A metal support is located over

the second transmission win-

dow of the SLG. This support

affects the entire field. Particu-

larly the transmission window

between SLG and MDS is redu-

ced.

ÓÓÓÓÓ

ÏÏÏ

ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ

Good:

The transmission window is no

longer affected when the MDS

and the ANT 1 are mounted dif-

ferently.

Non-metallic spacer

Metal

MDS

ANT 1

ÏÏÏÏÏ

ANT 1

Figure 3-32 Interfering metal supports

Interfering metal

supports

Configuration and Mounting Guidelines

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MOBY E Configuration, Installation and Service Manual

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ÓÓÓÓÓ

ÓÓÓ

ÓÓÓÓ

ÓÓÓÓÓ

ÓÓÓÓÓÓ

Non-metallic spacer

ÏÏÏÏ

ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ

It is usually possible to mount the

MDS and SLG flush. This does,

however, considerably reduce

the size of the transmission win-

dow. You can counteract the re-

duction in window size using the

following measures:

Metal

ÏÏÏÏ

ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ

Increase the size of the non-me-

tal spacer below the MDS and/or

SLG. The MDS and/or SLG are

10 to 20 mm higher than the me-

tal environment.

(The value x ≥ 100 mm applies

to the SLG 75 ANT 1. It specifies

that at a distance of x ≥ 100 mm

the SLG is no longer significantly

affected by metal).

10-20 mm

x ≥ 100 mm

ÏÏÏÏ

ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ

Increase in the non-metallic distan-

ces a and b (see Figure 3-26).

The following rules of thumb apply:

Make a and b approximately 2

to 3 times larger.

In the case of SLG/MDS with a

large limit distance

(SLG 75 ANT 1/MDS E611), an

increase of a, b has a greater

effect than in the case of SLG/

MDS with a small limit distance.

Sheet metal

Metal

ÓÓÓÓÓÓÓ

ÓÓÓÓÓÓ

ÓÓÓÓÓÓÓ

ÏÏÏÏÏ

ANT 1

ÏÏÏÏÏ

ANT 1

ÏÏÏÏÏ

ANT 1

ÓÓÓÓÓ

ÓÓÓ

ÓÓÓÓÓ

ÓÓÓ

Figure 3-33 Flush mounting

Each SLG/SLA mounted on metal connects part of the field to the metal sup-

port. When minimum distance D is maintaining and metal-free areas a and b

are adhered to, there are usually no effects. However, when the location of an

iron frame is particularly poor, there may be some effects. This will lengthen

data transmission times or cause sporadic error messages on the interface.

Flush mounting

Installation of

several SLG/SLA

on metal frames or

supports

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a) Lengthen distance D between the two ANT 1s

ANT 1 ANT 1

b) Install one or more iron struts to short circuit the parasitic fields

ANT 1 ANT 1

c) Install a non-metallic spacer of 20 to 40 mm in thickness between the

ANT 1 and the iron frame. This significantly reduces parasitic coupling of

the field on the support.

Non-metallic

spacer

ANT 1 ANT 1

Necessary actions

Configuration and Mounting Guidelines

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3.4.4 Chemical Resistance of the Mobile Data Memories

The MDS E600 is resistant to the substances listed in the following table.

Table 3-10 Chemical resistance of the MDS E600

Substance Concentration

Salt water 5%

Sugar water 10%

Acetic acid, hydrous solution 5%

Sodium carbonate, hydrous solution 5%

Ethyl alcohol, hydrous solution 60%

Ethylene glycol 50%

Fuel, B In accordance with ISO 1817

Human perspiration

(Reference: ISO 10373 / ISO 7810)

MDS E600

Configuration and Mounting Guidelines

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Table 3-11 Chemical resistance of data memories made of fiber glass reinforced

epoxy resin (MDS E611/E623/E624)

Concentration 20 C 40 C 60 C

Allyl chloride 

Formic acid 50% 

100% 

Ammonia, gaseous 

Ammonia, liquid, anhydrous 

Ammonium hydroxide 10% 

Ethanol  

Ethyl acrylate 

Ethylene glycol 

Gasoline, free of aromatic compounds 

Gasoline, unstripped 

Bezoates (Na, Ca and similar) 

Bezoic acid 

Benzine 

Benzene-sulfonic acid 

Benzyl chloride 

Borax 

Boric acid 

Bromine, liquid 

Bromine, gaseous, dry 

Bromide (K, Na and similar) 

Bromoform 100% 

Bromide water 

Butadiene (1.3–) 

Butane, gaseous 

Butanol 

Butyric acid 100% 

Carbonates (ammonium, Na and similar.) 

Chlorine, liquid 

Chlorine, gaseous, dry 100% 

Chlorobenzene 

Chloride (ammonia, Na and similar) 

Chloroform 

Chlorophyll 

Chlorosulfonic acid 100% 

Chlorine water (saturated solution) 

Chromates (K, Na and similar) Up to 50% 

Chromic acid Up to 30% 

Chromic sulfuric acid 

”Lemon acid” 

Cyanamide 

Cyanides (K, Na and similar) 

Dextrine (hydrous solution) 

Diethyl ether 

Diethylene glycol 

Dimethyl ether 

Dioxan 

Developer 

Acetic acid 100% 

Fixing bath 

Fluorides (ammonium, K, Na and similar.) 

Hydrofluoric acid Up to 40% 

Formaldehyde 50% 

Formamide 100% 

MDS E611/

E623/E624

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Table 3-11 Chemical resistance of data memories made of fiber glass reinforced

epoxy resin (MDS E611/E623/E624)

60 C40 C20 CConcentration

Gluconic acid 

Glycerol 

Glycocoll 

Urine 

Uric acid 

Hydroxides (ammonium) 10% 

Hydroxides (Na and K) 40% 

Hydroxides (alkaline earth metal) 

Hypochlorites (K, Na and similar) 

Iodides (K, Na and similar) 

Silicic acid 

Cresylol Up to 90% 

Methanol 100% 

Methylene chloride 

Lactic acid 100% 

Mineral oils 

Nitrates (ammonium, K and similar) 

Nitroglycerin 

Oxalic acid 

Phenol 1% 

Phosphates (ammonium, Na and similar) 

Phosphoric acid 50% 

85% 

Propyl alcohol 

Nitric acid 25% 

Hydrochloric acid 10% 

Brine 

Sulfur dioxide 100% 

Carbon bisulfide, 100% 

Sulfuric acid 40% 

Sulfurous acid 

Soap solution 

Sulfates (ammonium, Na and similar) 

Sulfites (ammonium, Na and similar) 

Tar, free of aromatic compounds 

Turpentine 

Trichlorethlylene 

Hydrogen peroxide 30% 

Tartaric acid 

Explanation of the symbols

Resistant

Somewhat resistant

Not resistant

Configuration and Mounting Guidelines

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3.5 EMC Guidelines

3.5.1 Foreword

The EMC guidelines contain the following information.

Why are the EMC guidelines necessary?

What interference affects the controller from the outside?

How can interference be prevented?

How can interference be corrected?

Which standards apply to the EMC guidelines?

Examples of an interference-suppressed system setup

The description is directed to “qualified personnel.”

Configuration engineers and planners who plan system configuration with

the MOBY modules and who must adhere to the required guidelines.

Skilled personnel and service engineers who install the connecting cables

based on this description or who can correct deficiencies in this area when

a malfunction occurs.

!Warning

Non-adherence to especially highlighted notes can cause dangerous states in

the system or destroy either single components or the entire system.

Configuration and Mounting Guidelines

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3.5.2 General

The continuously growing use of electrical and electronic devices brings with

it the following characteristics.

Greater concentration of components

Increasing capacity of power electronics

Rising switching speeds

Lower current consumption of the components

The higher the degree of automation, the greater the danger that devices will

interfere with one another.

Electromagnetic compatibility (i.e. EMC) is the ability of a piece of electri-

cal or electronic equipment to function correctly in an electromagnetic envi-

ronment without interfering with or adversely affecting its surroundings

within certain limits.

EMC can be divided into three areas.

Immunity to internal interference:

Resistance to internal (i.e. own) electrical interference

Immunity to external interference:

Resistance to external electromagnetic interference

Interference emission level:

Noise radiation and the effect on the electrical environment

All three areas are included in the test of an electrical device.

The MOBY modules are tested for adherence to the limit values contained in

the CE and BAPT guidelines. Since MOBY modules are only one of many

components in a total system and the combination of various components

may also create sources of interference, certain guidelines must be adhered to

when setting up a system.

EMC measures usually consist of an entire package of measures all of which

must be taken in order to obtain an interference-immune system.

Note

The system provider is responsible for adherence to the EMC guidelines,

while the user is responsible for the interference suppression of the com-

plete system.

All measures taken while the system is being set up will eliminate the

need for expensive modifications and removal of interference sources

later.

Country-specific provisions and regulations must be complied with. This

information is not covered in the documentation.

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3.5.3 Spreading of Interference

Three components are required so that interference can affect a system.

Source of interference

Coupling path

Potentially susceptible equipment

Potentially susceptible

device

For example: an ASM 470

Interference source

For example: a drive

Coupling path

For example: a MOBY cable

Figure 3-34 Spreading of Interference

If one of these components is missing (e.g., the coupling path between the

source of the interference and the potentially susceptible device), the suscep-

tible device will not be affected even when strong interference is being

emitted.

The EMC measures affect all three components to prevent any malfunctions

caused by interference. When a system is set up, the provider must take all

possible measure to prevent the creation of sources of interference.

Only equipment which meets limit value class A of VDE 0871 may be

used in a system.

All interference caused by devices must be suppressed. This includes all

coils and windings.

The layout of the cabinet must be such that reciprocal interference of the

individual components is avoided or kept as low as possible.

Measures must be taken to eliminate interference from external sources.

The next few chapters provide information and tips on how to set up a sys-

tem.

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It is necessary to be familiar with the most frequent sources of interference in

order to achieve a high degree of electromagnetic compatibility (i.e. a very

low degree of interference in the environment) in a system. These sources of

interference must be eliminated by taking appropriate measures.

Table 3-12 Sources of interference: origins and effects

Source of interference Interference origin Effect on potentially

susceptible equipment

Contactor, electronic

Contacts Power network malfunctions

valves Coils Magnetic field

Electric motor Collector Electrical field

Winding Magnetic field

Electric welding device Contacts Electrical field

Transformer Magnetic field, power network

malfunction, equalizing currents

Power pack, switched-

mode

Circuit Electrical and magnetic field,

power network malfunction

High-frequency devices Circuit Electromagnetic field

Sender (e.g., industrial

radios)

Antenna Electromagnetic field

Difference in grounding

or reference potential

Voltage difference Equalizing currents

Operator Static charging Electrical discharging currents,

electrical field

High-voltage current

cable

Current flow Electrical and magnetic field,

power network malfunction

High-voltage cable Voltage difference Electrical field

Sources of

interference

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A coupling path is required before interference generated by the source can

take effect. There are four kinds of interference coupling.

MOBY

ASM or

SLG

MOBY

ASM or

SLG

MOBY

ASM or

SLG

MOBY

ASM or

SLG

Galvanic coupling path

Capacitive coupling path

Emission coupling

Figure 3-35 The four kinds of interference coupling

When MOBY modules are used, various components of the total system can

act as coupling paths.

Table 3-13 Causes of coupling paths

Coupling path Cause

Cables and lines Incorrect or unfavorable installation

Missing or incorrectly connected shields

Cables spaced unfavorably

Switching cabinet or

SIMATIC h i

Missing or incorrectly wired equalizing line

SIMATIC housing Missing or incorrect grounding

Cables spaced unfavorably

Modules not installed securely

Poor cabinet layout

Coupling paths

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3.5.4 Cabinet Layout

User influence on the configuration of an interference-immune system in-

cludes the cabinet layout, cable installation, grounding connections and cor-

rect shielding of lines.

Note

For notes on correct cabinet layout in accordance with EMC guidelines, see

the layout guidelines of the SIMATIC controller.

Metal housings for potentially susceptible equipment can be used to keep out

magnetic and electrical fields and electromagnetic waves. The better the in-

duced interference current can flow, the greater the spontaneous weakening

of the field of interference. All sheet metal on the housings or sheet metal in

the cabinet must be well connected together (i.e. with a high degree of con-

ductivity).

Figure 3-36 Shielding via housing

When the sheet metal parts of switching cabinets are insulated against each

other, a high-frequency conductive connection with the ribbon cables and

high-frequency terminals or HF conductive paste can be created. The greater

the connection surface, the better the high-frequency conductive capacity.

This cannot be achieved by connection with simple wires.

Shielding via

housing

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Good interference diversion is achieved by installing SIMATIC controllers on

conductive mounting plates (unpainted). When setting up the switching cabi-

net, interference can be easily avoided by adhering to guidelines. Power com-

ponents (e.g., transformers, drives and load power supplies) should be instal-

led separately (i.e. separated by space) from the controller components (e.g.,

relay controllers and SIMATIC S5).

The following basic principles apply.

1. The effect of interference decreases the greater the distance between in-

terference source and potentially susceptible equipment.

2. Interference is further reduced by installing shielding plates.

3. Load lines and high-voltage current cables must be installed separately

from the signal lines at a distance of at least 10 cm.

CPU/EU

Drive

Shield

sheet

metal

Figure 3-37 Avoidance of interference via optimal layout

Avoiding

interference via

optimal layout

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External interference from the power network can be avoided by installing

power network filters. In addition to correct dimensioning, proper installation

is very important. It is imperative that the power network filter be installed

directly at the entrance to the cabinet. Interference currents are filtered out

early at the entrance and not conducted through the cabinet.

Power filter

Right

Power filter

Wrong

IS = interference current

Figure 3-38 Filtering the supply voltage

Filtering the

supply voltage

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3.5.5 Avoiding Interference Sources

Sources of interference in a system must be avoided so that a higher degree

of interference immunity can be achieved. All circuited inductivities are a

frequent cause of interference in a system.

Since relays, contactors and so on generate interference voltages, this interfe-

rence must be suppressed with one of the following circuits.

When the coil is switched, up to 800 V can be created on 24 V coils even

with small relays. Several kV can be created on 220 V coils. By using free-

wheeling diodes or RC circuitry, the interference voltage is prevented and,

with it, the inductive interference in the lines parallel to the coil lines.

Relay coils

Contactors

Valves

Brakes

Figure 3-39 Inductive interference

Note

All coils in the cabinet must be interference-suppressed. Valves and motor

brakes are frequently forgotten. Fluorescent lamps in the switching cabinet

must be subjected to a special test.

Interference

suppression of

inductivities

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3.5.6 Equipotential Bonding

Differing system part layouts and differing voltage levels can cause differ-

ences in potential between the parts of a system. When the system parts are

connected via signal lines, equalizing currents flow through these signal

lines. These equalizing currents can distort the signals.

This makes correct equipotential bonding imperative.

The cross-section of the equipotential bonding line must be large enough

(i.e. at least 10 mm2).

The space between signal cable and related equipotential bonding line

must be kept as small as possible (i.e. antenna effect).

A fine-wire line must be used (i.e. better conduction of high frequencies).

When connecting equipotential bonding lines to the central equipotential

bonding rail, power components and non-power components must be

combined.

Power pack

PLC

Drive

wrong

Cabinet 1 Cabinet 2

Figure 3-40 Equipotential bonding

The better the equipotential bonding in a system, the smaller the chance of

interference caused by fluctuations in potential.

Equipotential bonding should not be confused with the protective grounding

of a system. Protective grounding prevents the creation of excessive touch

voltages when devices malfunction.

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3.5.7 Ground Fault Monitoring with MOBY

SLG

230 V

24 V

ASM

L+

L-

Ungrounded

power pack

Ground fault detector:

If there is a voltage imbalance to protec-

tive ground on the L+ or L– cables, the

circuit is interrupted.

Interface to the computer or PC

To connect a grounded computer or PC, the con-

nection must contain a galvanic coupling (e.g.,

optocoupler).

Figure 3-41 Circuit diagram of the principle of ground fault monitoring

The SIMATIC is a grounded system. In the power pack of the SIMATIC, 0 V

(i.e. signal ground) is connected to the housing. On the ASM 400, the 0 V

signal of the external 24 V power pack is connected with 0 V of the

SIMATIC. The connection between the ASM 400 (SIMATIC) and the SLG is

equipotentially bonded (i.e. RS 422 interface without galvanic isolation). A

configuration with ground fault monitoring is not possible. Proceed as

described in the SIMATIC manual if ground fault monitoring is necessary.

230 V

24 V

Ground fault

monitoring

PLC 100

Galvanic isolation

SLG

ASM 410

Figure 3-42 SIMATIC AG 100U with ASM 410

The ASM 410 is equipped with galvanic isolation to the SIMATIC CPU on

the module. A configuration with ground fault monitoring is possible without

any problems.

SIMATIC with

ASM 400

SIMATIC AG 100U

with ASM 410

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3.5.8 Shielding the Cables

To suppress interference in the signal cables, these cables must be shielded.

The best shielding effect is achieved by installation in steel piping. However,

this is only necessary when the signal lines must pass through an interfer-

ence-prone environment. In most cases, the use of braided shields is suffi-

cient. In either situation, correct connection is decisive for the shielding ac-

tion.

Note

A shield which is not connected at all or is connected incorrectly has no

shielding effect.

The following basic principles apply.

For analog signal lines, the shield connection must be one-sided and on

the receiver side.

For digital signal lines, the shield connection must be two-sided on the

housing.

Since interference signals are frequently in the HF range (i.e. > 10 kHz),

connection of the HF-capacity shield must be provided over a large sur-

face.

Figure 3-43 Shielding of the cables

The shield rail must be connected to the housing of the switching cabinet

over a large surface (i.e. good conductivity) and must be located as close to

the cable lead-in as possible. The cables must be bared and clamped (high-

frequency clamp) to the shield rail or be bound with cable binders. The loca-

tion must have good conductivity.

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Remove

paint

Cable binder

Figure 3-44 Connection of the shield rail

The shield bus must be connected with the protective ground (PE) bar.

When shielded cables must be interrupted, the shield must also be applied to

the connector housing. Only suitable connectors may be used.

ÔÔÔÔÔ

ÖÖÖÖ

Shield turned up backwards by

180° and connected with the

connector housing

Rubber

sleeve

Figure 3-45 Interruption of shielded cables

When adapter plugs which do not have suitable shield termination are used,

the shield must be continued through cable clamps to the point of interrup-

tion. This ensures a large-surface, HF conductive connection.

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3.5.9 Basic Rules on EMC

Electromagnetic compatibility (i.e. EMC) can often be ensured by following

a few elementary rules. Rules which apply to the layout of the cabinet are

listed below.

Protect the programmable controller from external interference by instal-

ling it in a cabinet or housing. The cabinet or the housing must be in-

cluded in the grounding connection.

Shield electromagnetic fields of inductivity from the programmable con-

troller with separator plates.

Use metallic plug housings for shielded data transmission lines.

Connect all inactive metal parts with low HF resistance over a large sur-

face.

Provide a large-surface connection between the inactive metal parts and

the central grounding point.

Remember to connect the shield bus to ground. This means that there

must be a large-area connection of the shield bus to ground.

Aluminum parts should not be used for grounding connections.

Organize the cables into groups, and install these groups separately.

Always install high-voltage current lines and signal lines in separate ducts

or bundles.

Introduce all cabling into the cabinet from only one side and, if possible,

at one level.

Install the signal lines as close to the grounding surfaces as possible.

Twist the feeder and return conductors of individually installed conduc-

tors.

Shielding via

housing

Large-surface

grounding

connection

Planning the

cabling

Configuration and Mounting Guidelines

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Shield the data transmission lines, and apply the shield on both sides.

Shield the analog lines, and apply the shield on one side (e.g., on the

drive).

Always apply the line shields at the cabinet entrance to the shield bus

over a large surface, and secure these with clamps.

Continue the applied shield without interruption to the module.

Use braided shields and not foil shields.

Only use power supply filters with metal housings.

Connect the filter housing (i.e. connection must be low HF resistant and

over a large surface) to cabinet ground.

Never secure the filter housing to painted surfaces.

Secure the filter at the cabinet entrance or in the direction of the interfer-

ence source.

Shielding the lines

Power supply and

signal filter

Configuration and Mounting Guidelines

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3.6 Concept of MOBY Shielding

With MOBY the data are transferred between ASM and SLG over an RS 422

interface at a speed of 19200 baud. The distance between ASM and SLG may

be up to 1000 m. MOBY cable installation should be treated the same as that

of a data processing system. Special attention should be paid to shielding of

all data cables. The following figure shows the primary points required for a

secure layout.

230 V

24 V

Additional power consumers

Additional

SLGs

The cable shield is ap-

plied to the SLG con-

nector on the appro-

priate shield pin.The ca-

ble shield of the SLG

may not be applied to a

grounded point (i.e. no

grounding clamp).

Each cabinet is

centrally grounded.

The voltage supply of the SLGs should be provided by the

2-pin connector on the ASM. The ASM is equipped with

electrical fuses and a filter circuit against interference

peaks. This filters out interference peaks and frequencies

which may be caused by “additional power consumers.”

The cable jacket of the SLG cables must be bared

directly at the cable lead-in. A shield clamp is used

for the connection of the cable shield to the groun-

ding bar. This will divert interference voltages of

±2.5 kV on the SLG cable. Careful shield connec-

tion is particularly important for long cables or in-

terference-prone industrial environments.

Grounding bar for all shielded cables. It must be located

as close as possible to the cable lead-in in the cabinet.

The bar must be grounded to the cabinet over a large

surface and use short connections.

Figure 3-46 Simple layout with ASM 400

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When the SLG is connected to the ASM 470/475, the cable must be laid via a

shield terminal. Shield connection terminals and holders are standard compo-

nents of the S7-300 product family.

Shield terminal Shield contact

element

Cable to SLG 1 Cable to SLG 2

Figure 3-47 Layout of the ASM 470/475 with shield contact element

To ensure EMC, an S7-300 shield contact element must be used for the SLG

cable (see Figure 3-47). The shield of the SLG cable must be bared as shown

in Figure 3-48.

17030

Specifications in mm

Figure 3-48 Baring of the cable shield

Layout of an

S7-300 with MOBY

Cabling for

ASM 470

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220 V

24 V

230 V

24 V

Connection in the switching

cabinet (see Figure 3-46)

Standard SLG cable

to the ASM

Standard SLG cable

to the SLG

The mounting plate is

used to connect both

cable shields. This

ensures continuous

protection of the data

lines against interfe-

rence fields. Direct

connection on the

mounting plate with

protective ground is

not permitted since

otherwise equalizing

currents would flow

over the cable shield.

The housing of the power pack is provided with total

insulation.The protective conductor is omitted for

connection to the power network.

The cable jacket of the inco-

ming and outgoing cables must

be bared as shown. The cable

shields are provided with a ca-

ble clamp on the mounting

plate of the power pack.

6GT2 090-0HA00

Connection of the SLG

(see Figure 3-46)

Figure 3-49 Voltage supply with power pack

To divert interference which may occur on the connecting cable to the SLG,

proceed as described for the ASM 400.

