system element manual

TM 1703 ACP

PE-640x/USIO65

System Element Manual

© 2006 by Siemens Aktiengesellschaft Österreich All rights reserved Any type of disclosure and reproduction of this document or of parts thereof is permitted only with consent prior written by Siemens. Technical specifications serve the purpose of describing the products only and do not represent any warranted characteristics in legal terms. Subject to change - also as regards technological aspects.

ii DC6-011-2.01 System Element Manual PE-640x/USIO65

Identification PE-640x_USIO65.201

Version.Revision 2.01

Issuing date 05.10.06

This document is applicable to the following product(s):

TM 1703 ACP

Table of Contents

System Element Manual PE-640x/USIO65 DC6-011-2.01 iii

Table of Contents

1. Introduction........................................................................................................1-1

1.1. Purpose ....................................................................................................................................1-1

1.2. Application................................................................................................................................1-1

1.3. Target Group and Safety Instructions ......................................................................................1-2

2. Peripheral Element PE-640x/USIO65................................................................2-1

2.1. Features and Functions ...........................................................................................................2-1

2.1.1. Acqusition Functions in Detail ..........................................................................................2-3

2.1.2. Output Functions in Detail ................................................................................................2-7

2.1.3. Further Functions ...........................................................................................................2-10

2.2. Architecture ............................................................................................................................2-12

2.2.1. Mechanical Design .........................................................................................................2-12

2.2.2. Connection to the higher-level Basic System Element ..................................................2-12

2.2.3. Power Supply..................................................................................................................2-13

2.2.4. Peripheral Control Modules ............................................................................................2-13

2.2.5. I/O Modules ....................................................................................................................2-13

2.2.5.1. Configuration...........................................................................................................2-14

2.2.6. System-Busses...............................................................................................................2-14

2.2.6.1. TM Bus....................................................................................................................2-14

2.2.6.2. Ax 1703 Peripheral Bus ..........................................................................................2-15

2.3. System Properties ..................................................................................................................2-16

2.3.1. LED Display during Startup ............................................................................................2-16

2.3.2. Behavior during Startup (Periodic Information) ..............................................................2-16

2.3.3. Response Time (Periodic Information)...........................................................................2-17

2.4. Details regarding Selected Functions ....................................................................................2-18

2.4.1. I/O Module Monitoring ....................................................................................................2-18

2.4.2. Ax 1703 Peripheral Bus Monitoring................................................................................2-18

2.4.3. Behaviour in case of a Configuration Change................................................................2-18

2.5. Data Points.............................................................................................................................2-19

2.5.1. Periodic Information Sent to the Open-/Closed-Loop Control Function .........................2-19

2.6. Data Interface Basic System Element (BSE) – Peripheral Element (PE).............................2-20

2.6.1. General Data Points .......................................................................................................2-21

2.6.2. Single-Point Information .................................................................................................2-21

2.6.3. Double-Point Information................................................................................................2-22

2.6.4. Integrated Totals via Count Pulses ................................................................................2-23

2.6.5. Currents ..........................................................................................................................2-24

2.6.6. Voltages..........................................................................................................................2-25

2.6.7. Temperatures .................................................................................................................2-26

2.6.8. General Data Points - Pulse Command .........................................................................2-27

2.6.9. Pulse Command - Single Command - 1pole (DI-6200)..................................................2-28

2.6.10. Pulse Command - Single Command - 1pole (DO-6212) ................................................2-29

2.6.11. Pulse Command - Single Command - 1,5pole (DO-6212).............................................2-30

2.6.12. Pulse Command - Single Command - 2pole (DO-6212) ................................................2-31

2.6.13. Pulse Command - Double Command - 1pole (DO-6200) ..............................................2-32


2.6.15. Pulse Command - Double Command - 1,5pole (DO-6212) ...........................................2-35


2.6.17. Binary Information Output (DO-6200) ............................................................................2-37

2.6.18. Binary Information Output (DO-6212) ............................................................................2-37

2.6.19. Setpoint Values by means of Currents...........................................................................2-38

2.6.20. Setpoint Values by means of Voltages...........................................................................2-39

3. PE-6400 Peripheral Control Module .................................................................3-1

3.1. Features and Functions ...........................................................................................................3-1

Table of Contents

iv DC6-011-2.01 System Element Manual PE-640x/USIO65

3.2. Block Diagram and View ......................................................................................................... 3-2

3.3. Technical Specifications .......................................................................................................... 3-3

3.4. Pin Assignment and Display.................................................................................................... 3-4

4. PE-6401 Peripheral Control Module................................................................. 4-1

4.1. Features and Functions........................................................................................................... 4-1




5. PE-6402 Peripheral Control Module................................................................. 5-1





6. Power Supply Module PS-6620 ........................................................................ 6-1




6.4. Details regarding Selected Functions...................................................................................... 6-4

6.4.1. Short-Circuit Protection.................................................................................................... 6-4

6.4.2. Interruption bridging ......................................................................................................... 6-4


6.6. External Circuit Elements ........................................................................................................ 6-6



















9. I/O Module DI-6100 ............................................................................................ 9-1





9.4.1. Power Monitoring ............................................................................................................. 9-4



9.7. Data Points and Settings ......................................................................................................... 9-7

Table of Contents

System Element Manual PE-640x/USIO65 DC6-011-2.01 v

10. I/O Module DI-6101...........................................................................................10-1

10.1. Features and Functions .........................................................................................................10-1

10.2. Block Diagram and View ........................................................................................................10-2

10.3. Technical Specifications.........................................................................................................10-3


10.4.1. Power Monitoring............................................................................................................10-4

10.5. Pin Assignment and Display ..................................................................................................10-5

10.6. External Circuit Elements.......................................................................................................10-6

10.7. Data Points and Settings........................................................................................................10-7

11. I/O Module DI-6102...........................................................................................11-1









12. I/O Module DI-6103...........................................................................................12-1









13. I/O Module DI-6104...........................................................................................13-1









14. I/O Module DO-6200 .........................................................................................14-1







15. I/O Module DO-6212 .........................................................................................15-1







Table of Contents

vi DC6-011-2.01 System Element Manual PE-640x/USIO65

16. I/O Module AI-6300 .......................................................................................... 16-1

16.1. Features and Functions......................................................................................................... 16-1

16.2. Block Diagram and View ....................................................................................................... 16-2

16.3. Technical Specifications ........................................................................................................ 16-3

16.4. Pin Assignment and Display.................................................................................................. 16-4

16.5. External Circuit Elements ...................................................................................................... 16-5

16.6. Data Points and Settings ....................................................................................................... 16-6

17. I/O Module AI-6307 .......................................................................................... 17-1







18. I/O Module AI-6310 .......................................................................................... 18-1







19. I/O Module AO-6380 ........................................................................................ 19-1







20. System Components....................................................................................... 20-1

20.1. Modules ................................................................................................................................. 20-1

20.2. Accessories ........................................................................................................................... 20-5

20.2.1. Connecting Cable: Peripheral Control Module PE-6400 Bus Interface CM-0843 .... 20-5

20.2.2. Connecting Cable: Peripheral Control Module PE-6401(2) Bus Interface CM-0843 20-5

20.2.3. Miscellaneous ................................................................................................................ 20-6

21. Further Documents ......................................................................................... 21-1

A. Process-technical Parameters .........................................................................A-1

A.1. USIO65/AI_I.............................................................................................................................A-1

A.2. USIO65/AI_T ...........................................................................................................................A-2

A.3. USIO65/AI_U...........................................................................................................................A-3

A.4. USIO65/AO_I...........................................................................................................................A-5

A.5. USIO65/AO_U .........................................................................................................................A-7

A.6. USIO65/DI_CV ........................................................................................................................A-9

A.7. USIO65/DI_DI........................................................................................................................A-10

A.8. USIO65/DI_SI ........................................................................................................................A-11

A.9. USIO65/DO_DC_1POL .........................................................................................................A-12

A.10. USIO65/DO_R_DC_1,5POL .................................................................................................A-19

A.11. USIO65/DO_R_DC_1POL ....................................................................................................A-25

A.12. USIO65/DO_R_DC_2POL ....................................................................................................A-31

A.13. USIO65/DO_R_SC_1,5POL..................................................................................................A-38

A.14. USIO65/DO_R_SC_1POL.....................................................................................................A-42

A.15. USIO65/DO_R_SC_2POL.....................................................................................................A-46

Table of Contents

System Element Manual PE-640x/USIO65 DC6-011-2.01 vii

A.16. USIO65/DO_R_SI ................................................................................................................. A-50

A.17. USIO65/DO_SC_1POL......................................................................................................... A-51

A.18. USIO65/DO_SI...................................................................................................................... A-55

A.19. USIO65/SW_CONTROL_LOCATION................................................................................... A-57

A.20. USIO65/SW_CO_INTER ...................................................................................................... A-58

A.21. USIO65/SW_CO_SYNC_A................................................................................................... A-59

A.22. USIO65/SW_CO_SYNC_R................................................................................................... A-59

A.23. USIO65/SW_CV_SET........................................................................................................... A-60

A.24. USIO65/SW_DI ..................................................................................................................... A-61

A.25. USIO65/SW_DI_AR .............................................................................................................. A-62

A.26. USIO65/SW_DI_BT............................................................................................................... A-62

A.27. USIO65/SW_DI_SOR ........................................................................................................... A-63

A.28. USIO65/SW_DO ................................................................................................................... A-63

A.29. USIO65/SW_LOC_REM ....................................................................................................... A-64

A.30. USIO65/SW_REV ................................................................................................................. A-65

A.31. label ....................................................................................................................................... A-66

B. Diagnostics Information................................................................................... B-1

B.1. Class Internal .......................................................................................................................... B-1

B.1.1. Class Internal - Record 0 : Operating system ................................................................. B-1

B.1.2. Class Internal - Record 1 : Data interface for spontaneous information objects............. B-1

B.1.3. Class Internal - Record 2 : Single-point and double-point information............................ B-1

B.1.4. Class Internal - Record 6 : I/O Modul wrongly mounted .............................................. B-1

B.1.5. Class Internal - Record 7 : Current and voltage, offset ................................................... B-2

B.1.6. Class Internal - Record 8 : Current and voltage, offset ................................................... B-2

B.1.7. Class Internal - Record 9 : Current and voltage, EEPROM ............................................ B-3

B.1.8. Class Internal - Record 10 : Current and voltage, EEPROM .......................................... B-3

B.1.9. Class Internal - Record 11 : Current and voltage output, EEPROM ............................... B-3

B.1.10. Class Internal - Record 12 : Current and voltage output, EEPROM ............................... B-4

B.1.11. Class Internal - Record 13 : I/O module failed ............................................................. B-4

B.1.12. Class Internal - Record 14 : Pulse command, firmware error of the control circuit check......................................................................................................................................... B-5

B.1.13. Class Internal - Record 15 : Temperature, calibration error............................................ B-5

B.1.14. Class Internal - Record 16 : Temperature, calibration error............................................ B-5

B.1.15. Class Internal - Record 17 : Temperature, transmission error ........................................ B-6

B.1.16. Class Internal - Record 18 : Temperature, transmission error ........................................ B-6

B.2. Class External ......................................................................................................................... B-7

B.2.1. Class External - Record 3 : Single-point and double-point information, signalling voltage failed ................................................................................................................................ B-7

B.2.2. Class External - Record 4 : IOM0 Pulse command, status information for command missing............................................................................................................................. B-7






B.2.8. Class External - Record 10 : IOM6 Pulse command, status information for command missing........................................................................................................................... B-10

B.2.9. Class External - Record 11 : IOM7 Pulse command, status information for command missing........................................................................................................................... B-10

B.2.10. Class External - Record 12 : Current and voltage, open circuit .................................... B-11

B.2.11. Class External - Record 13 : Current and voltage, open circuit .................................... B-11

B.3. Class Test ............................................................................................................................. B-12

B.3.1. Class Test - Record 0 : Operating system .................................................................... B-12

Table of Contents

viii DC6-011-2.01 System Element Manual PE-640x/USIO65

B.4. Class Warning .......................................................................................................................B-12

B.4.1. Class Warning - Record 0 : General..............................................................................B-12

B.4.2. Class Warning - Record 1 : Firmware............................................................................B-13

B.4.3. Class Warning - Record 2 : Current and voltage, parameter ........................................B-13

B.4.4. Class Warning - Record 3 : Error in parameters for set-point command ......................B-13

B.4.5. Class Warning - Record 4 : Error in parameters for set-point command ......................B-13

C. Reader´s Reactions...........................................................................................C-1

Table of Contents

System Element Manual PE-640x/USIO65 DC6-011-2.01 ix

Figures

Fig. 3-1 PE-6400 Block Diagram and View ........................................................................................3-2

Fig. 3-2 PE-6400 Pin Assignment and Display...................................................................................3-4





Fig. 6-1 PS-6620 Block Diagram and View ........................................................................................6-2

Fig. 6-2 PS-6620 Interruption bridging................................................................................................6-4

Fig. 6-3 PS-6620 Pin Assignment and Display...................................................................................6-5

Fig. 6-4 PS-6620 External Circuit Elements .......................................................................................6-6









Fig. 9-1 DI-6100 Block Diagram and View..........................................................................................9-2

Fig. 9-2 DI-6100 Pin Assignment and Display ....................................................................................9-5

Fig. 9-3 DI-6100 External Circuit Elements ........................................................................................9-6

Fig. 10-1 DI-6101 Block Diagram and View........................................................................................10-2

Fig. 10-2 DI-6101 Pin Assignment and Display ..................................................................................10-5

Fig. 10-3 DI-6101 External Circuit Elements ......................................................................................10-6










Fig. 14-1 DO-6200 Block Diagram and View......................................................................................14-2

Fig. 14-2 DO-6200 Pin Assignment and Display ................................................................................14-4

Fig. 14-3 DO-6200 External Circuit Elements.....................................................................................14-5

Fig. 15-1 DO-6212 Block Diagram and View......................................................................................15-2

Fig. 15-2 DO-6212 Pin Assignment and Display ................................................................................15-4

Fig. 15-3 DO-6212 External Circuit Elements.....................................................................................15-5

Fig. 15-4 DO-6212 Protection of external Circuitry.............................................................................15-6

Fig. 16-1 AI-6300 Block Diagram and View........................................................................................16-2

Fig. 16-2 AI-6300 Pin Assignment and Display ..................................................................................16-4

Fig. 16-3 AI-6300 External Circuit Elements.......................................................................................16-5







Fig. 19-1 AO-6380 Block Diagram and View ......................................................................................19-2

Fig. 19-2 AO-6380 Pin Assignment and Display ................................................................................19-4

Fig. 19-3 AO-6380 External Circuit Elements.....................................................................................19-5

Table of Contents

x DC6-011-2.01 System Element Manual PE-640x/USIO65

Introduction

System Element Manual PE-640x/USIO65 DC6-011-2.01 1-1

1. Introduction

1.1. Purpose

This manual describes the function and mode of operation of the PE-640x/USIO65 system element.

It is targeted at the designers, and essentially contains

• Functional descriptions

• Technical Specifications

• Descriptions of interfaces to the process and other system elements

• Possible configurations

1.2. Application

The PE-640x/USIO65 peripheral element is used in the Error! No property name supplied. system for connecting I/O modules to a basic system element with open-/closed-loop control function (master control element, processing element).

