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Siemens SICAM AK Manual

Rtus. redundancy,
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SICAM RTUs
SICAM AK
Redundancy
Unrestricted DC2-026-2.07
Preface, Table of Contents
Redundancy via SCA-RS
Redundancy via CP-6010
SICAM RTUs AK3: Redundancy in one
Rack
Configuration of SICAM AK and CP-6010
1
2
3
A

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Summary of Contents for Siemens SICAM AK

  • Page 1 Preface, Table of Contents Redundancy via SCA-RS Redundancy via CP-6010 SICAM RTUs SICAM RTUs AK3: Redundancy in one Rack SICAM AK Configuration of SICAM AK and CP-6010 Redundancy Unrestricted DC2-026-2.07...
  • Page 2 Disclaimer of Liability Copyright Although we have carefully checked the contents of this publication Copyright © Siemens AG 2016 for conformity with the hardware and software described, we cannot The reproduction, transmission or use of this document or its guarantee complete conformity since errors cannot be excluded.
  • Page 3 Preface Purpose of this manual This manual describes basic terms about redundancy in SICAM AK and conveys basic knowledge about the principle functionality of redundancy: • Redundant basic system elements (BSE) • Redundant automation units (AU) under the aspects of redundancy switchover, hardware redundancy and application-related redundancy.
  • Page 4 Fax: +43 51707 55243 power-academy.ptd@siemens.com power-academy.at@siemens.com Schenectady, NY, USA Hebburn, United Kingdom Phone: +1 518 395 5005 Phone: +44 1914 953449 Fax: +1 518 346 2777 Fax: +44 1914 953693 pti-edpro.ptd@siemens.com pti-training.stdl.uk@siemens.com Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 5 The equipment (device, module) must not be used for any other purposes than those described in the Catalog and the Technical Description. If it is used together with third-party devices and components, these must be recommended or approved by Siemens. Correct and safe operation of the product requires adequate transportation, storage, installation, and mounting as well as appropriate use and maintenance.
  • Page 6 Preface Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 7 Insofar as the applicable Open Source Software License Conditions provide for it you can order the source code of the Open Source Software from your Siemens sales contact - against payment of the shipping and handling charges - for a period of at least 3 years since purchase of the Product.
  • Page 8 Open Source Software Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 9: Table Of Contents

    SICAM AK - SICAM TM PE, Electrically Connected ........26 1.2.1.3 SICAM AK - SICAM TM PE, Electrically and Optically Connected ..28 1.2.1.4 SICAM AK - SICAM TM PE, Optical, Red. BSE + Red. Ax-PE-Bus ..30 1.2.2 Data Transfer Between Redundant BSE Pairs ..........31 1.2.3 Parameter Setting..................32...
  • Page 10 Power Supply and Firmware .................88 2.2.2 Lighted Display ....................89 2.2.2.1 Behavior ....................90 2.2.3 CM-6820 (Key Switch Module) ..............91 2.2.4 SICAM AK Redundancy without Key Switch ..........92 Connecting SICAM AK Redundancy System .............93 2.3.1 Configuration ....................93 2.3.2 Necessary Components ................94 2.3.3 Connector Pin Assignment ................95 2.3.4...
  • Page 11 System-Technical Settings ..............109 2.5.2.2 Process-Technical Settings ..............110 2.5.2.2.1 Control Message from CP-6010 to SICAM AK .........111 2.5.2.2.2 Return Information Message from SICAM AK to CP-6010 ....112 2.5.3 Example of Line-by-Line Switchover ............113 2.5.3.1 System-Technical Settings ..............113 2.5.3.2 Process-Technical Settings ..............114 2.5.3.2.1...
  • Page 12 Table of Contents Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 13: Redundancy Via Sca-Rs

    Redundancy via SCA-RS Contents Overview ......................14 CPU-Redundancy (Redundant Basic System Elements) ........23 Redundant Automation Units................41 Parameter Setting of the CP-2017/PCCX25 ............58 Redundancy of Power Supply ................63 Redundancy Messages ..................76 SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 14: Overview

    In the case of CPU redundancy, up to 5 redundant processing elements can be configured in one SICAM AK. Since the power supply can also be designed redundant, an availability is achieved close to that with two separate automation units.