Voltage supply of

the SLG with

power pack

Connection of

other modules

(e.g., ASM 410)

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3.7 Cable and Connector Assignments

The cable jacket of standard SLG connecting cables used with MOBY is

made of polyurethane (i.e. PUR in accordance with VDE 0250). This ensures

very good cable resistance to oils, acids, caustic solutions, hydraulic fluids

and high resistance to UV.

3.7.1 Cable Configuration

The cable between ASM and SLG requires six cores + shield. Four of these

cores are assigned to the serial data interface. The power supply of the SLG

requires two cores. The data can be transferred over distances of up to

1,000 m, almost without regard to the diameter of the wire.

The power consumption of the SLG causes the voltage on the connecting

cable to drop. The permissible cable length is usually shorter than 1000 m.

The length depends on the current consumption of SLG and the ohmic resist-

ance of the connecting cable. The following table gives you an overview of

the permitted cable lengths (for standard connecting cables see Table 3-22):

Table 3-14 Cable configuration

Conductor

cross-section

in mm2

Conductor

diameter in

Resistance

W/km1

SLG 72

SLG 75 ANT 1/ANT 12/

ANT 18/ANT 30

max. cable length in m

(I=180 mA)

UV=24 V UV=30 V

0.0720.32550 40 100

0.2 0.5 185 120 300

0.5 0.8 70 310 790

0.821.0250 440 1000

1.521.4224 920 1000

1 The resistance values are average values. They refer to the forward and return conduc-

tors. A single wire has half the resistance.

2 Use of these conductor cross-sections requires crimp contacts (not included) in the SLG

connector.

Field with gray background:

Recommended by Siemens: Standard cable, LiYC11Y, 6 x 0.25, shielded. The cable

is available from Siemens under the order number 6GT2 090-0A...

We recommend always applying the shield of the SLG cable to a grounding

bar over a large surface.

The SLG/SIM can also be connected by means of a drum cable.

Recommended cable type: HPM Paartronic 3340-C-PUR 3 x 2 x 0.25

The cable can be customized according to your requirements.

Grounding of the

cable

Drum

cable

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When an additional power pack is installed in the vicinity of the SLG, the

max. 1000 m cable between the ASM and SLG can always be used.

230 V AC

ÏÏ

SLG

Max. of 1000 m

24 V DC

6-core (with 24 V connection)

90 -

Note

Do not connect the 24 V line (pin 2 on the

SLG connector) to the ASM.

Figure 3-50 SLG with extra power pack

The power pack shown in the drawing can be ordered from Siemens under

the number 6GT2 494-0AA00 (see Section 7.2)

Note

With some restrictions, the power pack can be used as the main power pack

for the ASM 400, ASM 724, or ASM 754. See Figure 3-51.

The maximum current of the power pack (2.2 A) may not be exceeded.

SLG

Pin allocation on

socket connector

1, 4

2, 3

GND

+24 V

90 -

230 V AC

24 V DC

Figure 3-51 MOBY wide-range power pack on the ASM 400

Supplementary

power pack

for SLG

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3.7.2 Connector Assignment

Table 3-15 Connector assignment of the SLG connector1

Pin Designation

1- Receiving

2+ 24 V

3Ground (0 V)

4+ Sending

5- Sending

6+ Receiving

Cable shield

1 This connector can be used for: SLG 72, SLG 75 ANT 1/ANT 12/ANT 18/ANT 30

Table 3-16 Connector assignment of the 9-pin subminiature D connector1

Pin Designation

1Not used

2+ Sending

3+ Receiving

4Not used

5- Receiving

6- Sending

7Ground (0 V)

8+ 24 V (see caution note)

9Not used

Housing Cable shield

1 This connector assignment applies to ASM 400/424/454 => SLG; ES 030 => SLG

Note

When making your own cables, remember that the “sending” signal of the

SLG must be connected to the “receiving” signal of the ASM, or vice versa.

!Caution

When using the supplementary power pack in the vicinity of the SLG, do not

wire this pin to the ASM. See Table 3-16.

SLG 72, SLG 75

Connector on the SLG

Connector on the ASM

9-pin subminiature D

connector with screw-

type attachment

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Table 3-17 Connector assignment of SLA connector1

Pin Designation

1+12 Volt

2+ Sending

3+ Receiving

4Not used

5- Receiving

6- Sending

7Not used

8Ground (0 V)

1 This connector applies to: SLA 71

Table 3-18 Connector assignment of the 9-pin subminiature D connector1

Pin Designation

1+12 Volt

2+ Sending

3+ Receiving

4Not used

5- Receiving

6- Sending

7Ground (0 V)

8Not used

9Not used

1 This connector assignment applies to ASM 724, ASM 754 <=> SLA 71.

SLA 71

Connector on the SLA

9-pin subminiature D

connector with screw-

type attachment

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Table 3-19 Connector assignment for 4-pin power supply connector (pin on the side

of the housing)

Pin Designation

1Ground (0 V)

2+ 24 V

3+ 24 V

4Ground (0 V)

Ordering data

Table 3-20 Ordering data for the power supply connector

Connector for power supply (socket)

for ASM 424/454/724/754

6GT2 390-1AB00

Power supply

connector on the

ASM 424/454/724/754

View of the top

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If the SLG connector has to be turned in a different direction when using a

prefabricated cable, proceed as shown in the drawing below to position the

contact support differently.

The connector on the SLG cannot be turned.

Knurled screw for solid con-

nections (no tools needed)

Removable housing cover for

easy mounting

Cage-claw cable retainer

Crimp contacts for

use even with strong

vibration1

Secure the contact support

in 7 positions.

1 Crimping tool:

(type XZC0700, order no. 932507-001)

Available from

Hirschmann GmbH+Co.

D-72606 Nuertingen

Tel: +49 (0) 7127/14-1479

Figure 3-52 Drawing of mounting the SLG connector

Table 3-21 Ordering data for the SLG connector

Connector

SLG-side, 6-pin connector with socket

contacts for crimping angled (contact sup-

port can be fixed in 7 positions)

1 unit

1 pack (10 units)

straight

1 unit

6GT2 090-0BA00

6GT2 090-0BA10

6GT2 090-0UA00

Installing the SLG

connector

Ordering data

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3.7.3 Connecting Cables

Housing

9-pin submini. D

(pins, screw-type

attachment)

SLG connector 2

(socket)

1 When the supplementary power pack in the vicinity of the SLG is used, do not wire

to the ASM

2 6GT2 091-0A... with angled SLG connector (standard)

6GT2 091-2A... with straight SLG connector (not shown)

SLG sideASM side

Figure 3-53 Connecting cable ASM 400/424/454, ES 030 ↔ SLG

Cable with wire end ferrules

White

Brown

Green

Yellow

Gray

Pink

(Shield)

SLG connector 2

(socket)

3 (7)

4 (8)

5 (9)

6 (10)

SLG sideASM side

1 When the supplementary power pack in the vicinity of the SLG is used, do not wire

to the ASM

2 6GT2 091-0D... with angled SLG connector (standard)

6GT2 091-2D... with straight SLG connector (not shown)

Figure 3-54 Connecting cable ASM 410 ↔ SLG

!Caution

The cable shield must be secured with a shield clamp directly on the inter-

face module and grounded on a grounding bar.

Connecting cable

ASM 400/424/454,

ES 030 ↔ SLG

6GT2 091-0A...

6GT2 091-2A...

Connecting cable

ASM 410 ↔ SLG

6GT2 091-0D...

6GT2 091-2D...

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Two 5-pin, round M12 connectors

X1/2

X1/3

X1/1

X1/4

X2/3

X2/1

X1/5

X2/5

White

Brown

Green

Yellow

Gray

Pink

SLG connector (socket)

2 m1

1 standard length

SLG sideASM side

X1 X2

18.5

Figure 3-55 Connecting cable ASM 450/452/473 ↔ SLG

Cable with wire end ferrules

White

Brown

Green

Yellow

Pink

Gray

(Shield)

4 (12)

5 (13)

6 (14)

7 (15)

8 (16)

9 (17)

Baring of the cable shield

SLG sideASM side

1 6GT2 091-0E... with angled SLG connector (standard)

6GT2 091-2E... with straight SLG connector (not shown)

SLG connector1

(socket)

Figure 3-56 Connecting cable ASM 470/475 ↔ SLG

Connecting cable

ASM 450/452/473

↔ SLG

6GT2 091-1C...

6GT2 091-2C...

Connecting cable

ASM 470/475

↔ SLG

6GT2 091-0E...

6GT2 091-2E...

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9-pin submini. D

(pins, screw-type

attachment)

Housing

PC sideASM side

9-pin submini. D

(socket, screw-

type attachment)

Housing

RxDTxD

TxDRxD

0 V 0 V

Figure 3-57 Connecting cable RS 232 PC ↔ ASM 424/724

9-pin submini. D

(pins, screw-type

attachment)

SLA sideASM side

SLA connector

M12, socket

Pin 8 free

Figure 3-58 Connecting cable ASM 724/754 ↔ SLA 71

Connecting cable

RS 232

PC ↔ ASM 424/724

6GT2 391-0BH50 or

6GT2 391-0BN20

Connecting cable

ASM 724/754

↔ SLA 71

6GT2 391-1AH50

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Connector M12, pin

for connecting cable

SLA 71

6GT2 391-1AH50

SLA sideCoupling connector side

SLA connector

M12, socket

Figure 3-59 Extension cable ASM 724/754 ↔ SLA 71

Connector M12

(pin)

SLG sideASM side

SLG connector

(socket)

Figure 3-60 Connecting cable ASM 456 ↔ SLG

Connector M12

(pin) 1

Coupling connector sideASM side

Connector M12

(socket) for

connecting cable

ASM 456

6GT2 091-0FH..

Figure 3-61 Extension cable ASM 456 ↔ SLG

Extension cable

ASM 724/754

↔ SLA 71

6GT2 391-1BN10

6GT2 391-1BN25

Connecting cable

ASM 456 ↔ SLG

6GT2 091-0FH20

6GT2 091-0FH50

Extension cable

ASM 456 ↔ SLG

6GT2 891-0F...

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Housing

15-pin submin. D

(socket, screw-

type attachment)

(Shield)

PC (RS 232) side

SIM side

TxD

RxD

Ground

TxD

RxD

Ground

Test cable for DI/DO

and power supply

Designation

12345

Terminal

+ 24 V

Not used

DO0

Ground (0 V)

DI0

DO1

DO2

Not used

Ground (0 V)

DPA0

DI1

GND signal ground

TxD send

RxD receive

Pin allocation for terminal module1

0.53 m 9

+ 24 V0 V

9-pin submini. D

(socket, screw-

type attachment)

678

91011121314 15

Connection for connector

power pack (6GT2090-0HB00)

Adapter

1 For the definition of the inputs/outputs,

see Section 6.10.2

5 m

Figure 3-62 Connecting cable for RS 232 PC ↔ SIM

Connecting cable

RS 232 PC e SIM

6GT2 391-1DH50

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3.7.4 Cable Lengths

The length key for MOBY cables is no longer supported as of 01.10.2001.

After that, cables will only be available in certain lengths (see Table 3-22).

The cable lengths are based on the following general rules:

Loose cables only come in lengths of 50 m, 120 m, and 800 m

Prepared cables are only available in the lengths listed below

Cables can still be made to any length (see Table 3-14) by the customer.

Table 3-22 Ordering data for MOBY cables

SLG plug-in line, ready-made

Between ASM 400/424/454, ES 030-K and SLG

Angled SLG connector

Length: 5 m

10 m

20 m

50 m

6GT2 091-0AH50

6GT2 091-0AN10

6GT2 091-0AN20

6GT2 091-0AN50

Straight SLG connector

Length: 10 m

50 m

6GT2 091-2AN10

6GT2 091-2AN50

Between ASM 410 and SLG

Angled SLG connector

Length: 5 m

10 m

20 m

6GT2 091-0DH50

6GT2 091-0DN10

6GT2 091-0DN20

Straight SLG connector

Length: 5 m 6GT2 091-2DH50

Between ASM 470/475 and SLG

Angled SLG connector

Length: 2 m

5 m

10 m

20 m

50 m

6GT2 091-0EH20

6GT2 091-0EH50

6GT2 091-0EN10

6GT2 091-0EN20

6GT2 091-0EN50

Straight SLG connector

Length: 2 m

5 m

10 m

50 m

6GT2 091-2EH20

6GT2 091-2EH50

6GT2 091-2EN10

6GT2 091-2EN50

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Table 3-22 Ordering data for MOBY cables

SLG plug-in line, ready-made

Between ASM 450/452/473 and SLG

Angled SLG connector

Length: 2 m (Standard)

5 m

10 m

20 m

50 m

6GT2 091-1CH20

6GT2 091-1CH50

6GT2 091-1CN10

6GT2 091-1CN20

6GT2 091-1CN50

Straight SLG connector

Length: 2 m 6GT2 091-2CH20

Between ASM 456 and SLG

Angled SLG connector

Length: 2 m (Standard)

5 m

6GT2 091-0FH20

6GT2 091-0FH50

Extension for 6GT2 091-0FH..

Length: 2 m

5 m

10 m

20 m

50 m

6GT2 891-0FH20

6GT2 891-0FH50

6GT2 891-0FN10

6GT2 891-0FN20

6GT2 891-0FN50

Standard connecting cable between

SLA 71 ↔ ASM 724/ASM 754

(length 5 m, not included with SLA 71)

6GT2 391-1AH50

Extension for antenna line 6GT2 391-1AH50

Length: 10 m

25 m

6GT2 391-1BN10

6GT2 391-1BN25

MOBY E SIM-RS 232 test cable with connecting line for

DI/DO and connection for power supply

(total length of 5 m)

6GT2 391-1DH50

Plug-in line, 24 V

Plug-in line, 2-core for the 24 V DC power supply of the

ASM 400. Plug-in line has plug connectors

on both sides

Length: 2 m

5 m

6GT2 091-0CH20

6GT2 091-0CH50

24 V DC plug-in line for wide-range power supply unit

6GT2 494-0AA00 (length 5 m)

6GT2 491-1HH50

Plug-in line RS 232

Between PC and ASM 424/724

Length: 5 m

20 m

6GT2 391-0BH50

6GT2 391-0BN20

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Table 3-22 Ordering data for MOBY cables

Cable (without connector)

SLG cable, without connector between ASM and SLG;

Type 6 x 0.25 mm2

Length: 50 m

120 m

800 m

6GT2 090-0AN50

6GT2 090-0AT12

6GT2 090-0AT80

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Configuration and Mounting Guidelines

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MOBY E Configuration, Installation and Service Manual

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Mobile Data Memories 4

4-2 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

4.1 Introduction

MOBY identification systems ensure that useful data accompany a product

from the very beginning.

Mobile data memories are attached to the product or its conveyor or its pack-

aging unit and are written, changed and read - all without contact. All impor-

tant information related to production and material flow control is included

right on the product.

Its sturdy design permits use in rugged environments and makes the MDS

insensitive to many chemical substances.

The primary components of the mobile data memories (i.e. MDS) include

logic, antenna and EEPROM.

When an MDS moves into the transmission field of the read-write device/

read-write antenna (i.e. SLG/SLA), the power supply unit generates and

monitors the necessary power for all switching elements. The pulse-coded

information is conditioned for further processing as purely digital signals. In

addition to managing the various memories, the monitoring unit takes care of

data handling and the check routines.

Table 4-1 Overview of MDS

MDS type Memory size

gross/net

Temperature

range

(during opera-

tion)

Dimen-

sions

(W x H x D

in mm)

Pro-

tection

rating

MDS E600 1.024 gross EEPROM bytes

752 net byte capacity

–25 to +60 °C 85x54x0.8 IP68

MDS E611 1.024 gross EEPROM bytes

752 net byte capacity

–25 to +70 °C 85x54x2.5 IP67

MDS E623 1.024 gross EEPROM bytes

752 net byte capacity

–25 to +85 °C∅10x4.5 IP67

MDS E624 1.024 gross EEPROM bytes

752 net byte capacity

–25 to +125 °C∅27x4 IP67

Definition of IP67:

– Protection against the penetration of dust (i.e. dustproof)

– Total protection again accidental touch

– Protection against water under certain pressure and time conditions

Definition of IP68:

– Protection against the penetration of dust (i.e. dustproof)

– Total protection again accidental touch

– MDS can be submerged in water. Contact the manufacturer for requirements.

Definition of IPx9K:

– Steam jet at distance of 150 mm

– 10 of 15 l water per minute

– Pressure: 100 bar

– Temperature: 75 °C

Application area

Layout and

functions

Overview

Mobile Data Memories

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Table 4-2 Operational requirements/environmental requirements of MDS

MDS E600 MDS E611 / MDS E623 /

MDS E624

Proof of physical strength is

determined by an oscillation

test.

Test conditions:

Frequency range

Amplitude of the dis-

placement

Acceleration

Test duration per axis

Throughput speed

ISO 7810, ISO 10373 EN 60721-3-7, class 7M3

2 to 500 Hz

7.5 mm (2 to 26 Hz)

20 g (26 to 500 Hz)

20 frequency cycles

1 octave/min.

Proof of physical strength is

determined by continuous

shock stress.

Test conditions:

Acceleration

Duration

Test duration per axis

EN 60721-3-7, class 7M3

100 g

6 ms

500 impacts per axis

Torsion and bending stress In accordance with

ISO 10373/

ISO 7816-1

Not permitted

Protection rating in accor-

dance with EN 60529

IP68 IP67

Ambient temperature

During operation

During transportation and

storage

–25 °C to +60 °C

–25 °C to

+70 °C/+85 °C/+125 °C

–40 °C to

+85 °C/+100 °C/+150 °C

Temperature gradient over sto-

rage temperature range in ac-

cordance with part 2-4 of

DIN IEC 68

3 °C/min 3 °C/min

Temperature gradient for rapid

temperature change in accor-

dance with part 2-14 of

DIN IEC 68

Duration of 30 min per

maximum;

Transition from one

maximum to another:

approx. 10 sec,

100 cycles

Duration of 30 min per ma-

ximum;

Transition from one maxi-

mum to another: approx.

10 sec, 100 cycles

!Warning

The values for shock and vibration are maximum values and may not occur

continuously.

Operational

requirements/

environmental

requirements

Mobile Data Memories

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4.2 MDS E600

Figure 4-1 MDS E600

Table 4-3 Ordering data for MDS E600

Order Number

MDS E600 mobile data memory with 752-byte

EEPROM

6GT2 300-0AA00

Accessories:

Mounting bracket 6GT2 390-0AA00

Table 4-4 Technical data of the MDS E600

Memory size 1024-byte EEPROM, 752 bytes

for use as desired

Memory organization Access as desired

MTBF (at +40 °C) 2 x 106 hours

Read cycles Unlimited

Minimum write cycles 200 000

Typical write cycles 1 000 000

Data retention time (at < +40 °C) > 10 years

Read/write distances See field data

Direction dependent No

Vibration ISO 10 373/ISO 7810

Torsion and bending stress ISO 10373/ISO 7816-1

Mounting of the MDS Adhesive/mounting bracket

Protection rating in accordance with EN 60529 IP68

Physical layout Laminated PVC card, printable on

one side

Color Anthracite/white

Material PVC

Dimensions (L x W x H) in mm 85.6 x 54 x 0.76

Ordering data

Technical data

Mobile Data Memories

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Table 4-4 Technical data of the MDS E600

Ambient temperature

during operation

during transportation and storage

–25 °C to +60 °C

Weight, approximate 6 g

Table 4-5 Field data of MDS E600

SLG 75

ANT 1

SLG 75

ANT 4

SLG 72 SLA 71

Working distance (Sa)0 to 50 mm 0 to 50 mm 0 to 50 mm 0 to 50 mm

Limit distance (Sg)70 mm 70 mm 70 mm 70 mm

Transmission

window (L)

60 mm (Ld)220 mm (Ld)75 mm (Lx)1

50 mm (Ly)1

60 mm (Ld)

Minimum distance

from MDS to MDS

> 400 mm > 400 mm > 400 mm > 400 mm

1 For the field geometry, see also Figure 5-2

The field data apply to read and write-accesses of the MDS.

Field data

Mobile Data Memories

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85.6 0.2

Dimensioned drawing

0.76 0.08

54 0.2

110 +0.5

100 +0.3

65 +0.5

5 +0.5

MDS E600

Mounting bracket for MDS E600

The mounting bracket is secured on a non-metallic base with M4 counter-

sunk screws using the holes provided.

The mounting bracket must lay flat on the base. If not, locking will not work

and the MDS may fall out of the mounting bracket.

Note

The mounting bracket shown here (i.e. order no. 6GT2 390-0AA00) is not

suitable for the spacer shown in Figure 4-6 (6GT2 190-0AA00).

Section A-A:

∅4.5

33 +0.3

Note

You can also use the mounting bracket (6GT2 190-0AB00) when

mounting the MDS E600 on metal, but only when used with the spacer

(6GT2 190-0AA00) (for dimensions see Figure 4-6).

Material: PA 6

Figure 4-2 MDS E600 and its mounting bracket

Dimensions

(in mm)

Mobile Data Memories

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Metal

Non-metal

Data memory

20 mm

Mounting on metal

Metal

Non-metal

Data memory

Standard values: a ≥ 20 mm b ≥ 20 mm h ≥ 20 mm

Flush mounting in metal

Figure 4-3 Metal-free space for MDS E600

Note

Underranging the standard values a, b and h will significantly reduce the

field data.

For installation in metallic environment, read and adhere to the information

in chapter 3.4.2.

Metal-free space

Mobile Data Memories

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4.3 MDS E611

Figure 4-4 MDS E611

Table 4-6 Ordering data for MDS E611

Order Number

MDS E611 mobile data memory

with 752-byte EEPROM

6GT2 300-0BB00

Accessories:

Spacer

Mounting bracket

6GT2 190-0AA00

6GT2 190-0AB00

Table 4-7 Technical data of the MDS E611

Memory size 1024-byte EEPROM, 752 bytes

for use as desired

Memory organization Access as desired

MTBF (at +40 °C) 2.5 x 106 hours

Read cycles Unlimited

Minimum write cycles 200 000

Typical write cycles 1 000 000

Data retention time (at < +40 °C) > 10 years

Read/write distances See field data

Direction dependent No

Vibration 20 g

Shock 100 g

Torsion and bending stress Not permitted

Mounting of the MDS Adhesive/mounting bracket

Protection rating in accordance with EN 60529 IP67

Physical layout Epoxy card

Color Anthracite/black

Material Fiber glass-reinforced epoxy resin

Ordering data

Technical data

Mobile Data Memories

4-9

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Table 4-7 Technical data of the MDS E611

Dimensions (L x W x H) in mm 85.8 x 54.1 x 2.5

Ambient temperature

during operation

during transportation and storage

–25 °C to +70 °C

–40 °C to +85 °C

Weight, approximate 21 g

Table 4-8 Field data of MDS E611

SLG 75

ANT 1

SLG 75

ANT 4

SLG 72 SLA 71

Working distance (Sa)10 to 70 mm 10 to 70 mm 10 to 70 mm 10 to 70 mm

Limit distance (Sg)100 mm 90 mm 100 mm 100 mm

Transmission

window (L)

80 mm (Ld)250 mm (Ld)90 mm (Lx)1

60 mm (Ly)1

80 mm (Ld)

Minimum distance

from MDS to MDS

> 400 mm > 400 mm > 400 mm > 400 mm

1 For the field geometry, see also Figure 5-2

The field data apply to read and write-accesses of the MDS.