Product TM 1703 ACP

System element type Peripheral element

consists of • a PE-640x peripheral control module with USIO65 firmware

• up to 8 I/O modules

• a power supply PS-6620, PS-6630 or PS-6632

can be used in • TM 1703 ACP

• AK 1703 ACP

Engineering SAT TOOLBOX II with OPM II

Mechanics Clamp on DIN rail

Introduction

1-2 DC6-011-2.01 System Element Manual PE-640x/USIO65

1.3. Target Group and Safety Instructions

The document you are reading right now is addressed to users, who are in charge of the following engineering tasks:

• Conceptual activities, as for example design and configuration

• Creation of the assembly technical documentation using the designated engineering tools

• System parameterization and system diagnostic, using the designated engineering tools

• Technical system maintenance

Above applies, as far as these tasks do not involve manipulations of the hardware.

Manipulating the hardware itself, as for example "unplugging" and "plugging" printed circuit boards and modules, or working on terminals and/or connectors – for instance when applying changes to the wiring – are – also if they are an issue in the context of configuration, parameterization and diagnostic – not subject of this document.

For activities, which comprise hardware manipulations, it is essential to pay attention to

the appropriate safety instructions and to strictly adhere to the appropriate safety

regulations.

Instructions and regulations are also stated in installation manuals or manuals which

deal with hardware installation and other hardware manipulations.

Peripheral Element PE-640x/USIO65


2. Peripheral Element PE-640x/USIO65

PE-640x/USIO65 is mainly used in telecontrol and automation. The peripheral element is in charge for process data input and output. For this it is supported by I/O modules.

2.1. Features and Functions

System element for interfacing I/O modules via the TM bus

• up to 8 I/O modules

• focus on telecontrol acquisition, conditioning and output of process data using I/O modules acc. to

IEC 60870-5-101/104

• automation

• open- and closed-loop control (cycle time typically 100ms and slower)

• function and error indication via LED

• 16 Mbps Ax 1703 peripheral bus (electrical, optical)

Supports I/O modules for process input

• binary signals

• analog signals (currents, voltages, temperatures)

Supports I/O modules for process output

• binary signals

• analog signals (currents, voltages)

Power to be supplied by PS-6620, PS-6630 or PS-6632

• Common Functions

I/O module monitoring, failure management Signaling via LED's

• Functions for Telecontrol and Automation

Acquisition and processing of process data according to IEC 60870-5-101/104

The functions, specific for each I/O module, are listed in the following. Footnotes are used to specify the effect of the functions in detail (they are explained at the bottom of this page)

Output of process data according to IEC 60870-5-101/104

− The functions, specific for each I/O module, are listed in the following. Footnotes are used to specify the effect of the functions in detail (they are explained at the bottom of this page)

Transmission of spontaneous process information to the basic system element for further distribution

Transmission of periodical process information, from and to the open-/closed-loop control function in the higher-level basic system element

The functions stated above are described in detail in the document SAT 1703 Common Functions Peripheral Elements according to IEC 60870-5-101/104



t Telecontrol the function affects process information which is spontaneously transmitted

t1 Telecontrol the function delivers (acquisition) spontaneously transmitted process information or is controlled by such information (output); partly, periodically transmitted information is also created/required

a Automation the function affects process information which is periodically transmitted



2.1.1. Acqusition Functions in Detail

DI-6100 Binary Input 2x8, 24-60VDC DI-6101 Binary Input 2x8, 110/220VDC DI-6104 Binary Input 2x8, 220VDC

• single-point information

acquisition with a resolution of 10ms t update every 10ms a

(or with the same cycle as the open-/closed-loop control function in the basic system element, depending on which cycle is larger)

revision ta power monitoring ta inversion ta firmware filter t bounce suppression t determination of the cause of transmission t spontaneous transmission of changes t periodical transmission a

• double-point information



revision ta power monitoring ta inversion ta firmware filter t bounce suppression t monitoring intermediate and faulty positions t determination of the cause of transmission t reporting switching operations in progress t breaker tripping detection t breaker tripping suppression during auto-reclose t spontaneous transmission of changes t periodical transmission a

• integrated totals via count pulses (via binary inputs of the module) t1

acquisition by firmware with a maximum count frequency of 20Hz − pulse length/pause >20ms/>20ms − revision − power monitoring − inversion − pulse counting

counter value formation − count pulse evaluation − set counter

formation of integrated totals − counter request − interval control − freezed absolute value − freezed relative value

not power-fail safe integrated total transmission according to IEC 60870-5-101 spontaneous transmission



DI-6102 Binary Input 2x8, 24-60VDC 1ms DI-6103 Binary Input 2x8, 110/220VDC 1ms

• single-point information



revision ta power monitoring ta inversion ta firmware filter t bounce suppression t determination of the cause of transmission t spontaneous transmission of changes t periodical transmission a

• double-point information



revision ta power monitoring ta inversion ta firmware filter t bounce suppression t monitoring intermediate and faulty positions t determination of the cause of transmission t reporting switching operations in progress t breaker tripping detection t breaker tripping suppression during auto-reclose t spontaneous transmission of changes t periodical transmission a

• integrated totals via count pulses (via binary inputs of the module) t1

acquisition by firmware with a maximum count frequency of 20Hz − pulse length/pause >2ms/>2ms − revision − power monitoring − inversion − pulse counting

counter value formation − count pulse evaluation − set counter

formation of integrated totals − counter request − interval control − freezed absolute value − freezed relative value

not power-fail safe integrated total transmission according to IEC 60870-5-101 spontaneous transmission



AI-6300 Analog Input 2x2 ±20mA/±10V AI-6307 Analog Input 2x2 ±5mA/±10V

• currents and voltages

settable acquistion grid n*100ms t measurement range settable with a resloution of t

− 12 bits + sign at fullscale − shrinking the range results in decreasing resolution

revision t noise rejection t automatic calibration t smoothing t adaptation t

− linear (normalized, technologically scaled or short floating point) − suppression of zero range − plausibility check

change monitoring t spontaneous transmission of changes t



AI-6310 Analog Input 2x2 Pt100/Ni100

• temperatures t1

acquisition of resistance thermometers via analog inputs of a SM-0571 connection of the resistance thermometers: two-, three-, or four-wire technique update every 400ms settable measuring range

− when transferring temperatures

(a) Pt100: -50 .. +350°C / -58 .. +662°F / (≈80.31 .. 229.67 Ω)

(b) Pt100: -100 .. +700°C / -148 .. +1292°F / (≈60.25 .. 345.13 Ω)

(c) Ni100: -60 .. +250°C / -76 .. +482°F / (≈74.18 .. 295.52 Ω) − when transferring resistance values

(a) Pt100: 0 .. 230 Ω

(b) Pt100: 0 .. 346 Ω

(c) Ni100: 0 .. 346 Ω resolution

− when transferring temperatures

(a) Pt100: 0.20°C / 0.36°F / (90 mΩ)

(b) Pt100: 0.35°C / 0.63°F / (130 mΩ)

(c) Ni100: 0.35°C / 0.63°F / (130 mΩ) − when transferring resistance values

(a) Pt100: 90 mΩ

(b) Pt100: 130 mΩ

(c) Ni100: 130 mΩ revision noise rejection automatic calibration calibration for 2-wire technique smoothing adaptation

− temperature value (°C, °F) conversion using implemented curves

− resistance (Ω) change monitoring spontaneous transmission of changes



2.1.2. Output Functions in Detail

DO-6200 Binary Output Transistor 2x8, 24-60VDC

• pulse commands t1

checked output of pulse commands − 1-pole

single, double and regulating step commands command output (OC) basic application functions and procedures according to IEC 60870-5-101/104

− formal check − direct command − select and execute command ("select/execute")

retry suppression 1-out-of-n check control location check command locking synchronization revision command output time

− settable − dependent on the process

return information monitoring command prolongation switching sequences command output for the auto-reclose function if outputs of the module are used for pulse commands, no outputs of the same module can be

used for binary information output

• binary information output

selectable behavior on communication failure ta (deactivation or retention)

deactivation on module failure ta spontaneous transmission t or periodical transmission a if outputs of the module are used for binary information output, no outputs of the same module

can be used for pulse commands



DO-6212 Binary Output Relays 8x 24-220VDC/230VAC

• pulse commands t1

checked output of pulse commands − 1-pole, 1½-pole, 2-pole − cannot be mixed

single, double and regulating step commands command output (OC) basic application functions and procedures according to IEC 60870-5-101/104

− formal check − direct command − select and execute command ("select/execute")

retry suppression 1-out-of-n check control location check command locking synchronization revision command output time

− settable − dependent on the process

return information monitoring command prolongation switching sequences command output for the auto-reclose function if outputs of the module are used for pulse commands, no outputs of the same module can be

used for binary information output

• binary information output

selectable behavior on communication failure ta (deactivation or retention)

deactivation on module failure ta spontaneous transmission t or periodical transmission a if outputs of the module are used for binary information output, no outputs of the same module

can be used for pulse commands



AO-6380

• setpoint values by means of currents and voltages

output via analog outputs of a SM-0572 ta output range settable with a resloution of ta

− 15 bits + sign at ±20mA − 15 bits + sign at ±10V − shrinking the range results in decreasing resolution

basic application functions and procedures according to IEC 60870-5-101/104 ta − formal check − direct command − select and execute command ("select/execute")

adaptation t − linear (normalized, technologically scaled or short floating point) t

selectable behavior on communication failure and module failure ta (keep value, output substitute value)

spontaneous transmission t or periodical transmission a



2.1.3. Further Functions

• return information to pulse command assignment

settable assignment

when using the peripheral element on a ACP 1703 platform − for messages and pulse commands, which are acquired or output on the peripheral element

itself − for messages and pulse commands, which are acquired or output on different peripheral

elements of the same basic system element predefined assignment

− for messages and pulse commands, which are acquired or output on the peripheral element itself

Type Predefined Assignment

single information to single command (1pole):

DI-610x with DO-6200

SI IOMx – IND00 ... command IOMy – OUT D00


SI IOMx– IND07 ... command IOMy – OUT D07






(two DO-6212 with one DI-610x possible)




SI IOMx – IND10 ... command IOMz – OUT D00



single information to single command (1.5pole):












SI IOMx – IND00 ... command IOMy – OUT D00/D01



SI IOMx – IND10 ... command IOMz – OUT D00/D01



double information to double command (1pole):


DI IOMx – IND00/D01 ... command IOMy – OUT D00/D01












DI IOMx – IND10/D11 ... command IOMz – OUT D00/D01





double information to double command (1.5pole):












DI IOMx – IND00/D01 ... command IOMy – OUT D00..D03

DI IOMx – IND04/D05 ... command IOMy – OUT D04..D07

DI IOMx – IND10/D11 ... command IOMz – OUT D00..D03

DI IOMx – IND14/D15 ... command IOMz – OUT D04..D07

x = 0..7

y = x+1

z = x+2

The modules DO-62xx have to be equipped directly after the DI-610x.



2.2. Architecture

2.2.1. Mechanical Design

The modules of the peripheral element are mounted on a TS35 rail in a specified order. The installation of the TS35 rail takes place on a vertical wall in vertical or horizontal installation position.

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Peripheral

Control Module

8 I/O Modules, max.

Electrical Ax 1703

Peripheral Bus

Power

Supply

Module

The power supply and TM bus are electrically connected during the process of latching together, wherein each module can be individually replaced.

Attention

The TS35 rail, on which the modules are fastened, must be grounded.

2.2.2. Connection to the higher-level Basic System Element

The connection is made via the serial Ax 1703 peripheral bus using bus interfaces. Several bus interfaces are available:

Type Designation Connection Number of Peripheral Elements

CM-0843 Bus Interface Ax-PE 4x USB electrical up to 16

CM-0842 Bus Interface Ax-PE 4x optical optical up to 16

Configurations with CM-0843 and CM-0842 can be found in the respective data sheet.



2.2.3. Power Supply

The supply to the peripheral element takes place via one of the following power supply modules.

Module Designation Type Available Power

PS-6620 Power Supply Module 24-60 VDC --- 8000 mW

PS-6630 Power Supply Module 24-60 VDC (SIC+) --- 8000 mW

PS-6632 Power Supply Module 110-220 VDC (SIC+) --- 8000 mW

2.2.4. Peripheral Control Modules

Module Designation Type Load

PE-6400 Peripheral Control Module Ax-PE Bus (electrical) --- 720 mW

PE-6401 Peripheral Control Module Ax-PE Bus (1x FO) --- approx. 1150 mW

PE-6402 1) Peripheral Control Module Ax-PE Bus (2x FO) --- approx. 1400 mW

1) on request only

2.2.5. I/O Modules

The process signals are connected to the I/O modules by detachable screw terminals. Since these screw terminals carry the circuitry, nothing needs to be disconnected when changing out a module. The screw terminals are included with each I/O module.

The PE-640x/USIO65 peripheral element supports the following I/O modules:

I/O Module Designation Type Load

DI-6100 Binary Input 2x8, 24-60VDC Digital I/O module 170 mW

DI-6101 Binary Input 2x8, 110/220VDC Digital I/O module 170 mW

DI-6102 Binary Input 2x8, 24-60VDC 1ms Digital I/O module 170 mW

DI-6103 Binary Input 2x8, 110/220VDC 1ms Digital I/O module 170 mW

DI-6104 Binary Input 2x8, 220VDC Digital I/O module 170 mW

DO-6200 Binary Output Transistor 2x8, 24-60VDC Digital I/O module 600 mW

DO-6212 Binary Output Relays 8x 24-220VDC/230VAC Digital I/O module 800 mW

AI-6300 Analog Input 2x2 ±20mA/±10V Analog I/O module 480 mW

AI-6307 Analog Input 2x2 ±5mA/±10V Analog I/O module 480 mW

AI-6310 Analog Input 2x2 Pt100/Ni100 Analog I/O module 450 mW

AO-6380 Analog Output 4x ±20mA/±10mA/±10V Analog I/O module 1900 mW



2.2.5.1. Configuration

• Up to 8 I/O modules can be installed in addition to the peripheral control module as long as both

the total load of the I/O modules does not exceed 7000 mW

the total load of the I/O modules and the peripheral control module does not exceed the power provided by the power supply module

• If return information monitoring of pulse commands is used direct on USIO65, the DI and DO modules must always follow one another. If the assignment is made on the CPC65 using OPM, the sequence of the DI and DO modules can be choosen arbitrary.

• AO-6380 modules (max. 3 are possible) must always be installed on the first slots

2.2.6. System-Busses

The PE-640x/USIO65 peripheral element communicates via the TM bus with the I/O modules and through them with the process. Via the Ax 1703 peripheral bus the communication is done with the open-/closed-loop control function according to IEC 61131-3 in the higher-level basic system element.

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

.... .... .... .... .... .... .... .... .... ....

Peripheral

Control Module

8 I/O Modules, max.

Electrical Ax 1703

Peripheral Bus

Power

Supply

Module

2.2.6.1. TM Bus

Communication between the I/O modules and peripheral control module takes place via the TM bus in the master/slave process, wherein the I/O modules are the slaves.

