SICAM Substation Automation and RTUs. Product Catalog Edition 2.0. Felxible control and monitoring system.

Transcription

1 Felxible control and monitoring system SICAM Substation Automation and RTUs Product Catalog Edition 2.0

2 1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

3 Contents SICAM Substation Automation and RTUs 1. Introduction 1.1 Overview and solutions 1/5 1.2 Device overview 1/12 1 Product Catalog Edition 2.0 Invalid: Catalog IC1000-K5600-A101-A Products 2. Substation Automation 2.1 SICAM PAS 2.1/3 2.2 SICAM Station Unit 2.2/1 2.3 SICAM AK see chapter 6 3. HMI and Archiving 3.1 SICAM SCC 3.1/3 3.2 SICAM PQ Analyzer (Incident Explorer) 3.2/1 3.3 SICAM DISTO 3.3/1 3.4 SICAM Diamond 3.4/1 3.5 SICAM / Engineering 4.1 SICAM TOOLBOX II 4.1/3 4.2 SICAM Protocol Test System 4.2/1 4.3 DIGSI 4 see SIPROTEC 4 Catalog 4.4 DIGSI 5 see SIPROTEC 5 Catalog 4 5. Bay Controllers 5.1 SICAM BC 5.1/3 5.2 SIPROTEC 6MD6x see SIPROTEC 4 Catalog 5.3 SIPROTEC 6MD8x see SIPROTEC 5 Catalog 5 6. SICAM RTUs 6.1 SICAM AK 6.1/3 6.2 SICAM TM 6.2/1 6.3 SICAM Safety 6.3/1 6.4 SICAM CMIC 6.4/1 6.5 SICAM EMIC 6.5/1 6.6 SICAM MIC 6.6/1 6.7 SICAM SGU 6.7/ Distribution-System Automation 7.1 SICAM FCM 7.1/3 7.2 SICAM DC 7.2/1 7.3 SICAM CMIC, EMIC, MIC, SGU see chapter SIPROTEC 7SC80 see SIPROTEC Compact Catalog 7.5 SICAM MMU, SICAM P85x, SICAM P50 see SICAM Power Quality and Measurements Catalog 7 The products and systems described in this catalog are manufactured and sold according to a certified management system (acc. to ISO 9001, ISO and BS OHSAS 18001). 8. Acessories 8.1 SICAM I/O-Unit 8.1/3 8.2 SICAM AI Unit 8.2/1 9. Appendix 9.1 Legal notice 9.1/1 8 9 SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/3

4 Introduction 1 1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

5 Introduction Overview and solutions Preface The Frost & Sullivan Technology Leadership Award 2006 was presented to Siemens for pioneering in the development of an innovative technology, the IEC With Siemens energy automation solutions, every user is on the safe side: the combination of long-term experience and the newest innovation supplies safety for many years to come. Our solutions are not only compatible with older devices, they are also very innovative. Overview and solutions During the last years, the influences on the business of the power supply companies have changed a lot. The approach to power grid operation has changed from a static, quasi-stable interpretation to a dynamic operational management of the electric power grid. Enhanced requirements regarding the economy of lifetime for all assets in the grid are gaining importance. As a result, the significance of automation systems has increased a lot, and the requirements for control, protection and remote control have undergone severe changes of paradigm: Flexible and tailor-made solutions for manifold applications Secure and reliable operation management Cost-effective investment and economic operation Efficient project management Long-term concepts, future-proof and open for new requirements Siemens energy automation solutions offer an answer to all current issues of today s utilities. Based on a versatile product portfolio and many years of experience, Siemens plans and delivers solutions for all voltage levels and all kinds of substations (figure 1/1). Siemens energy automation solutions are available both for refurbishment and new turnkey substations, and can be used in classic centralized or distributed concepts. All automation functions can be performed where they are needed. Flexible and tailor-made solutions for manifold applications Siemens energy automation solutions offer a variety of standardized default configurations and functions for many typical tasks. Whereas these defaults facilitate the use of the flexible products, they are open for more sophisticated and tailor-made applications. Acquisition of all kinds of data, calculation and automation functions, as well as versatile communication can be combined in a very flexible way to form specific solutions, and fit into the existing system environ - ment. The classical interface to the primary equipment is centralized with many parallel cables sorted by a marshalling rack. In such an environment, central protection panels and centralized RTUs are standard. Data interfaces can make use of high-density I/O elements in the rack, or of intelligent terminal modules, which are even available with DC 220 V for digital inputs and direct CT/VT interfaces. Even in such configurations, the user can benefit from full automation and communication capabilities. This means that classical RTU solutions, interfaces to other IEDs are included, and HMIs for station operation and supervision can be added as an option. Also, the protection relays are connected to the RTU, so that data from the relays are available both at the station operation terminal and in the control centers. All members of the SICAM family family can be equipped with different combinations of communication, both serial and Ethernet (TCP/IP). Different protocols are available, mainly IEC standards, e.g. IEC /103/104 IEC 61850, IEC , but also a lot of other well-known protocols from different vendors. 1 SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/5

6 Introduction Overview and solutions 1 Figure 1/1 Siemens energy automation products Figure 1/2 shows an example of refurbishment and centralized data acquisition in an MV substation. The interface to the primary equipment is connected via a marshalling rack, but can use any peripheral voltage (DC V). The electronic terminal blocks are designed to substitute conventional terminal blocks, thereby realizing a very economic design. Existing protection relays can be connected either by IEC or by the more enhanced IEC In new substations, the amount of cabling can be reduced by decentralizing the automation system. Both protection relays and bay controllers are situated as near as possible to the primary switchgear. Typically, they are located in relay houses (EHV) or in control cabinets directly beneath HV GIS feeders. The rugged design with maximum EMC provides high security and availability. At the sation control we distinguish between SICAM PAS and SICAM RTUs. SICAM PAS: software-oriented product based on standard industrial hardware SICAM RTUs: modular hardware-oriented design which bridges the gap between remote terminal units (RTUs) and substation automation (SA) (figure 1/3). Figure 1/2 Example of refurbishment and centralized data acquisition in an MV substation Figure 1/3 Basic principle of a SICAM station automation solution with alternative station controllers 1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

7 Introduction Examples The flexible Siemens solutions are available for every kind of substation: For different voltage levels, from ring main unit to transmission substation For new substations or refurbishment For gas-insulated or air-insulated switchgear For indoor or outdoor design For manned or unmanned substations Communication is the backbone of every automation system. Therefore, Siemens solutions are designed to collect the data from the high-voltage equipment and present them to the different users: the right information for the right users at the right place and time with the required quality and security. Here are some default examples for typical configurations. They are like elements which can be combined according to the respective requirements. The products, which are the bricks of the configurations, are an integral part of the harmonized system behavior, and support according to the principle of single-point data input. This means that multiple data input is avoided. Even if different engineering tools are necessary for certain configurations, these tools exchange their data for more efficient engineering. Example of a small medium-voltage substation: Typically, it consists of 4 to 16 MV feeders and is unmanned. In most cases, combined bay control and protection devices are located directly in the low-voltage compartments of the switchgear panels. A station operation terminal is usually not required, because such substations are normally remote-controlled. In case of local service/maintenance, they are easy to control at the front side of the switchgear panels (figure 1/4). Example of a distribution substation in industry supply: In principle, they are similar to the configuration above, but they are often connected to a control center via local area network (LAN). A distinctive feature is the interface to lowvoltage distribution boards and sometimes even to the industrial automation system for data exchange. Here, the compatibility with SIMATIC products simplifies system integration (figure 1/5). 1 Figure 1/4 Combined control and protection, situated directly in low-voltage compartments Figure 1/5 Example of a distribution substation in industry supply SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/7

8 Introduction Examples 1 A subtransmission substation requires even more complexity: 2 or 3 voltage levels have to be equipped; a station operation terminal is usually required; more communication interfaces to external locations, separated control and protection devices on HV level, powerful LAN based on IEC 61850, and remote maintenance access are typical features of such applications (figure 1/6). In transmission substations, typically two to four voltage levels are to be automated. According to the high importance of such substations, availability is of the highest priority. Therefore, redundancy at substation level is generally required, both for station control units and station operation. Multiple operator stations are often required, multiple communication links to different control centers or neighboring substations are standard. Although most standard applications are IEC protocols, specific protocols also have to be offered for interfacing existing third-party devices. Complex automation functions support the operation and maintenance of such substations, such as voltage regulation by controlling on-load tap changers, synchrocheck, automatic command sequences etc. (figure 1/7). The devices are as flexible as the configurations: Bay controllers, protection relays, station control units, station operation units and RTUs can be configured from small to very large. The well-known products of the SICAM and SIPROTEC series are a well-proven base for the Siemens solutions. Figure 1/6 Example of subtransmission Figure 1/7 Example of a transmission substation 1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

9 Introduction Secure and reliable operation Secure and reliable operation Siemens solutions provide human machine interfaces (HMIs) for every control level and support the operators with reliable information and secure, easy-to-use control features. At feeder level: Conventional panels with pushbuttons and instruments for refurbishment Electronic front panels combined with bay control units (default) Access points for remote terminals connected to the station operation units Portable touch panels with wireless access in defined areas At substation level: Single or redundant HMIs Distributed server/client architectures with multiple and/or remote terminals Interface to office automation All images and pictures of the HMIs are designed according to ergonomic requirements, so as to give the operators clear information that is easy to use. Control commands are only accepted if access rights are met, the local/remote switches are in the right position and the multi-step command sequence is actively handled. Care is taken that only commands which are intended and explicitly given are processed and sent to the switchgear. Automation functions support operation: Interlocking Feeder or remote blocking (option) Command sequences (option) Automatic recloser (option) Automatic switchover (option) etc. All images and pictures of the HMIs are organized hierarchically and, for easy access, they guide the user to the required information and to fast alarm recognition. In addition, alarm and event logs, measurement curves, fault records, archives and flexible reports support the analysis of any situation in the power grid (figure 1/8). For security reasons, only specially authorized personnel is granted access to operation and engineering tools. Flexible access rights are defined for operators, design engineers and service personnel, and differentiate between engineering access and operation rights. Security of data transmission is catered for by secure protocols and secure network design. Especially, easy remote access to substations creates the need for such complex measures. The experienced Siemens engineers provide all the necessary knowledge for network security concepts. 1 Figure 1/8 Human machine interface for every control level SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/9

10 Introduction Cost-effective investment and economic operation 1 Cost-effective investment and economic operation The customized solutions from Siemens cater for effective investment. Tailor-made configurations and functions make sure that only required items are offered. The efficient tools cater for fast and easy engineering and support all project phases of an automation system, from collection of the substation data to deployment of all needed functions, and finally to reporting and archiving. The long lifetime of the involved future-proof products extend the time period between investments into automation systems. Siemens solutions ensure low cost of ownership, thus taking into account all costs during lifetime. The automation systems are maintenance-free and easy to expand at a later date. Last but not least, the powerful services for remote maintenance (diagnosis, settings, updates, test etc.) provide a very economic way to keep any substation up to date and running. Simple handling of the solutions is provided by: Same look and feel of all HMIs on different levels Vertical and horizontal interoperability of the involved products Plug and play for spare parts by simple exchange of flash cards Reduction of engineering effort by: Seamless data management, only single data input for whole project Easy uploads and downloads, even remote Integrated test tools Reduction of service expenses during lifetime by: Integrated self-supervision in all components Powerful diagnosis in clear text Remote access for diagnosis, settings, test, expansions etc. Reduction of complexity by seamless communication: Worldwide standard IEC promoted by Siemens Integrated IT security concepts Latest technology integrated Efficient and state-of-the-art projects The solutions for energy automation are part of the extensive program, Siemens One. This means that energy automation solutions are integrated in different applications of the vast activity and expertise of Siemens: Power grids in transmission and distribution Complete building automation Solutions for pipelines and infrastructure Turnkey railway systems They all make use of the energy automation solutions and the associated transfer of expertise for efficient project and order execution. Our worldwide engineering centers are always close to the system operators (figure 1/9). Professional implementation of complete solutions from competence centers Consulting Engineering services Training USA MEX USA GBR NOR BEL SUI ITA FIN GER AUT TUR Configuration Installation and commissioning IND RUS CHN Life-cycle services COL BRA SIN INA Local presence with competence and engineering centers and worldwide sales organization Incl. refurbishment of old systems and old equipment Figure 1/9 The worldwide engineering centers of Siemens 1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

11 Introduction Long-term stability and trendsetting features for new requirements Long-term stability and trendsetting features for new requirements With Siemens energy automation systems, every user benefits from more than 70 years of experience in remote control and substation automation. The energy automation systems are designed for a long lifetime. Innovation is based on existing products, and compatibility of different product generations is part of the Siemens development philosophy. The extensive use of available IEC standards strongly supports long-term stability and expandability. Examples are communication protocols like IEC in the substation, IEC for control centers, and IEC for remote communication. They form the strong backbone for the seamless solutions in energy automation. Additionally, the systems are tested in rugged environmental conditions and certified according to applicable IEC standards. Investments in our solutions are secured by the evergreen concept, which defines migration methods when a new generation of products is introduced to the markets, e.g. the migration solution for SICAM LSA 678 from the early 90s: By substituting the station control device with today s SICAM PAS, it is possible to retain the installed feeder devices and import the existing database with the settings into the new tool SICAM PAS UI. This method reduces the refurbishment work significantly and adds new features to the system: In the next years, the substation can be expanded with new feeder devices through the use of IEC 61850, even though some parts of the system might already be older than 15 years (figure 1/10). 1 Figure 1/10 Migration from LSA to PAS SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/11

