Sicam SAS System
Contents
1. 6ES7 802 0FA01 8BAO SIMATIC S7 Manual CFC 6ES7813 0CA02 8BAO WinCC Documentation 6AV6392 1XA04 1ABO WinCC Configuration Manuals 6AV6393 1CA04 0ABO SICAM Manual Analog Input Function Module Al32 16 E50417 G8976 C004 A1 SICAM Manual Digital Input Function Module DI32 E50417 G8976 C005 A1 SICAM Manual Command Output Function Module CO32 E50417 G8976 C006 A1 SICAM Manual Command Release Function Module CR E50417 G8976 C007 A1 SICAM SAS Technical Description E50417 T8976 C010 A1 SICAM SAS Mounting Instructions E50417 B8976 C011 A1 SICAM SAS Maintenance and Diagnostics E50417 W8976 C012 A1 SICAM SAS Planning and Design References 1 References E50417 P8976 C015 A1 16 SICAM SAS Overview E50417 F8976 C016 A1 117 SICAM Manual Configuration System SICAM plusTOOLS for SAS E5041 7 H8976 C017 A1 18 SICAM Manual SICAM plusTOOLS CFC Blocks E5041 7 H8976 C018 A1 19 SICAM Manual Human Machine Interface SICAM WinCC E50417 H8976 C019 A1 20 SICAM Manual Measured Metered Value Processing Utility SICAM Valpro E50417 H8900 C020 A1 References 2 SICAM SAS Overview E50417 F8976 C016 A1 Glossary Address Al APA Application Automatic reclosing Automation computer Automation system Back up battery Bay device SICAM SAS Overview E50417 F8976 C016 A1 We distinguish between two different types of addresses a For identifying a certain module slot rack a For i2. 2 1 SC Substation Controller llli 2 2 Bay devices uites ese ied estesa ee p deum e etae e Veglae od 2 3 External intenmaces sein e doc dla Soe eee lee aed g a 3 SICAM plusTOOLS 0 00 tte 3 1 Projectorganizati n coi sive ets rd ida pd 3 2 Substation controller a asss saa aA a EEA ANTAA eee 3 3 Bay device connection ooooccooccco eae 3 4 Communication with telecontrol centers lille 3 5 Substation topology sissssssssesseee ees 3 6 OFOTUnctioris 1e tcn acre eue Re vc e Nice vit tle Rar ire eis 3 7 Information distribution in the system 00 cee eee eee SICAM SAS Overview E50417 F8976 C016 A1 2 1 2 1 2 2 2 3 3 1 3 1 Contents SICAM WINCC eso cios ca a A Ain 4 1 4 1 Project organization nh 4 2 4 2 SIGAM wizards ssssssseee rn 4 3 4 2 1 Creating structure types oocoocococcoc eee 4 3 4 2 2 Trarnsterring tags AA 4 3 4 2 3 Creating a message management system leurs 4 4 4 2 4 Transferring indications oce arsaa iera EE TEPEL eee 4 6 4 2 5 Creating the archive system 0 0c eee eee eee 4 7 4 2 6 Importing symbol library 0 cee ae 4 7 4 3 Graphic display 2444 05 oe4 238 44 Seca Lede eet beled cane ee 4 8 4 3 1 Designing the static diagram components 0000 eee eae 4 10 4 3 2 Designing dynamic image components 20 0 eee eee 4 11 4 4 Message ISE er pee A A eed ba 4 14 4 5 ACHOS
3. NUM Fig 3 10 Information distribution control direction Destination The destination column identifies the destination of the information This entry tells you whether the command is output via a module of the Sub station Controller MIM or via a bay device COM IED With CMD release Command output with command release via the CR module CFC IN CFC variable names for command processing by CFC CFC OUT From HMI1 HMI2 Command output is triggered by the HMI system Feedback Name of the information item which is the feedback for the command o Note A The information items that you have identified in columns HMI1 and HMI2 can be accepted and further processed by the SICAM WinCC HMI sys tem To complete configuration with SICAM plusTOOLS compile the gener ated data and load them into the Substation Controller For more detailed information please consult the manuals SICAM Manual Configuration System SICAM plusTOOLS for SAS 17 SICAM Manual SICAM plusTOOLS CFC Blocks 18 and SICAM SAS Technical Description 12 3 12 SICAM SAS Overview E50417 F8976 C016 A1 SICAM WinCC 4 SICAM SAS Overview E50417 F8976 C016 A1 In the SICAM SAS substation automation system SICAM WinCC is the human machine interface HMI between the user and the computer assisted monitoring and control system For efficient system management numerous single information items must be displayed quickly and clearly The state of the s
4. XC2 and or XF6 expansion modules Via the serial interfaces of the MCP communication processor and the XC2 expansion modules you connect the SICAM SC to up to three higher level control centers two channel if required Communication is conducted using the telecontrol protocol For interference immune connection of your bay devices you use the XF6 expansion modules with up to six fiber optic cable connections each You configure a bay device protocol as the transmission protocol You can integrate bay devices with a serial interface into the SICAM SAS substation automation system using the interfaces of the MCP communi cation processor and or XC2 expansion module You can then operate these interfaces with a bay device protocol The physical location of your equipment determines the type of connec tions used Distances greater than 1 500 m are covered with glass fiber cables distances less than 500 m with PCF fiber optic cables For dis tances up to 3 m you can also use low cost plastic cables The MCP communication processor has an interface for receiving an external time signal Time synchronization is achieved by DCF77 GPS or IRIG B 2 3 SICAM SAS Hardware Note mio You can obtain detailed information aboutthe hardware of the Substation Controller the process interfaces and the communication options of the SICAM SAS substation automation system from the SICAM SAS Technical Description 12 2 4 SICAM
5. Z1L SP AR on SC Dis Tele on SC Dist off SP Dist FIt L1 SP Dist FIt L13 SP Dist FIt LT3E SP Dist FIt L1E SP DisZ1B AR blk SP DisZILAR blk SP f ME NA ME NA ME NA 134 ME NA 134 LED reset SC PUL 128 Param Set A SC PUL 128 23 A Indications A Commands A Measured values A Metered values fs Push F1 for help Fig 3 4 Information of a distance protection device 3 4 Communication with telecontrol centers 3 6 In distributed systems reliable communication between substation auto mation systems and higher level control centers are of central impor tance In the SICAM SAS substation automation systems this communication goes through the serial interfaces of the MCP assemblies They can com municate on two channels with up to three control centers You define the interfaces themselves during configuration and parame terization of the MCP assemblies SICAM plusTOOLS creates the COM TC application via which you configure individual telegrams that you want to exchange Communication from Substation Controllers and higher level control cen ters uses telecontrol protocols such as IEC 870 5 101 with the baud rate set in the MCP assembly SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM plusTOOLS Control center connection SICAM SAS Overview E50417 F8976 C016 A1 e Select COM TC and insert your control centers e Configure the con
6. communication boards WINDOWS 95 WINDOWS NT The components of the SICAM plusTOOLS configuration system are supplied on CD The software package also contains the authorization disks and the SIMATIC STEP 7 automation software with the SIMATIC Manager for hardware configuration of the SICAM Substation Controller the CFC software for configuration of automation functions the M7 SYS operating system and the Borland C C Compiler For the SICAM WinCC human machine interface system you select the volume of variables which depends on the volume of information of your substation and obtain the appropriate software package on CD including the WinCC standard software and the necessary authorizations The SICAM SAS Substation Automation System Previous knowledge 1 6 Your personnel must be familiar with the windowing technique now com mon in many applications for the system management Internal system knowledge or programming skills are not required Configuration and parameterization with SICAM plusTOOLS requires knowledge of the technology and telecontrol on the part of your staff Knowledge of the SIMATIC automation system and the STEP 7 configu ration system are also helpful The user guidance is based on the win dowing technique You design the system s user interface using SICAM WinCC Design ing network images or curve displays requires experience with using graphic systems Defining message lists and archives requires te
7. configure the transmission protocol transmission rate and interface standard for each interface You can access these definitions when con necting the bay devices and higher level control centers An MCP assembly consists of the MCP communication processor and the XC2 and XF6 expansion modules The modules form a hardware unit SICAM SAS Overview 3 3 E50417 F8976 C016 A1 SICAM plusTOOLS Project structure After you have stored the information that you have configured with the hardware configuration application SICAM plusTOOLS creates all the necessary organization structures and containers for further configura tion and parameterization KJ SIMATIC Manager DemoCity Ox File Edit Insert PLC View Options Window Help oele 4 8 08 da ufo 2of Ej ne amp DemoCity Offline Project CXSIEMENSXSTEP7 S 7proj DemoCity DemoCity 1 9 COM IED Bj SIM Ea B CPU488 3 9 COM IED fy COM TC MCP1 MCP2 Press F1 for help NUM La Fig 3 2 SICAM plusTOOLS project structure e Under Hardware you find the configuration of the SICAM SC i e the rack s with the parameterized modules e Inthe SICAM Information Manager SIM all the information items of your substation control system are managed In the SIM table you define the distribution of the information items in the system for example communication with the SICAM WinCC HMI system or pro cessing of t
8. controller Your SICAM Substation Controller consists of the components e UR1 rack Basic modules e PS power supply modules e CPU Interface modules e M transmit and receive interface modules MCP assembly An MCP assembly consists of the communication boards e MCP communication processor e XC2 expansion modules e XF6 expansion modules Input output e DI digital input modules modules e CO command output modules e CR command release modules e Al analog input modules The configuration of your Substation Controller depends on the volume of information of your substation and on your communication concept You can distribute the input output modules with the central information points of your substation to up to seven racks You must observe a few module insertion rules For example the IM interface modules are always plugged into the right hand most slot of the rack the PS power supply module into slot one The configuration system checks that these rules are observed and the plausibility of your parameterization 3 2 SICAM SAS Overview E50417 F8976 C016 A1 SICAM plusTOOLS The hardware configuration application in your SIMATIC Manager pro vides you with a hardware catalog containing all the available modules for you to select Each module is provided with a short technical descrip tion e Click on the module with the mouse and drag it to the intended slot in the UR1 rack or mark the slot and insert the selected modu
9. inputs The input modules keep a PII for their inputs These Plls are read by the CPU before each user program cycle and are combined to a system end process input image SICAM SAS Overview E5041 7 F8976 C016 A1 Glossary PIO PLC Priority class Process end interfaces Process image Programmable logic controller Programming device PS Rack RAM RC SICAM SAS Overview E50417 F8976 C016 A1 The process output image reflects the current status of the process out puts After each user program cycle the CPU copies the system end pro cess output image kept in its main memory into the PIO of the output modules These output the content of their PIO at the outputs gt Programmable logic controller In the M7 family priority classes constitute the interface between the operating system of the CPU and the application program The order of execution of the application program is defined in the gt tasks The prior ity classes are mapped to RMOS tasks A priority class corresponds to a gt task Interfaces of the gt communications processors of the gt SICAM SC or the SICAM RTU to higher level control centers and or bay devices Reserved RAM areas of a CPU where the signal states of the input and output modules are stored Programmable logic controllers PLCs are electronic controllers whose functions are stored as a program in the control unit Thus the design and the wiring of the device do not depe