  • Page 15: Synchronization

    CPU: the input data in the FUD on the active and passive are identical, consequently the output data also have the same values. A comparison (or a synchronization or an update) takes place in 2 cases: SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 16 An update is carried out automatically for the following changes of state: ─ Going inconsistency of the control parameter ─ Going inconsistency of the Ax-PE parameter ─ Going redundancy synchronizing link failure (if FUDs are consistent) Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 17: Caex Plus Program

    The connection of one PE to two redundant BSEs is called singular PEs. The active BSE communicates with the PE. The passive BSE receives information via HSL. Redundant BSEs are located either inside one AU (CPU-redundancy) or in separate AUs (=AU-redundancy). SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 18 PE, the status of the CAEx plus application is not identical on both BSEs. The synchronization of the spontaneous data points must take place by copying the process image, see parameter Red_Sync Org_Abb, in section 1.4, Parameter Setting of the CP- 2017/PCCX25. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 19: Voting

    Line-by-line redundancy switchover (automatic voting by SCA-RS; application-related voting) Only defined elements of an AU are switched to the passive state. Within an AU, some elements can be active, others passive. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 20: Overview Of Redundancy Modes

    HSL, the FUD runs for instance on both C-CPUs. The voting between both BSEs is performed automatically by the M-CPU. The overview of a total system realized with CPU redundancy can be found in section 1.2.1.3, SICAM AK - SICAM TM PE, Electrically and Optically Connected. Example for AU redundancy with SCA-RS: Global redundancy switchover: all SEs of an AU are switched active/passive.

  • Page 21: Overview Of Synchronization Modes

    Example for AU redundancy: The FUD runs for instance on both C-CPUs of the two AUs. The synchronization mode is High Speed Link (HSL): if CAEx plus is used on both redundancy BSEs. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 22 The FUD runs for instance on both C-CPUs of the AU. The synchronization mode is HSL with singular Ax-PEs (here an example for CPU redundancy). A detailed system overview can be found in section 1.2.1.1, SICAM AK - SICAM AK PE, electrically connected.

  • Page 23: Cpu-Redundancy (Redundant Basic System Elements)

    CPU pairs. Predefined BSE pairs 1/2, 4/5, 7/8, in the mounting rack for 9 slots (CM-2834). Predefined BSE pairs 1/2, 4/5, 7/8, 10/11, 13/14 in the mounting rack for 17 slots (CM-2836). SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 24: Default Configurations

    Redundancy via SCA-RS 1.2.1 Default Configurations 1.2.1.1 SICAM AK - SICAM AK PE, electrically connected Base unit SICAM AK to peripheral elements SICAM AK PE, electrically connected. base unit SICAM AK SICAM PS-5620 Ax 1703 peripheral bus (electrical) 16 Mbps...
  • Page 25  Patch cable Cat.5 (4x2) AWG26/7 T41-255 (1m) / 6MF13040BC550AA0 Cable T41-251 (2m) / 6MF13040BC510AA0 T41-252 (3m) / 6MF13040BC520AA0 CM-2833 SICAM AK board rack extension GC2-833 / 6MF11130CJ330AA0 Peripheral elements SICAM AK SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 26: Sicam Ak - Sicam Tm Pe, Electrically Connected

    Redundancy via SCA-RS 1.2.1.2 SICAM AK - SICAM TM PE, Electrically Connected Base unit SICAM AK to peripheral elements SICAM TM, electrically connected. Ax peripheral bus (electrical) base unit 16 Mbps SICAM AK patch-cable, length up to 3 m SICAM...
  • Page 27 GA0-843 / 6MF11110AJ430AA0 Bus Interface Modules  USB-cable TC6-201 (1,5m) / 6MF13130GC010AA0 Cable TC6-202 (2m) / 6MF13130GC020AA0 TC6-203 (3m) / 6MF13130GC030AA0 PE-6410 peripheral coupling Ax-bus electrical GC6-410 / 6MF11130GE100AA0 Peripheral elements SICAM TM SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 28: Sicam Ak - Sicam Tm Pe, Electrically And Optically Connected

    Redundancy via SCA-RS 1.2.1.3 SICAM AK - SICAM TM PE, Electrically and Optically Connected Base unit SICAM AK to peripheral elements SICAM TM, electrically and optically connected. Ax peripheral bus (electrical) 16 Mbps bus interface modules patch-cable, length up to 3 m...
  • Page 29 FO-PIPE SPLITTER 2Y-LR1 (2 pcs. per connection) TF7-066 (only for outdoorcableTF7-036) PE-6410 peripheral coupling Ax-bus electrical GC6-410 / 6MF11130GE100AA0 Peripheral elements SICAM TM electrical PE-6411 peripheral coupling Ax-bus 1x optical GC6-411 / 6MF11130GE110AA0 optical SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 30: Sicam Ak - Sicam Tm Pe, Optical, Red. Bse + Red. Ax-Pe-Bus

    Redundancy via SCA-RS 1.2.1.4 SICAM AK - SICAM TM PE, Optical, Red. BSE + Red. Ax-PE-Bus Base unit SICAM AK to peripheral elements SICAM TM, optically connected, redundant basic system elements and redundant Ax-PE-Bus. Ax peripheral bus (electrical) base unit...