12 Introduction Device overview 1 Applications SICAM SGU Smart grid purposes as various as demand response, DER controller for virtual power plants, renewable integration in micro grids, or small RTU SICAM MIC Electrical distribution substations, hydropower plants, pipelines, gas distribution substations, railway power supply systems, tunnels, building protection, data concentrator Max. number of data points Max. number of I/Os (modular) Max. number of serial interfaces 1 (GPRS) 1 Max. number of ethernet interfaces 1 1 Human-machine interface (HMI) SICAM SCC C C SICAM 230 C C Engineering SICAM PAS Software SICAM TOOLBOX II C Tools on board Web server (for device configuration) C C Remote maintenance C Automation function Automation function (CFC/PLC, IEC ) 16k CFC/PLC online test SICAM Safety (IEC 61508) Time synchronisation NTP, remote C C GPS/DCF resolution/sampling rate 1ms 1ms Communication to control center serial IEC Slave protocols TCP/IP IEC IEC to IEDs Master protocls serial TCP/IP IEC Further IED-protocols C available V optional (extra costs) not available Table 1/1 SICAM the system family for Substation Automation and RTUs 1/12 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

13 Introduction Device overview 1 SICAM EMIC SICAM CMIC SICAM TM SICAM AK SICAM PAS Electrical distribution substations, hydropower plants, pipelines, gas distribution substations, railway power supply systems, tunnels, building protection, data concentrator Electrical distribution substations, hydropower plants, pipelines, gas distribution substations, railway power supply systems, tunnels, building protection, data concentrator Automation with integratet telecontrol engineering for hydropower plants/turbine controllers, electrik power distribution and transmission, oil and gas pipelines, transportation Telecontrol substation or central unit, automation unit, data node, front-end or gateway Energy automation for operation of substation with a single station computer (Fullserver) or with up to additional 6 computer (DIPs) /CPU Master data points Slave data points (modular) (modular) (modular) (modular) decentrialized via IEDs (modular) 66 (modular) (modular) 16 (modular) depending on used PC C C C C C C C C C V C C C C C C C C C C C C Remote Desktop limited by available memory C C C C C 128k 128k 512k 1,5M/CPU SIL 2 SIL 2 C C C C C C C C 1ms 1ms 1ms 1ms 1ms IEC DNP3 IEC DNP3 Modbus RTU IEC DNP3 Modbus RTU IEC DNP3 Modbus RTU IEC DNP3 Modbus RTU IEC DNP3i IEC IEC Ed1 DNP3i IEC IEC Ed1, Ed2 DNP3i IEC IEC Ed1, Ed2 DNP3i IEC IEC Ed2 DNP3i, Modbus OPC DA, OPC XML DA IEC Modbus RTU IEC IEC Modbus RTU IEC IEC Ed1 IEC IEC Modbus RTU Profibus DP (DPV0) IEC IEC Ed1, Ed2 IEC IEC Modbus RTU Profibus DP (DPV0) IEC IEC Ed1, Ed2 IEC IEC DNP3 Modbus RTU Profibus DP (DPV0) Profibus FMS (>SIP4) IEC IEC Ed1, Ed2 DNP3i, Modbus OPC, SNMP C C C C Continued on next page SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/13

14 Introduction Device overview 1 Applications SICAM SGU Smart grid purposes as various as demand response, DER controller for virtual power plants, renewable integration in micro grids, or small RTU SICAM MIC Electrical distribution substations, hydropower plants, pipelines, gas distribution substations, railway power supply systems, tunnels, building protection, data concentrator Secure Communication IEC Slave & Master (Transport Layer Security) DNP3i Slave & Master (Transport Layer Security, Authentcation) Redundancy Power Quality Applications as Grid Code Evaluation, Scheduled Reports, Automatic COMTRADE/PQDIF Import & Export, Notification, Fault Location SIMEAS R & SICAM Q80 communication driver Archiving Fault Recorda & PQ Data in device Further information Power Supply DC V/AC V DC 24-60V/AC V Storage card for parameter & firmware SIM Temperature range -25 to +70 C -25 to +70 C Mounting DIN rail DIN rail Degree of protection IP20 max IP40 For more information see page 6.7/1 6.6/1 C available V optional (extra costs) not available 1/14 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

15 Introduction Device overview 1 SICAM EMIC SICAM CMIC SICAM TM SICAM AK SICAM PAS Electrical distribution substations, hydropower plants, pipelines, gas distribution substations, railway power supply systems, tunnels, building protection, data concentrator Electrical distribution substations, hydropower plants, pipelines, gas distribution substations, railway power supply systems, tunnels, building protection, data concentrator Automation with integratet telecontrol engineering for hydropower plants/turbine controllers, electrik power distribution and transmission, oil and gas pipelines, transportation Telecontrol substation or central unit, automation unit, data node, front-end or gateway Energy automation for operation of substation with a single station computer (Fullserver) or with up to additional 6 computer (DIPs) C in preparation C C C C C C DC 24-60V/AC V DC V DC 24-60V/AC V DC 24-60V /DC V / AC V SD SD SD SD n.a. -25 to +70 C -40 to +70 C -25 to +70 C -5 to +55 C depends on used computer DIN rail DIN rail DIN rail Rear panel, 19" mounting max IP40 max IP40 max. IP40 max IP30 6.5/1 6.4/1 6.2/1 6.1/3 2.1/3 SICAM Substation Automation and RTUs Product Catalog Edition 2.0 1/15

16 Introduction 1 1/16 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

17 Flexible control and monitoring system Substation Automation

18 Substation Automation Contents 2. Substation Automation page 2.1 SICAM PAS 2.1/3 2.2 SICAM Station Unit 2.2/1 2.3 SICAM AK see chapter 6 2 The technical data can be found in the device manual at: 2.1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

19 Flexible control and monitoring system SICAM PAS Scalable energy automation

20 SICAM PAS Contents page System overview 2.1/5 Communication 2.1/6 Automation 2.1/9 2 System requirements 2.1/11 Selection and ordering data 2.1/12 2.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

21 SICAM PAS System overview 2 Figure 2.1/1 Typical SICAM PAS configuration; IEDs are connected to the Station Unit with IEC and various other protocols For some years now, power generation and distribution have been undergoing major changes. The innovation cycles (where operating equipment and communication media are concerned) are getting ever shorter, and the market is becoming increasingly deregulated. The systems used to monitor power supply equipment and processes must take account of these changes. When new products are used, user friendliness, easy engineering, manifold interfacing to various communication media and extensibility are important features. SICAM PAS (Power Automation System) meets all the demands placed on a distributed substation control system both now and in the future. Amongst many other standardized communication protocols, SICAM PAS particularly supports the IEC standard for communication between substations and IEDs. SICAM PAS is an open system and in addition to standardized data transfer processes it features user interfaces for the integration of system-specific tasks and offers multiple automation options. SICAM PAS can thus be easily included in existing systems and used for system integration, too. With modern diagnostics, it optimally supports commissioning and maintenance. SICAM PAS is clearly structured and reliable, thanks to its open, fully documented and tested system. System overview, application and functionality of SICAM PAS SICAM PAS is an energy automation solution; its system architecture makes it scalable. SICAM PAS is suitable for operating a substation not only from one single station level computer, but also in combination with further SICAM PAS or other station control units. Communication in this network is based on a powerful Ethernet LAN. With its features and its modular expandability, SICAM PAS covers a broad range of applications and supports distributed system configurations. A distributed SICAM PAS system operates simultaneously on several computers. SICAM PAS can use existing hardware components and communication standards as well as their connections. SICAM PAS controls and registers the process data for all devices of a substation, within the scope of the data transfer protocols supported. SICAM PAS is a communication gateway. This is why only one single data connection to a higher-level system control center is required. SICAM PAS enables integration of a fully graphical process visualization system directly in the substation. SICAM PAS simplifies installation and parameterization of new devices, thanks to its intuitive user interface. SICAM PAS is notable for its online parameter setting features, particularly when the system has to be expanded. There are no generation times; loading into a target system is not required at all or only required if configuration is performed on a separate engineering PC. SICAM PAS features integrated testing and diagnostic functions. Its user friendliness, its operator control logic, its orientation to the Windows world and its open structure ideally suit users requirements. SICAM PAS is developed in accordance with selected security standards and meets modern demands placed on safe communication. Essential features Modular and scalable hardware and software User-friendly Flexible, graphical configuration of automation Open system thanks to standards SICAM Substation Automation and RTUs Product Catalog Edition /5

22 SICAM PAS Communication 2 Figure 2.1/2 SIPROTEC bay control units and protection units with local control System architecture SICAM PAS works on industrial-standard hardware with the Microsoft Windows operating systems. The advantages of this platform are low hardware and software costs, ease of operation, scalability, flexibility and constantly available support. With the powerful real-time data distribution system, applications can be allocated among several computers, thus boosting performance, connectivity and availability. A database system stores and organizes the data basis (e.g. configuration data, administrative status data etc.). The device master function for communication with intelligent electronic devices (IEDs) supports a large number of wellestablished protocols. The SICAM PAS data normalization function allows conversions such as measured-value filtering, threshold value calculation and linear characteristics. To facilitate incident analysis, the fault recordings from protection relays are retrieved and archived automatically during operation. This is particularly supported for the standard protocols IEC and IEC , but also for PROFIBUS FMS (SIPROTEC 4) and SINAUT LSAS ILSA. Furthermore, SIPROTEC fault recorders can also be connected to the system, and their detailed fault recordings can be retrieved and archived as well. To manage the fault recording archive, the program SICAM PQ Analyzer with its program part Incident Explorer is used. Fault recordings are visualized and evaluated with the program Comtrade View as standard. Alternatively, SIGRA 4 with its additional functions can also be used. SICAM SCC is used for process visualization. Specifically designed for energy applications, it assists the operating personnel in optimizing the operations management. It provides a quick introduction to the subject matter and a clearly arranged display of the system s operating states. SICAM SCC is based on SIMATIC WinCC, one of the leading process visualization processes that is used in industrial automation worldwide. 2.1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

23 SICAM PAS Communication Communication Device interfaces and communication protocols In a substation configured and operated with SICAM PAS, various types of protection relays, IEDs, bay control units, measured-value recorders and telecontrol units from a wide range of manufacturers can be used. SICAM PAS offers a large number of commercially available communication protocols for recording data from various devices and through differing communication channels. Subsequent expansion is easy. Available protocols: These communication protocols and device drivers can be obtained as optional additions to the standard scope of SICAM PAS. IEC (Client) IEC is the communication standard for interconnecting the devices at the feeder and station control levels on the basis of Ethernet. IEC supports the direct exchange of data between IEDs, thus enabling switching interlocks across feeders independently of the station control unit, for example. IEC (Master) Protection relays, IEDs, bay control units, measuredvalue recorders and transformer controllers from many manufacturers support the IEC protocol and can therefore be connected directly to SICAM PAS. IEC (Master) The IEC protocol is generally used to connect telecontrol units. The balanced and unbalanced traffic modes are supported. IEC (Master) Furthermore, connection of substations is also supported by the TCP/IP-based IEC protocol. Automatic dialing is also supported for the connection of substations with this protocol. SICAM PAS can establish the dial-up connection to the substation either cyclically or as required (e.g. for command output). By contrast, the substation can also establish a connection cyclically or in event-triggered mode. IEC (Master) Furthermore, connection of substations is also supported by the TCP/IP-based IEC protocol. DNP 3.0 (Master) Level 3 Apart from the IEC protocols -101 and -104, DNP 3.0 is another standardized telecontrol protocol used by many IEDs and RTUs and applied worldwide. The units can be connected both serially and with TCP/IP (DNPi). TCP/IPbased communication can operate with an asymmetrical encryption procedure, thus meeting security requirements. PROFIBUS DP (Master) PROFIBUS DP is a highly powerful field bus protocol. For example, it is used for industrial automation and for automating the supply of electricity and gas. PROFIBUS DP serves to interface multifunctional measuring instruments such as SICAM (I, V, P, Q, cos φ) or, for example, to connect ET200 components for gathering messages and for simple commands. Messages, for example, can be derived from the signaling contacts of fuse switch disconnectors. Modbus (Master) Besides PROFIBUS DP, the Modbus protocol is also well known in industrial applications. SICAM PAS allows connection of IEDs and RTUs with this protocol, both via serial and TCP/IP-based connections. PROFIBUS FMS (SIPROTEC 4) Most SIPROTEC 4 bay controllers and protection units can be connected to the SICAM PAS station unit via PROFIBUS FMS. SINAUT LSA ILSA (Master) Communication via the SINAUT LSA ILSA protocol is a special advantage of SICAM PAS. Existing LSA central units can be replaced without changing the configuration on bay level. 2 SICAM Substation Automation and RTUs Product Catalog Edition /7