10. pulse command Digital input module Modules with diagnostic capability report system faults which they have recognized by means of diagnosis alarms to the gt CPU The diagnostic buffer is a buffered memory area in the CPU into which the diagnosis events are written in chronological order Double commands are process outputs which represent 4 process states at 2 outputs 2 determined states e g ON OFF and 2 undetermined states e g fault positions Double point indications are items of process information which repre sent 4 process states at 2 inputs 2 defined states e g ON OFF and 2 undefined states e g fault positions Double point indication Copy move and shortcut function which is commonly used in graphical user interfaces Objects are selected with the mouse seized and moved from one data area to another Procedure for testing the interference immunity e g of the process inputs outputs The type of coupling and the physical magnitudes are defined in the IEC 801 4 standard Electromagnetic compatibility EMC designates the ability of electrical equipment to function properly in a defined environment without affecting this environment in an unacceptable way Electromagnetic compatibility SICAM SAS Overview E5041 7 F8976 C016 A1 Glossary Environmental conditions EPE EPROM Equipotential bonding Error response Error task ESD protection Event buffer Expansion module
11. the SIM table of SICAM plus TOOLS as part of information distribution in the system in columns HMI HMI1 and HMI2 The information items are stored by their hierarchical names in the tag logging 4 3 SICAM WinCC 4 2 3 Creating a message management system L Message window Event classes Message lines 4 4 In addition to the extensive standard functions of WinCC expansions are available in SICAM WinCC for alarm logging that was specially designed for implementation of substation automation specific require ments and are created by the wizard Create SICAM message manage ment It generates the message window message classes message lines and message blocks for Event list Alarm list Protection message list Q SICAM event list all event classes a SICAM alarm list all SICAM messages Q SICAM protection message list all SICAM protection messages SICAM message SICAM message with acknowledgement on rising edge SICAM message with acknowledgement SICAM event SICAM protection message D DO O O D Q SICAM event list format Date time message text place cause status value additional cause code number additional information number Q SICAM alarm list format Date time message text value cause Q SICAM protection message list format Date time message text value unit code number SICAM SAS Overview E50417 F8976 C016 A1 SICAM WinCC Message blocks Tex
12. you define the behaviour of the circuit breaker on switching operations by assigning C actions to its various display modes BD Elipse Segment BS Pie Segment N Elipse Arc V Circular Aro I Rectangle Rounded Rectangle A Static Text 18 BE Smart Objects 8 I 4 E E Windows Objects T Object Properties E Customized object Geometry OntheHill Gkv F3 Al V32 1 05 I 0 counter Picture Cycle O Colors 21 OntheHill BkV F3 AL V32 1 05 l0Ovalue Picture Cycle O Styles d Flashi Misceliensdus DeviceColorvelueNot ctual EEEE ISICAM DeviceColorWinCCStateNotOK IA 1 QuitBlinking Variable No 99 QuitBlinking 9 1 2 3 4 5 6 7 8 9 10 t1 12 13 14 1 Fig 4 6 Dynamizing attributes in the control direction You define C actions for buttons A button can be assigned actions such as a Image and list selection Switching command a a Tap changing command a Scheduled value output 4 13 SICAM WinCC With this flexible assignment of dynamic attributes and actions you can already implement numerous functions by configuring the variables You will find further information in the descriptions SICAM Manual Human Machine Interface SICAM WinCC 19 WinCC Documentation 6 and WinCC Configuration Manuals 7 4 4 Message lists 4 14 In the SICAM SAS substation automation system you log information in the control and monitoring directions in the indication lists Q Event list Q Alarm list a
13. 11 COM IED No No 6 kKV F2 6MB525 Opt 6 T103 Chatter disable ME12 COM IED No No 6 kAF2 6MB525 Opt 6 T103 Chatter disable ME3 COM IED No No 6 kKVAF2 6MB525 Opt 6 1103 Chatter disable ME4 COM IED No No 6 KVAFJACRVOM END MIM No No 6 KVAFJACRVOM END 1 6 kVAFS DNOM 1D O B KAFONO ND 1 6 KVAFANDIDM 1D 2 6 KVAFANDIOM 1D 3 B KAFOM 1411_0 B KAFONO TNI 1 6 KVAFADIOM 12 0 B KVAFSNDINDM 12 2 6 KVAFAXDINOM 12 4 E KVAF3ADIDM 12 6 E KAF3XDNOM 13 0 6 INAFSXDIPOM 21 D Statusinformation BMB525 Opt 6 T103 Command not p SP F OHED gt CAIDA indications A Commands A Measured Values A Metrered Values MIM No No MIM No No MIM No No MIM No No MIM No No MIM No No MIM No No MIM No No 6 kMF3 COWM3S 000_0 MIM No MIM No MIM MIM E KNAESACONDMTOAOOT 0 BO 24 MIM OVA NUM 7 Fig 3 9 Information distribution in the monitoring direction Source CFC HMI to HMI1 HMI2 Is process feedback of SICAM SAS Overview E50417 F8976 C016 A1 The source identifies the origin of the information item This entry tells you whether it is an information item formed internally by CFC or an external item of process information CFC variable names that are required for graphic configuration of the CFC automation functions The current value of the single information item is displayed in
14. 2 and or XF6 expansion modules These modules are linked by means of lateral connectors and are plugged into the rack as one unit Communications processor Memory Cards are storage media in credit card format for the CPU They are implemented as gt RAM or gt FLASH EPROM Measured value normalized value Measured value short floating point A metered value is a processing function used for determinating the total number of discrete homogeneous events meter pulses in most cases as an integral over a time interval In the power supply industry it is usual to record electrical energy as a metered value energy import energy export power transmission Module Information Manager The MIM Table shows all connections of the input output modules which have been chosen in the Hardware Configuration as well as the SAS information currently assigned to it Module parameters are variables which serve for determining the behav ior of the module An auxiliary contact on the transformer which indicates whether the tap changing function of the transformer is activated The multipoint interface MPI is the programming device interface of the CPU It serves as interface for downloading the system configuration which has been parameterized before with SICAM plusTOOLS and for Glossary 9 Glossary MPI address Multiple command Non isolated OB Operating system of the CPU Operational status Organizat
15. AM SAS Substation Automation System 1 1 4 System architecture Control center SIMATIC NET MPI nil 7 HMI archiving E 1 9 3 E E a lal B le C E gt H E BDDDD E BDDDD H Bl goooo goooo nun mungn UU UU B0200 Sosa SICAM WinCC Protection devices with MBU with IEC 870 5 103 IEC 870 5 103 FO interface Fig 1 1 Example of a configuration with SICAM SAS substation automation system The substation automation system consists of The SICAM SC Substation Controller Connections with higher level control centers Connections with the bay level External time signal reception Configuring PG PC with SICAM plusTOOLS SICAM WinCC human machine interface system D D O DO D The communication concept of your substation automation system is largely determined by the physical location of the equipment For more information please consult the S CAM SAS Technical Descrip tion 12 SICAM SAS Overview 1 3 E50417 F8976 C016 A1 The SICAM SAS Substation Automation System 1 1 5 Configuration 1 4 The easy to use SICAM plusTOOLS configuration system supports your data acquisition in a technology and operation oriented way To configure your human machine interface flexibly make use of the numerous functions of t
16. Expansion rack SICAM SAS Overview E50417 F8976 C016 A1 Environmental conditions comprise all external disturbing influences to which electrical equipment may be exposed Temperature humidity electrostatic and electromagnetic fields mechanical impacts etc gt Event buffer An EPROM Erasable Programmable Read Only Memory is a voltage independent permanently programmed memory for programs and data Electrical connection equipotential bonding conductor which brings the housings of electrical equipment and other conductive station compo nents to equal or nearly equal potential in order to prevent interference or hazardous voltages between those components Response to a gt runtime error Possible responses of the operating sys tem are a Transition of the automation system to the STOP status a Invocation of an organization block an error task which contains a programmed reaction o Error message Error tasks make it possible to react to certain errors which are recog nized by the runtime system during runtime There are three error classes l O access errors processor errors and time out errors ESD protection encompasses all means and measures used for protect ing electrostatically sensitive devices The event buffer of the inputs German abbreviation EPE is used to buffer preprocessed process events Each event is made available in a data block The event buffer is organized according to the first in
17. Hardware Configuration application The SICAM plusTOOLS data are stored in function specific containers Some examples are the SIM Table the MIM Table COM IED and COM TC Central processing unit of the SICAM SC and the SICAM RTU with con trol and arithmetic unit memory operating system and interface for pro gramming devices Command release module The cycle time is the time needed by the CPU to execute the application program once Cyclic interrupts are tasks which are started at regular intervals i e cycli cally Data blocks are data areas within the application program which contain user data There are global data blocks which can be accessed by all code blocks Data block Glossary 3 Glossary DCF77 DC_PER DC_PUL DI Diagnosis alarm Diagnostic buffer Double command Double point indication DP Drag amp drop Electrical fast transient burst Electromagnetic compatibility EMC Glossary 4 In the Federal Republic of Germany the high precision official time is managed by the Physikalisch Technische Bundesanstalt PTB German Federal Testing Laboratories in Brunswick The atomic clock station of the PTB broadcasts this time via the long wave time signal transmitter at Mainflingen near Frankfurt on the Main The transmitted time signal can be received within a radius of approx 1500 km around Frankfurt on the Main Double command persistent command Double command