60 0.2

Dimensioned drawing

∅3.2

85.8 0.2

2.5 0.2

54.1 0.2

Section A-A:

Figure 4-5 Dimensions of MDS E611

Field data

Dimensions

(in mm)

Mobile Data Memories

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110

∅10∅4.5

60 Holding bracket

The spacer can be mounted directly on metal. Together with the mounting bracket, this

results in a distance of 20 mm between the MDS and metal.

Mounting:

– With 2 or 4 M4 screws

– With rubber pads on the holding brackets (e.g., on mesh boxes)

– With cable binders on the holding brackets (e.g., on mesh boxes)

∅2.5

Tabs

Holding knobs

107

121

Dimensioned drawing

Spacker: 6GT2 190-0AA00 Mounting bracket: 6GT2 190-0AB00

The tabs of the mounting bracket are secured to a

non-metal base as listed below. This can be done as

follows:

– Screws in the holes provided

– Rivets in the holes provided

– Nails through the holes

– Staples through the plastic of the tabs

– Insertion in the spacer

The tabs can also be bent by 90°.

Slide the MDS

into the mounting

bracket.

It is locked

in place by means

of the stop knobs

in the mounting

bracket. Data memory

Spacer

Mounting bracket

Assembly:

The MDS is pushed into the moun-

ting bracket. The tabs are then bent

by 90° and inserted in the spacer.

Position the mounting bracket so

that it covers the MDS as shown in

the figure. It is automatically locked

into place.

MDS with mounting bracket MDS with mounting bracket and spacer

(assembled)

SIEMENS

Material: PA 6

Figure 4-6 Dimensions of the spacer and mounting bracket for the MDS E611 (for use with the MDS E600, see

note in Figure 4-2)

Mobile Data Memories

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Metal

Non-metal

Data memory

20 mm

Metal

Non-metal

Data memory

Standard values: a ≥ 20 mm b ≥ 20 mm h ≥ 20 mm

Mounting on metal

Flush mounting in metal

Figure 4-7 Metal-free space for MDS E611

Note

Underranging the standard values a, b and h will significantly reduce the

field data. The MDS may be mounted with metal screws. This has no sub-

stantial effect on the range.

For installation in metallic environment, read and adhere to the information

in chapter 3.4.2.

Metal-free space

Mobile Data Memories

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4.4 MDS E623

The MDS E623 was constructed for tool coding in accordance with

DIN 69873. It can be used everywhere where small data carriers and precise

positioning are required (e.g., tool identification).

Figure 4-8 MDS E623

Table 4-9 Ordering data for MDS E623

Order Number

MDS E623 mobile data memory 6GT2 300-0CD00

Table 4-10 Technical data of the MDS E623

Memory size 1024-byte EEPROM,

752 bytes for use as desired

Memory organization Access as desired

MTBF (at +40 °C) 2.5 x 106 hours

Read cycles Unlimited

Minimum write cycles 200 000

Typical write cycles 1 000 000

Data retention time (at < +40 °C) > 10 years

Read/write distances See field data

Direction dependent No

Vibration 20 g

Shock 100 g

Torsion and bending stress Not permitted

Mounting of the MDS Adhesive1;

e.g. Araldit AW 2101/HW2951 or 2021;

UHU-Plus endfest 300

Protection rating

In accordance with EN 60529

In accordance with DIN 40050

(part 9)

IP67

IPx9K (steamer: 150 mm;

10 to 15 l/min; 100 bar; 75 °C)

Ordering data

Technical data

Mobile Data Memories

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Table 4-10 Technical data of the MDS E623

Physical layout Molded, shock-resistant plastic

Color Black

Material Epoxy resin

Dimensions (D x H) in mm

(dimensions and tolerances in accor-

dance with DIN 69873)

∅10 x 4.5

(chamfer on the underside 0.5 x 45°)

Ambient temperature

during operation

during transportation and storage

–25 °C to +85 °C

–40 °C to +100 °C

Weight, approximate 4 g

1 The processing specifications of the manufacturer must be adhered to.

Table 4-11 Field data MDS E623

SIM 70 ANT 0 SLG 75 ANT 18 SLG 75 ANT 12

Metal-free installation (static)

Working distance (Sa)0 to 6 mm 0 to 6 mm 0 to 4 mm

Transmission window

(Ld)

4 mm

(average devia-

tion

±2 mm)

4 mm

(average devia-

tion

±2 mm)

8 mm

(average devia-

tion

±4 mm)

Limit distance (Sg)6 mm 6 mm 5 mm

Flush mounting in metal (static)

Working distance (Sa)0 to 3.5 mm 0 to 3.5 mm 0 to 3 mm

Transmission window

(Ld)

4 mm

(average devia-

tion

±1.5 mm)

4 mm

(average devia-

tion

±1.5 mm)

4 mm

(average devia-

tion

±2 mm)

Limit distance (Sg)4 mm 4 mm 4 mm

Minimum distance from

MDS to MDS

> 30 mm > 30 mm > 20 mm

Note

The MDS E623 is only designed for static operation.

Field data

Mobile Data Memories

4-14 MOBY E Configuration, Installation and Service Manual

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Metal

Data memory

Mounting on metal

MDS E623 can be mounted directly on metalMDS E623 can be mounted directly on metal

SIEMENS

MDS E623

Figure 4-9 Mounting on metal: MDS E623

Flush mounting in metal

Metal

Data memory

MDS E623 can be mounted flush in metal.

SIEMENS

MDS E623

Figure 4-10 Metal-free space for MDS E623

For installation in metallic environment, read and adhere to the information

in chapter 3.4.2.

Metal-free space

Mobile Data Memories

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t1t2

MDS E623 Metal

Antenna side

(active surface)

Figure 4-11 Dimensions and installation space for MDS E623

Table 4-12 Dimensions of MDS E623/installation space in accordance with

DIN 69873

MDS E623 Installation space

b10.5 x 45°b20.3 x 45° or

R 0.3

d110 -0.04

-0.13 d210 +0.09

t14,5 -0

-0.1 t24,6 +0.2

The MDS may not protrude out of the receptacle hole. It must be flush with

the outside contours. Follow the installation instructions for the MDS and

take into account the particular conditions of your project (e.g., scope speed,

temperature and use of cooling lubricant).

Bore mounting opening.

The surface to which adhesive will be applied must be dry and free of

dust, grease, stripping agents and other soil.

Apply adhesive in accordance with the manufacturer’s instructions.

Press MDS E623 in by hand. Antenna side to outside (see Figure 4-11).

Remove extra adhesive.

Allow to harden in accordance with the instructions of the adhesive

manufacturer.

Mounting the

MDS E623 flush in

metal with tools

Mounting with

adhesive

Mobile Data Memories

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Figure 4-12 Example of mounting the MDS E623 in a quick-release taper shaft

Figure 4-13 Example of mounting the MDS E623 in a retention shaft

Examples of

mounting

Mobile Data Memories

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4.5 MDS E624

Figure 4-14 MDS E624

Table 4-13 Ordering data for MDS E624

Order Number

MDS E624 mobile data memory

with 752-byte EEPROM

6GT2 300-0CE00

Table 4-14 Technical data of the MDS E624

Memory size 1024-byte EEPROM, 752 bytes for use as de-

sired

Memory organization Access as desired

MTBF (at +40 °C) 2.5 x 106 hours

Read cycles Unlimited

Minimum write cycles 200 000

Typical write cycles 1 000 000

Data retention time (at < +40 °C) > 10 years

Read/write distances See field data

Direction dependent No

Vibration 20 g

Shock 100 g

Torsion and bending stress Not permitted

Mounting of the MDS Adhesive/M3 screw

Tightening torque at +20°C≤ 1 Nm

Protection rating

In accordance with EN 60529

In accordance with DIN 40050

(part 9)

IP67

IPx9K (steamer: 150 mm;

10 to 15 l/min; 100 bar; 75 °C)

Ordering data

Technical data

Mobile Data Memories

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Table 4-14 Technical data of the MDS E624

Physical layout

Color

Material

Molded, shock-resistant plastic

Black

Epoxy resin

Dimensions (DxH) in mm 27 x 4

Ambient temperature

During operation

During transportation and storage

–25 °C to +125 °C

–40 °C to +150 °C

Weight, approximate 5 g

Table 4-15 Field data of MDS E624

SLG 75

ANT 18

SLG 75

ANT 1

SLG 75

ANT 4

SLG 72 SLG 75

ANT 30

SLA 71

Working

distance (Sa)

0 to 8 mm 0 to 25 mm 0 to 25 mm 0 to 30 mm 0 to 18 mm 0 to 25 mm

Limit distance (Sg)15 mm 40 mm 35 mm 40 mm 24 mm 40 mm

Transmission

window (L)

12 mm (Ld)38 mm (Ld)200 mm (Ld)60 mm (Lx)1

40 mm (Ly)1

14 mm (Ld)38 mm (Ld)

Minimum distance

from MDS to MDS

> 50 mm > 250 mm > 250 mm > 250 mm > 60 mm > 250 mm

1 For the field geometry, see also Figure 5-2

The field data apply to read and write-accesses of the MDS.

∅270.2

40.2

∅6

∅3.5

Figure 4-15 Dimensions of MDS E624

Field data

Dimensions

(in mm)

Mobile Data Memories

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Metal

Non-metal

Data memory

h ≥ 20 mm

Mounting on metal

Flush mounting in metal

Metal

Non-metal

Data memory

a ≥ 20 mm

SIEMENS

MDS E624

SIEMENS

MDS E624

h ≥ 20 mm

Figure 4-16 Metal-free space for MDS E624

Note

Underranging the standard values a and h will significantly reduce the field

data. The MDS may be mounted with metal screws (i.e. M3 countersunk

screws). This has no substantial effect on the range.

For installation in metallic environment, read and adhere to the information

in chapter 3.4.2.

Metal-free space

Mobile Data Memories

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Mobile Data Memories

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Read/Write Devices

Read/Write Antennas 5

5-2 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

5.1 Introduction

The SLGs/SLAs provide inductive communication with the mobile data me-

mories (i.e. MDSs) and the serial link to the interfaces (i.e. ASMs).

Various SLG/SLA models – for short, medium and long distances to the MDS

– are available to meet customer requirements.

The SLG/SLA executes commands received from the interface. These com-

mands for reading and writing data are converted via a modulator/demodula-

tor circuit.

Communication between MDS and SLG/SLA takes place via inductive alter-

nating fields.

The volume of data that can be transmitted between the SLG/SLA and MDS

depends on the following:

The speed at which the MDS moves through the SLG/SLA’s transmission

window

The length of the transmission window

Table 5-1 Overview table of SLG/SLA

SLG Type Working

distance Sa

(depending

on MDS)

Limit

distance Sg

Temperature

range

(during opera-

tion)

Circuit di-

mensions

(L x W x H)

in mm

Antenna di-

mensions

(L x W x H)

in mm

Protection

rating

SLG 72 0 to 70 mm 100 mm –25 to +70 °C160 x 80 x 40 --- IP65

SLG 75 ANT 1 0 to 70 mm 100 mm –25 to +70 °C160 x 80 x 40 75 x 75 x 20 IP65

SLG 75 ANT 4 0 to 70 mm 100 mm –25 to +70 °C160 x 80 x 40 320 x 80 x 30 IP65

SLG 75 ANT 12 0 to 4 mm 5 mm –25 to +70 °C160 x 80 x 40 ∅ M12 x 40 IP65

SLG 75 ANT 18 0 to 8 mm 15 mm –25 to +70 °C160 x 80 x 40 ∅ M18 x 50 IP65

SLG 75 ANT 30 0 to 18 mm 24 mm –25 to +70 °C160 x 80 x 40 ∅ M30 x 58 IP65

SLA 71 0 to 70 mm 100 mm –25 to +70 °C --- 75 x 75 x 20 IP65

Definition of IP65:

– Protection against penetration of dust (i.e. dust-proof)

– Full protection against touch

– Protection against water jet

Definition of IP67:

– Protection against the penetration of dust (i.e. dustproof)

– Total protection again accidental touch

– Protection against water under specified pressure and time conditions

Application area

Layout and

functions

Read/Write Devices – Read/Write Antennas

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5.2 SLG 72

The SLG 72 is a read/write device in the medium performance range. Due to

the larger dimensions of the antenna, the SLG 72 creates a greater field than

the SLG 75 ANT 1. In dynamic operation greater volumes of data can be

read/written by the MDS (see Section 3.3).

Figure 5-1 Read/write device SLG 72

Table 5-2 Ordering data for the SLG 72

Read/write device SLG 72 6GT2 301-0CA00

SLG connector and plug-in line See Section 3.7

Table 5-3 Technical data of the SLG 72

Inductive interface to MDS

Max. SLG-MDS read/write distances 100 mm (see field data)

Transmission frequency 13.56 MHz

Serial interface to ASM RS 422

Data transmission speed 19200 Baud

Max. ASM - SLG cable length

(with 24 V DC and

a conductor cross-section of 0.2 mm2)

120 m

Max. data cable length. See cable configuration

in Table 3-14.

1000 m

Application area

Ordering data

Technical data

Read/Write Devices – Read/Write Antennas

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Table 5-3 Technical data of the SLG 72

Supply voltage (via serial interface)

Nominal value

Permissible range

24 V DC

20 to 30 V DC

Current consumption

Brief switch-on current

Operation (at 24 V)

Max. of 700 mA

180 mA (typical)

MTBF (at +40 °C) 2.5 x 105 hours

Housing

Dimensions (in mm)

Without connector (W x H x D)

Color

Material

Connector

160 x 80 x 40

Anthracite

Polyamide 12

6-pin SLG connector in accor-

dance with DIN 43651

Protection rating in accordance with EN 60529

Shock in accordance with EN 60721-3-7,

class 7M2

Total shock response spectrum, type II

Vibration in accordance with EN 60721-3-7,

class 7M2

IP65

30 g1

1 g (9 to 200 Hz)1

1.5 g (200 to 500 Hz)1

Mounting of SLG

Tightening torque at room temperature

2 M5 screws

≤ 2 Nm

Ambient temperature

During operation

During transportation and storage

–25 °C to + 70 °C

–40 °C to + 85 °C

Weight (approx.) 550 g

1Warning: The values for shock and vibration are maximum values and must

not occur continuously.

The exact field data are dependent on the type of MDS used.

Table 5-4 Field data of SLG 72

Working distance (Sa)

Limit distance (Sg)

Transmission window

Minimum distance from SLG to SLG (D)

0 to 70 mm

100 mm

Depends on MDS

Da > 800 mm

Db > 800 mm

Field data

Read/Write Devices – Read/Write Antennas

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ÓÓÓÓÓÓÓÓÓ

Side view

Transmission window MDS

Top view

SLG 72

Standard configuration: longitudinal x-axis (Lx)70

Lx, (Sa, min) 1

1 At Sa, min, the transmission window may increase.

Lx, (Sa, min) 1

Ly, (Sa, max) = LyLy, (Sa, max) = Ly

Figure 5-2 Transmission window of the SLG 72

Metal

h = Physical height of SLG

Metal

a, b = Metal-free distances = 40 mm

Figure 5-3 Metal-free space of SLG 72

Transmission

window

Metal-free space

Read/Write Devices – Read/Write Antennas

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Made in Germany

SIEMENS MOBY E SLG 72

FCC ID: NXWMOBYE-SLG72

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 THAT MAY CAUSE UNDESIRED OPERATION.

Note

The manufacturer is not responsible for any radio or TV interference caused

by unauthorized changes and modifications to this equipment:

Such modifications could void the user’s authority to operate the equipment.

SLG 72SLG 72

SLG 72

Da ≥ 800 mm

Db ≥ 800 mm

Figure 5-4 Distance D: SLG 72

5,5

80 40

160

Figure 5-5 Dimensioned drawing SLG 72

FCC information

Definition of

the distance D

Dimensions

(in mm)

Read/Write Devices – Read/Write Antennas

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5.3 SLG 75

The SLG 75 ANT is a read/write device in the middle of the performance

range. It can only be used with ANT 1, ANT 4, ANT 12, ANT 18 and

ANT 30. The antennas can be very easily positioned for any application.

The cable between the antenna and evaluation unit is 3 m long. The length

cannot be changed.

The antenna cable can be connected on the SLG side.

The SLG 75 can be operated at the following interfaces:

ASM 400, ASM 410, ASM 424, ASM 450, ASM 452, ASM 454, ASM 470,

ASM 473 and ASM 475.

Figure 5-6 Read/write device SLG 75

ANT 1

Figure 5-7 ANT 1 for SLG 75

The ANT 1 is an antenna in the middle of the performance range which is

very useful in production plants and assembly lines because of its easily han-

dled housing.

The antenna’s dimensions make it possible to read/write large volumes of

data from/to the MDS during operation. The antenna cable can be connected

on the SLG side.

Application

area SLG 75

Areas of

application

of the antennas

Read/Write Devices – Read/Write Antennas

5-8 MOBY E Configuration, Installation and Service Manual

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ANT 4

Figure 5-8 ANT 4 for SLG 75

The ANT 4 was specially conceived for use in manufacturing plans and assem-

bly lines.

Due to its wide transmission area, the antenna can be used every where high

speeds are required. The cable length between the antenna and the evaluating

processor unit is 1 m and is connected to the electronics side.

ANT 12

Figure 5-9 ANT 12 for the SLG 75

The ANT 12 is intended primarily for tool identification. The very small size of

the antenna permits very accurate positioning using the plastic nuts included

with it. The antenna cable can be connected on the SLG side. Data carrier com-

munication is only possible with the MDS E623 (tool pill) in static mode.

Read/Write Devices – Read/Write Antennas

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ANT 18

Figure 5-10 ANT 18 for the SLG 75

The ANT 18 was designed primarily for use in small assembly lines. The small,

compact dimensions of the antenna with its two plastic nuts (included with the

product) make it easy to position for any application. The antenna cable can be

connected on the SLG side. Data carrier communication is only possible with

the MDS E624 in static mode.

ANT 30

Figure 5-11 ANT 30 for the SLG 75

The ANT 30 was designed primarily for use in small assembly lines. The

maximum read/write range is approximately 60% greater than the ANT 18.

The compact dimensions of antenna with its two plastic nuts (included with

the product) make it very easy to position for any application. The antenna

cable can be connected on the SLG side. Data carrier communication is only

possible with the MDS E624 in static mode.

Table 5-5 Ordering data for the SLG 75 and ANT xx

SLG 75 write/read device

with RS 422 serial interface

The antenna is not included with the

SLG 75 and must be ordered separately.

6GT2 398-1AF00

Antennas:

ANT 1 75 x 75 x 20 (L x W x H)

ANT 4 320 x 80 x 30 (L x W x H)

ANT 12 M12 x 1.0 x 40 (∅ x wght x L)

ANT 18 M18 x 1.0 x 55 (∅ x wght x L)

ANT 30 M30 x 1.5 x 58 (∅ x wght x L)

6GT2 398-1CB00

6GT2 398-1CE00

6GT2 398-1CE00-0AX01

6GT2 398-1CC00

6GT2 398-1CA00

6GT2 398-1CD00

SLG connector and plug-in line See Section 3.7

1 with antenna cable with hose

Ordering data

Read/Write Devices – Read/Write Antennas

5-10 MOBY E Configuration, Installation and Service Manual

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Table 5-6 Technical data of the SLG 75

Read/write device SLG 75

Inductive interface to MDS

ANT-MDS read/write distances See field data

Transmission frequency 13.56 MHz

Serial interface to ASM RS 422

Data transmission speed 19200 Baud

Max. ASM - SLG cable length

(with 24 V DC and a conductor cross-sec-

tion of 0.2 mm2)

120 m

Max. data cable length. See cable configu-

ration in Table 3-14.

1000 m

MDS addressing

command

Direct access via addresses

Initialize MDS, read data from MDS,

write data to MDS

Supply voltage (via serial interface)

Nominal value

Permissible range

24 V DC

20 to 30 V DC

Current consumption

Switch-on current (brief)

Operation (at 24 V DC)

Max. of 700 mA

180 mA (typical)

MTBF (at +40 °C) 2.5 x 105 hours

Housing

Dimensions (in mm)

Electronics w/o connectors (L x W x H) 160 x 80 x 40

Color

Material

Connector

Data

Anthracite

Plastic (PA 12)

6-pin SLG connector in accordance with

DIN 43651 (pin, device side)

Protection rating in accordance with

EN 60529

Vibration in accordance with

EN 60721-3-7/class 7M2

Vibration in accordance with

EN 60721-3-7/class 7M2

IP65

30 g1

1 g (3 to 200 Hz)1

1.5 g (200 to 500 Hz)1

Mounting of SLG

Tightening torque at room temperature

2 M5 screws

≤ 3 Nm

Ambient temperature

During operation

During transportation and storage

–25 °C to + 70 °C

–40 °C to + 85 °C

Weight (approx.) 520 g

Certification CE, UL/CSA, FCC

1Warning: The values for shock and vibration are maximum values and must not

occur continuously.

Technical data

Read/Write Devices – Read/Write Antennas

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MOBY E Configuration, Installation and Service Manual

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Table 5-7 Technical data of the antennas

Antenna ANT 1 ANT 4 ANT 12 ANT 18 ANT 30

Write/read distance, max.

ANT-MDS (Sg).

100 mm 100 mm 5 mm 15 mm 24 mm

Housing dimensions in mm 75 x 75 x 20

(L x W x H)

320 x 80 x 30

(L x W x H)

M12 x 1.0 x 40

(∅ x wght x L)

M18 x 1.0 x 55

(∅ x wght x L)

M30 x 1.5 x 58

(∅ x wght x L)

Color Anthracite Pastel turquoise

Material Plastic (PA 12) Plastic

Crastin

Connector 4-pin

pin, antenna side

Antenna line length 3 m 1 m 3 m

Protection rating in accor-

dance with EN 60529

IP67 IP67 (front)

Vibration in accordance with

EN 60721-3-7/class 7M2

Vibration in accordance with

EN 60721-3-7/class 7M2

50 g1

20 g (3 to 500 Hz)1

Mounting of antenna 2 M5 screws 2 plastic nuts

M12 x 1.0

2 plastic nuts

M18 x 1.0

2 plastic nuts

M30 x 1.5

Ambient temperature

During operation

During transportation

and storage

–25 °C to +70 °C

–40 °C to +85 °C

MTBF (at +40 °C) 2.5 x 105 hours

Weight (approx.) 80 g 950 g 45 g 120 g 150 g

1Warning: The values for shock and vibration are maximum values and must not occur continuously.