  • Page 31: Data Transfer Between Redundant Bse Pairs

    Redundant BSEs have to have identical representation in the picture) configuration and identical functionality • The electrical connection between Central Fibre Switch and SICAM 1703 component can be up to 100 m SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 32: Parameter Setting

    The following options are intended for redundant AUs: • Global redundancy switchover with SCA-RS • Global redundancy switchover with application-related voting • Line-by-line redundancy switchover with SCA-RS • Line-by-line redundancy switchover with application-related voting Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 33 This parameter defines, whether this BSE is to be the Original or the Image element of the redundancy pair. The second element of the redundancy pair must be defined at Address of the redundant BSE (see below) SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 34: Automatic Voting

    The Voter compares the statuses of both systems, by starting from the highest priority level 14. If both systems have the same status, the Voter compares both systems based on the next lower priority level. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 35: Settings For Pres (Cpu Redundancy)

    Settings for PREs (CPU Redundancy) You define, which errors in the system are assigned which priority. This is how you define the criteria for automatic Voting: • Select Settings for PREs (CPU Redundancy): SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 36 SCA-RS, line-by-line redundancy switchover with application-related voting), unless explicitly specified otherwise in the column “Comment”. • In the rows concerned select the values required from the dropdown list Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 37 CPU and 16 C-CPUs). Option: general Defines, whether a GI is to be sent after the interrogation switchover of the relevant PRE to active (GI after active) or not (no GI after active) SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 38: Settings For Bses (Cpu Redundancy)

    Please note, that some parameters are available for all types of redundancy control (global redundancy switchover with SCA-RS, global redundancy switchover with application-related voting, line-by-line redundancy switchover with SCA-RS, line-by-line redundancy switchover with application-related voting), unless explicitly specified otherwise in the column “Comment”. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 39 Option: general Defines, whether a GI is to be sent after the interrogation switchover of the relevant BSE to active (GI after active) or not (no GI after active) SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 40 (column before) to the corresponding PE in the AU. For the parameter setting of C4 and C5: CP-2017/PCCX25 for CPU redundancy, refer to section 1.4, Parameter Setting of the CP-2017/PCCX25. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 41: Redundant Automation Units

    Use cycle times that are long enough for your CAEx plus application • Make sure, that both BSEs have an identical configuration and that they are loaded with the same FW revision and the same parameters (state). SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 42: Default Configurations

    CM-2832 and additional C4, C7, C10, C13 in and SICAM RTUs component can be up to the large rack CM-2836 100 m • SCA-RS is connected to SICAM AK via the socket connector SYS-IO on the SICAM AK Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 43  Cable FO-INDOORCABLE-200-DUP-BREAK-ROUND TF7-035 FO-CONNECTOR-ODLP-200 (2 pcs. per connection) TF7-015 FO-OUTDOORCABLE-200-2FIB-ARM TF7-036 FO-CONNECTOR-ODLP-200 (2 pcs. per connection) TF7-015 FO-PIPE SPLITTER 2Y-LR1 (2 pcs. per connection) TF7-066 (only for outdoor cable TF7-036) SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 44 X-Port STP Box Cat.5e screened (4, 8, 12 Port) TEL+TS53..Wall socket TP_socket 2 x RJ-45 30° AP Cat.5 T41-286 / 6MF13040BC860AA1 TP_connection module 1 x RJ-45 Cat.5 T41-287 / 6MF13040BC870AA1 Assembly base for TS35 T41-291 / 6MF13041BC010AA1 Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 45: Redundant Aus, Voting By Sca-Rs, Distance Up To 200 M

    The following socket connectors are periphery available: HSL-C0 and C1, in the small rack • SCA-RS is connected to SICAM AK via the CM-2832 and additional C4, C7, C10, C13 in socket connector SYS-IO on the SICAM AK the large rack CM-2836 •...
  • Page 46 Redundancy via SCA-RS Necessary modules and cables Designation Item Number / MLFB SCA-RS Voter CM-2816 redundancy board rack for SICAM AK GA2-816 / 6MF11110CJ160AA0 PS-5620 Power Supply 24…60 VDC/80 W or BC5-620 /6MF10130FG200AA0 PS-5622 Power Supp.110…220 VDC, 230 VAC/80 W...

  • Page 47: Redundant Aus, Voting By Sca-Rs, Distance Higher Than 200 M

    “Redundant AUs in ring configurations” “Redundant AUs in star configurations” to the slaves • • SCA-RS is connected to SICAM AK via the The protocol element for redundancy socket connector SYS-IO on the SICAM AK synchronization must not be placed on the •...
  • Page 48 Redundancy via SCA-RS Necessary modules and cables Designation Item Number / MLFB SCA-RS Voter CM-2816 redundancy board rack for SICAM AK GA2-816 / 6MF11110CJ160AA0 PS-5620 Power Supply 24…60 VDC/80 W or BC5-620 /6MF10130FG200AA0 PS-5622 Power Supp.110…220 VDC, 230 VAC/80 W...
  • Page 49 Redundancy via SCA-RS 1.3.1.4 Redundant Automation Units in Star-Shaped Configurations Variant 1 The redundant automations units SICAM AK are optically or electrically connected to a fieldbus interface CM-0821. IEC 60870-5-104 SICAM SICAM PS-5620 PS-5620 Master SICAM AK EARTH FACILITY EARTH FACILITY ...
  • Page 50 TF7-028 FO-CONNECTOR-ST-50/62 TF7-016 FO-INDOORCABLE-62-DUP-LSOH TF7-006 length: max. 1.5km FO-OUTDOORCABLE-62-2FIB-ARM TF7-007 FO-CONNECTOR-ST-50/62 TF7-016 Fieldbus interfaces CM-0821 fieldbus interface ring (3xFO, 1xel.) GA0-821 / 6MF11110AJ210AA0 CM-0822 fieldbus interface star (4xFO) GA0-822 / 6MF11110AJ220AA0 Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 51: Redundant Automation Units In Ring-Shaped Configurations