24 SICAM PAS Communication 2 System control center connections, distributed process connection and process visualization SICAM PAS operates on the basis of Microsoft Windows operating systems. This means that the extensive support which Windows offers for modern communication protocols is also available with SICAM PAS. SICAM PAS was conceived for easy and fast integration of conventional protocols. Please contact Siemens in case of questions about integration of user-specific protocols. For the purpose of linking up to higher-level system control centers, the standardized telecontrol protocols IEC , IEC and DNP 3.0 (Level 3) serially and over IP (DNPi), as well as Modbus (serially and over IP), TG 8979 (serially) and CDT (serially) are supported. Security and safe communication are gaining more and more importance. Asymmetric encryption enables tap-proof communication connection to higher-level control centers with IEC and DNP 3.0 via TCP/IP. For DNP 3.0, authentication can be used as an additional security mechanism. Distributed process connection in the substation is possible thanks to the SICAM PAS Device Interface Processor (DIP). SICAM PAS can also be set up on computers networked with TCP/IP. Here, one computer performs the task of the socalled full server. Up to six other computers can be used as DIPs. With this architecture, the system can be adapted to the topological situation and its performance can also be boosted. SICAM PAS allows use of the SICAM SCC process visualization system for central process control and monitoring. For industrial applications, it is easy to configure an interface to process visualization systems via OPC (object linking and embedding for process control). SICAM PAS can be configured as an OPC server or as an OPC client. The SICAM PAS process variables available with the OPC server can be read and written with OPC clients working either on the same device or on one networked by TCP/IP. This mechanism enables, for example, communication with another process visualization system. The OPC server is included in the basic system. Optionally, this server functionality is also available as OPC XML DA for communication with clients based on other operating systems as well as beyond firewall limits. The OPC client can read and write data from other OPC servers. A typical application could be the connection of SIMATIC programmable controllers. The OPC client is available as an optional package. SICAM Diamond can be used to monitor the system interfaces, to indicate switching device states and up-to-date measured values, and also for further diagnostic purposes. Apart from these configuration-free diagnostic views, SICAM Diamond also supports message logging in event and alarm lists as well as process visualization in single-line diagrams, and can thus be used as a simple human machine interface. Messages and measured values can be archived in files (monthly). On the one hand, SICAM Diamond consists of the Diamond Server, which is directly connected with SICAM PAS and prepares the data for access with a web browser, and on the other hand, the SICAM Diamond Client as operator interface in the context of the Microsoft Internet Explorer. Except for the Microsoft Internet Explorer, no additional software has to be installed on the web clients. SICAM Diamond allows access to archive files and fault recordings through the World Wide Web. The archive files can be saved on the web client for evaluation, e.g. with Microsoft Excel. Fault recordings can be visualized directly in the Internet Explorer. Protocols SICAM PAS supports the following communication protocols (optionally available): Control center connection IEC , IEC , DNP 3.0, Modbus, TG 8979, CDT Open data exchange OPC server, OPC XML DA server, OPC client IED and substation connection IEC 61850, IEC , IEC , IEC , DNP 3.0, PROFIBUS FMS (SIPROTEC 4), PROFIBUS DP, Modbus, SINAUT LSA-ILSA 2.1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

25 SICAM PAS Automation 2 Figure 2.1/3 Typical redundant configuration: The station unit and the HMI server are based on a redundant structure to boost availability Further station control aspects During, e.g., maintenance work or for other operational reasons, information exchange with the control centers or the substation itself can be blocked with the telecontrol blocking and bay blocking functions. The telecontrol blocking function can also be configured for specific channels so as to prevent the transfer of information to one particular control center during operation, while transfer continues with other control centers. The bay blocking and telecontrol blocking functions act in both the signaling and the command directions. Channel-specific switching authority also makes it possible to distinguish between local control (SICAM SCC) and remote control for the switching direction, but also between control center connections. For these three functions, informationspecific exceptions can be declared additionally, so that, e.g., certain messages are transmitted despite an activated block, or special commands are processed and issued despite of a defined switching authority. While a 1-out-of-n check is normally effective in IEDs, i.e. only one command is accepted and issued at the same time, an m-out-of-n check is supported on the side of the substation control system with SICAM PAS. This helps to define how many commands can be processed at the same time for all IEDs. Circuit breakers can be controlled in synchronized/unsynchronized mode. Automation tasks can be configured in SICAM PAS with the CFC (Continuous Function Chart), which conforms to IEC In this editor, tasks are configured graphically by wiring function blocks. SICAM PAS comes with an extensive library of CFC function blocks, developed and system-tested specially for energy automation. Applications range from generation of simple group indications through switching interlocks to complex operating sequences. Creation of operating sequences is supported by the SFC Editor (Sequential Function Chart). In this context, additionally pre-configured and systemtested applications such as frequency-based load shedding, transformer monitoring and SF6 gas monitoring can be optionally licensed. Besides special functional components and CFCs, the scope of supply also covers operating images for SICAM SCC. SICAM Substation Automation and RTUs Product Catalog Edition /9

26 SICAM PAS Automation 2 Redundancy SICAM PAS features comprehensive redundancy functions to boost the availability of the station automation system: The substation control unit can be used in a duplicate configuration ( system redundancy ) The communication to IEDs and RTUs can be redundant ( interface redundancy ) Subordinate units can be duplicated (redundancy at the bay control level) Subunits that are only designed for communication with one master (e.g. with only one serial interface) can be supported The individual applications (communication protocols) operate independently of each other in a hot/standby connection, i.e. a changeover, e.g., of the IEC client from one station control unit to the other due to a disturbance has no effects on the communication connection to the control center, which remains on the first station control unit without interruption. Apart from a higher stability in unaffected communication connections, the redundancy changeover of affected components takes place within a very short time (depending on application and configuration, between 250 ms and max. 3 s). Post Disturbance Review (PDR) When an event occurs, the SICAM PAS option SICAM PDR Recorder records state changes of messages and measured values for a period of up to 6 min. The triggering event, the length of the time window (including 1 min lead time) as well as the tags to be recorded can be parameterized. The resulting fault data file is archived and can be evaluated graphically and in tabular form in the Incident Explorer of the SICAM PQ Analyzer program. Scope of information The amount of information to be processed by SICAM PAS is essentially determined by the following factors: Computer network concept (multiple-computer network or single-station system) Performance data of the hardware used Performance data of the network Size of the database (RDBMS) Rate of change of values With a distributed PAS system using a full server and up to 6 DIPs, a maximum of 350 IEDs and 20,000 data points can be supported. Adjustments during operation such as bay/telecontrol blocking, switching authority, but also marking commands to the SoftPLC for operational control of the automation functions are kept synchronous in both station control units during redundancy operation. The current adjustments are also valid after a redundancy changeover. SICAM SCC communicates simultaneously with both redundant station control units. A redundant structure is also possible for process visualization with SICAM SCC and fault-record archiving with SICAM PQ Analyzer. 2.1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

27 SICAM PAS System requirements System requirements Station Unit with: Pentium processor III 1.8 GHz Main memory 2 GBytes Hard disk capacity 2 GBytes Graphics card for recommended resolution of 1024 x 768 Color monitor matching the graphics card DVD drive Keyboard Mouse USB interface Network adapter for LAN/WAN connection Interface cards for connection of IEDs SIMATIC CP 5613/14 for connecting units with PROFIBUS DP interfaces e.g. Rocket Port COM Expander for serial connection of units with IEC interfaces etc. For the station level computer, Siemens recommends the Station Unit as standardized hardware solution with Microsoft Windows XP Embedded. Furthermore, SICAM PAS can also be used with these operating systems: Microsoft Windows XP Professional Microsoft Windows 7 Professional Microsoft Windows Server 2003 Microsoft Windows Server 2008 Services Configuration Large-scale orders call for comprehensive configuration work and competent project management. We will support you with: Project planning Project management Project controlling or we will perform these tasks for you. Training SICAM PAS courses are staged at our Nuremberg training center Phone: / Fax: / For details of individual courses, consult our catalog on the Internet at or contact our training center. Certificates A DQS-certified quality management system conforming to DIN ISO 9001 is applied in the manufacture and sale of the products listed in this brochure. 2 Operating system for visualization with SICAM SCC: Microsoft Windows XP Professional Microsoft Windows Vista Microsoft Windows Server 2003 Figure 2.1/4 Recommended device with more functionalities: 6MD91 Station Unit SICAM Substation Automation and RTUs Product Catalog Edition /11

28 SICAM PAS Selection and ordering data Substation Automation SICAM PAS 6MD90 Description Variants Order No. 2 Basic system A 0 A A 0 Base packages: The basic system includes: SICAM PAS UI-Operation Runtime & Configuration basic component as a single user system or as the central component in a distributed system SICAM PAS UI-Configuration up to 2,000 Master Information objects 6MD 0 M 0 SCADA Value Viewer more than 2,000 Master Information objects 6MD 0 A 0 OPC Server SNMP Manager SNTP for time synchronization Runtime ServiceIF SIPROTEC 4 Master up to 4 devices 7 K E 0 R 1 Real-time data distribution system up to 2,000 Master Information objects 6 M D Sybase SQL database 0 M 1 USB-Dongle more than 2,000 Master Information objects 6 M D 0 A 1 Configuration up to 2,000 Master Information objects 6 M D 0 M 2 more than 2,000 Master Information objects 6 M D 0 A 2 Device Interface Processor (DIP) Use as a subordinate component in a distributed PAS system Runtime & Configuration 6MD 0 A 1 Runtime 6MD 0 A 0 Version 8 Description Variants Order No. Functional Upgrades 6 M D A 8 A A 0 Functional Upgrades with respect to number of supported devices Full-Server-Runtime more than 4 devices, up to 2,000 Master Information objects Precondition*: 7KE9000-1RA10-8AA0 (up to 4 devices) 4 R 1 0 Full-Server-Runtime more than 2,000 Master Information objects Precondition*: 6MD9000-1MA10-8AA0 (up to 4 devices) 4 M 1 0 Full-Server-Runtime- & Configuration more than 2,000 Master Information objects Precondition*: 6MD9000-1MA00-8AA0 (up to 4 devices) 4 M 0 0 Configuration more than 2,000 Master Information objects Precondition*: 6MD9000-1MA20-8AA0 (up to 4 devices) 4 M 2 0 Functional Upgrades from Runtime to Runtime & Configuration Configuration-Upgrade (Runtime already existing) More than 4 devices, up to 2,000 Master Information objects Precondition*: 6MD9000-1MA10-8AA0 4 A 2 4 Configuration-Upgrade (Runtime already existing) more than 2,000 Master Information objects Precondition*: 6MD9000-1AA10-8AA0 4 A 2 3 Version Upgrade SICAM PAS/PQS Upgrade to V8.0 SPx (when ordering the upgrade, the first order must be referenced) 3 A 0 0 * Precondition means the referenced MLFB is already licensed. 2.1/12 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

29 SICAM PAS Selection and ordering data Description Variants Order No. Options & Add-ons 6 M D A A 0 Applications (Power Automation) Automation 0 B A50 PDR-Recorder (Post Disturbance Review) 0 B A 7 0 Add-ons (Power Automation) Secure Communication (for TCP/IP-based communication T104 Slave, DNP 3 Slave, DNP 3 Master) 0 S C 0 0 SICAM PAS Applications (f-based Load-shedding, GIS-, Transformer-Monitoring) 0 P A Master-Protocols (bay devices, RTUs) IEC Client (Monitoring direction) 0 C E 0 0 IEC Client 0 C E 0 0 IEC Master 0 C D 0 0 IEC Master (Monitoring direction) 0 C B 0 0 IEC Master 0 C B 0 0 IEC Master 0 C D 0 4 DNP 3.0 Master 0 C B 0 7 Modbus Master 0 C B 0 5 Driver module for PROFIBUS DP 0 C B 0 1 SINAUT LSA - ILSA 0 C B 0 3 OPC Client 0 B A 4 0 Slave-Protocols for IEC Slave 0 C C 0 0 Control Center connection IEC Slave 0 C C 0 4 IEC Server (Control Center Com.) 0 C F 0 0 DNP 3 Slave (serial and TCP/IP) 0 C C 0 7 Modbus Slave (serial and TCP/IP) 0 C C 0 5 CDT Slave (serial) 0 C C 0 8 TG8979 Slave (serial) 0 C C 1 0 OPC XML-DA Server 0 C A 4 1 Functional Upgrades IEC Master (additionally supports control direction) 4 C B 0 0 for communication Precondition: 6MD9000-0CB00-8MA0 applications that only support the Client IEC (additionally supports control direction) monitoring direction Precondition: 6MD9000-0CE00-8MA0 4 C E 0 0 PQ applications 7 K E A A 0 Master-Protocols Power Quality SIMEAS R C B 1 1 SICAM Q80 C B 1 2 Application Power Quality Automatic Comtrade Import B A 6 0 Automatic Comtrade Export B A 6 1 Automatic PQDif Import B A 6 2 Automatic PQDif Export B A 6 3 Automatic Report Export B A 6 4 Automatic Fault Location B A 6 5 Notification ( , text message) B A 6 6 Automatic GridCode Evaluation B A 6 7 Scheduled PQ Reports B A 6 8 SICAM Substation Automation and RTUs Product Catalog Edition /13

30 2 2.1/14 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

31 SICAM PAS Flexible control and monitoring system SICAM Station Unit Flexible hardware high IT security

32 SICAM Station Unit Contents page Description 2.2/3 Selection and ordering data 2.2/ /2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

33 SICAM Station Unit Description Description SICAM Station Unit is the standard hardware platform for the substation automation software SICAM PAS and the power quality system SICAM PQS. SICAM Station Unit meets all requirements of hardware of such applications both now and in future. Furthermore, IT security requirements were included in the development for the energy automation sector (for example specifications from the BDEW White Paper or NERC CIP). Availability Redundant storage media (RAID 1 with mirrored storage media for system memory and data) allow defective data carriers to be replaced without data loss or downtime Redundant power supply Maintenance-free No rotating parts (except for hard disk drive option) Fan-free design 2 Connectivity/communication media Serial interfaces 2 built-in Ethernet interfaces (10/100/1000 Gbit/s) 4 additional Ethernet interfaces are optionally available 4 optional optical channels (fiber optic) PROFIBUS DP Performance Late embedded processor technology by Intel 4 Gbyte main memory Fast startup and shutdown of the system due to the use of solid state disks (based on fast flash technology) Latest bus technology for the embedded domain based on CompactPCI Serial Data and programs Storage medium for operating system, applications and data Either 16 Gbyte solid state disk or 100 Gbyte hard disk drive Redundant version optionally available (RAID 1) Additional memory for archive data (optimal for power quality applications) 100 Gbyte hard disk drive Also possible as redundant version IEC The SICAM Station Unit satisfies the stringent requirements for electromagnetic compatibility (EMC) and ambient conditions according to the international standard IEC Optimized especially for the connection of bay units via IEC due to the multitude of possible network interfaces. Figure 2.2/1 Station Unit IT security Windows Embedded Standard 7: Only the Windows components required for operating SICAM PAS PQS are installed. This reduces the system s vulnerability compared to standard desktop variants of the operating system. BIOS password (NERC/CIP-compliant, the complexity is checked when the password is assigned and must be changed after initial commissioning) Integration into central network management possible Integration into central user management based on Microsoft Active Directory is supported. Regular release of security updates for the pre-installed operating system and the applications Anti-virus protection recommendations available The system is delivered with a safe default setting. The user documentation contains the steps necessary for emergency planning to safely restore operation after failure. Inputs and outputs 8 isolated binary output contacts Additionally, up to 64 digital input and output contacts possible Prefabricated cables in different lengths available as accessory A special protocol application in the SICAM PAS basic package supports integrating the I/O contacts into the automation application. SICAM Substation Automation and RTUs Product Catalog Edition /3