Read/Write Devices – Read/Write Antennas

5-12 MOBY E Configuration, Installation and Service Manual

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Table 5-8 Cable specification of the ANT 12 antenna

Type of line Coaxial transmission line 50 Ω

suitable for dragchain

Sheath PUR

External diameter 5.2 mm

Mechanical stability

Bending radius

– one-time

– repeated

Dragchain

≥ 5 x External diameter

≥ 15 x External diameter

≥ 2 x 106 Cycles

Ambient temperature during operation

– with fixed wiring

– with flexible wiring

–30 °C to +70 °C

–5 °C to +50 °C

Approval UL (in accordance with style 1354)

Table 5-9 Field data of the SLG 75 with antenna

SLG 75 ANT 1 ANT 4 ANT 12 ANT 18 ANT 30

Working distance (Sa)0 to 70 mm 0 to 70 mm 0 to 4 mm 0 to 8 mm 0 to 18 mm

Limit distance (Sg)100 mm 100 mm 5 mm 15 mm 24 mm

Diameter of the transmis-

sion window (Ld)

Depends on

MDS

Depends on

MDS

8 mm Depends on

MDS

14 mm

Minimum distance from

SLG to SLG (D)  800 mm > 800 mm  80 mm  125 mm  200 mm

Field data

Read/Write Devices – Read/Write Antennas

5-13

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Transmission window:

The antenna of the MDS must be positioned within this field to ensure relia-

ble data transfer.

ÓÓÓÓÓ

SgSide view

Transmission window MDS

Top view

1 The transmission window may

be larger at Sa, min.

ÓÓÓÓÓ

L (Sa, min) 1

ÓÓÓÓÓ

L (Sa,max) = Ld

Figure 5-12 Transmission window of the ANT 1

ÓÓÓÓÓÓÓÓÓÓÓÓÓÓÓÓÓÓÓÓ

Side view

Transmission window MDS

Top view

1 The transmission window may be larger at Sa, min.

L (Sa,min) 1

L (Sa,max) = Ld

Figure 5-13 Transmission window of the ANT 4

Transmission

window

Read/Write Devices – Read/Write Antennas

5-14 MOBY E Configuration, Installation and Service Manual

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Top view

Side view

Transmission window

Figure 5-14 Transmission window of the ANT 12

Top view

Side view 1 The transmission window may

be larger at Sa, min.

L (Sa, min) 1

Figure 5-15 Transmission window of the ANT 18

Top view

Side view

Transmission window

Figure 5-16 Transmission window of the ANT 30

Read/Write Devices – Read/Write Antennas

5-15

MOBY E Configuration, Installation and Service Manual

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Metal-free space with flush mounting

a = 40 mm

Metal

h = 20 mm (non-metallic base)

Figure 5-17 Metal-free space for the ANT 1

Metal-free space with flush mounting

a = 40 mm

Metal a

Figure 5-18 Metal-free space for the ANT 4

Metal-free space

Read/Write Devices – Read/Write Antennas

5-16 MOBY E Configuration, Installation and Service Manual

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ÏÏÏÏÏÏ

Note:

Flush installation in metal reduces the limit

and working distance.

Top view Side view

MOBYE

ANT 12

Figure 5-19 Metal-free space for the ANT 12

ÏÏÏÏÏÏ

aMOBY E

ANT 18

a = 10 mm

b = 10 mm

Metal-free space with flush

installation

Note:

The limit and working distances are

reduced when the metal-free space is

not adhered to.

ANT 18

Figure 5-20 Metal-free space for the ANT 18

ÏÏÏÏÏÏÏÏÏÏÏÏ

MOBYE

ANT 30

Side view

Top view

Figure 5-21 Metal-free space for the ANT 30

Read/Write Devices – Read/Write Antennas

5-17

MOBY E Configuration, Installation and Service Manual

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Made in Germany

SIEMENS MOBY E SLG 75

FCC ID: NXWMOBYE-SLG75

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 THAT MAY CAUSE UNDESIRED OPERATION.

Note

The manufacturer is not responsible for any radio or TV interference caused

by unauthorized changes and modifications to this equipment:

Such modifications could void the user’s authority to operate the equipment.

FCC information

Read/Write Devices – Read/Write Antennas

5-18 MOBY E Configuration, Installation and Service Manual

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ANT 1ANT 1

ANT 1

Da ≥ 800 mm

Db ≥ 800 mm

The SLG electronics can be mounted

directly next to each other.

Figure 5-22 Distance D: ANT 1

Da ≥ 800 mm

Db ≥ 800 mm

The SLG electronics can be mounted

directly next to each other.

ANT 4

ANT 4ANT 4

Figure 5-23 Distance D: ANT 4

Da  80 mm

Db  80 mm

The SLG electronics can be

mounted directly next to each other.

Figure 5-24 Distance D: ANT 12

Definition of

the Distance D

Read/Write Devices – Read/Write Antennas

5-19

MOBY E Configuration, Installation and Service Manual

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Da ≥ 125 mm

Db ≥ 125 mm

The SLG electronics can be

mounted directly next to each other.

Figure 5-25 Distance D: ANT 18

Da  200 mm

Db  200 mm

The SLG electronics can be

mounted directly next to each other.

Figure 5-26 Distance D: ANT 30

Read/Write Devices – Read/Write Antennas

5-20 MOBY E Configuration, Installation and Service Manual

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5,5

80 40

160

Figure 5-27 Dimensioned drawing of SLG 75

5 20

Minimum bending

radius: 20 mm

Cable length 3 m

ANT 1 can be connected

on electronics side

Figure 5-28 Dimensioned drawing of the ANT 1

Minimum

bending

radius: 20 mm

Cable

length 1 m

ANT 4 can be

connected on

electronics side

320

Figure 5-29 Dimensioned drawing of the ANT 4

Dimensions

(in mm)

Read/Write Devices – Read/Write Antennas

5-21

MOBY E Configuration, Installation and Service Manual

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M12

Fine thread

Gradient 1.0

Minimum bending

radius: 20 mm

Cable length 3 m

ANT 12 can be connected

on electronics side

Antenna

head

Antenna

side

Side view

of the antenna

head

MOBY E

ANT 12

Figure 5-30 Dimensioned drawing of the ANT 12

M18

Fine thread

Gradient 1.0

Minimum bending

radius: 20 mm

Cable length 3 m

ANT 18 can be connected

on electronics side

Antenna

head

Antenna

side

Side view

of the antenna

head

MOBY E

ANT 18

Figure 5-31 Dimensioned drawing of the ANT 18

M30

Fine thread

incline: 1.5

Minimum bending

radius: 20 mm

Cable length 3 m

ANT 30 can be

connected on electronics side

Antenna

head

Antenna

side

Side view

of the antenna

head

MOBY E

ANT 30

Figure 5-32 Dimensioned drawing of the ANT 30

Note

The length of the line between antenna and evaluation unit is 3 m. The

length cannot be changed.

Caution

The antenna must not be removed in an energized state.

Read/Write Devices – Read/Write Antennas

5-22 MOBY E Configuration, Installation and Service Manual

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Notes on mounting for split toroidal cores

Connect the 2 split toroidal cores included with the SLG 75 (order number

6GT2 398-1AF00) just behind the ASM plug connector if you are using stan-

dard SLG stub lines (see table 5-10) or cables which have made youself.

1. Close the plastic ferrite shells over the connecting cable.

2. Secure the ferrite shells using a cable binder to prevent them slipping (see

Figure 5-33)

Table 5-10 Standard connecting cables which will take split toroidal cores

Connecting cables Ordering number

SLG 75 – ASM 400/424/454 6GT2 091-0A...1

6GT2 091-2A...1

SLG 75 – ASM 410 6GT2 091-0D...1

6GT2 091-2D...1

SLG 75 – ASM 450/452/473 6GT2 091-1C...1

6GT2 091-2C...1

SLG 75 – ASM 470/475 6GT2 091-0E...1

6GT2 091-2E...1

1 For cable lengths, see chap. 3.7.4.

ASM connector

Split toroidal cores

Cable binder

Figure 5-33 ASM 450 connecting cables with split toroidal cores (example)

Note

If your cables have diameters greater than 8 mm, please contact Customer

Support:

Telephone: +49 (180) 5050-222

Fax: +49 (180) 5050-223

E-Mail: adsupport@siemens.com

Internet: http://www.siemens.com/automation/service&support

Cores to the

SLG 75

Read/Write Devices – Read/Write Antennas

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MOBY E Configuration, Installation and Service Manual

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Notes on mounting for round cores

It may be necessary to install the included round cores on the antenna lines

(ANT 1, ANT 4, ANT 12, ANT 18, ANT 30) under certain conditions:

When several antennas are mounted close together

When several antennas interfere with each other due to coupling via me-

tallic structures (see chap. 3.4.3)

In this case, the round cores must be installed as shown in figure 5-34 direct-

ly behind the plug connector of the antenna line.

The cores prevent common-mode currents, among others, and ensure inter-

ference-free operation.

Antenna line

Round cores

SLG 75

Figure 5-34 Antenna line with round cores

Note

When serveral SLG 75s are connected to one ASM, the antenna cables

(ANT 1, ANT 4, ANT 12, ANT 18, ANT 30) of the individual SLGs must be

installed separately from each other to prevent interference in communica-

tion.

Bundled installation of the antenna cables may cause communication prob-

lems.

Read/Write Devices – Read/Write Antennas

5-24 MOBY E Configuration, Installation and Service Manual

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5.4 SLA 71

The SLA 71 is a read/write antenna in the middle of the performance range.

It permits greater distances to the evaluation unit (ASM).

The length of the line between antenna and evaluation unit is 55 m (max.).

The SLA 71 can be connected to the following: ASM 724 and ASM 754.

Figure 5-35 Read/write antenna SLA 71

Table 5-11 Ordering data for the SLA 71

Read/write antenna SLA 71 6GT2 301-2BB00

Accessories:

Standard connecting cable between

SLA 71 ↔ ASM 724 and ASM 754;

length 5 m (not included with the pro-

duct)

Extension for antenna line

6GT2 391-1AH50 Length 25 m

6GT2 391-1AH50

6GT2 391-1BN25

Table 5-12 Technical data of the SLA 71

Inductive interface to MDS

Read/write distances (SLG - MDS), max. 100 mm (see field data)

Transmission frequency 13.56 MHz

Serial interface to ASM RS 422

Data transmission speed 106 kbps

Line length to ASM, max. 55 m

Voltage (only via ASM)

Current consumption at room temperature

12 V DC

160 mA (typical)

MTBF (at +40 °C) 1 x 105 hours

Application

area

Ordering data

Technical data

Read/Write Devices – Read/Write Antennas

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MOBY E Configuration, Installation and Service Manual

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Table 5-12 Technical data of the SLA 71

Housing

Dimensions without connecting cable

(L x W x H in mm)

Color

Material

Connector

75 x 75 x 20

Anthracite

Polyamide 12

0.5 m cable with 8-pin M12

connector (pin on device side)

Protection rating in accordance with

EN 60529

Shock in accordance with

EN 60721-3-7/class 7M2

Total shock response spectrum, type II

Vibration in accordance with

EN 60721-3-7/class 7M2

IP67

30 g1

5 g (9 to 200 Hz)1

10 g (200 to 500 Hz)1

Mounting of the SLA 71

Tightening torque at 20 °C

2 M5 screws

≤ 2 Nm

Ambient temperature

During operation

During transportation and storage

–25 °C to +70 °C

–40 °C to +85 °C

Weight without connecting cable (approx.) 150 g

1Warning: The values for shock and vibration are maximum values and must

not occur continuously.

Table 5-13 Field data of SLA 71

Working distance (Sa)

Limit distance (Sg)

Diameter of the transmission window (Ld)

Minimum distance from SLA to SLA (D)

10 to 70 mm

100 mm

Depends on MDS

Da > 800 mm

Field data

Read/Write Devices – Read/Write Antennas

5-26 MOBY E Configuration, Installation and Service Manual

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ÓÓÓÓÓ

SgSide view

Transmission window MDS

Top view

SLA 71

1 The transmission window may

be larger at Sa, min.

ÓÓÓÓÓ

L (Sa, min) 1

ÓÓÓÓÓ

L (Sa,max) = Ld

Figure 5-36 Transmission window of the SLA 71

Metal-free space with flush mounting

a = 40 mm

Metal

h = 20 mm (non-metallic base)

Figure 5-37 Metal-free space for SLA 71

Transmission

window

Metal-free space

Read/Write Devices – Read/Write Antennas

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MOBY E Configuration, Installation and Service Manual

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Made in Germany

SIEMENS MOBY E SLA 71

FCC ID: NXWMOBYE-SLA71

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 THAT MAY CAUSE UNDESIRED OPERATION.

Note

The manufacturer is not responsible for any radio or TV interference caused

by unauthorized changes and modifications to this equipment:

Such modifications could void the user’s authority to operate the equipment.

SLA 71SLA 71

SLA 71

Da ≥ 800 mm

Db ≥ 800 mm

Figure 5-38 Distance D: SLA 71

Cable length: 0.5 m

5 20

Figure 5-39 Dimensioned drawing of SLA 71

FCC information

Definition of

the distance D

Dimensions

(in mm)

Read/Write Devices – Read/Write Antennas

5-28 MOBY E Configuration, Installation and Service Manual

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Read/Write Devices – Read/Write Antennas

6-1

MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Interfaces 6

6-2 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

6.1 Introduction

ASM interfaces provide the link between MOBY E components (i.e. SLGs/

SLAs and MDSs) and higher level controllers (e.g., SIMATIC S 5/S7), PCs

or computers. Up to four SLGs/SLAs can be connected depending on the

interface used.

An ASM consists of a microcontroller system with its own program stored on

a PROM. The CPU receives commands via the user interface and stores these

in the RAM. The user receives an acknowledgment that the command has

arrived. When the command is correct, the CPU begins execution.

Table 6-1 Overview of the interfaces

ASM

type

Interfaces to

PC/computer

Interfaces

to SLG/

SLA

Function

blocks

SLG/

SLA

connec-

tions

Dimensions

(WxHxD in

mm)

Temperature

range

(during opera-

tion)

Protec-

tion

Rating

ASM 400 Can be

installed in

S5-115-155U

9-pin sub-

miniature

D socket

FB 250/

230/252

1 per CM

4 per

ASM

0 to +55°C IP00

ASM 410 Can be

installed in

S5-100U/

ET 200U

Can be

connected

via bus

module

2 (multi-

plex)

45 x 135 x 100 0 to +60°C IP20

ASM 424 RS 232

RS 422

9-pin sub-

miniature

D socket

MOBY API 4

(parallel)

205 x 130 x 60 –25 to +55 °C IP40

ASM 450 To

PROFIBUS DP

(screw connec-

tion)

2 5-pin

proximity

switch con-

nectors

FC 46

FB 240

2 (multi-

plex)

134 x 110 x 55 0 to +55°C IP67

ASM 452 PROFIBUS

DPV1

2 5-pin

proximity

switch con-

nectors

FC 45 2 (quasi-

parallel)

134 x 110 x 55 0 to +55°C IP67

ASM 454 PROFIBUS

DPV1

9-pin sub-

miniature

D socket

FC 45 4

(parallel)

205 x 130 x 60 –25 to +55 °C IP40

ASM 456 PROFIBUS

DPV1

2 8-pin

M12

connector

socket

FC 45

FB 45

FC 55

FB 55

(parallel)

60 x 210 x 54

resp. 79

0 to +55 °C IP67

ASM 470 Can be instal-

led in S7-300/

ET 200M

Via screw

terminals

FC 47

FB 47

2 (multi-

plex)

40 x 125 x 120 0 to +60°C IP20

Application area

Layout and

functions

Overview

Interfaces

6-3

MOBY E Configuration, Installation and Service Manual

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Table 6-1 Overview of the interfaces

ASM

type

Protec-

tion

Rating

Temperature

range

(during opera-

tion)

Dimensions

(WxHxD in

mm)

SLG/

SLA

connec-

tions

Function

blocks

Interfaces

to SLG/

SLA

Interfaces to

PC/computer

ASM 473 Connectable

to the ET 200X

2 5-pin

proximity

switch con-

nectors

FC 45 187 x 110 x 55 0 to +55°C IP67

ASM 475 Can be instal-

led in S7-300/

ET 200M

Via screw

terminals

FC 45 2

(parallel)

40 x 125 x 120 0 to +60°C IP20

ASM 724 RS 232/RS 422

(9-pin

subminiature D

socket)

9-pin sub-

miniature

D socket

MOBY API 4 x SLA

(multi-

plex)

205 x 130 x 60 -25 to +55 °C IP40

ASM 754 PROFIBUS

DPV1

(9-pin

subminiature D

socket)

9-pin sub-

miniature

D socket

FC 45 4 x SLA

(multi-

plex)

205 x 130 x 60 -25 to +55 °C IP40

SIM 7x RS 232/RS 422

(15-pin

subminiature D

connector)

Integrated 3964R

driver

MOBY API

C-lib

--- 160 x 80 x 40

(without ext.

ANT)

-25 to +70 °C IP67

(with

special

connec-

tor)

Interfaces

6-4 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

6.2 ASM 400

6.2.1 Overview

ASM 400/401 interfaces can be directly installed and operated in the follo-

wing SIMATIC S5 programmable controllers.

S5-115U/F (all CPUs)

S5-135 U/F (all CPUs)

S5-155U/H (all CPUs)

The ASM 400 interface modules consist of the basic module in double-height

Eurocard format and the CM 422 channel module. The basic module can be

configured with one to four channel modules. Mixed configuration is not per-

mitted.

The ASM 400 interface module with the CM 422 works in the SIMATIC S5

I/O area. A maximum of 32 channel modules can be used with the FB 250

function block in one SIMATIC (this corresponds to eight four-channel inter-

face modules). When the FB 252 is used, the maximum number of channel

submodules is increased from 32 to 96 per SIMATIC S5. All MDS models

can be processed via the FBs. The user addresses the data on the MDS via a

command table in the data block. The user addresses user data via absolute

addresses.

Note

To achieve optimal transmission times, the length of the block should not

exceed 150 bytes per command.

Application area

Configuration and

functions

Interfaces

6-5

MOBY E Configuration, Installation and Service Manual

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SLG SLG SLG SLG

ASM 400

with channel submodule

CM 422

MDS MDSMDS MDS

Figure 6-1 Configurator of ASM 400

Communication time between ASM 400 and user depends on two factors.

Cycle time and type of programmable controller

Software used (i.e. FB 250)

Communication between ASM 400 and user can be divided into three steps.

The user issues a command and starts it. The next time the FB is called,

the command is transferred to the ASM and acknowledged by the ASM.

The ASM executes the command with the MDS. The user and the FB are

in wait status. Data communication with the MDS begins as soon as an

MDS enters the transmission window of the SLG. The MDS data are

stored intermediately on the ASM and checked for correctness.

ASM communication with the MDS is concluded. When the FB is called

the next time, the data which have been read or written are transferred

from the ASM to the user. The user receives a finished message.

Communication

between ASM 400

and user program

Interfaces

6-6 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Table 6-2 Ordering data for the ASM 400

Order No.

ASM 400 interface

consisting of a basic module and

CM 422 channel submodule

Basic module with connection to STG,

with 4 slide-in slots for CM 422 channel

module, without channel module

CM 422 channel module

6GT2 002-0AA00

6GT2 002-0AB00

Connector,

ASM side, 9-pin subminiature D

connector (pins) with screw-type terminal

for plug-in line between an ASM 400 and

SLG/STG

1 unit

1 pack (10 units)

6GT2 090-0BB00

6GT2 090-0BB10

Connector,

2-pin connector with screw-type terminal

for plug-in line up to 1.5 mm in diameter

for 24 V DC connection (included with

the ASM 400)

MOBY software1

with FB230/240/250

Plug-in lines and accessories

6GT2 090-0NA00

6GT2 080-2AA10

See Section 3.7

Description of ASM 400/401

German

English

Description FB 250 for ASM 400

German

English

Electronically available on

“Software MOBY” CD

Electronically available on

“Software MOBY” CD

1 See Section 7.1

Ordering data

Interfaces

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Table 6-3 Technical data of the ASM 400

Channel module CM 422

Serial interface to SLG

Connector

Max. interface/line length

SLG which can be connected

RS 422

9-pin subminiature D socket

RS 422/1000 m, depending on SLG type

1 SLG per CM

Software functions

Programming With STEP 5 function block FB 250

Commands Read data, write data, initialize MDS

Access directly via addresses

Supply voltage 5/24 V DC via internal bus

Interfaces ASM 400

Interfaces for CM/SLG

ASM 400 (max.)

Interface to STG 4F

Interface for 24 V DC

4 CM 422

RS 422, 9-pin subminiature D socket

2-pin connector (included)

Supply voltage

Nominal value

Perm. range

Internal (at 5 V)

External (at 24 V)

5/24 V DC

4.75 to 5.25 V DC

20 to 30 V DC

Max. current consumption

internal (at 5 V)

External (at 24 V)

Fine-wire fuse

1 channel

2 channels

3 channels

4 channels

1 channel

2 channels

3 channels

4 channels

M 1.25 A/250 V

370 mA

490 mA

610 mA

730 mA

400 mA

800 mA

1200 mA

1600 mA

Ambient temperature

During operation

During transportation and sto-

rage

Rel. humidity at 25 ° C

Space requirements

Approximate weight

ASM 400

CM 422

0 to +55 °C

–20 to +70 °C

< 95 %

1 SEP (1 SEP = 15.24 mm)

0.44 kg

0.1 kg

Technical data

Interfaces

6-8 MOBY E Configuration, Installation and Service Manual

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Function block FB 250 controls data transmission between the STEP5 pro-

gram and the ASM 400 interface module.

FB 250 can be used on the following “programmable controllers.”

115U/F

135U-R/S

155U/H

FB 250 does not use system commands. All MDSs can be processed with

FB 250.

Primary functions of FB 250

Convert data from user parameterization structure to structure of an ASM

All communication with the ASM via command data exchange

Error handling: command repetition;

Preparation of errors for the user

Chaining of several partial commands into one complete command

Reading and writing with a user command

Any address areas of a mobile data memory can be processed with one

command.

Control of PLC cycle load via the user

Data transmission between FB and MDS can be subdivided into three phases.

Supply interface with the appropriate command and the data or parameter

Transmit the data between ASM 400 and MDS

Supply S5 with appropriate parameters or data from the interface

When the P address area is available, FB 252 also supports operation of the

ASM 400 in the expanded Q address area.