18. NC Shielding Short time indication SICAM RTU SICAM SAS SICAM SC SICAM WinCC Signal module Signaling circuit Signal status indications SIM SICAM SAS Overview E50417 F8976 C016 A1 Analog setpoint value setpoint command normalized value Analog setpoint value setpoint command short floating point Grounding whose sole purpose is to guarantee that the electrical equip ment functions as intended Shielding short circuits interference voltages which would otherwise lead to inadmissible interferences inthe electrical equipment Single point indications are parameterized as short time indications if they are available in the system only for a short time and therefore must be retained for some time in order to guarantee that they are recognized reliably Modularly designed terminal unit on the basis of the SIMATIC S7 auto mation system Modularly designed substation automation system on the basis of the gt SICAM SC Substation Controller and the SICAM WinCC Human Machine Interface Modularly designed substation controller on the basis of the SIMATIC M7 automation system The SICAM WinCC Human Machine Interface depicts the state of your power system graphically visualizes interrupts and indications archives the power system data enables you to intervene manually in the process and manages the system access rights of the individual staff members Signal modules SM are signal converters without any in
19. SAS Overview E50417 F8976 C016 A1 SICAM plusTOOLS 3 You configure and parameterize the SICAM SAS substation automation system with SICAM plusTOOLS a modern software system that makes use of the advantages of the windowing technique for user guidance It is based on the software standard of the SIMATIC M7 automation sys tem The user interfaces are designed specifically for power system manage ment and familiar data structures can be represented in a flexible way Easy to use applications support you in configuration of the Substation Controller the bay device connection and connection to the higher level control centers In configuration with SICAM plusTOOLS you are not bound to any par ticular sequence Configuration of the Substation Controller or bay device connection can be performed separately from the description of the telecontrol data of the control center connection That way you can have the system configured by your experts in team work 3 1 Project organization Creating a project Inserting a substation SICAM SAS Overview E50417 F8976 C016 A1 You start your configuration activities with a few organizational steps that define the project structure e First of all open the SIMATIC Manager create your project and give it a name of your choice e Now insert your SICAM SAS as a SIMATIC 400 station and give it a name in accordance with your naming conventions 3 1 SICAM plusTOOLS 3 2 Substation
20. SICAM SAS Substation Automation System Overview Edition 19 10 98 E50447 F8976 C016 A1 Foreword Contents The SICAM SAS Substation Automation System SICAM SAS Hardware SICAM plusTOOLS SICAM WinCC Human Machine Interface References Glossary Index Notes on Safety This manual does not constitute a complete catalog of all safety measures required for operating the respective equipment module device since special operating conditions may require additional measures However it does contain notes which must be adhered to for your own personal safety and for avoiding property damage These notes are high lighted with a warning triangle and different keywords indicating different degrees of dan ger Warning means that death severe injury or substantial property damage may occur if the appropri ate safety measures are not taken Caution means that minor injury or property damage may occur if the appropriate safety measures are not taken Qualified Personnel Commissioning and operation of the equipment module device described in this manual must be performed by qualified personnel only In the sense of the safety notes contained in this manual qualified personnel are those persons who are authorized to commission release ground and tag devices systems and electrical circuits in accordance with safety standards Use as Prescribed The equipment device module
21. a fr 38 2 pa El 1 1 4 y 7 Dbiect Palette ON THE HILL BUSBAR uarmis B uote time mi E M Standard Objects 2 Elipse Segment BS Pie Segment N Elipse Arc oN Circular Arc I Rectangle Rounded Rectangle Al Static Text amp E Smart Objects ET se E Windows Objects fi Object Properties 21x m 212 Custmiced obiect Properties Events amp Customized object il Static Geometry 1 000000 OntheHill_6kv_F3_Al_V32_1_05_100 counter Picture Cycle O Colors Command 1 000000 9 OntheHill_6kV_F3_AI_V32_1_05100 value Picture Cycle O Syles DeviceName Bi CBI o Penra DeviceColor B Miscallanabuis DeviceColorValueNotActual Ez A o SICA DeviceColorWinCCStateNotOK INNEN 34 m QuitBlinkingVariable No QuitBlinking Picture Cycle O oTi T2 T3 Ta Ts Te T7 T2 To Porro papas epe pes El Press F1 for Help English United States CB 01 AO da X150 170 1 X20 Y 30 Fig 4 5 Dynamizing attributes in the monitoring direction You can define C actions for input output fields An input output field is capable of actions such as a Sum calculation Minimum maximum mean calculation or a o Percentage calculation a Counting switching cycles SICAM SAS Overview E50417 F8976 C016 A1 SICAM WinCC SICAM SAS Overview E50417 F8976 C016 A1 In the control direction
22. age management 4 4 create tag structure types 4 3 import SICAM messages 4 6 import SICAM tags 4 3 importing library into project 4 7 SIM 3 4 3 11 SIM browser 3 8 3 9 Substation Controller 1 2 2 1 Substation controller 3 2 Substation topology 3 8 Symbol library 4 11 Index 2 importing 4 7 System management 1 6 System user interface 1 6 T Tag logging 4 7 4 16 Tags transferring 4 3 Time signal reception 2 3 Training 1 6 Transmission protocols bay device protocol 3 5 rate 2 3 telecontrol protocol 2 3 3 6 V Valpro 4 17 Volume of information 1 2 SICAM SAS Overview E50417 F8976 C016 A1 TO Siemens AG EV S SUP2 Postfach 4806 D 90026 N rnberg Germany FROM Your A A anil Calg ive doa ie E Your A cc E Your companys tias D partment i lanas Sn a NR E CL EcL C M O AL OAEI as Phone srta lab qM aAa C ETE Please tick your area of work a Automation a Building services air conditioning a Mining incl strip mining a Heavy machine construction a Chemical industry handling systems a Power generation a Pipelines a Power distribution a Shipbuilding navigation power system management a Environmental technology a Gas water sanitary utilities a Traffic and transportation O ER Remarks Suggestions Your remarks and suggestions will help us to enhance the usability of our documenta tion Please fill in this questionnaire and mail or fax 1t back to Siemens fax number 49 911 7509917 Title
23. and patterns for bay displays The elements of the symbol library are dynamized You can transfer them into your SICAM WinCC project using the Import ing library into project wizard 4 7 SICAM WinCC 4 3 Graphic display Clear display of the current state of the substation is very important for efficient system management SICAM WinCC is a powerful graphic sys tem for individual design e of your overview diagram and e your detail diagrams These diagrams have static components background image and vari ables that visualize the switching state of switchgear selections or mea sured and metered values Fig 4 2 Example of an overview diagram 4 8 SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM WinCC Fig 4 3 Example of a detail diagram SICAM SAS Overview 4 9 E5041 7 F8976 C016 A1 SICAM WinCC 4 3 1 Designing the static diagram components You design the static diagram components background image using the Graphic Designer You can use the following tools to draw the objects Object palette with all common objects such as line circle rectangle arc elipse polygon etc Color palette and Editing functions such as duplication rotation enlargement mirroring alignment etc Ellipse Segment Pie Segment Ellipse Arc Circular Are Fig 4 4 Background image design SICAM WinCC 4 10 SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM WinCC 4 3 2 D
24. archive value 0 667 No archive value No archive value 453 07 15 97 07 03 46 1 No archive value No archive value 454 07 15 97 07 03 55 1 333 No archive value No archive value For Help press Fl Fig 4 10 Example of curve evaluation using Valpro For more detailed information please consult S CAM Manual Mea sured Metered Value Processing Utility SICAM Valpro 20 4 17 SICAM SAS Overview E50417 F8976 C016 A1 Human Machine Interface 5 5 1 Monitoring The information of the substation automation system in the monitoring direction is displayed in the overview diagram and in detail diagrams and logged in message lists Soontaneous state changes of information items usually have to be acknowledged For example you might have configured an Acknowledge button for that purpose for which you have defined how an acknowledged state change is displayed and or what actions result from the acknowledgement e Click on the Acknowledge button with the mouse and trigger the acknowledgement in the display Fig 5 1 Acknowledging a state change SICAM SAS Overview 5 1 E5041 7 F8976 C016 A1 Human Machine Interface 5 2 Control You can trigger output in the control direction from a detail diagram if you have assigned an action to the symbol for the switching device when you dynamize the variable and have defined a dialog for that purpose e Click on the switching device with the mouse A dialog box with the sw
25. asy to use method allows you to configure the Substation Control ler and the bay device connection largely independently of the topology of your substation information system If you want to move single infor mation items from one area to another you can do it easily at any time by this method SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM plusTOOLS 3 6 CFC functions The CFC automation function is used in SICAM SAS for command pro cessing configuring operating sequences and interlocks and to generate derived items of information SICAM plusTOOLS is supplied with a pool of predefined CFC blocks with which you can implement the most common automation functions in power system management For example if you require group indications for communication with higher level control centers configure a CFC block which combines the associated single indications e Todo that first insert a new information item into the SIM Browser for the result variable of the CFC combination and identify it with CFC in the source column of the SIM table Now create the CFC variable names in the CFC column for the input and output variables of the CFC block You require these names for graphic configuration of the module ES SICAM Information Manager DemoCity On the Hill SIM Station Edit View Options Window Help ag S pe e amp es Plo Hierarchicalname Type_ Destination With CMD release CFC IN CFC OUT from HMI1 fr
26. biModule_unplugged amp INDICATIONS fj AND ROI fj CMP BP fj CMP TT fj cR Ra ij DELAY RCI ij INvERT RCI fj on Ra fj PULSE IND ij sNGL ROI Bi Derived rci AND connection Oj pers a Es Z Press F1 for help Sheet 1 SW Inter CFC1 1 Fig 3 8 Graphic configuration with CFC SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM plusTOOLS 3 7 Information distribution in the system Monitoring direction During operation your indications are logged switching states displayed in detailed diagrams measured values displayed as curves and archived if required So that individual system components such as the SICAM WinCC HMI system or the CFC automation function can access the configured infor mation mark the relevant columns in the SICAM Information Manager SIM E SICAM Information Manager DemoCity On the Hill SIM o x Station Edit View Options Window Help 2 ed jo EN DemoCity On the Hill SIM 25 26 27 28 29 30 31 32 33 34 35 36 37 Push F1 for help Hierarchical name yp Source to HMI1 to HMI2 Is process feedback of 6 KMAF2 6MB525 Opt 6 T103 Abr Switching device un COM IED No No 6 kKVAF2 6MB525 Opt 6 T103 Buffer overflow S COM IED No No 6 kKV F2 6MB525 Opt 6 T103 Chatter disable DM1 COM IED No No 6 kKV F2 6MB525 Opt 6 T103 Chatter disable ME10 COM IED No No 6 kKV F2 6MB525 Opt 6 T103 Chatter disable ME
