SIWAREX U - simlogic

SIWAREX U - simlogic
Preface, Contents
SIWAREX U
(One and Two-Channel Model)
Equipment Manual
System Overview
1
Hardware Description and
Commissioning
2
Function Description
3
Overview of System Integration
4
SIMATIC S7
5
SIMATIC S5
6
Standard DP Master
7
Serial Coupling
8
Data Record Description
9
Connection of Digital Remote
Displays
10
SIWATOOL - Description and Use
11
Error Diagnostics and Treatment
12
Technical Specifications
13
Distribution/Hotline/Repairs/
Replacement Parts/Training
14
Index
Release 06/2005
Safety Guidelines
This manual contains notices which you should observe to ensure your own personal safety,
as well to protect the product and connected equipment. These notices are highlighted in the
manual by a warning triangle and are marked as follows to the level of danger.
!
Danger
!
Warning
!
Caution
indicates an imminently hazardous situation which, if not avoided, will result in death or
serious injury.
indicates a potentially hazardous situation which, if not avoided, could result in death or
serious injury.
used with the safety alert symbol indicates a potentially hazardous situation which, if not
avoided, may result in minor or moderate injury.
Caution
used without safety alert symbol indicates a potentially hazardous situation which, if not
avoided, may result in property damage.
Notice
NOTICE used without the safety alert symbol indicates a potential situation which, if
not avoided, may result in an undesireable result or state.
Qualified Personnel
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.
Correct Usage
Note the following:
!
Warning
This device and its components may only be used for the applications described in the catalog or technical description, and only in connection with devices or components from other
manufactorers which have been approved or recommended by Siemens.
This product can only function correctly and savely if it is transported, stored, set up, and installed correctly, and operated and maintained as recommended.
Trademarks
Editor:
Publisher:
SIMATICR and SIWAREXR are registered trademarks of Siemens AG.
A&D SE ES4
A&D PI 14
Copyright Siemens AG 2005 All rights reserved
Disclaimer of Liability
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.
We have checked the contents of this manual for agreement with the hardware and
software described. Since deviations cannot be precluded entirely, we cannot guarantee full agreement. However, the data in the manual are reviewed regularly and
any necessary corrections included in subsequent editions. Suggestions for improvement are welcomed.
Siemens Aktiengesellschaft
Order No.
Tecnical data subject to change.
Table of Contents
1
2
3
4
5
System Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-1
1.1
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-2
1.2
Setup and Components of a Weighing Machine . . . . . . . . . . . . . . . .
1-8
1.3
Weighing Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-9
Hardware Description and Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . .
2-1
2.1
Installing the SIWAREX U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-3
2.2
Mounting the Module on the Rail . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-5
2.3
2.3.1
2.3.2
2.3.3
Connection and Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Load Cell Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
RS 232C Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TTY Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-7
2-10
2-13
2-15
2.4
Preparing the SIWAREX U for Operation . . . . . . . . . . . . . . . . . . . . . .
2-16
2.5
Assigning Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-18
Function Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-1
3.1
A/D Conversion (Measured Value Acquisition) . . . . . . . . . . . . . . . . . .
3-2
3.2
Digital Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-3
3.3
Weight Calculation and Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-4
3.4
Setting to Zero . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-10
3.5
Limit Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-12
3.6
Operational Reliability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-14
3.7
Special Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-17
Overview of System Integration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1
4.1
System Integration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-2
SIMATIC S7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-1
5.1
Diagnostic Capabilities in the SIMATIC S7 Program . . . . . . . . . . . . .
5-4
5.2
Evaluation of the Process Interrupts . . . . . . . . . . . . . . . . . . . . . . . . . .
5-6
5.3
Writing a Data Record with SFC58 “WR_REC” . . . . . . . . . . . . . . . . .
5-7
5.4
Read Data Record with SFC 59 “RD_REC” . . . . . . . . . . . . . . . . . . . .
5-9
5.5
Sample Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-13
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Table of Contents
6
SIMATIC S5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-1
6.1
Hardware Prerequisites . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-1
6.2
Delivery Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-3
6.3
Parameterization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-4
6.4
Addressing the SIWAREX U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-6
6.5
Types of Addressing of the IM 308-C . . . . . . . . . . . . . . . . . . . . . . . . . .
6-8
6.6
Types of Addressing of the S5-95U . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-9
6.7
Principle of Communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-10
6.8
Allocation of the Input/Output Area . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-11
6.9
Description of Data Transmission . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-13
6.10
Sample Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-16
6.11
6.11.1
6.11.2
Diagnostic Capabilities with Link to SIMATIC S5 . . . . . . . . . . . . . . . .
Diagnostic Capabilities with the IM 308-C . . . . . . . . . . . . . . . . . . . . . .
Diagnostic Capabilities with the S5-95U/DP Master . . . . . . . . . . . . .
6-24
6-24
6-28
7
Standard DP Master . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-1
8
Serial Coupling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8-1
8.1
Transmission Protocol (SIWAREX Driver) . . . . . . . . . . . . . . . . . . . . .
8-1
Data Record Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
9-1
9.1
Overview of Data Records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
9-1
9.2
Data Formats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
9-3
9.3
9.3.1
9.3.2
9.3.3
9.3.4
9.3.5
9.3.6
9.3.7
9.3.8
9.3.9
9.3.10
9.3.11
9.3.12
9.3.13
9.3.14
9.3.15
9.3.16
9.3.17
9.3.18
Description of the Data Records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR0: Basic Parameters (Write) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR1 - Parameter (Write) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR0: Diagnosis, Part 1 (Read) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR1 - Diagnosis, Part 2 (Read) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR3: Adjustment Data, Channel 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR4: Adjustment Data, Channel 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR5: General Parameters (Regardless of Channel) . . . . . . . . . . . . .
DR6: Specified Values, Remote Display . . . . . . . . . . . . . . . . . . . . . . .
DR11: Commands, Channel 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR12: Commands, Channel 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR21: Limit Values, Channel 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR22: Limit Values, Channel 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR31: Measured Values/Status/Error, Channel 1 . . . . . . . . . . . . . . .
DR32: Measured Values/Status/Error, Channel 2 . . . . . . . . . . . . . . .
DR40: Version/Checksum/Switches . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR57 to 79: Data Records for I/O Area . . . . . . . . . . . . . . . . . . . . . . . .
DR100: Fetch Telegram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR101: Acknowledgment Telegram . . . . . . . . . . . . . . . . . . . . . . . . . . .
9-4
9-4
9-4
9-5
9-6
9-7
9-9
9-9
9-10
9-11
9-12
9-12
9-12
9-13
9-13
9-15
9-16
9-17
9-17
9
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Table of Contents
10
11
12
13
14
Optional Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10-1
10.1
Connection of Digital Remote Displays . . . . . . . . . . . . . . . . . . . . . . . .
10-2
10.2
10.2.1
Ex-i Interface for SIWAREX U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10-10
10-11
SIWATOOL - Description and Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
11-1
11.1
Installing SIWATOOL on PC/PG . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
11-2
11.2
Commissioning SIWAREX U with SIWATOOL . . . . . . . . . . . . . . . . . .
11-3
11.3
SIWATOOL Menu Tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
11-5
11.4
Adjustment of the Scales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
11-6
11.5
Important Notes on Settings in SIWATOOL . . . . . . . . . . . . . . . . . . . .
11-8
11.6
Weighing Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
11-9
11.7
Diagnostic Capabilities with SIWATOOL . . . . . . . . . . . . . . . . . . . . . . .
11-10
Error Diagnostics and Treatment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
12-1
12.1
Error Treatment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
12-4
12.2
General Behavior During Malfunctions . . . . . . . . . . . . . . . . . . . . . . . .
12-5
Technical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13-1
13.1
Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13-2
13.2
Physical Requirements and Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13-5
13.3
Electrical, EMC and Climatic Requirements . . . . . . . . . . . . . . . . . . . .
13-6
13.4
Potential Isolation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13-8
Hotline/Repairs/Replacement Parts/Internet . . . . . . . . . . . . . . . . . . . . . . . . .
14-1
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Index-1
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Table of Contents
Figures
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
1-9
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
2-9
3-1
3-2
3-3
4-1
5-1
5-2
6-1
6-2
9-1
10-1
10-2
10-3
10-4
11-1
11-2
11-3
11-4
13-1
iv
SIWAREX U with the SIMATIC S7-300 . . . . . . . . . . . . . . . . . . . . . . . .
SIWAREX U in the SIMATIC S7-300 . . . . . . . . . . . . . . . . . . . . . . . . . .
The SIWAREX U as distributed periphery in the
SIMATIC S5/S7/M7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Representation of the SIWAREX U in the ES engineering
system (left) and on the OS operator station (right) . . . . . . . . . . . . .
The SIWAREX U as a controller-independent field device . . . . . . . .
Diagram of the SIWAREX U setup . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setup of the weighing system with a SIWAREX U . . . . . . . . . . . . . .
SIWAREX U fill level scales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Scales for potentially explosive area . . . . . . . . . . . . . . . . . . . . . . . . . .
Shield connecting element . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting the shield terminals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connection elements on the front of the SIWAREX U . . . . . . . . . . .
Connection of load cells using the 6-wire technique
(example: connection to channel 1) . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connection of load cells using the 4-wire technique
(example: connection to channel 2) . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connection of a PC to the RS 232 interface . . . . . . . . . . . . . . . . . . . .
Connection of digital remote displays . . . . . . . . . . . . . . . . . . . . . . . . . .
Location of the LEDs to be tested . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Methods of parameter assignment for various system
configurations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Filtering principle of the SIWAREX U . . . . . . . . . . . . . . . . . . . . . . . . . .
Adjustment procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Example of assigning parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Possible links to a host system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameterization configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Module status in STEP 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Selection of SIWAREX U module during configuration of the
ET 200M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameter assignment with COM PROFIBUS . . . . . . . . . . . . . . . . . .
Comparison of data addressing with STEP 5 and STEP 7 . . . . . . .
Connection of optional components . . . . . . . . . . . . . . . . . . . . . . . . . . .
Example: Connection of 4 digital remote displays to the
SIWAREX U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connection of remote displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Diagram of the Ex-i interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
S7 setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dialog on scales adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Status window of the set scales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Online error report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-2
1-4
1-5
1-6
1-7
1-7
1-8
1-9
1-11
2-6
2-7
2-8
2-11
2-12
2-13
2-15
2-17
2-18
3-3
3-5
3-12
4-2
5-2
5-5
6-4
6-17
9-3
10-1
10-2
10-3
10-11
11-2
11-6
11-9
11-10
13-5
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Table of Contents
Tables
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
3-1
3-2
3-3
3-4
3-5
3-6
3-7
3-8
3-9
4-1
5-1
5-2
5-3
6-1
6-2
6-3
6-4
6-5
6-6
6-7
6-8
6-9
6-10
6-11
6-12
6-13
6-14
6-15
6-16
6-17
6-18
8-1
8-2
8-3
9-1
9-2
9-3
9-4
9-5
9-6
9-7
Technical data of the SIMATIC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Requirements on the SIWAREX U side . . . . . . . . . . . . . . . . . . . . . . . .
Rules for wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Indication elements on the front of the SIWAREX U . . . . . . . . . . . . .
Allocation of the load cell connection . . . . . . . . . . . . . . . . . . . . . . . . . .
Assignment of the RS 232C interface for SIWAREX U . . . . . . . . . . .
Assignment of the interface converter . . . . . . . . . . . . . . . . . . . . . . . . .
Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
A/D conversion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Commands and messages for adjustment . . . . . . . . . . . . . . . . . . . . .
Setting to zero . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Limit values - special cases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Limit values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Messages for the test routines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Storage of the limit values and zero setting value . . . . . . . . . . . . . . .
Allocation of the status LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Messages for the special functions . . . . . . . . . . . . . . . . . . . . . . . . . . .
Overview of the data records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameters for SFC 58 “WR_REC” . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameters for SFC 59 “RD_REC” . . . . . . . . . . . . . . . . . . . . . . . . . . .
Specific error information for SFC 58 “WR_REC” and
SFC 59 “RD_REC” . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maximum transmission speeds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Type and GSD files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Possible addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Possible addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Input/output of the SIWAREX U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Job control (output byte 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Status byte (input byte 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sample program DEMO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Call interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Structure of DW49 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Structure of the scales DB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
User DB interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Call FB192 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents and layout of the diagnostic data . . . . . . . . . . . . . . . . . . . . .
Contents and layout of the process interrupt data . . . . . . . . . . . . . . .
Contents and layout of the diagnostic alarm data
(contents of data record DR1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents and structure of the diagnostic data . . . . . . . . . . . . . . . . . .
Telegram layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interface data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
RS 232 interface and SIWAREX driver . . . . . . . . . . . . . . . . . . . . . . . .
Overview of the data records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Data record formats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR0: Basic parameters (length: 4) . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR1 - Parameter (length: 16) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Diagnostic data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Diagnostic data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR3: Adjustment data, channel 1 (length: 10 bytes) . . . . . . . . . . . . .
SIWAREX U Equipment Manual
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2-4
2-4
2-7
2-8
2-10
2-13
2-14
2-15
3-3
3-9
3-10
3-13
3-13
3-15
3-16
3-17
3-18
4-4
5-7
5-9
5-10
6-2
6-5
6-6
6-6
6-11
6-11
6-12
6-16
6-18
6-19
6-20
6-23
6-24
6-25
6-26
6-27
6-29
6-29
8-2
8-2
8-3
9-1
9-3
9-4
9-4
9-5
9-6
9-7
v
Table of Contents
9-8
9-9
9-10
9-11
9-12
9-13
9-14
9-15
9-16
9-17
9-18
9-19
9-20
9-21
9-22
9-23
9-24
9-25
9-26
9-27
9-28
9-29
10-1
10-2
10-3
10-4
10-5
10-6
10-7
10-8
11-1
12-1
12-2
12-3
12-4
vi
Char. value, LC/filter setting/setting data . . . . . . . . . . . . . . . . . . . . . . .
DR4: Adjustment data, channel 2 (for two-channel modules only)
(length: 10 bytes) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR5: General parameters (length: 6 bytes) . . . . . . . . . . . . . . . . . . . .
TTY/RS 232C interface parameters
(fixed: 8 data bits, 1 stop bit, 9600 baud) . . . . . . . . . . . . . . . . . . . . . .
Type of remote display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Allocation of LED 1 or LED 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR6: Specified values, remote display (length: 4 bytes) . . . . . . . . . .
DR11: Commands, channel 1 (length: 2 bytes) . . . . . . . . . . . . . . . . .
Possible entries, command word . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR12: Commands, channel 2 (for two-channel modules only)
(length: 2 bytes) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR21: Limit values, channel 1 (length: 8 bytes) . . . . . . . . . . . . . . . .
DR22: Limit values, channel 2 (for two-channel modules only)
(length: 8 bytes) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR31: Measured values/status/error, channel 1 (length: 10 bytes)
DR32: Measured values/status/error, channel 2 (length: 10 bytes)
Status byte . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Asynchronous errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Synchronous error . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DR40: Version/checksum/switches (length: 8 bytes) . . . . . . . . . . . . .
DR57 to 79: Data records for I/O area (S5 data records) . . . . . . . . .
DR100: Fetch telegram (length: 1 byte) . . . . . . . . . . . . . . . . . . . . . . . .
DR101: Acknowledgment telegram (length: 3 bytes) . . . . . . . . . . . .
Error types in the acknowledgment telegram . . . . . . . . . . . . . . . . . . .
Special operating states . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pin assignment of the TTY interface . . . . . . . . . . . . . . . . . . . . . . . . . .
Remote display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Settings of the remote display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Number range which can be indicated on the remote display . . . . .
Assignment of the addresses on the remote display . . . . . . . . . . . . .
Description of the string layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Character set used for display data . . . . . . . . . . . . . . . . . . . . . . . . . . .
Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Types of errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Synchronous errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Asynchronous errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Diverse errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
9-8
9-9
9-9
9-9
9-9
9-10
9-10
9-11
9-11
9-12
9-12
9-12
9-13
9-13
9-13
9-14
9-15
9-15
9-16
9-17
9-17
9-17
10-3
10-4
10-4
10-5
10-6
10-7
10-8
10-8
11-8
12-1
12-2
12-3
12-5
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System Overview
1
This section gives you an overview of the functions of the SIWAREX U
weighing module and a description of its integration into the system.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
1-1
System Overview
1.1
Introduction
Just what is SIWAREX U?
Everywhere where loads and forces must be weighed precisely and reliably, the
SIWAREX U offers the best solution. A few examples: For fill levels of bins
and hoppers, for monitoring trolley loads, for load measurement of conveyor
belts or as overload protection for industrial elevators or milling lines.
The SIWAREX U is a weighing module which permits complete integration of
weighing functions in the SIMATIC. The basic system is the SIMATIC
S7-300.
The SIWAREX U is available in both one-channel and two-channel models.
SIWAREX U with one weighing channel:
SIWAREX U with two weighing channels:
Order no. 7MH4 601-1AA01
Order no. 7MH4 601-1BA01
By using standard components from the SIMATIC family, the SIWAREX U
can be expanded as desired and thus offers an optimal hardware and software
environment for implementation of system-specific solutions.
Using the ET 200M modular I/O device, the SIWAREX U can also be connected decentrally to a SIMATIC S5/S7/M7/PCS 7, or another standard
DP master.
PS 307
2A
6ES7307-1BA00-0AA0
1-2
CPU 312 IFM
SIWAREX U
X2
1 3
6ES7312-5AC00-0AB0
CP 342-5
SF
24V
ST1
ST2
WEIGHING MODULE
SIMATIC
S7-300
SIMATIC
S7-300
Figure 1-1
SIEMENS
SIMATIC
S7-300
X2
13
X2
13
7MH4601-1BA01
6GK7342-5DA00-0XE0
X2
1 3
SIWAREX U with the SIMATIC S7-300
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System Overview
What can the
SIWAREX U do?
The SIWAREX U handles execution of all weighing functions in process engineering.
The SIWAREX U generates the weight value and checks this value to determine whether a limit value has been exceeded.
The SIWAREX U can be used in potentially explosive areas (i.e., zones 1 and
2). The optional Ex-i interface (SIWAREX IS) ensures intrinsically safe supply of the load cells.
Additional features:
S 2 models (for one or two scales)
S Integration in SIMATIC S7/M7-300 as a function module (FM)
S Connection to PROFIBUS-DP via ET 200M
S 2 serial interfaces for remote display and PC connection
S Easy parameterization with Windows
S Module can be exchanged without readjusting the scales
S Theoretical adjustment without adjustment weights
S Setting to zero, parameterizable limit values and adjustable digital filter
S High degree of measuring precision (0.05%)
S CE, UL, CSA, FM, and ISO 9001 certification
S Choice of parameterization methods:
– “SIWATOOL” parameterization software under WINDOWS on PC;
direct transfer to the RS 232 interface of the SIWAREX U
– Via data record transfer or via “ForceVar.”
S Load cell interfaces:
– Short circuit and overload-proof load cell supply at max. of 240 mA
– Wire break detection (sensor, supply and measuring lines)
– Load cell adaptation via software
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
1-3
System Overview
System integration
of the SIWAREX U
into the SIMATIC
Integration of the SIWAREX U into the SIMATIC provides a freely programmable weighing system with which even complex tasks (e.g., multi-scale systems) can be implemented easily.
Central integration
into the S7-300/
M7-300
The SIWAREX U is snapped directly onto the SIMATIC S7 bus as a function
module (FM). This direct integration of the SIWAREX U into the
SIMATIC S7-300/M7-300 permits optimal utilization of all functions of
the automation system.
Hardware and software flexibility permits the implementation of a wide variety
of applications (e.g., in the chemicals industry and foodstuffs industry). The
complete family of SIMATIC S7-300 modules is available as the hardware
platform. SIMATIC HMI operator panels are available for easy operator
control and monitoring.
Weight
Scale 1
Scale 2
Scale 1
Weight
Scale 2
Spec.
value 1
LC
LC
Junction box
JB
LC
LC
Junction box
JB
Spec.
value 2
TTY
Option: Channel 2
SIWATOOL
RS232 C
PS 307
2A
SIMATIC S7-300/400
SIMATIC OP17
SIMATIC
S7-300
F1 F2 F3 F4 F5 F6 F7 F8
K
1K
7K
2K
3K
4K
5K
6K
8
K
9K
10 K
1K
16
12 K
13 K
14 K
15 K
7 8 9 0
5 6 +/A34 BC
2 1 .
DE
F
Figure 1-2
CPU 312 IFM
SIWAREX U
WEIGHING MODULE
SF
24V
ST1
ST2
SIMATIC HMI OP17
B> 243,23 kg
MPI-BUS
SIEMENS
SIMATIC
S7-300
X2 6ES7312-5AC00-0AB0
13
6ES7307-1BA00-0AA0
PS
X2
13
X
2
13
7MH4601-1BA01
CPU 312 IFM SIWAREX U
I/O of CPU 312 IFM:
- 10 digital inputs
- 6 digital outputs
SIWAREX U in the SIMATIC S7-300
The SIWAREX U can also be operated centrally in the SIMATIC M7-300.
1-4
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System Overview
Distributed
integration
into the S7/S5/M7
Since the SIWAREX U can be connected to the PROFIBUS-DP via the
ET 200M modular I/O system (IM 153-1 or IM 153-2 interface), the
SIWAREX U can be linked as distributed periphery to the SIMATIC S5-95U,
S5-115U/H, S5-135U or S5-155U/H or to the SIMATIC S7-300/M7-300 or
S7-400/M7-400.
Transmission distances of up to 23 km are permitted.
Several SIWAREX U modules can be connected together with additional
I/O modules on an IM 153-1 or IM 153-2.
SIMATIC S5-95U
SIMATIC S5-115U/135U/155U
SIMATIC S7-400
SIMATIC M7-400
SIMATIC S7-300
SIMATIC M7-300
PROFIBUS-DP
PS
IM
PS 307
2A
SIEMENS
SIW. U
SIWAREX U
WEIGHING MODULE SF
24V
DO
SM 322
8 DO, DC24V
DI
SM 321
16 DI, DC24V
ST1
ST2
SIMATIC
S7-300
6ES7307-1BA00-0AA0
PS:
Power supply
SIW. U SIWAREX U
SIMATIC
ET 200M
X2
1 3
Figure 1-3
X2
1 3
6ES7153-1AA02-0XB0
X2
13
7MH4601-1BA01
X2
13
6ES7322-1BF01-0AA0
X2
1 3
6ES7321-1BH00-0AA0
IM:
DO:
DI:
IM 153-1
Dig. output module
Dig. input module
The SIWAREX U as distributed periphery in the SIMATIC S5/S7/M7
The central unit or expansion unit of the SIMATIC S5-115U/135U/155U requires an IM 308-C interface. Up to 122 bus nodes (32 without repeater) can
be connected to this interface. In addition, a S5-95U with DP master interface
can also be used as the master.
However, when the SIWAREX U is connected decentrally to a
SIMATIC S7-300 or SIMATIC S7-400, an S7 CPU with PROFIBUS-DP interface or a CP 443-5 (release status 2 or later) or IM 467 for the bus connection
is required. The CP 342-5 cannot be used for the bus connection.
Decentral connection to a SIMATIC M7 requires an IFM interface.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
1-5
System Overview
Distributed integration into the SIMATIC PCS 7
While the SIWAREX U is usually integrated in SIMATIC S5/S7 programmable controllers with the typical PLC programming languages STL (statement
list), LAD (ladder diagram) or FBD (function block diagram), integration in
the SIMATIC PCS 7 process control system is performed via graphic configuration in the CFC (continuous function chart). In other words, integration is
structured instead of programmed.
The SIWAREX U modules are represented in the ES (i.e., engineering system)
by “technology blocks” in the CFC. In contrast, with the OS (operator station),
WinCC faceplates are used by the visualization system to re-present the
SIWAREX U modules.
The faceplates can be used to monitor the weight values and control the
SIWAREX U modules.
A separate SIWAREX U configuration package is available for the
SIMATIC PCS 7 process control system which contains a block for the
CFC chart, a faceplate for WinCC and the documentation.
Figure 1-4
1-6
Representation of the SIWAREX U in the ES engineering system (left)
and on the OS operator station (right)
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System Overview
Integration of the
SIWAREX U independent of the
controller
Using the serial interfaces of the SIWAREX U for a remote display or the connection of PC or host, the SIWAREX U can also be used as a field device
which is not dependent on a controller. When the SIWAREX U is used without the SIMATIC S7/M7, an IM 153-1 interface must be used to power the
SIWAREX U with 5 V over the backplane bus. The interface can be used later
as a PROFIBUS interface.
Weight
Scale 1
Scale 2
Scale 1
Weight
Scale 2
Spec.
value 1
LC
LC
Junction box
JB
LC
LC
Junction box
JB
Spec.
value 2
TTY
Option: Channel 2
SIWATOOL
RS232 C
PS 307
2A
SIMATIC
S7-300
6ES7307-1BA00-0AA0
Figure 1-5
Periphery
SIEMENS
SIWAREX U
WEIGHING MODULE
SF
24V
ST1
ST2
SIMATIC
ET 200M
X 2
1 3
X 2
1 3
6ES7153-1AA02-0XB0
X 2
1 3
7MH4601-1BA01
The SIWAREX U as a controller-independent field device
In addition to the bus interface for the SIMATIC, the SIWAREX U is equipped
with two other serial interfaces (i.e., TTY and RS 232C).
PC or host
CPU
SIMATIC
S7-300
M7-300
SIMATIC S7
bus
PROFIBUSDP
interface
(IM 153-1
or IM 153-2)
Remote display
RS 232C
Meas. val.
acquisition
TTY
SIWAREX U
Load cell
supply
EX-i
interface
(option)
Dotted lines:
:
Only for two-channel
SIWAREX U
Figure 1-6
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Junction
box
LC
LC
LC
LC
Meas. val.
acquisition
Load cell
supply
EX-i
interface
(option)
Junction
box
LC
LC
LC
LC
Diagram of the SIWAREX U setup
1-7
System Overview
1.2
Setup and Components of a Weighing Machine
A complete industrial weighing machine (scales) consists of the following primary components.