Function block

FB 250

Interfaces

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6.2.2 Hardware Description

3 LEDs per channel:

Red LED

Yellow LED

Green LED

Connector for the service and test device (STG)

+ 24 V

GND

9-pin subminiature D socket

Channel module

No. 1

Channel module

No. 2

Channel module

No. 3

Channel module

No. 4

24 V connector

(this connector is

included with the ASM)

Connector for the SLG

9-pin subminiature D

connector with

screw-type attachment

Order no.: 6GT2090-0BB00

Connector assignment to

Pin Designation

Not used

+ Sending

+Receiving

Not used

– Receiving

– Sending

Ground (0 V)

+ 24 V

Not used

Housing Cable shield

the SLG and STG

Metal front panel

Screws for attaching

the channel module to

the basic module for

EMC operation

Figure 6-2 Connectors and their assignment for the ASM 400

Connectors and

their assignment

Interfaces

6-10 MOBY E Configuration, Installation and Service Manual

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x x

Switch 3

Switch 1 Switch 2

Switch 4

Connector for

SIMATIC bus

ON = 1

OFF = 0

ON = 1OFF = 0

18 8 1

1 4

ÏÏÏÏÏÏÏÏÏÏÏ

X20

1 and 2 must

always be

jumped in the

case of X20

Figure 6-3 Switches and plug-in jumpers for the ASM 400

S4 = setting the addressing mode

S2 = setting the page frame number

S3 = setting the module address (linear addressing with PESP)

S1 = address setting without PESP

Table 6-4 Address settings for ASM 400 with FB 250/252

ASM 400 switch setting FB 250

parameterization

FB 252

parameterization

Start ad-

dress of

ASM

Switch

4 3 2 1

Switch

2 1

ADR KAN* QADR KAN

00 0 0 0 0 1 01 - 4

16 0 0 0 1 This set-

i f

16 (Corres-

ponds to

32 0 0 1 0 ting of

switch 4 32 pon

channel

48 0 0 1 1

switch 4

must al-

Not 48

channel

module 1

to 4)

64 0 1 0 0 ways be

used

Not

available 64 to

80 0 1 0 1

used

when the

dl i

96 0 1 1 0 module is

erated 96

112 0 1 1 1

operated

in stan-

112

128 1 0 0 0 dard

mode. 128 1 - 4 128

144 1 0 0 1

mode

144 (Corres-

ponds to

144

160 1 0 1 0 160 pon

channel 160

176 1 0 1 1 176

channel

module 1

to 4)

176

192 1 1 0 0 192 to

192

208 1 1 0 1 208 208

224 1 1 1 0 224 224

240 1 1 1 1 240 240

Switches and

plug-in jumpers

Address

settings

Interfaces

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EPROM

CPU

80C32

Plug-in jumper X20

Hybrid for

serial interface

X21 removed

CM422 for ASM 400

Plug-in jumper X20:

Removed:

normal mode

Inserted:

test mode; dialog to the mobile data memory is aborted earlier when mal-

functions occur. This helps to pinpoint weak spots and malfunctions during

commissioning.

Figure 6-4 Settings on the channel module

Settings on the

channel module

Interfaces

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6.2.3 SIMATIC S5 Configuration

MOBY interface module ASM 4001

Slot designation

1 One SIMATIC adapter capsule required for each ASM 400

(order no. 6ES5 491-0LB11)

Figure 6-5 Module rack CR 700-0LA (S5-115U)

MOBY interface module ASM 4001

Slot designation

1 One SIMATIC adapter capsule required for each ASM 400

(order no. 6ES5 491-0LB11)

Figure 6-6 Module rack CR 700-0LB (S5-115U)

MOBY interface module ASM 4001

Slot designation

1 One SIMATIC adapter capsule required for each ASM 400

(order no. 6ES5 491-0LB11)

Figure 6-7 Module rack CR 700-1 (S5-115U)

Module rack

CR 700-0LA

(S5-115U)

Module rack

CR 700-0LB

(S5-115U)

Module rack

CR 700-1 (S5-115U)

Interfaces

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MOBY interface module ASM 4001

Slot designation

1 One SIMATIC adapter capsule required for each ASM 400

(order no. 6ES5 491-0LB11)

Figure 6-8 Module rack CR 700-2 (S5-115U)

MOBY interface module ASM 4001

Slot designation

1 One SIMATIC adapter capsule required for each ASM 400

(order no. 6ES5 491-0LB11)

Figure 6-9 Module rack CR 700-3 (S5-115U)

MOBY interface modules ASM 400 cannot be plugged in.

MOBY interface module ASM 4001

Slot designation

1 One SIMATIC adapter capsule required for each ASM 400

(order no. 6ES5 491-0LB11)

AS 314, AS 310, IM 317

IM 307 or IM 317

(only as of ER 701-3LA13)

Figure 6-10 Module rack ER 701-3 (S5-115U)

Module rack

CR 700-2 (S5-115U)

Module rack

CR 700-3 (S5-115U)

Module rack

ER 700-0;

Rack ER 701-1 and

ER 701-2

Module rack

ER 701-3

Interfaces

6-14 MOBY E Configuration, Installation and Service Manual

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MOBY interface module ASM 400

Slot designation

Figure 6-11 Central controller S5-135U/ -155U

MOBY interface module

ASM 400

Slot designation

Figure 6-12 Central controller S5-155U/-155H

MOBY interface module ASM 400

Slot designation

Interface 312-3

Interface 310 or 314

Figure 6-13 Expansion unit EG S5-183U for S5-135U/-155U

Central controller

S5-135U/ -155U

Central controller

S5-155U/ -155H

Expansion unit

EG S5-183U

Interfaces

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MOBY interface module ASM 400

Slot designation

Interface 312-5

Figure 6-14 Expansion unit EG S5-184U for S5-135U/-155U

MOBY interface module

ASM 400

Slot designation

Interface 314

Figure 6-15 Expansion unit EG S5-185U for S5-135U/-155U/-155H

MOBY interface module ASM 400

Interface 312-5

Slot designation

Figure 6-16 Expansion unit EG S5-187U for S5-135U/-155U

Expansion unit

EG S5-184U

Expansion unit

EG S5-185U

Expansion unit

EG S5-187U

Interfaces

6-16 MOBY E Configuration, Installation and Service Manual

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6.3 ASM 410

The ASM 410 interface can be used in the SIMATIC with the following:

S5-90U (max. 2)

S5-95U (max. 4)

S5-100U (max. 8)

ET 100U (max. 2)

ET 200U (max. 4)

This ASM can be used with all mobile data memories, read/write devices and

the STG service test device. Compatibility with all MOBY components is

ensured.

LEDs for status and error indications are located on the front. Interference-

immune design is provided by the galvanic isolation of the MOBY interface

to the SIMATIC S5 bus. The MOBY commands are started and data are fet-

ched by setting and scanning a few control bits in the process image (PIO/

PII), and eight input/output bytes are assigned. In time-multiplex operation,

one or two SLGs can be used. The MDS data are accessed via their absolute

addresses.

STG

SLG SLG

MDS

SIEMENS SIEMENS

Bus module of

PLC S5-100U with

ASM 410

MDS

Figure 6-17 Configurator for ASM 410 in SIMATIC S5

Application

area

Layout and

function

Interfaces

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Table 6-5 Ordering data for the ASM 410

Order No.

ASM 410 interface

SIMATIC S5, bus module

Screw-type connection

Crimp connection, with crimp contacts,

increased EMC resistance

Plug-in lines and accessories

6GT2 002-0BA00

6ES5 700-8MA11

6ES5 700-8MA22

See Section 3.7

Description - ASM 410

German

English

Electronically available on

“Software MOBY” CD

Ordering data

Interfaces

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Table 6-6 Technical data of the ASM 410

Serial interface to the SLG

Max. connection

RS 422

2 SLGs can be connected via a se

arate

Max

connection

Line length/type, max.

2 SLGs can be connected via a separate

bus module

1000 m/RS 422, depending on the SLG

Line length/t

SLG which can be connected

1000 m/RS 422

depending on the SLG

and cable type

SLG which can be connected

Static operation 2 SLG 7x

Dynamic operation

Interface to STG

1 SLG 7x

RS 422, 9

pin subminiature D connector

Interface to STG

Interface for 24 V DC

RS 422

pin subminiature D connector

is fed via a separate bus module

Software functions

With STEP 5 di tl i i

Programming With STEP 5 directly via process image

(PIO/PII); no function block required;

Commands

(); q;

5 bytes processed per command

Select channel 1 or 2 read MDS write

omman

anne

l 1

rea

d MDS

MDS, initialize MDS, etc.

Supply voltage

Nominal value

Permissible range

24 V DC (residual ripple, max. of 10%)

20 to 30 V DC

Current consumption

Internal (at 5 V) typical

20 to 60 mA

Internal (at 5 V) typical

20 to 60 mA

(20 mA = long cycle time)

(

60 mA = short c

cle time

)

max.

External (at 24 V DC)

(60 mA = short cycle time)

110 mA (PLC in STOP)

External (at 24 V DC)

All SLGs turned off

T i l ti f th SLG

90 mA

S SLG d i ti

Typical power consumption of the SLG

(without SLG)

See SLG description

2.5 W

Cooling Convection cooling

Isolation group

P t ti ti i d ith

C in accordance with VDE 0110

IP20

Protection rating in accordance with

EN 60529

IP20

EN 60529

Mech. stress IEC 68-2-27

Ambient temperature

During operation

Hi l i lli f SIMATIC

0 60 °C

Horizontal installation of SIMATIC

Vertical installation of SIMATIC

0 to +60 °C

0 to +40



ert

l i

nsta

f SIMATIC

rin

g t

spo

tat

d sto

age

40 °C

–2

5 to

During transportation and storage

Weight (approx.)

–

25 to +70 C

0.25 kg

Technical data

Interfaces

6-19

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The PLC S5-90U has a maximum of four slots available for additional modu-

les. Up to two of these can be used by the ASM 410 module.

ASM 410 in PLC S5-95U can only be operated with PLC S5-95U in slots 0

to 7. Up to four modules can be used on one PLC.

Starting with CPU release status -8MA-3, 8 modules can be used.

The ASM 410 in the S5-100U PLC can only be operated on slots 0 to 7. Up

to eight modules can be used on one PLC. See the following table for slot-

oriented addressing.

S5-100U

012345 678

64 72 80 88 96 104 112 120

71 to

79 to

87 to

95 to

103 to

111 to

119 to

127

Slot number

Address assignment

Free slots for additional

digital modules

Slots in the

PLC S5-90U

Slots in PLC

S5-95U

Slot on the

S5-100U PLC

Interfaces

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The ASM 410 must be operated as an analog module in the ET 100U. When

parameterizing the module with the “COM ET 100U” software, the module

must be specified with “4AX” in the appropriate slot. The ASM 410 occupies

eight input bytes and eight output bytes (= 16 bytes). Since a maximum of

32 bytes can be assigned per ET 100U in the address image of the main control-

ler, a maximum of two modules per ET 100U are permitted. When other modu-

les are used with an ET 100U in addition to the ASM 410, only one module can

be connected.

On the ET 100U, the ASM 410 can be addressed via all address areas of the

PLC (P, Q, IM3 and IM4).

ET 100U

Central controller:S5Ć135 U

S5Ć155 U

ET 100U

max. 32 ET 100U

Cable length max.

3000 m max. 2 ASM 410 per ET 100U

SIMATIC

DI DO DO

S5Ć115 U

ASM 410

Figure 6-18 Configurator for ASM 410 in ET 100U

The ASM 410 can be used with the ET 200U under the following conditions.

The ET 200U with an ASM 410 installed must be operated in “slow

mode”. See ET 200U manual for how to set “slow mode”.

The “COM ET 200U” software is used to parameterize the ASM 410. The

ASM 410 module must be parameterized there with “095”.

Up to four ASM 410s can be used with one ET 200U. When DI/DO or

other periphery is used with the ET 200U, fewer ASM 410s can be used.

Otherwise the same conditions as for the ET 100U apply.

Configuration of

ASM 410 in

ET 100U

Configuration of

ASM 410 in

ET 200U

Interfaces

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The ASM 410 interface has the same dimensions as any standard module for

the SIMATIC S5-100U. The interface can be installed directly on the bus

module (6ES5 700-8MA11 or 6ES5 700-8MA22).

2 A

3 A

1 A

MOBYE

6GT2 002-0BA00

123456

STG

123

LEDs

Mode

res.

68A

Interface module

ANW

Active

Error

1.SLG

2.SLG

Power

normal

ECC

Test+ECC

INIT norm

INIT ECC

res.

Test mode.

1.SLG

2.SLG

TEST

or.

Ventilation slits of the adapter cap-

sule. Make sure that the ventilation

slits are not covered during opera-

tion. Forced ventilation of the module

is not necessary.

Label insert;

short texts in English are on the

back.

Status and error LEDs

Operating mode selection switch

Connector for serial S5 bus

9-pin subminiature D connector for

STG with stub line 6GT2 091-0B...

(screw-type attachment)

Coding pin (not visible; on back of

module) in position “h” (i.e. analog

module)

10-pin connector for bus module

(24 V supply; SLG connection)

Figure 6-19 ASM 410 interface with operational and indicator elements

Physical layout

Interfaces

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Table 6-7 Status and error LEDs of ASM 410

No. Color Meaning

1 A Red Error: The last command was concluded with an error, or the hard-

ware of the module is defective.

2 A Yellow Rapid irregular flashing indicates running dialog with the SLG or

mobile data memory (MDS). This LED is always on when the

presence check is enabled.

3 A Green Data memory is in the field of the SLG. The SLG which detected

the MDS is indicated via LEDs B1-B2. LED is only active when

presence check is being used.

B1 Green B1 = 1. SLG is in operation

Note:

Only one of the B1 or B2 LEDs can be on at once. If both LEDs

are on, check the wiring to the SLG.

B2 Green B2 = 2. SLG is in operation

Note:

Only one of the B1 or B2 LEDs can be on at once. If both LEDs

are on, check the wiring to the SLG.

B3 Green B3 = power on

This LED is always on when 24 V is applied to the module. The

interface module can be tested with the STG.

The operating mode is set with the operating mode selection switch on the

front of the ASM.

Setting the operating mode:

The ASM 410 works with the serial S5 bus; the STG interface is switched

off.

Test mode with the STG:

Message frames from the S5 are no longer processed (not in the case of

MOBY E).

Note

The serial S5 bus functions are not affected by switching to test operation

since this interface has its own microprocessor and is not dependent on

MOBY activities.

Setting the

operating mode

Position 0 to 7

Position 8 to F

Interfaces

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Table 6-8 Operating modes for ASM 410

Switch

setting

Short descrip-

tion on

label insert

Meaning

0 normal Normal operation Read and write all MDS types; EEC

driver is enabled.

11ECC driver Read and write all MDS types; The ECC driver is ena-

bled.

2Test operation All MDS types can be processed during test operation.

The ASM 410 performs stricter error checks for com-

munication with the MDS. This helps to pinpoint weak

spots and malfunctions at commissioning.

31Test + ECC The ECC driver is enabled. Otherwise same as switch

setting 2.

4INIT normal Initializes the MDS. When a write command is started

via the process image, an INIT command to the MDS

is started. The contents of the MDS are deleted.

51INIT ECC Initializes the MDS with ECC driver. Otherwise same

as switch setting 4.

6 Reserved

7 Reserved

81Test of 1st or

2nd SLG

An STG can be connected via the 9-pin subminiature

D connector. You can use this to test the entire hard-

ware.

9 to F Reserved

1 Do not use switch positions 1, 3, 5 and 8 with MOBY E.

Interfaces

6-24 MOBY E Configuration, Installation and Service Manual

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B U S M O D U L E

1st SLG

2nd sLG

Plug-in line incl. SLG connector and open end with wire

end ferrules 6GT2 091-0D...2

Color coding3 in the

case of the plug-in line

supplied by Siemens

Grn

Mounting rail

Connecting terminal plate

on the bus module

Cable shield

Shield

+ 24 V

0 V

From the

external

power

supply

max. cable length = 1000 m 1

1 The maximum cable length depends on the connected SLG and on the tolerance of the

external 24V supply.

2 Cable lengths, see Section 3.7.4.

3 Color coding

gn = green = pin 4 on SLG connector; ge= yellow = pin 5 on SLG connector; ws = white = pin 6 on SLG connector;

br = brown = pin 1 on SLG connector; rs = pink = pin 2 on SLG connector; gr = gray = pin 3 on SLG connector

Figure 6-20 Wiring of one or two SLGs for ASM 410

Wiring of one or

two SLGs

Interfaces

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6.4 ASM 450/452

The ASM 450/452 interfaces are modules for the operation of MOBY com-

ponents on the following systems via PROFIBUS DP / DPV1:

All computers and PCs

All controllers

When the interfaces are used on a SIMATIC S7, function blocks are available

to the user.

Figure 6-21 ASM 450/452 interface

Data can be accessed directly in the MDS by means of physical addresses

using the ASM 450.

The ASM 450 works with the function block FB 240 (S5) or FC 44 (S7) in

cyclic operation. The description of FC 44 (appendix) must be read by the

SIMATIC S5 user. All other users must read the description of the FC 44

function for the ASM 450.

Up to 2 SLGs can be connected to one ASM 450. Connection of two SLGs is

only recommended when static operation is used. When MDSs are processed

while passing by (i.e. dynamic operation), there is usually not enough time to

switch over the second SLG.

Application

area

ASM 450

Interfaces

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The ASM 452 represents a logical step up from the well known ASM 450 inter-

face module. You can achieve optimum data throughput even with large PROFI-

BUS configurations by using acyclic data exchange on the PROFIBUS DPV1.

The minimum cyclical data load of the ASM 452 on PROFIBUS ensures for the

user that other PROFIBUS stations (e.g. DI/DO) will continue to be processed

very quickly.

Up to 2 SLGs can be operated on the ASM 452 in quasi-parallel mode. In quasi-

parallel mode the user can start a command (via the FC 45) in parallel on 2

SLGs although the ASM only has one serial channel. The ASM automatically

accepts multiplex operation between the SLG 1 and SLG 2. The SLG on which

an MDS is currently located is processed. This delays the processing of the se-

cond MDS. It is therefore recommended you only process the MDS statically

when 2 SLGs are connected to it.

The MDS data are accessed by means of the physical addressing of the MDS.

FC 45 is available for this in SIMATIC S7. FC 45 provides the S7 user with an

easy-to-use interface with powerful commands (processing of a complete MDS

with one command, command chaining, S7 data structures via UDTs).

Table 6-9 Ordering data for the ASM 450/452

ASM 450 interface module for PROFIBUS DP

Max. of 2 SLGs connectable

ASM 452 interface module for PROFIBUS

DPV1 max. 2 SLGs connectable

6GT2 002-0EB00

6GT2 002-0EB20

Accessories

Connector for PROFIBUS DP connection

and 24 V supply

Connecting cable ASM 450/452  SLG

length 2 m; Standard: additional lengths

See Section 3.7.4

Opt. connector ASM 450/452  SLG

M12 screw caps

for unused SLG connection

(ASM 450 and ASM 452 only)

1 pack = 10 units

Software MOBY1

with FB 240, FC 44, FC 45, DDB file

Additional accessories for the ASM 450

(network components)

6ES7 194-1AA01-0XA0

6GT2 091-1CH20

6GT2 090-0BC00

3RX9 802-0AA0

6GT2 080-2AA10

See the SIMATIC catalog ST 70 and

SIMATIC ET 200X manual

Replacement part:

Connector plate; T functionality for

PROFIBUS connection

6ES7 194-1FC00-0XA0

Description - ASM 450/FC 44

German

English

French

Description of FC 45 (for ASM 452)

German

English

French

Electronically available on

“Software MOBY” CD

Electronically available on

“Software MOBY” CD

1 See Section 7.1

ASM 452

Ordering data

Interfaces

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Table 6-10 Technical data of the ASM 450/452

ASM 450 ASM 452

Serial interface to user PROFIBUS DP PROFIBUS DPV1

Procedure after

Connection

EN 50170 Vol. 2, PROFIBUS

PG 11 screw connection

PROFIBUS and power supply connectors are not included.

Transmission speed 9600 bps to 12 Mbps

(automatic recognition)

Max. block length 208 bytes 2 words (cyclic)/

240 bytes (acyclic)

Serial interface to SLG

Connector 2 coupling connectors (M12)

Line length (max.) 1000 m, depends on SLG

(2 m = standard length, other cables made: 5 m, 10 m, 20 m)

SLG which can be connected 2 SLG 7x (multiplex operation) 2x SLG 7x (quasi-parallel opera-

tion)

Software functions

Programming Depends on PROFIBUS DP master

Function blocks for

SIMATIC S5

SIMATIC S7

FB 240

FC 44

–

FC 45

MDS addressing

Commands

Direct access via addresses

Initialize MDS, read data from MDS, write data to MDS, and so on

Supply voltage

Nominal value

Permissible range

Current consumption

24 V DC

20 to 30 V DC

max. 180 mA; typ. 130 mA

(without SLG, DO not loaded)

Technical data

Interfaces

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Table 6-10 Technical data of the ASM 450/452

ASM 452ASM 450

Digital inputs

Number 2 None

Galvanic isolation Yes

Input voltage for

L i l “0”

0 t 5 V DC

Logical “0”

Logical “1”

0 to 5 V DC

13 to 30 V DC

Logical 1

Input current for signal “1”

13 to 30 V DC

typ. 7 mA

Delay time < 10 ms

Digital outputs

Number 2 None

Galvanic isolation

Max. permissible current

Short-circuit protection

Yes

0.5 A

Yes; electronic

Line length (max.) 30 m

Ambient temperature

During operation

During transportation and storage

0 to +55 °C

–40 to +70 °C

Dimensions (WxHxD) in mm 134 x 110 x 55 (without bus connector)

Mounting 4 M5 screws; mounting on any plate or wall

Weight (approx.) 0.5 kg

Protection rating in accordance with

EN 60529

IP67

MTBF (at 40 °C) 30 ⋅ 104 hours = 34 years

Interfaces

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PROFIBUS DP

master module

(e.g. S7-400 CPU)

PROFIBUS line

MDS

To other PROFIBUS nodes

AT-comp. PC

MDS

24 V

for ASM

and SLGs

1st SLG2nd SLG

* standard cable length

2 m*

Figure 6-22 Configurator for ASM 450/452

The ASM 450/452 has the same housing as the ET 200X distributed I/O de-

vice. General information on the ASM 450/452 (for example, mounting, ope-

ration, wiring, and general technical specifications) can be found in the

ET 200X manual (order no. 6ES7 198-8FA00-8AA0). Accessories and power

supply components are also described in this manual.

The ASM 450/452 is integrated in the hardware configuration

by means of a DDB file. The ASM can then be configured using SIMATIC

Manager’s HWCONFIG or another PROFIBUS tool. The MOBY software

contains a DDB file for each ASM version.

An SLG always occupies two M12 connection sockets on the ASM 450/452.

To ensure the simplest SLG connection, use a preprepared cable (see Fi-

gure 6-24 and Section 3.7). The standard version of the connecting cable is

2 m in length (for other cable lengths: see Section 3.7.4).

An SLG connector with screw-type terminals is available for users who want

to make their own cable (see Figure 6-23). Cables and SLG connectors can

be ordered from the MOBY catalog.