27. ble system is required Q interference immunity is important Q great demands are placed on the electrical strength and electro mag netic compatibility a communication with other control systems must be possible The SICAM SAS Substation Automation System 1 1 2 Functions The SICAM SAS substation automation system performs the following tasks a Telecommunication Monitoring Remote control control with switchgear interlocking Connection of protection bay devices Automation Processing of measured and metered values Conditioning and display of information Reporting D CO CO DO DO DO DO D Archiving 1 1 3 Quantified project scope The SICAM Substation Controller of the modular SICAM SAS substation automation system processes up to 3 040 points of information cen trally via up to 95 input output modules As an alternative you can connect three control centers and up to 96 bay devices with a total volume of information of 10 000 single informa tion items in a decentralized configuration via the communication modules of the system Depending on the structure of your substation you can parameterize these centralized and decentralized points of information as a Single double and or fleeting indications Single and or double commands Measured values Metered values Transformer tap positions Bit patterns D CO O DO DO D Digital scheduled values 1 2 SICAM SAS Overview E50417 F8976 C016 A1 The SIC
28. c dialog 4 1 1 Dynamizing 4 12 E Event list 4 4 4 14 4 15 External interfaces 2 3 F Fiber optic cable 2 3 G GPS 2 3 Graphic Designer 4 10 Graphic display 4 8 Group indications 3 9 H Hardware 1 5 Hardware catalog 2 1 3 3 Help system 1 6 HMI 3 11 3 12 4 1 Human machine interface system 3 11 Information distribution 3 11 Interfaces fiber optic cable 2 3 3 5 serial 2 3 3 5 3 6 IRIG B 2 3 M MCP assembly 2 3 3 2 3 3 3 4 3 5 3 6 Measured value archive 4 16 Message lists 4 14 Message system indication lists 4 14 transferring indications 4 6 Messaging system creating 4 4 event classes 4 4 message blocks 4 5 Index 1 Index message lines 4 4 message sequence report 4 6 message window 4 4 raw data variable 4 6 text library 4 5 Metered value archive 4 16 Monitoring direction 3 11 4 11 4 12 5 1 O Object palette 4 10 Operating system 1 5 Overview diagram 4 8 P Previous knowledge 1 6 Project organization 3 1 4 2 Protection message list 4 4 4 14 4 15 Q Quantified project scope 1 2 R Range of courses 1 6 Requirements 1 5 S SICAM information manager 3 4 SICAM plusTOOLS 1 4 1 5 3 1 COM IED 3 4 COM TC 3 4 SICAM information manager 3 4 SIM 3 4 SIM browser 3 8 SICAM WinCC 1 4 1 5 3 11 4 1 button 4 13 C actions 4 11 4 13 dynamic dialog 4 11 4 12 input output fields 4 12 object properties 4 11 wizards 4 3 SICAM wizard create SICAM archive 4 7 create SICAM mess
29. chno logical knowledge and familiarity with the windowing technique The design of the substation automation system e implementing the system management requirements in guided operating steps a clear display concept a coherent designation system and an optimum com munication structure of the hardware components requires experience in the configuration of extensive substations and a solid grasp of the fol lowing subjects O System management Telecontrol Automation Communication Graphic systems A comprehensive help system supports you with detailed questions on line Our development oriented training center prepares you for effi cient use of your SICAM SAS substation automation system In addition you can make individual use of the range of courses offered for the components of the SIMATIC S7 M7 400 automation system and the WinCC standard system SICAM SAS Overview E50417 F8976 C016 A1 SICAM SAS Hardware 2 2 1 SICAM SAS Overview E50417 F8976 C016 A1 SC Substation Controller The hardware of the SICAM Substation Controller is based on the stan dard components of the SIMATIC S7 M7 400 automation system and on modules that were specially developed for the special requirements of power system management Standard automation functions and power system management specific applications such as real time processing safe command output or telecontrol functions form a future oriented and robust hardware syste
30. configuration Hardware filter Hardware interrupt Hierarchical level HMI SICAM SAS Overview E50417 F8976 C016 A1 Global data are data which can be addressed from each gt code block This includes e g inputs I outputs O and data blocks DB Global data can be accessed either absolutely or symbolically Satellites with atomic clocks on board revolve around the earth on differ ent orbits at an altitude of approx 20 000 km twice a day They broadcast signals which include the GPS universal time The GPS receiver determines its own position on the basis of the signals received From the position it can derive the delay time of the satellite signal and thus correct the GPS universal time broadcast The conductive soil whose electric potential can be equated with zero at any point Near ground electrodes the soil can have a potential not equal to zero This phenomenon is often referred to as ground reference plane Grounding means connecting an electroconductive component to gt ground using a grounding system A grounding system encompasses all means and measures used for grounding Ground With a group command it is possible to output several successive gt commands This function is used e g to implement the busbar change of a feeder in switchgear gt Configuration The hardware filter eliminates the transient conditions of a digital process signal The value 1 is only transmitted if the signal
31. ctronic Devices This application is used for configuring the communication to bay devices SICAM SAS Overview E50417 F8976 C016 A1 Glossary COM TC Command ending Commands Communications processor Configuration Container CPU CR Cycle time Cyclic interrupt Data block DB SICAM SAS Overview E5041 7 F8976 C016 A1 Communication to Telecontrol Centers This application servesis used for configuring the communication to higher level control centers With the command ending function a running command output is termi nated upon expiration of the parameterized output time or upon arrival of the process feedback assigned to it Commands are safe process outputs with a defined output time Before the output voltage is switched through a number of checks is performed e g one out of n monitoring readback of the relay drivers impedance and electrical isolation of the load etc The MCP communications processor manages the communication of a SICAM SC Substation Controller with higher level telecontrol centers and or bay devices The number of interfaces which are available can be increased by using the XC2 and XF6 expansion modules The TP1 communications processor enables the SICAM RTU to exchange data with one or several control centers Configuration means arranging addressing and parameterizing the mod ules of the SICAM Substation Controller and the SICAM RTU in a gt rack with the help of the
32. dentifying a certain operand or operand area e g input 112 1 The Analog Input module is available with 16 relay inputs or with 32 solid state inputs Job buffer The SICAM plusTOOLS configuration system is divided into the following function specific applications SIM COM IED COM TC and Hardware Configuration Automatic reclosing is a function which is frequently used in power distri bution for extinguishing electric arcs on overhead lines Automatic reclos ing means that a closed circuit breaker is opened and reclosed after a short delay The control functions are performed by a computer program and are not permanently stored in a retentive memory programmable logic con troller An automation system is a gt programmable logic controller or an gt automation computer from the SIMATIC S7 M7 family The back up battery ensures that pre defined data areas flags timers and counters are held as retentive SICAM RTU and SICAM SC work without a back up battery Bay devices include a Bay controllers Q Mini bay units o Protection devices a Measuring instruments gt IED Glossary 1 Glossary Bay device protocol Bit pattern indication BO_x Bus Central controller Central rack CFC CFC blocks Chatter blocking Cl co Code block COM IED Glossary 2 IEC 60870 5 103 VDEW Protocol A bit pattern indication is a processing function on the digital input module which ma
33. e complete information volume of the bay devices in the COM IED You can adapt the names of the bay devices to your designation system In the next step you can define to which interface of the MCP assembly the bay device is connected and therefore via which protocol and at what rate the information of the bay device is transmitted ZE SICAM COM IED DemoCity On the Hill Station Edit View Options Window Help au aj eje 2 xj eje E DemoCity On the Hill EED COM IED E 6MB525 Opt 6 T103 BRE Intelligent extemal devices Baycontrollers IEC 870 5 103 6MB525 3 Other devices E SIMEAS T E Protection relays 2 2 3rd Party IEC 870 5103 B IEC 870 5 103 compatible t distance protection 3 line protection Fal trafo protection UMZ AMZ Numerical protection relays 7xxx y EA srs con Push F1 for help Catalog displayed ov Z Fig 3 8 SICAM plusTOOLS bay device connection SICAM SAS Overview 3 5 E50417 F8976 C016 A1 SICAM plusTOOLS Here is an extract of the information stored for the bay device in a dis tance protection application You can delete individual items of information that are not required E SICAM COM IED IEC 60870 5 103 DemoCity On the Hill F1_7SA511 or x Station Edit View Options Window Help alo a je 2 El lal E IEC 60870 5 103 DemoCity On the Hill F1_7SA511 gt Extens Z1B SP Extens
34. ed eris e a AS eee acl Ee ee a Se MS deinde 4 16 Human Machine Interface 0 0 00 eee 5 1 5 1 Monitoring seas 3e neg ee pen esce e Se erie ne ap CER ces 5 1 5 2 Control 225 uoces as ettet tuner pos Bre ad doa acts cadre ede ae Ae 5 2 References Glossary Contents SICAM SAS Overview E50417 F8976 C016 A1 The SICAM SAS Substation Automation 1 System 1 1 1 1 1 Overview To ensure the supply security of your substation your automation system must acquire and evaluate a large volume of single indications during normal operation In the event of a fault you require additional information that can support you in fast fault diagnostics Graphic display functions reports and curve displays are suitable tools The SICAM SAS substation automation system is a system solution enabling effective implementation of these tasks on the substation level SICAM SAS is designed to be an open system that provides simple inter faces for the integration of additional bay device types or new transmis sion protocols on the basis of international standards as well as interfaces for implementing project specific automation functions Applications SICAM SAS Overview E50417 F8976 C016 A1 The SICAM SAS substation automation system is used wherever Q distributed processes are monitored and controlled a functions are becoming increasingly decentralized and are processed and visualized in the process environment a areal time capa
35. edure for testing the interference immunity e g of the process inputs outputs according to IEC 60255 5 The type of coupling and the physical magnitudes peak voltage rate of rise etc are defined in the IEC standard System data blocks SDBs are data areas in the program which contain the system data and which determine operational sequences A system function block SFB is a function block which is integrated in the operating system of the CPU It can be invoked if necessary from the STEP 7 application program Asystem function call SFC is the invocation routine of asystem function which is integrated in the operating system of the CPU With function modules SFCs are used for reading out the gt event buffer of the inputs EPE writing into the gt job buffer of the outputs APA and handing over control commands The system memory is integrated on the CPU and implemented as RAM The system memory contains the operand areas e g timers counters flags as well as the data areas internally used by the operating system e g stack memory area Tasks constitute the interface between the operating system of the M7 CPU and the application program In the tasks the order of execution of the application programs is defined A task corresponds to an OB S7 or a gt priority class M7 IEC 60870 5 101 Thresholds are a processing function on analog input modules which are used to reduce the input data volume where minor s