ÍÍÍÍÍ
ÍÍÍÍÍ
ÉÉÉÉÉÉÉÉÉÉ
Load
Load bearing element
Load cell
Load cell
PC connection
SIWAREX U
module
Foundation
Remote display
connection
SIMATIC bus
connection
Connection cable
JB
Figure 1-7
Setup of the weighing system with a SIWAREX U
Load bearing implement
Load bearing implements are used to hold the load to be weighed. Examples
include platforms, hoppers, trolleys, containers and so on.
Load cell
Load cells are measuring sensors which convert a physical value (i.e., weight)
into a proportionate electrical signal.
Mounting
elements
Mounting elements ensure that the load cells function correctly. Mounting and
guide elements prevent faulty loading which can cause measuring errors and
damage to the load cells. Faulty loading is caused by forces (e.g., lateral forces) for which the direction of action of the load cell springs is not designed.
Junction box
The junction box (JB) is used to add together the load cell signals from several
load cells switched in parallel.
SIWAREX U
The SIWAREX U module is used as an electronic evaluation device which
acquires and further evaluates the signal coming from the load cell.
1-8
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System Overview
1.3
Weighing Functions
Weighing electronics for fill level
measurement and
load and force
measurement
SIWAREX U offers the following functions:
S Adjustment of the scales (theoretical adjustment also)
S Measured value filtering
S Weight determination
S Setting to zero
S Limit value monitoring (min./max.)
PS 307
2A
SIWAREX U
SIEMENS
WEIGHING MODULE
SF
24V
ST1
ST2
SM 322
8 DO, DC24V
SM 321
16 DI, DC24V
Filling
SIMATIC
S7-300
SIMATIC
ET 200M
X 2
1 3
6ES7307-1BA00-0AA0
6ES7153-1AA02-0XB0
Mixer
X 2
1 3
X 2
1 3
7MH4601-1BA01
X 2
1 3
6ES7322-1BF01-0AA0
X 2
1 3
6ES7321-1BH00-0AA0
LC
LC
PROFIBUS
JB
Junction box
Figure 1-8
SIWAREX U fill level scales
Fill level scales are used to acquire the fill levels of hoppers, tanks or other
containers. The SIWAREX U offers weighing functions such as gross weight
calculation, setting to zero and limit value monitoring. These basic weighing
functions can also be used to implement other types of scales such as:
– Monitoring trolley loads
– Load measurement of conveyor belts
– Overload protection of industrial elevators or milling lines and so on
Many other types of scales can also be implemented when standard components from the SIMATIC family are used.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
1-9
System Overview
Scales for potentially explosive
areas, zones 1
and 2
Connection of load cells located in potentially explosive areas requires an
Ex-i-Interface (type SIWAREX IS) which is placed between the
SIWAREX weighing module and the load cell (special model for potentially
explosive areas) or the junction box (JB).
The intermediate box contains an Ex-i interface and must be mounted outside
the potentially explosive area.
Process I/O in the
Ex area
Appropriate SIMATIC modules are available for digital or analog inputs/outputs in the potentially explosive area.
Ex modules are used in the automation of chemical plants and are suitable for
applications in measuring, and open-loop and closed-loop control technology.
The primary task of the Ex modules is to separate the intrinsically safe electrical circuits of the potentially explosive area and the non-intrinsically safe, internal electrical circuits of the programmable controller.
Remote displays in
the Ex area
Remote displays with an analog interface can be used, for example, as remote
displays for the Ex area. These remote displays are connected to the intrinsically safe analog output of the SIMATIC. Another choice is to use pressure
encapsulated remote displays.
Controlling and
monitoring in the
Ex area
Special intrinsically safe operator panels are available from various manufacturers for use in the potentially explosive areas of zones 1 and 2. These operator
panels can be connected to the SIMATIC S7 via the MPI interface of the
S7 CPU or via an additive communications module (CP), for example.
Pressure encapsulated operator panels (SIMATIC HMI) can also be used
instead of intrinsically safe devices.
1-10
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System Overview
ExI ExI
IB= Intermediate box (Ex-i interface), JB= Junction box, LC= Load cell
Figure 1-9
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Scales for potentially explosive area
1-11
System Overview
1-12
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hardware Description and Commissioning
2
This section contains all information required for commissioning. Subjects
include mounting, connection, assignment of parameters, and a description of
the interfaces and indicator elements.
General safety notes
!
Adherence to these safety notes is mandatory. Non-compliance will invalidate your warranty.
Warning
Persons who are not qualified should not be allowed to handle this equipment/system. Non-compliance with warnings appearing on the equipment
itself or on the system cabinet can result in severe personal injury or substantial property damage. Only qualified personnel should be allowed to work
on this equipment/system.
Note
This product has been developed, manufactured, tested and documented in
accordance with relevant safety standards. Under normal conditions, this
product will not be a source of danger to property or life.
!
Danger
Commissioning is prohibited until it has been determined that the machine in
which these components are to be installed meets the requirements of the
89/392/EC guidelines.
SIWAREX U Equipment Manual
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2-1
Hardware Description and Commissioning
!
Warning
The following rules must be complied with to ensure that the requirements
contained in EU guidelines 89/336/EC are complied with.
S The setup guidelines and safety notes in the applicable manuals and supplementary documentation must be adhered to for both the automation
system and the SIWAREX U.
S All signal lines to the SIWAREX U must be shielded and applied to a
grounded shield retainer rail (see section 2).
2-2
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hardware Description and Commissioning
2.1
Installing the SIWAREX U
Preparations
Before beginning actual, physical installation, relevant safety precautions
must be taken and the following points adhered to or clarified.
S Was the module still in its original packaging ?
S Check the shipment for transportation damages.
S Check the shipment for completeness.
In case of damage or other discrepancies, contact your SIEMENS representative.
Slot
The S7 interface of the SIWAREX U corresponds to the serial I/O bus
(P bus) of the SIMATIC S7-300.
All slots of the SIMATIC S7/M7 which can be used by function modules
(FM) can also be used for the SIWAREX U.
For additional information, see the SIMATIC S7/M7-300 manual.
The maximum number of SIWAREX U modules which can be installed in
the SIMATIC depends on the following factors:
S Maximum number of modules in the central/expansion rack (CR/ER) or
modular ET 200M I/O device.
S Memory requirements on the S5-/S7-/C7-/M7-CPU
S Current consumption (5 V) from the S7 backplane bus
SIWAREX U Equipment Manual
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2-3
Hardware Description and Commissioning
Table 2-1
Technical data of the SIMATIC
Number of plug-in modules in the CR/ER
power feed-in (5 V) on the S7 backplane bus
Type of setup
Central setup
CPU
Working storage of the
CPU in Kbytes
Distributed setup
1-line
2-line
Max. of
4-line
CR
IM 365
1 • IM 360
3 • IM 361
CPU 312 IFM
6
8 MOD
CPU 313
12
800 mA
CPU 314
24
8 MOD
8 + 8 MOD
1 • 8 MOD
CPU 314 IFM
32
1200 mA
Total of
1100 mA
1 • 850 mA
CPU 315
48
CPU 315-2 DP
64
CPU 316
128
CPU 318-2 DP
512,
Plus
3 • 800 mA
Exception:
Of this, max. of
256 for code
256 for data
CPU 41X-X DP
Depends on the CPU
used
-
Interface:
IM 153-1 or
IM 153-2
Multiple-line setup not possi- 7 MOD per IM
ble
1000 mA
3 • 8 MOD
CPU 31X-2 DP
ET 200M
-
C7-6XX DP
S5-1X5U with
IM 308C
Exceptions:
M off 8 MOD per
Max.
IM
For
- CPU 318-2 CP
- CPU 417-4 DP
- CP 443
443-5
5E
Ext.
t
- IM 467
Max. of 1 MOD per
IM
For
SIMATIC S5-95U/
S5 95U/
DP master
For CPU 314
IFM, total of The number of slave
up to 31 mo- stations (ET 200M) per
dules
CPU depends on the
CPU used.
d
Example:
CPU 315-2 DP with
max. of 32 slave stations (ET 200M) per
CPU
MOD = SIWAREX U modules, CR = central rack, ER = expansion rack
Table 2-2
Requirements on the SIWAREX U side
For use of
Power requirements (5 V) from
S7 backplane bus
Requirements on CPU working storage
m • SIWAREX U
m • 100 mA
Approx. m • 100 bytes
m = Number of SIWAREX U modules
2-4
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hardware Description and Commissioning
2.2
Mounting the Module on the Rail
Note
It is imperative to adhere to EMC guidelines when installing the cables (also
those outside the cabinets).
Do not place cables next to energy-technology cables, and shield the cables
as described.
In most cases, two-sided shield application is recommended. However, if
interference is primarily low-frequency, one-sided shield application may be
more effective.
Adhere to the grounding concept of the SIMATIC S7-300 to avoid problems
with the potential.
The setup guidelines of the SIMATIC S7 (see manual of the S7-300 programmable controller under setup and CPU data) must be adhered to for all
mounting steps, and the following instructions must be performed in the order shown below.
Mounting steps
1. Switch off all voltages on the SIMATIC S7, ensure that it cannot be switched back on again, and mark accordingly.
2. Make or check protective conductor connection. (See setup guidelines)
3. Mount shield connecting element.
– The shield connecting element must be mounted on the rail directly
under the slot in which the SIWAREX U is installed.
– Each cable to be connected to the SIWAREX U requires a shield terminal on the shield rail of the shield connecting element (see section
2.3 on connection and wiring).
4. Insert bus connector. (See setup guidelines)
– A bus connector is supplied with each SIWAREX U. The bus connector must be inserted first on the module installed in the slot to the left
of the SIWAREX U.
5. Hang SIWAREX U. (See setup guidelines)
6. Screw down SIWAREX U. (See setup guidelines)
7. Label SIWAREX U. (See setup guidelines)
SIWAREX U Equipment Manual
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2-5
Hardware Description and Commissioning
Shield connecting
element
Figure 2-1
2-6
Shield connecting element
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hardware Description and Commissioning
2.3
Connection and Wiring
Rules for wiring
Since the rules for wiring listed in the table below apply to SIMATIC S7-300
modules, they must also be used for the wiring of front connector on the
SIWAREX U.
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ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
Table 2-3
Rules for wiring
Rule for
Flexible Line
Flexible Line with Core End Sleeves
Max. line cross section
0.25 to 1.5 mm2
0.25 to 1.5 mm2
Number per connection
1
Max. of 2 (in one end sleeve)
Stripping length
6 mm
6 mm
Core end sleeves
-
Without insulation collar (short)
DIN 46228
Turning moment
60-80 Ncm
60-80 Ncm
Non-flexible lines may not be used.
Shield terminals
Select the shield terminal size appropriate to the cable diameter.
Securing a cable with the shield terminal requires that approximately 1.5 cm
of the cable insulation be cut away at the appropriate location so that the
shield is bared. The shield must be cut away starting at the shield terminal
(i.e., the cables are not shielded between the shield terminal and the 20-way,
multi-point connector strip).
2
Shield terminal
Shield rail
(fixed)
1
Figure 2-2
!
Mounting the shield terminals
Caution
Make sure that you do not damage the shield braiding when stripping the
cable.
When applying shields to all cables connected to the SIWAREX U, make
sure that there is enough cable between the shield connecting element and
the SIWAREX U so that the SIWAREX U can be removed with all its cables
still connected.
SIWAREX U Equipment Manual
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2-7
Hardware Description and Commissioning
The following figure shows all available indication and connection elements
on the front of the SIWAREX U.
1 L+
SF
DC24V
2M
3 RxD1
24V
ST1
4 GND1
ST2
5 TxD1
6 TxD2+
7 TxD2-
Power supply
RS232
X1
RS 232 interface
TTY
Indication and
connection elements
TTY interface
8 SENSE2+
9 SENSE210 SIG2+
11 SIG2-
Load cell connection 2
(for two-channel
SIWAREX U only)
12 EXC2+
13 EXC215 SENSE1+
16 SENSE117 SIG1+
18 SIG1-
Load cell connection 1
19 EXC1+
20 EXC1-
Figure 2-3
Indication
elements
Labelling
2-8
Table 2-4
Connection elements on the front of the SIWAREX U
Indication elements on the front of the SIWAREX U
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Label
LED Color
Position
Explanation
SF
Red
LED 1
System fault
24 V
Green
LED 2
Power supply
ST1
Yellow
LED 3
Status 1
ST2
Yellow
LED 4
Status 2
You can label the individual connections of the front plug connector with a
label strip which is included in delivery. This provides customized identification.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hardware Description and Commissioning
Power supply
The SIWAREX U module requires a 24 V power supply.
Its maximum current consumption is 220 mA.
The cables are connected to front connector X1 on screw contacts 1 and 2.
(see figure 2-3).
Note
In addition to the 24 V supply via the front connector, the SIWAREX U is
powered with 5 V via the backplane bus of the SIMATIC S7. The 5 V current is fed in by the S7 CPU or the IM module.
Front connector
The front connector is equipped with 20 screw contacts for wiring the following connections.
S Power supply
S Load cells
S Serial interfaces (TTY and RS 232C)
The required cable cross sections can be found in this section.
Disconnect the front connector from the module to make connection work
easier.
SIWAREX U Equipment Manual
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2-9
Hardware Description and Commissioning
2.3.1
Load Cell Connection
Load cells which
can be connected
In principle, all measured value sensors (i.e., load sensors) can be connected
to the SIWAREX U provided they meet the following requirements:
S Characteristic value up to 4 mV/V
S Supply voltage 10.3 V
S Measuring procedure based on the Wheatstone bridge
Table 2-5
Allocation of the load cell connection
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Screw
Terminal
2-10
Load Cell
Signal
Meaning
8
UF +
SENSE2 +
Sensor line +
(channel 2)
9
UF -
SENSE2 -
Sensor line -
(channel 2)
10
UM +
SIG2 +
Meas. voltage +
(channel 2)
11
UM -
SIG2 -
Meas. voltage -
(channel 2)
12
US +
EXC2 +
Supply voltage +
(channel 2)
13
US -
EXC2 -
Supply voltage -
(channel 2)
14
-
-
Reserved
(Do not use.)
15
UF +
SENSE1 +
Sensor line +
(channel 1)
16
UF -
SENSE1 -
Sensor line -
(channel 1)
17
UM +
SIG1 +
Meas. voltage +
(channel 1)
18
UM -
SIG1 -
Meas. voltage -
(channel 1)
19
US +
EXC1 +
Supply voltage +
(channel 1)
20
US -
EXC1 -
Supply voltage -
(channel 1)
SIWAREX U Equipment Manual
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Hardware Description and Commissioning
Load cell
connection for
normal areas
(standard)
Load cells must be connected in accordance with the following rules:
1. A junction box must be used under the following conditions:
– More than one load cell is connected. (Remember that the load cells
must then be switched in parallel.)
– The distance between load cell and SIWAREX U is greater than the
longest available length of load cell connection cable.
2. Under normal conditions, the shield is applied to the cable leadin supports
of the junction box. When there is a danger of equipotential bonding currents from the cable shield, an equipotential bonding conductor must be
installed parallel to the load cell cable, or the shield terminal in the junction box must be used to apply the shield. An equipotential bonding conductor should be used for EMC (Electro-Magnetic Compatibility) purposes.
3. Twisted core pairs should be used for the lines specified below.
– (+) and (-) sensor line
– (+) and (-) measuring voltage line
– (+) and (-) supply voltage line
4. The shield on the SIWAREX U must be applied to the shield holder element.
Load cell connection for potentially
explosive areas
The “SIWAREX IS” Ex-i interface is required when load cells are to be operated in potentially explosive areas.
Load cell connection, 6-wire technique with junction
box
SIWAREX U
SHIELD
EXC-
X1
20
SENSE-
16
SIG-
18
EXC+
19
SENSE+
15
SIG+
17
PAL
Figure 2-4
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Connection of load cells using the 6-wire technique
(example: connection to channel 1)
2-11
Hardware Description and Commissioning
Load cell connection, 4-wire technique with junction
box
SIWAREX U
SHIELD
EXC-
X1
20
SENSE-
16
SIG-
18
EXC+
19
SENSE+
15
SIG+
17
PAL
Figure 2-5
Connection of load cells using the 4-wire technique
(example: connection to channel 2)
When the 4-wire technique is used to connect the load cells, the signals
(SUPPLY+) and (SENSE+), as well as (SUPPLY-) and (SENSE-) must be
jumpered in the junction box.
The 6-wire technique must always be used for the connection of the junction
box to the SIWAREX U to compensate for temperature and line influences.
Load cell connection, 4-wire technique without junction box
When the 4-wire technique is used to connect the load cells directly to the
SIWAREX U the following must be jumpered in the front connector of the
SIWAREX U.
S Screw contacts 15 with 19, and 16 with 20 or
S Screw contacts 8 with 12, and 9 with 13
Parallel circuiting
of the load cells in
the junction box
The cable of each load cell is led through the cable leadin supports (PG
screw-type connection). The cable shield must be applied to the PG screwtype connection.
The individual cores of the load cell cable are circuited in parallel to the respective soldering tags (i.e., SUPPLY, SENSE and SIGNAL).
– Solder all feeder voltage lines (+) of the load cells and the weighing
electronics to soldering tag “SUPPLY +”.
– Solder all feeder voltage lines (-) of the load cells and the weighing
electronics to soldering tag “SUPPLY -”.
– Use the same procedure on all remaining lines.
Soldering tags A and B are reserve connection elements (e.g., for installation
of precision resistors for the cut-off load calibration). A cut-off load calibration is usually only performed for scales on which cut-off loads occur
(e.g., vehicle scales).
2-12
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hardware Description and Commissioning
2.3.2
RS 232C Interface
Description
The RS 232C interface uses the RxD and TxD signals.
The interface is non-floating.
The screw contacts of the 20-way multi-point connector strip are used for the
connection. A SIWAREX protocol driver is available on the RS 232C interface.
Components
which can be
connected
The following components can be connected to the RS 232C interface.
S PC (for commissioning/parameterization)
S HOST (link to a control system)
SIWAREX U
3
4
5
Host
e.g. PC
< 15 m (e.g., LIYCY 2 x 2 x 0.2 mm
2
)
Sub D,
9–way socket
Connection
Figure 2-6
Assignment
3
5
2
Connection of a PC to the RS 232 interface
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ÁÁÁÁÁÁ
ÁÁÁÁÁ
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ÁÁÁÁÁÁ
Table 2-6
Assignment of the RS 232C interface for SIWAREX U
SIWAREX U
Screw
Terminals
Pin Assignment of 9-Way
PC
Interface
Pin Assignment of
25-Way PC
Interface
Signal
Name
Explanation
3
3
2
RxD1
Receiving data
4
5
7
GND1
Operating
ground
5
2
3
TxD1
Sending data
SIWAREX U Equipment Manual
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2-13
Hardware Description and Commissioning
Interface converter
When the RS 232C interface is to be available for connection during parameterization and diagnostic, this can be done with an interface converter (e.g.,
from Weidmüller). The interface converter converts the screw terminals to
sub D plug connectors (9-way socket).
When an interface converter from screw terminal to 9-way sub D socket is
used, the socket should be allocated as shown below so that the same PC
plug-in cables (order no. 7MH4 702-8C...) can be used as for the
SIWAREX M weighing and proportioning module.
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ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
Table 2-7
2-14
Assignment of the interface converter
Screw Terminals
Assignment to Sub D
Socket
Explanation
3
2
Receiving data, SIWAREX U
4
5
Operating ground, SIWAREX U
5
3
Sending data, SIWAREX U
SIWAREX U Equipment Manual
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Hardware Description and Commissioning
2.3.3
TTY Interface
Description
The TTY interface uses the TxD signal and must be operated in passive mode
(floating).
The screw contacts of the 20-way multi-point connector strip are used for the
connection.
Up to four digital remote displays can be connected to the TTY interface.
The following values can be indicated on the remote display:
S Weight, measuring channel 1
S Weight, measuring channel 2 (for two-channel SIWAREX U only)
S Specification value 1
(can be assigned as desired via SIMATIC, PC or host)
S Specification value 2
(can be assigned as desired via SIMATIC, PC or host)
TxD2+
(Pin 6)
< 1000 m
(e.g.: LIYCY 2x2x0.5mm2)
TxD2(Pin 7)
RXD-
Display 1
RXD+
(passive)
RXD-
SIWAREX U
(passive)
RXD+
Display 2
20mA/R
(active)
M/R
Connection
Figure 2-7
Assignment
Connection of digital remote displays
ÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
Table 2-8
Assignment
Connection
Meaning of the TTY Interface
PIN
Signal
6
TxD2 +
Sending data + of the SIWAREX U
7
TxD2 -
Sending data - of the SIWAREX U
SIWAREX U Equipment Manual
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2-15
Hardware Description and Commissioning
2.4
Preparing the SIWAREX U for Operation
Introduction
After the module has been mounted and all connections have been set up, a
partial function test of the SIWAREX U and all connected components must
be performed at this stage of the commissioning procedure.
Perform the individual steps of the partial test in the order specified below.
Visual inspection
Check to determine whether you have performed all steps up to now correctly.
S Is the exterior of the module undamaged ?
S Is the module installed in the correct slot ?
S Have all mounting screws been tightened correctly ?
S Have all connection cables been connected correctly and secured ?
S Has the front plug connector been plugged in correctly ?
S Have all shields been applied to the shield holder element ?
S Have you removed all tools, materials and parts not belonging to the S7
or the SIWAREX U from the mounting rail and the modules ?
Applying 24 V to
the SIWAREX U
Turn on the power supply.
Note
The SIWAREX U must be powered over the S7 backplane bus. When the
SIWAREX U is used without the SIMATIC S7/M7, an IM 153-1 interface
must be used so that the SIWAREX U is supplied with 5 V over the backplane bus.
2-16
SIWAREX U Equipment Manual
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Hardware Description and Commissioning
LED test on
the SIWAREX U
After the power is turned on, the SIWAREX U switches to operation mode.
If operating correctly, the LEDs below will indicate the following states:
LED (24 V) ON status
LED (SF)
OFF status
If the LEDs do not indicate the correct states, proceed as described in
section 12.
SF
1 L+
24V
Figure 2-8
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Location of the LEDs to be tested
2-17
Hardware Description and Commissioning
2.5
Assigning Parameters
Introduction
Depending on your system configuration, there are various ways to assign
parameters and commission the SIWAREX U.
Use the overview below to select the best method of parameter assignment
and commissioning for your special system configuration.
Overview of possible parameter assignments and
commissioning
IM 153-1
or IM 153-2
S7-300 backplane bus
IM 308-C
SIWAREX U
S7–300
CPU
S5
PG interface
RS 485
RS 232
TTY
Commissioning
Parameterization
Commissioning
Parameterization
Commissioning
Parameterization
Commissioning
SFC
I/O
STEP 7
PG
Figure 2-9
2-18
Parameterization
PROFIBUS-DP
MPI bus
I/O
Parameteriz.
telegram
Host
SIWATOOL
STEP 5
PC/PG
for para.
assign.
PG
Methods of parameter assignment for various system configurations
SIWAREX U Equipment Manual
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Hardware Description and Commissioning
Link to the
SIMATIC S7
Via SFC call (DR communication)
The data records are transferred by SFC calls.
Via I/O area
The data records are transferred over the I/O area.
Link to the
SIMATIC M7
Via M7 record call (DR communication)
The data records are transferred via M7LoadRecord or M7StoreRecord calls.
Via I/O area
The data records are tranferred via M7Load_ or M7Store_.
Link to the
SIMATIC S5
Via I/O area
Link to the
SIMATIC PCS 7
Edit I/O bar of the SIWAREX block in the CFC chart, and then transfer the
modified data to the SIWAREX U.
Link to a PC
with SIWATOOL
Via PC/PG with SIWATOOL
The data records are transferred over the I/O area.
Install SIWATOOL on the PC/PG.
SIWATOOL uses pull-down menus and runs under WINDOWS.
Note
See section 11 for a description of SIWATOOL and how to use it.
Link to the host
Via data telegram
Data telegrams are used to perform parameter assignment and commissioning.
SIWAREX U Equipment Manual
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2-19
Hardware Description and Commissioning
2-20
SIWAREX U Equipment Manual
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Function Description
Introduction
3
The SIWAREX U can be integrated in SIMATIC S7-300 and M7-300
automation systems and can also be used as modular periphery in the
ET 200M. The SIWAREX U can also communicate with other host systems
via the serial interface.
The SIWAREX U handles execution of the weighing functions of a fill level
scale within a complete weighing system.
The SIWAREX U can also be used in potentially explosive areas.
Overview
SIWAREX U offers functions, which are listed below:
S Measured value filtering
S Weight calculation
S Setting to zero
S Adjustment of the scales
S Limit value monitoring (min./max.)
This section contains a function description of the SIWAREX U weighing
module.
SIWAREX U Equipment Manual
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3-1
Function Description
3.1
A/D Conversion (Measured Value Acquisition)
Description
The analog/digital converter supplies a raw measuring value of 16 bits. This
corresponds to a resolution of 65,535 parts. The A/D converter is operated in
uni-polar mode, but low negative voltages (-4% full scale = total weighing
range) can also be acquired.
The raw measuring value (converter value) is determined every 20 msec
(every 100 msec for SIWAREX U up to release status 4) and is represented as
uni-polar (i.e., without sign).
Calibration
Since the SIWAREX U has been precalibrated at the factory, the module can
be exchanged without having to adjust the scales again. A test weight can be
used to adjust the SIWAREX U, or a theoretical adjustment can be performed
using the characteristic value and nominal load of the load cell.
Adjustment weights are not required for the theoretical adjustment.