Hardware

description

PROFIBUS

configuration

SLG connection

method

Interfaces

6-30 MOBY E Configuration, Installation and Service Manual

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SLG cable: 6GT2 090-0A

PG 11 screw connection,

max. cable diameter = 6.5 mm

(do not tighten screw until

connector is assembled)

2 screws to open

the connector

Coupling

connector

M12 on ASM 450

Connec-

tor pin

Core color

Green

White

Brown

Yellow

Gray

Pink

- (nc)

Shield

Connection to

pin of SLG

connector

Connector hood removed

IP67 degree of protection

18.5

Figure 6-23 Connector ASM 450/452/473  SLG (6GT2 090-0BC00)

Two 5-pin, round

M12 connectors

X1/2

X1/3

X1/1

X1/4

X2/3

X2/1

X1/5

X2/5

White

Brown

Green

Yellow

Gray

Pink

SLG

connector (socket)

2 m *

* standard length

X1 X2

18.5

Figure 6-24 Connecting cable ASM 450/452/473  SLG (6GT2 091-1CH20)

Interfaces

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The ASM 450/452 can also be operated with the “green” PROFIBUS cable.

Make sure that a 24 V cable leads from X12 to X13. The 24 V cable can be

connected to pin 5 or 6 in connector X12.

X13 X11

X12

X13 X11

X12

Figure 6-25 PROFIBUS cable with 24 V supply

PROFIBUS cable

with 24 V supply

Interfaces

6-32 MOBY E Configuration, Installation and Service Manual

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SLG - SLG 2xDO SLG

- SLG 2xDI SLG SLG

x1 x2

x3 x4

1st 2nd 3rd 4th 5. *

* Only static processing of the MDS is permissible

in this configuration

x1 – x2

x3 – x4

SLG - SLG

- SLG SLG

1st 2nd 3. *

x1 – x2

x3 – x4

Config

Connector

Config

Connector

Figure 6-26 SLG and DI/DO configuration for ASM 450/452

The versions shown in Figure 6-26 can be set up with the standard cables of

MOBY or ET 200X.

Note

The configuration with 2 SLGs + DI + DO is also possible with the

ASM 450. However, it requires customer-specific wiring of the components.

The following figure shows the dimensioned drawing of an ASM 450/452

with bus connectors. You must add the length of the PG screw connection

and the radius of the cable used to the total width and depth specified.

110

53,5 28,25

134

120

Ø 5.5

Figure 6-27 Dimensioned drawing of the ASM 450/452

SLG and DI/DO

configuration for

ASM 450/452

Dimensioned

drawing of the

ASM 450/452 with

mounting holes

Interfaces

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The following figure shows the pin assignment of the ASM 450/452.

654

X1 X2

X3 X4

654

X11

X12

X13

Socket

X11 and X12

(PROFIBUS DP)

Pin Allocation

1 Signal B (red)

2PE

3* PE

4 Signal A (green)

5* L+

6* M

X13

(supply voltage)

1PE

2L+

4PE

5L+

24 V DC

LEDs for MOBY and ASM 452

RxD: SLG with active command

PRE/ERR 1, MDS present or error display

PRE/ERR 2: For each SLG (the “MDS present”

display

always has priority. The

error display only occurs

when there is no MDS present.)

MDS present :

The LED is permanently ON. If there is

more than one MDS in the field, the

number of MDS is indicated by short

breaks in the light. There is no

error output.

Error display:

The LED is permanently OFF. The last

error number is indicated by a short light

pulse.

SLG 1: SLG 1 is selected.

SLG 2: SLG 2 is selected.

Only SLG 1 or SLG 2 can be selected.

LEDs for PROFIBUS DP

SF: System Fault (see Table 6-11)

BF: Bus Fault (see Table 6-11)

ON: On when the logic voltage is present on

the ASM (is generated from the 24 V

supply voltage)

24 V DC: On when the 24 V supply voltage is

connected to the ASM.

* Do not wire

Pin assignment (SLG)

Socket

X1/X3

X2/X4

1 +RxD

2 +TxD

3 -TxD

4 -RxD

5PE

RxD

PRE/ERR1

ASM 450

ASM 452

LEDs for MOBY and ASM 450

RxD: SLG active

ANW: MDS present

and status of DO1

ERR: Error display

and status of DO0

SLG1/2: Indicates the selected SLG. Only SLG 1

or SLG 2 can be selected.

DE0/1 : Status of the digital inputs

654

321

X1 X2

X3 X4

654

321

X11

X12

X13

24 V DC

RxD

PRE/ERR 1

SLG 2

RxD

SLG 1

PRE/ERR 2

1 +24 V + 24 V

2 DO1 DI1

30 V0 V

4 DO0 DI0

5PEPE

X2 X4

SLG 1

SLG 2

RxD

PRE/ERR2

Figure 6-28 Pin assignment and LEDs of the ASM 450/452

Pin assignments

Interfaces

6-34 MOBY E Configuration, Installation and Service Manual

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The following table lists the possible error displays, what they mean and how

to eliminate the cause of the fault.

Table 6-11 LEDs for PROFIBUS diagnostics

LED

“BF”

LED

“SF”

Cause Error handling:

On * ASM 450/452 is starting up. –

The connection to the DP master has

failed.

The ASM 450/452 cannot detect a trans-

mission rate.

Check the PROFIBUS DP connection.

Check the DP master.

Bus interruption

DP master is out of operation

Check all the cables in your

PROFIBUS DP network.

Check whether the PROFIBUS DP connector

is plugged in correctly on the ASM 450/452.

Flas-

hes

On The configuration data sent from the DP

master to the ASM 450/452 do not corre-

spond to the configuration of the

ASM 450/452.

Check the configuration of the ASM 450/452

(input/output, PROFIBUS address).

Correct DDB file used?

– SIEM804C.GSD for ASM 450

– SIEM80B6.GSD for ASM 452

Flas-

hes

Off The ASM 450/452 has detected the trans-

mission rate but is not addressed by the

DP master.

The ASM 450/452 was not configured.

Check the PROFIBUS address set in the

ASM 450/452 or in the configuration software.

Check the configuration of the ASM 450/452

(station type).

On Flas-

hes

There is a hardware defect in the

ASM 450/452.

Replace the ASM 450/452.

* Status is not relevant

PROFIBUS

diagnostics

Interfaces

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The following figure shows an example of bared lengths. The lengths are

valid for all cables which you can connect to the connector. Any shield brai-

ding must be twisted, inserted in a core end sleeve, and the excess cut off.

ÎÎÎÎÎ

Twisted and trimmed

shield braiding

Figure 6-29 Length of baring for a PROFIBUS cable

The connector plate of the ASM must be removed before you canset the

PROFIBUS address or turn on the terminating resistor. The connector plate

covers the DIPswitches. The following figure shows the location of the DIPs-

witches on the ASM and a sample setting of each.

Example: PROFIBUS address 120 (status on delivery)

7654321

23 +24 + 25 + 26 = 8 + 16 + 32 + 64 = 120

Example:Terminating resistor switched off (status on delivery)

off

ASM 450

n. c.

ASM 452

Normal operation

(Use DDB file

SIEM80B6)

ASM 451-compatible

(use DDB file

SIEM804D)

Figure 6-30 Setting the PROFIBUS address and circuiting the terminating resistance

Note

The PROFIBUS address on the ASM 450/452 must always correspond to

the PROFIBUS address specified for this ASM in the configuration soft-

ware.

For correct functioning of the terminating resistor, always switch both

DIPswitches of the terminating resistor to “on” or “off”.

Example for bared

lengths

PROFIBUS

address and

terminating

resistor

Interfaces

6-36 MOBY E Configuration, Installation and Service Manual

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6.5 ASM 454/424

The ASM 454/424 interfaces are designed for distributed configurations in

assembly lines. The robust and attractive housing can be mounted anywhere.

Up to four write/read devices in the MOBY E range can be connected and

run in parallel. This ensures dynamic operation of the connected SLGs. The

user has a choice of two interfaces.

PROFIBUS DPV1 (ASM 454)

RS 232; serial interface for the PC (ASM 424)

Figure 6-31 ASM 454/424 interface

Data can be accessed directly in the MDS by means of physical addresses

using the ASM 454. Communication to the user is by means of the acyclic

PROFIBUS DPV1 protocol service. The function FC 45 is available to

SIMATIC S7 users as a simple means of integration.

The description of the PROFIBUS DPV1 implementation

(see appendix of FC 45 description) is available to programmers of control-

lers of other manufacturers.

Data can be accessed directly in the by means of physical addresses using the

ASM 424. Communication with the user is via a serial RS 232 interface using

the 3964R protocol. This makes it easy to connect PCs and controllers of

other manufacturers to the MOBY E identification system. A C library

(MOBY API) is available to PC users for their applications.

Application area

ASM 454

ASM 424

Interfaces

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Table 6-12 Ordering data for the ASM 454/424

ASM 454 interface

for the operation of MOBY E components via

PROFIBUS DPV1, without filehandler

ASM 424 interface

With serial RS 232/RS 422 interface;

3964R procedure for PC, SICOMP and

controllers of other manufacturers

6GT2 002-2EE00

6GT2 002-2CE00

Accessories

RS 232 plug-in line between PC ↔ ASM 424

Can be made to a maximum length of 32 m

(see Section 3.7.4)

SLG plug-in line (see Section 3.7)

Connector for power supply (socket) for

ASM 454/424

Adapter floor plate for top-hat rail mounting

Wide-range power supply unit

100-230 V AC/24 V DC; 2.2 A

(without 24 V cable)

24 V DC plug-in line for wide-range power sup-

ply unit

6GT2 494-0AA00 (see Section 7.2)

Length: 5 m

PROFIBUS connector

9-pin subminiature D connector for 2 plug-in

lines

MOBY software1

with C library for the ASM 424 (MOBY API)

and FC 45, DDB file for the ASM 454

6GT2 391-0B...

6GT2 091-0A...

6GT2 390-1AB00

6GT2 390-0BA00

6GT2 494-0AA00

6GT2 491-1HH50

6ES7 972-0BA11-0XA0

(for other connectors, see catalog

ST 70 or IK PI)

6GT2 080-2AA10

Description of FC 45 (for the ASM 454)

German

English

French

Description of MOBY API

(C library for the ASM 424)

German

English

Electronically available on

“Software MOBY” CD

Electronically available on

“Software MOBY” CD

1 See Section 7.1

Ordering data

Interfaces

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Table 6-13 Technical data of the ASM 454/424

ASM 454 ASM 424

Serial interface to user

Max. cable length

PROFIBUS DPV1

See PROFIBUS configuration.

RS 232/RS 422

30/500 m

Procedure/protocol EN 50170 Vol. 2, PROFIBUS 3964R

Connection 9-pin submin. D socket (screw-type attachment)

Transmission speed 9600 bps to 12 Mbps

(automatic recognition)

38.4 kbps

Max. block length 4 words (cyclic)/238 bytes (acyclic) 238 bytes

Serial interface to SLG 4 x 9-pin submin. D socket (screw-type attachment)

Cable length Max. of 1000 m SLG-dependent (see Section 3.7)

SLG which can be connec-

ted

4 x SLG 7x (parallel operation)

Software functions

Programming Depends on PROFIBUS DPV1

master

MOBY API:

C-Lib for

PCs with

Windows 98/NT

Function block

SIMATIC S7 FC 45 –

MDS addressing

Commands

Direct access via addresses

Initialize MDS, read data from MDS, write data to MDS

Supply voltage

Connector

Nominal value

Permissible range

Current consumption

(max.)

Max. current consumption

4-pin, M12 round connector (pin)

24 V DC

20 to 30 V DC

250 mA (without SLG)

1.1 A (without SLG)

UL/CSA Yes, in connection with a power supply of

NEC Class 2

Ambient temperature

Di ti

25 t 55 °C ( d ti)

During operation

Durin

trans

ortation and

–25 to +55 °C (no condensation)

–40 to +85 °C

(

no condensation

)

During transportation and

storage

–

40 to +85 C (no condensation)

Housing

Dimensions (WxHxD) in

Material

Color

205 x 130 x 60 (without connector)

Aluminum

Anthracite

Technical data

Interfaces

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MOBY E Configuration, Installation and Service Manual

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Table 6-13 Technical data of the ASM 454/424

ASM 424ASM 454

Mounting

Tightening torque

4 M5 screws

Optional: top-hat rail mounting

≤ 3 Nm

Weight (approx.)

Protection rating in accor-

dance with EN 60529

MTBF (at 40 °C)

1300 g

IP40 (higher rating on request)

1 ⋅ 105 hours

24 V=

230 V

6GT2 091-0A...

6GT2 494-0AA00

or other

24 V connection

6GT2 491-1HH50

SLG SLG SLG SLG

MDS MDS MDSMDS



PROFIBUS:

Connector = 6ES7 972-0BA11-0XA0

RS 232:

PC-cable = 6GT2 391-0B...

RS 422:

Make cable as in Figure 6-34

Figure 6-32 Configurator for the ASM 454/424

Interfaces

6-40 MOBY E Configuration, Installation and Service Manual

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RxD

PRE ERR

RxD:

PRE:

ERR:

SLG with command active

“Presence” indicates the presence of an MDS in the transmission window

Error indicated by flashing LED (under preparation)

Connector 1 to 4 to the SLG

Socket Designation

Not used

+ Sending

+Receiving

Not used

– Receiving

– Sending

Ground (0 V)

+ 24 V

Not used

Housing Cable shield

Figure 6-33 Serial interfaces of the ASM 454/424 to the SLG

PROFIBUS

Socket Designation

Not used

B-line (red)

Request to send (RTS)

Ground 5 V (M5)

Potential 5 V

Not used

A-line (green)

Not used

Housing Cable shield

PROFIBUS

(floating; 60 mA)

SERIAL 24 V DC

1234 67 9 11121085

ON: 24 V are applied to

(green) the ASM

SF/BF: System fault/bus

(red) Fault RAM error

ASM 424: flashes

after power up;

flashing stops after

the first correct

message frame

ACT: This LED flashes

(green) once briefly when a

command has

finished being

processed.

Pin Designation

SF/BF

ON ACT

Ground

+ 24 V

Ground

+ 24 V

SERIAL

Socket RS 232

TxD (send)

RxD (receive)

Not used

Ground (0 V)

Not used

24 VDC

Switch 1 to 7: PROFIBUS address

Switch 1 ON:20

Switch 2 ON: 21

Switch 7 ON: 26

Example: PROFIBUS-Address= 84

(22 + 24 + 26)

Switch 8: Interface

ON: RS 422

OFF: RS 232

Switch 9 to 12: free

RS 422

–TxD

–RxD

Not used

Ground

Not used

+TxD

+RxD

Housing Cable shield Cable shield

1 Only in the case of the ASM 454

2 Only in the case of the ASM 424

Figure 6-34 Serial interfaces of the ASM 454/424 to the user

Pin assignment

and switches

Interfaces

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MOBY E Configuration, Installation and Service Manual

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129

205

Figure 6-35 Dimensioned drawing of the ASM 454/424

Item Designation Quantity

1 Floor plate 1

2 Profile section 1

3 Oval head screw

(M5 x 10)

4 Washer (A5.3) 4

5 Countersunk

screw (M4 x 10)

Figure 6-36 How to mount the adapter plate

Note

The profile section (item 2) can be turned by 90° on the floor plate before

mounting if the situation requires it.

Dimensioned

drawing with

mounting holes

Adapter floor plate

for top-hat

rail mounting

Interfaces

6-42 MOBY E Configuration, Installation and Service Manual

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6.6 ASM 456

6.6.1 Description

The ASM 456 interface modules are slave modules for operating MOBY

components via the PROFIBUS DP/DPV1 on any control systems.

Figure 6-37 Interface module ASM 456 with M12, 7/8” or ECOFAST connection

block

When operating the interface module on a SIMATIC S7, convenient function

modules are made available to the user.

The ASM 456 replaces the ASM 452 in terms of functionality and provides a

simplified connection system. You can continue to use the user software from

ASM 452. Optimum data throughput can be achieved through acyclic data

traffic on the PROFIBUS DPV1 even when using large PROFIBUS confi-

gurations. The minimum cyclic data load of the ASM 456 on the PROFIBUS

provides the user with the guarantee that other PROFIBUS consumers (e.g.

DI/DO) can still be processed at great speed.

Up to 2 read/write devices (SLG) can be operated in parallel on the

ASM 456. The user can start a command in parallel on 2 SLGs (via the cor-

responding FB/FC).

Area of application

Features

Interfaces

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The mobile data memory (MDS) data is accessed by means of physical ad-

dressing of the MDS. In SIMATIC S7, the FB/FC 45 is available for this pur-

pose. The FB/FC 45 provides the S7 user with a easy-to-use interface with

powerful commands (processing one complete MDS with one command;

command linking; S7 data structures via UDTs).

Degree of protection IP67

System integration with ECOFAST or M12, 7/8” concept

T functionality, that is, a component can be replaced without adversely

affecting other modules with regard to bus communication and voltage

supply.

Standardized PROFIBUS user interface for identification systems with

PIB (Proxy Ident Function Block; with later firmware version).

Firmware update

PROFIBUS interface module up to 12 Mbit/s with automatic transfer rate

detection

Parameterizable device-related diagnostics data with text display

Support for I&M functionality (a mechanism for reading out information

via the module and saving system information such as function, installa-

tion date, installation location, and comments.)

Other features

Interfaces

6-44 MOBY E Configuration, Installation and Service Manual

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The ASM 456 has the same housing as the distributed I/O system ET 200eco.

The ASM has a connection block for connecting up to the PROFIBUS DP

which is available in ECOFAST version or M12, 7/8” version optionally.

The following figure shows the basic design of the ASM 456.

6GT2002–0ED00

MOBY ASM 456

Connector socket for 1st SLG

Status LEDs for operation of the 1st SLG

Connector socket for 2nd SLG

Status LEDs for operation of the 2nd SLG

Status LEDs for interface module

Space for connection block

Protective Earth

Figure 6-38 Basic design of the ASM 456

Design

Interfaces

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MOBY E Configuration, Installation and Service Manual

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The following figure shows how the ASM 456 is integrated in an automation

system.

24 V for ASM 456 and SLGs

2 m*

PROFIBUS DP

Master module

e. g. S7-400 CPU

PROFIBUS

cable

to other

PROFIBUS bus nodes

ASM 456

* Standard cable length

2. SLG 1. SLG

MDS MDS

Figure 6-39 Configurator ASM 456

The ASM 456 is integrated into the hardware configuration by means of a

GSD file. The ASM can then be configured using the hardware configuration

of the SIMATIC manager or another PROFIBUS tool (e.g. operating mode).

The GSD file can be found on the “Software MOBY” CD or on the Internet.

Integration

Interfaces

6-46 MOBY E Configuration, Installation and Service Manual

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6.6.2 Setting the PROFIBUS Address

The PROFIBUS address defines the address at which the ASM 456 distribu-

ted I/O system is found on the PROFIBUS DP.

The PROFIBUS DP address for the ASM 456 is set on the connection

block.

Each address can be assigned only once on the PROFIBUS DP.

The PROFIBUS address set must match the PROFIBUS address defined

in the configuring software (for the ASM 456).

Changes to the PROFIBUS DP address only take effect once the mains

have been switched ON on the ASM 456.

Socket wrench 14 mm

Screwdriver 2.5 mm

Features

Requirements

Tools required for

M12, 7/8” connec-

tion block

Interfaces

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Valid PROFIBUS DP addresses are 1 to 99.

1. Remove the two seal caps from the rotary switches (if necessary, use a

14 mm socket wrench).

2. Set the required PROFIBUS address on the rotary switches using a screw-

driver.

– Lower rotary switch: 1st position

– Upper rotary switch: 10th position

3. Screw the two seal caps back onto the rotary switches (torque: 0.5 to

0.8 Nm).

x10

Rotary switch

for PROFIBUS

address

Position 9

Position 2

PROFIBUS address 92:Example

Figure 6-40 Setting PROFIBUS addresses on connection block M12, 7/8”

Setting

PROFIBUS DP

addresses on

connection block

M12, 7/8”

Interfaces

6-48 MOBY E Configuration, Installation and Service Manual

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Valid PROFIBUS DP addresses are 1 to 99.

1. Loosen the screw connection of the configuration plug with the

ECOFAST connection block and remove the plug.

Figure 6-41 Loosening the configuration plug’s screw connection

2. Loosen the screw connection for the cover cap on the configuration plug

and remove the latter.

3. Set the PROFIBUS address using the DIL switches.

ON ON

23456

Example: PROFIBUS address 92

22 + 23 + 24 + 26 = 4 + 8 + 16 + 64 = 92

Figure 6-42 Setting PROFIBUS address on configuration plug

4. Screw the cover cap back down, plug the configuration plug onto the con-

nection block and screw the configuration plug to the connection block.

Setting

PROFIBUS DP

addresses on

connection block

ECOFAST

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6.6.3 Wiring ASM 456

The table below contains the connector assignment for the ECOFAST con-

nector plugs:

Table 6-14 Connection assignment for ECOFAST connector plugs

Pin Assignment View of ECOFAST connector plug

(wiring end for supply and

loop-through connection)

APROFIBUS DP signal A

Signal A

BPROFIBUS DP signal B Signal A

Signal B

1Electronic/encoder supply (1L+)

(voltage supply for ASM 456 and SLG) ECOFAST

hybrid cable

2Ground for electronic / encoder supply (1M)

hybrid cable

2L+

3Ground for load voltage supply (2M)

2L+

4Load voltage supply (2L+)

(unused on ASM 456)

1L+

1 You will find the assembly instructions in the packaging of the Han Brid Cu cable connector and/or Han Brid Cu cable

socket.

Wiring ECOFAST

connector plugs

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The tables below contain the connector assignment for the M12, 7/8” connec-

tor:

Table 6-15 Connection assignment for M12 connector (PROFIBUS DP)

Pin Assignment View of M12 connector

(wiring side)

1Supply positive (P5V2) 1

Signal A (green)

Supply DP1

2Data line A (RxD / TxD-N)

Signal A (green)

3Data reference potential (M5V2) 1

5Shield

4Data line B (RxD / TxD-P)

43 5

Signal B (red)

5 Shield

ignal B

(

red

)

Bus cable

Thread Shield Loop-through

connection DP2

Bus cable

(2-core, shielded)

Signal B (red)

connection DP2 Signal A (green)

Shield

1 Can only be used for the M12 terminating resistor. Looping the voltage through to the next connector via a 5-core cable

is not permitted.

Table 6-16 Connection assignment for 7/8” connector (supply voltages)

Pin Assignment View of 7/8” connector

(wiring side)

1Ground for load voltage supply (2M) Supply X01

2Ground for electronic / encoder supply (1M)

2L+

3 PE 51

2L+

4Electronic/encoder supply (1L+)

(voltage supply for ASM 456 and SLG)

1L+

5Load voltage supply (2L+)

(unused on ASM 456) Loop-through

connection X02 5-core cable

connection X02

2L+

1L+

Wiring M12, 7/8”

connector

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Note

When connecting up the supply voltage, we recommend the cable specified

in section 6.6.7 (cable 5 x 1.5 mm2 pre-assembled with 7/8” connectors).