    10/11 ... ON ..11 Bit word length − Configuration switch S2 B L ..OFF ..) master topologically right master topologically right R ..ON ..) 10/11 ... ON ..11 Bit word length SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 52: Parameter Setting

    Most parameters are identical for all methods of redundancy control. Parameters that are jointly valid for the various methods of redundancy control (such as e.g. Redundancy buffer, are already described in section 1.2.3.1, Parameter Setting of the CP- 2014/CPCX25. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 53: Settings For Pres (Au Redundancy)

    Active or Passive switchover with application-related voting Can be defined for all PREs for every BSE of the AU (M-CPU and 16 C-CPUs). SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 54 Can be defined for all PREs for every BSE of transmitting information the AU (M-CPU and 16 C-CPUs). about redundancy states and diagnostic information on the interface to the master computer. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 55: Settings For Bses (Au Redundancy)

    In the OPM system technique you have selected Redundancy control under the node Redundancy below the M-CPU and chosen the following entry in the Value dropdown list: Line-by-line redundancy switchover with application-related voting • Select Settings for BSEs (line. red. w. appl. voting): SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 56 Redundancy below the M-CPU and chosen the following entry in the Value dropdown list: Global redundancy switchover with SCA-RS • Select Settings for BSEs (gl. red. w. SCA-RS): • Edit the values required in the rows concerned (row 4 C4-CPU and row 5 C5-CPU) Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 57 (Systemelement is not being switched to passive) For the parameter setting of C4 and C5: CP-2017/PCCX25 for AU redundancy, refer to section 1.4, Parameter Setting of the CP-2017/PCCX25. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 58: Parameter Setting Of The Cp-2017/Pccx25

    This parameter defines, whether this BSE is to be the Original or the Image element of the redundancy pair. The second element of the redundancy pair must be defined at Address of the redundant BSE (see below) Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 59 BSE number of the other element of the The mirroring of the redundancy pair parameter is otherwise not possible. • In the OPM system technique select the node Synchronization parameter under C4:CP- 2017/PCCX25: SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 60 PE over various routes) a redundancy switchover is achieved without PE failure, if the passive BSE reaches all PEs, everything is OK there and there are no higher priority errors present. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 61: Mirror Parameters

    C4 and C5 of the redundancy pair C4/C5-CPU). Please note, that parameters for interfaces (e.g.: IP-addresses, baud rates, etc…) must be set separately for each interface (these are not taken into consideration during copying of the mirror parameters)! SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 62 In the context menu select the entry Paste mirror parameters If the elements of the redundancy pair are configured differently (one is e.g. configured with one PE and I/O-modules, the other not), the following message appears: Click OK. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 63: Redundancy Of Power Supply

    Redundancy via SCA-RS Redundancy of Power Supply 1.5.1 General SICAM AK can be supplied with the power supplies PS-5620 and PS-5622. Depending on requirements and mounting rack, a differing number are used. Mounting rack CM-2834 Mounting rack CM-2836 SICAM PS-5620...

  • Page 64: Possible Configurations

    The 4 power supply can be used solely as redundancy for the first or second power supply. It is installed in the lower left slot. This must be expanded with CM-2826 beforehand. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 65: Fitting Power Supply In Cm-2834

    1 power supply PS-5620 EARTH EARTH FACILITY FACILITY 1.5.2.1.2 Installing 2 Power Supply The second power supply is installed in the lower right slot. PS-5620 1 power supply power supply PS-5620 EARTH FACILITY SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 66  • Remove the plate  • Install the power supply  • Screw on the power supply PS-5620 PS-5620 PS-5620 EARTH EARTH FACILITY FACILITY Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 67: Installing 2 Nd Power Supply

    1 power supply SICAM PS-5620 EARTH FACILITY 1.5.2.2.2 Installing 2 Power Supply The second power supply is installed in the upper left slot. SICAM PS-5620 PS-5620 power supply 1 power supply EARTH FACILITY SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 68  • Remove the plate  • Install the power supply  • Screw on the power supply SICAM PS-5620 PS-5620 EARTH EARTH FACILITY FACILITY Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 69: Installing The 3 Rd And 4 Th Power Supply