3-2
SIWAREX U Equipment Manual
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Function Description
3.2
Digital Filtering
Description
An adjustable digital filter compensates for interference caused by vibration
and load fluctuations, for example. This filter is particularly recommended if
you are using worm drives, vibrating troughs and mixers.
The digital filter has the following features:
S Critical damped filter to the 4th power
S Settable filter frequencies: 0.05 to 5 Hz (factory setting = 2 Hz)
S A floating mean value filter (MVF) can be switched in front of the digital
filter.
Illegal filter settings are rejected, and the old value is retained. The filtered,
raw, measured value can be viewed in the service data area.
Mean
value
filter
Unfiltered
raw value
Digital filter
Filtered
raw value
Mean value of 32
measured values
Filtering principle
Figure 3-1
Table 3-1
Filtering principle of the SIWAREX U
A/D conversion
Data Record, Channel 1 (Channel 2)
Function
S5
DR
No.
Filter setting
65
Format
Comments
S7
DR
No.
3 (4)
From
DR
Byte
2
DR
Bit
5-8
Length
(Byte)
10
WORD
Bit 8=0: MVF Inactive (*)
Bit 8=1: MVF Active
Bit 7-5=000: DF = off
Bit 7-5=001: DF = 5 Hz
Bit 7-5=010: DF = 2 Hz ((*))
Bit 7-5=011: DF = 1 Hz
Bit 7-5=100: DF = 0.5 Hz
Bit 7-5=101: DF = 0.2 Hz
Bit 7-5=110: DF = 0.1 Hz
Bit 7-5=111: DF = 0.05 Hz
Filtered raw value
(*)
73
31
(32)
4
-
10
INT
Unit = digit
g
Factory setting of SIWAREX U
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3-3
Function Description
3.3
Weight Calculation and Adjustment
Weight calculation
Weight calculation is used to convert raw measured values into standardized,
gross weight values. The required standardization or adjustment factor is
determined during adjustment.
The weight values are represented in integer format, providing a number
range from -32,768 to 32,767 for the representation of weight values.
Characteristic value
The characteristic value entry specifies the measuring range set for the
A/D converter. Possible entries are 1, 2 and 4 (i.e., three measuring ranges).
The next greater characteristic value must be specified for the values which
are between 1, 2 or 4. In individual cases, it is also possible to specify a
smaller characteristic value when the load cell(s) is (are) not utilized up to
their nominal load.
Decimal place
All input and output values related to weight refer to the same decimal place.
This makes the internal calculations independent of the decimal place. The
decimal place can be specified between XXXXX and .XXXXX. The decimal place is only relevant for indications.
Adjustment
Adjustment is performed in 2 steps.
During the first step, the filtered raw value is stored (via “set as zero” command) for the scales zero point in adjustment digit 0.
During the second step, the filtered raw value is stored (via “adjust” command) for the adjustment weight in adjustment digit 1, and the adjustment
factor is calculated.
Adjustment digits 0 and 1 are indicated when adjustment has been completed.
Note
When certain commands (i.e., “set as zero”, “adjust” or “factory setting”)
are called directly after each other, a waiting period of 5 seconds must be
maintained between calls. Otherwise the commands will be rejected by the
SIWAREX U.
A timeout prevents the maximum permissible number of write cycles for an
EEPROM from being exceeded by an accidental cyclic call of these commands (see section 3.6).
When an attempt is made to call one of these three commands again within
these 5 seconds, the command is rejected and the 5-second waiting period is
retriggered again.
3-4
SIWAREX U Equipment Manual
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Function Description
The minimum adjustment weight must be at least 5 % of the measuring range
set. This is checked by the SIWAREX U during the adjustment procedure
( 3,000 digits).
The scales are also adjusted by transferring plausible adjustment digits JD0
and JD1 (JD1 w JD 0 + 3,000 digits).
Weight
Adjustment diagonal
Adjustment
weight
Dead load
Adjusted
scales zero
point
2,427
Figure 3-2
Readjustment
Adjustment
digit 0
Adjustment
digit 1
Digits
Full scale
65,535
Adjustment procedure
When the scales have already been adjusted, readjustment can be performed
with the “set as zero” and/or “adjust” command.
Note
The analog/digital converter supplies a raw measuring value of 16 bits. This
corresponds to a resolution of 65,535 parts. The A/D converter is operated
in uni-polar mode, but low negative voltages (-4 % full scale = total weighing range) can also be acquired.
SIWAREX U Equipment Manual
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3-5
Function Description
Theoretical
adjustment
In special situations (e.g., no adjustment weights are available, etc.), a theoretical adjustment can be performed although this reduces accuracy depending on the characteristic value tolerances of the load cells. The theoretical
adjustment is possible because the modules have already been pre-calibrated
at the factory. Use of the theoretical adjustment requires that the physical
setup of the scales be correct (e.g., free of force bypasses, cut-off loads, etc.).
There are 2 ways to perform theoretical adjustment.
1. Calculation of the adjustment digits based on the nominal data of the load
cells
2. Calculation of the adjustment digits based on the measuring logs of the
load cells
Transmission of the JD0 adjustment digits for the zero point of the scales
and the JD1 adjustment digits for the nominal load of the load cells on the
SIWAREX U then replaces adjustment with adjustment weights.
You can calculate the adjustment digits yourself. Or you can enter the load
cell parameters in SIWATOOL and have the calculation done by the program.
Calculation of the adjustment digits also calculates the characteristic curve of
the scales. To conclude theoretical adjustment, the empty scales must be set
to zero. This determines the dead weight and deducts it from the present
weight value.
Calculation of the adjustment digits based on the nominal data of the
load cells
1. Set characteristic value range of the SIWAREX U (i.e., 1, 2 or 4 mV/V).
2. Specify the sum of the load cell nominal loads as the adjustment weight.
3. Enter the value 2,427 digits in “JD0 adjustment digits ”.
4. Calculate JD1:
JD1 +
Char. value_WZ 60, 680 digits
)2, 427 digits; enter and send
Char. val. range of SIWAREX U
5. Unload the scales, and activate the “set to zero” command.
Remember to use the “set to zero” command and not the “zero point
valid” adjustment command.
An even more precise theoretical adjustment can be achieved if the exact
data (offset and characteristic value) of the load cells used is known (see
measuring log of the load cells).
3-6
SIWAREX U Equipment Manual
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Function Description
Calculation of the adjustment digits based on the test records of the load
cells
1. The load cells have a nominal characteristic value of 2 mV/V. Therefore,
the characteristic value range of the SIWAREX U must be set to 0 to
2 mV/V.
2. Specify the sum of the load cell nominal loads as the adjustment weight.
3. Calculate JD0:
JD0 +
Offset_WZ 60, 680 digits
)2, 427 digits
Char. val. range of SIWAREX U
4. Calculate JD1:
JD1 +
Char. value_WZ 60, 680 digits
) JD0; enter and send
Char. val. range of SIWAREX U
5. Unload the scales and activate the “set to zero” command
(“set to zero” not “zero point valid”!)
SIWAREX U Equipment Manual
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3-7
Function Description
Example
Since there are no adjustment weights for 20-ton, pig iron scales, a theoretical adjustment is to be performed. The following technical information can
be taken from the measuring logs for the 3 load cells used.
Characteristic Value
Offset
Load cell 1
2.0511 mV/V
+17.23 mV/V
Load cell 2
1.9998 mV/V
-12.47 mV/V
Load cell 3
2.0245 mV/V
-9.01 mV/V
Calculated mean values
2.0251 mV/V
-1.42 mV/V
Calculation of the adjustment digits:
Measured value
update counter
Measured value
update bit
JD0 +
* 1.42ĂmVńV 60, 680Ădigits
)2, 427Ădigits + 2, 384Ădigits
2ĂmVńV
JD1 +
2.0251ĂmVńV 60, 680Ădigits
)2, 384Ădigits + 63, 826Ădigits
2ĂmVńV
Starting with release status 5, the measured value update counter and measured value update bit functions are available with SIWAREX U modules.
These two functions can be used to determine via the SIMATIC user program
when the SIWAREX U updates its weighing and status values. The functions
are only required for special applications (e.g., when an exact time base is
required for calculation of material flow).
Measured value update bit
The measured value update bit is inverted on the SIWAREX U module each
time the module updates its weighing value. Evaluation of the measured
value update bit makes it mandatory that DR31/DR32 (with SFC communication) or the I/O area (with I/O communication) be read out at least every
10 msec.
Measured value update counter
The measured value update counter is incremented on the SIWAREX U module each time the module updates its weighing value.
When the counter reaches 255, it is reset to 0 during the next measuring
cycle.
The measured value update counter is only available for SFC communication.
Example:
Ten increments of the measured value update counter (e.g., from 240 to 250
or from 250 to 4) represent ten 20-msec measuring cycles of the
SIWAREX U (i.e., a time period of 200 msec).
3-8
SIWAREX U Equipment Manual
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Function Description
Commands and Messages
Table 3-2
Commands and messages for adjustment
Data Record, Channel 1 (Channel 2)
Function
S5
Format
Comments
S7
DR
No.
DR
No.
From
DR
Byte
DR
Bit
Length
(Byte)
Decimal point
65
3 (4)
2
2-4
10
WORD
Bit 4-2=000: xxxxx (*)
Bit 4-2=001: xxxx.x
Bit 4-2=010: xxx.xx
Bit 4-2=011: xx.xxx
Bit 4-2=100: x.xxxx
Bit 4-2=101: .xxxxx
Characteristic value range
65
3 (4)
2
0-1
10
WORD
Bit 1-0=00: < 1 mV/V
Bit 1-0=01: < 2 mV/V (*)
Bit 1-0=10: < 4 mV/V
Bit 1-0=11: Reserved
Adjustment digit 0
60
3 (4)
4
10
WORD
0 (*)
Adjustment digit 1
61
3 (4)
6
10
WORD
0 (*)
Adjustment weight
62
3 (4)
8
10
INT
Set as zero
57
11 (12)
0
2
WORD
Selection code (dec.) = 1
Adjust
57
11 (12)
0
2
WORD
Selection code (dec.) = 2
Measured value update bit
I1.5
31
(32)
2
10
BYTE
Starting with release status 5
-
31
(32)
3
10
BYTE
Starting with release status 5
Synchronous error
Pertains to
- decimal point, for example.
Measured value update
counter
5
10000 (*)
Illegal code
76
I1.1
(**)
31
(32)
8
3
10
WORD
Scales adjusted
I1.4
31
(32)
2
4
10
BYTE
Adjustment weight too
small
76
I1.1
(**)
31
(32)
8
0
10
WORD
Synchronous error
Wait time of 5 seconds
not adhered to
76
I1.1
(**)
31
(32)
8
6
10
WORD
Synchronous error
Job could not be executed
due to a malfunction.
76
I1.1
(**)
31
(32)
8
1
10
WORD
Synchronous error
The adjustment weight is
negative.
76
I1.1
(**)
31
(32)
8
7
10
WORD
Synchronous error
I/O area: Relative address
(*) Factory setting of SIWAREX U
(**) Group error bit for synchronous errors over input area
SIWAREX U Equipment Manual
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3-9
Function Description
3.4
Setting to Zero
Setting to zero
Soiled scales can cause a shift in the zero point of the scales.
The move zero point command sets the scales zero point of the gross weight
again. This zero point is then used for all subsequent weighing procedures
until the “setting to zero” command is triggered again.
During execution of the setting to zero command, the current digit value is
stored in memory where it is available to the interfaces. When calculating
the weight, the zero setting value is calculated from the difference to the adjusted zero point.
The SIWAREX U can be set to zero over the entire measuring range.
Note
A parameterization bit can be selected to specify whether the new zero setting value (calculated when the setting to zero command was triggered) is
only to be stored in the RAM or in both the RAM and the EEPROM. When
the setting to zero command is used frequently, the zero setting value should
only be stored in the RAM since the maximum number of write cycles of an
EEPROM is limited to 100,000 write cycles. See also maximum number of
write cycles of an EEPROM in section 3.6.
When a new zero setting value is specified by a data record transfer (e.g.,
transfer of data records DR3/DR4/DR64 from the SIMATIC to the SIWAREX U), the zero setting value is always stored in the EEPROM.
Table 3-3
Setting to zero
Function
Data Record, Channel 1 (Channel 2)
S5
Comments
S7
DR
No.
DR
No.
From
DR
Byte
Weight value
74
IB2,3
31
(32)
0
Setting to zero
57
11 (12)
Zero setting value
64
3 (4)
Command cannot be executed since scales are not
adjusted.
76
I1.1
(**)
31
(32)
8
Waiting time of 5 sec not
adhered to
76
I1.1
(**)
31
(32)
Job could not be executed
due to malfunction.
76
I1.1
(**)
31
(32)
3-10
Format
DR
Bit
Length
(Byte)
10
WORD
0
2
WORD
Selection code (dec.) = 3
0
10
WORD
0 (*)
5
10
WORD
Synchronous error
8
6
10
WORD
Synchronous error
8
1
10
WORD
Synchronous error
SIWAREX U Equipment Manual
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Function Description
Table 3-3
Setting to zero
Function
Data Record, Channel 1 (Channel 2)
S5
Comments
S7
DR
No.
DR
No.
From
DR
Byte
DR
Bit
Length
(Byte)
65
3 (4)
2
9
10
WORD
Storage in
Bit 9=0: EEPROM (*)
Bit 9=1: RAM
76
I1.1
(**)
31
(32)
8
3
10
WORD
Synchronous error
Storage of the limit values
and the zero setting value
Illegal code
Format
I/O area: Relative address
(*) Factory setting of SIWAREX U
(**) Group error bit for synchronous errors over input area
SIWAREX U Equipment Manual
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3-11
Function Description
3.5
Limit Values
Description of
limit values
The SIWAREX U has two parameterizable limit values whose switch-on and
switch-off points can be specified as desired in units of weight. The entries
refer to the gross weight. Any minimum and maximum functions can be parameterized. The status of the limit values is available as status information.
Separate specification of the switch-on and switch-off point makes it possible
to specify whether the limit value is to be used as minimum or maximum
limit value and how large the hysteresis is to be. A parameterized hysteresis
prevents the limit value output from switching on and off continuously when
the weight value is hovering around the parameterized limit value, for example.
Specifying switch-on value > switch-off value provides a maximum limit
value. Specifying switch-off value > switch-on value provides a minimum
limit value.
Note
A parameterization bit can be used to select whether the limit values are
only to be stored in the RAM or in both the RAM and the EEPROM. When
the limit values are changed frequently, the limit values should only be stored in the RAM since the maximum number of write cycles of an EEPROM
is limited to 100,000 write cycles. See also maximum number of write cycles of an EEPROM in section 3.6.
Example
Output
Output
ON
ON
OFF
OFF
Gross
Parameterized as max. limit value
Figure 3-3
!
3-12
Gross
Parameterized as min. limit value
Example of assigning parameters
Warning
The limiting values may not be used for safety-related functions.
SIWAREX U Equipment Manual
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Function Description
Special case
Specification of switchon value = cutoff value represents a special case.
The table below provides information on this special case.
Table 3-4
Limit values - special cases
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁ
Limit value 1 operates as max. function without hysteresis.
Active if gross
> Switchon/cutoff point 1
Inactive if gross
≤ Switchon/cutoff point 1
Limit value 2 operates as min. function without hysteresis.
Active if gross
< Switchon/cutoff point 2
Inactive if gross
≥ Switchon/cutoff point 2
Messages and Data
Table 3-5
Limit values
Function
Data Record, Channel 1 (Channel 2)
S5
Format
Comments
S7
DR
No.
DR
No.
From
DR
Byte
DR
Bit
Length
(Byte)
Switch-on point for limit value 1
66
21
(22)
0
8
INT
10000 (*)
Switch-off point for limit
value 1
67
21
(22)
2
8
INT
9990 (*)
Switch-on point for limit value 2
68
21
(22)
4
8
INT
1000 (*)
Switch-off point for limit
value 2
69
21
(22)
6
8
INT
1010 (*)
Storage of the limit values
and the zero setting value
65
3 (4)
2
9
10
WORD
Storage in:
Bit=0: EEPROM (*)
Bit=1: RAM
Limit value 1 has been triggered
I1.2
31
(32)
2
2
10
WORD
Bit=0: LV inactive
Bit=1: LV active
Limit value 2 has been triggered.
I1.3
31
(32)
2
3
10
WORD
Bit=0: LV inactive
Bit=1: LV active
I/O area: Relative address
(*) Factory setting of SIWAREX U
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
3-13
Function Description
3.6
Operational Reliability
Booting
To increase operational reliability, the following test procedures are automatically performed during each boot procedure.
S Initialization of the micro-controller
S Initialization of the I/O blocks (e.g., UART, A/D converter, etc.)
S Initialization of the RAM (e.g., pointers, etc.)
S EPROM test
S RAM test
S EEPROM test
S Load parameterization and adjustment data from EEPROM
S Check load cell input for wire break
Wire break
monitoring
The signal and sense lines are monitored for wire break. When several load
cells are circuited in parallel, the failure of one load cell is not detected (i.e.,
wire break monitoring only up to the junction box). A wire break in the signal lines is detected when the control limit of the A/D converter is exceeded. A wire break in the sense lines is reported when a drop below a minimum voltage occurs. A wire break in the supply lines is detected indirectly
over the sense lines.
The test is performed by the self-test during the booting phase, and then
cyclically during operation.
3-14
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Function Description
Table 3-6
Messages for the test routines
Function
Data Record, Channel 1 (Channel 2)
S5
Format
Comments
S7
DR
No.
DR
No.
From
DR
Byte
DR
Bit
Length
(Byte)
Control limit of AD converter dropped below or exceeded
75
I1.0
(**)
31
(32)
6
0
10
WORD
Asynchronous error
Minimum voltage on sense
line dropped below
75
I1.0
(**)
31
(32)
6
1
10
WORD
Asynchronous error
Watchdog error
75
I1.0
(**)
31
(32)
6
2
10
WORD
Asynchronous error
EPROM error
75
I1.0
(**)
31
(32)
6
3
10
WORD
Asynchronous error
EEPROM error
75
I1.0
(**)
31
(32)
6
4
10
WORD
Asynchronous error
RAM error
75
I1.0
(**)
31
(32)
6
5
10
WORD
Asynchronous error
AD converter error during
read-in
75
I1.0
(**)
31
(32)
6
6
10
WORD
Asynchronous error
Number overflow for gross
weight
75
I1.0
(**)
31
(32)
6
7
10
WORD
Asynchronous error
Ext. supply voltage (24 V)
missing
75
I1.0
(**)
31
(32)
7
0
10
WORD
Asynchronous error
I/O area: Relative address
(*) Factory setting of SIWAREX U
(**) Group error bit for synchronous errors over input area
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
3-15
Function Description
Data backup during power failure
The parameters are stored on an EEPROM, safe from loss due to a power
failure.
Caution
!
Since the permissible number of write cycles on the EEPROM is 100,000
cycles, a write-access is only performed when the data to be written differs
from the data already stored on the EEPROM. The parameter data (i.e., setting data, limit values, etc.) are stored on the EEPROM. See section 4 for a
list of data records which are stored in the EEPROM.
When the limit values are changed continuously or the move zero point
command is used frequently, the limit values and the zero setting value
should only be stored in the RAM.
Since the number of write cycles on an EEPROM is limited, cyclic write-accesses to the EEPROM by the user program should be avoided.
Table 3-7
Storage of the limit values and zero setting value
Function
Data Record, Channel 1 (Channel 2)
S5
Storage of the limit values
and the zero setting value
Format
Comments
S7
DR
No.
DR
No.
From
DR
Byte
DR
Bit
Length
(Byte)
65
3 (4)
2
9
10
WORD
Storage in:
Bit=0: EEPROM (*)
Bit=1: RAM
(*) Factory setting of SIWAREX U
3-16
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Function Description
3.7
Special Functions
Load default
values
When a data loss occurs or errors are made during parameterization, the factory setting status of the SIWAREX U can be restored with the “factory setting” command.
The SIWAREX U changes to the “not adjusted” operating mode and accepts
the factory setting as described in section 9. The basic SIMATIC parameters
(DR0/DR1) are not affected by this.
!
Caution
When the two-channel model of the SIWAREX U is used, the “factory setting” command takes effect on both channels.
Note
When certain commands (i.e., “set as zero”, “adjust” or “factory setting”)
are called directly after each other, a waiting period of 5 seconds must be
maintained between calls. Otherwise the commands will be rejected by the
SIWAREX U.
A timeout prevents the maximum permissible number of write cycles for an
EEPROM from being exceeded by an accidental cyclic call of these commands (see section 3.6).
When an attempt is made to call one of these three commands again within
these 5 seconds, the command is rejected and the 5-second waiting period
retriggered again.
Allocation of the
status LEDs
The status LEDs can be allocated as desired to an internal status bit, permitting the two most important status messages to be indicated for a particular
application.
Table 3-8
Allocation of the status LEDs
Code
Status
Channel
100
Channel error
Channel 1
101
Limit value 1
Channel 1
102
Limit value 2
Channel 1
103
Scales adjusted
Channel 1
200
Channel error
Channel 2
201
Limit value1
Channel 2
202
Limit value 2
Channel 2
203
Scales adjusted
Channel 2
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
3-17
Function Description
Channel on/off
The measuring channel (measuring channels for two-channel SIWAREX U
models) can be switched on and off. If, for example, only one measuring
channel of a two-channel SIWAREX U is used at first, the second unused
channel should be switched off to prevent it from continuously generating an
error message indicating that the scales are not connected.
OD/BASP function
The OD (i.e., Output Disable) or BASP (i.e., command output disable) are
not evaluated by the SIWAREX U since the SIWAREX U is not equipped
with I/O devices. In the S5, S7 and M7 system, the OD/BASP signal (i.e.,
CPU operating state Stop) stops interrupts from being output.
100 msec measuring cycle (only for
service purposes)
The “100 msec measuring cycle” command sets the measuring cycle from
20 msec to 100 msec for SIWAREX U modules starting with release status 5.
The command is used exclusively for service purposes and affects both channels on a two-channel module. Since the setting is only stored in the RAM,
the command must be repeated each time the power is turned off/on.The
SIWAREX U can also be reset to 20-msec mode by the “load factory settings” command.
Table 3-9
Messages for the special functions
Function
Data Record, Channel 1 (Channel 2)
S5
Load factory setting
Format
Comments
S7
DR
No.
DR
No.
From
DR
Byte
57
11 (12)
0
DR
Bit
Length
(Byte)
2
WORD
Selection code (dec.) = 5
100 msec measuring cycle
(only for service purposes)
57
11 (12)
0
2
WORD
Selection code (dec.) = 100
(only for SIWAREX U starting with release
status 5)
Allocation, LED 1
63
5
3
6
BYTE
Selection code 101 (*)
Allocation, LED 2
63
5
4
6
BYTE
Selection code 102 (*)
Channel in operation
65
3 (4)
2
10
10
WORD
0 = channel on (*)
1 = channel off
A nonexistent or inactive
channel was addressed.
76
I1.1
(**)
31
(32)
8
2
10
WORD
Synchronous error
Illegal code
76
I1.1
(**)
31
(32)
8
3
10
WORD
Synchronous error
I/O area: Relative address
(*) Factory setting of SIWAREX U
(**) Group error bit for synchronous errors over input area
3-18
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Overview of System Integration
4
This section describes the available links to various host systems.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
4-1
Overview of System Integration
4.1
System Integration
Description
There are several ways to link the SIWAREX U with a higher order host system.
The P bus interface (i.e., the internal I/O bus of the SIMATIC S7) on the back
of the housing can be used to integrate the SIWAREX U as a function module
directly in the SIMATIC S7-300 or SIMATIC M7-300. The SIWAREX U
can also be decentrally connected to the SIMATIC S5, SIMATIC S7 or
SIMATIC M7 with the modular ET 200M I/O device (slave interface
IM 153–1 or IM 153–2).
The RS 232C serial interface permits connection to other host systems (e.g.,
a host computer).
!
Caution
No priorities or modification rights are assigned to the individual interfaces
with respect to the use of various interfaces. This means that all commands
assigned to the interfaces can be issued without restriction to all interfaces at
all times. It is up to the user to ensure realistic utilization.
Configurator
SIWAREX U
S7/M7
IM 308-C
S5
S7
C7
PCS 7
IM 153-1/2
P bus
PROFIBUS-DP
RS 232C
Host
Figure 4-1
4-2
Possible links to a host system
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Overview of System Integration
!
Caution
Since only 100,000 write cycles are guaranteed for the EEPROM, write-accesses are only performed when the data to be written differ from the data in
the EEPROM. Parameter data (i.e., settings, limit values, etc.) are stored on
the EEPROM.
Since the number of write cycles is limited with an EEPROM, cyclic writeaccesses to the EEPROM by the user program should be avoided.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
4-3
Overview of System Integration
Overview of
data records
Table 4-1
The following table gives you an overview of data records which are provided by the SIWAREX U and are required for communication with a host system.
Overview of the data records
DR No.
Function
Length
B t
Bytes
Interfaces2)
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
Hex. Dec.