36. erred information of type measured value and type metered value from SICAM plusTOOLS You select the values to be archived in the SIM table of SICAM plusTOOLS by marking the measured and metered values in the HMI column The archiving cycles of these process value archives are selectable The instantaneous value or processed values e g sums maximum mini mum or mean values are stored The archives are evaluated in the form of e curves and or e tables SICAM SAS Overview E50417 F8976 C016 A1 SICAM WinCC SICAM Valpro SICAM SAS Overview E50417 F8976 C016 A1 Instantaneous values are displayed as curves and tables using the SICAM Valpro application With SICAM Valpro it is also possible to use archive values for various evaluations without changing them in the archive You decide at the time of evaluation in a guided dialog which values you want displayed in what time base You define not only the variables to be displayed but also a the time range a the color and Q if necessary the calculation function to be executed You can calculate sums mean values maxima minima or power fac tors and have them displayed You can define the calculation interval individually You can change stored defaults at any time ims VALPRO Measured Values GRU Group Graph View Options Window Help oela ce S 8 EE Measured Values GRU 1 lo xj BE Measured Values GRU 2 ol x 0 333 No archive value No
37. esigning dynamic image components Object properties SICAM SAS Overview E50417 F8976 C016 A1 After you have placed all the items of equipment selection fields mea sured and metered value display fields and static diagram components you can make your image dynamic by defining the object properties of the individual symbols If you use objects from the symbol library supplied to display your equip ment they are already partially dynamic to meet the requirements of sub station automation You only have to assign to these variables the information from the tag logging that you transferred from SICAM plus TOOLS The object properties depend on the type of object The main object prop erties are o Attributes such as blinking color change and or Q Actions such as press mouse button The object properties are defined in a Monitoring direction by a dynamic dialog and or C actions a Control direction by assignment of C actions SICAM WinCC 4 12 If you want to dynamize a circuit breaker in the monitoring direction you assign properties to its various display modes closed open unde fined in the dynamic dialog You can select color display filling pattern and or blinking modes You can also assign the attributes to the associated item of information i Graphics Designer ControlWindow1 PDL e x fr File Edit View Insert Arange Tools Window 2 la x D s g Jeje aj a ao EF alala 212 ajs
38. essary are includ ed in the next releases Any suggestions for improvement are welcome The contents of this manual is subject to change without prior notice Copyright Copyright Siemens AG 1998 All Rights Reserved This document shall not be transmitted or reproduced nor shall its contents be exploited or disclosed to third persons without prior written consent from Siemens Infringements shall entitle to dam age claims All rights reserved in particular in case of a patent grant or utility model registration Registered Trademarks SIMATIC SIMATIC NET SINAUT and SICAM are registered trademarks of SIEMENS AG All other product and brand names in this manual may be trademarks the use of which by third persons for their purposes may infringe the rights of their respective owners Siemens Aktiengesellschaft Document No E50417 F8976 C016 A1 Foreword Purpose of this manual Target group Scope of validity of this manual Standards Further support Courses Recycling and disposal SICAM SAS Overview E50417 F8976 C016 A1 This document provides an overview of the functions and components of the SICAM SAS substation automation system It briefly outlines the pro cedure for substation parameterization and the functionality of the human machine interface Substation planners SICAM SAS V1 0 substation automation system The SICAM SAS substation automation system was developed in com pliance wi
39. first out principle If there is at least one data block in the EPE a gt hardware interrupt is issued to indicate that it is ready for collection The XC2 and XF6 modules are designed as expansion modules of the MCP communications processor They can only be used in combina tion with the MCP module gt MCP assembly in order to increase the total number of gt process end interfaces XC2 offers two serial inter faces RS232 or RS485 XF6 provides six interfaces for connecting fiber optic cables Rack Glossary 5 Glossary Expansion unit FLASH EPROM Fleeting indication Floating FM Frame Front connector Function Function module Functional grounding General inter rogation Gl Glossary 6 An expansion unit is an expansion rack connected to the central con troller and equipped with a power supply module an interface module and further modules FLASH EPROM Flash Erasable Programmable Read Only Memory FLASH EPROMSs are like the electrically erasable EEPROMs in that they are able to retaindata in case of a power failure but can be erased far more quickly They are used on gt memory cards Fleeting indications are gt single point indications which are present only for a very short time where only the rising edge of the process signal is acquired and processed in real time gt Isolated Function module Frame designates all interconnected inactive parts of electrica
40. he SICAM WinCC HMI system Both systems are based on the now widespread windowing technique and permit fast low cost and easy to understand configuration Copy functions on all levels selection from predefined hardware cata logs a set of symbols operating aids such as the drag and drop function all minimize the effort required to configure and parameterize your sub station For example if you want to copy individual modules of the substation controller or a complete rack all the parameters are transferred and adapted automatically For configuration of HMI functions it is also very efficient to define and copy sample bays or standard equipment The samples supplied help you with that By drag and drop you can configure the components of your substation very easily simply by selecting an item of information and dragging it to the location where you require it with the mouse You can use this function for placing modules in the Substation Control ler connecting bay devices or creating your substation topology The configured data are checked for consistency errors are displayed as plain text messages in the dialog and also logged SICAM SAS Overview E5041 7 F8976 C016 A1 The SICAM SAS Substation Automation System 1 2 Requirements Hardware Operating system SICAM plusTOOLS SICAM WinCC SICAM SAS Overview E50417 F8976 C016 A1 e Standard Pentium PC e 200 MHz e 1GB hard disk e 32 MB RAM e SIMATIC NET
41. he information by the CFC automation function e The connection of the SICAM SC with the higher level control centers is described in the COM TC e The COM IED contains all single information items of your bay devices e Under MCP you will find configuration of the communication inter faces of the system SICAM plusTOOLS creates a separate directory for each MCP assembly of the SICAM SC e Under CPU M7 program you can call up the CFC blocks for graphic configuration of command processing or complex processing func tions such as switching sequences and interlocks The formation of derived information items such as group indications or limit value checks is also configured via this interface 3 4 SICAM SAS Overview E50417 F8976 C016 A1 SICAM plusTOOLS 3 3 Bay device connection You connect the bay devices with the distributed information points of your substation automation system to RS485 serial interfaces or to fiber optic cable interfaces of the MCP assemblies of the SICAM SC for which the IEC 870 5 103 bay device protocol is configured For the system dialog SICAM plusTOOLS provides you with all the avail able bay devices in a catalog for selection You connect the bay devices via RS485 serial interfaces or via FO inter faces with the IEC 870 5 103 bay device protocol You insert the selected devices by drag and drop and parameterize the version number in accordance with your hardware SICAM plusTOOLS stores th
42. he reference potentials of the control and the load circuit are isolated e g by optocouplers relay contacts or transformers Several load circuits can be connected to a common potential Metered value integrated totals Indication with value e g a protection device indication with interrupted current or fault location The job buffer of the outputs German abbreviation APA is used to buffer commands on the CO command output and CR command release function modules Only one command at a time can be written into the APA After the command execution the APA is cleared once again The K bus communications bus is a serial backplane bus which is opti mized for the exchange of large data volumes SICAM SAS Overview E5041 7 F8976 C016 A1 Glossary Load memory Load power supply Main memory MCP assembly MCP module Memory Card ME_NA ME_NC Metered value Module Information Manager Module parameters Moving contact MPI SICAM SAS Overview E5041 7 F8976 C016 A1 The load memory is part of the CPU It contains the objects generated by the programming device PG and is either implemented on a plug in Memory Card or as built in memory Power supply for powering the input output circuits the sensors and the actuators The main memory is a RAM on the gt CPU which the processor accesses during program execution An MCP assembly consists of the MCP communications module and the XC
43. ignal changes are also processed provided that they persist for some time Time stamping means assigning real time to a process event The time stamping on the FMs consists of milliseconds seconds and minutes The hour and the date are added on the CPU Communications processor in the SICAM RTU Glossary 15 Glossary Transducer Transformer tap indication Transmission protocols Ungrounded Valpro VDEW Version identifier Watchdog WinCC X bus XC2 XF6 Glossary 16 A transducer is an electrical device for the potential isolation and the con version of a wide variety of measured variables to standardized measur ing signals e g load independent direct current A transformer tap indication is a processing function on DI modules which makes it possible to acquire and process the different transformer tap positions Telecontrol protocol Bay device protocol Without any electrical connection to the ground Value Processing SICAM application for creating and editing measured value and metered value graphs Vereinigung Deutscher Elektrizitatswerke Association of German Power Plants standardization body The version identifier allows the user to identify a module It includes type hardware software release and date of creation A watchdog is a hardware circuit for monitoring a microprocessor If due to a hardware or software fault the periodic restart of an interval fails