    • Break the CM-2826 into 2 parts at the predetermined breaking point ; you consequently obtain an expansion PCB and a connection PCB CM-2826 Expansion PCB Predetermined breaking point Connection PCB SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 70 ; there are 2 on both the backplane and expansion PCB  • Rotate the connection PCB to the position shown and fasten it with backplane and   expansion PCB Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 71 Installing the Power Supply  • Open the screws of the plates that cover the slots for the third and fourth power supply  • Remove the plates SICAM PS-5620 PS-5620 EARTH FACILITY SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 72: Fitting Power Supply In Cm-2833

    . The associated submodule (SM-5860) for the supply from the reverse side of the mounting rack is already mounted and cabled. Free slot for 1 power supply SICAM PS-5620 EARTH FACILITY Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 73: Installing 2 Nd Power Supply

    Screw the socket connector from inside the mounting rack to the plates • Screw the connection p.c.b. from the rear side of the mounting rack to the plates CM-2833 rear side CM-5680 Plate Socket connector Plate SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 74 Cabling at the Rear of the Mounting Rack Cabling 2 power supply SENSE Power cord Installing the Power Supply • Install the power supply • Screw on the power supplies SICAM PS-5620 PS-5620 Screws EARTH FACILITY Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 75: Parameter Setting

    In the OPM system technique select the HW-Configuration for power supplies under the node AU-common settings below the M-CPU: In the Value dropdown list select the corresponding entries according to your configuration. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 76: Redundancy Messages

    Redundancy Control Messages Redundancy control message are parameter-settable user data messages in the single point information format (TI 30) which define the required redundancy behavior in SICAM AK. The messages can be parameterized in the OPM, Tools menu (Types overview entry, Parameter tab: under SICAM 1703 + Ax 1703 ->...
  • Page 77 User priority irrelevant for irrelevant for global global redundancy redundancy switchover switchover Switch-over disabled A/P-control with failed SCA-RS listening mode-control key switch Must be parameterized for both elements of the CPU pair SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 78 SCA-RS every 100ms over the system I/O bus. The SCA-RS compares the priorities of the two automation units, generates the redundancy state and communicates this to the automation units. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 79 Within the AU however the data are still distributed or filtered based on the active/passive state. The listening mode is controlled by means of a user data message in the single point information format. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 80 If a faulty position is detected an error of the class External is set. If the user data message is received with NT-Bit set, either the state is retained or switched to Automatic (can be parameterized in the failure behavior). Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 81: Redundancy Return Information Messages

    SCA-RS: system B active, listening mode) • BSE_(RED), Basic system element (C0-CPU to C16-CPU, M-CPU, not used) • PRE_(RED), Supplementary system element (PRE0 to PRE4, BSE itself, not used) SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 82 For the CPU redundancy a return information message is generated for every C-CPU (selected with BSE_(RED). A set binary information means, that the system element concerned is active, or with global switchover at least one system element is active. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 83: Redundancy Control With Caex Plus

    A set binary information means, that the automation unit is in normal mode. 1.6.3 Redundancy Control with CAEx plus For a detailed description for the function (function block) call up the CAEx plus Help. For the redundancy control in SICAM AK there are various vendor modules available in CAEx plus: • TB_RED_GET_COMP_VALUE Readout of the values for a cyclic comparison •...
  • Page 84 Readout of the redundancy states With the help of this module one obtains information about whether that BSE on which the CAEx plus application is running is in the active or passive state. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 85: Redundancy Via Cp-6010

    Contents Overview ......................86 CP-6010 (Redundancy Voter) ................88 Connecting SICAM AK Redundancy System .............93 SICAM AK Redundancy Engineering ..............96 SICAM AK Switchover Settings ................107 Configuration of Priority Messages in SICAM AK ..........117 SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 86: Overview

    The SICAM AK Redundancy is an integrated functionality of SICAM AK which monitors the internally generated hardware, firmware and communication related errors. It monitors the error conditions of 2 systems SICAM AK and sends the switchover messages to ensure the availability of 1 active system.

  • Page 87: Function

    Both CP-6010 modules are connected via a protocol according to standard IEC 60870-5-104 to the both SICAM AK devices, as well as to each other. In case of a communication failure via IEC 60870-5-104 between the CP-6010, the system will resume communication through an alternate serial protocol (IEC 60870-5-101).

  • Page 88: Cp-6010 (Redundancy Voter)

    Ethernet and of the serial interface. When the entire SICAM AK Redundancy system is started up and the communication is established, the supervision of the both systems SICAM AK starts by means of the active CP-6010: •...

  • Page 89: Lighted Display

    Module ready to operate Error RTX1 Data is transmitted or received on Ethernet (X1) RTX3 Data is transmitted or received on RS-422 (X3) LNK1 Ethernet connection available (X1) Serial connection available (X3) SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 90: Behavior

    (dial-up traffic)  Startup  RTX1 Yellow Receive/trans- Sending or receiving message mit data X1  Startup  RTX3 Yellow Receive/trans- Sending or receiving message mit data X3  Startup Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 91: Cm-6820 (Key Switch Module)

    ─ Position AK A If the selected key switch position is AK A, the CP-6010 switches the SICAM AK A to be active, independent of the error states of both SICAM AK ─ Position AUTO...