If you want to assemble the cable yourself, then the conductor cross-section

should be 1.5 mm2.

1. Isolate the grounding cable and secure the cable lug.

2. Screw the cable lug down to the ASM 456 (M5 retaining bolt). The torque

is 3 Nm.

Figure 6-43 Connecting the ASM 456 up to protective earth

Connecting the

ASM 456 up to

protective earth

Interfaces

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Standard cable

Figure 6-44 Connecting cable ASM 456 ↔ SLG; l = 2 m, 5 m

Figure 6-45 Extension cable ASM 456 ↔ SLG; l = 2 m, 5 m, 10 m, 20 m, 50 m

Maximum cable length

The ASM 456 can be operated with any SLG configuration with a maximum

cable length of 50 m.

Longer connecting cables of up to 1000 m are possible in some instances.

The current consumption of the connected SLG must however be taken into

account.

Sequential arrangement of several sub-sections to form a long section of ca-

ble must be avoided due to the additional contact resistances.

Connecting SLG to

ASM 456

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Customer cable fabricating

A SLG connector plug with screw-on clamps is provided for users who want

to individually pre-assemble their own cables. Cables and SLG connector

plugs can be ordered from the MOBY catalog.

You will need cables of the following specifications for self-assembled cables:

7 x 0.25 mm2

LiYC11Y 7 x 0.25

M12 connectors can be obtained from the relevant specialist dealers

(e. g. Binder).

The pin assignment is listed in the following table.

Table 6-17 Pin assignment

Socket X1, X2 Pin Signal Core color

1+24 V Note data sheet provided by cable

2 –RxD manufacturer

3230 V

4 RxD

5 TxD

66 –TxD

7 Free

8PE / shield

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6.6.4 Diagnosis using LEDs

The following figure shows details of the LEDs of the ASM 456.

PROFIBUS

SF BF ON DC24V

6GT2002–0ED00

MOBY ASM456

ACT_1 PRE_1

RxD_1 ERR_1

ACT_2 PRE_2

SLG 2

SLG 1

RxD_2 ERR_2

Figure 6-46 LEDs of the ASM 456

Table 6-18 Status LEDs for ASM 456

LEDs Meaning1

ON Lights up when there is logic voltage at the ASM (is generated by the 24 V supply voltage.)

DC 24 V Lights up when the 24 V supply voltage is connected to the ASM.

ACT_1, ACT_2 The corresponding SLG is active in processing a user command.

ERR_1, ERR_2 1A flashing pattern indicates the last error to occur.

PRE_1, PRE_2 2Indicates the presence of an MDS.

RxD_1, RxD_2 Indicates live communication with the SLG. Faults on the SLG may also cause this display to

light up.

1 The meaning of the individual flash patterns and the associated fault descriptions can be found in the relevant FB and

FC documentation.

2 In multitag mode, this LED uses a flash interval to indicate the number of data media currently within the range of

influence of the SLG.

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Table 6-19 LED display for PROFIBUS diagnosis

BF SF Cause of error Error handling

On – ASM is in start-up mode. –

Connection to DP Master failed.

ASM not detecting a baud rate

Check the PROFIBUS DP connection.

Check the DP Master

Bus interrupt

DP Master not functioning

Check all cables in your PROFIBUS DP net-

work.

Check whether the connector plugs for the

PROFIBUS DP are securely plugged into the

ASM.

flashes On The project data sent to the ASM by the

DP Master do not match the configura-

tion of the ASM.

Check the project for the ASM (input/output,

PROFIBUS address).

Correct GSD file being used?

flashes – ASM has detected the baud rate, but is

not activated by the DP Master.

ASM has not been assigned project

plans

Check the PROFIBUS address set in ASM

and/or in the project software.

Check the project for the ASM (station type).

On flashes There is a hardware defect in the ASM. Replace the ASM.

Off On Diagnosis available Evaluate the diagnostic information.

On Off The set PROFIBUS address is incorrect

or greater than 99.

Set the address in the range 1 to 99 and carry

out new ramp-up.

–= Status not relevant

Other ASM operating modes are indicated by the PRE, ERR, ACT, SF and

ON LEDs:

ON SF PRE_1 ERR_1 ACT_1 PRE_2 ERR_2 ACT_2 Description

On Off Off Off On Off Off Off Ramp-up active

Off On Off On Off Off Off Off Checksum error at ramp-up

Off On Off Off Off Off On Off Firmware invalid

On On On On On On On On LED test for approximately 4 se-

conds; otherwise firmware fault

Off On Off On On Off On On Checksum error at ramp-up

Off On On On On Off On On Checksum error of the firmware

Off On On On On On On On External RAM defective

Off On On Off On On On On DPC-RAM defective

Off On Off On On On On On ID error firmware

On – Off 1 x flash

every 3 s

Off Off 1 x flash

every 3 s

Off ASM successfully ramped up,

waiting for reset command

On – –Flashing Rapid

flashing

–Flashing Rapid

flashing

Firmware update; alternate flas-

hing of the error LEDs at approxi-

mately 1 Hz

–= not relevant

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6.6.5 Technical data

Table 6-20 Technical data of ASM 456

Serial interface to the user

Procedure after connection

Transfer rate

Block length, max.

PROFIBUS DPV1

EN 50170 Vol. 2 PROFIBUS

M12 and 7/8” technology / ECOFAST

9600 baud to 12 Mbaud (automatic detection )

2 words cyclic /240 byte acyclic

Serial interface to SLG

Connector

Line length, max.

Connectable SLG

2x coupling connector M12

1000 m; depends on SLG; 2 m = standard length;

other fabricatable cables = 5 m

(up to 1000 m on request)

Extenxion cables = 2 m, 5 m, 10 m, 20 m, 50 m

2x SLG

Software functions

Programming

Function modules for

SIMATIC S5

SIMATIC S7

MDS addressing

Commands

Depending on the PROFIBUS DP Master

–

FB/FC 45 (normal addressing without multitag)

FB/FC 55 (normal addressing with multitag)

accessed directly via addresses

Initialize MDS, read data from MDS,

write data to MDS, etc.

Supply voltage: 2

Rated value

Permissible range

Current consumption 1

Potential isolation

DC 24 V

DC 20 V to 30 V

Max. 800 mA; typ. 80 mA (without SLG)

Yes

Ambient temperature

during operations

during transport and storage

Dimensions (W x H x D) in mm

only ASM 456

ASM 456 with ECOFAST connection block

Weight

Degree of protection

MTBF (at 40 °C)

0 °C to +55 °C

–40 °C to +70 °C

60 x 210 x 30

60 x 210 x 60

Approx. 210 g

IP67

122 years

1 The power supply must deliver the required current of up to 800 mA for brief power failures ≤ 20 ms.

2 All supply voltages and signal voltages must be protective low level voltage (SELV/PELV acc. to EN 60950)

24V DC supply: fused (electrical) isolation of low level voltage (SELV/PELV acc. to EN 60950)

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6.6.6 Dimensional drawings

The following figure shows the dimensional drawing of an ASM 456 with

bus connection block.

42.1

53.9

38.5

59.85

x10

210

MOBY ASM 456

210

60 60

with connection block M12, 7/8” with connection block ECOFAST

Figure 6-47 Dimensional drawing of ASM 456 (in mm)

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6.6.7 Ordering data

Table 6-21 Ordering data of ASM 456

Interface ASM 456

for PROFIBUS DPV1, max. 2 SLG can be connected up

6GT2 002-0ED00

Accessories for ECOFAST connection:

Connection block ECOFAST

PROFIBUS ECOFAST hybrid plug 180

with pin insert (5 per pack)

with socket insert (5 per pack)

PROFIBUS ECOFAST termination plug with terminating resistor

ECOFAST hybrid cable (pre-assembled)

ECOFAST hybrid cable (not pre-assembled, sold by the meter)

6ES7 194-3AA00-0AA0

6GK1 905-0CA00

6GK1 905-0CB00

6GK1 905-0DA10

6XV1 830-7B... 1

6XV1 830-7AH10

Accessories for M12 7/8” connection:

Connection block M12

M12 terminal resistor for PROFIBUS (5 per pack)

PROFIBUS cable with pre-assembled M12 connectors

Cable for supply voltage with pre-assembled 7/8” connectors

PROFIBUS FC standard non-pre-assembled cable;

max. length 1000 m

PROFIBUS M12 connector plug (5 per pack)

with pin insert

with socket insert

Connector plug 7/8” for supply voltage (5 per pack)

with pin insert

with socket insert

6ES7 194-3AA00-0BA0

6GK1 905-0EC00

6XV1 830-3D... 1

6XV1 822-5B... 1

6VX1 830-0EH10

6GK1 905-0EA00

6GK1 905-0EB00

6GK1 905-0FA00

6GK1 905-0FB00

Accessories for MOBY:

Connecting cable ASM ↔ SLG

See section 3.7.4.

Extension cable ASM ↔ SLG

See section 3.7.4.

6GT2 091-0FH..

6GT2 891-0F...

MOBY Software 2

with FB/FC 45, FB/FC 55, FB/FC 56, GSD file

6GT2 080-2AA10

Other accessories for ASM 456 (network components) ET 200eco manual

6ES7 198-8GA00-8AA0

Description of FB/FC 45 (for ASM 456)

German

English

French

Electronically available on

“Software MOBY” CD

1 These cables are available in different lengths. See Catalog IK PI for more details

2 See section 7.1

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6.7 ASM 470/475

The ASM 470 475 interface can be installed in the SIMATIC S7-300 and

ET 200M. It can be used for all MOBY systems.

Up to eight ASM 470/475 interface modules can be installed and operated in

a single module rack of the SIMATIC S7-300. When a layout with several

module racks (maximum of four) is used, the ASM 470/475 can be installed

and operated in each of these module racks. In a maximum SIMATIC S7-300

configuration, up to 32 ASMs can be used. The ASMs can also be operated

on the ET 200M distributed I/O system on PROFIBUS. This makes operation

in an S7-400 environment possible without any problems. Up to 7 ASMs can

be run on one ET 200M.

Error messages and operational states are indicated with LEDs.

Galvanic isolation between the SLG and the SIMATIC S7-300 bus ensures

configurations are not susceptible to interference.

Figure 6-48 ASM 470/475 interface

In multiplex operation, up to two SLGs can be connected to the ASM 470.

The FC 47 function ensures simple programming via SIMATIC S7 tools.

FC 47 can be used with both the S7-300 and the S7-400. The ET 200M can

also be used to operate the ASM 470 in a SIMATIC S5 environment. FB 47 is

available for PLCs 115U to 155U.

On the hardware side, communication between the ASM 470 and the S7-300

CPU takes place via a 16-byte address area so that up to 12 bytes of user data

can be transferred with each read/write command.

Application

area

ASM 470

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The ASM 475 with the order number 6GT2 002-0GA10 is a parameterizable

module. The basic functions of the module are therefore already defined

when the module is configured in HWCONFIG (e.g. normal addressing or

filehandler).

The ASM 475 accesses data on the MDS directly by means of physical ad-

dresses. The FC 45 function controls operation in a SIMATIC S7.

The ASM 475 and FC 45 form a unit with which the MDS data can be easily

read at optimum speed. A 32 KB MDS memory is read in 24 s almost inde-

pendently of the S7 cycle time.

The filehandler function is not available in MOBY E.

ASM 470

ASM 475

SLG SLG

MDS MDS

Shield terminal

(6ES7 390-5BA00-0AA0)

Shield contact element

(6ES7 390-5AA00-0AA0)

for 2 modules

6GT2 091-0E...

(see Section 3.7

or Figure 6-51)

Figure 6-49 Configurator for the ASM 470/475

ASM 475

(normal

addressing)

ASM 475

(Filehandler)

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Table 6-22 Ordering data for the ASM 470/475

ASM 470 interface

For SIMATIC S7-300; 2 SLG multiplex

without a front connector

ASM 475 interface

For SIMATIC S7-300; 2 SLG parallel;

normal addressing; without a front connector

6GT2 002-0FA10

6GT2 002-0GA10

Accessories:

front connector (1x per ASM)

Shield terminal (1 per SLG cable)

Shield contact element (1 per 2 ASMs)

Connecting cable ASM ↔ SLG

(see Section 3.7.4)

MOBY software 1

with FC 47, FB 47 for the ASM 470 and

FC 45 for the ASM 475

6ES7 392-1AJ00-0AA0

6ES7 390-5BA00-0AA0

6ES7 390-5AA00-0AA0

6GT2 091-0E...

6GT2 080-2AA10

Description of ASM 470/FC 47 for S7

German

English

Description of ASM 470/FB 47 for S5

German

English

Description of FC 45 (for ASM 475)

German

English

French

Electronically available on

“Software MOBY” CD

Electronically available on

“Software MOBY” CD

Electronically available on

“Software MOBY” CD

1 See Section 7.1

Ordering data

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Table 6-23 Technical data of the ASM 470/475

ASM type ASM 470 ASM 475

Interface to S7-300 or ET 200M P bus; distributed input and out-

put

P bus; cyclic and acyclic services

Communication 16 bytes I/O 2 words (cyclic);

238 bytes (acyclic)

Command buffer in the ASM 1 x 12 bytes per ASM 70 x 238 bytes per SLG

Serial interface to SLG

Connector With screw terminals on the front connector

The front connector is not included with the product

Line length (max.) Ready-made standard cable = 2 m, 5 m, 10 m, 20 m, 50 m

(up to 1000 m on request)

Supported MOBY systems I/E/F/V I/E/F

Connectable SLGs Multiplex operation

2 x SLG

Parallel operation

2 x SLG

Software functions

Programming SIMATIC user: via FC/FB

Third-party user: message frame description as in the

appendix of the FC description

Function block

SIMATIC S7 FC 47 FC 45

SIMATIC S5 FB 47 –

MDS addressing Direct access via addresses

Commands Initialize MDS, read data from MDS, write data to MDS

PROFIBUS diagnosis Yes, can be assigned via RESET

S7 diagnosis No Yes, can be called via S7 OM

Firmware can be loaded No Yes, via S7 OM

Supply voltage

Nominal value 24 V DC

Perm. range 20 V DC to 30 V 20.4 to 28.8 V DC

Current consumption

without SLG at U = 24 V DC, max. 50 mA 350 mA

with connected SLGs Max. 600 mA with one SLG

Max. 300 mA per SLG if two

SLGs are connected

Max. 500 mA per connected

SLG

Power loss of the module, typically 1 W 2 W

Current consumption from P bus, max. 100 mA 80 mA

Galvanic isolation between S7-300 and

MOBY

Conditional (100 kΩ between

S7-300 and 24 V DC)

Yes, use a separate power supply

unit for the ASM for ungrounded

operation

Technical data

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Table 6-23 Technical data of the ASM 470/475

ASM type ASM 475ASM 470

24 V fuse to the SLG Yes, electronic Yes, electronic

Ambient temperature

During operation

Horizontal installation of SIMATIC 0 °C to +60 °C

Vertical installation of SIMATIC 0 °C to +40 °C

During transportation and storage –40 °C to +70 °C

Dimensions in mm (WxHxD) 40 x 125 x 120

Weight (approx.) 0.2 kg

MTBF (at 40 °C) 1 ⋅ 106 hours

The ASM 470/475 is commissioned with the following steps.

Mount module

Mount module on the S7-300 mounting rail. See S7-300 manual.

Note

The CPU of the S7-300 must be switched to STOP status before the module

is mounted.

!Warning

The S7-300 may only be wired when the voltage is off.

Note

To ensure interference-free operation of the ASM 475, make sure that the

ASM and SIMATIC CPU (or the ASM and IM 153 in the case of the

ET 200M) use the same voltage.

If not, error indicators which light up on the CPU when the ASM is turned

on may not go off.

Wiring

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The following figure shows the front plate of the ASM 470/475 and the in-

side of the front door with the related terminal assignment diagram. The

SLGs must be connected to the ASM as shown in the terminal assignment

diagram.

Status and error indicators

SLG 1

S+

S–

E+

E–

SLG 2

S+

S–

E+

E–

Connection diagram

The numbers for the

connection are based on

connector X1 located on

the upper part of the

housing.

ASM 475 SF

5 VDC

ACT_1

ERR_1

PRE_1

RxD_1

ACT_2

ERR_2

PRE_2

RxD_2

6GT2 002-0GA106GT2 002-0FA10

MOBY

ASM 470

MOBY

24 V

Active

Error

SLG 1

RxD

ANW

Error

SLG 2

RxD

Figure 6-50 Front plate and inside of the front door of the ASM 470/475

Front panel

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Table 6-24 Function of the LEDs on the ASM 470/475

ASM 470 ASM 475 Meaning

SF SF System fault (hardware error in the ASM )

24 V 5 V DC 24 V are connected to the ASM and the

5 V voltage in the ASM is okay

Active ACT_1, ACT_2 The corresponding SLG is active when a user

command is processed.

Error ERR_1, ERR_2 A flashing pattern shows the error that occurred

last. This indicator can be reset with the parameter

Option_1.

ANW PRE_1, PRE_2 Indicates the presence of an MDS

RxD RxD_1, RxD_2 Indicates current communication with the SLG;

interference on the SLG can also cause this indica-

tor to go on.

SLG 1, SLG 2 –Indicates the SLG that has been selected by the

user command. Only one of the LEDs may be on

at a time (multiplex operation).

The LEDs PRE, ERR and SF on the ASM 475 indicate additional operating

states.

Table 6-25 Operating states shown by LEDs on the ASM 475

SF PRE_1 ERR_1 PRE_2 ERR_2 Description, causes, remedy

ON OFF/ON ON (perm.) OFF/ON ON (perm.) Hardware is defective (RAM, flash, etc.).

ON OFF ON OFF OFF Loader is defective (can only be fixed at the plant).

OFF 2 Hz OFF 2 Hz OFF Firmware loading procedure is active or no firm-

ware detected

→Load firmware

→Don’t turn off ASM during this.

OFF 2 Hz 2 Hz 2 Hz 2 Hz Firmware loading terminated with error

→New start is required

→Load firmware again

→Check update files

Any 5 Hz 5 Hz 5 Hz 5 Hz Operating system error

→Turn ASM off/on.

OFF OFF 1 flash

every 2 s

OFF 1 flash

every 2 s

ASM has started up and is waiting for a

RESET (init_run) from the user

Display elements

on the ASM

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The figure below shows a connecting cable between the ASM and SLG. The

colors apply to the standard MOBY cable for the ASM 470. See Sec-

tion 3.7.3.

SLG connector

(socket)

Cable with wire end ferrules

White

Brown

Green

Yellow

Pink

Gray

(Shield)

4 (12)

5 (13)

6 (14)

7 (15)

8 (16)

9 (17)

Front connector

of the ASM

(6ES7 392-1AJ00-0AA0)

Baring of the cable shield

Figure 6-51 Wiring from the ASM 470/475 to the SLG (6GT2 091-0E...)

See Section 3.6 or Figure 6-49.

Implement the lightning protection and grounding measures required for your

application. Lightning protection measures always require individual consi-

deration of the entire system.

To ensure EMC, the SLG cable must be led over an S7-300 shield contact

element (see Figure 3-47). When customers make their own cables, the shield

of the SLG cable must be bared as shown in Figure 6-52.

17030

Specifications in mm

Figure 6-52 Baring of the cable shield for a cable made by the customer

Wiring to the SLG

Shield connection

Lightning

protection

Cable

made by

the customer

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Note

Installation of MOBY requires that functional STEP 7 software has been

installed on the PC/PG.

Installation and configuration of the ASM 470/475 in the SIMATIC is han-

dled by an installation program. The installation program is included with the

“MOBY software” product (6GT2 080-2AA10).

The installation files are in the S7_om subdirectory on the MOBY software.

Installation is largely automatic once Setup.exe has been called. The speci-

fied steps during SETUP must be responded to.

Note

Note that you have to execute a separate setup for the installation of the

ASM 470 and ASM 475.

The ASM 470/ 475 module is located in the hardware catalog of

HWCONFIG under the following subdirectory for hardware configuration of

the SIMATIC S7.

SIMATIC 300

SM 300

Spezial-300

MOBY ASM470

MOBY ASM475*

6GT2 002-0GA00

MOBY ASM475 PARAM

6GT2 002-0GA10

* Type discontinued

Figure 6-53 ASM 470/475 directory in the hardware catalog

Configuration of

the ASM for

SIMATIC S7 under

STEP 7

Installation

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You can use the file dearchiving function of SIMATIC Manager to load the

FC with a sample project from the relevant subdirectory of “Software

MOBY”. The sample project is located in the S7PROJ directory of SIMATIC

Manager.

ASM type Directory in

MOBY software

Project name in

SIMATIC Manager

Path name in

SIMATIC Manager

ASM 470

ASM 475

FC 47

FC 45

ASM470_CPU416

MOBY FC45

ASM470_C

Moby_f_1

FC 45/47 with

sample project

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6.8 ASM 473

The ASM 473 interface is a MOBY module for the SIMATIC S7. It can be

inserted in the ET 200X distributed I/O device and DESINA.

Communication from the ET 200X to the user runs via

PROFIBUS DPV1. You can use an S7-300 or S7-400 with

an integrated PROFIBUS connection as a programmable controller.

The ASM 473 supplements the SIMATIC S7 MOBY interface modules

ASM 470 and ASM 475. With the IP67 degree of protection, it can be

installed and operated directly without an additional protective housing.

The data are accessed on the MDS by means of physical addresses.

The function FC 45 is available for operation on a SIMATIC S7. The hard-

ware configuration of the ASM 473 is performed with an object manager

(OM) integrated in SIMATIC Manager.

Other features:

Up to 7 ASM 473s can be run in parallel on one ET 200X station.

All I/O modules from the ET 200X family can be run parallel to the

ASM 473.

Figure 6-54 ASM 473 interface

Application

Interfaces

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Table 6-26 Ordering data for the ASM 473

Interface module ASM 473 6GT2 002-0HA10

Accessories:

SLG cable (2 m = standard cable)

For additional lengths see Section 3.7.4

Opt. ASM connector without SLG cable

(for cable lengths > 20 m)

Software MOBY1

with FC 45 incl. documentation

6GT2 091-1CH20

6GT2 090-0BC00

6GT2 080-2AA10

Description - FC 45

German

English

French

Electronically available on

“Software MOBY” CD

1 See Section 7.1

Table 6-27 Technical data of the ASM 473

Interface to ET200X

Communication

Command buffer in ASM

SIMATIC S7 P bus,

cyclic/acyclic services

2 words (cyclic)/

238 bytes (acyclic)

70 x 238 bytes

Serial interface to SLG

Connector

Line length (max.)