44. ion block Parameter P bus PG PII Glossary 10 connecting the SICAM WinCC Human Machine Interface With the help of an MPI it is possible to realize simple networks Each station is iden tified by a unique address MPI address MPI With a multiple command it is possible to output several commands simultaneously On non isolated input output modules the reference potentials of the control and the load circuit are electrically connected gt Priority class M7 gt Organization block S7 The operating system of the CPU organizes all functions and operations of the gt CPU which are independent of the control tasks of the applica tion program The automation systems of the SIMATIC S7 M7 family know the follow ing operational statuses STOP STARTUP RUN Organization blocks OBs constitute the interface between the operating system of the S7 CPU and the application program In the organization blocks the order of execution of the application programs is defined Variable of a code block Variable for determining the behavior of a module one or several ones per module Each module has appropriate factory settings which can be modified with the help of the Hardware Configuration application of STEP 7 The P bus I O bus is a parallel backplane bus optimized for the rapid exchange of I O data Programming device The process input image reflects the current status of the process
45. ion topology 3 8 Structure the information items acquired in accordance with the topology of your substation For example you can structure them hierarchically creating a tree structure with voltage levels and bays You can put your data in any structure and use switchgear and bay device types as the sorting criterium for example With the SIM Browser of SICAM plusTOOLS you can adapt the internal data structure individually to your operational requirements In the SIM Browser you can see the information items of your substation configured so far The information items are stored in alphabetical order You will find the system and status indications of the modules and bay devices in a separate block e First define the substation topology create the required groups on the different levels of the hierarchy and enter a unique name e Now move the individual items of information into the areas by drag and drop For example you can place higher level indications directly below the voltage level and bay information items below the bay group changing the names of the information items if necessary i SIM Browser DemoCity On the Hill olx E Station Edit Insert View Window Help lel x DP DB_PUL 1 F1 75A511 6MB525 Opt 6 T103 Al_C32 1 04 Al 3241405 CONOM3 CONOSTA CRNOS15 DINONTT DINOM2 coxa MCP O O6 MCP O 08 E Statusinformation Press F1 for help Fig 3 6 SIM Browser data structure This e
46. ions 4 6 You can transfer the information items that you want to log in your alarm lists into your SICAM WinCC project using the Import SICAM messages wizard This gives you access to all data that you have marked yes in the col umn for HMI1 and HMI2 in the SIM table of SICAM plusTOOLS as part of the information distribution in the system The information items are stored in the pool of indications under their hierarchical name The wizard assigns the raw data variables as event and acknowledge ment variables enters the reference to the SICAM standardization DLL and an indication number SICAM SAS Overview E50417 F8976 C016 A1 SICAM WinCC 4 2 5 Creating the archive system The archive system tag logging manages the measured value and metered value archives of the SICAM WinCC HMI system The Create SICAM archive wizard creates the archives and assigns all measured and metered values that you have marked with yes in the HMI column in SICAM plusTOOLS to the associated archive The size of the archive is determined by the capacity of your hard disk You can adapt the archiving cycles to your operating conditions 4 2 6 Importing symbol library SICAM SAS Overview E50417 F8976 C016 A1 To facilitate the design of your graphic displays in the Graphics Designer a symbol library is supplied with SICAM WinCC which contains typical substation automation symbols such as switchgear bay devices trans formers
47. itching states CLOSED and OPEN and a cancel lation option is output Fig 5 2 Positioning switchgear 5 2 SICAM SAS Overview E5041 7 F8976 C016 A1 Human Machine Interface e Click on the target switching state CLOSED in the example E meg k l TUO kV EQ kV Fig 5 83 Selecting the switching direction e Click on Execute Fig 5 4 Executing the switching command SICAM SAS Overview 5 3 E50417 F8976 C016 A1 Human Machine Interface After the command has been successfully output the new switching state of the switching device is displayed Fig 5 5 Target position of the switching operation reached 5 4 SICAM SAS Overview E50417 F8976 C016 A1 References SICAM SAS Overview E50417 F8976 C016 A1 h 2 3 4 5 6 T 8 9 10 h1 n2 13 h4 15 SIMATIC S7 STEP 7 Basic Information Consisting of Setting Up and Programming the S7 300 Easily STEP 7 User Manual Programming Manual for the S7 300 400 and Converter Manual 6ES7810 4CA03 8BA0 SIMATIC S7 M7 S7 400 M7 400 Programmable Controller Man ual including instruction list 6ES7498 8AA00 8BA0 SIMATIC M7 Technical Overview The S7 400 Programmable Controller Configuration and Application 6ES7498 8AA00 8BBO Manual M7 SYS Draft versions of user programs for the SIMATIC M7 300 400 for use under RMOS32 consisting of programmer user and refer ence manual
48. kes it possible to jointly acquire and process digital process related information which is present at several inputs in parallel As bit pattern size you can choose between 1 2 3 and 4 bytes gt Bit pattern indication bitstring of x bits x designates the size in bits 8 16 24 or 32 bits A bus is a transmission medium which interconnects several stations Data transmission can be serial or parallel via electric cables or via fiber optic cables The central controller is the equipped rack which contains the SIMATIC M7 CPU of the SICAM SC Rack Continuous Function Chart CFC is a graphic editor which allows you to configure a program using prefabricated blocks Blocks are parts of the application program which are defined by their function their structure or their purpose With SICAM plusTOOLS you will receive a library of blocks which have been especially designed for substation control and protection systems A fast intermittent input e g as a result of a relay contact fault is discon nected after a parameterizable monitoring time and cannot produce any further signal changes This function prevents the system from being overloaded in case of a fault Restore command counter interrogation command Command output module In a SIMATIC S7 M7 a code block is a block which contains part of the application program as opposed to a gt data block which contains only data Communication to Intelligent Ele
49. l equip ment which must not carry any hazardous touch voltage not even in case of a fault Process end 48 pin module connector Available with screw type con tacts crimp contacts and spring loaded terminals with conductor cross sections of up to 1 5 mm The available cable space has to be observed According to IEC 1131 3 a function FC is a gt code block without any static data A function offers the possibility of handing over parameters in the application program Therefore functions are suitable for program ming frequently recurring complex functions e g calculations Function modules are intelligent signal converters which preprocess pro cess information thus relieving the CPU gt Configuration of FMs is done using gt parameters Grounding whose sole purpose is to guarantee that the electrical equip ment functions as intended Functional grounding short circuits interfer ence voltages which would otherwise lead to inadmissible interferences in the electrical equipment For the system startup the state of all process inputs of the status and the fault image is checked This information is used for updating the sys tem end process image It is equally possible to check the current pro cess state after a data loss with the help of a GI SICAM SAS Overview E5041 7 F8976 C016 A1 Glossary Global data GPS Ground Grounding Grounding system Ground reference plane Group command Hardware
50. le by dou ble clicking the module name e Then parameterize the specific characteristics of the module To do that mark the module and switch to the appropriate tab mo HW Config Hardware Configuration DemoCity On the Hill gt Station Edit Insert PLC View Options Window Help Dl ul el of En x Hardware Configuration DemoCity On the Hill DI 0 PS DC 24 60 AIC 32x12Bit AL 32x12Bit Hardware Catalog Select Hardware DI 32 DC24 60V DI 32xDC24 60V C3 M7 EXTENSION CO 32xDC24 125V H E P5400 CO 32xDC24 125V 5 C3 RACK 400 CR DC24 60V C3 SICAM 400 IM451 0 Al 400 00 400 C3 cr 400 M4600 E oro MCP 400 PS 400 amp 3 TP 400 f Copy functions on the module and rack levels support you in configura tion of the SICAM SC If you copy a ready parameterized module the system updates the slot addresses automatically for example and checks for consistency Slot Module Drder Number MPI Address l Address O Adc PROFIBUS DP slaves for SIMATIC S7 6MD1 010 0B400 M7 and C7 distributed rack Tacna mama ean enia Tac Fig 3 1 Configuring and parameterizing SICAM SC In configuration of the MCP assemblies of the SICAM SC you define the communication interfaces of the SICAM SAS substation automation sys tem with the higher level control centers and with the bay devices You
51. level reaches at least 80 of the 1 level for the duration of the parameterized filter time Hardware interrupts are triggered by hardware interrupt signals These interrupt signals can be assigned to a gt task an gt organization block in order to react to external process events In a structure with higher level and subordinate objects a hierarchical level consists of objects of the same level Human Machine Interface SICAM WinCC Glossary 7 Glossary IEC IED Interface Interrupt IRIG B ISO 9001 Isolated IWV Job buffer K bus Glossary 8 International Electrotechnical Commission international standardization body Telecontrol protocol Bay device protocol Intelligent Electronic Device bay device Interface Module for connecting expansion units MPI multipoint interface Process end interfaces For the operating system an interrupt is an event which controls the exe cution of the application program There are different interrupt classes When an interrupt occurs the operating system automatically invokes an assigned organization block in which the user can program the desired reaction e g in an FB Hardware interrupt gt Cyclic interrupt Time signal code of the Inter Range Instrumentation Group The ISO 9000 ff standards define measures for assuring the quality of a product from development to manufacturing On isolated input output modules t
52. lobal Script E Text Library User Administrator A Picture Tree Manager BY Lifebeat Monitoring H Base Data amp Time Synchronization Storage A Redundancy ej wj Paramete Las tort Pdl Configurable unit Ter Rename picture Delete picture Eind Properties Press F1 for Help 1 objects selected Fig 4 1 SICAM WinCC project structure 4 2 SICAM SAS Overview E50417 F8976 C016 A1 SICAM WinCC 4 2 SICAM wizards After that call up the die SICAM WinCC Dynamic Wizards in the graphics designer and prepare configuration of your system user interface You can use the wizards to perform the following tasks Creating SICAM structure types Transferring tags from SICAM plusTOOLS Creating the SICAM message system Transferring messages from SICAM plusTOOLS Creating the SICAM archive system and Linking the SICAM symbol library D CO CO DO DO D 4 2 4 Creating structure types The SICAM wizard Create tag structure types creates the data types for SICAM WinCC s internal further processing of information items that you want to transfer from SICAM plusTOOLS 4 20 2 Transferring tags SICAM SAS Overview E5041 7 F8976 C016 A1 The information items that your require for tag description of your graphic displays you can take over using the wizard Import SICAM tags in your SICAM WinCC project This gives you access to all information items that you have marked yes in