  • Page 92: Sicam Ak Redundancy Without Key Switch

    SICAM AK Redundancy without Key Switch The SICAM AK Redundancy system provides you an option to use the system without key switch module. If the key switch module is not used, you need to set the availability of the key switch module to in the user interface (refer to section 2.4.2.3.1,...

  • Page 93: Connecting Sicam Ak Redundancy System

    Redundancy via CP-6010 Connecting SICAM AK Redundancy System This section describes how to connect the CP-6010 and key switch control to the SICAM AK system. 2.3.1 Configuration  The cable connects the terminal of CM-6820 (X1 and X2) to X2 terminals of both the CP- 6010 (cable length 2.5 m).

  • Page 94: Necessary Components

    6MF13040BC550AA0 TPP_2M TP Patch cable 2 m Cat.5, grey T41-251 6MF13040BC510AA0 TPP_3M TP Patch cable 3 m Cat.5, grey T41-252 6MF13040BC520AA0 TPP_5M TP Patch cable 5 m Cat.5, grey T41-253 6MF13040BC530AA0 Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 95: Connector Pin Assignment

    Configuration Switch The following table describes the setting of the configuration switch S1 for the serial interface . (RS-422). Mode Switch 1 Switch 2 Switch 3 Switch 4 4-wire with line termination SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 96: Sicam Ak Redundancy Engineering

    The IP address of the engineering PC must be in the same addressing segment as the CP-6010. If for your application other IP addresses are required, the engineering PC must be parameterized appropriately. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 97: Loading Firmware

    Loading Firmware You can download current firmware codes as loadable file via http://www.siemens.com/sicam (Download Area, Product family: SICAM RTUs, Download: Software Updates). If this access is not at your disposal, please contact your project manager at Siemens. Firmware Item Number Meaning...

  • Page 98: Parameterization

    By means of clicking on the button Login you get to the start page of the addressed target system. Thereby a session with the web server of the respective CP-6010 is started. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 99 LOGOUT), or you can perform a reset (button RESET). The start page can be accessed at any time via the menu Start . Note For accessing the web server, the SD card must be available in the target system. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 100: User And Rights

    Display parameters   Events Viewing   Read diagnosis 2.4.2.3 Set Addresses 2.4.2.3.1 IP Configuration The setting of the voters takes place via the menu Parameters under the item Voter information. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 101: Address Configuration According To Iec 60870-5-104

    Availability of a key switch module (selection Yes/No) NTP Server If a NTP server is not present in the SICAM AK Redundancy system, you must configure the IP address as 0.0.0.0. For synchronizing the local time when a NTP server is connected to the system, you must set in menu Time Setting | Time zone.
  • Page 102 CASDU1 CASDU2 “Voter to SICAM AK A”, “Voter to SICAM AK B”, “SICAM AK A to Voter”, and “SICAM AK B to Voter” fields. The IOA is the destination address of elements under a CASDU (start address of the IOA).

  • Page 103: Reload Default Parameters

    2.4.3.1 Local Time Set If in the SICAM AK Redundancy system no NTP server is used, the time setting can be performed locally. Select thereto under the item “Local time set” the correct date and time via the relevant pull- down menu to update the device time.

  • Page 104: Time Zone

    Select thereto under the item “Time zone” your geographic time via the relevant pull-down menu. The setting is stored by clicking the button Apply and are updated instantly (no reset is required). Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 105: Daylight Saving Time Rule

    The settings are stored by clicking the button Apply and are updated instantly (no reset is required). 2.4.4 Data Recording 2.4.4.1 Event Log The event log menu (Event log) contains all the important event information. Each record consists of date, time and event description. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 106: Diagnostics Log

    Redundancy via CP-6010 2.4.4.2 Diagnostics Log The diagnostic log (menu Diagnostics log) contains all the important diagnostic information. Each record consists of date, time and description. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 107: Sicam Ak Switchover Settings

    (“global switchover”, “line-by-line switchover”). 2.5.1.1 System-Technical Settings In both systems SICAM AK, select under the M-CPU the menu connection definition and enter the IP address of the respective CP-6010. Select the menu IP address and enter the IP addresses of the corresponding system SICAM AK.
  • Page 108 The following figure provides an example on how C1-CPU is used in the configuration with the M-CPU. Note If you have a different configuration (BSE) in SICAM AK (C3-CPU and C4-CPU), you must parameterize these BSEs and the corresponding PREs in the topology menu. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 109: Example Of Global Switchover

    All the other PREs are selected as System element is being switched to passive. Copy all the parameters from SICAM AK A to SICAM AK B and change the IP address of SICAM AK B. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 110: Process-Technical Settings

    For the functionality “global switchover”, you must create the control and return information signals in the Process Technique. Create the signals in the Process Technique for both SICAM AK A and SICAM AK B as shown in the figure below.