S7 data
records
d
Channell1)
S5/S7
d t
data
records
((once p
per
channel)
SFC/DR
I/O
RS 232
EEPROM
0/1
0/1
Diagnostic data
-
4/16
O
-
-
No
0/1
0/1
Basic parameters
-
4/16
I
I
-
No
3
3
Adjustment data and
scales parameters
1
10
I/O
-
I/O
Yes
4
4
Adjustment data and
scales parameters
2
10
I/O
-
I/O
Yes
5
5
General parameters
-
6
I/O
-
I/O
Yes
6
6
Specified value,
remote display
-
4
I/O
-
I/O
No
B
11
Commands
1
2
I
-
I
No
C
12
Commands
2
2
I
-
I
No
15
21
Limit values
1
8
I/O
-
I/O
3)
16
22
Limit values
2
8
I/O
-
I/O
3)
1F
31
Measured values/status/
error
1
10
O
-
I
No
20
32
Measured values/status/
error
2
10
O
-
I
No
28
40
Version/checksum
-
8
O
-
I
No
39
57
Commands
X
2
-
I
-
No
3A
58
Module number
-
2
-
I/O
-
Yes
3B
59
Interface parameters
-
2
-
I/O
-
Yes
3C
60
Adjustment digit 0
X
2
-
I/O
-
Yes
3D
61
Adjustment digit 1
X
2
-
I/O
-
Yes
3E
62
Adjustment weight
X
2
-
I/O
-
Yes
3F
63
LED allocation
-
2
-
I/O
-
Yes
40
64
Zero setting value
X
2
-
I/O
-
Yes
41
62
Char. value of LC/filter/
setting data
X
2
-
I/O
-
Yes
1) Explanation:
1: Only channel 1
2: Only channel 2
X: Both channels
-: Not dependent on channel
2) I: Input (from external source to SIWAREX U)
O: Output (from SIWAREX U to external source)
3) Dependent on parameterization bit
4-4
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Overview of System Integration
Table 4-1
Overview of the data records
DR No.
Function
Hex. Dec.
Length
Bytes
Interfaces2)
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
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S5/S7
d t
data
records
((once p
per
channel)
Communication
telegrams
Channel1)
SFC/DR
I/O
RS 232
EEPROM
42
66
Limit value 1 on
X
2
-
I/O
-
3)
43
67
Limit value 1 off
X
2
-
I/O
-
3)
44
68
Limit value 2 on
X
2
-
I/O
-
3)
45
69
Limit value 2 off
X
2
-
I/O
-
3)
46
70
Specification value1 for
TTY
-
2
-
I/O
-
No
47
71
Specification value2 for
TTY
-
2
-
I/O
-
No
48
72
Remote display type
-
2
-
I/O
-
Yes
49
73
Current digit value
X
2
-
O
-
No
4A
74
Gross
X
2
-
O
-
No
4B
75
Asynchronous errors
X
2
-
O
-
No
4C
76
Synchronous errors
X
2
-
O
-
No
4D
77
Version
-
2
-
O
-
No
4E
78
Checksum
-
2
-
O
-
No
4F
79
Reserved
-
2
-
O
-
No
64
100
Fetch telegram
-
1
-
-
I
No
65
101
Acknowledgment
telegram
-
3
-
-
O
No
1) Explanation:
1: Only channel 1
2: Only channel 2
X: Both channels
-: Not dependent on channel
2) I: Input (from external source to SIWAREX U)
O: Output (from SIWAREX U to external source)
3) Dependent on parameterization bit
!
Caution
When channel independent data records are transfered to the module and a
two-channel module is used, the data can be transferred for the first or second channel. When different values are transferred for both channels simultaneously, the value for channel 2 overwrites the value for channel 1.
SIWAREX U Equipment Manual
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4-5
Overview of System Integration
4-6
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5
SIMATIC S7
Note
A knowledge of the SIMATIC S7 is required for comprehension of the steps
described in this section.
Introduction
The SIWAREX U is linked as an intelligent function module to the
SIMATIC S7-300 system. The interface to the S7 CPU is the backplane I/O
bus (P-bus). Since communication between the CPU and the SIWAREX U is
handled by either the system functions (SFCs) of the S7 CPU or via the I/O
area, no special function block is required for this communication.
Communication will be discussed using a sample STEP 7 program. The
RD_REC (SFC 59) and WR_REC (SFC 58) system functions are used in the
sample program.
SETUP
The S7 SETUP program must be executed so that the SIWAREX U module is
listed in the STEP 7 module catalog. In addition to linking the SIWAREX U
in STEP 7, sample STEP 7 programs and SIWATOOL are installed.
DR0 and DR1 basic
parameters
Basic parameters DR0 and DR1 can be modified in HW-CONFIG (STEP 7).
During rack configuration, the parameterization window of the basic parameters (DR0 and DR1) can be accessed with a double-click after the
SIWAREX U modules have been entered (either one or two-channel SIWAREX U models possible). Modified data are stored in an SDB and thus transferred from the CPU to the module each time a startup occurs.
The following can be selected for the basic parameters in the parameter assignment window.
S SFC communication (data record communication)
Or
S I/O communication
In addition, the process interrupts and/or diagnostic alarms can be enabled or
disabled.
SIWAREX U Equipment Manual
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5-1
SIMATIC S7
The section only describes SFC communication. I/O communication is described in Chapter 6.8. (Connection to SIMATIC S5) and can also be used in
SIMATIC S7.
User-related data
records
User-related parameters (i.e., parameters for the scales) are kept in data records (DR3 to DR6, 21 and 22, 57 to 79) by the SIWAREX U. They can be
transferred in both directions (i.e., read/write).
The transfer can be triggered in the following ways:
a) By the user program (communication via SFCs or I/O)
b) By the user, using SIWATOOL
Parameterization
configuration
MPI
DR0/DR1
S7-CPU
SIW. U
Programmer (PG)
RS 232C
DR3-DR22
Figure 5-1
Active backplane
bus
Parameterization configuration
Connecting and disconnecting the SIWAREX U under power can only be
performed in connection with an active backplane bus of the S7-300.
The active backplane bus is based on a special version of the modular
ET 200M I/O device which is connected to a SIMATIC S7-400 via
PROFIBUS-DP.
Process interrupt
5-2
When limit values 1 and 2 are exceeded, a process interrupt can be triggered based on the entry in parameter data record 0.
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SIMATIC S7
Diagnostic alarm
(asynchronous
errors)
If enabled in parameter data record 0, external or internal asynchronous errors are reported with a diagnostic alarm.
Handling and data
errors
(synchronous
errors)
Handling or data errors which may occur when data or commands are being
transferred are made available to the user in a data record. See section 5.1.
An interrupt is not triggered.
Sample programs
for SIMATIC S7
The sample programs are installed in STEP 7 via the S7 setup and located
under “Projects”.
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5-3
SIMATIC S7
5.1
Diagnostic Capabilities in the SIMATIC S7 Program
Synchronous
errors
Synchronous errors are reported in data records DR31 (for weighing
channel 1) and DR32 (for weighing channel 2 of a two-channel module).
Proceed as follows.
1. Transfer a data record to the SIWAREX U or trigger a command.
2. Read DR31 or DR32 to determine whether an error has occurred when the
data were transferred or the command was triggered. Any error information remains entered in DR31 or DR32 until new data are transferred or a
command is triggered.
Asynchronous
errors
If a diagnostic alarm is enabled (see parameter data record 0), asynchronous
errors are reported with diagnostic alarms to the S7 CPU. The diagnostic
messages can be evaluated via local data of OB82 or via diagnostic data records 0 and 1.
Proceed as follows.
1. When a diagnostic alarm is triggered, the diagnostic alarm OB (OB82) is
called. If the S7 CPU does not have this OB, the CPU assumes STOP
status.
2. When the diagnostic alarm is to be evaluated, a program for evaluating
the local data of OB82 or diagnostic data records DR0 and DR1 must be
implemented in OB82. See section 10 for the layout of data records DR0
and DR1.
For additional details on evaluating DR0 and DR1, see the reference manual of the SIMATIC S7-300/400.
Alternate methods:
Asynchronous errors can also be determined by reading data records D31/32
(e.g., when the diagnostic alarm is disabled). Remember, however, that
short-term errors may not be acquired when the duration of the error is short
in comparison to the cycle in which the data records are read out.
!
5-4
Warning
In the event of errors and faults, suitable measures must be implemented to
make the system safe.
SIWAREX U Equipment Manual
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SIMATIC S7
Module status
(STEP 7)
The module status of the SIWAREX U can be indicated via STEP 7.
Asynchronous errors
Asynchronous errors are reported to the SIMATIC CPU as diagnostic alarms
which can be indicated with STEP 7. See figure on diagnostic alarm register.
Diagnostic buffer on the SIWAREX U
Starting with release status 5, SIWAREX U modules have their own diagnostic buffer. Synchronous and asynchronous error messages are entered in this
diagnostic buffer and, if necessary, can be indicated via the module information in STEP 7. See figure on diagnostic buffer register. The last 9 entries
are listed chronologically. Since the SIWAREX U does not have a clock,
time information is relative to the time the SIWAREX U module was turned
on.
No entries are made for the date.
To be able to indicate the diagnostic buffer of the SIWAREX U in STEP 7,
you will need a SIWAREX U configuration package
(order no. 7MH4 683-3AA6* and at least version 5 of STEP 7).
Figure 5-2
SIWAREX U Equipment Manual
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Module status in STEP 7
5-5
SIMATIC S7
5.2
Evaluation of the Process Interrupts
Process interrupts
When process interrupts are enabled (see parameter data record 0), exceeded
limit values are reported to the S7 CPU with process interrupts. These process interrupt messages can be evaluated via the local data of OB40.
Procedure:
1. When a process interrupt is triggered, the process interrupt OB (i.e.,
OB40) is called. If this OB is not loaded in the S7 CPU, the CPU
assumes the “STOP” operating state.
2. When a process interrupt is to be evaluated, a program for evaluating the
local data of OB40 must be provided in OB40.
For additional information on evaluation of the local data of OB40, see
the reference manual of the SIMATIC S7-300/400.
Example of evaluating the local data of OB40:
OB40_MDL_ADDR:
Reports the logical base address of the module
which triggered the interrupt
OB40_POINT_ADDR:
Corresponds to local data double word 8
The meanings of the individual bits of local data
byte 8 are listed below.
Bit
Bit
Bit
Bit
Bit
Bit
Bit
Bit
0:
1:
2:
3:
4:
5:
6:
7:
Channel
Channel
Channel
Channel
Channel
Channel
Channel
Channel
1,
1,
1,
1,
2,
2,
2,
2,
limit
limit
limit
limit
limit
limit
limit
limit
value
value
value
value
value
value
value
value
1,
1,
2,
2,
1,
1,
2,
2,
arriving
departing
arriving
departing
arriving
departing
arriving
departing
Alternate method:
Another method (e.g., when process interrupts are disabled) is to determine
exceeded limit values by reading one of the following.
S Data records DR31/32 (for data record communication)
S The status in the input area of the CPU (for I/O communication)
Remember, however, that briefly exceeded limit values may sometimes not
be acquired if the duration of the message is short in comparison to the read
cycle of the data records.
5-6
SIWAREX U Equipment Manual
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SIMATIC S7
5.3
Writing a Data Record with SFC58 “WR_REC”
Description
With SFC58 “WR_REC” (write record), you transfer the data record contained in RECORD to the addressed module.
You start the write job by assigning the value 1 to the input parameter REQ
when SFC58 is called. If the write job could be executed immediately, the
SFC returns the value 0 at the output parameter BUSY. If BUSY has the value 1, writing is not yet completed.
Parameters
Table 5-1
Parameters for SFC 58 “WR_REC”
Parameter
Declaration
Data
Type
Memory Area
Description
REQ
INPUT
BOOL
I, Q, M, D, L, const.
REQ = 1: Request to write
IOID
INPUT
BYTE
I, Q, M, D, L, const.
For SIWAREX U: Always B#16#54
LADDR
INPUT
WORD
I, Q, M, D, L, const.
Logical address of the module
RECNUM
INPUT
BYTE
I, Q, M, D, L, const.
Data record number (permissible values: 3 to 22)
For description of the data records,
see section 9.
RECORD
INPUT
ANY
I, Q, M, D, L
Data record. Only data type BYTE is permitted.
RET_VAL
OUTPUT
INT
I, Q, M, D, L
If an error occurs while the function is being processed, the return value contains an error code.
BUSY
OUTPUT
BOOL
I, Q, M, D, L
BUSY = 1: The write-access has not been concluded yet.
Input parameter
RECORD
The data to be transferred are read from the RECORD parameter when the
SFC is first called. If transmission of the data record takes longer than one
call, the contents of the RECORD parameter are no longer relevant the next
time the SFC is called for the same job.
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5-7
SIMATIC S7
Error information
If an error occurs while the function is being processed, the return value contains an error code. See table 5-3.
Note
(Only for S7-400)
If general error W#16#8544 occurs, this only means that access to at least
one byte of the I/O memory area containing the data record was denied.
Data transmission was continued.
Input parameter
RECNUM
5-8
Specification of the number of the data record to be written.
For a detailed description of the data records, see section 10.
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SIMATIC S7
5.4
Read Data Record with SFC 59 “RD_REC”
Description
SFC 59 “RD_REC” (read record) is used to read the data record with the
number RECNUM from the addressed SIWAREX U module. The read procedure is started by assigning 1 to the REQ input parameter when SFC 59 is
called. If the read-access was able to be executed immediately, the SFC returns the value 0 in the BUSY output parameter. If BUSY contains the value
1, the read-access has not been concluded yet. After correct data transmission, the data record which was read is entered in the target area specified by
RECORD.
Parameters
Table 5-2
Parameter
Parameters for SFC 59 “RD_REC”
Declaration
Data Type
Memory Area
Description
REQ
INPUT
BOOL
I, Q, M, D, L, const.
REQ = 1: Request to read
IOID
INPUT
BYTE
I, Q, M, D, L, const.
For SIWAREX U: Always B#16#54
LADDR
INPUT
WORD
I, Q, M, D, L, const.
Logical address of the module
RECNUM
INPUT
BYTE
I, Q, M, D, L, const.
Data record number
(permissible values: 3 to 40)
For description of the data records,
see section 10.
RET_VAL
OUTPUT
INT
I, Q, M, D, L
If an error occurs while the function is being
processed, the return value contains an error
code.
BUSY
OUTPUT
BOOL
I, Q, M, D, L
BUSY = 1:
The read-access has not been concluded yet.
RECORD
OUTPUT
Input parameter
RECNUM
ANY
I, Q, M, D, L
Target area for the data record which was
read
Specification of the number of the data record to be written
For a detailed description of the data records, see section 10.
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5-9
SIMATIC S7
Output parameter
RET_VAL
If an error occurred while the function was being processed, the return value
contains an error code. See table 5-3.
Note
(Only for S7-400)
If general error W#16#8745 occurs, this only means that access to at least
one byte was not possible during the write-access to the process image. The
data record was read correctly by the module and written to the I/O memory
area.
RECORD
The length information contained in the RECORD output parameter is interpreted as follows.
Length of the data to be read from the selected data record (i.e., the length
information contained in RECORD may not be greater than the actual length
of the data record).
We recommend selecting the length of the actual data record as the length of
RECORD.
Error information
A distinction is made between two types of errors in the “real” error information (error codes W#16#8xyz) in table 5-3.
Temporary errors (error codes W#16#80A2 to 80A4, and 80Cx)
⇒ Repeat the procedure (call SFC again).
Example of a temporary error:
Required resources are temporarily busy (W#16#80C3).
Permanent errors (error codes W#16#809x, 80A0, 80A1, and 80Bx)
This type of error will not correct itself (i.e., its correction requires action by
you). There is no point in calling the SFC again until you have corrected the
error.
Example of a permanent error:
Wrong length specified in RECORD (W#16#80B1)
Table 5-3
Specific error information for SFC 58 “WR_REC” and SFC 59 “RD_REC”
Error Code
(W#16#...)
Explanation
Restrictions
7000
First call with REQ = 0: No data transmission active. BUSY has
value 0.
-
7001
First call with REQ = 1: Data transmission triggered. BUSY has
value 1.
Distributed I/O
7002
Interim call (REQ irrelevant): Data transmission already active.
BUSY has value 1.
Distributed I/O
8090
Specified logical base address invalid: No assignment exists in
SDB1/SDB2x or there is no base address.
-
5-10
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SIMATIC S7
Table 5-3
Specific error information for SFC 58 “WR_REC” and SFC 59 “RD_REC”
Error Code
(W#16#...)
Explanation
Restrictions
8092
ANY reference contains a type other than BYTE.
Only with S7-400
8093
The module selected via LADDR and IOID is not permitted for
this SFC. Permitted are S7-300 modules for S7-300, S7-400
modules for S7-400, and S7-DP modules for S7-300 and
S7-400.
-
80A0
Negative acknowledgment while reading from the module (i.e.,
module removed during the read-access or module defective).
Only for SFC 59 “RD_REC”
80A1
Negative acknowledgment while writing to the module (i.e.,
module removed during the write-access or module defective).
Only for SFC 58 “WR_REC”
80A2
DP protocol error in layer 2, possibly hardware fault.
Distributed I/O
80A3
DP protocol error for user interface/user, possibly hardware fault.
Distributed I/O
80B0
SFC for module type not possible
Module does not recognize the data record.
Data record number ≥ 241 not permitted.
Data records 0 and 1 are not permitted for SFC 58 “WR_REC.”
This error can also occur when the SIWAREX U is addressed via
SFCs although I/O communication is set as the type of communication.
-
80B1
Wrong length in RECORD parameter
For SFC 58 “WR_REC”:
Wrong length
For SFC 59 “RD_REC”:
Specification > DR length
80B2
The configured slot is not being used.
-
80B3
Actual module type is not the module type in SDB1.
-
80C0
The module has the data record, but there are still no data to be
read
-
80C1
The data of the previous write job on the module for the same
data record have not yet been processed by the module.
-
80C2
The module is currently processing the maximum possible
amount of jobs for a CPU.
-
80C3
Required resources (e.g., memory, and so on) are currently busy.
-
80C4
Communication error:
-
Parity error
SW-Ready not set
Error in block length calculation
Checksum error on CPU side
Checksum error on module side
80C5
Distributed I/O not available
Distributed I/O
80C6
Transmission of data record was terminated due to priority class
termination (restart or background).
Distributed I/O
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5-11
SIMATIC S7
Note
For additional information on error codes which are not listed here, see the
documentation of the SIMATIC S7.
5-12
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SIMATIC S7
5.5
Sample Program
Example of writing
a data record
The specified values are stored in data block DB50 starting at address 30
(4 bytes). These values should be transferred to the SIWAREX U.
CALL SFC 58
REQ
:=TRUE
// Request to write
IOID
:=B#16#54
// 54 means I/O module
LADDR
:=W#16#100
// Module address 256
RECNUM
:=B#16#6
// Data record number 6 (specified values)
RECORD
:=P#DB50.DBX 30.0 BYTE 4
RET_VAL
:=MW200
// Return value (error code)
BUSY
:=M210.0
// BUSY status
Note on RECORD:
Example of reading a data record
Data from data block DB50
Starting at address 30.0
Data record length: 4 bytes
If the data record length is specified
incorrectly, this is reported with an
appropriate error code.
The measured value, status and so on (data record 31) is to be read from the
SIWAREX U and stored in data block DB50 starting at address 0.0 (total of
10 bytes).
CALL SFC 59
REQ
:=TRUE
// Request to read
IOID
:=B#16#54
// 54 means I/O module
LADDR
:=W#16#100
// Module address 256
RECNUM
:=B#16#1F
// Data record number 31 (measured values, etc.)
RET_VAL
:=MW200
// Return value (error code)
BUSY
:=M210.0
// BUSY status
RECORD
:=P#DB50.DBX 0.0 BYTE 10
Note on RECORD:
Data in data block DB50
Starting at address 0.0
Data record length: 10 bytes
If the data record length is specified
incorrectly, this is reported with an
appropriate error code.
For the S7 400 CPUs and data set lengths of 2 or 4 bytes, the data source
must be absolutely defined as 2 or 4 bytes because the S7 program editor
otherwise calculates a direct address from the ANY pointer.
Example:
DB10.DBW10 is defined as a word in DB 10 and you write
RECORD=:P#DB10.DBX10.0 Byte 2. The S7 program editor converts this
to DB 10.DBW18, which is not accepted by a S7-400 CPU. Error 0x8092 is
output in the “RET_VAL” of the SFC.
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5-13
SIMATIC S7
5-14
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6
SIMATIC S5
Note
A knowledge of the SIMATIC S5 and COM ET200 Windows or
COM PROFIBUS is required for comprehension of the steps described in
this section.
Link to the SIMATIC S5
The SIWAREX U module can be linked as distributed I/O to the
SIMATIC S5 using PROFIBUS-DP.
The modular ET 200M I/O device (IM 153-1 or IM 153-2 interface) is
required to link the SIWAREX U modules to PROFIBUS-DP. The
SIMATIC S5 is coupled to PROFIBUS-DP with the IM 308-C interface. A
SIMATIC S5-95U/DP master with integrated PROFIBUS-DP interface can
also be used instead.
6.1
Hardware Prerequisites
IM 308-C
Release status 4 or later
When the diagnostics are used:
S IM 308-C, starting with release status 6
(firmware status starting with V3.0)
S FB 192 starting with library number ...-A3 (i.e., release status 3)
Note
An FB 192 with release status 3 can only be used with an IM 308-C starting
with release status 6.
When release status 2 of the FB 192 is used, all versions of the IM 308-C
can be used starting with release status 3.
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6-1
SIMATIC S5
Note
Loading the firmware to the IM 308-C is described in section 3.5 of the manual on the ET 200 (release 3). V 3.0 firmware can only be executed on an
IM 308-C starting with release status 6.
S5-95U/DP master
Release status 2 or later
The maximum transmission speed is 9600 Kbaud to 1.5 Mbaud, depending
on the cable length.
Transmission
speeds
The transmission speed is limited for the IM 308-C with release status 3
(firmware status 2.0). The speed depends on the capacity of the CPU. The
table below shows the maximum speeds. The values shown in the table are
calculated values.
Table 6-1
Maximum transmission speeds
CPU
IM 308-C with Release
Status 3
IM 308-C with Release
Status 4 or Later
CPU 941, 942
19.2 Kbaud
12 Mbaud
CPU 943
93.75 Kbaud
12 Mbaud
CPU 944
1.5 Mbaud
12 Mbaud
CPU 945
12 Mbaud
12 Mbaud
CPU 922
187.5 Kbaud
12 Mbaud
CPU 928
500 Kbaud
12 Mbaud
CPU 946/947
3 Mbaud
12 Mbaud
CPU 948
12 Mbaud
12 Mbaud
SIMATIC S5-95U (starting with release status 2): 1.5 Mbaud
IM 153-1
An IM 153-1 (MLFB no: 6ES7 153-1AA02-0XB0), Release status 2 or later
is required for the link.
Up to 7 SIWAREX U modules can be connected to one IM 153-1 interface.
Exception:
6-2
Maximum of one SIWAREX U per IM 153-1 with distributed connection to a SIMATIC S5-95U/master DP
Maximum of 8 SIWAREX Us per IM 153-1 with distributed
connection to a SIMATIC S7 (CPU 318-2 DP,
CPU 417-4 DP, CP 443-5 Ext., and IM 467)
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SIMATIC S5
IM 153-2
An IM 153-2 is only required when other modules need it (e.g., FM 353).
Prerequisite for connection is an IM 153-2
(MLFB no. 6ES7 153-2AA01-0XB0) with release status 2 or greater.
A maximum of 7 SIWAREX U modules can be connected to one IM 153-2.
Exception:
6.2
Maximum of one SIWAREX U per IM 153-2 with distributed connection to a SIMATIC S5-95U/master DP
Maximum of 8 SIWAREX Us per IM 153-2 with distributed
connection to a SIMATIC S7 (CPU 318-2 DP,
CPU 417-4 DP, CP 443-5 Ext., and IM 467)
Delivery Form
The SIWAREX U configuration package is delivered on CD-ROM.
For additional information, see the documentation of the configuration package.
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6-3
SIMATIC S5
6.3
Parameterization
SIWAREX U
There are two ways to parameterize the SIWAREX U.
S Parameterization of the SIWAREX U via the PC parameterization software “SIWATOOL”
S Parameterization of the SIWAREX U via the SIMATIC S5 (via data
record transmission or ForceVar)
The DR0 basic parameters are parameterized with COM PROFIBUS.
COM PROFIBUS
The SIWAREX U module is informed of the type of CPU master it is connected to when the programmable controller starts up. PROFIBUS-DP can be
used to connect the SIWAREX U to a SIMATIC S7 or a SIMATIC S5.
The S5-95U/DP master or IM 308-C interface module is parameterized with
the COM PROFIBUS software. With newer COM PROFIBUS versions,
you should be able to find the SIWAREX U module within the ET 200M
(i.e., the IM 153-1 interface) under its order number 7MH4 601-1*A01. See
figure 7-1.
If you are unable to find the SIWAREX U, you must copy the type or GSD
files contained in the SIWAREX configuration package to the appropriate
directory of COM PROFIBUS. Which files must be copied depends on the
version of COM PROFIBUS which you are using.
S COM PROFIBUS (version v 3.2): Copy the type files to directory
“TYPDAT5X”.
S COM PROFIBUS (version w 3.3): Copy the GSD files to the directory
“GSD”.
Figure 6-1
6-4
Selection of SIWAREX U module during configuration of the ET 200M
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SIMATIC S5
Table 6-2
Type and GSD files
Use
File Name
SI801DV*.200
Typ file for IM 153-1
ST801EU*.200
Typ file for IM 153-2
SIM801D.GS*
GSD file for IM 153-1
SIM801E.GS*
GSD file for IM 153-2
SIM8071.GS*
GSD file for IM 153-2 FO
*
Identifies the particular language version
Note
The latest GSD files (only for COM PROFIBUS versions w 3.3) can be
downloaded from the Internet (SIMATIC customer support).
Copy the new GSD files to the “GSD” directory, and execute the menu command “read file > GSD files.”
The disadvantage of using the GSD files included in the SIWAREX configuration package is that you will not have the latest GSD file and may not be
able to find other new modules, for example.
The type files are only required for older COM PROFIBUS versions v 3.2.
In the future, they will be completely replaced by the GSD files.
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SIMATIC S5
6.4
Addressing the SIWAREX U
Module address
(when IM 308-C is
used)
The same start address is used for the input area and the output area. The
SIWAREX U module occupies 16 bytes in the input area and 16 bytes in the
output area. The module address must be a whole-number multiple of 16.