34 SICAM Station Unit Description 2 Longevity 5 years warranty Long availability of spare parts even after the end of the product life cycle Spare parts concept also for discontinued product versions High level of compatibility between versions Long availability of the operating system versions used Use of components with a particularly long availability such as processors from Intel s Embedded Line Flexibility and expandability Various preconfigured equipment versions Expandability through modular design Compact PCI and CompactPCI Serial GPS time card Integrability Standard installation dimensions 19" wide, 4 units high Suitable for installation in automation cabinets and racks Scope of delivery Basic device with pre-installed operating system Recovery DVD Product information Password card for restoring a lost BIOS password Installation accessory kit (plug, wrench, screws etc.) 2.2/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

35 SICAM Station Unit Selection and ordering data Description Variants Order No. SICAM Station Unit V2.40 Complete Device 6 M D 9 1 SICAM Station Unit V2.40 based on Industrial Version Processor 19 rack system, fanless, without moving Version components. With pre-installed Windows Primary Power Supply Embedded Standard 7. The device is equipped DC V A with CPU-Modul with Dual Core CPU Intel AC/DC V B Core 2 Duo SL9400, 1.86GHz, 4GB RAM, Secondary Power Supply Solid State Disk (SSD), Raid 1 System optionally, DC V A 5 USB at front side, 2 internal USB (suitable AC/DC V B for SICAM PAS-Dongles), 2xGBit Ethernet No secondary power supply C RJ45 Port, Status LEDs Optional redundant System Storage power supplies (switchover without reboot) (for OS, Application and data) Monitored by SNMP HW Watchdog 1 x 32 GB Solid State Disk 1 Temperature/Voltage monitoring, Live Contact 1 x 100 GB Hard Disk Drive 2 Archive Storage (for power quality archive data) None 0 1 x 32 GB Solid State Disk (in slot 9) 1 1 x 100 GB Hard Disk Drive (HDD) (in slot 9) 2 2 x 32 GB Solid State Disk (in slot 19+20) 3 2 x 100 GB Hard Disk Drive (HDD) (in slot 19+20) 4 1 x 32 GB Solid State Disk (in slot 19) and 1 x 100 GB Hard Disk Drive (in slot 20) 5 I/O Boards None 0 One Digital I/O Module (32 binary contacts) 1 Two Digital I/O Modules (64 binary contacts) 2 Additional Network Interfaces or Data Storage None A 4 x Gigabit Ethernet Interfaces (10/100/1000 Mbit/s, RJ45) B 4 x Fiber-Optic Interfaces (1000BASE-SX) C 1 x 32 GB Solid State Disk as additional data storage D 1 x 100 GB Hard Disk Drive (HDD) as additional data storage E 4 x Fiber Optics Interfaces (100BASE-SX) F Com Port Expander Without Com Port Expander A 8 Ports, incl. Octopus Cable B GPS Clock Card None 0 GPS Clock Card incl. adapter cable with BNC plug for connecting HOPF antenna (e.g. FG4490G10) The antenna itself is not in scope of delivery. 1 2 SICAM Substation Automation and RTUs Product Catalog Edition /5

36 SICAM Station Unit Selection and ordering data 2 Description Order No. SICAM Station Unit V2.40 Spare Parts and Accessories 6 M D 9 9 A 0 0 A A 0 Version Version Power Supply DC V A0 AC/DC V A1 Power Supply Control Module A8 CPU CPU Module with Dual Core CPU B 0 Intel Core 2 Duo SL9400, 186 GHz, 4GB DDR3 DRAM, 2 x Ethernet ports (10/100/1000 Mbit/s), 2 USB Ports (in CPU Module) Data Storage 32 GB Solid State Disk (SSD) C GB Hard Disk Drive C 1 Carrier Board for Hard Disk Drive or Solid State Disk C 2 USB Ports 3 x USB Ports B 2 Network Adapter 4 x Gigabit Ethernet Interfaces (10/100/1000 Mbit/s, RJ45) E 0 4 x Fiber-Optic Interfaces (1000BASE-SX) without SFP Modules E 1 Carrier Board for SIMATIC CP 5603 E 2 (CP5603 needs to be ordered separately from Industry) Fiber-Optic-SFP-Module GB (SFP Transceiver, only for use together with 4 x Fiber-Optic Interface) E 3 4 x Fiber Optics Interfaces (100BASE-FX) without SFP Modules E 4 Fiber Optic Module 100 MBit (100Base-FX) (SFP Transceiver, only for use together with 4 x Fiber Optics Interface 100BASE-FX) E 5 Com Port Expander 8 Ports, incl. Octopus Cable F 0 Octopus Cable F 1 I/O Module Digital I/O Module (32 contacts) G0 Carrier Board for I/O Modules G1 44-pin D-Sub Connector with cable (2 meters) and pigtail G2 44-pin D-Sub Connector with cable (10 meters) and pigtail G3 GPS Clock Card GPS Clock Card incl. adapter cable with BNC plug for connecting HOPF antenna (e.g. FG4490G10) H 2 The antenna itself is not in scope of delivery. Adapter cable with BNC plug for connecting HOPF antenna H1 Miscellaneous Front Cover M0 System Rack without modules and power supplies M1 USB DVD Drive M2 Accessories Pack (plugs etc.) M3 Software Recovery DVD Set (without MS License) S 1 2.2/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

37 Flexible control and monitoring system HMI and Archiving

38 HMI and Archiving Contents 3. HMI and Archiving page 3.1 SICAM SCC 3.1/3 3.2 SICAM PQ Analyzer 3.2/1 3.3 SICAM DISTO 3.3/1 3.4 SICAM Diamond 3.4/1 3.5 SICAM /1 3 The technical data can be found in the device manual at: 3.1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

39 Flexible control and monitoring system SICAM SCC Substation Control Center

40 SICAM SCC Contents page System overview 3.1/5 SIMATIC WinCC basics 3.1/7 SIMATIC WinCC configuration 3.1/10 Scalability with SIMATIC WinCC 3.1/12 Virtualization with SIMATIC WinCC 3.1/14 Openness with SIMATIC WinCC 3.1/16 3 Selection and ordering data 3.1/18 3.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

41 SICAM SCC System overview 3 Figure 3.1/1 Process visualization with SICAM SCC SICAM SCC process visualization for electric power distribution and transmission systems SICAM SCC HMI for SICAM and IEC The process visualization and control system is a central element of the distribution and transmission of electric energy. The SICAM SCC HMI system from the SICAM product line is the optimum solution for your control and monitoring requirements. The system is independent of the Siemens substation technology installed. SICAM SCC is compatible with the SICAM PAS Power Automation System and the products AK, TM, EMIC and MIC from the SICAM line. And in case you are not using a substation controller in your station: SICAM SCC communicates directly with bay units and protection devices that support the IEC communication standard. As a result, it can be used as an overall HMI system for devices. SICAM SCC based on SIMATIC WinCC Common HMI for SICAM and SIMATIC SICAM SCC is based on the SIMATIC WinCC system, one of the world-leading process visualization systems, adding the functions required for use as substation operating system of the electric process in high-voltage and medium-voltage systems. The compatibility with SIMATIC WinCC allows SICAM SCC to be used as an add-on together with SIMATIC WinCC on one computer. This enables an integrated system solution for visualizing and controlling the industrial manufacturing processes, using SIMATIC automation devices (e.g. S7 and PCS7), and the electric energy process (e.g. with SICAM PAS). SICAM SCC functions for use with SICAM and IEC SICAM SCC is tailored to be used in energy applications supporting operators with the task of optimizing system management. It provides a fast and clear overview of the system operating states. The specific properties of the HV and MV switchgear in control and monitoring direction (double commands and double-point indications) are optimally implemented in the indication lists and the graphic process visualization. SICAM SCC logging that adds value The original time stamps are logged in the indication lists in ms resolution as generated in the devices. Each indication is displayed with a number of additional information items. They provide information about the up-to-dateness of the information in the event of a device or communication failure (up-to-date/not up-to-date) or an active bay blocking or telecontrol blocking. In addition, they specify the cause of the status change (spontaneous, command) and, in case of a command, they provide information about the source of the operation (local, remote). In addition to process indications, command indications are logged, too. Each command operation is thus documented completely and in detail, from the command initiation by the operator to command output and feedback from the process after change of status of the controlled switchgear. SICAM Substation Automation and RTUs Product Catalog Edition /5

42 SICAM SCC System overview 3 SICAM SCC from process visualization to topological coloring IndustrialX controls are used to control and monitor the switchgear in the fully graphical process images (single-line diagrams). These switchgear objects support 4 different display modes (IEC, DIN, SINAUT LSA, SICAM) for circuit breakers and disconnectors. In addition, project-specific bitmaps can be defined to represent the switchgear devices and link them with the objects. Setpoint flashing and spontaneous flashing plus the display of various device and communication states (e.g. up-to-date/not up-to-date, bay blocking and telecontrol blocking) are supported with the aim to provide reliable visualization. Measured values and switchgear states, which are no longer updated due to a device or communication failure or an active bay blocking, can be updated manually from the SICAM SCC operator station. The switchgear devices can be controlled either directly or by using Select before operate. Topological coloring is available for visualizing the process with single-line diagrams. SICAM SCC shared substation automation functions with SICAM PAS Additional functions are supported when using the system in conjunction with SICAM PAS: If, for example, maintenance or tests have to be carried out for the process domain of a bay controller, it may not be desirable that status changes are actually processed by the SICAM PAS substation automation processing functions nor logged in the HMI. This can be implemented easily by activating the bay blocking function. The telecontrol blocking function can be used if you want status changes to be processed in the station but not transmitted to the higher-level control center. Substations are usually controlled from the higher-level control centers, whereas switching commands are to be rejected by the station s internal HMI; the switching authority is as signed to the higher-level control center. If control from the HMI is required for operational management reasons, the switching authority can be obtained. If the substation is connected to several control centers, the switching authority can also be assigned to specific channels. Additionally, different switching authorities can be used, e.g. for the different voltage levels. SICAM SCC reduced engineering effort Exchanging data with the connected substations frequently involves several thousand indications, measured values and commands. SICAM SCC provides wizards which considerably facilitate the configuration of such information. The configuration tools (SICAM PAS UI Configuration, SICAM TOOLBOX II) provide the required description of the process data in electronic form and can be imported conveniently using the SCC wizards. Redundant data entries are thus avoided. SCD files can be imported for IEC devices which are connected directly. Figure 3.1/2 Process visualization with SICAM SCC 3.1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

43 SICAM SCC SIMATIC WinCC basics SIMATIC WinCC the platform on which SICAM SCC operates Important characteristics overview The WinCC basic software is the core of an integrated system comprising WinCC, WinCC options and WinCC Add-ons, all designed to build up a solution tailored to your specific requirements. The basic software itself represents a powerful, universally applicable process visualization system that offers all features of a sophisticated HMI software. Runtime software All HMI functions onboard, this characterizes the runtime component of the WinCC basic software: Starting with a user administration that meets all requirements of Good Manufacturing Practice (GMP), ranging to a user interface with lots of configurable controls and functions up to a performant message and archiving system based on the integrated MS SQL Server. Reporting and logging system as well as integrated control technology functions complete the list. Engineering software The engineering component WinCC CS offers a set of editors that leave nothing to be desired when talking about efficiency or user friendliness. Libraries and wizards make the generation of a project fast and easy and reduce error-proneness considerably. As a software for most complex HMI tasks, WinCC is able to handle comprehensive projects and mass data. WinCC/CAS offers the possibility for setting up a scalable, central process data archiving. The WinCC/Web Navigator allows you to visualize and operate your plant via the Internet with nearly the same functionality as a WinCC client but with unbeatable flexibility. Virtualization In addition to WinCC Clients, WinCC Servers can now also be used with WinCC V7.0 SP3 under VMware ESXi, and engineering stations under VMware Workstation or VMware Player. This means that complex client/server structures as well as single-user systems can be configured with virtual environments. Openness SIMATIC WinCC consistently builds on the highest possible openness and ability to integrate as it is designed for using standard technologies and software tools: This comprises basic technologies, operating systems, the ways of communication or the ability to integrate scripts, all on a non-proprietary basis. 3 Scalability The basic system is scalable in all respects by employing WinCC options. The basic software can already be adapted to increasing quantity structures by finely graded licenses. Yet, a chosen license can easily be upgraded in regard to the number of process tags. By employing WinCC/Server, you can run WinCC as a client/server application. WinCC/Redundancy is used to build up a highly available SCADA system. SICAM Substation Automation and RTUs Product Catalog Edition /7