  • Page 111: Control Message From Cp-6010 To Sicam Ak

    For the parameterization of further control signals, proceed as previously described. For the configuration of SICAM AK B, proceed according to the same procedure as for SICAM AK A. The following values must be updated in the SICAM AK B: •...

  • Page 112: Return Information Message From Sicam Ak To Cp-6010

    For the parameterization of further return information signals, proceed as previously described. For the configuration of SICAM AK B, proceed according to the same procedure as for SICAM AK A. The following values must be updated in the SICAM AK B: •...

  • Page 113: Example Of Line-By-Line Switchover

    All the other PREs are selected as Passive via the parameter Option: preferred position. Copy all the parameters from SICAM AK A to SICAM AK B and change the IP address of SICAM AK B. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 114: Process-Technical Settings

    CP-6010, you find all the IOA values required for the different system elements in SICAM AK. Note The following settings in SICAM AK A show an example for the “line-by-line switchover” (settings for the C1-CPU). Unrestricted SICAM RTUs, SICAM AK Redundancy...

  • Page 115: Control Message From Cp-6010 To Sicam Ak

    For the parameterization of further control signals, proceed as previously described. For the configuration of SICAM AK B, proceed according to the same procedure as for SICAM AK A. The following values must be updated in the SICAM AK B: •...

  • Page 116: Return Information Message From Sicam Ak To Cp-6010

    For the parameterization of further return information signals, proceed as previously described. For the configuration of SICAM AK B, proceed according to the same procedure as for SICAM AK A. The following values must be updated in the SICAM AK B: •...

  • Page 117: Configuration Of Priority Messages In Sicam Ak

    CP-6010 compares the errors from both systems SICAM AK to determine the active SICAM AK. If multiple errors shall get the same priority, this must be modeled in SICAM AK using the CAEx plus tool of the SICAM TOOLBOX II.

  • Page 118: Process-Technical Settings

    Redundancy via CP-6010 2.6.2 Process-technical Settings Create error signals as inputs for the logic as represented below (example for C2_PRE1). The signals created as inputs are Communication fault Communication board failure. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 119: Settings For Communication Fault

    PRE1. You can also select any configured Error_location/SSE SSE values via the pull-down menu. Select the parameter Communication Fault. You can also select any Error_type configured error type via the pull down menu. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 120: Caex Plus Link

    All the other signals will be updated automatically. 2.6.2.2 Settings for Communication Board Failure For the signal failure, you can copy the already configured Communication board parameters. Communication fault After copying, update the in the LNK_1703_SYS. Error_type Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 121: Settings For Priority Signals

    CAExplus output link. Select the parameter IEC-standard via the relevant pull-down menu. Lk_Cat Select the parameter Activated via the relevant pull-down menu. Lk_Prep All other signals will be updated automatically. SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

  • Page 122: Communication Output Link

    This must be the station number specified in the connection definition of System-Technical Settings. These signals can be used for priority voting. You can configure different type of errors as input signal and can assign to priority signals by using CAEx plus. Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...

  • Page 123: A Configuration Of Sicam Ak And Cp-6010

    SICAM RTUs AK3: Redundancy in one Rack Contents Overview ......................124 Redundancy Coupling Variants ................125 SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 124 Configuration of SICAM AK and CP-6010 Overview The board rack CM-2848 is primarily designed for communication and route redundancy. Hint: It is NOT possible to realise plants compliant with safety relevant requirements (SIL) since a single failure within the power supply could lead to a switching-off the board rack completely.
  • Page 125 Configuration of SICAM AK and CP-6010 Redundancy Coupling Variants SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 126 Configuration of SICAM AK and CP-6010 Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 127 Configuration of SICAM AK and CP-6010 SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 128 Configuration of SICAM AK and CP-6010 Unrestricted SICAM RTUs, SICAM AK Redundancy Edition 10.2016, DC2-026-2.07...
  • Page 129 Configuration of SICAM AK and CP-6010 SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...
  • Page 130 Configuration of SICAM AK and CP-6010 Configuration of SICAM AK and CP-6010 Contents Configuration for CP-6010 to SICAM AK ............131 Configuration for SICAM AK to CP-6010 ............134 In the following, the IOA address values of each system element required at the time of configuration are described.

  • Page 131: Configuration For Cp-6010 To Sicam Ak

    Configuration for CP-6010 to SICAM AK The following IOAs are mapped to active/passive decision by the voter for making system elements (C0 to C16) of SICAM AK as active/passive. Addr. = parameterized start address offset for transmit data to SICAM AK A/B. Addr. Message...
  • Page 132 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over A/P control System element 36 C10/PRE0 A/P control System element 37 C10/PRE1 A/P control System element 38...
  • Page 133 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over A/P control System element 80 A/P control System element 81 A/P control System element 82 A/P control...