The start address is also required for the configuration via COM PROFIBUS.
Addressing in the process image (i.e., PY0 to PY127) is not permitted.
Table 6-3
Possible addresses
SIWAREX U number1)
Possible SIWAREX U addresses
P:
SIWAREX U number
Possible SIWAREX U addresses
Q:
SIWAREX U number
Possible SIWAREX U addresses
Q:
1
2
3
4
5
6
7
8
128
144
160
176
192
208
224
240
9
10
11
12
13
14
15
16
0
16
32
48
64
80
96
112
17
18
19
20
21
22
23
24
128
144
160
176
192
208
224
240
1) There is no fixed relationship between the SIWAREX U number and the address. Up to 24 SIWAREX U modules
can be connected to each IM 308-C interface.
Module address
when using the
S5-95U/DP
Table 6-4
Input/output bytes 64 to 127 are used for both the local I/O (e.g., analog input/output modules, slots 0 to 7) and the distributed I/O (i.e., DP slaves).
When the local I/O is used (e.g., analog input/output modules), the address
areas must be reserved by the user in the host parameters with
COM PROFIBUS.
Possible addresses
SIWAREX U number
Possible SIWAREX U addresses
6-6
P:
1
2
3
4
5
6
7
8
64
80
96
112
128
144
160
176
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SIMATIC S5
Data consistency
Data consistency must be ensured when accessing the distributed I/O. Data
are called consistent when their contents belong together.
SIMATIC S5-95U/DP master
There are two areas of consistency (i.e., I/O addresses 64 to 127 and 128 to
191). Overlapping of these areas in a DP slave causes data inconsistency and
must thus be avoided.
IM 308-C
Data consistency for the IM 308-C is enabled on by read or write accessing
an enable byte. As long as data consistency is on, the DP slaves are not
poled and the data cannot be changed during the access procedure. Data consistency is disabled again by read or write accessing a disable byte.
Which byte is the enable byte and which is the disable byte depends on the
CPU used. For more information see the manual of the ET 200.
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SIMATIC S5
6.5
Types of Addressing of the IM 308-C
The IM 308-C can be operated in the operating modes “linear addressing”
and “page frame addressing.”
Linear addressing
Linear addressing can be used in the P and Q area of the CPU. Linear addressing has the advantage of not having to first select an appropriate page
frame before SIWAREX U modules can be accessed.
If possible, use linear addressing.
Page frame
addressing
When page frame addressing is used, 16 page frames with page frame numbers n to (n+15) are set up on each IM 308-C. The first page frame number
(i.e., n) is used as the number of the IM 308-C. The number of the IM 308-C
is a multiple of 16. It is entered with COM PROFIBUS under the master
parameters.
Using a maximum configuration, 256 page frames can be set up distributed
over 8 IM 308-C modules.
Before the I/O area is called for a SIWAREX U, the appropriate page frame
must be entered in the address area of the CPU. The number of the desired
channel is written in the page frame selection address (PY 255 for P-page
frame addressing and QB 255 for Q-page frame addressing).
Note
Remember that after the page frame is selected via the page frame selection
address, it is very important to ensure that communication via the I/O area
cannot be interrupted by a time OB or an interrupt OB since this would
change the page frame in the OB which was called.
There are two ways to prevent such a conflict.
1. Calls of time OBs, interrupt OBs and similar are disabled until a page
frame is selected via the page frame selection address. The page frame is
then selected and communication with the SIWAREX U takes place. After communication is concluded, the time and interrupt OBs are enabled
again.
2. If, for example, a time OB is called while the I/O area of the
SIWAREX U is being processed, the page frame selection must be saved
in a flag byte. All page frames can now be selected in the time OB. The
“old” page frame must be reset before the time OB is exited so that the
user program can continue processing under the same page frame number.
If none of these measures are taken, the wrong SIWAREX U module may be
accessed.
For further information, see the appropriate documentation of the IM 308-C.
6-8
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SIMATIC S5
6.6
Types of Addressing of the S5-95U
Only linear addressing can be used for the S5-95U/DP master.
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SIMATIC S5
6.7
Principle of Communication
Basic parameters
DR0 and DR1
The basic parameters DR0 and DR1 are permanently stored in a type or GSD
file (ET 200M) and are transferred to the SIWAREX U each time the SIMATIC S5 CPU starts up.
The following parameters can be assigned via COM PROFIBUS.
S Process interrupts: On/off
S Diagnostic alarms: On/off
Because of an entry in DR0, the SIWAREX U switches the interface to S5
mode. In S5 mode, the SIWAREX U can be addressed via the I/O area.
User-related
parameters
User-related parameters can be modified by transferring data records DR57
to DR79 (byte or word accesses in the I/O area). The type or GSD file of the
SIWAREX U only permits byte accesses.
Any handling or data errors (synchronous errors) are reported to the user, and
the error information is made available.
Data records 3 to 40 cannot be transferred via the I/O area.
Interface to the SIMATIC S5
The SIWAREX U can be decentrally linked to the SIMATIC S5 via the
PROFIBUS interface modules IM 308-C (SIMATIC S5) and IM 153-1 or
IM 153-2 (ET 200M). Data are transferred in 2-byte data records. A special
function block for communication with the SIWAREX U is not required.
The one-channel and the two-channel SIWAREX U modules each occupy
16 bytes in the input area and 16 bytes in the output area.
6-10
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SIMATIC S5
6.8
Allocation of the Input/Output Area
Table 6-5
Weighing
Channel
1
Input/output of the SIWAREX U
S5 Output Area 2)
Byte
0
Read read-identifier (n) for DR (n) and DR (n+1)
Read read-identifier acknowledgment n for
DR (n) and DR (n+1)
1
Write write-identifier m for DR (m)
Status byte
2
Not yet used
Weight (H) (is updated cyclically)
3
Job control
Weight (L) (is updated cyclically)
4
Value input (H) in acc. w. identifier m
Value output (H) in acc. w. identifier n
5
Value input (L) in acc. w. identifier m
Value output (L) in acc. w. identifier n
6
Specified value 1 (H) (is transferred cyclically)
Value output (H) in acc. w. identifier n+1
Specified value 1 (L) (is transferred cyclically)
Value output (L) in acc. w. identifier n+1
Read read-identifier (n) for DR (n) and DR (n+1)
Read read-identifier acknowledgment n for
DR (n) and DR (n+1)
9 1)
Write write-identifier m for DR (m)
Status byte
10 1)
Not yet used
Weight (H) (is updated cyclically)
11 1)
Job control
Weight (L) (is updated cyclically)
12 1)
Value input (H) in acc. w. identifier m
Value output (H) in acc. w. identifier n
13 1)
Value input (L) in acc. w. identifier m
Value output (L) in acc. w. identifier n
14 1)
Specified value 2 (H) (is transferred cyclically)
Value output (H) in acc. w. identifier n+1
15 1)
Specified value 2 (L) (is transferred cyclically)
Value output (L) in acc. w. identifier n+1
7
8
2
1)
1)
2)
S5 Input Area2)
1)
Only used by two-channel SIWAREX U (same meaning as bytes 0 to 7)
Corresponds to the P or Q area of the SIMATIC S5
Example
SIWAREX U starting at address 128 (P area)
Commands to read the status byte:
L
T
Table 6-6
Bit No.
PY 129
MB 200
Job control (output byte 3)
Designation
Bit = 0
Bit = 1
0-5
Reserved
6
Life bit
Can be specified by the user as desired. Is imaged by the SIWAREX U in the status bits.
7
Job bit
Must be checked by the user for equality with job acknowledgment bit. See status.
Must be inverted by the user to trigger a new job (data transfer, command)
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SIMATIC S5
Table 6-7
Bit No.
Status byte (input byte 1)
Designation
Bit = 0
Bit = 1
0
Group error
(asynchr. error)
No int./ext. error exists.
Int./ext. error exists.
1
Synchr. error
No error occurred during last write access.
Error occurred during last write access.
2
Limit value 1
Limit value 1 not active
Limit value 1 active
3
Limit value 2
Limit value 2 not active
Limit value 2 active
4
Scales adjusted
Scales not adjusted
Scales adjusted
5
Measured value update bit
Is inverted each time the SIWAREX U updates its measured value
(starting with release status 5)
6
Life bit
acknowledgment
Is set or cleared based on the life bit
7
Job acknowledgment
bit
Is set or cleared based on the job bit after the job has been executed
6-12
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SIMATIC S5
6.9
Description of Data Transmission
Addresses
The addresses are specified relative to the base address of the SIWAREX U
module. The addresses for weighing channel 1, are given below.
Life bit
The life bit can be used to determine whether the module is still “alive.” The
life bit must be evaluated for this purpose in status (I1.6). When the status of
the life bit in status (I1.6) is equal to that in the job control (Q3.6), the SIWAREX U is still “alive.”
The life bit must then be inverted in job control. The SIWAREX U resets
status to the same status for the life bit.
When this does not happen within a certain period of time, a module or communication failure has occurred. The time starting at which a module is declared as failed can be specified via the user program.
Measured value
update bit
(starting with release status 5)
The measured value update bit is inverted on the SIWAREX U module each
time the weight value is updated. See also section 3.3.
Measured value,
status and
specified value
The weight value (IW2) and the status byte (IB1) are all cyclically updated
by the SIWAREX U every 20 msec (every 100 msec up to release status 4).
The specified value for the remote displays can be specified via QW6. It is
cyclically read by the SIWAREX U and output to the remote displays.
When the life bit determines that the SIWAREX U is “alive,” the measured
value, status and specified value have also been updated.
Note
Since synchronous errors cannot be triggered by the specified value, information provided by QW6 has no effect on the error status (synchronous errors).
Read data records
If other data records are required in the SIMATIC S5 in addition to the measured value and the status, these can be read via the value output area (IW4,
IW6).
Only the data records selected are read in the 4-byte value output area.
Read-identifier n (QB0) is used to determine which data records are to be
read from the SIWAREX U. Data record n and the next data record (n+1) are
read and entered in the value output area.
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SIMATIC S5
The read-identifier acknowledgment (IB0) is now used to check to determine
whether the SIWAREX U has already made the requested data records available in the value output area. Depending on the cycle time of the programmable controller, it may require several CPU cycles before the requested data
records are available.
If read-identifier and read-identifier acknowledgment are equal and the life
bit has determined that the module is “alive,” the requested actual data records are now available in the value output area.
When a command or a data transmission is executed before reading a data
record and the data record to be read is changed by this, the read access may
only be performed when the job bit and the job acknowledgment bit are equal
(i.e., no write job is running).
Example:
The “Adjust” command affects data record DR61 (i.e., adjustment digits).
Writing data
records
When other data records are to be written to the SIWAREX U in addition to
the specified value, this can be implemented via the value input area (QW4).
The data to be written must be entered by the user program in the 2-byte
value input area. Write identifier m (QB1) is used to specify which data
record is to be written to the SIWAREX U.
The job acknowledgment bit (I1.7) in status must now be used to check
whether the SIWAREX U has read the data record. Depending on the cycle
time of the programmable controller, it may require several CPU cycles before the SIWAREX U has accepted the data record.
The job acknowledgment bit (I1.7) in status signals whether a job has been
concluded. When a job has been concluded, status can be used to determine
whether an error occurred while the data record was being transferred or a
command was being triggered.
Data record
description
6-14
For a detailed description of the data records, see section 9.
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SIMATIC S5
Job acknowledgment bit
The job bit is only required for writing data records. Proceed as follows:
S Scan the job acknowledgment bit in status (I1.7) until it is identical to the
job bit (Q3.7) in job control.
S Place desired data record m in the output area of the S5, and invert the job
bit in job control.
S Scan the job acknowledgment bit in status until it is identical to the job
bit in job control.
S When the job bit and the job acknowledgment bit are equal, the job has
been concluded.
When no further data records are to be written, the write identifier
must be set to 0. See note below.
S Error scan: The status byte in the input area must be scanned.
S When a synchronous error has occurred, data record 76 (synchronous
errors) can be requested for detailed information.
Note
To prevent undesired triggering of scales commands (e.g., during a restart of
the CPU), we recommend setting the write identifier to 0 particularly after
writing scales commands, if no further data records are to be written).
Special features
Write data records
A write request is only accepted by the SIWAREX U when the job bit differs
from the job acknowledgment bit. When a job has been accepted, other jobs
are not accepted until the SIWAREX U has made the two job bits equal again
(i.e., the data transfer is concluded).
This mechanism prevents write-accesses from being performed continuously
(i.e., cyclically). It is mandatory that the job bit be inverted when a data record is written again to the SIWAREX U.
Update data records
When data records are read from the SIWAREX U, these records are updated
every 20 msec in accordance with the measuring cycle if the identifier remains the same. Up to release status 4: every 100 msec.
When different data records are requested (e.g., DR66 -> DR68 -> DR70 ->
...), the data records are read from the SIWAREX U as quickly as the processor load permits. This has the advantage of being able to read out the parameterization of the SIWAREX U very quickly.
The parameters themselves are only updated every 20 msec on the
SIWAREX U. Up to release status 4: every 100 msec.
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SIMATIC S5
6.10 Sample Program
Description
Using a decentral link with PROFIBUS-DP, the SIWAREX U module can
also be used with the SIMATIC S5. The connection is provided by the
IM 308-C in the central controller of the SIMATIC S5 and an ET 200M distributed I/O device with the IM 153-1 or IM 153-2 interface module. The
example here describes linking the SIWAREX U module to a user program.
DEMO
The sample program is included with the configuration package.
The table below shows the CPUs which can be used and the address areas
which can be addressed by the FB10.
Table 6-8
Sample program DEMO
CPU Type
P Area
Q Area
CPU 941
PY128 to PY240
Not possible with FB 10
CPU 942
PY128 to PY240
Not possible with FB 10
CPU 943
PY128 to PY240
Not possible with FB 10
CPU 944
PY128 to PY240
Not possible with FB 10
CPU 945
PY128 to PY240
QB0 to QB240
CPU 922
PY128 to PY240
QB0 to QB240
CPU 928
PY128 to PY240
QB0 to QB240
CPU 946/947
PY128 to PY240
QB0 to QB240
CPU 948
PY128 to PY240
QB0 to QB240
The I/O area is always accessed by byte. See also parameter assignment of
the ET 200.
Parameter
assignment of the
IM 308-C
The IM 308-C interface module is parameterized with the COM PROFIBUS
software. With newer COM PROFIBUS versions, you should be able to find
the SIWAREX U module within the ET 200M (IM 153-1 interface) under its
order number 7MH4 601-1*A01.
If you are unable to find the SIWAREX U, copy the type or GSD files contained in the SIWAREX configuration package to the appropriate directory of
COM PROFIBUS. Which files must be copied depends on the particular
version of COM PROFIBUS which you are using.
S COM PROFIBUS (version v 3.2): Copy the type files to the directory
“TYPDAT5X”.
S COM PROFIBUS (version w 3.3): Copy the GSD files to the directory
“GSD”.
The following files are supplied for the sample program.
6-16
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SIMATIC S5
SIW115DP.ET2
S5-115U / CPU 943B / P area
(2 SIWAREX U + 2 digital inputs)
SIW135P.ET2
S5-135U / CPU 928B / P area
(2 SIWAREX U + 2 digital inputs)
SIW135Q.ET2
S5-135U / CPU 928B / Q area
(2 SIWAREX U + 2 digital inputs)
The host parameters must be adjusted accordingly when other S5 CPUs are
used.
A similar screen appears after COM PROFIBUS has been called, “File/Open/
SIW115DP.ET2” has been entered, and the text “Master 1” has been doubleclicked.
Figure 6-2
Parameter
assignment of the
IM 308-C
Parameter assignment with COM PROFIBUS
Using COM PROFIBUS, two SIWAREX U modules have been parameterized with start I/O addresses P128 and P144 for the inputs and outputs. This
occupies the address area P128 to P159. The address area for inputs and outputs must be identical.
In addition, 2 digital input SM321 modules have been parameterized with
start I/O addresses P000 and P002.
Using “File/Export/Memory Card,” the configuration is loaded to the flash
EPROM module of the IM 308-C.
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SIMATIC S5
Note
When the S5-95U/DP is being used, the parameter assignment is loaded to
the 32-Kbyte EEPROM memory module.
Parameter
assignment of the
SIWAREX U
The SIWAREX U must be connected as described in section 2. We recommend using SIWATOOL to perform commissioning (e.g., adjustment, parameterization, and so on). You can start linking the SIWAREX U as soon as
the measured values are indicated correctly by SIWATOOL.
Installation
After an overall reset of the CPU (i.e., operating mode STOP), transfer the
complete example to user memory. With the power off, install the flash
EPROM which was loaded via COM PROFIBUS in the memory slot of the
IM 308-C.
Turn on the power again, and turn the operating mode switch from STOP to
RUN. The interfaces indicate the RUN state (i.e., permanent light). Shortly
afterwards, the CPU also assumes RUN status.
Function of the
sample program
(FB10)
Using FB10, a single data record or all data records can be read or written.
The data which were read are stored in a scales DB. The data which were
written are fetched from there and written to the SIWAREX U.
Call interface
When called, FB10 must be supplied with the following parameters.
Table 6-9
Parameter
6-18
Call interface
Format
Meaning
Value Range
WADB
B
No. of the scales DB
Depends on CPU, permissible DB numbers
WADR
KY
Address area and base
address of the scales
KY 0,128 to KY0,240;
0 = P area
KY1,0 to KY1,240;
1 = Q area
NRCH
KF
Number of channels of the
SIWAREX U
1 or 2
LIFE
KF
Counting value for LIFE
monitoring
1 to 32767 CPU cycles
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SIMATIC S5
Short description
of FB10
SEGMENT 2
In segment 2 the parameters WADR and NRCH are checked for compliance
with permissible limits and, if errors are detected, an error identifier is entered in DW19 of the scales DB. When parameter errors occur, the FB is exited, and communication is not possible.
SEGMENT 3
The 16-byte I/O inputs are read and stored in the I/O area of the scales DB
(i.e., DW0 to DW7).
SEGMENT 4
In segment 4 the life bit is processed for channel 1. If the SIWAREX U does
not return the life bit correctly within the number of CPU cycles specified by
the “LIFE” parameter, the error identifier KH1001 is entered in DW19 of the
scales DB.
SEGMENT 5
Segment 5 handles the read data record jobs for channel 1. The user enters
the DR no. to be read in DW44. If a communication error is queued, the read
access is not performed and DW44 is cleared. Permissible DR numbers for
read accesses: DR58 to DR78. When DR255 is specified as the identifier,
all data records will be read.
If no communication errors are queued and the contents of DW44 have been
set to 0, this ensures that the specified DR(s) has/have actually been read. A
timeout is not required since this function has already been included in LIFE
monitoring.
SEGMENT 6
Segment 6 handles the write jobs for channel 1. The user enters the DR no.
to be written in DW46. If a communication error is queued, the write access
is not executed and DW46 is cleared. Permissible DR numbers for write accesses: DR57 to DR72. If DR255 is specified as the identifier, all data records are written. When the identifier is “write all DR,” DR57 (scales commands) is not written since this DR must always be transferred as a single
write job. This prevents a command from being mistakenly issued for this
channel. If no communication errors are queued and the contents of DW46
have been set to 0, all DRs have arrived at the scales. Using DW49 of the
scales DB, the user can check to determine whether certain DRs have been
rejected with a synchronous error message. The structure of DW49 is shown
below.
Table 6-10
DW49
Bit No.
Structure of DW49
Meaning for Value of 0
Meaning for Value of 1
0
No error detected in DR58.
Error detected in DR58.
1
No error detected in DR59.
Error detected in DR59.
2
No error detected in DR60.
Error detected in DR60.
3
No error detected in DR61.
Error detected in DR61.
4
No error detected in DR62.
Error detected in DR62.
5
No error detected in DR63.
Error detected in DR63.
6
No error detected in DR64.
Error detected in DR64.
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SIMATIC S5
Table 6-10
DW49
Bit No.
Structure of DW49
Meaning for Value of 0
Meaning for Value of 1
7
No error detected in DR65.
Error detected in DR65.
8
No error detected in DR66.
Error detected in DR66.
9
No error detected in DR67.
Error detected in DR67.
10
No error detected in DR68.
Error detected in DR68.
11
No error detected in DR69.
Error detected in DR69.
12
No error detected in DR70.
Error detected in DR70.
13
No error detected in DR71.
Error detected in DR71.
14
No error detected in DR72.
Error detected in DR72.
15
Not used
Not used
Remarks
DW49 is only updated when all DRs are transferred. During writing single
DRs, the user can recognize any errors directly in the status byte.
A timeout is not necessary since this function is already included in LIFE
monitoring.
SEGMENT 7 to 9
Same as segments 4 to 6, except applicable to channel 2 (see DB structure)
SEGMENT 10
The I/O output area in DB (DW10 to DW17) is written to the output address.
Structure of the
scales DB
6-20
Table 6-11
Structure of the scales DB
DW No.
Meaning
0
Channel 1: IB0 image, IB1 image
1
Channel 1: IB2 image, IB3 image
2
Channel 1: IB4 image, IB5 image
3
Channel 1: IB6 image, IB7 image
4
Channel 2: IB0 image, IB1 image
5
Channel 2: IB2 image, IB3 image
6
Channel 2: IB4 image, IB5 image
7
Channel 2: IB6 image, IB7 image
8
Reserved
9
Reserved
10
Channel 1: QB0 image, QB1 image
11
Channel 1: QB2 image, QB3 image
12
Channel 1: QB4 image, QB5 image
13
Channel 1: QB6 image, QB7 image
14
Channel 2: QB0 image, QB1 image
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SIMATIC S5
Table 6-11
Structure of the scales DB
DW No.
Meaning
15
Channel 2: QB2 image, QB3 image
16
Channel 2: QB4 image, QB5 image
17
Channel 2: QB6 image, QB7 image
18
19
Error indications for parameter assignment errors and communication malfunctions
KH 0201: Error in WADR para. (area identifier not 0 or 1)
KH 0301: Error in NRCH para. (number of channels not permitted)
KH 1001: Comm. malfunction for chan. 1 (life counter has expired.)
KH 2001: Comm. malfunction for chan. 2 (life counter has expired.)
KH 3001: Communication malfunction channel 1+ 2
(life counter has expired.)
20
Reserved
21
Channel 1: DR57 = commands
22
Channel 1: DR58 = module number
23
Channel 1: DR59 = interface parameter
24
Channel 1: DR60 = adjustment digit 0
25
Channel 1: DR61 = adjustment digit 1
26
Channel 1: DR62 = adjustment weight
27
Channel 1: DR63 = LED allocation
28
Channel 1: DR64 = zero setting value
29
Channel 1: DR65 = LC char. values, filter, decimal point, setting data
30
Channel 1: DR66 = limit value 1 ON
31
Channel 1: DR67 = limit value 1 OFF
32
Channel 1: DR68 = limit value 2 ON
33
Channel 1: DR69 = limit value 2 OFF
34
Channel 1: DR70 = specified value 1, remote display
35
Channel 1: DR71 = specified value 2, remote display
36
Channel 1: DR72 = type of remote display
37
Channel 1: DR73 = current digit value
38
Channel 1: DR74 = gross weight
39
Channel 1: DR75 = asynchronous error word
40
Channel 1: DR76 = synchronous error word
41
Channel 1: DR77 = version
42
Channel 1: DR78 = checksum
43
Channel 1: DR79 = reserved
44
Channel 1: User entry, “DR to be read”
45
Channel 1: Auxiliary word for read DR
46
Channel 1: User entry, “DR to be written”
47
Channel 1: Auxiliary word for write DR
48
Channel 1: Counter for LIFE monitoring
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6-21
SIMATIC S5
Table 6-11
Structure of the scales DB
DW No.
6-22
Meaning
49
Channel 1: Status word for writing all DRs
50
Reserved
51
Channel 2: DR57 = commands
52
Channel 2: DR58 = scales number
53
Channel 2: DR59 = interface parameter
54
Channel 2: DR60 = adjustment digit 0
55
Channel 2: DR61 = adjustment digit 1
56
Channel 2: DR62 = adjustment weight
57
Channel 2: DR63 = LED allocation
58
Channel 2: DR64 = zero setting value
59
Channel 2: DR65 = LC char. values, filter, decimal point, setting data
60
Channel 2: DR66 = limit value 1 ON
61
Channel 2: DR67 = limit value 1 OFF
62
Channel 2: DR68 = limit value 2 ON
63
Channel 2: DR69 = limit value 2 OFF
64
Channel 2: DR70 = specified value 1, remote display
65
Channel 2: DR71 = specified value 2, remote display
66
Channel 2: DR72 = type of remote display
67
Channel 2: DR73 = current digit value
68
Channel 2: DR74 = gross weight
69
Channel 2: DR75 = asynchronous error word
70
Channel 2: DR76 = synchronous error word
71
Channel 2: DR77 = version
72
Channel 2: DR78 = checksum
73
Channel 2: DR79 = reserved
74
Channel 2: User entry, “DR to be read”
75
Channel 2: Auxiliary word for read DR
76
Channel 2: User entry, “DR to be written”
77
Channel 2: Auxiliary word for write DR
78
Channel 2: Counter for LIFE monitoring
79
Channel 2: Status word for writing all DRs
80
Not used
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SIMATIC S5
User DB interface
The following data words (DW) are available to the user for handling the
communication functions.