The I/O modules are automatically addressed on the TM bus based on the sequence of physical fitting.

The I/O module connected directly to the peripheral control module has the least significant address.



2.2.6.2. Ax 1703 Peripheral Bus

The peripheral element is connected to the master control element via the Ax 1703 peripheral bus (see chapter 2.2.2, Connection to the higher-level Basic System Element ).

The address of the peripheral element on the Ax 1703 peripheral bus is determined in SAT TOOLBOX II, when defining the Ax 1703 peripheral bus configuration. This address is then set by the PBA switch on the peripheral control module.



2.3. System Properties

2.3.1. LED Display during Startup

As soon as the peripheral element is supplied or a startup is triggered by a reset, the ER-LED on the peripheral control module lights up.

A test of the program memory takes place. If this test is successful, the ER-LED goes out after approx. 5 seconds. If the ER-LED remains lit, there is an error in the program memory. A diagnosis with SAT TOOLBOX II is not possible.

This is followed by additional tests, e.g., RAM test, parameter test, etc. If an error arises in the process, the ER-LED blinks, and startup is terminated.

Another test compares the I/O module configuration defined by parameters with the actual physical configuration (the way the I/O module's addresses have been set). If a difference is discovered, startup is terminated. In other words, the peripheral control module gets ready, but no I/O module (even if correctly configured) . This state can only be exited given a matching and therefore correct configuration and a repeated startup.

If the startup can be properly terminated, the RY-LED (ready) lights up on all modules.

2.3.2. Behavior during Startup (Periodic Information)

The periodic information about the open-/closed-loop control function is initialized with the value 0 and an I/O module-dependent status "disturbed".

After startup of the peripheral element (ready), all periodic information from undisturbed inputs is described with the currently pre-processed value, and the corresponding status "disturbed" is reset.

The behavior of the outputs depends on the parameter "failure mode" and the I/O module.



2.3.3. Response Time (Periodic Information)

The response time describes the span of time from when an event occurs until information is output to the process by the automation unit.

The diagram below shows the chronological relationships of the affected system parts.

operating system

transmission on Ax PE bus

open-/closed loopcontrol function

acquisition of information

change at input

output of response

Ma

ste

r C

on

tro

lP

eri

ph

era

l E

lem

en

t

Legend:

relevant for this example

not relevant for this example

tzyktintouttreaktttot

cycle time of open-/Closed loop control functionprocessing time for information acquisitionprocessing time for information output, including hardware setting timesresponse timedead time of controlled system

output of information

tin

tout

tin

tout

tin

tout

tin

tout

treakt ttot

tfilter tfilter tfilter

10ms

tzyk

10ms 10ms 10ms

Response Time in case of tin = 10 ms: treakt = 2 x 10ms + 2 tzyk + tout + tfilter tin > 10 ms: treakt = 2 x tin + 2 tzyk + tout + tfilter

The following table indicates the processing time of the I/O modules:

I/O Module Designation tin tout tfilter

DI-6100 Binary Input 2x8, 24-60VDC 1.5 ms - 4 ms

DI-6101 Binary Input 2x8, 110/220VDC 1.5 ms - 4 ms

DI-6102 Binary Input 2x8, 24-60VDC 1ms 1.5 ms - 4 ms

DI-6103 Binary Input 2x8, 110/220VDC 1ms 1.5 ms - 4 ms

DI-6104 Binary Input 2x8, 220VDC 1.5 ms - 4 ms

DO-6200 Binary Output Transistor 2x8, 24-60VDC - 1.4 ms -

DO-6212 Binary Output Relays 8x 24-220VDC/230VAC - 6.5 ms -



2.4. Details regarding Selected Functions

2.4.1. I/O Module Monitoring

The failure of an I/O module is signaled by periodic information for the open-loop and closed-loop function, and by diagnostic information. The "RY" LED goes out on the corresponding I/O module.

The following table shows the time (t) from the failure of the I/O module until it is signaled:

I/O Module Designation t

DI-6100 Binary Input 2x8, 24-60VDC 40 ms

DI-6101 Binary Input 2x8, 110/220VDC 40 ms

DI-6102 Binary Input 2x8, 24-60VDC 1ms 40 ms

DI-6103 Binary Input 2x8, 110/220VDC 1ms 40 ms

DI-6104 Binary Input 2x8, 220VDC 40 ms

DO-6200 Binary Output Transistor 2x8, 24-60VDC 100 ms

DO-6212 Binary Output Relays 8x 24-220VDC/230VAC 100 ms

AI-6300 Analog Input 2x2 ±20mA/±10V 40 ms

AI-6307 Analog Input 2x2 ±5mA/±10V 40 ms

AI-6310 Analog Input 2x2 Pt100/Ni100 400 ms

AO-6380 Analog Output 4x ±20mA/±10mA/±10V 100 ms

After replacing the I/O module, failed I/O modules are started up again exclusively by running up the peripheral element.

Attention

Modules may only be replaced if the supply voltage is turned off!

2.4.2. Ax 1703 Peripheral Bus Monitoring

If no bus activity is determined within 49 ms, the peripheral element is switched to the "firmware shut down" state. As a result, the watchdog operates, and the I/O module-specific failure treatments enter into force.

If bus activity is again detected, a startup is initiated.

2.4.3. Behaviour in case of a Configuration Change

If the configuration of the I/O modules is changed in SAT TOOLBOX II, e.g., new modules are added or existing ones removed and charged, this change will only go into effect after a startup of the peripheral element.



2.5. Data Points

The data points described in this section do not independ on the I/O module configuration. The data points of the I/O modules are described together with the corresponding I/O module.

The data points of this peripheral element are provided to the open-/closed-loop control function exclusively via periodic information.

2.5.1. Periodic Information Sent to the Open-/Closed-Loop Control Function

Updating grid corresponds to time (t) as described in the "I/O Module Monitoring" section.

Data Point (OPM II) Value Range Meaning

IOMx failed binary Failure of an I/O module

x = 0 .. 7, depending on the configuration



2.6. Data Interface Basic System Element (BSE) – Peripheral Element (PE)

Explanation of the symbols, designations and values in the following tables.

Column Name contains Meaning

Data Point Designation Data point name

HW Pin Designation

"–"

Name of the input or output on the module on which the data point is acquired or output

Data point is built or rated internally

SW Data Point ""

"–"

Derived or calculated data point

Data point is an input or output on the module, or a system information

OPM II Link-Category Designation Name of the category in which the parameter of this data point are determined

Transmission mode-

spontaneous

Type identification

"–"

Type identification of the data point which is passed or received as spontaneous information object

• TI 30 – single-point information with time tag CP56Time2a

• TI 31 – double-point information with time tag CP56Time2a

• TI 34 – measured value, normalized value with time tag CP56Time2a

• TI 35 – measured value, scaled value with time tag CP56Time2a

• TI 36 – measured value, short floating point number with time tag CP56Time2a

• TI 37 – integrated totals with time tag CP56Time2a

• TI 45 – single command

• TI 46 – double command

• TI 47 – regulating step command

• TI 48 – Setpoint command, normalized value

• TI 49 – Setpoint command, scaled value

• TI 50 – Setpoint command, short floating point number

Data point not spontaneous

Transmission mode- periodic Format

"–"

Format of data point which is exchanged with the open-/closed-loop control function as periodic information

• analog

• binary

Data point not periodic

Value# <Number> Destination value number for detailed routing "Ax1703-PE detailed routing PDS"

(only relevant if the system element is used on Ax-platforms)

Direction BSE PE

Data point information is sent from the basic system element to the peripheral element

Data point information is sent from the peripheral element to the basic system element



2.6.1. General Data Points

SW Data Transmission mode Value Direction

Data Point HW Pin Point OPM II Link-Category spontaneous periodic # BSE PE

Voltage failure IOMx D00 .. D07

Voltage failure IOMx D10 .. D17

– USIO65/SW_DI – binary –

Board failed – USIO65/SW_DI – binary –

Acquisition error – USIO65/SW_DI – binary –

Revision – USIO65/SW_REV TI 30 - single-point information – 0

Sum flutter fault – USIO65/SW_DI – binary –

IOMx failed – USIO65/SW_DI – – –

x = 0 .. 7

2.6.2. Single-Point Information



SI IOMx – IN D00

...

SI IOMx – IN D07

SI IOMx – IN D10

...

SI IOMx – IN D17

IOMx – IN D00 (x:1)

...


IOMx - IN D10 (x:31)

...


– USIO65/DI_SI TI 30 - single-point

information binary –

x = 0 .. 7



2.6.3. Double-Point Information



double-point inf. IOMx - IN D00/D01

...



...


IOMx – IN D00 (x:1)/

IOMx – IN D01(x:2)

...

IOMx – IN D06 (x:7)/


IOMx – IN D10 (x:31)/

IOMx - IN D11 (x: 32)

...

IOMx - IN D16 (x:37)/


– USIO65/DI_DI TI 31 - double-point

information binary

1) –

SI IOMx – IN D00

...

SI IOMx – IN D07

SI IOMx – IN D10

...

SI IOMx – IN D17


...


IOMx - IN D10 (x:31)

...


– CAEx/Ax-Mode TI 30 – single-point

information binary

2) –

reclosing DI IOMx – IN D00/D01

…



…


– USIO65/SW_DI_AR TI 30 - single-point

information – –

switching op. run. DI IOMx – IN D00/D01

…



…


– USIO65/SW_DI_SOR TI 30 - single-point

information – –



breaker tripping DI IOMx – IN D00/D01

…



…


– USIO65/SW_DI_BT TI 30 - single-point

information– –

Local/remote criterion – USIO65/SW_LOC_RSI TI 30 - single-point information – 5

AR_CB_controllable – USIO65/SW_DO – binary –

control location

(in Ax 1703 platforms only) – USIO65/SW_STEUERORT

TI 35 - measured value

TI 45 - single command – 20

1) in ACP 1703 platforms only

2) in Ax 1703 platforms only

x = 0 .. 7

2.6.4. Integrated Totals via Count Pulses



Latching activation – USIO65/SW_DO – binary –

Transmission activation – USIO65/SW_DO – binary –

counter IOMx – IN D00

...



...


IOMx:1

...

IOMx:8

IOMx:31

...

IOMx:38

– USIO65/DI_CV TI 37 - integrated totals – –

counter IOMx – IN D00 set

...



...


– USIO65/SW_CV_SET TI 37 - integrated totals –

0

…

7

8

…

15

+ x*16

x = 0 .. 7



2.6.5. Currents



Measured value IOMx – IN V00




IOMx - IN V0 I+ (x:2)/

IOMx - AUX V0+ (x:1)/

IOMx - IN V0 I- (x:3)/

IOMx - AUX V0- (x:4)

IOMx - IN V1 I+ (x:6)/


IOMx - IN V1 I- (x:7)/


IOMx - IN V2 I+ (x:32)/


IOMx - IN V2 I- (x:33)/


IOMx - IN V3 I+ (x:36)/


IOMx - IN V3 I- (x:37)/


– USIO65/AI_I




– –

x = 0 .. 7



2.6.6. Voltages







IOMx - IN V0 U+ (x:12)/


IOMx - IN V0 U- (x:13)/


IOMx - IN V1 U+ (x:16)/


IOMx - IN V1 U- (x:17)/


IOMx - IN V2 U+ (x:22)/


IOMx - IN V2 U- (x:23)/


IOMx - IN V3 U+ (x:26)/


IOMx - IN V3 U- (x:27)/


– USIO65/AI_U




– –

x = 0 .. 7



2.6.7. Temperatures



Temperature IOMx – IN V00




IOMx - IN V0+ (x:12)/

IOMx - IREF0+ (x:11)/

IOMx - IN V0- (x:13)/

IOMx - IREF0,1- (x:14)

IOMx - IN V1+ (x:16)/

IOMx – IREF1+ (x:15)/

IOMx - IN V1- (x:17)/

IOMx - IREF0,1- (x:18)

IOMx - IN V2+ (x:22)/


IOMx - IN V2- (x:23)/

IOMx – IREF2,3- (x:24)

IOMx - IN V3+ (x:26)/


IOMx - IN V3- (x:27)/

IOMx – IREF2,3- (x:28)

– USIO65/AI_T TI 36 - measured value – –

Start adjustment AI – USIO65/SW_DO – binary –

x = 0 .. 7



2.6.8. General Data Points - Pulse Command



Command output busy – USIO65/SW_DI – binary –

Sum command output running – USIO65/SW_DI – binary –

Sum command output fault – USIO65/SW_DI – binary –

Command interlocked – USIO65/SW_DI – binary –

Command 1out of N interlocked – USIO65/SW_DI – binary –

Sync. enable – USIO65/SW_DO – binary –

1 out of N enable – USIO65/SW_DO – binary –

Command state information – USIO65/SW_DO – binary –

AR_CB_controllable – USIO65/SW_DO – binary –

AR_CB_on – USIO65/SW_DO – binary –

Control location –

USIO65/SW_CONTROL_

LOCATION

TI 35 – measured value

TI 45 – single command – 20

Sum command interlocked – USIO65/SW_CO_INTER TI 30 - single-point

information – –



2.6.9. Pulse Command - Single Command - 1pole (DI-6200)



command IOMx – OUT D00

...



...


IOMx – OUT D00 (x:11)

...



...


– USIO65/DO_SC_1POL TI 45 - single command

64

...

71

72

...

79

+ x*16

command IOMx – OUT D00 interlocked

...



...


– USIO65/SW_DO – binary –

sync. command IOMx – OUT D00 run

...



...


– USIO65/SW_CO_SYNC_R TI 30 - single-point

information – –

sync. comm. IOMx – OUT D00 abort

...



...


– USIO65/SW_CO_SYNC_A TI 30 - single-point

information – –

x = 0 .. 7



2.6.10. Pulse Command - Single Command - 1pole (DO-6212)











IOMx – OUTD00 (x:11)








– USIO65/DO_R_SC_1POL TI 45 - single command –

64

65

66

67

68

69

70

71

+ x*16


...




...



information – –


...



information – –

x = 0 .. 7



2.6.11. Pulse Command - Single Command - 1,5pole (DO-6212)

















– USIO65/DO_R_SC_1,5POL TI 45 - single command –

64

65

66

67

68

69

70

+ x*16


...




...



information – –


...



information – –

x = 0 .. 7



2.6.12. Pulse Command - Single Command - 2pole (DO-6212)



command IOMx – OUT D00/D01




IOMx – OUTD00 (x:11)/








– USIO65/DO_R_SC_2POL TI 45 - single command –

64

66

68

70

+ x*16











information – –






information – –

x = 0 .. 7



2.6.13. Pulse Command - Double Command - 1pole (DO-6200)





…




...


IOMx – OUT D00 (x:11)/




...







...



– USIO65/DO_DC_1POL

TI 46 - double command

TI 47 – tap positioning

command

–

64

65

...

67

68

69

...

71

+ x*8



…




...






...







...



USIO65/DO_DB_1POL TI 45 – single command

64

66

...

70

72

74

...

78

+ x*16


...



...




...



information – –




...



...