Connectable SLGs

2 x coupling connectors M12

20 m;

2 m (standard cable length)

Additional ready-made cables =

5 m, 10 m, 20 m

(up to 1000 m on request)

1 x SLG 4x

Software functions

Programming

SIMATIC S7 function block

MDS addressing

Commands

PROFIBUS diagnosis

S7 diagnosis

Firmware can be loaded

Depends on PROFIBUS DP ma-

ster

FC 45

Direct access via addresses

Initialize MDS,

read data from MDS,

write data to MDS

yes; in accordance with ET 200X

basis station

Yes, can be called via S7 OM

yes, via SIMATIC Manager

Ordering data

Technical data

Interfaces

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Table 6-27 Technical data of the ASM 473

Supply voltage

Nominal value

Perm. range

Current consumption

From sensor voltage

From load voltage (SLG supply)

Power loss of the module

Digital inputs

Digital outputs

24 V DC

20.4 to 28.8 V DC

typ. 75 mA

Max. 500 mA (or see technical

data of the connected SLG)

typ. 1.6 W

Via expansion modules from the

ET 200X family

Via expansion modules from the

ET 200X family

Ambient temperature

During operation

During transportation and storage

0 °C to +55 °C

–40 °C to +70 °C

Dimensions (WxHxD) in mm

Single device dimensions

Scaling interval

Mounting

87 x 110 x 55

60 x 110 x 55

2 M5 screws (supplied by custo-

mer)

2 M3 screws (supplied by device)

Protection rating in accordance with EN 60529 IP67

Weight 0.275 kg

For information on setup and other general technical data, see the ET 200X

manual (order no. 6ES7 198-8FA01-8AA0).

Interfaces

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PROFIBUS DP master module;

e.g. S7-400 CPU

(connection of non-Siemens master

under preparation)

2 m (standard cable length)

SLG

MDS

PROFIBUS

cable to all

PROFIBUS slaves

24 V power for

ET 200X electronics

and MOBY SLG

Basic module:

BM 141

BM 142

BM 143

BM 147

Figure 6-55 Configurator for the ASM 473

Note

The ET 200X differs from the ASM 45x (see Figure 6-22) in that the 24 V

must be fed to the PROFIBUS connector and the load voltage connector.

See the ET 200X manual.

Configuration

Interfaces

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The following table shows the status of the ET 200X basic modules at

10/2002. The functionality of new basic modules is stored in HWCONFIG in

SIMATIC Manager.

Table 6-28 Prerequisite for operation of the ASM 473

Order number of the

ET 200X basic module

To be operated with the

ASM 473

(6GT2 002-0HA00)*

To be operated with the

ASM 473 PARAM

(6GT2 002-0HA10)

6ES7 141-1BF00-0XB0 No No

6ES7 141-1BF00-0AB0 Yes Yes

6ES7 141-1BF01-0XB0 No No

6ES7 141-1BF10-0XB0 No No

6ES7 141-1BF11-0XB0 Yes Yes

6ES7 141-1BF40-0AB0 Yes Yes

6ES7 142-1BD10-0XB0 No No

6ES7 142-1BD11-0XB0 No No

6ES7 142-1BD20-0XB0 No No

6ES7 142-1BD21-0XB0 Yes Ye s

6ES7 142-1BD22-0XB0 No yes**

6ES7 143-1BF00-0AB0 Yes Yes

6ES7 143-1BF00-0XB0 Yes Yes

6ES7 147-1AA00-0XB0 No No

6ES7 147-1AA01-0XB0 No Ye s

* Type discontinued

** Prerequisite for operation: please parameterize the module 6ES7 142-1BD21-0XB0 in

HWCONFIG.

Basic module –

prerequisite for

operation of the

ASM 473

Interfaces

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A maximum of 7 ASM 473s can be

used with one ET 200X.

Figure 6-56 Maximum configuration of the ASM 473 on one ET 200X

Depending on the PROFIBUS master, up to 123 ET 200X modules can be

operated on one PROFIBUS branch.

The ASM 473 is integrated in the hardware configuration of SIMATIC Mana-

ger by calling Setup.exe in the data\S7_OM directory on the “Software

MOBY” CD. At the moment the ASM 473 cannot be integrated in a non-Sie-

mens master.

An SLG always occupies the two M12 connection sockets, X3 and X4, on the

ASM 473. To ensure the simplest SLG connection, use a preprepared cable

(see Figure 6-24 and Section 3.7). The standard version of the connecting

cable has a length of 2 m.

Other lengths are available on request.

An SLG connector with screw-type terminals is available for users who want

to make their own cable (see Figure 6-23). Cables and SLG connectors can

be ordered from the MOBY catalog.

Hardware

configuration

SLG connection

method

Interfaces

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The following figure shows the pin assignment to the SLG and describes the

display elements.

ERR

ON (perm.)

OFF

2 Hz

5 Hz

1 flash

every 2 s

PRE

OFF/ON

2 Hz

5 Hz

OFF

Socket Pin assignment (SLG)

+RxD

+TxD

–TxD

–RxD

LEDs for PROFIBUS DP

General operating LEDs (SF, BF, ON, 24 V DC) are located on the basic

module of the ET 200X.

LEDs for MOBY

RxD: SLG is active with a command

PRE: Indicates the presence of an MDS

ERR: Error indicated by flashing pattern (see Appendix B.1)

+ 24 V

n. c.

0 V

n. c.

The PRE and ERR LEDs indicate other operational states of the ASM.

Description, causes, remedies

Hardware is defective (RAM, flash, etc.).

Loader is defective (can only be fixed at the plant).

Firmware loading procedure is active or no firm-

ware detected

→Load firmware

→Don’t turn off ASM during this.

Firmware loading terminated with error

→New start is required

→Load firmware again

→Check update files

Operating system error

→Turn ASM or ET 200X basis station

off/on.

ASM has started up and is waiting for a RESET

(init_run) from the user.

Figure 6-57 Pin assignment and LEDs of the ASM 473

Pin assignments

Interfaces

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The figure below shows the dimensions for the positions of the holes for the

mounting screws for one basic module and one ASM 473 expansion module.

n x 60

120

53,5

n = number of expansion modules

28,25

126.8

BM 141/142 ASM 473

110

For M5 mounting

screw

Figure 6-58 Dimensions for mounting holes for basic and expansion modules

Dimensioned

drawing of

mounting holes

Interfaces

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6.9 ASM 724/754

The ASM 724/754 interfaces are designed for the distributed configuration of

identification systems for warehousing, logistics, distribution and assembly

lines. The robust and functional housing can be mounted almost anywhere.

Up to four read/write antennas can be connected and operated in quasi paral-

lel.

When more than one SLA 71 is connected, the data are processed sequen-

tially on the device.

The MOBY wide-range power pack (6GT2 494-0AA00) can be used to sup-

ply the power on the ASM 724 and ASM 754. The read/write antenna

(SLA 71) and stub lines must be ordered separately. The user has a choice of

two interfaces.

PROFIBUS DPV1 (ASM 754)

RS 232/RS 422; Serial interface to the PC and PC-compatible controllers

(e.g., SICOMP IMC) and to controllers of other manufacturers

(ASM 724). Other operating systems on request.

Figure 6-59 ASM 724/754 interface

The ASM 724 accesses the data on the MDS directly with physical addresses.

Communication with the user is handled by a serial RS 232/RS 422 interface

with the 3964R protocol. This makes it easy to connect PCs and controllers of

other manufacturers to the MOBY E identification system. A C library

(MOBY API) with basic functions is available to PC users for their applications

(Windows 98/NT 4.0).

The ASM 754 accesses the data on the MDS directly with physical addresses.

Communication to the user is by means of the acyclic PROFIBUS DPV1 pro-

tocol service. The function FC 45 is available to SIMATIC S7-300/400 users

as a simple means of integration. The description of the PROFIBUS DPV1

implementation (see the appendix of the FC 45 description) is available to

programmers of controllers of other manufacturers.

Application area

ASM 724

ASM 754

Interfaces

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SLA SLA SLA SLA

MDS MDSMDS MDS

PROFIBUS

DPV1

24 V=

230 V

MOBY power

supply unit or other

24 V connection

ASM_channel: 1 2 3 4

MOBY E

SLA 7x and

MDS E6xx

PROFIBUS master

S7-300 (FC 45)

S7-400 (FC 45)

Other master

(non-Siemens FC)

6GT2 391-1AH50

6GT2 494-0AA00

6GT2 491-1HH50

Figure 6-60 Configurator for the ASM 724 and ASM 754

Interfaces

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Table 6-29 Ordering data for the ASM 724/754

ASM 724 interface

With serial RS 232/RS 422 interface;

3964R procedure for PC, SICOMP and

controllers of other manufacturers for 4 SLA 71

ASM 754 interfaces

for the operation of MOBY E components via

PROFIBUS DPV1, without filehandler for

4 SLA 71

6GT2 302-2CE00

6GT2 302-2EE00

Accessories

SLA 71 read/write antenna

Standard connecting cable between

SLA 71 ↔ ASM 724 and ASM 754;

Length: 5 m

Extension for antenna line 6GT2 391-1AH50

Length: 10 m

25 m

Extension for antenna line 6GT2 391-1AH50

Length: 25 m

Wide-range power supply unit 100-230 V AC/

24 V DC; 2.2 A (24 V cable not included with

the product)

24 V DC plug-in line for wide-range power sup-

ply unit 6GT2 494-0AA00;

Length: 5 m

RS 232 plug-in cable between PC and ASM 724;

(for cable lengths see Section 3.7.4)

Connector for power supply (socket) for the

ASM 724 and ASM 754

PROFIBUS connector 9-pin subminiature D

connector for 2 plug-in lines

Adapter floor plate for top-hat rail mounting of

ASM 724/ASM 754

C-library for ASM 724 (MOBY API)

FC 45 for ASM 754

6GT2 301-2BB00

6GT2 391-1AH50

6GT2 391-1BN10

6GT2 391-1BN25

6GT2 494-0AA00

6GT2 491-1HH50

6GT2 391-0B...

6GT2 390-1AB00

6ES7 972-0BA11-0XA0

(for other connectors, see catalog

ST 70 or IK PI)

6GT2 390-0BA00

On the “Software MOBY” CD

(see Section 7.1)

On the “Software MOBY” CD

(see Section 7.1)

Description of FC 45

For ASM 754 programming

German

English

French

Description MOBY API (C-Lib for ASM 754)

German

English

Electronically available on

“Software MOBY” CD

Electronically available on

“Software MOBY” CD

Ordering data

Interfaces

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Table 6-30 Technical data of the ASM 724/754

ASM 754 ASM 724

Serial interface to user

Max. cable length

PROFIBUS DPV1

See PROFIBUS configuration.

RS 232/RS 422

30/500 m

Procedure/protocol EN 50170 Vol. 2, PROFIBUS 3964R

Connection 9-pin submin. D socket (screw-type attachment)

Transmission speed 9600 bps to 12 Mbps

(automatic recognition)

9.6 kbps

19.2 kbps

38.4 kbps

(automatic

recognition)

Max. block length 4 words (cyclic)/238 bytes (acyclic) 238 bytes

Serial interface to the SLA 9-pin submin. D socket (screw-type attachment)

Cable length

(ASM to SLA)

Max. of 55 mm

No. of SLAs connectable 4 SLA 71 devices

Software functions

Programming Depends on PROFIBUS DPV1

master

MOBY API:

C-Lib for PC

with Windows

98/NT 4.0

Function block

SIMATIC S7 FC 45 –

MDS addressing

Commands

Direct access via addresses

Initialize MDS, read data from MDS, write data to MDS

Digital inputs

Digital outputs

None

Supply voltage

Connector

Nominal value

Perm. range

Current consumption

max. current

consumption

4-pin, M12 round connector (pin)

24 V DC

20 to 30 V DC

250 mA (without SLA)

1.1 A (without SLA)

UL/CSA Yes, in connection with a power supply of

NEC Class 2

Ambient temperature

()

Operation

Trans

ortation and

–25 to +55 °C (no condensation)

–40 to +85 °C

(

no condensation

)

Transportation and

storage

–

40 to +85 C (no condensation)

Housing

Dimensions (L x W x H)

Material

Color

205 x 130 x 60 (without connector)

Aluminum

Anthracite

Technical data

Interfaces

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Table 6-30 Technical data of the ASM 724/754

ASM 724ASM 754

Mounting

Tightening torque

(at room temperature)

4 M5 screws

Optional: top-hat rail mounting

≤ 3 Nm

Weight (approx.)

Protection rating in accor-

dance with EN 60529

1300 g

IP40 (higher rating on request)

Vibration in accordance

with EN 60721-3-7/

class 7M2

Vibration in accordance

with EN 60721-3-7/

class 7M2

30 g

1 g (9 to 200 Hz)

1.5 g (200 to 500 Hz)

MTBF (at +40 °C) 1 ⋅ 105 hours

Certification CE

The ASM 724/754 is a multi-channel module. The user can operate up to 4

channels in parallel but internally the SLA 71 is controlled by a multiplexer.

This operation is also described as quasi-parallel. The ASM 724/754 is there-

fore not suitable for dynamic operation.

If the traversing speed is sufficiently slow, dynamic MDS processing can be

considered in individual cases.

The following example gives you an idea of how this works.

Task:

The MDS E624 is to be processed dynamically on 4 SLAs at a traversing

speed of 15 m/min.

Configuration:

ASM 754 with 4 SLA 71s

PROFIBUS with 3 Mbps

Controller with CPU 315-2 DP

Read requirement:

One to 16 bytes is to be read as of address 0 on all SLA 71s.

Dynamic

operation of the

ASM 724/754

Interfaces

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Result of the measurements:

t(read) = 520 ms

This means that in the worst case an MDS must be in the field for 520 ms to

ensure that it can be still be read dynamically if 4 SLAs are being operated.

If fewer than 4 SLAs are being used on the ASM 754, the time is divided

accordingly between the SLAs:

Number of SLAs Time [ms]

4 520

3 390

2 260

1* 130

* If only one SLA 71 is inserted on the ASM 724/754, the time is reduced to < 100 ms.

If you compare this time with the speed of the MDS or the different MDSs,

the result is as follows:

Number of SLAs MDS type V max. dyn.

[m/s]

V max. dyn.

[m/min]

4MDS E624 0.07 4.2

3MDS E624 0.10 6.0

2MDS E624 0.15 9.0

1MDS E624 0.29 17.4

4MDS E600 0.12 7.2

3MDS E600 0.15 9.0

2MDS E600 0.23 13.8

1MDS E600 0.46 27.6

4MDS E611 0.15 9.0

3MDS E611 0.21 12.6

2MDS E611 0.31 18.6

1MDS E611 0.62 37.2

Conclusion:

Dynamic processing of the MDS E624 on 4 SLA 71s at a

speed of 15 m/min is not possible.

Interfaces

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RxD

PRE ERR

RxD (yellow):

PRE (green):

ERR (red):

Connection indicator; lights up if the connection to the SLA is working properly

“Presence” indicates the presence of an MDS in the transmission window

Error indicated by flashing LED (under preparation)

Connector 1 to 4 to the SLA

Socket Designation

+ 12 V

+ Sending

+Receiving

Not used

– Receiving

– Sending

Ground (0 V)

+ 24 V

Not used

Housing Cable shield

1432

Figure 6-61 Serial interfaces of the ASM 724/754 to the SLA 71

Pin assignment

and switches

Interfaces

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PROFIBUS

Socket Designation

Not used

B-line (red)

Request to send (RTS)

Ground 5 V (M5)

Potential 5 V

Not used

A-line (green)

Not used

Housing Cable shield

PROFIBUS

(floating; 60 mA)

SERIAL 24 V DC

1234 67 9 11121085

ON: 24 V are on the AS

(green)

SF/BF: System fault/bus

(red) Fault RAM error

ASM 724: flashes

after power up;

flashing stops after

the first correct

message frame

ACT: This LED flashes

(green) once briefly

when a command

has finished being

processed.

Pin Designation

SF/BF

ON ACT

Ground

+ 24 V

Ground

+ 24 V

SERIAL

Socket RS 232

TxD (send)

RxD (receive)

Not used

Ground (0 V)

Not used

24 VDC

Switch 1 to 7: PROFIBUS-Address

Switch 1 ON:20

Switch 2 ON: 21

Switch 7 ON: 26

Example: PROFIBUS-Address= 84

(22 + 24 + 26)

Switch 8: Interface

ON: RS 422

OFF: RS 232

Switches 9 to 12: Not used

RS 422

–TxD

–RxD

Not used

Ground

Not used

+TxD

+RxD

Housing Cable shield Cable shield

1 Only in the case of the ASM 754.

2 Only in the case of the ASM 724.

Figure 6-62 Serial interfaces of the ASM 724/754 to the user

Interfaces

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130

205

Figure 6-63 Dimensioned drawing of the ASM 724/754 with mounting holes

Item Designation Quantity

1 Floor plate 1

2 Profile section 1

3 Oval head screw

(M5 x 10)

4 Washer (A5.3) 4

5 Countersunk

screw (M4 x 10)

Figure 6-64 How to mount the adapter plate

Note

The profile section (item 2) can be turned by 90° on the floor plate before

mounting if the situation requires it.

Dimensions

(in mm)

Adapter floor plate

for top-hat rail

mounting

Interfaces

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6.10 SIM Serial Interface Module

6.10.1 Overview

The primary application areas of the MOBY E SIM are data acquisition,

trade and commerce, warehousing, logistics, assembly lines and tool identifi-

cation. For acquisition support, development and pilot installation, the

MIFARE Demokit is available.

The serial interface module (SIM) is a universal module for the operation of

MOBY E via a serial interface on any

Computer

PC and

Non-Siemens PLC.

Its sturdy housing permits use in rugged environments and makes it insensi-

tive to many chemical substances.

SIM combines an ASM interface and an SLG read/write device in one hou-

sing. It is delivered with RS 232 and RS 422 interfaces.

The following versions are available for MOBY E.

SIM 70 ANT 0

SIM 70 ANT 1

SIM 72

All SIM models are operated with a 3964R procedure.

The SIM is connected via a serial interface of the PC (models with processors

starting at 80486SX) and run with the 3964R protocol. Driver software is

available for the 3964R protocol. C libraries with functions based on the

3964R driver platform are available for fast and easy programming.

The use of the C libraries makes it possible to operate the SIM through ap-

plications under Windows 95/NT 4.0.

Other operating systems on request.

Application

area

Layout and

function

Interfaces

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AT-comp. PC

SIM 72

RS 232 / RS 422

Siemens

MOBY E

MDS E611

C library with

3964R driver

Connector power

pack

Figure 6-65 Configurator for SIM (example)

MOBY E MDS E 6xx data memories and the MIFARE card share the same

protocol but use different access keys. MDS E6xx and MIFARE have diffe-

rent access keys.

The MDS has an 8-kbit EEPROM memory which is divided into 16 sectors

(i.e. sectors 0 to 15). Each sector consists of four blocks. The block is 16 by-

tes in length and is the smallest addressable memory area on the MDS. With

one exception, each sector consists of three blocks of user data (i.e. blocks 0

to 2) and a sector trailer (i.e. block 3). Sector 0 is the exception. It contains

the card manufacturer data block in block 0 and can only be read-accessed.

Access to the MOBY E MDS is protected by two keys (i.e. A and B) per sec-

tor with individual access conditions for each block of the sector. These keys

and the individual access conditions must be specified and stored in the ap-

propriate sector trailer when the card is personalized.

With MOBY E data memories, key A is reserved and is not available for pro-

gramming. All MOBY E SIMs use this key.

Key B is available for user programming. This permits the SIM to be used to

access general MIFARE data memories. The transport key is required to

switch the SIM to another B key. Which is: 0xB0B1B2B3B4B5.

Note

Key assignment and access conditions can only be changed with the SIM.

Data structure of

the MOBY E data

memory

MDS E6xx with

SIM

Interfaces

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Sector

trailer 1

Block 4

Block 5

Block 6

Block 7

Block 60

Block 61

Block 62

Block 63

Block 0

Block 1

Block 2

Block 3

Manufacturer’s data

User data

Sector 15

Sector 0

Sector 1

8192-bit

EEPROM

Key B (1)

Access conditions (1)

Key A (1)

Key B (0)

Access conditions (0)

Key A (0)

Access conditions (15)

Key A (15)

Key B (15)

Sector

trailer 0

Sector

trailer 15

User data

16 sectors

4 blocks per sector = 64 blocks

16 bytes per block = 1024 bytes

47 user data blocks = 752 bytes

Keys A and B = 6 bytes

Access conditions = 4 bytes

Figure 6-66 Data structure of the MOBY E MDS (MIFARE) with SIM

Interfaces

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The MOBY interface modules which work with the MDS via an SLG (e.g.,

ASM 400, ASM 450, ASM 470, and so on) only access the user data via

addresses. The figure below shows the assignment of the ASM addressing to

the block structure of the MDS.

ASM Addressing MDS Structure

Decimal Hexadecimal

0000

000F

0010

001F

0020

002F

0030

003F

704

719

02C0

02CF

720

735

02D0

02DF

0040

004F

736

751

02E0

02EF

Block 4

Block 5

Block 6

Block 7

Block 60

Block 61

Block 62

Block 63

Block 0

Block 1

Block 2

Block 3

Manufacturer’s data

User data

Key

Access

Key

User data

Key

Access

Key

Access

Key

Figure 6-67 Assignment of the ASM addressing to the block structure of the MDS

The following tables provide the field data of all MOBY E components of

MDS and SIM.

All technical data are typical data, based on an ambient room temperature of

0 to +50 °C, a supply voltage of 22 to 27 V DC, and metal-free surround-

ings. Tolerances of $20 % are permitted for production conditions and

temperature fluctuations.

The field data are subject to additional tolerances when the entire voltage

range on SIM from 12 to 30 V DC and/or the entire temperature range of

MDS and SIM is/are utilized.

Field data of the

MDS and SIM

Interfaces

6-90 MOBY E Configuration, Installation and Service Manual

(4)J31069-D0105-U001-A7-7618

Table 6-31 Field data of all MDSs and SIMs without the influence of metal

MDS

SIM

MDS E600 MDS E611 MDS E6233MDS E624

Length of the transmission window in mm (L)

SIM 70 ANT 0 (Ld) --- --- 4 12

SIM 70 ANT 1 (Ld) 605805--- 38

SIM 72 (Lx)2

(Ly)2

755

505

905

605

--- 60

Width of the transmission window in mm (W)

SIM 70 ANT 0 --- --- 245 (12)1

SIM 70 ANT 1 24 32 --- 15 (38)1

SIM 72 (Wx)2

(Wy)2

--- 24

Working distance in mm (Sa)

SIM 70 ANT 0 --- --- 0 to 6 0 to 8

SIM 70 ANT 1 0 to 50 10 to 70 --- 0 to 25

SIM 72 0 to 50 10 to 70 --- 0 to 30

Limit distance in mm (Sg)

SIM 70 ANT 0 --- --- 6 15

SIM 70 ANT 1 70 100 --- 40

SIM 72 70 100 --- 40

1The width (W) contained in parentheses only applies to static MDS operation.

2 See also Figure 6-85 for the field geometry.

3MDS E623 together with SIM 70 ANT 0 only in static operation

4 In static operation, a maximum median deviation of + 2 mm is permitted.

5 Reduction by approx. 15% when the MDS enters the transmission window diagonally.