Table 6-12
User DB interface
Meaning
DW
DR0
Status byte of channel 1
DR4
Status byte of channel 2
DW19 Error indications for WADR and NRCH parameters and indication of communication errors
DW44 Channel 1: Specification of the DR to be read (58 to 78, or 255 for all DRs)
DW46 Channel 1:
Specification of the DR to be written (57 to 72, or 255 for all DRs)
DW49 Channel 1: Indication of write errors for DW46 = 255
DW74 Channel 2: Specification of the DR to be read (58 to 78, or 255 for all DRs)
DW76 Channel 2:
Specification of the DR to be written (57 to 72, or 255 for all DRs)
DW79 Channel 2: Indication of write errors for DW76 = 255
Write access,
channel 1
When no communication errors are queued (i.e., DW19 = 0), the user enters
the number of the DR to be written in DW46. After x CPU cycles DW46 is
set to 0 by FB10 and the write access is concluded. If no synchronous errors
are indicated in DR0, the write access was performed correctly. If, however,
a synchronous error is queued, the contents of the DR which was written
must be checked for plausibility.
If all DRs are to be written, DW46 must be preset to 255. When FB10 has
set DW46 to 0 again, a check can be performed in DW49 to determine
whether one of the written DRs contained an error. DW49 = 0 indicates that
no errors occurred and all DRs were transferred correctly to the scales.
Read access,
channel 1
When no communication errors are queued (i.e., DW19 = 0), the user enters
the number of the DR to be read in DW44. After x CPU cycles, DW44 is set
to 0 by FB10. This concludes the read access. When a communication error
occurs during the read access, the read access is canceled and DW44 is cleared. DW19 contains the error message KH 1001.
STEP 5 program
The sample program contains commentary and is self-explanatory.
The programming example is located under the sub-directory DEMO on the
floppy disk 3/3.
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6-23
SIMATIC S5
6.11 Diagnostic Capabilities with Link to SIMATIC S5
Synchronous
errors
The occurrence of a synchronous error is reported in the input area (bit 1 of
the status byte). Data record 76 contains additional information on the error.
Asynchronous
errors
The occurrence of an asynchronous error is reported in the input area (bit 0
of the status byte). Data record 75 contains additional information on the
error.
6.11.1 Diagnostic Capabilities with the IM 308-C
The standard FB for the IM 308-C (FB192) must be linked to cyclic program
processing so that a diagnostic alarm can be triggered on the SIMATIC S5.
FB192 is included with COM PROFIBUS.
Note
If FB192 is not required for other modules on the ET 200M interface, we
strongly recommend not using diagnostic alarms to perform error evaluation
for the SIWAREX U. Since FB192 has to be linked to the cyclic program,
this increases run time. The SIWAREX U reliably reports internal and external errors via the I/O area so that FB192 can be omitted.
Table 6-13
Call FB192
SPA
FB 192
NAME:
IM308C
DPAD:
KH F800
;IM 308-C address = F800h
IMST:
KY 0,3
;No. of the IM 308-C = 0, no. of the IM 153-1 = 3
FCT:
KC SD
;SD = Read slave diagnosis
GCGR:
KM 00000000 00000000
;Irrelevant for slave diagnosis
TYP:
KY 0,10
;Data are located in DB10
STAD:
KF +0
;Data are located in DB starting at DW0
LENG:
KF 29
;Length of diagnostic data in bytes
ERR:
MW 20
;Error message
6-24
A M21.7
;If group error set,
JU = ERRO
;then error evaluation
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SIMATIC S5
The slave diagnosis provides the user with up to 29 bytes of diagnostic information (i.e., bytes 0 to 28). A data block of 15 data words (i.e., 30 bytes)
must be set up for the diagnostic data.
Since the SIWAREX U is a SIMATIC S7-300 module, the diagnostic information provided by the SIWAREX U is presented in accordance with
SIMATIC S7 conventions.
For additional information, see the manuals of COM PROFIBUS and the
modular ET 200M I/O device.
Table 6-14
Contents and layout of the diagnostic data
Byte
Explanation
0
Station status 1
1
Station status 2
2
Station status 3
3
Master station number
4
Manufacturer’s identifier (high byte)
5
6-8
Manufacturer’s identifier (low byte)
Identifier-related diagnosis:
The identifier-related diagnosis specifies which module in which slot is faulty.
6
7
8
9-28
Bit 7-6=01
Code for identifier-related diagnosis
Bit 5-0=000011
Length of the identifier-related diagnosis incl. byte 6 (=3)
Bit 7:
Module in slot 8 is faulty.
Bit 6:
Module in slot 7 is faulty.
Bit 5:
Module in slot 6 is faulty.
Bit 4:
Module in slot 5 is faulty.
Bit 3:
Module in slot 4 is faulty.
Bit 2:
Reserved
Bit 1:
Module in slot 2 is faulty (i.e., IM 153-1)
Bit 0:
Reserved
Bit 7-3:
Reserved
Bit 2:
Module in slot 11 is faulty.
Bit 1:
Module in slot 10 is faulty.
Bit 0:
Module in slot 9 is faulty.
Device-related diagnosis:
The device-related diagnosis provides detailed information on the DP slave.
Data record 1 (typical for SIMATIC S7) is stored in the device-related diagnosis. The data records and
diagnostic data are described for the SIMATIC S7/M7 in the STEP 7 manual in the section on standard
and system functions. The contents of the device-related diagnosis depend on which module of the
ET 200 M has reported a diagnosis.
9
Bit 7-6=00
Code for device-related diagnosis
Bit 5-0=??????
Length of the device-related diagnosis incl. byte 9:
S For diagnostic alarms: Max. of 20 bytes
S For process interrupts: Max. of 8 bytes
10
01 hex: Code for S7 diagnosis
02 hex: Code for S7 process interrupt
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6-25
SIMATIC S5
Table 6-14
Contents and layout of the diagnostic data
Byte
11
12
Table 6-15
Explanation
S7 diagnosis:
S7 process interrupt:
Slot of the module with diagnosis
(2, 4 to 11)
Slot of the module with process interrupt
(4 to 11)
Reserved
Reserved
Contents and layout of the process interrupt data
Byte
13
14-16
6-26
Explanation
Bit 7:
Limit value 2, departing, channel 2
Bit 6:
Limit value 2, arriving, channel 2
Bit 5:
Limit value 1, departing, channel 2
Bit 4:
Limit value 1, arriving, channel 2
Bit 3:
Limit value 2, departing, channel 1
Bit 2:
Limit value 2, arriving, channel 1
Bit 1:
Limit value 1, departing, channel 1
Bit 0:
Limit value 1, arriving, channel 1
Not used currently for SIWAREX U
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SIMATIC S5
Table 6-16
Byte
13
Contents and layout of the diagnostic alarm data (contents of data record DR1)
Bit
Meaning
0
Module error
1
Internal error
2
External error
3
Channel error exists
4
External auxiliary voltage missing
5
14
15
Not used, always 0
6
Parameterization missing
7
Wrong parameters on the module
(EEPROM error here)
0
to
3
Module class
0101 = Analog module
0000 = CPU
1000 = Function module = SIWAREX U
1100 = CP
1111 = Digital module
4
Channel information exists
5
User information exists
6
Not used, always 0
7
Not used, always 0
0
Not used, always 0
1
Not used, always 0
2
Not used, always 0
3
16
Watchdog error
4
Not used, always 0
5
Not used, always 0
6
Not used, always 0
7
Not used, always 0
0
Not used, always 0
1
Not used, always 0
2
EPROM error
3
RAM error
4
ADC error
5
6
18
(ADC error during read-access)
Not used, always 0
Process interrupt lost
7
17
Remarks
Not used, always 0
0
to
6
Channel type
0x50
7
(Additional channel type present)
-
0
to
7
Number of diagnostic bits per channel
All bits are used.
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6-27
SIMATIC S5
Table 6-16
Byte
Contents and layout of the diagnostic alarm data (contents of data record DR1)
Bit
Meaning
Remarks
19
0
to
7
Number of channels
(Here 1 or 2)
20
0
Channel error, channel 0
(SIWAREX U: Weighing channel 1)
Channel-related errors, see byte 9/10
1
Channel error, channel 1
(SIWAREX U: Weighing channel 2)
2
3
4
5
6
7
21/22
0
0
Byte 9 = channel 1
1
0
Byte 10 = channel 2
2
0
3
0
4
Min. voltage underranged on sense lines
5
0
6
Number overflow for gross weight
7
Measuring area exceeded
23-28
Not used (default 0)
6.11.2 Diagnostic Capabilities with the S5-95U/DP Master
The standard FB (i.e., FB230) must be linked to cyclic program processing so
that a diagnostic alarm can be triggered on the SIMATIC S5-95U/DP master.
Overview
diagnostics
Each bit of diagnostic word IW56 is allocated to a DP slave. A “1” means
that the DP slave has reported a diagnosis or that the DP slave cannot be addressed by the master.
Lowest station number:
Highest station number:
6-28
I56.0 = Station 0
I57.7 = Station 15
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SIMATIC S5
Evaluation of overview diagnostics
Table 6-17
Scan IW56 in the STEP 5 user program, and call FB230. The bits in IW56
are reset when FB230 is called.
Example
L
KM 00000000 00000000
L
IW56
;Load diagnostic word IW56
!=F
;No station with errors?
BEC
JC
FB 230
;If error, then request station diagnosis
NAME:
S_DIAG
S_NR:
KY 0,0
;Indirect parameter assignment, station number 0
DBNR:
KY 230,0
;Diagnostic data are stored in DB230 starting with DW0
The slave diagnosis provides the user with up to 34 bytes of diagnostic information (i.e., bytes 0 to 33). A 17-data word data block (i.e., 34 bytes) must
be set up for the diagnostic data.
Structure of the
slave diagnosis
Since the SIWAREX U is a SIMATIC S7-300 module, the diagnostic information provided by the SIWAREX U are presented in accordance with the
SIMATIC S7 convention.
For more information see the manuals of COM PROFIBUS and the modular
ET 200M I/O device.
Table 6-18
Contents and structure of the diagnostic data
DW
Meaning of DL
Meaning of DR
0
Number of the slave station for which diagnostic
data are available
Number of subsequent diagnostic bytes
1
Station status 1
Station status 2
2
Station status 3
Master station number
3
Manufacturer’s identifier
4 to
16
Additional slave-related diagnostic data
(device-related, identifier-related or channel-related diagnostics)
Cf. also diagnostic capabilities of the IM 308-C
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6-29
SIMATIC S5
6-30
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Standard DP Master
Connection to
standard master
7
GSD files are required for connection of modular ET 200M I/O devices to
standard DP masters of other manufacturers. GSD files are an easy and convenient way to parameterize the standard DP master with the configuration
software.
Note
The latest GSD files can be downloaded from the Internet (SIMATIC customer support).
The disadvantage of using the GSD files included with the SIWAREX configuration package is that you will not have the latest GSD file and may not be
able to find other new modules, for example.
SIWAREX U Equipment Manual
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7-1
Standard DP Master
7-2
SIWAREX U Equipment Manual
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Serial Coupling
Introduction
8.1
8
A link can be established to other host systems with the RS 232 serial interface. A SIWAREX driver is available for this purpose. By transferring or
fetching (fetch telegrams) data records, the SIWAREX U can be adjusted,
parameterized and controlled.
Transmission Protocol (SIWAREX Driver)
How it works
The SIWAREX U is always the slave when a host system link is established
with the SIWAREX driver.
When the partner (i.e., master) wants to read a data record from the
SIWAREX U, this must be requested beforehand with a fetch telegram
(DR100). The SIWAREX U returns the requested data record in a response
telegram. When the master transfers a data telegram (e.g., DR3), the
SIWAREX U returns an acknowledgment telegram (DR101). The acknowledge telegram can contain positive and negative response messages.
The SIWAREX driver operates at the lowest level with a simple protocol
with two end characters. The telegrams contain additional characters to improve transmission reliability and identification (i.e., BCC and length information). These must be evaluated at a higher level (e.g., with PC software).
A module number is stored in every telegram header for identification.
Module numbers from 1 to 16 are permitted. When the module number does
not correspond to the entry in DR5/DR58, the telegram received by the
SIWAREX U is rejected. When the module number and the entry correspond, the sender address of the request telegram is entered as the receiver
address in the response telegram. Every scale can not only be addressed by
its individual module number but also with address 0. The host uses the
default sender address 255.
Data records
available
The data records which are available are listed in section 9.
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8-1
Serial Coupling
Special features
When the character delay time is exceeded on the SIWAREX module, the
interface is reset to its basic state. An error message is not generated. In
addition, the block check character and the length information are verified on
the SIWAREX module. Any errors are reported in the acknowledgment telegram with the identifier 60hex. This information is not checked when the
length byte and the BCC byte in the telegram are zero.
Telegram layout
Table 8-1
Telegram layout
1st byte
Receiver address
2nd
byte
Sender address
3rd
byte
Data record number
4th byte
Length in n bytes (user data length + 7)
5th byte
User data DRx, first byte
.
.
n-3rd
byte
User data DRx, last byte
n-2nd
byte
BCC (EXOR)
n-1st byte
End identifier 1 (DLE) 0x10
nth
End identifier 2 (ETX) 0x3
byte
When a byte with the code DLE (0x10) occurs within bytes 1 to n-2, this byte
is doubled by the sender (to prevent a chance end identifier within the user
data) but not counted for the length.
The receiver must cancel this doubled byte.
The BCC block check character is generated with bytes 1 up to and including
n-3.
Technical data of
the SIWAREX driver
8-2
Table 8-2
Interface data
baud rate
9600 bit/sec
Parity bit
S Even or odd
S With or without parity bit
Number of data bits
8
Number of stop bits
1
Character frame
11 bits
Character delay time
220 msec
Mode
SIWAREX driver interpretation with 2 end identifiers
Signals
TxD, RxD
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Serial Coupling
Table 8-3
RS 232 interface and SIWAREX driver
Function
Data Record, Channel 1 (Channel 2)
S5
Format
Comments
S7
DR
No.
DR
No.
DR
Byte
DR
Bit
Length
(Byte)
Module number
58
5
0
6
BYTE
0 (*)
Interface parameter for
RS 232C and TTY interface
59
5
1
6
BYTE
Bit 0 = 0: With parity (*)
Bit 0 = 1: Without pparityy
Bit 1 = 0: Even parity (*)
Bit 1 = 1: Odd parity
(*)
Factory setting
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8-3
Serial Coupling
8-4
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9
Data Record Description
9.1
Overview of Data Records
Overview of
data records
Table 9-1
The following table gives you an overview of data records which are provided by the SIWAREX U and are required for communication with a host system.
Overview of the data records
DR No.
S7 data
records
d
Function
Channell1)
Length
B t
Bytes
-
4/16
Hex.
Dec.
0/1
0/1
Diagnostic data
0/1
0/1
Basic parameters
-
3
3
Adjustment data and
scales parameters
1
4
4
Adjustment data and
scales parameters
5
5
6
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ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
SFC/DR
I/O
RS 232
EEPROM
O
-
-
No
4/16
I
I
-
No
10
I/O
-
I/O
Yes
2
10
I/O
-
I/O
Yes
General parameters
-
6
I/O
-
I/O
Yes
6
Specified value,
remote display
-
4
I/O
-
I/O
No
B
11
Commands
1
2
I
-
I
No
C
12
Commands
2
2
I
-
I
No
15
21
Limit values
1
8
I/O
-
I/O
3)
16
22
Limit values
2
8
I/O
-
I/O
3)
1F
31
Measured values/status/
error
1
10
O
-
I
No
20
32
Measured values/status/
error
2
10
O
-
I
No
28
40
Version/checksum
-
8
O
-
I
No
1) Explanation:
1: Only channel 1
2: Only channel 2
X: Both channels
-: Not dependent on channel
2) I: Input (from external source to SIWAREX U)
O: Output (from SIWAREX U to external source)
3) Dependent on parameterization bit
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
9-1
Data Record Description
Table 9-1
Overview of the data records
DR No.
Dec.
Channel1)
Length
Bytes
Interfaces2)
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁ
ÁÁÁÁ
ÁÁÁÁ
S5/S7
d
data
records
(once per
channel))
Communication
telegrams
Hex.
Function
SFC/DR
I/O
RS 232
EEPROM
39
57
Commands
X
2
-
I
-
No
3A
58
Module number
-
2
-
I/O
-
Yes
3B
59
Interface parameters
-
2
-
I/O
-
Yes
3C
60
Adjustment digit 0
X
2
-
I/O
-
Yes
3D
61
Adjustment digit 1
X
2
-
I/O
-
Yes
3E
62
Adjustment weight
X
2
-
I/O
-
Yes
3F
63
LED allocation
-
2
-
I/O
-
Yes
40
64
Zero setting value
X
2
-
I/O
-
Yes
41
65
Char. value of LC/filter/
setting data
X
2
-
I/O
-
Yes
42
66
Limit value 1 on
X
2
-
I/O
-
3)
43
67
Limit value 1 off
X
2
-
I/O
-
3)
44
68
Limit value 2 on
X
2
-
I/O
-
3)
45
69
Limit value 2 off
X
2
-
I/O
-
3)
46
70
Specification value 1
for TTY
-
2
-
I/O
-
No
47
71
Specification value 2
for TTY
-
2
-
I/O
-
No
48
72
Remote display type
-
2
-
I/O
-
Yes
49
73
Current digit value
X
2
-
O
-
No
4A
74
Gross
X
2
-
O
-
No
4B
75
Asynchronous errors
X
2
-
O
-
No
4C
76
Synchronous errors
X
2
-
O
-
No
4D
77
Version
-
2
-
O
-
No
4E
78
Checksum
-
2
-
O
-
No
4F
79
Reserved
-
2
-
O
-
No
64
100
Fetch telegram
-
1
-
-
I
No
65
101
Acknowledgment
telegram
-
3
-
-
O
No
1) Explanation:
1: Only channel 1
2: Only channel 2
X: Both channels
-: Not dependent on channel
2) I: Input (from external source to SIWAREX U)
O: Output (from SIWAREX U to external source)
3) Dependent on parameterization bit
!
9-2
Caution
With channel-independent data records, the data for the first or second channel can be transferred for a two-channel module. When different values are
transferred simultaneously for both channels, the value for channel 2 overwrites the value for channel 1.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Data Record Description
9.2
Data Formats
Data formats in S7
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁ
ÁÁÁÁÁÁÁ
ÁÁÁÁÁÁ
Table 9-2
Data record formats
DR byte n+3
DR byte n+2
DR byte n+1
DR byte n+0
Byte, char
27
20
Word
High byte
Low byte
215
27
20
dint
, time (msec)
High word
Comparison of
S5/S7 formats
Low word
High byte
Low byte
High byte
Low byte
231
223
215
27
20
Since the data operands in the data blocks are addressed by byte with STEP 7
and by word with STEP 5, the addresses of the data operands must be recalculated accordingly.
DW [n]
DL [n]
15 14 13 12 11 10 9
6
5
Figure 9-1
4
3
7
6
DBW [2n]
DBB [2n]
7
8
DR[n]
2
1
0
7
6
5
4 3
2 1
0
STEP 5
0
STEP 7
DBB [2n+1]
5
4 3
2 1
Comparison of data addressing with STEP 5 and STEP 7
In contrast to STEP 5, the address of a data word is doubled with STEP 7. A
data byte can no longer be divided into a right and a left data byte. Bit numbering is always from 0 to 7.
Data formats
for Intel/Motorola
Intel:
Low byte: bits 0 to 7; high byte: bits 8 to 15
Motorola:
Low byte: bits 8 to 15; high byte: bits 0 to 7
SIWAREX U uses the Intel format.
High and low bytes must be reversed when couplings to Motorola-based systems are used.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
9-3
Data Record Description
9.3
Description of the Data Records
Basic parameters
DR0 and DR1
These basic parameters are transferred to the module by the applicable SIMATIC system during startup. They contain settings which determine the
behavior of the module in the SIMATIC system. The basic parameters are
stored in the SIWAREX U in a memory area which is not protected against
power failure.
User-related
parameters,
starting with DR3
These parameters can be transferred via the SIMATIC or via the serial interface. The parameters are checked on the module for plausibility and, after a
positive check, stored in a memory area which is protected against power
failure. If a data record contains parameters which are not plausible, the
entire data record is rejected (i.e., the data are not accepted by the
SIWAREX U).
9.3.1
DR0: Basic Parameters (Write)
Table 9-3
DR0: Basic parameters (length: 4)
DR
No.
P
No.
Mode
Parameter
(Menu String)
Data
Format
Value Range
(Visible)
Value Range
(Coding)
Factory
Setting
ADR
Byte
ADR
Bit
0
1
BPAR
Alarm
generation
BYTE
{NO | YES}
{ 0|1 }
1
0
-
0
2
SPAR
Alarm
selection
BYTE
{(none) |
diagnosis |
process |
diagnosis+
process )}
{(0) | (1|2|3)}
1
1
-
0
3
0
4
0
Data interface
BYTE
Not used by SIWAREX U
-
{SFC| I/O}
{0|1}
0
4
-
Value Range
(Visible)
Value Range
(Coding)
Factory
Setting
ADR
Byte
ADR
Bit
BPAR: Parameter is a basic parameter.
SPAR: Parameter is a sub parameter.
9.3.2
DR1 - Parameter (Write)
Table 9-4
DR1 - Parameter (length: 16)
DR
No.
P
No.
1
5
In reserve
0
1
6-16
In reserve
0
9-4
Mode
Parameter
(Menu String)
Data
Format
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Data Record Description
9.3.3
DR0: Diagnosis, Part 1 (Read)
Table 9-5
Diagnostic data
Bit
Byte
0
Meaning
0
Module error
1
Internal error
2
External error
3
Channel error exists
4
External auxiliary voltage missing
5
1
2
Not used, always 0
6
Parameterization missing
7
Wrong parameters on the module
(EEPROM error here)
0
to
3
Module class
0101 = Analog module
0000 = CPU
1000 = Function module = SIWAREX U
1100 = CP
1111 = Digital module
4
Channel information exists
5
User information exists
6
Not used, always 0
7
Not used, always 0
0
Not used, always 0
1
Not used, always 0
2
Not used, always 0
3
3
Remarks
Watchdog error
4
Not used, always 0
5
Not used, always 0
6
Not used, always 0
7
Not used, always 0
0
Not used, always 0
1
Not used, always 0
2
EPROM error
3
RAM error
4
ADC error
5
6
(ADC error during read-access)
Not used, always 0
Process interrupt lost
7
Not used, always 0
Note
The data of DR0 are also available in the local data of OB82.
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
9-5
Data Record Description
9.3.4
DR1 - Diagnosis, Part 2 (Read)
Table 9-6
Diagnostic data
Bit
Byte
4
Meaning
Remarks
0
to
6
Channel type
7
(Other channel type present)
-
5
0
to
7
Number of diagnostic bits per channel
All bits are used
6
0
to
7
Number of channels
(Here 1 or 2)
7
0
Channel error, channel 0
(SIWAREX U: Weighing channel 1)
Channel-related error, see byte 9/10
1
Channel error, channel 1
(SIWAREX U: Weighing channel 2)
2
3
4
5
6
7
8, 9
10-15
9-6
0
0
Byte 9 = channel 1
1
0
Byte 10 = channel 2
2
0
3
0
4
Min. voltage underranged on sense lines
5
0
6
Number overflow for gross weight
7
Measuring area exceeded
Not used (factory setting 0)
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Data Record Description
9.3.5
Table 9-7
DR3: Adjustment Data, Channel 1
DR3: Adjustment data, channel 1 (length: 10 bytes)
Byte
Unit
Format
Factory
Setting
Zero setting value
0, 1
Digits
WORD
0
Char. value, LC/filter setting/
setting data
2, 3
-
16 x BOOL
0000 0000
0100 0001
Adjustment digit 0
4, 5
Digits
WORD
0
Adjustment digit 1
6, 7
Digits
WORD
0
Adjustment weight
8, 9
Weight
INT
10000
Meaning
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Explanation
-32768 to +32767
9-7
Data Record Description
Table 9-8
Char. value, LC/filter setting/setting data
Bit
15 14 13 12 11 10
9
8
Meaning
7
6
5
4
3
2
1
0
Characteristic value of the load cell
0
0
≤ 1 mV/V
0
1
≤ 2 mV/V (factory setting)
1
0
≤ 4 mV/V
1
1
In reserve
Decimal point for remote display
0
0
0
Decimal point 0 (factory setting)
0
0
1
Decimal point 1
0
1
0
Decimal point 2
0
1
1
Decimal point 3
1
0
0
Decimal point 4
1
0
1
Decimal point 5
Filter setting
0
0
0
Not filtering
0
0
1
Limit frequency: 5 Hz
0
1
0
Limit frequency: 2 Hz
(factory setting)
0
1
1
Limit frequency: 1 Hz
1
0
0
Limit frequency: 0.5 Hz
1
0
1
Limit frequency: 0.2 Hz
1
1
0
Limit frequency: 0.1 Hz
1
1
1
Limit frequency: 0.05 Hz
Average value filter
0
Average value filter disabled
(factory setting)
1
Average value filter enabled
Data to EEPROM
(Only applicable to limit values and
zero setting value via command)
0
Store in EEPROM
(factory setting)
1
Store only in RAM
Channel in operation
9-8
0
Channel enabled
1
Channel disabled
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Data Record Description
9.3.6
Table 9-9
DR4: Adjustment Data, Channel 2
DR4: Adjustment data, channel 2 (for two-channel modules only) (length: 10 bytes)
Meaning
Unit
Format
Factory
Setting
Explanation
- Allocation same as DR3 -
9.3.7
Table 9-10
DR5: General Parameters (Regardless of Channel)
DR5: General parameters (length: 6 bytes)
Byte
Meaning
Unit
Format
Factory
Setting
Explanation
Module number
0
BYTE
0
Interface parameters
1
BYTE
0
Type of remote display
2
BYTE
0
Allocation, LED 1
3
BYTE
101
Limit 1, channel 1
Allocation, LED 2
4
BYTE
102
Limit 2, channel 1
In reserve
5
BYTE
0
Table 9-11
TTY/RS 232C interface parameters
(fixed: 8 data bits, 1 stop bit, 9600 baud)
Bit No.
Reset
0
With parity bit (default setting)
Without parity bit
1
Even parity (default setting)
Odd parity
2
In reserve
3
In reserve
4
In reserve
5
In reserve
6
In reserve
7
In reserve
Table 9-12
Type of remote display
Code (Dec.)