...



information – –

x = 0 .. 7


















– USIO65/DO_R_DC_1POL


TI 47 – tap positioning

command

–

64

65

66

67

+ x*8













– USIO65/DO_R_DC_1POL TI 45 – single command –

64

66

68

70

+ x*16


...




...



information – –


...



information – –

x = 0 .. 7



2.6.15. Pulse Command - Double Command - 1,5pole (DO-6212)












– USIO65/DO_R_DC_1,5POL


TI 47 – Tap positioning

command

–

64

65

66

+ x*8










– USIO65/DO_R_DC_1,5POL TI 45 – single command –

64

66

68

+ x*16


...




...



information – –


...



information – –

x = 0 .. 7






command IOMx – OUT D00..D03










– USIO65/DO_R_DC_2POL


TI 47 tap positioning

command

–

64

66

+ x*8











– USIO65/DO_R_DC_2POL TI 45 – single command –

64

68

+ x*16











information – –






information – –

x = 0 .. 7



2.6.17. Binary Information Output (DO-6200)



Binary inform. output IOMx – OUT D00

...



...



...



...


– USIO65/DO_SI TI 30 - single-point

information binary

64

...

71

72

...

79

+ x*16

x = 0 .. 7

2.6.18. Binary Information Output (DO-6212)



















– USIO65/DO_R_SI TI 30 - single-point

information binary

64

65

66

67

68

69

70

71

+ x*16

x = 0 .. 7



2.6.19. Setpoint Values by means of Currents



Setpoint value IOM0x – OUT V00




IOMx – OUT V0+ (x:1)/

IOMx – IC0 (x:2)/

IOMx – IC0 (x:3)/

IOMx – OUT V0- (x:4)/

IOMx – AUX V0+ (x:11)/



IOMx – AUX V0- (x:14)


IOMx – IC1 (x:6)/

IOMx – IC1 (x:7)/









IOMx – AUX V1- (x:24)/


IOMx – IC2 (x:32)/

IOMx – IC2 (x:33)/

IOMx – OUT V2- (x:34)






IOMx – IC3 (x:36)/

IOMx – IC3 (x:37)/


– USIO65/AO_I




TI 48 - Setpoint command



–

64

65

66

67

+ x*4

x = 0 .. 7



2.6.20. Setpoint Values by means of Voltages








IOMx – IC0 (x:2)/

IOMx – IC0 (x:3)/







IOMx – IC1 (x:6)/

IOMx – IC1 (x:7)/











IOMx – IC2 (x:32)/

IOMx – IC2 (x:33)/







IOMx – IC3 (x:36)/

IOMx – IC3 (x:37)/


– USIO65/AO_U







–

64

65

66

67

+ x*4

x = 0 .. 7

PE-6400 Peripheral Control Module


3. PE-6400 Peripheral Control Module


Peripheral control module

• connects I/O modules via the TM bus

up to 8 I/O modules

• connects to the basic system element via electrical Ax 1703 peripheral bus

• indication of function and errors via LEDs

• power to be supplied by PS-6620, PS-6630 or PS-6632



3.2. Block Diagram and View

Fig. 3-1 PE-6400 Block Diagram and View



3.3. Technical Specifications

Processor and Memory

Processor 80C251SQ-16, 16 MHz

Program memory PE-ROM 256 kByte

Main memory RAM 64 kByte

Parameter memory EEPROM 512 Bytes

Power Supply

Operating voltage 4.7 .. 5.1 VDC, max. 720 mW


Mechanics and Connectors

Ax 1703 peripheral bus Transmission rate 16Mbps

Connector(s) for den Ax 1703

peripheral bus

USB / Serie A, 4-pin

USB cables, 3 m maximum length

Dimensions 127 x 63 x 72 mm (L x W x H, dimensions w/o DIN rail)

Weight Approx. 135 g



3.4. Pin Assignment and Display

A 4-pole USB connector pin is used. The pin assignment is as shown on the table.

Fig. 3-2 PE-6400 Pin Assignment and Display







up to 8 I/O modules

• connects to the basic system element via optical Ax 1703 peripheral bus











Power Supply

Operating voltage 4.75 .. 5.25 VDC, typ. 1150 mW





peripheral bus

Glass fibre (+) TOCP201 (Toshiba TOSLINK™)






One optical interface is used. The pin assignment is as shown on the table.








up to 8 I/O modules

• connects to a redundant basic system element via two optical Ax 1703 peripheral buses











Power Supply

Operating voltage 4.75 .. 5.25 VDC, typ. 1400 mW





peripheral bus

Glass fibre (+) TOCP201 (Toshiba TOSLINK™)






Two optical interfaces are used. The pin assignment is as shown on the table.

T

M

1

7

0

3


Power Supply Module PS-6620


6. Power Supply Module PS-6620


Power supply module

• input voltage 24 .. 60 VDC

• system voltage output U1 5.1 VDC, max. 8 W

• system voltage output U2 switchable

5.2 VDC, max. 2.5 W or

10 VDC, max. 2.5 W

• integrated voltage distribution

• removable screw terminals

• function indication via LED




Fig. 6-1 PS-6620 Block Diagram and View




Power Supply

Operating voltage 18 .. 78 VDC

The voltage is supplied via terminals

Output voltages System voltage outpouts

for TM bus U1 5.1VDC ±1% TM 1703 ACP and TM 1703 mic

for external

modem 2)

U2 switchable 1) 5.2VDC +2.9%

10VDC ±5% TM 1703 mic (CP-6020/CPC60 only)

Output power PU1 PU1,min 8.0 W - 1.25*PU2,max

PU1,max 8.0 W (at PU2 = 0 W)

Output power PU2 PU2,max 2.5 W

Output total power PU1+U2,max 8.0 W

PU1+U2,peak 9.0 W

Efficiency ηU1 = PU1/Pin approx. 65%

ηU2 = PU2/Pin approx. 60%

Power consumption

Pin = PU1/ηU1 + PU2/ηU2

Pin,max 12.3 W

Pin,peak 13.8 W

Bridgeable interruption of the

operating voltage

@24 VDC @48 VDC @60 VDC

8 W 3 ms 18.5 ms 30 ms

5 W 4 ms 32 ms 49 ms

2.5 W 8.5 ms 63 ms 190 ms

Reverse voltage protection ja

Overload protection no 3) (if required set external fuse)

Short-circuit protection no 3) (if required set external fuse)

Can be connected in parallel no

1) switching to the higher voltage is induced exclusively by CP-6020/CPC60 and depends on its parameter setting; without switching, only the lower voltage is available

2) via DTR circuit of the CP-6020 master control module's serial interface

3) Internal fuse is blown, change by authorized personnel only

Summary for TM 1703 ACP use

Available power U1 PU1,max 8.0 W (U2 not used)

Mechanics

Terminals Removable screw terminals for direct conductor assembly, up to 2.5 mm² cross-section

Dimensions 131x63x73 mm (LxWxH, dimensions w/o DIN rail)





6.4.1. Short-Circuit Protection

Via the controller on the primary side of the DC/DC-transformer the output voltages 1+2 are fundamentally protected against destruction due to overload or short-circuit (current limitation of the primary current). This however has the consequence that in this case the internal fuse trips in the primary circuit and the PS-6620 fails as a result.

6.4.2. Interruption bridging

The interruption time, in case of a power failure during the diverse operating states, can be taken from following graphic.

Interruption time (typical)

Output delivered

5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80

12

34

56

78

Uin=48VDC

85 90

Uin=60VDC

Uin=32VDC

Uin=24VDC

Uin=18VDC

0

Tu [ms]

Pout

[W]

Abb_02

Fig. 6-2 PS-6620 Interruption bridging




The supply voltage must be connected to two 10-pin screw terminals. The pin assignment of the connectors is described in the following table.

Fig. 6-3 PS-6620 Pin Assignment and Display



6.6. External Circuit Elements

The following circuitry variant is an example.

Supply of the module and voltage distribution

Fig. 6-4 PS-6620 External Circuit Elements





Power supply module





10 VDC, max. 2.5 W

• environmental conditions according to SIC+



• can be connected in parallel for redundancy




Power Supply

Operating voltage 18 .. 78VDC



system internal U1 5.15VDC ±2% • TM 1703 ACP

• TM 1703 mic

• Interface modules

for external

modem 2)

U2 switchable 1) 5.1 .. 5.4VDC

9 .. 10VDC • TM 1703 mic (CP-6020/CPC60 only)

Output power PU1 PU1,min 8.0W - 1.25*PU2,max

PU1,max 8.0W (at PU2 = 0W)

Output power PU2 PU2,max 2.5W

Output total power PU1+U2,max 8.0W

PU1+U2,peak 9.0W



Power consumption


Pin,max 12.3W

Pin,peak 13.8W

Inrush peak current 8A at 18VDC 600µs

40A at 78VDC 600µs

Guaranteed interruption time

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

12

34

56

78

Uin=24VDC

170 180

Uin=48VDC

0

Tu [ms]

Pout

[W]

Uin=60VDC

Interruption Time (typ.)

Output Power


Overload protection no 3)

Short-circuit protection no 3)

Can be connected in parallel yes (for redundancy, not to increase power)







Available power U1 PU1,max 8.0W (U2 not used)

Mechanics



Weight Approx. 200g









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

12

34

56

78

Uin=20VDC

170 180

Uin=60VDC

0

Tu [ms]

Pout

[W]

Abb_02_a

Output delivered





The supply voltage must be connected to one 6-pin screw terminal. The pin assignment of the connector is described in the following table.

T

M

1

7

0

3






Versorgung des Peripherieelements und Spannungsverteilung






Power supply module





10 VDC, max. 2.5 W

• environmental conditions according to SIC+



• can be connected in parallel for redundancy




Power Supply

Operating voltage 82 .. 275VDC



system internal U1 5.15VDC ±2% • TM 1703 ACP

• TM 1703 mic

• Interface modules

for external

modem 2)

U2 switchable 1) 5.1 .. 5.4VDC

9 .. 10VDC • TM 1703 mic (CP-6020/CPC60 only)

Output power PU1 PU1,min 8.0W - 1.25*PU2,max

PU1,max 8.0W (at PU2 = 0W)

Output power PU2 PU2,max 2.5W

Output total power PU1+U2,max 8.0W

PU1+U2,peak 9.0W



Power consumption


Pin,max 12.3W

Pin,peak 13.8W

Inrush peak current 8A at 18VDC 600µs

40A at 78VDC 600µs

Guaranteed interruption time

50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800

12

34

56

78

850 9000

Tu [ms]

Pout [W]

10

Interruption Time (typ.)

Output Power

Uin=110VDC

Uin=220VDC

at P=4W.....T=1000ms

at P=2W.....T=1640ms

(Uin=220VDC)

(Uin=220VDC)


Overload protection no 3)

Short-circuit protection no 3)

Can be connected in parallel yes (for redundancy, not to increase power)







Available power U1 PU1,max 8.0W (U2 not used)

Mechanics



Weight Approx. 230g









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

12

34

56

78

170 180

Uin=110VDC

0

Tu [ms]

Pout

[W]

Abb_02_b

Output delivered





The supply voltage must be connected to one 6-pin screw terminal. The pin assignment of the connector is described in the following table.

T

M

1

7

0

3






Versorgung des Peripherieelements und Spannungsverteilung


I/O Module DI-6100


9. I/O Module DI-6100


Binary input module

• 16 inputs (2 groups of 8 each)

• galvanically insulated by optocouplers

• each group has a common return

• signal voltage 24-60VDC


• indication of function and states of the inputs via LEDs

• one (dedicated) input of each group can be used for power monitoring

• acquisition functions

single-point information double-point information integrated totals via count pulses

• further functions

return information to pulse command assignment

The before mentioned functions are described in detail in the document SAT 1703 Common Functions Peripheral Elements according to IEC 60870-5-101/104

I/O Module DI-6100



Fig. 9-1 DI-6100 Block Diagram and View

I/O Module DI-6100



Binary Inputs

16 binary inputs • 2 groups, 8 inputs each

• Galvanical insulation

• Each group has a common return of selectable polarity

Filter time One dedicated input 2 ms

All other inputs 3 ms

Nominal voltages 24/48/60 VDC

Operating points ≤ 12 V "logic 0"

≥ 16 V "logic 1"

Rated current 1.0…1.5 mA (at 18 .. 78 V)

Input circuits 18…78 VDC

The circuits are operated by means of an external voltage.

Power Supply

Operating voltage 4.7…5.1 VDC, 170 mW

The voltage is picked off at the TM bus


Terminals Removable screw terminals (grid size 5.08)



I/O Module DI-6100



9.4.1. Power Monitoring

Power monitoring is activated by one parameter per group.

The last input of a group (IN D07 and IN D17) can be used for power monitoring. When power monitoring is parameterized then this input has a filtertime of 2 ms. If this function isn´t parameterized, the input has a filtertime of 3 ms as all other inputs. When using power monitoring, the number of binary inputs for process information is reduced to 7 inputs per group.

The fused signalling voltage must be connected to these inputs. If the signalling voltage fails, the accompanying process information for the open-/closed-loop control function is frozen at the last valid state.

A signalling voltage failure is signaled by periodic information sent to the open-/closed-loop control function, and by diagnostic information.

I/O Module DI-6100



The process signals must be connected to four 10-pin screw terminals. The pin assignment of the peripheral connectors is described in the following table.

Fig. 9-2 DI-6100 Pin Assignment and Display

I/O Module DI-6100



The following circuitry variants are examples, and do not relate exclusively to the depicted inputs/outputs.

IN D10…IN D17:

One-pole input with internal common root (plus

or minus)

IN D00…IN D07:

One-pole input with external common root

(plus or minus)

.

Fig. 9-3 DI-6100 External Circuit Elements

I/O Module DI-6100


9.7. Data Points and Settings

See section 2.6, Data Interface Basic System Element (BSE) – Peripheral Element (PE)

• Single-Point Information

• Double-Point Information

• Integrated Totals via Count Pulses

I/O Module DI-6100


I/O Module DI-6101




Binary input module




• signal voltage 110/220VDC









I/O Module DI-6101




I/O Module DI-6101



Binary Inputs






Nominal voltages 110/220 VDC


≥ 82.5 V "logic 1"

Rated current 1.0…1.7 mA (at 82…250 V)



Power Supply







I/O Module DI-6101





The last input of a group (IN D07 and IN D17) can be used for power monitoring. When power monitoring is parameterized then this input has a filtertime of 2 ms. If this function isn´t parameterized, the input has a filtertime of 3 ms as all other inputs.When using power monitoring, the number of binary inputs for process information is reduced to 7 inputs per group.



I/O Module DI-6101





I/O Module DI-6101



The following circuitry variants are examples, and do not relate exclusively to the depicted inputs/outputs

IN D10…IN D17:


or minus)

IN D00…IN D07:


(plus or minus)


I/O Module DI-6101







I/O Module DI-6102




Binary input module




• signal voltage 24-60VDC









I/O Module DI-6102




I/O Module DI-6102



Binary Inputs




Filter time one dedicated input 2 ms

all other inputs 3 ms

Nominal voltages 24/48/60 VDC


≥ 16 V "logic 1"




Power Supply







I/O Module DI-6102








I/O Module DI-6102




IN D10…IN D17:


or minus)

IN D00…IN D07:


(plus or minus)


I/O Module DI-6102







I/O Module DI-6103




Binary input module




• signal voltage 110/220VDC









I/O Module DI-6103




I/O Module DI-6103



Binary Inputs


• galvanical insulation

• each group has a common return of selectable polarity

Filter time one dedicated input 2 ms

all other inputs 3 ms

Nominal voltages 110/220 VDC


≥ 82.5 V "logic 1"



the circuits are operated by means of an external voltage.