44 SICAM SCC SIMATIC WinCC basics SIMATIC WinCC detailed description of the major functions function layers and the objects contained in them can be displayed and hidden, depending on the zoom factor. 3 Basic functionality The runtime application of the WinCC basic software Overview Integrated user management User interface Message system Archiving system Reporting and logging system Control technology functions (Basic Process Control) Integrated user management Using WinCC User Administrator, you assign and control user s access rights for configuration and runtime. As the administrator, you can set up at any time including at runtime up to 128 user groups each containing up to 128 individual users and assign them appropriate access rights to WinCC functions. A total of 999 access rights is possible. Starting with WinCC V7, SIMATIC Logon is part of the WinCC basic system. The user administration with SIMATIC Logon integrates into the security system and user management of Windows and thus meets enhanced security requirements according to FDA regulations. SIMATIC Logon comprises a number of security mechanisms and provides a plant-wide user management. Message system SIMATIC WinCC doesn t just acquire process messages and local events, it also stores them in circular archives and then makes them available as desired on a filtered or sorted basis. Messages can be derived from individual bits, can be a result of an alarm message frame directly from the automation system or of analog alarms in the case of out-of-limit conditions. Individual acknowledgement procedures, a freely definable message structure and configurable archiving as well as logging of messages are additional features. In the WinCC Alarm Control, the depiction of the messages can be individually customized. Extensive selection options, e.g. via a user-specific filter matrix, ensure an optimal overview. The depiction of messages already swapped out is possible as well. At the push of a button, the messages depicted can be exported or printed out as a report. System-specific functions can be implemented via freely configurable toolbar functions. Starting with WinCC V7.0 SP1, a search function is offered in the Alarm Editor. The filter options in the alarm system have been supplemented by equals for process value blocks and contains for text values. Figure 3.1/4 Message display via WinCC AlarmControl The message hit list indicates the average and total times that specific messages have been pending for (message duration) and, in a similar way, the average and total acknowledgement time. Figure 3.1/3 SIMATIC Logon Service at WinCC basic system User interface Using WinCC standards, you can create customized configured user interfaces for any application. You can choose from a comprehensive range of configurable standard objects. The online language switching option enables you to switch online between languages during runtime for projects created for several target languages. Windows elements like menus and toolbars can be integrated into the WinCC user interface. WinCC makes it possible to represent screen sizes of up to 10,000 x 10,000 pixels using intelligent zoom functions. The view of a process screen in runtime can be enlarged or reduced using the mouse wheel. When the picture has been assigned a zoom factor, the mouse can be used for panning. After clicking on the mouse wheel, a navigation compass appears. Move the mouse pointer to scroll the picture in the corresponding direction. Using decluttering, Figure 3.1/5 Message display with message hit list With the function Alarm Hiding, the operator suppresses unimportant system status messages on the screen display, though they continue to be archived in the background. The Hiding List can of course be viewed at any time and individual or all alarms be displayed again by selection. 3.1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

45 SICAM SCC SIMATIC WinCC basics Archiving system Historical values or value progressions are stored in process value archives. Besides process values, WinCC also archives messages and application data. The archiving occurs in ring archives in the integrated, high-performance MS SQL Server database at a rate of up to 10,000 measured values and 100 messages per second. The storage capacity requirements are very low due to powerful, lossless compression functions. The WinCC basic system already allows up to 512 archive tags to be configured. In the final capacity stage, PowerPacks enable the expansion to up 120,000 tags. A central, optionally redundant, long-term archiving can be implemented via a central archive server with the option WinCC/Central Archive Server. In the TrendControl, current values (online trend curves), historical process values, and desired value trend curves can be depicted in the same trend display. The depiction of messages already swapped out is possible as well. In doing so, a customized scaling of the time axis and the value range can be performed (e.g. scaling in percent). The time and value axes of the individual trend curves can be moved online by mouse movement. This function, for example, can be used for batch comparisons. At the push of a button, integrated statistics functions enable the determination of min., max., average, and standard deviation as well as the integral calculation. A logarithmic depiction of trend curve progressions is also possible. At the push of a button, the process values selected (highlighted) in the TrendControl can be exported to a CSV file or printed out as a report. In addition, system-specific functions can be implemented via freely configurable toolbar functions. Reporting and logging system WinCC has an integrated logging system that you can use to print data from WinCC or from other applications. This system prints data that was acquired at runtime in configurable layouts by means of different types of logs: from message sequence logs through system message logs and operator logs up to user reports. Before printing reports, you can save them as files and preview them on the monitor. WinCC logs can also contain data from the database and external data in CSV format as a table or a curve in a log. 3 Figure 3.1/6 Online TrendControl SICAM Substation Automation and RTUs Product Catalog Edition /9

46 SICAM SCC SIMATIC WinCC configuration 3 WinCC configuration Efficiency and ergonomics in engineering Overview Overview of the WinCC Editors Wizards and libraries Engineering of large projects Configuring multilingual applications Overview of the WinCC Editors In the life cycle of an automation solution, engineering costs make up as much as 50 % of the total costs. If you want to significantly lower costs, you will need simple and efficient tools for configuring and intuitive operator prompting. SIMATIC WinCC provides both. WinCC makes available a range of editors and interfaces that you can use to individually configure the functionality of your respective application: WinCC Explorer The WinCC Explorer is the central coordinating point in WinCC for project management and provides access to all the components of WinCC. It gives you a detailed overview of the loaded project and shows all the files that are associated with the project. WinCC Graphics Designer Graphics system for designing a user interface. Using the wide range of graphics objects, which are offered on several tool palettes, you can easily and quickly create complex process screens. Parameterizing and linking a graphic object to an internal PLC tag for animation purposes is as easy as can be. As soon as a new object has been placed in the picture, an easy-to-edit dialog box appears. Centrally changeable objects (faceplates) The configuration can also be performed using modular construction: Any graphical object can be grouped with others to form a new, user-specific faceplate, where only the interface parameters relevant for the process connection come to the surface. These faceplates are centrally created and managed. Changes are automatically incorporated into all places of use. WinCC Alarm Logging Editor for configuring the alarm and message system for recording and logging events with display and operating facilities; freely selectable message categories, message display and reporting. WinCC Tag Logging Editor for configuring the Archive System which allows the archiving of process values for acquisition, logging and compressing measurement values, e.g. for displaying trends and tables and further processing. WinCC Report Designer To document configuration and runtime data, you can generate logs and reports in WinCC. The supplied layouts cover the majority of possible applications for documenting your configuration information, and for logging the runtime data. Using the WinCC Report Designer, you can change the default layouts or create new layouts that meet your own requirements. SIMATIC NCM PC Using SIMATIC NCM PC, you can load WinCC projects to the corresponding target systems. This applies to both singleuser and multi-user configurations. If required, you can also load WinCC single-user projects on several computers without needing to duplicate the WinCC project. Any changes to the WinCC project that may become necessary can be carried out later centrally at one location with the system distributing the changes to all the affected stations. For this, you use OS references in SIMATIC NCM PC that only contain a reference to the corresponding projects. Figure 3.1/7 WinCC Graphics Designer Editor for menus and toolbars Application-specific menus and toolbars can be integrated into the user interface of the runtime application. These new user interface elements can be set up, fixed or movable as usual in Windows. Figure 3.1/8 Object library 3.1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

47 SICAM SCC SIMATIC WinCC configuration Wizards and libraries Delegating routine tasks helps cutting engineering time: SIMATIC WinCC supports developers by providing wizards (assistants) for easy configuration tasks. The message wizard, for example, offers default settings that developers can confirm or modify. Preview windows show the effect of the chosen parameters. If the developer confirms the settings, he can implement cost-effective and practical solutions in a very short time. Once graphic objects have been created, the library makes it possible to reuse them in other pictures and/or projects. Developers can create company-, technology- or industryspecific standards, making it quick and easy to create projects. The objects for those projects are finished and sorted by topic in the library and can be brought into the pictures via drag & drop. Inserting objects in the library is just as easy. In order to be able to make full use of multiple languages in WinCC s runtime mode, objects like these should be configured in several languages. Configuring multilingual applications The configuration user interface of the WinCC system software can be switched between English, German, French, Spanish, and Italian. WinCC is also offered in an ASIAN version for China, Taiwan, Korea, and Japan. The configuration user interface of the Asian version of WinCC is switchable between the respective Asian national language installed and English. With that, configuration personnel from other countries can make any necessary changes to the project in the English configuration environment, e.g. in case of maintenance. 3 Engineering of large projects To keep an overview of the host of tags, images and functions that are used in a project, WinCC offers a cross-reference list that can be generated individually on the basis of filter settings. You create the cross-reference list using the Cross Reference Editor. Figure 3.1/10 Multilingual applications The texts for the runtime application can be edited in all primary languages of Windows. Besides static texts, this also includes the tooltips. At the push of a button, a switch between these languages can be executed while in runtime. For the export and import of all texts in the CSV format, the WinCC Text Distributor is provided, through which the translation can be easily carried out via standard tools. To facilitate the translation of message texts, a text block library (Text Library) exists, which in tabular form lists the terms used in the individual languages. Convenient filter mechanisms make working with large quantity structures easier. Figure 3.1/9 Cross Reference Editor For convenient and quick configuration of mass data, WinCC provides a configuration tool based on Microsoft Excel. You can read in existing projects and create new ones. In addition to process connections and process tags, you can edit measured value archives, alarm messages and the Text Library. The table format allows convenient editing, which also includes auto fill-in. Experienced users can expand their options by using macros based on VBA (Visual Basic for Applications). Figure 3.1/11 Text Distributor SICAM Substation Automation and RTUs Product Catalog Edition /11

48 SICAM SCC Scalability with SIMATIC WinCC Scalability with WinCC From single-user system to web-based solution Overview Client/server solutions Central archive server solutions Redundant server solutions Web-client solutions Thin-client solutions To be able to meet growing requirements, the visualization must be expandable at any time without causing technology incompatibilities or requiring completely new configurations. Investment protection is a top priority. Central archive server solutions Central data management, reliable, high-performance archiving and central backup mechanisms form the basis of a archive server solution. Integration in the SCADA world, data interfaces for access to archived data and analysis functions are the component parts. The option Central Archive Server (CAS) was designed for this purpose and is used to export the archived data of all servers in the system to a computer and manage it. Integration of CAS in the WinCC world means that the data remains available for the WinCC clients as well as for the WinCC standard interfaces. 3 Figure 3.1/12 Client/server solutions Figure 3.1/13 Central archive server solution On-site PC-based visualization at machines or smaller plants is a typical WinCC flexible task. To cope with growing requirements, regarding functionality and quantities, you can employ a WinCC single-user system with a corresponding number of system variables (Power Tags). To face even more ambitious tasks, you can build up a powerful client/server system by employing the WinCC/Server option. The server option allows you to set up coordinated operator stations (multi-user system) from single-user systems at any time. In this way, you can deploy a total of up to 12 WinCC servers and 32 WinCC clients per server in a contiguous plant configuration. This allows the overall application to be distributed among a number of servers, according to the physical plant structure (e.g. body-in-white-shop, paint-shop etc.) or on a functional basis (e.g. alarm server, archive server etc.). 3.1/12 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

49 SICAM SCC Scalability with SIMATIC WinCC Redundant server solutions The WinCC/Redundancy option gives the user the opportunity to operate two linked WinCC server PCs in parallel in order to monitor each other. On the failure of one of the servers, the second server assumes control of the entire system. When the failed server resumes operation, the contents of all message and process value archives are copied back to the restored server. The automatic switch to the redundancy partner within the framework of WinCC/Redundancy is not only carried out in the case of a failed server, but also in the case of a faulty process communication. Web-client solutions The WinCC/Web Navigator makes monitoring and even operating a plant possible from the Internet or intranet. The Web Navigator consists of a combination of Web Navigator Server and Web Navigator Client. The web server can be a WinCC single-user station or any station in a WinCC Client/Server configuration. A Web Navigator Server depending on its license can supply up to 50 clients with process screens, messages and current process data. Thin-client solutions With Simatic WinCC, you can implement client/server configurations, in which simply equipped Window PCs, rugged Windows CE-based terminals (e.g. SIMATIC Thin Clients) or mobile handheld devices can be employed as operating stations. WinCC uses an innovative thin-client strategy that combines the advantages of the Web and terminal server technologies. Solutions of this type make minimal requirements of the hardware, since the application itself runs on the terminal server. Up to 25 thin clients can be connected to one terminal server. In this case, the clients only have the purpose of entering data and of sending this data to a terminal server. The terminal server carries out the actual processing (for instance updating process screens) and returns the resulting screen output to the client, which then displays it on its monitor. 3 Figure 3.1/14 Web client solution SICAM Substation Automation and RTUs Product Catalog Edition /13

50 SICAM SCC Virtualization with SIMATIC WinCC 3 Virtualization with SIMATIC WinCC Cost-effective, resilient and flexible IT infrastructures Overview Description Benefits Hardware and software requirements Options released for virtual environments Description To reduce the administration and maintenance effort, the automation world is turning increasingly to virtualization and the opportunity it provides to decouple applications from hardware. This enables centralized management and further simplifies backing up and restoring the system environment. Client environments can be installed once and distributed among one or two virtualization servers using virtual sessions (instances). It is also much easier to implement IT security solutions on central virtualization servers than on numerous client stations. Last but not least, virtualization eliminates the restriction of target devices to a particular hardware, thus allowing even more complex applications to run on simple, low-cost and robust thin clients. In addition to WinCC Clients, WinCC Servers can now also be used with WinCC V7.0 SP3 under VMware ESXi, and engineering stations under VMware Workstation or VMware Player. In this way, all WinCC guest systems can be monitored via the central administration of the VMware Server. Benefits Virtual technologies permit cost-effective, resilient and flexible IT infrastructures. Above that, virtualization provides the following benefits: Reduction of the hardware costs Reduced HW costs by consolidation of several physical computers. More cost-effective hardware can be used on the client side. Additional application areas: Thin-client solutions (PC, Panel, mobile PDA). Reduced effort for maintenance Shorter times for updates and backups, because these can be executed centrally. Reduced maintenance costs due to central administration. Server configuration by means of remote management tools. Increased security Increased security due to remote access and centralized rights management. Reduced risk of attacks with thin clients, central protection on the virtual server. Increased availability. Hardware replacement on the virtual server is possible during operation. Increased flexibility Additional clients can easily be connected by starting another VMware Session. This means that complex client/server structures as well as single-user systems can be configured with virtual environments. In addition, the engineering can be implemented with a client-based VMware, which will significantly reduce the effort for installation and maintenance. Figure 3.1/15 Virtualization Figure 3.1/16 Benefits of virtualization 3.1/14 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