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Set
Meaning
0
No remote display
1
4-position remote display
2
5-position remote display
3
6-position remote display
9-9
Data Record Description
Table 9-13
9.3.8
Table 9-14
Allocation of LED 1 or LED 2
Code
(Hex.)
Code
(Dec.)
64
100
Channel error
Channel 1
65
101
Limit value 1
Channel 1
66
102
Limit value 2
Channel 1
67
103
Scales adjusted
Channel 1
C8
200
Channel error
Channel 2
C9
201
Limit value 1
Channel 2
CA
202
Limit value 2
Channel 2
CB
203
Scales adjusted
Channel 2
Status
Channel
DR6: Specified Values, Remote Display
DR6: Specified values, remote display (length: 4 bytes)
Meaning
Byte
Unit
Format
Factory
Setting
Specified value 1
0, 1
INT
0
Specified value 2
2, 3
INT
0
9-10
Explanation
SIWAREX U Equipment Manual
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Data Record Description
9.3.9
Table 9-15
DR11: Commands, Channel 1
DR11: Commands, channel 1 (length: 2 bytes)
Meaning
Unit
Format
Factory
Setting
-
WORD
0
Command word
Table 9-16
Explanation
Possible entries, command word
Code (Dec.)
Meaning
0
No command (Synchronous errors are deleted)
1
Set as zero
2
Adjust
3
Move zero point (set to zero)
4
5
100
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Load factory setting
(affects both channels of a two-channel SIWAREX U)
100 msec measuring cycle, sevice command, starting with release status
5 (affects both channels of a two-channel SIWAREX U)
9-11
Data Record Description
9.3.10 DR12: Commands, Channel 2
Table 9-17
DR12: Commands, channel 2 (for two-channel modules only) (length: 2 bytes)
Unit
Meaning
Format
Factory
Setting
Explanation
Explanation
- Allocation same as DR11 -
9.3.11 DR21: Limit Values, Channel 1
Table 9-18
DR21: Limit values, channel 1 (length: 8 bytes)
Byte
Unit
Format
Factory
Setting
Limit value 1 ON
0, 1
Weight
INT
10000
Limit value 1 OFF
2, 3
Weight
INT
9990
Limit value 2 ON
4, 5
Weight
INT
1000
Limit value 2 OFF
6, 7
Weight
INT
1010
Meaning
9.3.12 DR22: Limit Values, Channel 2
Table 9-19
DR22: Limit values, channel 2 (for two-channel modules only) (length: 8 bytes)
Meaning
Byte
Unit
Format
Factory
Setting
Limit value 1 ON
0, 1
Weight
INT
10000
Limit value 1 OFF
2, 3
Weight
INT
9990
Limit value 2 ON
4, 5
Weight
INT
1000
Limit value 2 OFF
6, 7
Weight
INT
1010
9-12
Explanation
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Data Record Description
9.3.13 DR31: Measured Values/Status/Error, Channel 1
Table 9-20
DR31: Measured values/status/error, channel 1 (length: 10 bytes)
Byte
Unit
Format
Factory
Setting
Gross
0, 1
Weight
INT
-
Status
2
8 x BOOL
-
Measured value update counter
3
BYTE
-
Starting with release
status 5
WORD
-
0 to 65535
Meaning
Current digit value (filtered)
4, 5
Digits
Asynchronous error
6, 7
16 x BOOL
-
Synchronous error
8, 9
16 x BOOL
-
Explanation
-32768 to +32767
9.3.14 DR32: Measured Values/Status/Error, Channel 2
Table 9-21
DR32: Measured values/status/error, channel 2 (length: 10 bytes)
Byte
Unit
Format
Factory
Setting
Gross
0, 1
Weight
INT
-
Status
2
8 x BOOL
-
Measured value update counter
3
BYTE
-
Starting with release
status 5
WORD
-
0 to 65535
Meaning
Current digit value (filtered)
4, 5
Asynchronous error
6, 7
16 x BOOL
-
Synchronous error
8, 9
16 x BOOL
-
Status byte
Digits
Explanation
-32768 to +32767
Contains current status information
Table 9-22
Bit
No.
Status byte
Designation
Bit = 0
Bit = 1
0
Asynchronous error
(group error)
No internal/external error
Internal/external error
1
Synchronous error
No error occurred during
last write-access
An error occurred during
last write-access
2
Limit value 1
Limit value 1 not active
Limit value 1 active
3
Limit value 2
Limit value 2 not active
Limit value 2 active
4
Scales adjusted
Scales not adjusted
Scales adjusted
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9-13
Data Record Description
Table 9-22
Bit
No.
Asynchronous
errors
Status byte
Designation
Bit = 0
Bit = 1
5
Measured value update Is inverted each time the SIWAREX U updates its
bit
measured value (starting with release status 5)
6
Life bit
Only used for I/O communication
7
Job acknowledgment
bit
Only used for I/O communication
S Can happen any time
S Are automatically deleted when error disappears
S Several errors can be queued at the same time.
Table 9-23
Bit
No.
Designation
Bit = 0
Bit = 1
0
Control limit ADC1)
Not exceeded
Exceeded
1
Minimum voltage on sense
line 1)
Not underranged
Underranged
2
Watchdog
Has not been triggered
Has been triggered
3
Error in EPROM (program)
Does not exist
Exists
4
Error in EEPROM (data)
Does not exist
Exists
5
RAM error (read/write error)
Does not exist
Exists
6
ADC error during readaccess
Does not exist
Exists
7
Number overflow for gross
weight 1)
Does not exist
Exists
8
Ext. supply voltage (24 V)
Is available
Is not available
9
In reserve
10
In reserve
11
In reserve
12
In reserve
13
In reserve
14
In reserve
15
In reserve
1)
9-14
Asynchronous errors
These errors are only reported for the specific channel. The other errors are entered
for both channels.
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Data Record Description
Synchronous
errors
S Can occur after command input
S Are reported in DR31, 32 and 76 only on the interface which caused the
synchronous error
S Are only output to the interface via which the applicable job arrived
S This DR is not updated again until a new command is issued or a reset
occurs.
Table 9-24
Bit
No.
Synchronous error
Bit = 0
Bit = 1
0
-
Adjustment command could not be executed since distance to adjustment points is too small.
1
-
Job could not be executed due to malfunction.
2
-
A non-existent or inactive channel was addressed.
3
-
Code not defined (e.g., limit frequency, digital filter and so on)
4
-
Data record/identifier unknown
5
-
Command not possible since scales not adjusted
6
-
Wait time of 5 sec not adhered to during adjustment commands
7
-
The adjustment weight is negative.
8
-
In reserve
9
-
In reserve
10
-
In reserve
11
-
In reserve
12
-
In reserve
13
-
In reserve
14
-
In reserve
15
-
In reserve
9.3.15 DR40: Version/Checksum/Switches
Table 9-25
DR40: Version/checksum/switches (length: 8 bytes)
Meaning
Byte
Unit
Format
Factory
Setting
Explanation
Version
0, 1
WORD
-
FW version
Checksum
2, 3
WORD
-
0 to 65535
In reserve
4
8 x BOOL
-
Module type
5
BYTE
1/2
6, 7
INT
-
In reserve
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Depends on number of channels
9-15
Data Record Description
9.3.16 DR57 to 79: Data Records for I/O Area
Table 9-26
DR57 to 79: Data records for I/O area (S5 data records)
Meaning
DR
No.
Unit
Format
Factory
Setting
Explanation
57
Commands
Digit
WORD
0
58
Module number
Digit
CHAR
0
59
Interface parameters
Digit
BOOL
0
60
Adjustment digits 0
Digit
WORD
0
61
Adjustment digits 1
Digit
WORD
0
62
Adjustment weight
Weight
INT
1000
63
LED allocation
Code
2 x BYTE
101
102
64
Zero setting value
Digit
WORD
0
65
Characteristic value, LC/filter setting/
setting data
16 x BOOL
0000 0000
0100 0001
66
Limit value 1 ON
Weight
INT
10000
67
Limit value 1 OFF
Weight
INT
9990
68
Limit value 2 ON
Weight
INT
1000
69
Limit value 2 OFF
Weight
INT
1010
70
Specified value 1 for remote display
-
INT
0
71
Specified value 2 for remote display
-
INT
0
72
Type of remote display
-
WORD
0
Only low byte used
73
Current digit value
Digit
WORD
-
0 to 65535
74
Gross
Weight
INT
-
-32768 to +32767
75
Asynchronous errors
-
16 x BOOL
-
76
Synchronous errors
-
16 x BOOL
-
77
Version
-
WORD
-
78
Checksum
-
WORD
-
79
Reserved
-
BOOL
-
Setup of data records DR57 to 78
The setup of data records DR57 to DR78 is similar to the setup of data records DR3 to DR40.
Example:
For DR65, see setup of byte 2–3 of DR3.
9-16
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Data Record Description
9.3.17 DR100: Fetch Telegram
Table 9-27
DR100: Fetch telegram (length: 1 byte)
Meaning
Number of request data record
Format
Factory Setting
BYTE
0
9.3.18 DR101: Acknowledgment Telegram
Table 9-28
DR101: Acknowledgment telegram (length: 3 bytes)
Format
Factory Setting
No. for acknowledged data record (0 for
error type 60hex)
BYTE
0
Type of error
BYTE
0
Error number (See also section 12)
BYTE
0
Meaning
Table 9-29
Error types in the acknowledgment telegram
Code
Error number
Meaning
00 hex
No error
40 hex
Synchronous errors (handling or data errors)
60 hex
Transmission error
The error number is only valid for the “synchronous error” type of error and
corresponds to the less significant byte of the synchronous error word.
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9-17
Data Record Description
9-18
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10
Optional Components
Optional components are external devices such as remote displays and so on.
The figure below shows how external devices can be connected.
PS
S7-300
CPU
RS 485
SIWAREX U
RS 232C
TTY
MPI bus
Remote display
Operator panel
PC
Figure 10-1 Connection of optional components
A remote display can be connected to the TTY interface. A PC can be connected to the RS 232 interface for commissioning purposes, or a host can be
connected.
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10-1
Optional Components
10.1 Connection of Digital Remote Displays
Introduction
Digital remote displays can be connected to the TTY interface of the
SIWAREX U. The SIWAREX U contains an appropriate protocol for connection of digital remote displays. All digital remote displays which support
this protocol and are equipped with a TTY interface can be connected to the
SIWAREX U. 4-digit, 5-digit and 6-digit remote displays are supported.
Note
It is the user’s responsibility to determine whether the digital remote display
chosen actually supports this protocol. Siemens AG accepts no liability for
damage caused by connection of remote displays.
The documentation of the remote display manufacturer must be adhered to.
Description
Weight
Scale 1
SIWAREX U
WEIGHINGMODULE
SF
24V
ST1
ST2
Weight
Scale 2
Specified
value 1
Specified
value 2
TTY
X2
1 3
7MH4601-1BA01
Figure 10-2 Example: Connection of 4 digital remote displays to the SIWAREX U
Value output
The following values can be indicated on a digital remote display:
S Gross weight value, weighing channel 1
S Gross weight value, weighing channel 2 (for two-channel SIWAREX U
only)
S Specified value 1 (can be assigned as desired via SIMATIC)
S Specified value 2 (can be assigned as desired via SIMATIC)
The value to be indicated is set on the remote display.
10-2
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Optional Components
Note
Since the specified values are stored in the RAM of the SIWAREX U, the
specified values must be supplied again by the SIMATIC CPU after a power
OFF/ON.
Special operating
states
When special operating states occur (e.g., the indication range of the remote
display is exceeded), the SIWAREX U sends appropriate ASCII characters
via the protocol. If the remote display can indicate these ASCII characters,
the special operating state is indicated on the remote display. See also character set used for display data, table 5-8.
Table 10-1
Special operating states
Indication
Description
“_ _ _ _ _”
The indication range of the remote display has been exceeded
(e.g., 11.456 kg cannot be shown on a 4-digit display).
“E r r”
The SIWAREX U reports a system error SF
(e.g., EEPROM error).
“_ _ _ _ _”
or
“≡ ≡ ≡ ≡ ≡”
Connection of the
remote displays
Timeout function for monitoring the serial connection for wire
break. This function must be included in the remote display.
The function is indicated differently depending on the type of
display.
The connection to the remote display is made with the free-floating TTY interface of the SIWAREX U (via 20-way multipoint connection strip). The
interface is unidirectional (i.e., the weight values are transferred cyclically to
the remote display(s)).
Several digital remote displays can be connected to the SIWAREX U.
Example: Connection of two remote displays, remote display 2 active.
TxD+
(Pin 6)
< 1000 m
(e.g.: LIYCY 2x2x0.5mm2)
RXDRXD+
Display 1
(passive)
TxD(Pin 7)
RXD-
SIWAREX U
(passive)
RXD+
20mA/R
Display 2
(active)
M/R
Figure 10-3 Connection of remote displays
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10-3
Optional Components
Assignment
Table 10-2
Pin assignment of the TTY interface
Connection
Pin
Assignment of the TTY Interface
Signal Name
6
TxD2+
Sending data + of SIWAREX U
7
TxD2-
Sending data - of SIWAREX U
For pin assignment of the remote display, see the documentation of your remote display.
Note
Pin assignment of the remote displays may differ depending on the manufacturer. For example, S+/S- is used for sender power, and TX+/TX-/RX+/RXis used for sender or receiver lines. Some remote displays use the 24 V connection instead of 20 mA/R and GND instead of M/R since these types of
remote displays are equipped with constant current control which limits the
current on the TTY interface. For details, see the documentation of your
remote display.
When several remote displays are to be connected to the TTY interface of
the SIWAREX U, we recommend asking the manufacturer of the remote
displays whether the power capacity of the active remote display is sufficient.
Settings on the
SIWAREX U
4-digit, 5-digit and 6-digit displays can be connected to the
SIWAREX U. Selection of the display to be connected is made in the appropriate data record via the SIMATIC or via SIWATOOL.
The number of positions set applies to all remote displays connected to the
TTY interface.
In addition, the specified values can be specified via the SIMATIC.
Table 10-3
Remote display
Function
Data Record, Channel 1 (Channel 2)
S5
72
Comments
S7
DR
No.
Number of positions of the remote display
Format
DR
No.
5
DR
Byte
2
DR
Bit
Length
(Byte)
6
BYTE
Selection code (dec.)
No indication = 0 (*)
4-position indication = 1
5-position indication = 2
6-position indication = 3
Specified value 1
for remote display
10-4
70
QB
6, 7
6
0
6
INT
0 (*)
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Optional Components
Table 10-3
Remote display
Function
Data Record, Channel 1 (Channel 2)
S5
71
QB
14, 15
Interface parame- 59
ters for RS 232C
and TTY interface
(*)
Comments
S7
DR
No.
Specified value 2
for remote display
Format
DR
No.
DR
Byte
DR
Bit
Length
(Byte)
6
2
6
INT
0 (*)
5
1
6
BYTE
Bit0=0: With parity (*)
Bit0=1: Without parity
Bit1=0: Even parity (*)
Bit1=1: Odd parity
Factory setting
Output of the
indication data
When the type of indication is set via data record 5 or 72 (parameters not
dependent on the channel), the indication data are output on the TTY interface every 100 msec.
After 100 msec
Gross, scales 1
After 100 msec
Spec. value 1
After 100 msec
Gross, scales 2
Spec. value 2
After 100 msec
Settings on the remote display
When a digital remote display is connected to the SIWAREX U, settings
must be made on the remote display. The number of settings depends on the
remote display used.
For detailed information on the parameterization of remote displays, see the
documentation of the manufacturer of your remote display.
Table 10-4
Settings of the remote display
Meaning
Setting
Interface
TTY
Data format
8 bit
Parity
Even/odd/without
Baud rate
9600 Baud
Protocol
STX/ETX
Protocol response
None
Ignore characters (See protocol layout)
Ignore one character
Address length
2 positions
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10-5
Optional Components
Table 10-4
Number range
which can be
represented
Settings of the remote display
Meaning
Setting
Address
Gross value, channel 1
Specified value 1
Gross value, channel 2
Specified value 2
Timeout
Example: timeout after 2 sec
Decimal point
No decimal point
Leading zeros
Leading zeros are indicated.
Segment test
If present on the remote display, segment
test should be enabled.
= 01
= 05
= 21
= 06
Depending on the remote display selected, the weight value can be indicated
with 4, 5 or 6 digits. When negative values are involved, the minus sign
takes up one of the positions.
Example of a 5-digit display with 2 positions after the decimal point:
Display range -99.99 to 999.99.
When the number range which can be represented is exceeded, this is shown
by “- - - -”.
The following configurations should be avoided when representing output
values since negative values cannot be represented otherwise.
Table 10-5
10-6
Number range which can be indicated on the remote display
Remote Display Type
Number of Positions Configured after the Decimal
Point
4-digit remote display
3 positions after the decimal 0.123
point
-0.123 cannot be represented
since 5 positions required.
5-digit remote display
4 positions after the decimal 0.1234
point
-0.1234 cannot be represented
since 6 positions required.
6-digit remote display
5 positions after the decimal 0.12345
point
-0.12345 cannot be represented since 7 positions required.
Example
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Optional Components
Position of the decimal point
Weight values
The position of the decimal point can be specified via SIWATOOL or via the
SIMATIC separately for weight channel 1 and weight channel 2.
The decimal point position is kept static. After a decimal point position has
been parameterized, it is transferred with the protocol. When several remote
displays are used, the decimal point position can be set individually on some
remote displays by not specifying a decimal point position for the
SIWAREX U. The desired decimal point position must then be set directly
on the remote display.
Specified value
The SIWAREX U always transfers the specified values to the remote
display(s) without a decimal point. If you want to have a decimal point indicated, this must be set on the remote display.
Addressing
An address must be set on each display (e.g., by using the appropriate parameterization menu of the display). The address determines the value to be
indicated.
The following settings are possible
Table 10-6
Assignment of the addresses on the remote display
Address
ASCII coded 1)
01
Gross value, channel 1
05
Specified value 1
06
Specified value 2
21
Gross value, channel 2
1)
Protocol layout
Remote Display Data
Since the address is represented as ASCII characters in the remote display protocol,
address “01” corresponds to the ASCII characters 30h and 31h.
The layout of the protocol will now be described. All digital remote displays
which can be connected electrically to the SIWAREX U and which can be
operated with the described protocol can be used with the SIWAREX U.
Description of the protocol
Data format:
Baud rate:
Protocol:
Addressing:
SIWAREX U Equipment Manual
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8 bits, 1 stop bit
9600 Baud
STX/ETX without protocol response
2 bytes for addressing the displays
10-7
Optional Components
Table 10-7
Description of the string layout
Byte No.
Contents
Commentary/Example
4-Digit
Display
5-Digit
Display
6-Digit
Display
HEX
(Ex.)
1
1
1
STX
02
02h
2
2
2
Address
30
2 digits, ASCII-coded
3
3
3
Address
31
(can be parameterized on
display)
4
4
4
Reserved
20
Blank
5
5
5
1st digit
35
Weight value channel 1, 2
Specified value 1, 2
6
6
6
2nd digit
34
7
7
7
Decimal point
2C
8
8
8
3rd digit
33
9
9
9
4th digit
32
Blank
10
10
5th digit
31
Blank
Blank
11
6th digit
30
12
12
12
Reserved
20
Blank
13
13
13
Reserved
20
Blank
14
14
14
Reserved
20
Blank
15
15
15
ETX
03
(*)
(*) Position depends on the decimal point position parameterized for SIWAREX U.
If no decimal point is parameterized, the data string has one byte less.
Table 10-8
10-8
Character set used for display data
Character
Hexadecimal Code
Commentary
Digits 0 to 9
30 to 39
Minus sign “-”
2D
Sign for negative values
Underline “_”
5F
For “range exceeded” - indicated in
all character positions
Decimal point
2C
Decimal point representation
Blank
20
For blanking out characters
Letter E
45
For error display:
Letter r
72
“Error”
STX
02
Protocol control character for start of
data string
ETX
03
Protocol control character for end of
data string
Representation of the digits
SIWAREX U Equipment Manual
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Optional Components
Siebert remote
displays
Digital remote displays from the company Siebert Industrieelektronik GmbH
can be directly connected to the SIWAREX U via the TTY interface.
Remote displays which can be used:
-S10/SX10
-S30
-S70 (with option 97/16)
-S300
Siebert Industrieelektronik GmbH
Postfach 1180
D-66565 Eppelborn
Tel:
+49 (0) 6806/980-0
Fax:
+49 (0) 6806/980-111
Internet:
http://www.siebert.de
Contact the manufacturer for detailed information.
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10-9
Optional Components
10.2 Ex-i Interface for SIWAREX U
Description
An Ex-i interface must be switched between the SIWAREX U and the force
and pressure sensors when these sensors are located in potentially explosive
areas. The Ex-i interface SIWAREX Pi or SIWAREX IS is used for this purpose. This interface can be used for the SIWAREX U, P, M.
When the two-channel model of the SIWAREX U is used, each measuring
channel requires an Ex-i interface.
The Ex-i interface makes the 6 lines for connection of a load cell (i.e., supply, sense and measuring lines) intrinsically safe in accordance with ignition
protection type [EEx ib] IIC. ATEX approval certifies that pertinent standards and regulations have been complied with.
!
Danger
The safety of the potentially explosive area is dependent on this device.
Only qualified personnel may perform the required connection and installation work.
In case of non-adherence:
DANGER OF EXPLOSION !
10-10
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Optional Components
10.2.1 Layout
The Ex-i interface provides 6 safety barriers.
Two voltage limiters and 2 active current limiters are provided for each of the
two supply lines.
Two voltage limiters and 2 passive current limiters are provided for each of
the measured value lines and sense lines.
Shield
Shield
Supply
lines
Current
limiter
(active)
Voltage
limiter
1
Sense
lines
Voltage
limiter
Measured
value lines
Voltage
limiter
2
3
Current
limiter
(passive)
Current
limiter
(passive)
4
5
Intrinsically
safe area
6
Figure 10-4 Diagram of the Ex-i interface
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10-11
Optional Components
10-12
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SIWATOOL - Description and Use
Purpose
11
SIWATOOL is used for error diagnostics and to parameterize and commission the SIWAREX U. SIWATOOL can be started with Windows and
STEP 7.
SIWATOOL permits several SIWAREX U modules to be processed at the
same time.
However, only one SIWAREX U module can be parameterized online at the
same time.
When several scales are parameterized, the individual parameterization windows of several offline modules and one online module can be indicated simultaneously on the monitor screen.
This makes it easy to adjust parameters of different modules to each other, or
compare them.
Use
SIWATOOL runs under WINDOWS. It uses the typical WINDOWS environment and structure.
WINDOWS users will have no trouble using SIWATOOL. Its well-organized
pull-down menus make it almost self-explanatory. On-line aids provide support when commissioning the scales.
The status of the scales can be used as a diagnostic tool or for error diagnostics.
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11-1
SIWATOOL - Description and Use
11.1 Installing SIWATOOL on PC/PG
Requirements
The following requirements apply to the installation and use of SIWATOOL.
S PC (processor 80486 or later)
S Working storage (min. of 4 Mbytes)
S Windows 95/98/NT/ME/2000
S Hard disk (10 Mbytes free memory space)
S Free serial interface (COM n)
Installation
Proceed as follows to install SIWATOOL:
1. Place the installation CD (SIWAREX U configuration package)
in the drive.
2. Call the installation program via the Windows Explorer.
– SETUP.EXE is located in the “SIWATOOL” directory
3. Specify the installation directory and a program group.
4. Setup is now performed automatically.
Figure 11-1 S7 setup
11-2
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SIWATOOL - Description and Use
11.2 Commissioning SIWAREX U with SIWATOOL
If your SIWAREX U is to be commissioned online, the SIWAREX U must be
connected to the PC or PG (i.e., programmer) with a suitable, serial interface
cable (order no. 7MH4 607-8CA).
Start SIWATOOL
Call SIWATOOL:
S Double click the program icon
S Or double click SIWATOOL.EXE in Explorer
Set up new
scales
After the interface has been selected, a new set of scales can be set up via the
menu command “File > New”. The scales names and units of weights must
be set. The numbers 0 to 15 may be used as module numbers.
Note
Every SIWAREX U can be addressed with module number “0” regardless of
which module number is assigned to it.
If, for example, the module number “4” was assigned to a SIWAREX U, this
SIWAREX U can be addressed under module number “0” and “4”.
On delivery, the module number for the SIWAREX U has been set to “0” at
the factory. This means that the module number must always be specified as
“0” during initial commissioning. The module number can then be changed
later in the menu.
Select interface
After SIWATOOL has been started, the serial interface used on the PC/PG
(e.g., COM1) must be set via the menu command “Option > Select Interface”.
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11-3
SIWATOOL - Description and Use
Set interface
After the new set of scales has been set up, the message “No communication”
appears in the status bar. To establish communication, the serial RS 232 interface must now be set via the menu command “Option > Select Parity”.
Factory setting of SIWAREX U: Even parity
Activate
communication
The menu command “Module > Connect” causes the PC to establish communication with the SIWAREX U. The message “offline” disappears, and a
measured value is indicated.
If the SIWAREX U has not been adjusted yet, the measured value is still
“frozen” (i.e., it does not change when the scales are loaded).
Note
Even if the parity of the RS 232 interface has been set incorrectly,
SIWATOOL determines the correct interface setting automatically. If communication cannot be established after 20 seconds, check the following.
S The wiring
S The COM setting (COM1, COM2 ...)
S The module number
11-4
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SIWATOOL - Description and Use
11.3 SIWATOOL Menu Tree
After a new set of scales has been set up, the main menu bar is displayed.
The main menu bar contains the following submenus.
File
New
Open
Save
Save As...