Power Supply

Operating voltage 4.7…5.1 VDC, 170mW

the voltage is picked off at the TM bus


Terminals removable screw terminals (grid size 5.08)


Weight approx. 225 g

I/O Module DI-6103








I/O Module DI-6103




IN D10…IN D17:


or minus)

IN D00…IN D07:


(plus or minus)


I/O Module DI-6103







I/O Module DI-6104




Binary input module




• signal voltage 220VDC









I/O Module DI-6104




I/O Module DI-6104



Binary Inputs






Nominal voltages 220 VDC


≥ 165 V "logic 1"

Rated current 1.1…1.5 mA (at 165 :: 250V)



Power Supply







I/O Module DI-6104








I/O Module DI-6104




IN D10…IN D17:


or minus)

IN D00…IN D07:


(plus or minus)


I/O Module DI-6104







I/O Module DO-6200


14. I/O Module DO-6200


Binary output module

• 16 transistor outputs (2 groups of 8 each)



• switching voltage 24-60VDC

• all outputs proof against continued short circuit

• to increase switching capacity 2 outputs can be connected in parallel

• no impact on other outputs if one is short-circuit


• indication of function and states of the outputs via LEDs

• output functions

pulse commands binary information output

pulse commands and binary information output cannot be mixed on the same module

The above mentioned functions are described in detail in the document SAT 1703 Common Functions Peripheral Elements according to IEC 60870-5-101/104

I/O Module DO-6200



Fig. 14-1 DO-6200 Block Diagram and View

I/O Module DO-6200



Binary Outputs

16 binary outputs

(transistor)

• 2 groups, 8 outputs each


• Each group has a common return

Nominal voltage 24/48/60 VDC

Voltage range 18…78 VDC

Nominal current

(resistive load)

Due to thermal loading capacity of the module:

• 0.25 A at 24, 48, and 60 VDC

(for each output, if 16 outputs are active at the same time)

• 0.35 A when connecting 2 outputs in parallel

(for each pair ot outputs, if 8 pairs of outputs are active at the same time)

Nominal switching capacity

(resistive load, UN )

• 6 W at 24 VDC when connecting in parallel: 8.4 W

• 12 W at 48 VDC when connecting in parallel: 16.8 W

• 15 W at 60 VDC when connecting in parallel: 21 W

Maximum continuous current Due to electrical ratings of the transistor switch:

• 0.9 A at 18…78 VDC

(only 1 output active)

Maximum switching voltage 78 VDC

Maximum switching power 70.2 W at 78 VDC

Overload proof no

Proof against continued

short-circuit

10 A current limitation

if the current limitation operates, current is cut off after 10 µs

cyclic reclosing

break time 300 µs

make time 10 µs

Switching cycles Unlimited

Switching frequency max. 100 Hz

Output circuit voltage drop < 0.5 V at 0.25 A

Dynamic withstand capability • Capacitive load max. 100 nF at 60V

• Inductive τ ≤ 500 ms (any with external free-wheeling diode )

• Lines Z ≥ 100 Ω, line length up to 3 km

• Lamps IN ≤ 150 mA (ION ≤ 1.8 A)

Output circuits The circuits are operated by means of an external voltage.

Power Supply







I/O Module DO-6200




Fig. 14-2 DO-6200 Pin Assignment and Display

I/O Module DO-6200




OUT D10…OUT D17:

One-pole input with switched plus and internal

common root

OUT D00…OUT D07:

One-pole input with switched plus and external

common root

Fig. 14-3 DO-6200 External Circuit Elements

I/O Module DO-6200




• Pulse Command - Single Command - 1pole (DI-6200)

• Pulse Command - Double Command - 1pole (DO-6200)

• Binary Information Output (DO-6200)

I/O Module DO-6212


15. I/O Module DO-6212


Binary output module

• 8 relay outputs

• galvanically insulated

• switching voltage 24-220VDC/230VAC

• the outputs can switch DC and AC voltages


• indication of function and states of the outputs via LEDs


pulse commands binary information output

pulse commands and binary information output cannot be mixed on the same module


I/O Module DO-6212



Fig. 15-1 DO-6212 Block Diagram and View

I/O Module DO-6212



Binary otputs

8 binary outputs

(relay)

• 8 outputs, potential-free


nominal voltage • 24/48/60/110/220 VDC

• 110/230 VAC

maximum continuous current • 2 A

• 5 A for 1 minute

maximum switching voltage • 250 VDC

• 253 VAC

switching cycles • 3 x 104

sitching capacity

DC voltage • min. 50 mW at 5 VDC

• max according to diagram

AC voltage • max. 1250 VA 5A/250 VAC, resistive load

• max. 500 VA 2A/250 VAC, cosϕ=0.4

output circuits the circuits are operated by means of an external voltage.

Power Supply

operating voltage 4.7…5.1 VDC, 800 mW

te voltage is picked off at the TM bus


terminals removable screw terminals (grid size 5.08)

dimensions 131x63x73 mm (LxWxH, dimensions w/o DIN rail)

weight approx. 265 g

I/O Module DO-6212




Fig. 15-2 DO-6212 Pin Assignment and Display

I/O Module DO-6212




OUT D04, OUT D05, OUT D06

a) 1.5-pole output with switched minus (max. 7

commands can be used)

b) 1.5-pole output with switched plus (max. 7

commands can be used)

OUT D00

One-pole output with switched plus

OUT D01

One-pole output with switched minus

OUT D02/OUT D03

2-pole output

Fig. 15-3 DO-6212 External Circuit Elements

I/O Module DO-6212


Protection of external Circuitry

a) ⇒

b) ⇒

RL

Si

RL

Si

Fig. 15-4 DO-6212 Protection of external Circuitry

Maximum current with and without protection

a) Number of used outputs Maximum current for each output

all 2A

all 5A/1min

without protection

max. 2 5A

with protection

all 2A

B-charakteristic 4A/10kA

max. 2 4A

all 2A

Z-charakteristic 4A/10kA

max. 2 4A

C-charakteristic 2A/10kA 1 ... 8 2A

I/O Module DO-6212


b) Maximum current for each AUX Pin

without protection 5A

with protection

B-charakteristic 4A/10kA 4A

Z-charakteristic 4A/10kA 4A

C-charakteristic 2A/10kA 2A

I/O Module DO-6212




• Pulse Command - Single Command - 1pole (DO-6212)

• Pulse Command - Single Command - 1,5pole (DO-6212)

• Pulse Command - Single Command - 2pole (DO-6212)


• Pulse Command - Double Command - 1,5pole (DO-6212)


• Binary Information Output (DO-6212)

I/O Module AI-6300


16. I/O Module AI-6300


Analog input module



• acquisition of currents ±20mA

• acquisition of voltages ±10V



• acquisition of currents and voltages cannot be mixed on the same I/O module

• recognition of open-circuit with acquisition of currents


currents and voltages

currents and voltages cannot be mixed on the same module


I/O Module AI-6300



Fig. 16-1 AI-6300 Block Diagram and View

I/O Module AI-6300



Analog Inputs

4 analog inputs • 2 groups, 2 inputs each

• Groups are galvanically insulated from one another

• Voltage between 2 inputs of a group max. 4 VDC

Measuring ranges Current measurement -20…0…+20 mA

Voltage measurement -10…0…+10 V

Overrange typ. 2%

Resolution 0.013% at ±20 mA

0.025% at ±10 V

Accuracy 0.15% at 25 °C

0.4% at 0…50 °C

0.5% at –20…70 °C

Input impedance 122.5 Ω at ±20 mA

11.3 kΩ at ±10 V

Common mode rejection ratio Current inputs min. 70 dB (10 Hz…1 MHz)

min. 90 dB (10 Hz…500 Hz)

Voltage inputs min. 73 dB (10 Hz…1 MHz)

min. 90 dB (10 Hz…500 Hz)

Normal mode rejection ratio Current inputs 0 dB (10 Hz…7.5 kHz)

+20 dB/decade (7.5 kHz…1 MHz)

Voltage inputs 0 dB (10 Hz…7.5 kHz)


Input circuits External sensors, auxiliary voltage 18 VDC…78 VDC.


Power Supply

Operating voltage 4.7…5.1 VDC, max. 480 mW






I/O Module AI-6300




Fig. 16-2 AI-6300 Pin Assignment and Display

I/O Module AI-6300




IN V2:

Connection of a 2-wire measuring transducer

with current output

IN V3:


with voltage output, the I/O module feeds the

auxiliary supply

IN V0:


with current output, the I/O module feeds the

auxiliary supply

IN V1:



auxiliary supply

Fig. 16-3 AI-6300 External Circuit Elements

I/O Module AI-6300




• Currents

• Voltages

I/O Module AI-6307




Analog input module



• acquisition of currents ±5mA

• acquisition of voltages ±10V



• acquisition of currents and voltages cannot be mixed on the same I/O module

• recognition of open-circuit with acquisition of currents


currents and voltages


I/O Module AI-6307




I/O Module AI-6307



Analog Inputs




Measuring ranges Current measurement -5…0…+5 mA

Voltage measurement -10…0…+10 V

Overrange typ. 2%

Resolution 0.013% at ±5 mA

0.025% bei ±10 V

Accuracy 0.15% at 25°C

0.4% at 0…50°C

0.5% at –20…70°C

Input impedance 490 Ω at ±5 mA

11.3 kΩ at ±10 V

Common mode rejection ratio Current inputs min. 70 dB (10 Hz…1 MHz)

min. 90 dB (10 Hz…500 Hz)

Voltage inputs min. 73 dB (10 Hz…1 MHz)

min. 90 dB (10 Hz…500 Hz)

Normal mode rejection ratio Current inputs 0 dB (10 Hz…7.5 kHz)


Voltage inputs 0 dB (10 Hz…7.5 kHz)


Input circuits External sensors, auxiliary voltage 18…78 VDC.


Power Supply





Dimensions 131x63x73mm (LxWxH, dimensions w/o DIN rail)

Weight Approx. 225g

I/O Module AI-6307





I/O Module AI-6307




IN V2:


with current output

IN V3:


with voltage output, the I/O module feeds the

auxiliary supply

IN V0:



auxiliary supply

IN V1:



auxiliary supply


I/O Module AI-6307




• Currents

• Voltages

I/O Module AI-6310




Analog input module



• acquisition of temperatures

via Pt100/Ni100 resistance measurement in two-, three- or four-wire technology

• for resistance measurement one current source is assigned to each input

• noise rejection




temperatures


I/O Module AI-6310




I/O Module AI-6310



Analog Inputs




Measuring range Resistance measurement 50…400 Ω (Pt100, Ni100)

Overrange typ. 20%

Input impedance Approx. 2 MΩ

Resolution 11 mΩ

Noise rejection 16.7 Hz, 50 Hz, 60 Hz settable for each group

Conversion time Noise rejection for 50 Hz 120 ms

Noise rejection for 60 Hz 100 ms

Noise rejection for 16.7 Hz 180 ms


0.21% at 0…50 °C

(because of the measuring method there is no dependence on the accuracy of the

constant-current source)

Reference current 2 mA

Connecting line impedance Sum of go-and-return line max. 40 Ω

Common mode rejection ratio 16.7 Hz, 50 Hz, 60 Hz…20 kHz > 100 dB

10 Hz…1 MHz > 70 dB

Normal mode rejection ratio 16.7 Hz, 50 Hz, 60 Hz > 100 dB

Input circuits The circuits are operated by means of an internal voltage (constant-current source).

Current Outputs

4 current outputs

(constant-current source)

• 2.0 mA

• All outputs galvanically insulated

Accuracy ± 13% at 0…50 °C

Power Supply







I/O Module AI-6310





I/O Module AI-6310




IN V2:

Connection in 2-wire technique

IN V3:


IN V0:



I/O Module AI-6310




• Temperatures

I/O Module AO-6380


19. I/O Module AO-6380


Analog output module

• 4 outputs


• output of currents ±20mA, ±10mA

• output of voltages ±10V




setpoint values by means of currents and voltages


I/O Module AO-6380



Fig. 19-1 AO-6380 Block Diagram and View

I/O Module AO-6380



Analog Outputs

4 analog outputs • All outputs galvanically insulated

Current output • max. ±20 mA on max. 500 Ω load

• max. ±10 mA on max. 1 kΩ load

Voltage output • max. ±10 V on min. 1 kΩ load

Resolution 0.025% at ±20 mA, ±10 mA, ±10 V

Settling time 1 ms


0.4% at 0…50 °C

0.7% at -20…70 °C

Output circuits The circuits are operated by means of an internal voltage.

Power Supply







I/O Module AO-6380




Fig. 19-2 AO-6380 Pin Assignment and Display

I/O Module AO-6380




OUT V2:

2-wire connection of a load with current output

OUT V3:


OUT V0:


OUT V1:

2-wire connection of loads in series with

current output

Fig. 19-3 AO-6380 External Circuit Elements

I/O Module AO-6380




• Setpoint Values by means of Currents

• Setpoint Values by means of Voltages

System Components


20. System Components

20.1. Modules

Designation Item Number

PS-6620 Power Supply Module 24-60 VDC GC6-620

PS-6630 Power Supply Module 24-60 VDC (SIC+) GC6-630

PS-6632 Power Supply Module 110-220 VDC (SIC+) GC6-632

PE-6400 Peripheral Controller (Ax-PE bus el) GC6-400

System Components



PE-6401 Peripheral Controller (1x Ax-PE bus opt) GC6-401

PE-6402 Peripheral Control Module (2x Ax-PE Bus opt) GC6-402

DI-6100 Binary Input 2x8, 24-60VDC GC6-100

DI-6101 Binary Input 2x8, 110/220VDC GC6-101

DI-6102 Binary Input 2x8, 24-60VDC 1ms GC6-102

System Components



DI-6103 Binary Input 2x8, 110/220VDC 1ms GC6-103

DI-6104 Binary Input 2x8, 220VDC GC6-104

DO-6200 Binary Output Transistor 2x8, 24-60VDC GC6-200

DO-6212 Binary Output Relays 8x 24-220VDC/230VAC GC6-212

AI-6300 Analog Input 2x2 ±20mA/±10V GC6-300

System Components



AI-6307 Analog Input 2x2 ±5mA/±10V GC6-307

AI-6310 Analog Input 2x2 Pt100/Ni100 GC6-310

AO-6380 Analog Output 4x ±20mA/±10mA/±10V GC6-380

System Components


20.2. Accessories

20.2.1. Connecting Cable: Peripheral Control Module PE-6400 Bus Interface CM-0843


USB-Cable for Peripheral Controller (1,5m)



TC6-201--

TC6-202--

TC6-203--

20.2.2. Connecting Cable: Peripheral Control Module PE-6401(2) Bus Interface CM-0843

Components for fiber optic cable (0 .. 200m)


FO-INDOORCABLE-200-DUP-BREAK-ROUND TF7-035--

FO-OUTDOORCABLE-200-2FIB-ARM TF7-036--

FO-PIPE SPLITTER 2Y-LR1

(only for outdoor)

TF7-066

FO-CONNECTOR-ODLP-200 TF7-015--

System Components


20.2.3. Miscellaneous


PHOENIX CR-MSTB/ Zack-Strip 10 pces PHO+0807216

PHOENIX CR-MSTB/ Coding Element 6 pces PHO+1734401

Coding section for TM 1703 terminal strip TC6-055-

WEIDMUELLER LPA QB2/ Cross-Connection 2 pins WEI+147220

WAGO 249-117/ Screwless End Stop for DIN 35 Rail WAG+249-117

Bus Terminator TC6-050

Labeled screw terminal (1-10); without coding




WEIDMUELLER sheet with 48 adhesive labels WEI+168551

Further Documents


21. Further Documents

System Data Sheet TM 1703 ACP MC6-007-1

SAT 1703 Common Functions Peripheral Elements according to IEC 60870-5-101/104 DC0-011-1

Data Sheet CM-0842 MC0-021-1

Data Sheet CM-0843 MC0-023-1

Further Documents


Link-Categories and their Parameters

System Element Manual PE-640x/USIO65 DC6-011-2.01 A-1

A. Process-technical Parameters

USIO65 Revision 07

USIO65 Process-technical parameter

A.1. USIO65/AI_I

AI_I - current value acquisition

Parameter Description Values/Ranges Default Mode

CASDU1 Address of the datapoint. The complete address consists

of CASDU1, CASDU2, IOA1, IOA2 and IOA3. CASDU1

and CASDU2 = 255 means no spontaneous transmission

Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

IOA1 Address of the datapoint. The complete address consists



Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

TI Type identification according to IEC 60870-5-101/104 dynamicMeasured value 15

bit + sign normalized (34)

Measured value 15 bit + sign

scaled (35)

Measured value short

floating point (36)

-- Normal

Longtext This longtext is displayed in the assembly-technical

documentation and used when creating the ELCAD file.