53. m The Substation Controller is mounted in a standard cabinet with degree of protection IP54 and can be operated without a fan Depending of the volume of data of your substation and the chosen con cept for communication with higher level control centers and with bay devices you can configure your Substation Controller to consist of a UR1 module rack PS power supply CPU MCP XC2 XF6 communication boards MCP assembly DI digital input modules CO command output modules CR command release modules Al analog input modules IM interface modules for expansion racks and SIMATIC standard input output modules D CO CO CO CO D DO DO D You plug the modules into the central controller and up to 6 expansion units Each expansion unit requires its own power supply module and an interface module for linking the backplane bus systems of the racks All the modules that can be used are listed in a hardware catalog and it is quick and easy to combine them to form a SICAM SC using SICAM plusTOOLS 2 1 SICAM SAS Hardware 2 2 Bay devices 2 2 By connecting bay devices you can access extensive detailed informa tion about your substation in the substation automation system The use of protection devices makes a considerable contribution toward preventing expensive damage New system functions support you in locating and remedying faults locally The information from these devices is transmitted via standardized pro tocols s
54. 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 instal lation and mounting as well as appropriate use and maintenance During operation of electrical equipment it is unavoidable that certain parts of this equip ment are carrying dangerous current Severe injury or property damage may occur if the appropriate measures are omitted e Before making any connections at all ground the equipment at the PE terminal e Hazardous voltages may be present on all switching components connected to the power supply e Even after the supply voltage has been disconnected hazardous voltages may still be present in the equipment capacitor storage e Equipment with current transformer circuits may not be operated while open The limit values indicated in the manual or the operating instructions must not be exceeded this also applies to testing and commissioning Disclaimer of liability Although we have carefully checked the contents of this publication for conformity with the hardware and software described we cannot guarantee complete conformity since erorrs cannot be excluded The information provided in this manual is checked at regular inter vals and any corrections which might become nec
55. n system are mounted For some modules e g PS power supply module IM interface module there are fixed slot positions Marker command for setting a marker flag by the Human Machine Interface gt Single point indication Fleeting indication single point fleeting gt Short time indication single point short time Transformer tap indication step position information A device passes the STARTUP operational status during the transition from the STOP operational status to the RUN operational status The change of the operational status can be triggered by the mode selector switch after Power ON or by operator input at the programming device Distribution of the system data to different gt hierarchical levels and assignment of devices to these hierarchical levels Status and fault indications are LEDs which are arranged at the front panel of S7 400 or M7 400 modules They provide information on the module state STEP 7 serves as basic software for SICAM plusTOOLS and for CFC STEP 7 incorporates the programming languages LAD and STL gt SICAM SAS SICAM SAS Overview E5041 7 F8976 C016 A1 Glossary Substation controller Surge immunity Surge voltage System data blocks System function blocks System function call System memory Task Telecontrol protocol Thresholds Time stamping TP1 SICAM SAS Overview E50417 F8976 C016 A1 gt SICAM SC gt Surge voltage Proc
56. nd Q Protection message list The Create message management wizard of SICAM WinCC creates preparameterized lists and defines the permissible event classes You assign one event class to each information item to be logged and in this way distribute them to the indication lists One indication can be logged in more than one list The layout of the indication lists is freely selectable You can change pre defined formats to meet your requirements using the alarm logging SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM WinCC Event list SICAM Event List 2l Eli al malela Erst Bate ime Message Group Message tea Value Unit Location Cause Status Addiinaleause Fig 4 7 Example of a SICAM WinCC event list Alarm list SICAM Alarm List Fig 4 8 Example of a SICAM WinCC alarm list Protection message list SICAM Protection Message List Sa El el SAES Else oo Test Date Time Message Group Message text ID number Value Unit Fig 4 9 Example of a SICAM WinCC protection message list SICAM SAS Overview 4 15 E50417 F8976 C016 A1 SICAM WinCC 4 5 4 16 Archives SICAM WinCC manages the measured and metered value archives in the SICAM SAS substation automation system with the tag logging standard function With the Create SICAM archive wizard you have already created e the measured value archive and e the metered value archive and transf
57. nd upon the function of the controller Programmable logic controllers have the same components as comput ers they consist of a CPU with memory input output modules e g DI Al CO CR power supply module PS and rack with bus system The I Os and the programming language are especially designed to meet the requirements of control engineering Programming devices PGs are compact portable industry standard personal computers They distinguish themselves by having special hardware and software features suitable for programmable logic control lers Power supply module A rack consists of a flat aluminum extruded section and the backplane PCB Racks are used for plugging in the modules RAM Random Access Memory is a semiconductor memory for read write access This memory incorporates the main memory of the CPU Regulation step command Glossary 1 1 Glossary Regulation step command Release RESET Restore command RSxxx interface Runtime error SA SAS information S bus SC_PER SC_PUL SC CPU SE_Dx Glossary 12 A regulation step command is a function where the output time of the gt command depends upon the command duration in the control center which manages the system They are suitable for manual setpoint value input in slow closed loop control circuits The release is part of the command execution The release switches the command output voltage through to the checked command out
58. nection of the control centers to the MCP assem blies We recommend describing the individual telecontrol telegrams in the control and monitoring directions as the last step in your configuration with SICAM plusTOOLS because this sequence ensures optimum user guidance e Select the information items that you require for communication with the control center In the control direction all command contacts ofthe Substation Controller and the bay devices are offered and in the monitoring direction all sig nals and measured and metered values that have so far been acquired for the station including internally derived information In the monitoring direction processing of information items is grouped together in telecontrol lists HE SICAM COM TC On the Hill 101 xj EN Configuration View Window Help igi x ceja Sao xe Pu Name Type Parameter Last Change Catalog E Telecontil tation Contol center m E Telegrams Process indication 22 04 98 11 28 32 Telecontrol Lists Control direction EE List Monitoring direction B Basic cycle liste E Periodic list Name of the List x E Time controlled list 7 E Counter controlled list Name Scan list Basic cycle lis B Initiation list E Telegram buffer list with time Cancel E Telegram buffer list sac z F cycle liste Prio 15 T Ready NM 4 Fig 3 5 SICAM SAS control center connection 3 7 SICAM plusTOOLS 3 5 Substat
59. o proceed for installing e Which details have to be observed when authorizing e Which prerequisites must be given SICAM Manual Configuration System SICAM plusTOOLS for SAS SICAM Manual Human Machine Interface SICAM WinCC SICAM SAS Overview E50417 F8976 C016 A1 Foreword Configuring parameterizing 16 17 Configuring the control 18 17 5 1 Commissioning 13 Human Machine Interface 16 19 20 6 SICAM SAS Overview E50417 F8976 C016 A1 e Which is the right order for configuring parameterizing e Where do set which parameters e How do download my data to the PLC e Which tools are available for a data test e How can document my data e How do archive data SICAM SAS Overview SICAM Manual Configuration System SICAM plusTOOLS for SAS On line help system e Where do configure a control e Which functions are included as blocks in the scope of delivery e How do test and compile the configured control SICAM Manual SICAM plusTOOLS CFC Blocks SICAM Manual Configuration System SICAM plusTOOLS for SAS SIMATIC S7 Manual CFC SIMATIC S7 STEP 7 Basic Information On line help system e How dol avoid disturbances accidents when commissioning my sys tem during operation e Which persons are able are authorized to operate my system SICAM SAS Mounting Instructions Which solutions are offered by the system e How do design my system s user inte
60. of the Manual SICAM SAS Order no of the Manual E50417 F8976 C016 A1 Please answer the following questions by giving a rating between 1 good and 5 poor 1 Does the contents cover your requirements cnn 2 Could you spot the information you need without any problems oe 3 Did you find the texts easy to understand ceca 4 Does the information depth meet your requirements 22222 5 How do you judge the quality of the illustrations 2 If you have encountered any concrete problems please give us a concise description below
61. om HMI2 120 kAv1_003_0 MIM No No 2 6 kAFI F1_7SA511 AR on COM IED No No 3 _ 6 kAF1 F1_7SA511 Dis Tele on COM IED No No 46 kMAFI F1_7SA511 LED reset COM IED No No 5 6 kVAFI F1_7SA511 Param Set A COM IED No No 6 6 k AF2 6MB525 Opt 6 T103 Double command 1 COM IED No No 7 6 kVAF2 6MB525 Opt 6 T103 Single command 3 COM IED No No 8 B KVAF2 6MB525 Opt 6 T103 Single command 4 COM IED No No 9 6 KAFACOWM31000_0 MIM No No 10 6 l F3XCOV13Y001 0 MIM Yes 11 B lA FAACOV133002 0 MIM No No 12 BI FAACOM33004 0 MIM No No NA 1 E A CO E AINA Ma ran Commands A Measured Values A Metrered Values Ja Push F1 for help OVR NUM Fig 3 7 SIM table with CFC references and CFC variables SICAM SAS Overview 3 9 E50417 F8976 C016 A1 SICAM plusTOOLS 3 10 After these preparatory steps start actual CFC configuration e Insert a plan container in the SIMATIC Manager create a new CFC block or select an existing block from the pool of CFC blocks supplied e Define the priority class of the block e Enter the CFC variable names from the SIM table for the inputs and outputs of the selected block Chart Edit Insert PLC Debug View Options Window Help Olle Hele Fo e esi sap x ef ajaj mies v x JAS 21115 commano Eh COMPARE CONTROL FQ CONVERT counren FLIPFLOP Symbol Operand JQ IMPULS Status DI 0 11