Close
Print
Print Preview
Printer Set
Exit
Edit
Cut
Copy
Delete
Module
Connect
Disconnect
Read All Data
Send All Data
Digit Values
Read Memory
View
Error Report
Toolbar
Status Bar
Option
Select Interface
Select Parity
Window
Help
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Arrange
Arrange Icons
Cascade
Horizontally
Vertically
Contents
About
11-5
SIWATOOL - Description and Use
11.4 Adjustment of the Scales
Before adjusting the scales, you should always know the number of positions
after the decimal point since it determines the available resolution (see also
section 11.5).
Use the
button to access the “Adjustment Data” dialog.
Figure 11-2 Dialog on scales adjustment
New adjustment
When a new adjustment is to be performed, the factory settings should always be loaded first (“Factory” button).
The number of positions after the decimal point should then be specified
since the format of all other entries are based on this factor.
As the next step, enter the adjustment weight. These values are transferred to
the SIWAREX U by activating the Send button.
Note
Decimal points are indicated as “.” in SIWATOOL.
11-6
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SIWATOOL - Description and Use
Adjust with test
weight
Adjustment with a test weight is described in detail in section 3.3.
Proceed as follows with SIWATOOL.
S Enter characteristic value, decimal point and adjustment weight and then
press the “Send” button.
S Empty the scales, and activate the “Set as Zero” button.
S Load the scales with the test weight, and activate the “Adjust” button.
The adjustment digits “0” and “1” are not indicated by SIWATOOL until the
scales are in adjusted status (i.e., both the zero point and the adjustment
weight have been declared valid).
Theoretical adjustment
Theoretical adjustment is also described in section 3.3.
Other settings
After the scales have been adjusted, you can then enter the remaining settings
(e.g., filter and so on).
SEND
Clicking the “Send” button sends the settings entered with SIWATOOL to the
SIWAREX U.
RECEIVE
In reverse, the parameters set in SIWAREX U can be sent to SIWATOOL by
clicking the “Receive” button.
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11-7
SIWATOOL - Description and Use
11.5 Important Notes on Settings in SIWATOOL
Decimal point
The decimal point only applies to the remote displays. The weighing values
are represented as fixed point numbers without decimal point on the S7 bus
and the serial interfaces.
Example:
If the decimal point XX.XXX is set via SIWATOOL, a weighing value is indicated by SIWATOOL as 4,123 kg for example, and as the fixed point number 4123 by the SIMATIC.
(The weight values are shown on a remote display as they are shown in
SIWATOOL.)
The setting of the number of positions after the decimal point determines the
resolution available.
Table 11-1
Adjustment
Weight
Example
Measuring
Range
Digit
Increment
Resolution
in g
Resolution of
Measuring Range
100 kg
0 to 200 kg
1
1000 g
200 parts
100.00 kg
0 to 200.00 kg
1
10 g
20,000 parts
Changing the decimal point later may mean that you will also have to make
changes on the SIMATIC side.
Special case, DR5
S Module number
S Interface parameters
S Indication type
S Allocation of the LEDs
are parameterized in different SIWATOOL screens but are all stored in data
record DR5 of the SIWAREX U.
Remember that these 4 settings can only be read and written together.
Example:
When the indication type is written to the SIWAREX U, the module number,
interface parameters and LED allocation are also written to the
SIWAREX U.
11-8
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SIWATOOL - Description and Use
11.6 Weighing Status
The status window can be used to view the weighing status of the
SIWAREX U.
Figure 11-3 Status window of the set scales
Functions of the function keys (from left to right)
1st function key:
Set new weighing parameters
2nd function key:
Load weighing parameters
3rd function key:
Store weighing parameters
4th function key:
Print
5th function key:
Indicate program information
6th function key:
Error report
The weighing status and the weighing value are displayed on the monitor
screen.
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11-9
SIWATOOL - Description and Use
11.7 Diagnostic Capabilities with SIWATOOL
Error handling
When an online connection exists, the synchronous errors triggered by
SIWATOOL actions are indicated in an online error report. “Cut” or “Delete” can be used to delete the synchronous errors from the error report. Currently queued asynchronous errors are also indicated in the online error report. The error status of the SIWAREX U (i.e., group errors) is also indicated
in the main window.
Online error report
During online operation, SIWATOOL acquires and logs the errors of the scales.
The online error report is indicated by clicking on
.
Figure 11-4 Online error report
Version
information
The menu command “Help > About” can be used to read the firmware version of the SIWAREX U. In addition, the software status of SIWATOOL is
indicated. Before contacting our hotline for technical problems, please read:
1. The firmware version of SIWAREX U
2. The software status of SIWATOOL
Read memory
11-10
This function is only used by the Siemens hotline for service purposes.
SIWAREX U Equipment Manual
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12
Error Diagnostics and Treatment
General faults
The SIWAREX U supports the user during commissioning and troubleshooting with a structured diagnostic concept. The malfunction and error
messages are divided into various classes of errors.
When an error causes the SIWAREX U to switch to FAULT operating mode,
no weighing commands are possible. This operating mode is retained until
the fault has been corrected. An error acknowledgment is not required.
In this state, a command is rejected with an error message. Reading and
writing of data records is still possible if the type of error permits.
Internal errors and external errors cause the group error status (³ SF LED
goes on). The module switches to FAULT operating mode.
FAULT operating mode is exited automatically after the fault has been corrected (e.g., A/D converter, control level limit exceeded).
Error classification
The following table provides an overview of the various types of fault and
error messages and their differences.
Table 12-1
Types of errors
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Type of Error
Description
Data errors
(synchronous error) (*)
Plausibility errors which occur when parameters and prespecified values are transferred
Handling errors
(synchronous error) (*)
Errors which occur while a command is being executed.
The command is then not executed.
Internal errors
(asynchronous error)
Hardware errors which can be detected by the module and
which are reported
External errors
(asynchronous error)
Errors of the connected periphery (hardware errors)
Other errors
(section 12.2)
Errors which do not fit into one of the above mentioned
classes
(*)
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Synchronous errors are only reported back to the interface which caused the error.
12-1
Error Diagnostics and Treatment
Synchronous
errors
Synchronous errors are only output on the interface which caused the error.
Evaluation via data record DR31, 32 or 76.
Table 12-2
Synchronous errors
Bit
No.
Bit = 1
Corrective Measures
0
Adjustment command could not be
executed since the distance to the adjustment point is too short.
Use heavier adjustment weight (at
least 5% of the set measuring range).
1
Job could not be executed due to malfunction.
Correct module malfunction first.
2
A non-existent or inactive channel
was addressed.
Use another channel or enable the
channel.
3
Code not defined (e.g., limit frequency, digital filter and so on)
Use correct code.
4
Data record identifier unknown
Check data record identifier.
5
Command not possible since scales
not adjusted
Adjust scales first.
6
Wait time of 5 sec not adhered to during adjustment command
Adhere to the 5-sec wait time between
two adjustment commands.
7
The adjustment weight is negative.
Adhere to the permissible number
range.
7-15
Reserved
When the SIWAREX U is coupled to a host system with the RS 232C interface, a synchronous error in the acknowledgment telegram (DR101) may be
reported to the host. The error number is only valid for synchronous errors
and corresponds to the less significant byte of the synchronous error word.
!
12-2
Warning
In the event of an error, take appropriate measures by evaluating the error.
SIWAREX U Equipment Manual
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Error Diagnostics and Treatment
Asynchronous
errors
Asynchronous errors cause the group error state. The SF LED goes on, and
the module assumes malfunction status. This malfunction state is automatically exited as soon as the error is corrected. When a channel-related error
occurs on a two-channel module, the channel which is not malfunctioning
remains fully functional although the malfunction state is assumed.
Asynchronous errors are available on all interfaces.
Evaluation via data records DR31, 32 or 75
Table 12-3
Asynchronous errors
Bit
No.
Bit = 1
Corrective Measures
0
Control limit, ADC (*)
Is SIWAREX U characteristic value
range set incorrectly, or are the scales
overloaded?
1
Minimum voltage on sense line
(Usense± < 5V) (*)
S Check lines for wire breaks
S Load cells with 4-conductor technology:
Were wire jumpers forgotten?
S Max. cable length exceeded
S Short circuit in the power lines? If
so, both channels are affected.
2
Watchdog
3
Error in EPROM (program)
4
Error in EEPROM (data)
5
RAM error (read/write error)
6
ADC error during read-access
7
Number overflow for gross weight (*) Is SIWAREX U characteristic value
range set incorrectly, or are the scales
overloaded?
8
Ext. supply voltage (24 V)
9-15
(*)
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Reset module via power OFF/ON. If
th error continues
the
ti
to
t occur, execute
t
the load factory settings command. If
the error is still reported,
p
, contact the
hotline.
Check 24 V supply.
Reserved
These errors are only reported for specific channels. The other errors are entered for
both channels.
12-3
Error Diagnostics and Treatment
12.1 Error Treatment
Data errors
Data errors are plausibility errors which occur during the transmission of parameters and prespecified values.
These error messages are reported in the acknowledgment telegram and in
data record DR31/32 on the serial RS 232C interface.
When a data error occurs, none of the data of this data record are accepted
and processing continues with the old data.
Handling errors
Handling errors are errors which usually occur while a command is being
executed. When a handling error occurs, the desired command is not executed.
These error messages are reported in the acknowledgment telegram and in
data record DR31/32 on the serial interface.
Internal errors
Internal errors are hardware errors which have been detected by the module
and which can be reported.
These errors are reported on the S7 interface with a diagnosis alarm.
The current error states can be fetched with a fetch telegram on the serial
interfaces.
External errors
External errors are hardware errors of the connected periphery.
These errors are reported on the S7 interface with a diagnosis alarm.
The current error states can be fetched with a fetch telegram on the serial
interfaces.
12-4
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Error Diagnostics and Treatment
12.2 General Behavior During Malfunctions
Behavior during
malfunctions
When one channel of the module is malfunctioning due to an internal or external hardware error, commands cannot be issued to this channel. This does
not affect reading and writing data, or commands for other channels.
Channel-related asynchronous errors (minimum voltage underranged on
sense lines or measuring range exceeded, and so on) are only reported by
individual channel when the channel is enabled or is present. This makes it
possible to use only one channel of a two-channel module without wire
breaks being reported for the unused channel.
Other errors
Other errors are errors which do not fit the error classes previously mentioned. Examples include errors which can be deduced from the front LEDs or
errors which cause unusual behavior.
Various status and error message lamps are located on the right side of the
housing (see view of the front). These LEDs indicate various operating states.
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Table 12-4
Diverse errors
Behavior
Possible Cause
Corrective Measures
24 V present
(24 V LED on), but no
other function
Soldered in fuse on the
power supply PCB is defective, or other hardware
defect
Send in module for repairs
24 V present
(24 V LED on), but no
other function
SIWAREX U is not being
supplied with 5 V by the
S7 bus
Check bus plug connector.
Is S7 CPU or IM 153-1
turned on?
24 V LED off
24 V supply voltage is not
present
Turn on supply voltage
SF-LED on
Internal or external error
Cf. description of internal
and external errors
Failure of the 24 V supply voltage triggers a diagnostic alarm on the
SIMATIC S7.
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12-5
Error Diagnostics and Treatment
12-6
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Technical Specifications
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13
13-1
Technical Specifications
13.1 Interfaces
Voltage supply,
24 V DC
Voltage supply
from the
SIMATIC S7-300
backplane bus
13-2
A function low voltage with safe isolation (in accordance with EN 60 204-1,
section 6.4, PELV) must be provided by the system voltage supply.
Nominal voltage
24 V DC (Protection Against
Pole Reversal)
Lower/upper limits, static
20.4 V/28.8 V DC
(in acc. with DIN 19 240)
Lower/upper limits, dynamic
18.5 V/30.2 V DC
(in acc. with DIN 19 240)
Noncyclic overvoltages
35 V DC for 500 msec
at a recovery time of 50 sec
Maximum current consumption
220 mA
Power loss of the module (typical)
4.8 W
Switchon current surge at 25° C (typical)
2.5 A
Current consumption from S7-300 backplane bus
100 mA (typical)
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Technical Specifications
Load cell interface
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Class accuracy at 20° C "10 K
0.05 %
(0.05% with Ex-i interface)
Minimum measuring signal D uMin per d
1.5 mV
Update rate
20 msec
100 msec (up to release
status 4)
Internal resolution
16 bits (65,535 parts)
Representation range of the weight values
-32,768 to 32,767
3 measuring ranges
0 to 1 mV/V
0 to 2 mV/V
0 to 4 mV/V
Permissible range of the measuring signal (largest
characteristic value set)
–1.5 to 42.5 mV
Max. distance of the load cell
1000 m (*)
Max. distance of the load cell to the Ex-i interface in
Ex area
Gas group II B: 1000 m (*)
Gas group II C: 300 m (*)
Load cell supply
S Short circuit and overload-
S Voltage
S Current per channel
proof
S 6-conductor technology
S Wire break monitoring
Typical DC 10.3 V (**)
v 240 mA (one-channel SIWAREX U)
v 120 mA (two-channel SIWAREX U per channel)
Permissible load cell resistance without
Ex-i interface
> 41 Ω (one-channel SIWAREX U)
> 82 Ω (two-channel SIWAREX U)
< 4010 Ω
Permissible load cell resistance with Ex-i interface
> 87 W
< 4010 W
Monitoring of the sense inputs
" 2.5 V
Hysteresis, 300 mV
Max. permissible input voltage on the signal and
sense inputs
15 V
Triggering time of the sense line monitor
1 sec
Noise (band width of 10 Hz)
150 nV, typical
Common mode suppression, CMRR @ 50 Hz
200 dB, typical
Measured value filter
- Digital filter, 4th order, critical attenuation
0.5 to 5 Hz
- Switchable, average value filter
Average value over 32
measured values
(*) The minimum voltage must be maintained on the sense lines.
(**) Measured values apply to the output of the module.
SIWAREX U Equipment Manual
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13-3
Technical Specifications
RS 232 interface
TTY interface
Data buffering
Baud rate
9600 baud
Max. distance
15 m
Signal level
In acc. with EIA-RS 232C
Max. loop current for external supply
(Must be provided by the user)
25 mA
Operating mode
One-direction
(i.e., only sending (TxD))
Typ. loop current
20 mA
Potential isolation (external supply)
500 V
Baud rate
9600 baud
Max. distance (external supply)
1000 m
Max. external voltage, sender
Max. of 28.8 V
Voltage drop, sender (typ.)
0.5 V
Basic data (i.e., parameterization data and adjustment data) are backed up on
EEPROM memory safe from loss due to a power failure.
Since it is not equipped with a battery, the module is completely maintenance
free.
Reliability
13-4
Buffering time of the data in the EEPROM
100 years
Permissible number of write accesses for
EEPROM
100,000
MTBF in acc. with SN 29500
40 years
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Technical Specifications
13.2 Physical Requirements and Data
Dimensions
40 mm
130 mm
SIWAREX U
WEIGHING MODULE
SF
24V
ST1
ST2
125 mm
X2
34
Weight: Approx. 325 g
Figure 13-1 Dimensions
Tests
Test
Standards
Test Values
Vibration stress
DIN IEC 68-2-6
Class 3M3
during operation
DIN IEC 721, part 3-3
Test Fc
IEC 1131-2
10 to 58 Hz: 0.075 mm displacement
58 to 150 Hz: 9.8 m/sec2
10 cycles per axis
1 octave/min.
Shock stress
DIN IEC 68-2-27
Class 3M3
during operation
DIN IEC 721, part 3-3
Test Ea
IEC 1131-2
150 m/sec2, semi-sinus
Duration: 11 msec
Number: 3 per axis
In neg. and pos. direction
SIWAREX U Equipment Manual
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13-5
Technical Specifications
13.3 Electrical, EMC and Climatic Requirements
Electrical Protection and Safety Requirements
Requirement Met
Standards
Remarks
Safety regulations
EN 60 204, DIN VDE 0113
The electrical protection and safety
requirements stated in UL, CSA and
FM are met. UL, CSA, and FM certification has been granted.
IEC 1131, UL 508
CSA C22.2, no. 142
FM class I, div. 2
UL/CSA
Protection class
IP protection class
Air and creep paths
VDE 0106, part 1
IEC 536
Protection class I, with protective
conductor
DIN 60 529 (x.xx)
In S7 rack: IP20
IEC 529
SIWAREX U alone: IP10
IEC 1131
Overvoltage category II
UL 508
Degree of soiling: 2
CSA C22.2, no. 142
PCB material IIIa
Printed circuit interval: 0.5 mm
Isolation test
Fire resistance
IEC 1131-2: 1992
Nominal voltage: 24 V
CSA C22.2, no. 142
Test voltage: 500 V DC
For open type controller:
IEC 1131-2: 1992, UL 508
Manufacturing materials
SN 36350 (3.93)
Electromagnetic Compatibility
Remarks
Standards
Accuracy
Burst pulses on current supply lines:
DIN EN 61 000-4-4
(DIN VDE 0843 T4)
2 kV
(in acc. with 90/384/EWG 1 kV)
Burst pulses on data and signal lines:
DIN EN 61 000-4-4
(DIN VDE 0843 T4)
2 kV
(in acc. with 90/384/EWG 0,5 kV)
Electrostatic contact discharge (ESD)
DIN EN 61 000-4-4
(DIN VDE 0843 T2)
6 kV
Electrostatic air discharge (ESD)
DIN EN 61 000-4-4
(DIN VDE 0843 T4)
8 kV
Impulse voltage/surge on current
supply lines
DIN EN 61 000-4-5
(DIN VDE 0843 T10)
" 2 kV non-symmetric(*)
" 1 kV symmetric
Impulse voltage/surge on data and
signal lines:
DIN EN 61 000-4-5
(DIN VDE 0839 T10)
" 1 kV non-symmetric(*)
RF emission (electromagnetic fields),
10 kHz to 80 MHz
DIN EN 61 000-4-3
(DIN VDE 0843 T3)
Up to 3 V/m
RF emission (electromagnetic fields),
80 MHz to 1000 MHz
DIN EN 61 000-4-3
(DIN VDE 0843 T3)
Up to 10 V/m
(in acc. with 90/384/EWG 3 V/m)
RF electrification 10 kHz to 80 MHz
IEC 801-6
10 V (mod: 80% AM with 1 kHz)
ÁÁÁÁÁÁÁÁÁÁ
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ÁÁÁÁÁÁÁÁÁÁ
ÁÁÁÁÁÁÁÁÁÁÁ
13-6
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Technical Specifications
Remarks
Standards
Accuracy
Interference suppression (**)
EN 55 011, VDE 0875, part 11
Class A
(*) Must be ensured via external protective components
(**) Additional measures are required (e.g., installation in 8MC cabinets) when used in residential areas.
EMC
The guidelines contained in part 1 of NAMUR NE21, and 89/336/EWG
covering emission and resistance to electromagnetic interferences have been
complied with for electromagnetic compatibility.
Environmental
requirements
The SIWAREX U is designed for permanent use in SIMATIC S7-300 systems, protected from the weather. IEC 1131-2 describes the conditions of
use.
When used under particularly rugged operating conditions (e.g., high degree
of dust, presence of caustic fumes or gases, etc.), additional protection must
be provided (e.g., encapsulation).
Climatic Requirements
Remarks
Environmental Requirements
Application Areas
Vertical installation in S7-300
0° to +60° C
Horizontal installation in S7-300
0° to +40° C
The standard S7-300 modules may
not be operated at temperatures of
under 0° C.
Storage and transportation temperature
-40° to +70° C
Relative humidity
5 to 95%
Without condensation. Corresponds
to relative humidity degree 2 in acc.
with DIN IEC 1131-2.
Air pressure during operation
795 to 1080 hPa
Corresponds to a height of
Operating temperature:
(-1000 to 1500 m above sea level)
Air pressure during storage
660 to 1080 hPa
Corresponds to a height of
(-1000 to 3500 m above sea level)
Pollution concentration
SO2: < 0.5 ppm
Rel. hum. < 60%, no condensation
H2S: < 0.1 ppm
SIWAREX U Equipment Manual
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13-7
Technical Specifications
13.4 Potential Isolation
S7 bus interface
100K
24 V supply
pin 1/2
100K
100K
Load cell
pin 8-13* or
pin 15-20
RS 232C
interface
TTY interface
* Only for two-channel SIWAREX U
13-8
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Hotline/Repairs/Replacement Parts/Internet
14
Hotline
Siemens AG
A&D PI 14
Tel: +49 (0)721 595 2811
Fax: +49 (0)721 595 2901
Repairs/
replacement parts
Contact your Siemens representative at your local or national branch.
Internet
Information available under Internet address
http://www.siwarex.de/
S Product information
S Training courses
S Information on current software states
S Downloads
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
14-1
Hotline/Repairs/Replacement Parts/Internet
14-2
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Index
A
A/D conversion, 3-2
Accuracy, 13-3
Active backplane bus, 5-2
Addressing, IM 308C, 6-6
Adjustment procedure, 3-5
Adjustment with adjustment weight, 3-4
Asynchronous errors, 9-14, 12-3
S5, 6-24
S7, 5-4
B
Backup, 3-16
Basic parameters, 5-1
S5, 6-10
BASP signal, 3-18
Booting, 3-14
Bus connector, 2-5
C
Calibration, 3-2
Channel, 3-18
Characteristic value, 3-4
Commissioning, preparation for, 2-16
Communication types, overview, 2-19
Connection, Remote displays, 10-3
Connection elements, 2-8
D
Data backup, 3-16
Data consistency, S5, 6-7
Data errors, 12-4
S7, 5-3
Data formats in S5/S7, 9-3
Data records, overview, 4-4, 9-1
Decimal place, 3-4
Default values, 3-17
Diagnostic alarm
Enable in S7, 5-1
S7, 5-3
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Diagnostics
S5, 6-24
S7, 5-4
Digital filter, 3-3
Distributed, S5/S7 overview, 1-5
DR0, 9-4
DR1, 9-6
DR100, 9-17
DR101, 9-17
DR11, 9-11
DR12, 9-12
DR21, 9-12
DR22, 9-12
DR3, 9-7
DR31, 9-13
DR32, 9-13
DR4, 9-9
DR40, 9-15
DR5, 9-9
DR57 to 79, 9-16
DR6, 9-10
E
EEPROM, 3-4, 3-10, 3-12, 4-3
EMC, 13-7
Enable in S7, 5-1
Environmental requirements, 13-7
Equipotential bonding conductor, 2-11
Error classification, 12-1
Error diagnostics, 12-1
Ex area, 10-10
Ex-i interface, 10-10
External devices, 10-1
External errors, 12-1, 12-4
F
Factory setting, 3-17
FB 192 release states, 6-1
Fill level scales, 1-9
Front, 2-8
Functions, 3-1
Index-1
Index
G
N
GSD files, 7-1
Number of SIWAREX U, 2-3
H
O
Handling errors, 12-4
S7, 5-3
Hotline, 14-1
OD signal, 3-18
Overview, 1-9
SIWAREX U, 1-3
system intagration, 1-4
I
I/O area, allocation, 6-11
I/O communication in S7, 5-2
IM 153-1, release states, 6-2
IM 308-C
Release states, 6-1
Transmission speeds, 6-2
Indicators, 2-8
Installation, SIWATOOL, 11-2
Internal errors, 12-1
Internet, 14-1
Introduction to SIWAREX U, 1-2
P
Parameter assignment, overview, 2-18
PC connection, wiring, 2-13
Periphery, Overview, 1-7
Potential isolation, 13-8
Power failure, 3-16
Power supply, 2-8, 2-9
Printer, 10-1
Process interrupts
Enable in S7, 5-1
S7, 5-2
J
R
Job control, I/O communication, 6-11
Readjustment, 3-5
Remote display connection, wiring, 2-15
Remote displays, 10-2
Protocol layout, 10-7
Settings, 10-5
Repair, 14-1
Replacement parts, 14-1
RS 232C interface, 2-13
L
LED, 2-8, 2-17
Allocation of, 3-17
Error message, 12-5
LED color, 2-8
Life bit, I/O communicaton, 6-13
Limit values, 3-12
Load cell connection, 2-10
Load cell interface
4-wire technique, 2-11
6-wire technique, 2-11
M
M7-300, Overview, 1-4
Mean value filter, 3-3
Measured value acquisition, 3-2
Max. limit values, 3-12
Min. limit values, 3-12
Mounting, how to, 2-5
Mounting elements, load cells, 1-8
Index-2
S
S5-95U/DP
Release states, 6-2
Transmission speeds, 6-2
S7 setup, 5-1
S7-300, Overview, 1-4
Safety, 3-14
Notes on, 2-1
Safety precautions, 2-3
Sample program
S5, 6-16
S7, 5-3
Scales functions, 3-1
Screw terminals, 2-10, 2-13, 2-14
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
Index
Serial interface, 2-13, 2-15
Setting to zero, 3-10
Setup
Scales, mechanical, 1-8
SIWAREX Pi, 10-11
SIWAREX U, 1-7
Setup for STEP7, 5-1
SFC communication in S7, 5-2
Shield, mounting, 2-7
Shield holder element, 2-5
Shield terminal, 2-5, 2-7
SIWAREX U, 10-10
SIWATOOL, 11-1
Slot, SIWAREX U, 2-3
Stand alone, 1-7
Standard master, 7-1
Status byte, 9-13
I/O communication, 6-12
Synchronous errors, 12-2
S5, 9-15
S7, 5-4
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
System integration, Overview, 1-4, 4-2
T
Technical specifications, 13-2
Theoretical adjustment, 3-6
TTY interface, 2-15
Typendateien, 6-5
Types of access, S5, 6-10
Types of addressing, IM 308-C, 6-8
W
Weighing channel, 3-18
Weighing functions, overview, 1-9
Weight calculation, 3-4
Wire break monitoring, 3-14
Wiring, 2-7
Index-3
Index
Index-4
SIWAREX U Equipment Manual
(4) J31069-D0605-U001-A3-7618
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