String 100 Char -- Normal

X_0% Nominal range in the physical unit of the input/output

(0%) (S)

Float [###.##]

-50.0 to 50.0

-20 Normal


(100%)

Float [###.##]

-50.0 to 50.0

20 Normal

Y_0% Technological or normalized value 0% (S) Float

[#################.###]

-1000000000000000.000 to

1000000000000000.000

-32000 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

32000 Normal

Zero range Zero range suppression (and check of the plausibility

limits) (S)

[0] NO

[1] YES

NO Normal

block Blocking (=not used) (S) [0] NO NO Normal


A-2 DC6-011-2.01 System Element Manual PE-640x/USIO65

[1] YES

label With this parameter is it possible to make a statustext in

the assembly-technical documentation for data points

assinged on more than on HW-pin

see Label -- Normal

line frequency The noise rejection takes place for the parametrized line

frequency

[0] 50Hz

[1] 60Hz

[2] 16.7Hz

50Hz Normal

thresh_additive Change threshold in % of X_100% (S) AI_T: % of

temperature range

Float [####.#]

0 to 1000.0

150 Normal

MV_conv_free_Xl Limit of not plausible range. Parameter is only effective, if

the parameter zero_range_a_MV_conv is set to free

parametrizable (in the physical unit of the input) (S)

Float [####.##]

-103.00 to 103.00

-103 Expert

OV_suppr_t OV suppression time in seconds, 0=no OV suppression Integer [###]

0 to 255

0 Expert

Processing grid Processing grid in seconds Float [##.#]

0.1 to 25.5

0.1 Expert

Smoothing 0 - 99 in %. 0% = no smoothing, 99% = highest possible

smoothing

Integer [##]

0 to 99

0 Expert

standard load The measuring range can be adapted with changing the

load (S)

[0] NO

[1] YES

YES Expert

thresh_uncond Change threshold in % of X_100% (S) AI_T: % of

temperature range

Float [###.##]

0 to 103.00

2 Expert

zero_range_Xzl lower limit of zero range in % of X_100% (S) Float [####.##]

-103.00 to 103.00

-5 Expert

zero_range_Xzu upper limit of zero range in % of X_100% (S) Float [####.##]

-103.00 to 103.00

5 Expert

zero_range_Yz Technological or normalized value of zero range (S) Float

[#################.###]

-1000000000000000.000 to

1000000000000000.000

0 Expert

zero_range_a MV_conv Zero range suppression (and check of the plausibility

limits) either standard or free parametrizable (S)

[0] standard

[1] free configurable

standard Expert

A.2. USIO65/AI_T

AI_T - Temperature Input





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal



TI Type identification according to IEC 60870-5-101/104 dynamicMeasured value

short floating point (36)

-- Normal

Connection techn. Connection technique for temperature acquisition (S) [0] 2 wire

[1] 3 wire

[2] 4 wire

4 wire Normal




Measuring range Measuring range [0] PT100: -50 to 350

degrees celsius

[1] PT100: -100 to 700

degrees celsius

[2] NI100: -60 to 250 degrees

celsius

PT100: -50

to 350

degrees

celsius

Normal

block Blocking (=not used) (S) [0] NO

[1] YES

NO Normal




see Label -- Normal


frequency

[0] 50Hz

[1] 60Hz

[2] 16.7Hz

50Hz Normal


temperature range

Float [####.#]

0 to 1000.0

150 Normal


smoothing

Integer [##]

0 to 99

0 Expert


temperature range

Float [###.##]

0 to 103.00

2 Expert

value_selection Value selection. Either the resistance value or the

temperature value is transferred.

[0] temperature (°C)

[1] temperature (°F)

[2] resistor

temperatur

e (°C)

Expert

A.3. USIO65/AI_U

AI_U - voltage value acquisition





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal






scaled (35)


floating point (36)

-- Normal


(0%) (S)

Float [###.##]

-10.0 to 10.0

-10 Normal


(100%)

Float [###.##]

-10.0 to 10.0

10 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

-32000 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

32000 Normal

Zero range Zero range suppression (and check of the plausibility

limits) (S)

[0] NO

[1] YES

NO Normal


[1] YES

NO Normal


frequency

[0] 50Hz

[1] 60Hz

[2] 16.7Hz

50Hz Normal


temperature range

Float [####.#]

0 to 1000.0

150 Normal

MV_conv_free_Xl Limit of not plausible range. Parameter is only effective, if

the parameter zero_range_a_MV_conv is set to free

parametrizable (in the physical unit of the input) (S)

Float [####.##]

-103.00 to 103.00

-103 Expert

OV_suppr_t OV suppression time in seconds, 0=no OV suppression Integer [###]

0 to 255

0 Expert

Processing grid Processing grid in seconds Float [##.#]

0.1 to 25.5

0.1 Expert


smoothing

Integer [##]

0 to 99

0 Expert

standard load The measuring range can be adapted with changing the

load (S)

[0] NO

[1] YES

YES Expert


temperature range

Float [###.##]

0 to 103.00

2 Expert

zero_range_Xzl lower limit of zero range in % of X_100% (S) Float [####.##]

-103.00 to 103.00

-5 Expert

zero_range_Xzu upper limit of zero range in % of X_100% (S) Float [####.##]

-103.00 to 103.00

5 Expert

zero_range_Yz Technological or normalized value of zero range (S) Float

[#################.###]

-1000000000000000.000 to

1000000000000000.000

0 Expert

zero_range_a MV_conv Zero range suppression (and check of the plausibility

limits) either standard or free parametrizable (S)

[0] standard

[1] free configurable

standard Expert



A.4. USIO65/AO_I

AO_I - Analog Output Current





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




scaled (35)


floating point (36)

Setpoint value positioning

command stand. (48)


command scaled (49)


command short floating point

(50)

-- Normal

Fail_behav Behavior at failure [0] keep

[2] Substitute value

keep Normal





(0%) (S)

Float [###.##]

-20.0 to 20.0

-20 Normal


(100%)

Float [###.##]

-20.0 to 20.0

20 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

-32000 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

32000 Normal


[1] YES

NO Normal




see Label -- Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

Automatic Expert



[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself

[255] Automatic/R-SID

Automatic/

R-SID

Expert

SID-ST Source identification station number if multipoint traffic

mode 0-99 if R-SID 0-254 If automatic then the source ID

will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253

[254] 254/SSE itself

[255] Automatic/point-to-

point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

fail_subst value Substitute value, if behavior of failure is parametrized on

ouput substitute value (S)

Float

[#################.###]

-1000000000000000.000 to

1000000000000000.000

0 Expert

receive format Source of datapoint [1] spontaneous spontaneo

us

Expert

select_execute_t Max. time between select and execute (in seconds). After

this time a recent select command is necessary. 0 = no

select command is expected (direct command

transmission)

Float [####.#]

0 to 6553.5

0 Expert



A.5. USIO65/AO_U

AO_U - Analog Output Voltage





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




scaled (35)


floating point (36)


command stand. (48)


command scaled (49)


command short floating point

(50)

-- Normal


[2] Substitute value

keep Normal





(0%) (S)

Float [###.##]

-20.0 to 20.0

-10 Normal


(100%)

Float [###.##]

-20.0 to 20.0

10 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

-32000 Normal


[#################.###]

-1000000000000000.000 to

1000000000000000.000

32000 Normal


[1] YES

NO Normal




see Label -- Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

Automatic Expert



[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

fail_subst value Substitute value, if behavior of failure is parametrized on

ouput substitute value (S)

Float

[#################.###]

-1000000000000000.000 to

1000000000000000.000

0 Expert

receive format Source of datapoint [1] spontaneous spontaneo

us

Expert




transmission)

Float [####.#]

0 to 6553.5

0 Expert



A.6. USIO65/DI_CV

DI_CV - Counter Value





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

TI Type identification according to IEC 60870-5-101/104 dynamicCount 31 bit + sign

with sequence no. (37)

-- Normal

Inversion Inversion (S) [0] NO

[1] YES

NO Normal




Pulse value Pulse value (S) Float [####.####]

0.0001 to 9999

1.0000 Normal

Type Conditioned value type (S) [0] latched absolute value

[1] latched relative value

latched

absolute

value

Normal

Value range Value range of the counter (S) [0] 31Bit Integer

[1] 24Bit Integer

[2] 2 decades

[3] 3 decades

[4] 4 decades

[5] 5 decades

[6] 6 decades

[7] 7 decades

[8] 8 decades

[9] 9 decades

31Bit

Integer

Normal


[1] YES

NO Normal

interval_time_0 Interval time. As transmission trigger or latch trigger of

the counts it is also possible to set an interval. The

belonging time is to configure here.

[0] 1 minute

[1] 2 minutes

[2] 3 minutes

[3] 5 minutes

[4] 10 minutes

[5] 15 minutes

[6] 30 minutes

[7] 60 minutes

1 minute Normal

interval_time_1 Interval time. As transmission trigger or latch trigger of

the counts it is also possible to set an interval. The

belonging time is to configure here.

[0] 1 minute

[1] 2 minutes

[2] 3 minutes

[3] 5 minutes

[4] 10 minutes

[5] 15 minutes

[6] 30 minutes

[7] 60 minutes

1 minute Normal






see Label -- Normal

transm_prompting Transmission prompting. The initiating for the transfer of

the latched count can happen through a counter

interrogation message (group), through adjustable

intervals, or through the function diagramm. (S)

[0] counter group 1

[1] counter group 2

[2] counter group 3

[3] counter group 4

[4] function diagram

[5] Interval 0

[6] Interval 1

counter

group 1

Normal

SVM_monitoring Power monitoring. The sensor voltage is monitored by an

own power monitoring input (S)

[0] NO

[1] YES

NO Expert

latch_prompting Latch prompting can be different to the transmission

prompting (S)

[0] counter group 1

[1] counter group 2

[2] counter group 3

[3] counter group 4

[4] function diagram

[5] Interval 0

[6] Interval 1

[8] with initiation of

transmission

with

initiation of

transmissio

n

Expert

message_blocking_t Message blocking time in seconds. During this time

period, identical messages will be discarded without error

information.

Float [####.#]

0.1 to 6553.5

0

0 Expert

A.7. USIO65/DI_DI

DI_DI - Digital Input - Double Point Information





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

TI Type identification according to IEC 60870-5-101/104 dynamicD.-point information

(31)

-- Normal

Inversion_0 Inversion (S) [0] NO

[1] YES

NO Normal

Inversion_1 Inversion (S) [0] NO

[1] YES

NO Normal





[1] YES

NO Normal



command_assessment_t Command assessment time in seconds. 0=switch is not

controlled by a command. After a given command during

this time all reaction to the command are attributed. (S)

Float [####.#]

0.1 to 6553.5

0

0 Normal

faulty_pos_t Faulty position suppression time in seconds. 0= no faulty

position suppression (S)

Float [####.#]

0.1 to 6553.5

0

0 Normal

int_posit_t Intermediate position suppression time in seconds. 0=no

intermediate position suppression (S)

Float [####.#]

0.1 to 6553.5

0

0 Normal




see Label -- Normal

use_CAEx_plus Periodical use of this data point for CAEx plus (Y/N) [0] No

[1] Yes

No Normal

AR_sign_t Time for signalling the automatic reclosure in seconds

0=no signalling of autom. reclosure (S)

Float [##.#]

0.1 to 25.5

0

0 Expert

Flutt_Number Number of transients for flutter suppression (S) Integer [###]

1 to 255

1 Expert

Flutt_dp_qds Datapoint quality discriptor for fluttery binary information [0] BL

[1] IV

BL Expert

Flutt_t Flutter time in seconds. 0=no fluttersuppression (S) Float [####.#]

0.1 to 6553.5

0

0 Expert



[0] NO

[1] YES

NO Expert

SW_Filter_t Software filter-time in s (S) Float [##.###]

0.001 to 16.383

0

0.000 Expert

A.8. USIO65/DI_SI

DI_SI - Digital Input - Single Point Information





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

TI Type identification according to IEC 60870-5-101/104 dynamicSingle-point

information (30)

-- Normal

Inversion Inversion (S) [0] NO

[1] YES

NO Normal







[1] YES

NO Normal




see Label -- Normal


[1] Yes

No Normal

Flutt_Number Number of transients for flutter suppression (S) Integer [###]

1 to 255

1 Expert

Flutt_dp_qds Datapoint quality discriptor for fluttery binary information [0] BL

[1] IV

BL Expert

Flutt_t Flutter time in seconds. 0=no fluttersuppression (S) Float [####.#]

0.1 to 6553.5

0

0 Expert



[0] NO

[1] YES

NO Expert

SW_Filter_t Software filter-time in s (S) Float [##.###]

0.001 to 16.383

0

0.000 Expert

input function Functionality of the binary input This parameterization

permits to disable the information input for revision

handling.

[0] Standard

[1] blocking for revision

Standard Expert

A.9. USIO65/DO_DC_1POL

DO_DC_1POL - Double Command Output 1-pole





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

TI Type identification according to IEC 60870-5-101/104 dynamicSingle command

(45)

Double command (46)

Tap positioning command

(47)

-- Normal




RS_Image Parameter works only with ACP 1703 platform String 100 Char -- Normal






see Label -- Normal

output_t_0 Command output time in seconds (S). Attention: The time

comes into effect only, if in the message is not defined

any time.