62. put circuit for a defined time The RESET command serves for resetting a device system and forcing a restart Restore command for metered values counter interrogation command The restore command is automatically generated as soon as metered value capturing has been parameterized for a DI module or a bay device The restore command refers to the entire module or bay device Serial interfaces of the MCP assembly RS232 RS422 485 Errors which occur during execution of the application program in the automation system i e not in the process Switch authority command Items of SAS information are objects in the PG PC which serve for orga nizing the distribution of individual items of information in the SICAM runt ime system Each SAS information represents a certain indication or a certain command which is to be distributed within the system This distri bution takes place both between the individual modules and between the connected devices and stations Via the S bus the external interfaces of the MCP communications mod ule and its expansion modules XC2 and XF6 are assigned to the inter faces of the MCP controller Single command persistent command Single command pulse command CPU of the SICAM SC from the SIMATIC M7 400 family Digital setpoint value setpoint command digital x bits x designates the size in bits 8 or 16 bits SICAM SAS Overview E5041 7 F8976 C016 A1 Glossary SE_NA SE_
63. rface e How do configure the interface to the Substation Controller SICAM SAS Overview SICAM Manual Human Machine Interface SICAM WinCC SICAM Manual Measured Metered Value Processing Utility SICAM Valpro WinCC Documentation On line help system Foreword Measured value e Which functions are offered by the SICAM SAS system ang metered value e Which data volumes can be stored in which format archives e Which kinds of evaluation are possible 16 SICAM SAS Overview 19 SICAM Manual Human Machine Interface SICAM WinCC 200 SICAM Manual Measured Metered Value Processing Utility SICAM Valpro 6 WinCC Documentation On line help system Diagnostics e Does the system require any maintenance troubleshooung e What is the reason for a system fault indication what is the appro priate remedy e Where can configure additional error messages 14 SICAM SAS Maintenance and Diagnostics iv SICAM SAS Overview E50417 F8976 C016 A1 Contents 1 The SICAM SAS Substation Automation System 1 1 OVGIVI W x ute rex ce a Roe ORO ai ace etl Loan ete ental ide eg 1 1 1 Applicatiors crebtbsreesbeb tb ee aes RARA mae oie 1 1 2 FUNCUONS c eee pes pueri whi b E A BOE ea E ua aT da a 1 1 3 Quantified project scope ocoococccoccco eee 1 1 4 System architecture liiis 1 1 5 Configuration oooooccocoo hn 1 2 Requirements oocococooco ren 2 SICAM SAS Hardware utorrent
64. t library SICAM SAS Overview E50417 F8976 C016 A1 Value Status Cause Place Additional cause ID number Additional information Unit D CO CO CO DO DO CO D From the information items of the process value blocks such as status cause or additional cause the Create SICAM message management wizard derives a language specific standardization DLL from the associ ated message text and assigns it The texts can be customized The text library contains the following texts Command acknowledgement positive General interrogation Transmission blocked Metered value scan Local Automatic Double indication on defined position Persistent command stop Transformer tap position Organizational indication SICAM WinCC Raw data variable Message sequence report The runtime system of the SICAM Substation Controller passes the indi cations with their current process value to SICAM WinCC via a raw data variable The Create SICAM message management wizard creates this raw data variable This raw data variable ensures chronologically correct signaling and archiving of process information The message sequence report contains the definitions of the format for output of the indications on printer As the default the assistant defines a report format for all event classes By selecting individual alarm blocks you can set the relevant report scope and layout of the alarm blocks for your project 4 2 4 Transferring indicat
65. telligence of their own which carry out a signal level adaptation between the process and the automation system A signaling circuit is a circuit used to generate an indication It includes the signaling circuit voltage the signalling contact and the wiring leading to the input of the DI module Signal status indications are the display elements light emitting diodes at the front panel of the modules They indicate the status of the process inputs and outputs Thus e g the signal status indicator of a digital input module lights up if the input voltage is applied to the corresponding input The SICAM Information Manager application serves for managing the SAS information of the system Glossary 13 Glossary SIM Browser SIMATIC Manager Single command Single point indication Slot SMC SP SP_F SP_S ST STARTUP Station topology Status fault indications STEP 7 Substation auto mation system Glossary 14 SICAM Information Browser The SIMATIC Manager is a tool used for configuring the hardware of the Substation Controller The SIMATIC Manager constitutes the platform for SICAM plusTOOLS Single commands are process outputs which represent 2 process states at 1 output e g ON OFF Single point indications are items of process information which represent 2 process states at 1 input e g ON OFF A slot is the position in a gt rack where the individual modules of an auto matio
66. th the ISO 9001 standard If you have any questions about the SICAM SAS system please contact your Siemens sales representative For our individual range of courses please contact our training center Siemens AG Energie bertragung und verteilung Sekund rsysteme Humboldtstr 59 90459 N rnberg Phone 49 9 11 4 33 70 05 Fax 4449 9 11 4 33 79 29 For environmentally friendly disposal and comprehensive recycling please contact Siemens AG Technische Dienstleistungen ANL A 44 Kreislaufwirtschaft Postfach 3240 91052 Erlangen Phone 49 91 31 7 3 33 19 Fax 4 449 91 31 7 2 66 43 Foreword Documentation Overview Planning 16 15 Ordering 15 Assembling mounting hard ware components 13 Installing the software 17 19 This overview will give you a rough idea of which information or guideline can be found in which manual e Which hardware and software components are necessary for cover ing the requirements of my project e Can integrate existing components e Canluse my PC e Which system knowledge is necessary for system management SICAM SAS Overview SICAM SAS Planning and Design e Who can provide support on technical and handling questions e Is my order complete and correct SICAM SAS Planning and Design e Which safety measures are required e Which order of things and which rules must be observed during instal lation SICAM SAS Mounting Instructions e How d
67. the graphic displays The current measured and metered values are archived A single item of information is displayed and or archived in the SICAM WinCC message management system Name of the command for which the information item is the feedback 3 11 SICAM plusTOOLS Control direction A Information Manager DemoCity On the Hill SIM Station Edit View Options Window Help i aj 1 A ed eje EY DemoCity On the Hill SIM Hierarchical name p ination With CMD release CFC OUT from HMI1 M Feedback 20 kv v1 O03 0 METFI_7SASTIAR on COM IED NAFTMET 78A5113Dis Tele on SC PUL CON IED MAF INF1_7SA511 LED reset SC PUL COM IED kKMAF1 F1_7SA511 Param Set A SC PUL COM IED kV F2 5MB525 Opt 6 1103 Dou4DB PUL COM IED WAF2 5MB525 Opt 6 T103 Sing SC PUL COM IED VAF2 BMB525 Opt 6 T103 Sing SC_PUL COM IED MFS COWMS 000_0 DB_PUL MIM B KMAFS COWMS diO00_0 6 KXAF3ACOVM3 doOQ0 0 No B kMAFS DINOM 12 0 NAFSACOVMSAOO1 0 DB PUL MIM 6 kMAFS COWM3 diOO01 0 5 KAF3COWM3 d0001_0 Yes B IVAF3YDNOM 13 0 KNAF3ACONMAOO2 D DB PUL mim No NAF3ACOVATAODA D SC PUE MIM No NAFSACONDM VODA 1 SC PUL MIM No CON AAAD O SE D8 No COMMAAD_O 1 SE D8 MIM No COW AAT 0 SC PER No CONMAMAT D 1 SC PER MIM No 0500000000000 4J f All A Indications A Commands A Measured Values A Metrered Values Z T 4 Push F1 for help F OVA
68. to take place an gt interrupt NMI is triggered on the microprocessor gt SICAM WinCC The X bus handles the control of the serial multiplexer of the MCP com munications module and its XC2 and XF6 expansion modules Expansion module within the MCP assembly for connecting the SICAM SC to higher level control centers and for connecting gt bay devices with serial interfaces Expansion module within the MCP assembly for connecting gt bay devices with fiber optic interfaces SICAM SAS Overview E50417 F8976 C016 A1 Index A Alarm list 4 4 4 14 4 15 Alarm logging 4 4 Archives 4 16 B Bay devices 1 2 2 2 3 3 catalog 2 2 3 5 connection 2 3 3 5 Button 4 13 C C actions 4 11 Cable glass fiber 2 3 PCF fiber optic cable 2 3 plastic 2 3 CFC 3 11 3 12 blocks 3 4 3 9 functions 3 9 graphic configuration 3 10 Color palette 4 10 COM IED 3 5 COM TC 3 4 3 6 3 7 Command release 2 1 3 12 Communication processor 2 3 3 3 Configuration 1 6 Consistency check 1 4 3 3 Construction color palette 4 10 dynamic image components 4 11 editing functions 4 10 object palette 4 10 static diagram components 4 10 variables 4 11 Control center connection 2 3 3 6 higher level 3 3 Control direction 3 12 4 11 4 13 5 2 Copy functions 1 4 3 3 Creating a project 3 1 4 2 Creating the archive system 4 7 SICAM SAS Overview E50417 F8976 C016 A1 D DCF77 2 3 Detail diagram 4 9 Drag and drop 1 4 3 5 3 8 Dynami
69. ubstation must be displayed and logged correctly at all times Important indications measured and metered values of past time periods must be archived in such a way that they are available for specific evaluation in the form of curves or tables at any time The SICAM WinCC Human Machine Interface meets these requirements for efficient system management and also provides you with numerous options for individual design of the system user interface and numerous open interfaces for implementing operation specific functions The windowing technique of SICAM WinCC makes it easier to work with In designing the graphic displays you have every degree of freedom and also have the support of a pool of predefined substation automation sym bols such as switchgear transformers or bay devices 4 1 SICAM WinCC 41 Project organization You start designing your system s user interface with a few organiza tional steps that are required to create the project management structure to load preparameterized data and to access the information items parameterized with the SICAM plusTOOLS configuration system Creating a project After SICAM WinCC has been started first create your project with File gt New Control Center DemoCity MCP olx File Edit View Editors Tools Help pis ee sa E f DemoCity i8 Computer e Tag Management gy Data Types Editor 1 Graphics Designer 4 Alarm Logging JJ Tag Logging 1 8 Report Designer Ez G
70. uch as IEC 60870 5 103 or Profibus It is possible to integrate customer specific protocols into the system via existing interfaces All the bay devices that can be used are listed in a bay device catalog in the SICAM plusTOOLS configuration system In configuring the bay device connection with the SICAM SC the full range of information of the selected bay device is offered and you can reduce it as required The bay devices communicate with the higher level control centers via the communication boards of the Substation Controllers SICAM SAS Overview E5041 7 F8976 C016 A1 SICAM SAS Hardware 2 3 External interfaces Control center connection Bay device connection Time signal reception SICAM SAS Overview E50417 F8976 C016 A1 The variability and expansion capability of a substation automation sys tem largely depends on its interfaces with external equipment SICAM SAS supports international standards such as Profibus the IEC 870 5 101 telecontrol protocol or the bay device protocol IEC 60870 5 103 and thus guarantees optimum free substation plan ning For the IEC protocols you can set a transmission rate of up to 19 200 bit s The communication boards of the SICAM SC are fitted with serial inter faces parameterizable as RS232 or RS422 485 and with fiber optic cable connections They are combined to form MCP assemblies as appropriate for the appli cation consisting of the MCP communication processor and
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