51 SICAM SCC Virtualization with SIMATIC WinCC Hardware and software requirements The hardware requirements of VMware ESX and ESXi 4.1 are applicable. In addition, please note the installation instructions and quantity framework specifications of WinCC for the creation of the guest systems. Preconditions for the operation of virtual servers with WinCC guest systems The minimum requirements for ESX/ESXi Servers are two processor cores Terminal and PLC networks must be isolated by separate network cards (dedicated, physically separate network cards) Graphic card setting: 32 MB VMware Tools must be installed The CPU load of the overall system as per VMware must not be more than 75 % Preconditions for the guest systems Two logical processors for one guest system One logical CPU is sufficient under Windows XP and in the case of pure client functionality of SIMATIC WinCC At least two physical modules (one exclusively for the PLC bus) Isolation of PLC bus, terminal bus, Windows network if required, the terminal bus and the Windows network can be combined The CPU load of the guest system is max % A reserve is required especially if large data volumes are to be archived (high IO load) No dynamic memory administration of the guest system by the VMware Host VMware Pause Modus is not permitted The priority for the use of WinCC is in non-virtual environments. Hint Other versions of these options cannot run with SIMATIC WinCC V7.2/WinCC V7.2 ASIA, or have not been tested for compability. 3 SICAM Substation Automation and RTUs Product Catalog Edition /15

52 SICAM SCC Openness with SIMATIC WinCC Openness with SIMATIC WinCC Integration platform Using standards for easy integration Overview Operating systems and databases Integration platform Scripting Communication 3 Right from the start, SIMATIC WinCC has stood for the highest levels of openness and integration, since it has consistently backed standard technologies and software tools. Operating systems and databases MS Windows Beginning with the first version, WinCC has always used operating systems of the market leader. Whether you use Windows Server 2003/2008, Windows XP Professional or Windows 7, in the final analysis, this means a very safe investment for you, since you can easily keep up with innovations in operating systems. MS SQL Server Microsoft SQL Server 2005 SP2 is integrated in the basic WinCC system including its real-time response, performance and 512 archive tags. Powerpacks for up to 120,000 archive variables give you higher performance profiles and thus support you in enhancing the system to a central archive server, which can also archive other data from the production process for long periods of time and make available analysis tools. Figure 3.1/17 ActiveX elements On the one hand, integrating controls makes configuration easier due to the use of ready-made elements that you just need to integrate; on the other hand, it allows you to protect industry and technology expertise in encapsulated elements and to use them as often as you like with different parameters. With Version7, WinCC not only supports the integration of ActiveX controls but also customer-specific XAML and.net controls, as its WinCC Media Control acts as a.net container. The WinCC/IndustrialX package is available as an option for WinCC. It contains a large number of additional ActiveX elements and a development toolset including Visual Basic templates to allow you to easily create ActiveX controls. Using a variety of open interfaces, you can further process archive data using any external tools you like at any time you choose. 3.1/16 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

53 SICAM SCC Openness with SIMATIC WinCC Scripting Visual Basic for Applications (VBA) For individual customizing and extensions to the configuration tool, VBA has been integrated into the WinCC Graphics Designer which is the user-friendly standard environment for application-specific extensions. This means that the Visual Basic knowledge that is available to many engineers and users is transportable to WinCC. And apart from this, standards for repeat engineering tasks save time and money! This means that you can define any menu entries or fast configuration dialogs you like for your own user-specific objects. VBScript or ANSI-C Normally, pictures, logic operations and animation are configured via simple dialogs. Scripts can also be programmed using VBScript or in ANSI-C when necessary, for example to convert values, to initiate a report or to generate operator messages. VBScript has its own user-friendly editor with debugging support. The scripts themselves have access to the properties and methods of all WinCC graphics objects, to controls and to the object model of WinCC as well as applications of other manufacturers. Open programming interfaces C-API The WinCC function modules are open due to API interfaces that allow access to the data and functions of the configuration and runtime system. This means that you can use WinCC configuration and runtime functions in your scripts or even develop stand-alone applications with direct access to WinCC. And by using the WinCC/Open Development Kit (ODK), accessing the programming interfaces is really easy. Communication OPC OLE for Process Control OPC is a uniform procedure that allows Windows applications to access process data. This makes it easy to combine devices and applications produced by other manufacturers. As an OPC DA client, WinCC can log on locally or across the network in the case of lower-level controllers for current process data and has this data sent to it from the associated OPC DA server on a cyclical basis. In the other direction, the WinCC OPC DA server can make available current process data to other OPC-compatible applications like Microsoft Excel for further processing. With OPC XML DA, this is even possible across platforms for different operating systems via the Web between WinCC and office applications, ERP/PPS systems (e.g. SAP/R3) or businessto-business portals. You can implement access to WinCC archive data via OPC HDA (Historical Data Access) or by employing WinCC OLE DB-Provider via Microsoft DTSX-Packages. 3 When using the WinCC options Connectivity Pack and Connectivity Station, you can also access historical alarms via OPC A&E. In OPC A&E, the system displays a WinCC message as an alarm and, together with all the ancillary process values, passes it on to any subscribers on the production or company management levels. Figure 3.1/18 VBScript Editor in WinCC OPC A&E and OPC HDA are in the scope of delivery of the WinCC/Connectivity Pack option. SICAM Substation Automation and RTUs Product Catalog Edition /17

54 SICAM SCC Selection and ordering data Description Variants Order No. Please note: For SICAM SCC version V8.0x, the order numbers from 6MD AA0 to 6MD AA0 are delivered with SIMATIC WinCC V M D A P A A 0 Control & Monitoring, RunTime (RT) 128 data points data points data points data points data points 5 6 M D B P A A 0 C&M, incl. Evaluation applications SICAM Valpro 128 data points 1 for measured and metered values 512 data points 2 Runtime (RT) 2048 data points data points data points 5 6 M D A P A A 0 Control & Monitoring 128 data points 1 Runtime and Configuration (RC) 512 data points data points data points data points 5 6 M D B P A A 0 C&M, incl. Evaluation applications SICAM Valpro 128 data points 1 for measured and metered values 512 data points 2 Runtime and Configuration (RC) 2048 data points data points data points 5 Please note: If you need a different SIMATIC WinCC version, please select one of the following Functional Upgrade order numbers for which SIMATIC WinCC is not included in the scope of supply and order SIMATIC WinCC (with the approriate, compatible version) separately! 6 M D P B A 0 Functional Upgrade Runtime 0 A from SIMATIC WinCC to SICAM SCC Runtime incl. Valpro 0 B Runtime & Configuration 1 A Runtime & Configuration incl. Valpro 1 B 6 M D E P A A 0 IEC Data Import SCD-Import for direct communication with IEC devices 6 M D D P A A 0 SICAM Valpro SICAM Valpro for the evaluation of measured and metered values 6 M D B P 0 8 B A 0 SICAM SCC Version-Upgrade from V5.x, Version-Upgrade from V6.x, V7.0 to V8.0x, DVD, V6.x to V8.0 w/o Licenses 0 Version-Upgrade from V5.x to V8.0, DVD, with Upgrade-Licenses 1 3.1/18 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

55 Flexible control and monitoring system SICAM PQ Analyzer Power Quality Analyzer

56 SICAM PQ Analyzer Contents page Applications 3.2/3 SICAM PQ Analyzer Collector, architecture and configuration 3.2/6 Selection and ordering data 3.2/8 3 The technical data can be found in the device manual at: 3.2/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

57 SICAM PQ Analyzer Applications The protection of power distribution equipment is crucial in assuring a reliable power supply. Customers expect maximum availability of electrical power, reflecting a consistently high standard of quality. For example, in power system protection, it is becoming increasingly difficult to distinguish between critical load cases and short circuits with minimal fault currents. The demands on optimum use and the corresponding parameterization of protective devices are rising. Intensive evaluation of available information from secondary equipment (using fault recorders) is therefore essential. Only this way can today s high levels of reliability and availability in power transmission and distribution networks be ensured for the future as well. There is also concern that the growing use of power electronics often has a noticeable impact on voltage quality. The resulting inadequate voltage quality leads to interruptions, production losses and high consequential costs. Compliance with the generally valid quality criteria for power supply systems as defined in the European standard EN is therefore vital. The basis must be reliable recording and assessment of all quality parameters. Weak spots and potential fault sources can be identified early on and systematically eliminated. What is Power Quality? The purpose of power quality is to ensure a constant quality of electrical energy as a product. It requires, as an integral component of technical risk management, measuring devices and applications that are able to reliably measure, record and evaluate the required data. Power quality is normally used in medium-voltage substations. Only an optimum availability and quality of energy can safeguard industrial production and its control. Moreover, power generation and distribution companies are as a rule contractually obliged to meet certain limits for values which are relevant for power quality. The task of power quality is the monitoring of these limits, the evaluation of limit violations, the initiation of suitable countermeasures, as well as the creation of long-term analyses and trends. The European standards describing the voltage characteristics of electricity supplied by public distribution networks (EN 50160) and the testing and measurement techniques (IEC ) provide the regulatory framework for this. The variables to be monitored include: Voltage dips and increases Harmonic currents Transients Voltage variations (flicker) Frequency changes Basic principles for the evaluation of power quality The power quality of an electric power grid is characterized by 2 main properties: the grid stability and the voltage quality: Grid stability problems are recorded in the fault records of the PQ devices. The SICAM PQS system evaluates the voltage and current quality by comparing the measured data with the grid codes. Grid codes define the limiting values of power quality criteria, i.e. which limits may never be exceeded, or which limiting values may be exceeded how often/how long. Grid codes can be based on power quality standards such as EN SICAM Substation Automation and RTUs Product Catalog Edition /3

58 SICAM PQ Analyzer Applications 3 SICAM PQ Analyzer The SICAM PQ Analyzer is a tool for the display of the data measured by a PQ device and for their evaluation against the power quality criteria by SICAM PQS system. The SICAM PQ Analyzer provides comprehensive evaluation options for archived PQ measuring data and fault records. In addition to clearly structured fault record analysis, the fault locator facilitates and accelerates the elimination of faults in the power network. PQ violation reports provide a quick and comprehensive overview of limit value violations. Scheduled reports provide an overview of the development of measuring data over selectable time ranges. With the aid of a calendar tool available in all views, you can quickly and easily select any time range over which data is to be displayed in a diagram. The calculated PQ index delivers concise information on the quality of the network (figure 3.2/1). The following various views of the SICAM PQ Analyzer provide the means for evaluation of PQ measuring data and system disturbances. Incident Explorer (figure 3.2/2) The Incident Explorer provides an overview of all faults stored in the archive. It enables time-related evaluation, and provides a topological and communication view of: Fault records Fault location reports PQ violation reports PDR records The topological structure of the archive data corresponds to the structure which was defined when configuring the SICAM PQS station. The Incident Explorer serves for the following tasks: Reading the events (confirm) Calling up the evaluation programs Deleting the events from the archive overview Various filter options are available for the selection of events in the power network: Selecting the time range from the archive Filtering for events Figure 3.2/1 PQ index for one characteristic Figure 3.2/2 SICAM PQ Incident Explorer Figure 3.2/3 SICAM PQ Analyzer: PQ Explorer Figure 3.2/4 SICAM PQ Analyzer: Report Browser 3.2/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

59 SICAM PQ Analyzer Applications PQ Inspector The PQ Inspector provides the operator with a quick overview of the station s power network quality based on the PQ index. Archived data is analyzed over freely selectable time ranges, and the operator can immediately detect the causes for discrepancies between measured values and grid codes. The PQ Inspector is subdivided into the following 3 views: Select time range Definition of the period under observation and identification of influencing factors for deviations from the specifications via a stoplight model of the self-defined measurements/characteristics groups Select diagrams Selection of the characteristics of a measuring point and definition of the diagram for data representation. Finalize report Finalization of the report. These views assist you in the step-by-step creation of a manual report. PQ Explorer The PQ Explorer (figure 3.2/3) provides access to all PQ data stored in the archive. It provides a topological view of the measuring points in your station. Measured and calculated PQ data is evaluated via PQ diagrams. The following diagram types are supported in the process (see table 3.2/1). Report Browser The Report Browser (figure 3.2/4) provides an overview of the scheduled reports and their status, which are created automatically at specified time intervals (daily, weekly, monthly or yearly). Any desired report can simply be selected for opening and subsequent printing. Grid Code Viewer The Grid Code Viewer provides the overview required for a supporting analysis: Which grid codes are available? To which elements in the topology have the grid codes been assigned? What characteristics do the grid codes contain? What limits have been defined? Table/diagram type General data Properties Measured characteristics Time characteristic minimum, maximum, average values Table minimum, maximum, average values Bar graph P95/min/average/max Fingerprint diagram Fingerprint table Harmonics spectrum Evaluated characteristics Fingerprint diagram Fingerprint table Harmonics spectrum Time characteristic PQ index Time characteristic power quality Time characteristic measurement gaps Bar graph PQ statistics Measured events Time characteristic event values Evaluated events Time characteristic event values ITI (CBEMA) ESKOM Voltage event list Typical use Overview of the grid codes that are assigned to a PQ device Overview of the PQ devices assigned to a particular node in the topology Overview of the progress of a measured characteristic Display of the values of a characteristic transferred by a PQ device Fast detection of static outliers over a long period Suitable for monthly reports Overview of the static distribution of measured harmonic overvoltages of different orders Comparison of harmonic overvoltages of different orders Comparison of harmonic overvoltages of different orders Overview of the static distribution of the PQ index from several characteristics View of the data that are used to create fingerprint diagrams Comparison of the PQ index of different orders Quick overview of the PQ index over a long period Title page of a monthly report (PQ violations are immediately recognizable) Title page of a monthly report (measurement gaps are immediately detectable) Comparison or the PQ index of several characteristics over a longer period Overview of measured events that have occurred Overview of events that have occurred Overview of voltage rises, voltage dips and voltage interruptions acc. to ITI/CBEMA requirements Overview of voltage dips and voltage interruptions acc. to EKOM requirements Overview of voltage-specific events 3 Table 3.2/1 Diagram types SICAM Substation Automation and RTUs Product Catalog Edition /5