Float [###.##]

0.01 to 327.67

0.01 Normal



any time.

Float [###.##]

0.01 to 327.67

0.01 Normal

1_out_of_n_t_0 Within this time (in sec) the 1 out of n enabling must

occur on the command. 0=no 1 out of n enabling

necessary. Attention: Function only active if sync_t=0

Float [##.#]

0.1 to 25.5

0

0 Expert




Float [##.#]

0.1 to 25.5

0

0 Expert

Command_prolong_t Command prolongation time in seconds (S) Float [###.##]

0.01 to 327.67

0 to

0 Expert

QOC>8 If QOC>8 (Qualifier of Command) is accepted, so all

QOC > 8 will be interpreted as QOC=0.

[0] not accepted

[1] accepted

not

accepted

Expert

RS_Mon_Source_0 Source of state information for state information

monitoring

[0] Peripherals

[1] open-/closed loop control

function

[2] both (logical or)

Peripherals Expert


monitoring

[0] Peripherals


function


Peripherals Expert

RS_Mon_t Return state information monitoring time in seconds (S).

0=no return state information monitoring

Float [###.##]

0.01 to 655.35

0

0 Expert

RS_outp_same_state_0 Selection of command output and command

confirmation, if return state is already end position before

output. Attention: only active if RS_mon_t is unequal 0

[0] CON+ /output

(com_prolong_t)/TERM-

[1] CON+ /output

(com_prolong_t)/TERM+

[2] CON+ /output/TERM-

[3] CON+ /output/TERM+

[4] CON+ /no output/TERM-

[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert

Retry_suppression_T Command retry suppression time in seconds. Within this

time a command with same address is discarded without

error information (s)

Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

Automatic Expert



[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

Sw_Seq_addtl_com_0 Switching sequence: Select the additional command [0] no command

[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

no

command

Expert



[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11



[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

no

command

Expert



[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17



[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17

Sw_Seq_command_seq

_0

Switching sequence: output additional command before

or after the command

[0] after

[1] before

after Expert

Sw_Seq_command_seq

_1



[0] after

[1] before

after Expert

Sync_Input_t_0 Within this time (in sec) the enabling over the

syncronisation input must occur on the command. 0=no

syncronisation over syncronisation input. Attention:

Function only active if sync_t=0

Float [####.#]

0.1 to 6553.5

0

0 Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert

Sync_t_0 Within this time (in sec) the interlock enabling must occur

on the command. 0=no syncronisation over interlocking

Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert



A.10. USIO65/DO_R_DC_1,5POL

DO_R_DC_1,5POL - Double Command Output 1,5-pole (Relay)





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

Double command (46)


(47)

-- Normal








see Label -- Normal



any time.

Float [###.##]

0.01 to 327.67

0.01 Normal



any time.

Float [###.##]

0.01 to 327.67

0.01 Normal




Float [##.#]

0.1 to 25.5

0

0 Expert




Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert


monitoring

[0] Peripherals


function


Peripherals Expert


monitoring

[0] Peripherals


function


Peripherals Expert





Float [###.##]

0.01 to 655.35

0

0 Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert





will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

no

command

Expert



[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13



[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

no

command

Expert



[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17

Sw_Seq_command_seq Switching sequence: output additional command before [0] after after Expert



_0 or after the command [1] before

Sw_Seq_command_seq

_1



[0] after

[1] before

after Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.11. USIO65/DO_R_DC_1POL

DO_R_DC_1POL - Double Command Output 1-pole (Relay)





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

Double command (46)


(47)

-- Normal








see Label -- Normal





any time.

Float [###.##]

0.01 to 327.67

0.01 Normal



any time.

Float [###.##]

0.01 to 327.67

0.01 Normal




Float [##.#]

0.1 to 25.5

0

0 Expert




Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert


monitoring

[0] Peripherals


function


Peripherals Expert


monitoring

[0] Peripherals


function


Peripherals Expert



Float [###.##]

0.01 to 655.35

0

0 Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

Automatic Expert



[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

no

command

Expert



[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15



[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

no

command

Expert



[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03



[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17

Sw_Seq_command_seq

_0



[0] after

[1] before

after Expert

Sw_Seq_command_seq

_1



[0] after

[1] before

after Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.12. USIO65/DO_R_DC_2POL

DO_R_DC_2POL - Double Command Output 2-pole (Relay)





Integer [###]

0 to 255

255 Normal






Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

Double command (46)


(47)

-- Normal








see Label -- Normal



any time.

Float [###.##]

0.01 to 327.67

0.01 Normal



any time.

Float [###.##]

0.01 to 327.67

0.01 Normal




Float [##.#]

0.1 to 25.5

0

0 Expert




Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert


monitoring

[0] Peripherals


function


Peripherals Expert


monitoring

[0] Peripherals


function


Peripherals Expert



Float [###.##]

0.01 to 655.35

0

0 Expert




[0] CON+ /output


[1] CON+ /output





CON+

/output

(com_prolo

ng_t)/TER

M-

Expert



[5] CON- /no output




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert




[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

no

command

Expert



[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

no

command

Expert



[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10



[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17

Sw_Seq_command_seq

_0



[0] after

[1] before

after Expert

Sw_Seq_command_seq

_1



[0] after

[1] before

after Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert







Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.13. USIO65/DO_R_SC_1,5POL

DO_R_SC_1,5POL - Single Command Output 1,5-pole (Relay)





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

-- Normal




Output_t Command output time in seconds (S). Attention: The time


any time.

Float [###.##]

0.01 to 327.67

0.01 Normal





see Label -- Normal

1_out_of_n_t Within this time (in sec) the 1 out of n enabling must



Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert



RS_Mon_Source Source of state information for state information

monitoring

[0] Peripherals


function


Peripherals Expert



Float [###.##]

0.01 to 655.35

0

0 Expert

RS_outp_same_state Selection of command output and command



[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

Automatic/

point-to-

point/BSE

Expert



…

…

[252] 252

[253] 253



point/BSE itself

itself

Sw_Seq_addtl_com Switching sequence: Select the additional command [0] no command

[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

no

command

Expert



[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16



[767] IOM7 - OUT D17

Sw_Seq_command_seq Switching sequence: output additional command before


[0] after

[1] before

after Expert

Sync_Input_t Within this time (in sec) the enabling over the




Float [####.#]

0.1 to 6553.5

0

0 Expert

Sync_t Within this time (in sec) the interlock enabling must occur


Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.14. USIO65/DO_R_SC_1POL

DO_R_SC_1POL - Single Command Output 1-pole (Relay)





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

-- Normal






any time.

Float [###.##]

0.01 to 327.67

0.01 Normal





see Label -- Normal




Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert




monitoring

[0] Peripherals


function


Peripherals Expert



Float [###.##]

0.01 to 655.35

0

0 Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

Automatic/

point-to-

point/BSE

Expert



…

…

[252] 252

[253] 253



point/BSE itself

itself


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

no

command

Expert



[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16



[767] IOM7 - OUT D17



[0] after

[1] before

after Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.15. USIO65/DO_R_SC_2POL

DO_R_SC_2POL - Single Command Output 2-pole (Relay)





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

-- Normal






any time.

Float [###.##]

0.01 to 327.67

0.01 Normal





see Label -- Normal




Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert




monitoring

[0] Peripherals


function


Peripherals Expert



Float [###.##]

0.01 to 655.35

0

0 Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

Automatic/

point-to-

point/BSE

Expert



…

…

[252] 252

[253] 253



point/BSE itself

itself


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

no

command

Expert



[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00

[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16



[767] IOM7 - OUT D17



[0] after

[1] before

after Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.16. USIO65/DO_R_SI

DO_R_SI - Single-pt inform. output (relay)





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal


[1] terminate

terminate Normal







see Label -- Normal


[1] Yes

No Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

Automatic Expert



[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

receive format Source of datapoint [0] periodical

[1] spontaneous

spontaneo

us

Expert

A.17. USIO65/DO_SC_1POL

DO_SC_1POL - Single Command Output 1-pole





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal






Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


(45)

-- Normal






any time.

Float [###.##]

0.01 to 327.67

0.01 Normal





see Label -- Normal




Float [##.#]

0.1 to 25.5

0

0 Expert


0.01 to 327.67

0 to

0 Expert



[0] not accepted

[1] accepted

not

accepted

Expert


monitoring

[0] Peripherals


function


Peripherals Expert



Float [###.##]

0.01 to 655.35

0

0 Expert




[0] CON+ /output


[1] CON+ /output





[5] CON- /no output

CON+

/output

(com_prolo

ng_t)/TER

M-

Expert




Float [####.#]

0.1 to 6553.5

0

0 Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

Automatic Expert



[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert


[640] IOM0 - OUT D00

[641] IOM0 - OUT D01

[642] IOM0 - OUT D02

[643] IOM0 - OUT D03

[644] IOM0 - OUT D04

[645] IOM0 - OUT D05

[646] IOM0 - OUT D06

[647] IOM0 - OUT D07

[648] IOM0 - OUT D10

[649] IOM0 - OUT D11

[650] IOM0 - OUT D12

[651] IOM0 - OUT D13

[652] IOM0 - OUT D14

[653] IOM0 - OUT D15

[654] IOM0 - OUT D16

[655] IOM0 - OUT D17

[656] IOM1 - OUT D00

[657] IOM1 - OUT D01

[658] IOM1 - OUT D02

[659] IOM1 - OUT D03

[660] IOM1 - OUT D04

[661] IOM1 - OUT D05

[662] IOM1 - OUT D06

[663] IOM1 - OUT D07

[664] IOM1 - OUT D10

[665] IOM1 - OUT D11

[666] IOM1 - OUT D12

[667] IOM1 - OUT D13

[668] IOM1 - OUT D14

no

command

Expert



[669] IOM1 - OUT D15

[670] IOM1 - OUT D16

[671] IOM1 - OUT D17

[672] IOM2 - OUT D00

[673] IOM2 - OUT D01

[674] IOM2 - OUT D02

[675] IOM2 - OUT D03

[676] IOM2 - OUT D04

[677] IOM2 - OUT D05

[678] IOM2 - OUT D06

[679] IOM2 - OUT D07

[680] IOM2 - OUT D10

[681] IOM2 - OUT D11

[682] IOM2 - OUT D12

[683] IOM2 - OUT D13

[684] IOM2 - OUT D14

[685] IOM2 - OUT D15

[686] IOM2 - OUT D16

[687] IOM2 - OUT D17

[688] IOM3 - OUT D00

[689] IOM3 - OUT D01

[690] IOM3 - OUT D02

[691] IOM3 - OUT D03

[692] IOM3 - OUT D04

[693] IOM3 - OUT D05

[694] IOM3 - OUT D06

[695] IOM3 - OUT D07

[696] IOM3 - OUT D10

[697] IOM3 - OUT D11

[698] IOM3 - OUT D12

[699] IOM3 - OUT D13

[700] IOM3 - OUT D14

[701] IOM3 - OUT D15

[702] IOM3 - OUT D16

[703] IOM3 - OUT D17

[704] IOM4 - OUT D00

[705] IOM4 - OUT D01

[706] IOM4 - OUT D02

[707] IOM4 - OUT D03

[708] IOM4 - OUT D04

[709] IOM4 - OUT D05

[710] IOM4 - OUT D06

[711] IOM4 - OUT D07

[712] IOM4 - OUT D10

[713] IOM4 - OUT D11

[714] IOM4 - OUT D12

[715] IOM4 - OUT D13

[716] IOM4 - OUT D14

[717] IOM4 - OUT D15

[718] IOM4 - OUT D16

[719] IOM4 - OUT D17

[720] IOM5 - OUT D00

[721] IOM5 - OUT D01

[722] IOM5 - OUT D02

[723] IOM5 - OUT D03

[724] IOM5 - OUT D04

[725] IOM5 - OUT D05

[726] IOM5 - OUT D06

[727] IOM5 - OUT D07

[728] IOM5 - OUT D10

[729] IOM5 - OUT D11

[730] IOM5 - OUT D12

[731] IOM5 - OUT D13

[732] IOM5 - OUT D14

[733] IOM5 - OUT D15

[734] IOM5 - OUT D16

[735] IOM5 - OUT D17

[736] IOM6 - OUT D00



[737] IOM6 - OUT D01

[738] IOM6 - OUT D02

[739] IOM6 - OUT D03

[740] IOM6 - OUT D04

[741] IOM6 - OUT D05

[742] IOM6 - OUT D06

[743] IOM6 - OUT D07

[744] IOM6 - OUT D10

[745] IOM6 - OUT D11

[746] IOM6 - OUT D12

[747] IOM6 - OUT D13

[748] IOM6 - OUT D14

[749] IOM6 - OUT D15

[750] IOM6 - OUT D16

[751] IOM6 - OUT D17

[752] IOM7 - OUT D00

[753] IOM7 - OUT D01

[754] IOM7 - OUT D02

[755] IOM7 - OUT D03

[756] IOM7 - OUT D04

[757] IOM7 - OUT D05

[758] IOM7 - OUT D06

[759] IOM7 - OUT D07

[760] IOM7 - OUT D10

[761] IOM7 - OUT D11

[762] IOM7 - OUT D12

[763] IOM7 - OUT D13

[764] IOM7 - OUT D14

[765] IOM7 - OUT D15

[766] IOM7 - OUT D16

[767] IOM7 - OUT D17



[0] after

[1] before

after Expert





Float [####.#]

0.1 to 6553.5

0

0 Expert



Float [####.#]

0.1 to 6553.5

0

0 Expert




transmission)

Float [####.#]

0.0 to 25.5

0 Expert

A.18. USIO65/DO_SI

DO_SI - Digital Output - Single Point Information





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal






Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal


[1] terminate

terminate Normal







see Label -- Normal


[1] Yes

No Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



[0] 0

[1] 1

[2] 2

Automatic/

point-to-

point/BSE

Expert



will be learned …

…

[252] 252

[253] 253



point/BSE itself

itself

receive format Source of datapoint [0] periodical

[1] spontaneous

spontaneo

us

Expert

A.19. USIO65/SW_CONTROL_LOCATION

SW_CONTROL LOCATION - control location





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


bit + sign scaled (35)

Single command (45)

-- Normal







see Label -- Normal

ACTCON_yes_no Sending of ACTCON and ACTTERM [0] NO

[1] YES

YES Expert

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

Automatic Expert



[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

A.20. USIO65/SW_CO_INTER

SW_CO_INTER - command interlocked





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal









see Label -- Normal

A.21. USIO65/SW_CO_SYNC_A

SW_CO_SYNC_A - command synchronization abortion





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal

A.22. USIO65/SW_CO_SYNC_R

SW_CO_SYNC_R - command synchronisation is running





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal






Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal

A.23. USIO65/SW_CV_SET

SW_CV_SET - counter set





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal

TI Type identification according to IEC 60870-5-101/104 dynamicCount 31 bit + sign

with sequence no. (37)