  • Page 134: Configuration For Sicam Ak To Cp-6010

    Configuration of SICAM AK and CP-6010 Configuration for SICAM AK to CP-6010 The first 1344 IOAs are reserved for the priority message address of SICAM AK which includes all the system elements (C0 to C16). The following IOAs are mapped to active/passive state information of all the system elements (C0 to C16) of SICAM AK.
  • Page 135 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over priority 2 priority 3 priority 4 priority 5 priority 6 priority 7 priority 8 priority 9...
  • Page 136 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over priority 14 priority 15 priority 0 System element 5 C2/PRE1 priority 1 priority 2 priority 3...
  • Page 137 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +122 priority 10 +123 priority 11 +124 priority 12 +125 priority 13 +126 priority 14 +127...
  • Page 138 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +166 priority 6 +167 priority 7 +168 priority 8 +169 priority 9 +170 priority 10 +171...
  • Page 139 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +210 priority 2 +211 priority 3 +212 priority 4 +213 priority 5 +214 priority 6 +215...
  • Page 140 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +254 priority 14 +255 priority 15 +256 priority 0 System element 16 C5/PRE0 +257 priority 1...
  • Page 141 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +298 priority 10 +299 priority 11 +300 priority 12 +301 priority 13 +302 priority 14 +303...
  • Page 142 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +342 priority 6 +343 priority 7 +344 priority 8 +345 priority 9 +346 priority 10 +347...
  • Page 143 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +386 priority 2 +387 priority 3 +388 priority 4 +389 priority 5 +390 priority 6 +391...
  • Page 144 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +430 priority 14 +431 priority 15 +432 priority 0 System element 27 C7/PRE3 +433 priority 1...
  • Page 145 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +474 priority 10 +475 priority 11 +476 priority 12 +477 priority 13 +478 priority 14 +479...
  • Page 146 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +518 priority 6 +519 priority 7 +520 priority 8 +521 priority 9 +522 priority 10 +523...
  • Page 147 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +562 priority 2 +563 priority 3 +564 priority 4 +565 priority 5 +566 priority 6 +567...
  • Page 148 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +606 priority 14 +607 priority 15 +608 priority 0 System element 38 C10/PRE2 +609 priority 1...
  • Page 149 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +650 priority 10 +651 priority 11 +652 priority 12 +653 priority 13 +654 priority 14 +655...
  • Page 150 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +694 priority 6 +695 priority 7 +696 priority 8 +697 priority 9 +698 priority 10 +699...
  • Page 151 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +738 priority 2 +739 priority 3 +740 priority 4 +741 priority 5 +742 priority 6 +743...
  • Page 152 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +782 priority 14 +783 priority 15 +784 priority 0 System element 49 C13/PRE1 +785 priority 1...
  • Page 153 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +826 priority 10 +827 priority 11 +828 priority 12 +829 priority 13 +830 priority 14 +831...
  • Page 154 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +870 priority 6 +871 priority 7 +872 priority 8 +873 priority 9 +874 priority 10 +875...
  • Page 155 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +914 priority 2 +915 priority 3 +916 priority 4 +917 priority 5 +918 priority 6 +919...
  • Page 156 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +958 priority 14 +959 priority 15 +960 priority 0 System element 60 C16/PRE0 +961 priority 1...
  • Page 157 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1002 priority 10 1003 +1003 priority 11 1004 +1004 priority 12 1005 +1005 priority 13 1006...
  • Page 158 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1046 priority 6 1047 +1047 priority 7 1048 +1048 priority 8 1049 +1049 priority 9 1050...
  • Page 159 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1090 priority 2 1091 +1091 priority 3 1092 +1092 priority 4 1093 +1093 priority 5 1094...
  • Page 160 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1134 priority 14 1135 +1135 priority 15 1136 +1136 priority 0 System element 71 1137 +1137...
  • Page 161 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1178 priority 10 1179 +1179 priority 11 1180 +1180 priority 12 1181 +1181 priority 13 1182...
  • Page 162 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1222 priority 6 1223 +1223 priority 7 1224 +1224 priority 8 1225 +1225 priority 9 1226...
  • Page 163 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1266 priority 2 1267 +1267 priority 3 1268 +1268 priority 4 1269 +1269 priority 5 1270...
  • Page 164 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1310 priority 14 1311 +1311 priority 15 1312 +1312 priority 0 System element 82 1313 +1313...
  • Page 165 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1354 A/P-state System element 10 C3/PRE2 1355 +1355 A/P-state System element 11 C3/PRE3 1356 +1356 A/P-state...
  • Page 166 Configuration of SICAM AK and CP-6010 Addr. Message Line by line switch over Global IOA 1 IOA 2 IOA 3 switch- System element over +1398 A/P-state System element 54 C14/PRE2 1399 +1399 A/P-state System element 55 C14/PRE3 1400 +1400 A/P-state...
  • Page 167 Configuration of SICAM AK and CP-6010 SICAM RTUs, SICAM AK Redundancy Unrestricted DC2-026-2.07, Edition 10.2016...

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