60 SICAM PQ Analyzer SICAM PQ Analyzer Collector, architecture and configuration 3 Figure 3.2/5 Architecture SICAM PQ Analyzer Collector The SICAM PQ Analyzer Collector gathers the archive data from the individual (source) archives together in a central (collector) archive. Depending on the system configuration, the SICAM PQ analyzer accesses the data of the (source) archives or (collector) archives for archive evaluation. The example illustrates the configuration with Full server with (source) archive Archive computer with (collector) archive and licenses for the SICAM PQ Analyzer and Collector 1 to 5 SICAM PQ Analyzer clients. In redundant archive systems, the two SICAM PQ Collectors are connected. In order to accelerate the determining of archive data, the data stored in the two archives is initially compared. The data from that partner archive is integrated, which has already received this data from the connected devices. Afterwards, the SICAM PQ Collector retrieves data from the connected devices, and only transfers data from those devices for which no data has been received via the partner computer. Architecture Full server with (source) archive and SICAM PQ Analyzer System with Full servers with (source) archive SICAM PQ Analyzer clients System with Full servers Archive computers with (collector) archive SICAM PQ Analyzer clients The number of components which can be used in a system depends on the respective license. (Source) archive The full server collects PQ measuring data and fault records from connected devices, and stores them in its local (source) archive. This archive data can be directly evaluated by one or more SICAM PQ Analyzers. (Collector) archive In distributed systems with one or more full servers, the data of the (source) archives is collected by the SICAM PQ Analyzer Collector and stored in a central (collector) archive on an archive computer. This archive data is evaluated by one or more SICAM PQ Analyzers. 3.2/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

61 SICAM PQ Analyzer SICAM PQ Analyzer Collector, architecture and configuration Configuration Operating systems The following operating systems are supported: Windows XP Professional SP3 (32-bit) Windows Server 2003 R2 Standard SP2 (32-bit) Windows 7 Professional SP1 (32-bit or 64-bit) only in Windows-classic design Windows Server 2008 Standard SP2 (32-bit) without Hyper-V only in Windows-classic design Windows Server 2008 R2 Standard SP1 (64-bit) only in Windows-classic design Windows Embedded Standard (SICAM Station Unit V2.20, 32-bit) Hardware requirements Computer with Processor At least Intel Pentium Celeron 1.86 GHz Recommended for SICAM PQS: Intel Core Duo 2 GHz Engineering for large installations: Intel Core 2 Duo 3 GHz RAM size At least 2 GB Recommended for SICAM PQS: 4 GB Engineering of large installations: 4 GB Hard disk capacity At least 2 GB not including archive size Graphics card: At least SVGA (16 MB), Recommended: SXGA (32 MB), Monitor matching graphics card DVD drive Keyboard Mouse USB port for dongle Network interface 3 Note: Computers with multi-core processors are supported. Computers with multi-processor main boards are only supported in single-processor operation. SICAM Substation Automation and RTUs Product Catalog Edition /7

62 SICAM PQ Analyzer Selection and ordering data Description SICAM PQ Analyzer V3.0x Incident Explorer for evaluation of fault records Usage on SICAM PAS full server Up to 5 clients, archive transfer from 1 server/full server Up to 5 clients, archive transfer from up to 5 servers/full servers Up to 5 clients, archive transfer from more than 5 servers/full servers More than 5 clients, archive transfer from 1 server/full server More than 5 clients, archive transfer from up to 5 servers/full servers More than 5 clients, archive transfer from more than 5 servers/full servers Order No. 6MD5530-0AA10-3AA0 6MD5530-0AA10-3BA0 6MD5530-0AA10-3BB0 6MD5530-0AA10-3BC0 6MD5530-0AA10-3CA0 6MD5530-0AA10-3CB0 6MD5530-0AA10-3CC0 3 PQ Basic including Incident Explorer for evaluation of fault records and PQ Explorer Recommended SICAM PAS/PQS Option: Automatic Grid Code Evaluation Usage on SICAM PAS full server Up to 5 clients, archive transfer from 1 server/full server Up to 5 clients, archive transfer from up to 5 servers/full servers Up to 5 clients, archive transfer from more than 5 servers/full servers More than 5 clients, archive transfer from 1 server/full server More than 5 clients, archive transfer from up to 5 servers/full servers More than 5 clients, archive transfer from more than 5 servers/full servers 7KE9000-0BA67-3AA0 7KE9200-0BA10-3AA0 7KE9200-0BA10-3BA0 7KE9200-0BA10-3BB0 7KE9200-0BA10-3BC0 7KE9200-0BA10-3CA0 7KE9200-0BA10-3CB0 7KE9200-0BA10-3CC0 PQ Standard including PQ Basic and enhanced PQ Explorer and Report Browser Recommended SICAM PAS/PQS Option: Automatic Grid Code Evaluation Recommended SICAM PAS/PQS Option: Scheduled PQ Reports Usage on SICAM PAS full server Up to 5 clients, archive transfer from 1 server/full server Up to 5 clients, archive transfer from up to 5 servers/full servers Up to 5 clients, archive transfer from more than 5 servers/full servers More than 5 clients, archive transfer from 1 server/full server More than 5 clients, archive transfer from up to 5 servers/full servers More than 5 clients, archive transfer from more than 5 servers/full servers 7KE9000-0BA67-3AA0 7KE9000-0BA68-3AA0 7KE9200-0CA10-3AA0 7KE9200-0CA10-3BA0 7KE9200-0CA10-3BB0 7KE9200-0CA10-3BC0 7KE9200-0CA10-3CA0 7KE9200-0CA10-3CB0 7KE9200-0CA10-3CC0 PQ Professional: including PQ Standard and PQ Inspector 7 K E D A Usage on SICAM PAS full server AA Up to 5 clients, archive transfer from 1 server/full server B A Up to 5 clients, archive transfer from up to 5 servers/full servers B B Up to 5 clients, archive transfer from more than 5 servers/full servers B C More than 5 clients, archive transfer from 1 server/full server C A More than 5 clients, archive transfer from up to 5 servers/full servers C B More than 5 clients, archive transfer from more than 5 servers/full servers C C Hint for all SICAM PQ Analyzer packages: SICAM PQ Analyzer includes by default the Comtrade Viewer for graphical evaluation of fault records. It can be extended with SIGRA (separate ordering) for enhanced fault record analysis Functional upgrades: Power Quality features 7 K E A A 0 From Incident Explorer to PQ Basic B A From PQ Basic to PQ Standard C B From PQ Basic to PQ Professional DB From PQ Standard to PQ Professional DC Functional upgrades: Number of clients 6 M D A A A 0 Up to 5 clients B More than 5 clients C Functional upgrades: Number of full servers 6 M D A A A 0 Up to 5 full servers B More than 5 full servers C Upgrade from SICAM Recpro V5.x to SICAM PQ Analyzer (Incident Explorer) 6 M D A A A A 0 Version Upgrade SICAM PQ Analyzer 6 M D A A A A 0 3.2/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

63 Flexible control and monitoring system SICAM DISTO Fault recording

64 SICAM DISTO Contents page Description 3.3/3 System platforms/selection and ordering data 3.3/4 3 The technical data can be found in the device manual at: 3.3/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

65 SICAM DISTO Description Description An important function of digital protection is to store disturbance records for more accurate analysis of critical events in the grid. As the memory for such records is limited in the relays, it has proven to be convenient to extract them by use of standardized communication and store them on a hard disk on station level for further use. Serial communication of digital protective devices to substation control systems has been standardized and published as IEC standard protocol Recently, the new standard for power utility communication IEC has added much more flexibility and performance to data exchange with different IEDs. SICAM DISTO (disturbance data storage) is a software package, which recognizes the occurrence of new disturbance records in the connected protection relays, fetches them by means of substation communication, and stores them in preconfigured directories on the hard disk of a PC. For easy analysis with different tools, DISTO uses the standardized COMTRADE format for all the files (according to IEC ). Whereas DISTO has to translate incoming disturbance records from IEC into COMTRADE, the transmitted files in IEC are already in the right format. Some protection relays send COMTRADE files packed in zip files over IEC SICAM DISTO recognizes such files and unpacks them into the right directories. Using IEC 61850, SICAM DISTO expects the transmission of fault records per MMS. The option with FTP is not supported. If using IEC , DISTO prepares in addition an event list with all protection-relevant information, such as fault number, fault distance etc., both with absolute and relative real time (within a storing disturbance). The stored files contain the time-dependent behavior of currents and voltages before, during and after a disturbance in the grid, plus additional events (e.g. trips). These data can be displayed as graphs on screen using SIGRA or other software tools with analyzing functions. For accessing the communication to the relays, DISTO makes use of SICAM 230 or 250 SCALA and their integrated communication drivers. Remote access to the stored files is available by use of standard tools of the operating system. 3 Station HMI with SICAM DISTO Legend: Fault record transmitted over -103 Fault record transmitted over Fault record transmitted over -104 (container) IEC IEC IEC IEC IEC IEC Station control device SICAM AK or SICAM TM IEC IEC Protection devices in bays IEC Figure 3.3/1 SICAM DISTO, configuration example SICAM Substation Automation and RTUs Product Catalog Edition /3

66 SICAM DISTO System platforms/selection and ordering data SICAM DISTO is available for the following system platforms: Description Basic system Host system Win XP - PC Windows (see table below) SICAM 230 (or 250 SCALA) SICAM DISTO OS Windows 2000 Windows XP Windows Server 2003 Windows Vista Windows Server 2003 Windows bit 32-bit 32-bit 32/64-bit 32/64-bit 32/64-bit V SP2 SP2 V SP3 SP2 V SP3 SP2 V 2.40 SP3 SP2 V 2.41 SP3 There are only differences concerning the system prerequisites. Partially, there are minor design differences between the platforms (all screenshots in this manual are taken from Win XP - PC), but functionality is identical. The host system is used as interface to the automation system, i.e. all those interfaces to the automation system that the respective host system offers can also be used for transferring disturbance record data. Depending on the platform used, there are various prerequisites which must be fulfilled in order to be able to begin the installation of SICAM DISTO. Platform Win XP - PC Requirements Windows operating system installed SICAM 230 (PROT) or 250 SCALA installed Description Variants Order No. SICAM DISTO VZ M F C A A A 1 SICAM DISTO UPDATE VZ M F C A A A 1 3.3/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

67 Flexible control and monitoring system SICAM Diamond The clever alternative to the operator station

68 SICAM Diamond Contents page Description 3.4/3 Selection and ordering data 3.4/6 3 The technical data can be found in the device manual at: 3.4/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

69 SICAM Diamond Description Description SICAM Diamond is a visualization and diagnosis system suitable for use with both Siemens telecontrol and station control technology. It is designed for substations which require a low-cost, simple-to-use, easily configured operating and monitoring system. The use of modern web technology allows the substation to be monitored from any location without the installation of special software. Figure 3.4/1 Event list SICAM Diamond: for substations with decentralized station control technology In the past, stations with operating and monitoring workplaces were usually installed in central substations, which were often manned around the clock. As cost pressure increased, however, the use of these local operator terminals was increasingly dispensed with, which meant that the substation had to be operated in the field with no overall view of the plant. The low-cost SICAM Diamond, offering diagnostic functions in addition to ease of operation and monitoring, was therefore developed to supplement the very convenient SICAM SCC visualization system. SICAM Diamond: for substations with centralized telecontrol technology The hallmarks of classic telecontrol technology are the parallel, central process link and the data transmission to a higher-level network control center. Operating and monitoring systems are usually not provided and diagnosis of the telecontrol substation is only possible to a limited extent. In an emergency, these stations are always controlled via an on-site switch panel. As this happens very rarely and there is no station-wide visualization, operating errors may possibly occur. Modern telecontrol devices such as the SICAM ertu and the higher-level visualization and telecontrol diagnostics system SICAM Diamond now allow low-cost, user-friendly operation and diagnostics for these substations as well. This applies both to the industrial sector and to network operators (municipal utility companies, energy providers). Systematic monitoring: SICAM Diamond SICAM Diamond is a web-based operating and monitoring system and uses a modern client/server architecture. The clients are platform-independent all they need is a web browser in order to access substations. This minimizes costs and the amount of resources required. This means that existing intranet and Internet infrastructures can be used for data exchange. The Diamond server acts as data source and contains an Admin tool which regulates data administration and user rights. 3 Figure 3.4/2 Single-line diagram SICAM Substation Automation and RTUs Product Catalog Edition /3

70 SICAM Diamond Description 3 In addition to the diagnostic functions, SICAM Diamond provides a number of other functions for operating and monitoring the process: The process and system status messages as well as the switching actions are logged every millisecond to an event list. Selected messages can be routed to an alarm list that can be configured for alarm acknowledgement. Archiving: The content of the event list as well as measured values and count values combined in groups can be archived in month-specific files for a period of 12 months. The archive files can be downloaded via the intranet/internet and further analyzed, for example in Microsoft Excel. SICAM Recpro saves the fault records automatically called up from the protective devices via SICAM PAS to a fault record archive. This archive can be accessed via the intranet/internet using SICAM Diamond for visualization, analysis and downloading. Graphical system diagrams can be generated for system management using an optional single-line editor. Unlike conventional operating and monitoring systems, SICAM Diamond can be configured quickly and without a long training period even by less experienced users. Figure 3.4/3 Single-line Editor SICAM Diamond Clients SICAM Diamond Clients SICAM Diamond Server SICAM Diamond Server TCP/IP Intranet Internet TCP/IP Intranet Internet SICAM PAS Station Unit SICAM ertu SICAM STATION UNIT Figure 3.4/4 SICAM Diamond with SICAM PAS station control technology Figure 3.4/5 SICAM Diamond with SICAM ertu telecontrol technology 3.4/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