-- Normal







see Label -- Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

Automatic Expert



[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

A.24. USIO65/SW_DI

SW_DI - Software Data Point Digital Input


CAEx_IOM IOM - Name for the periodical use of this data point in

CAEx II


CAEx_IOM1 IOM1- Name (global marker) for the periodical use of this

data point in CAEx II


CAEx_Proj Project name for the periodical use of this data point in

CAEx II


CAEx_long_text Longtext for the periodical use of the data point in CAEx

II








see Label -- Normal


[1] Yes

No Normal



A.25. USIO65/SW_DI_AR

SW_DI_AR -automatic reclosing





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal

A.26. USIO65/SW_DI_BT

SW_DI_BT - Breaker tripping





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal



A.27. USIO65/SW_DI_SOR

SW_DI_SOR - switching operation running





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal

A.28. USIO65/SW_DO

SW_DO - Software Data Point Digital Output


CAEx_IOM IOM - Name for the periodical use of this data point in

CAEx II


CAEx_IOM1 IOM1- Name (global marker) for the periodical use of this

data point in CAEx II


CAEx_Proj Project name for the periodical use of this data point in

CAEx II


CAEx_long_text Longtext for the periodical use of the data point in CAEx

II








see Label -- Normal


[1] Yes

No Normal



A.29. USIO65/SW_LOC_REM

SW_LOC_REM - local remote criterion





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

Automatic Expert

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

Automatic/

R-SID

Expert



[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself




will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

A.30. USIO65/SW_REV

SW_REV - Revision





Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal




Integer [###]

0 to 255

255 Normal


information (30)

-- Normal







see Label -- Normal

SID-BSE [0] C0-CPU

[1] C1-CPU

[2] C2-CPU

[3] C3-CPU

[4] C4-CPU

[5] C5-CPU

[6] C6-CPU

[7] C7-CPU

[8] C8-CPU

[9] C9-CPU

[10] C10-CPU

[11] C11-CPU

[12] C12-CPU

Automatic Expert



[13] C13-CPU

[14] C14-CPU

[15] C15-CPU

[16] C16-CPU

[20] M-CPU

[30] R-SID

[254] own BSE

[255] Automatic

SID-SSE [0] PE00

[1] PE01

[2] PE02

[3] PE03

[4] PE04

[5] PE05

[6] PE06

[7] PE07

[8] PE08

[9] PE09

[10] PE10

[11] PE11

[12] PE12

[13] PE13

[14] PE14

[15] PE15

[128] PRE0

[129] PRE1

[130] PRE2

[131] PRE3

[254] BSE itself


Automatic/

R-SID

Expert



will be learned

[0] 0

[1] 1

[2] 2

…

…

[252] 252

[253] 253



point/BSE itself

Automatic/

point-to-

point/BSE

itself

Expert

A.31. label

Selectable elements

Element Values/Ranges

+/- +

-

I+ / I- I+

I-

IN / -- IN

IN / AUX V IN

AUX V

OUT / -- OUT

OUT / AUX V OUT

AUX V

U+ / U- U+

U-



deeper/higher deeper

higher

higher/deeper higher

deeper

local/normal operation local operation

normal operation

local/remote local

remote

normal/local operation normal operation

local operation

off/on off

on

on/off on

off

open/shut on

shut

remote/local remote

local

shut/open shut

on

Diagnostics Information

System Element Manual PE-640x/USIO65 DC6-011-2.01 B-1

B. Diagnostics Information

USIO65 Revision 07

USIO65 Diagnosis

B.1. Class Internal

B.1.1. Class Internal - Record 0 : Operating system

Bit Description

00 RAM error

01 Stack error

02 Firmware shut down

04 Watchdog elapsed

B.1.2. Class Internal - Record 1 : Data interface for spontaneous information objects

Bit Description

00 FIFO for spontaneous information objects with time tag is full

01 FIFO for spontaneous information objects without time tag is full

B.1.3. Class Internal - Record 2 : Single-point and double-point information

Bit Description

11 FIFO overflow of binary information acquisition

12 Overload of the acquisition function

B.1.4. Class Internal - Record 6 : I/O Modul wrongly mounted

Bit Description

00 I/O module 0

01 I/O module 1

02 I/O module 2

03 I/O module 3

04 I/O module 4

05 I/O module 5

06 I/O module 6


B-2 DC6-011-2.01 System Element Manual PE-640x/USIO65

07 I/O module 7

B.1.5. Class Internal - Record 7 : Current and voltage, offset

Bit Description

00 IOM0 - IN V0

01 IOM0 - IN V1

02 IOM0 - IN V2

03 IOM0 - IN V3

04 IOM1 - IN V0

05 IOM1 - IN V1

06 IOM1 - IN V2

07 IOM1 - IN V3

08 IOM2 - IN V0

09 IOM2 - IN V1

10 IOM2 - IN V2

11 IOM2 - IN V3

12 IOM3 - IN V0

13 IOM3 - IN V1

14 IOM3 - IN V2

15 IOM3 - IN V3

B.1.6. Class Internal - Record 8 : Current and voltage, offset

Bit Description

00 IOM4 - IN V0

01 IOM4 - IN V1

02 IOM4 - IN V2

03 IOM4 - IN V3

04 IOM5 - IN V0

05 IOM5 - IN V1

06 IOM5 - IN V2

07 IOM5 - IN V3

08 IOM6 - IN V0

09 IOM6 - IN V1

10 IOM6 - IN V2

11 IOM6 - IN V3

12 IOM7 - IN V0

13 IOM7 - IN V1

14 IOM7 - IN V2

15 IOM7 - IN V3



B.1.7. Class Internal - Record 9 : Current and voltage, EEPROM

Bit Description

00 IOM0 - IN V0

01 IOM0 - IN V1

02 IOM0 - IN V2

03 IOM0 - IN V3

04 IOM1 - IN V0

05 IOM1 - IN V1

06 IOM1 - IN V2

07 IOM1 - IN V3

08 IOM2 - IN V0

09 IOM2 - IN V1

10 IOM2 - IN V2

11 IOM2 - IN V3

12 IOM3 - IN V0

13 IOM3 - IN V1

14 IOM3 - IN V2

15 IOM3 - IN V3

B.1.8. Class Internal - Record 10 : Current and voltage, EEPROM

Bit Description

00 IOM4 - IN V0

01 IOM4 - IN V1

02 IOM4 - IN V2

03 IOM4 - IN V3

04 IOM5 - IN V0

05 IOM5 - IN V1

06 IOM5 - IN V2

07 IOM5 - IN V3

08 IOM6 - IN V0

09 IOM6 - IN V1

10 IOM6 - IN V2

11 IOM6 - IN V3

12 IOM7 - IN V0

13 IOM7 - IN V1

14 IOM7 - IN V2

15 IOM7 - IN V3

B.1.9. Class Internal - Record 11 : Current and voltage output, EEPROM

Bit Description

00 IOM0 - OUT V0



01 IOM0 - OUT V1

02 IOM0 - OUT V2

03 IOM0 - OUT V3

04 IOM1 - OUT V0

05 IOM1 - OUT V1

06 IOM1 - OUT V2

07 IOM1 - OUT V3

08 IOM2 - OUT V0

09 IOM2 - OUT V1

10 IOM2 - OUT V2

11 IOM2 - OUT V3

12 IOM3 - OUT V0

13 IOM3 - OUT V1

14 IOM3 - OUT V2

15 IOM3 - OUT V3

B.1.10. Class Internal - Record 12 : Current and voltage output, EEPROM

Bit Description

00 IOM4 - OUT V0

01 IOM4 - OUT V1

02 IOM4 - OUT V2

03 IOM4 - OUT V3

04 IOM5 - OUT V0

05 IOM5 - OUT V1

06 IOM5 - OUT V2

07 IOM5 - OUT V3

08 IOM6 - OUT V0

09 IOM6 - OUT V1

10 IOM6 - OUT V2

11 IOM6 - OUT V3

12 IOM7 - OUT V0

13 IOM7 - OUT V1

14 IOM7 - OUT V2

15 IOM7 - OUT V3

B.1.11. Class Internal - Record 13 : I/O module failed

Bit Description

00 I/O module 0

01 I/O module 1

02 I/O module 2

03 I/O module 3



04 I/O module 4

05 I/O module 5

06 I/O module 6

07 I/O module 7

B.1.12. Class Internal - Record 14 : Pulse command, firmware error of the control circuit check

Bit Description

03 Control circuit busy

B.1.13. Class Internal - Record 15 : Temperature, calibration error

Bit Description

00 IOM0 - IN V0

01 IOM0 - IN V1

02 IOM0 - IN V2

03 IOM0 - IN V3

04 IOM1 - IN V0

05 IOM1 - IN V1

06 IOM1 - IN V2

07 IOM1 - IN V3

08 IOM2 - IN V0

09 IOM2 - IN V1

10 IOM2 - IN V2

11 IOM2 - IN V3

12 IOM3 - IN V0

13 IOM3 - IN V1

14 IOM3 - IN V2

15 IOM3 - IN V3

B.1.14. Class Internal - Record 16 : Temperature, calibration error

Bit Description

00 IOM4 - IN V0

01 IOM4 - IN V1

02 IOM4 - IN V2

03 IOM4 - IN V3

04 IOM5 - IN V0

05 IOM5 - IN V1

06 IOM5 - IN V2

07 IOM5 - IN V3

08 IOM6 - IN V0

09 IOM6 - IN V1



10 IOM6 - IN V2

11 IOM6 - IN V3

12 IOM7 - IN V0

13 IOM7 - IN V1

14 IOM7 - IN V2

15 IOM7 - IN V3

B.1.15. Class Internal - Record 17 : Temperature, transmission error

Bit Description

00 IOM0 - IN V0

01 IOM0 - IN V1

02 IOM0 - IN V2

03 IOM0 - IN V3

04 IOM1 - IN V0

05 IOM1 - IN V1

06 IOM1 - IN V2

07 IOM1 - IN V3

08 IOM2 - IN V0

09 IOM2 - IN V1

10 IOM2 - IN V2

11 IOM2 - IN V3

12 IOM3 - IN V0

13 IOM3 - IN V1

14 IOM3 - IN V2

15 IOM3 - IN V3

B.1.16. Class Internal - Record 18 : Temperature, transmission error

Bit Description

00 IOM4 - IN V0

01 IOM4 - IN V1

02 IOM4 - IN V2

03 IOM4 - IN V3

04 IOM5 - IN V0

05 IOM5 - IN V1

06 IOM5 - IN V2

07 IOM5 - IN V3

08 IOM6 - IN V0

09 IOM6 - IN V1

10 IOM6 - IN V2

11 IOM6 - IN V3

12 IOM7 - IN V0



13 IOM7 - IN V1

14 IOM7 - IN V2

15 IOM7 - IN V3

B.2. Class External

B.2.1. Class External - Record 3 : Single-point and double-point information, signalling voltage failed

Bit Description

00 IOM0 - IN D07

01 IOM0 - IN D17

02 IOM1 - IN D07

03 IOM1 - IN D17

04 IOM2 - IN D07

05 IOM2 - IN D17

06 IOM3 - IN D07

07 IOM3 - IN D17

08 IOM4 - IN D07

09 IOM4 - IN D17

10 IOM5 - IN D07

11 IOM5 - IN D17

12 IOM6 - IN D07

13 IOM6 - IN D17

14 IOM7 - IN D07

15 IOM7 - IN D17

B.2.2. Class External - Record 4 : IOM0 Pulse command, status information for command missing

Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12



13 OUT D13

14 OUT D14

15 OUT D15


Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15


Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15




Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15


Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15


Bit Description

00 OUT D00



01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15


Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03

04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15


Bit Description

00 OUT D00

01 OUT D01

02 OUT D02

03 OUT D03



04 OUT D04

05 OUT D05

06 OUT D06

07 OUT D07

08 OUT D08

09 OUT D09

10 OUT D10

11 OUT D11

12 OUT D12

13 OUT D13

14 OUT D14

15 OUT D15

B.2.10. Class External - Record 12 : Current and voltage, open circuit

Bit Description

00 IOM0 - IN V0

01 IOM0 - IN V1

02 IOM0 - IN V2

03 IOM0 - IN V3

04 IOM1 - IN V0

05 IOM1 - IN V1

06 IOM1 - IN V2

07 IOM1 - IN V3

08 IOM2 - IN V0

09 IOM2 - IN V1

10 IOM2 - IN V2

11 IOM2 - IN V3

12 IOM3 - IN V0

13 IOM3 - IN V1

14 IOM3 - IN V2

15 IOM3 - IN V3

B.2.11. Class External - Record 13 : Current and voltage, open circuit

Bit Description

00 IOM4 - IN V0

01 IOM4 - IN V1

02 IOM4 - IN V2

03 IOM4 - IN V3

04 IOM5 - IN V0

05 IOM5 - IN V1

06 IOM5 - IN V2



07 IOM5 - IN V3

08 IOM6 - IN V0

09 IOM6 - IN V1

10 IOM6 - IN V2

11 IOM6 - IN V3

12 IOM7 - IN V0

13 IOM7 - IN V1

14 IOM7 - IN V2

15 IOM7 - IN V3

B.3. Class Test

B.3.1. Class Test - Record 0 : Operating system

Bit Description

00 Memory test disabled

B.4. Class Warning

B.4.1. Class Warning - Record 0 : General

Bit Description

00 Revision of module does not support all

firmware functions

01 Cause for negative ACT/CON or ACT/TERM

02 Wrong origin address

03 Key-operated switch in position "LOCAL"

04 Wrong sequence with selection- and execution command

05 Command interlocked

06 Selection-, execution command, another command is already selected

07 Command output busy

08 Command output or system element state "Revision"

09 System element overlapping 1-out-of-n enabling is missing

10 Return information for the desired command already queues

11 System element overlapping 1-out-of-n check responded

12 Timeout

13 The control circuit check recognized an error

14 Return information does not change into the desired state



B.4.2. Class Warning - Record 1 : Firmware

Bit Description

00 Illegal version of module

B.4.3. Class Warning - Record 2 : Current and voltage, parameter

Bit Description

01 Error in parameters for measured value

B.4.4. Class Warning - Record 3 : Error in parameters for set-point command

Bit Description

00 IOM0 - OUT V0

01 IOM0 - OUT V1

02 IOM0 - OUT V2

03 IOM0 - OUT V3

04 IOM1 - OUT V0

05 IOM1 - OUT V1

06 IOM1 - OUT V2

07 IOM1 - OUT V3

08 IOM2 - OUT V0

09 IOM2 - OUT V1

10 IOM2 - OUT V2

11 IOM2 - OUT V3

12 IOM3 - OUT V0

13 IOM3 - OUT V1

14 IOM3 - OUT V2

15 IOM3 - OUT V3

B.4.5. Class Warning - Record 4 : Error in parameters for set-point command

Bit Description

00 IOM4 - OUT V0

01 IOM4 - OUT V1

02 IOM4 - OUT V2

03 IOM4 - OUT V3

04 IOM5 - OUT V0

05 IOM5 - OUT V1

06 IOM5 - OUT V2

07 IOM5 - OUT V3

08 IOM6 - OUT V0

09 IOM6 - OUT V1

10 IOM6 - OUT V2



11 IOM6 - OUT V3

12 IOM7 - OUT V0

13 IOM7 - OUT V1

14 IOM7 - OUT V2

15 IOM7 - OUT V3

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