71 SICAM Diamond Description SICAM Diamond: configuration made easy The basic configuration for SICAM Diamond is obtained by importing the export files that are generated from the planning tools of a Siemens telecontrol device or station control technology device. Thus, all relevant process variables are available in the event list, the alarm list and the process image. This reduces the effort for setting the parameters for SICAM Diamond to the creation of system diagrams, as well as to the selection of messages for inclusion in the alarm list and of measured values for archiving. More than access protection: the Admin tool Access rights to SICAM Diamond can be administered using the Admin tool. In this way, different users can be given the appropriate rights. The Admin tool can also be used to integrate and configure the energy distribution plant that is to be displayed. Status information provides the operator with a quick overview of the system status. Visualization at its simplest: the single-line editor This tool can be used to create single-line diagrams quickly and easily using the symbols and typical elements provided. They are integrated into the diagram using drag and drop. Different colors can be selected for the visualization of the switching statuses ON, OFF, FAULT and to display the system status of the links. Perfect analysis: the diagnostics tool The SICAM Diamond diagnostics tool can be used to monitor the main components and functions of the telecontrol or station control technology. The system provides detailed information on process variables, the components used and communication links. Switching commands can also be executed in a list view without the optional single-line display, which can be extremely useful during commissioning and configuration. SICAM Diamond for operation and monitoring the benefits: Reliable implementation of switching actions thanks to a comprehensive overview of the station Cost- and resource-optimized access to substations via web-based clients Higher operating safety thanks to uniform, intuitive user interface Simple configuration through the use of automatically generated import files Reliable, in-depth diagnosis possible by every client Simple administration of access rights with the Admin tool Simple to adapt and adjust if the station is extended/ modified Figure 3.4/6 Admin tool Figure 2.4/8 Diagnose SICAM PAS, Full Server Figure 3.4/7 Diagnosis SICAM ertu, CPU 3 SICAM Substation Automation and RTUs Product Catalog Edition /5

72 SICAM Diamond Selection and ordering data Description Order No. Complete packages for PQ Archives 6MD5520-0AA00-4AA0 for PQ Archives and SICAM PAS/PQS (Diagnostics, Event list) 6MD5520-0AA10-4AA0 for SICAM ertu (Diagnostics, Event list) 6MD5520-0AA20-4AA0 incl. graphical Monitoring & Control (Single Line) for PQ Archives and SICAM PAS/PQS (Diagnostics, Event list) 6MD5520-0AA30-4AA0 incl. graphical Monitoring & Control (Single Line) Functional upgrades License for SICAM PAS/PQS (Diagnostics, Event list) 6MD5520-0AB10-4AA0 License for graphical Monitoring & Control (Single Line) 6MD5520-0AB20-4AA0 Version upgrade to V4.0 + HF1 6MD5520-3AA00-4AA0 Ordering note: Precondition for the functional upgrade is the package 6MD5520-0AA00-4AA /6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

73 Flexible control and monitoring system SICAM 230 The control center system for every job

74 SICAM 230 page Description 3.5/3 Selection and ordering data 3.5/6 3 The technical data can be found in the device manual at: 3.5/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

75 SICAM 230 Description 3 Figure 3.5/1 Control center system SICAM 230 Description All energy suppliers whether they provide electricity, natural gas, water, or district heating face ever greater and more complex demands as they implement new energy mixes. SICAM 230 is a scalable system for a broad range of applications and can be used from an integrated energy system for utility companies to a monitoring system for smart grid applications. The SICAM 230 architecture is completely consistent from the on-site controls to the redundant multi-hierarchic control system. New in the control room: SICAM 230 supports multi-touch controls. Use familiar gestures such as swipe or zoom for optimal control to move or zoom in on a world view, for example. Adaptable multi-screen concept: SICAM 230 allows different monitor configurations within a single project. Screen layouts and user concepts can be tailored to the individual. The user interface and display elements of system windows such as lists, trend charts, and log outputs can be parameterized, so users see only those features relevant to the processes they monitor. Systematic locking mechanisms at the operating system level ensure secure operation, blocking unauthorized access to other system functions. Installing SICAM 230 is comparable to configuring standard software such as the Microsoft Office Suite. OPM II is the ideal tool to create and maintain the basic data model. This object-oriented process data manager is part of the SICAM TOOLBOX II engineering software for the entire SICAM product family. SICAM Substation Automation and RTUs Product Catalog Edition /3

76 SICAM 230 Description 3 Topology modeling SICAM 230 lets you display so-called world views, which model the entire network topology down to the last detail. The full world view is larger than the monitor, of course, so SICAM 230 offers different zoom levels for varying degrees of detail. In the event of an error, one can see immediately what has happened and where. Special colors highlight ground faults and short circuits in the network map, for example. If the SICAM 230 control system is directly coupled with protective equipment, the site of trouble can be quickly isolated. Project editor The SICAM 230 editor helps to create and manage control center projects through convenient tools for fast response times, a high level of transparency in complex projects, the option of maintaining multiple projects simultaneously. Alarm and event handling SICAM 230 provides flexible reaction matrixes with standardizable processing objects to help optimize the handling of alarms and events to user-specific needs. The user determines whether to output alarms and events to lists or logs and/or export them to a file format. When SICAM 230 is used in unstaffed control rooms, it sends out alarms through a message module, by text message, voice mail or . Figure 3.5/2 World view Figure 3.5/3 Editor Figure 3.5/4 Alarm list 3.5/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

77 SICAM 230 Description Logging and archiving features Flexible reporting is an essential component of any control system. SICAM 230 s Easy Energy Reporting requires no special expertise. Standardized layouts based on Microsoft Excel are available for all areas. Use daily, monthly or annual logs to generate manual or cyclical reports from the SICAM 230 archive even save them directly to PDF. In addition to the reports, SICAM 230 also offers an archive editor with the following features: Manual correction of corrupted/invalid archive data Linear interpolation Copy and paste function for archive data Energy distribution calculation The deployment and expansion of renewable energies is accompanied by shifts in the direction of the energy flow. On certain days, energy may be fed from cities and towns back into the high-voltage grid of upstream energy companies. Public utilities typically lack the tools needed to properly calculate the flow in demand. SICAM 230 calculates energy distribution using a simplified, single-phase, strictly ohmic model without the phase angle. During the multi-step command, the system calculates the future grid status and alarms the user if there is a risk of overload. The Simulation add-on module lets the user run various scenarios in advance to preview the expected energy distribution offline. Seamless documentation From request to approval and planning to implementation, all the necessary transactions are displayed in one user-friendly workflow and are seamlessly documented. The layouts and documentation expressions can be easily customized in Microsoft Word. Automation platform The growth of decentralized energy producers, the requirements placed on energy companies and the expected rise in the number of electric vehicles all require increased automation of the distribution network. It s impossible to rule out disruptions in the energy supply and lapses in the permitted quality of the electrical voltage, but these events must always be monitored and logged. Data is provided by smart meter systems such as Siemens AMIS, compact telecontrol stations such as SICAM MIC, EMIC and CMIC, and power quality measuring devices such as SICAM P. All that is required is that this information be collated at a central point or passed along to other systems. SICAM 230 is the ideal platform for such a data hub, offering a large selection of protocols, open interfaces, and an integrated archiving system. Multi-hierarchic system SICAM 230 offers special features to help establish distributed control systems: Automatic synchronization of hierarchic control centers when parameters change Global, system-wide parameters Administration of unique access rights across all process levels Process information tailored to each specific level Each level can also be configured redundantly for even greater system availability. Condition monitoring Energy grids are under increasing demands, maintenance budgets are falling, and the infrastructure continues to age, posing new operation and maintenance challenges. Responding to an outage or error is often only an emergency strategy. Decades ago, automation made our energy grids more reliable and easier to operate. Now, a new dimension of reliability has arrived: online monitoring of key equipment. SICAM 230 supports with integrated condition monitoring solutions for: Transformers Circuit breakers Cable and ground separators SF₆ gas Auxiliary switches Overhead lines Cables Surge arresters EEG Manager EEG Manager is the customized infeed management solution for all municipal utilities and distribution-system operators. The manager supports the planning, notification and implementation of EEG infeed reduction (German 11 EEG). Special attention is put on the complete documentation and an extensive reporting. 3 SICAM Substation Automation and RTUs Product Catalog Edition /5

78 SICAM 230 Selection and ordering data 3 Description SICAM 230 6MF18 Version 7 SRX Server SRX 500 Basic Server SRX 750 Server SRX 2500 Server SRX 5000 Server SRX SRXR REDUNDANCY Server SRXR 2500 REDUNDANCY Server SRXR 5000 REDUNDANCY Server SRXR Server without VIS Server PROT Server GATEWAY DEDICATED Server Client CLIENT C Web-Server Web-Server 1 Web-Server 3 Web-Server 5 Web-Server 10 Web-Server 25 Web-Server 50 Web-Server 100 Web-Server PRO Web-Server PRO 1 Web-Server PRO 3 Web-Server PRO 5 Web-Server PRO 10 Web-Server PRO 25 Web-Server PRO 50 Web-Server PRO 100 Web-Server PRO 3 Basic Web-Server Terminal-Server Web-Terms-CL-1 Web-Terms-CL-3 Web-Terms-CL-5 Web-Terms-CL-10 Web-Terms-CL-25 Web-Terms-CL-50 Web-Terms-CL-100 Order No. 6MF1807-0GD38-0AA1 6MF1807-0GD38-0AA1 6MF1807-0GB01-0AA1 6MF1807-0GB02-0AA1 6MF1807-0GB03-0AA1 6MF1807-0GB04-0AA1 6MF1807-0GB05-0AA1 6MF1807-0GB060-AA1 6MF1807-2GB00-0AA1 6MF1807-0GB21-0AA1 6MF1807-0GE65-0AA1 6MF1807-0GB08-0AA1 6MF1807-0GB58-0AA1 6MF1807-0GB10-0AA1 6MF1807-0GB11-0AA1 6MF1807-0GB12-0AA1 6MF1807-0GB13-0AA1 6MF1807-0GC34-0AA1 6MF1807-0GC35-0AA1 6MF1807-0GB37-0AA1 6MF1807-0GB38-0AA1 6MF1807-2GB30-0AA1 6MF1807-0GB40-0AA1 6MF1807-0GB41-0AA1 6MF1807-0GC36-0AA1 6MF1807-0GC37-0AA1 6MF1807-0GD48-0AA1 6MF1807-0GC42-0AA1 6MF1807-0GC43-0AA1 6MF1807-0GC44-0AA1 6MF1807-0GC45-0AA1 6MF1807-0GC46-0AA1 6MF1807-0GC47-0AA1 6MF1807-0GC48-0AA1 3.5/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

79 SICAM 230 Selection and ordering data Description SICAM 230 6MF18 Version 7 Options Editor Topology Report generator Fault location NWM LIGHT NWM 230 ARCHIVE EXTENDED TREND OPC UA Server OPC Server MESSAGE CONTROL Process Control Engine Production & Facility Scheduler SQL Server SEQ&SIM Current Distr. Calc. Switching Administration Easy Energy Report EEG Manager STRATON-256 STRATON-OPEN STRATON-256 Standalone STRATON-OPEN Standalone Recipe Group Manager EMS Open EMS Open Red EMS 15 MW EMS 15 MW Open Red Recipe Group Manager Text-to-Speech-Engine MODBUS Slave SQL Online SICAM 230 DNP3 Slave LICENCE DRIVER CAT A LICENCE DRIVER CAT B Dongle LICENCE DRIVER CAT C USB-Dongle Ver. 7.X Miscellaneous Security Pack Subscri. 1Y 5Computer SICAM 230 INSTALL DVD all versions HANDLING FEE HANDLING FEE CUSTOMER/PROJECT NAME CHANGE SICAM 230 embedded SICAM 230 emb. PC 1024 SICAM 230 emb. PC 2048 SICAM 230 emb. PC ARV & erw. Trends SE Order No. 6MF1807-0GB14-0AA1 6MF1807-2GB10-0AA1 6MF1807-0GB17-0AA1 6MF1807-0GB81-0AA1 6MF1807-2GB50-0AA1 6MF1807-0GB20-0AA1 6MF1807-0GB26-0AA1 6MF1807-0GB27-0AA1 6MF1807-0GD43-0AA1 6MF1807-0GB33-0AA1 6MF1807-0GB16-0AA1 6MF1807-0GB34-0AA1 6MF1807-0GB42-0AA1 6MF1807-0GB53-0AA1 6MF1807-0GB61-0AA1 6MF1807-0GD51-0AA1 6MF1807-0GD52-0AA1 6MF1807-0GD53-0AA1 6MF1807-0GD62-0AA1 6MF1807-0GB70-0AA1 6MF1807-0GB71-0AA1 6MF1807-0GB72-0AA1 6MF1807-0GB73-0AA1 6MF1807-0GC82-0AA1 6MF1807-0GD21-0AA1 6MF1807-0GD22-0AA1 6MF1807-0GD23-0AA1 6MF1807-0GD24-0AA1 6MF1807-0GE64-0AA1 6MF1807-0GE75-0AA1 6MF1807-0GE76-0AA1 6MF1807-0GE78-0AA1 6MF1807-0GE77-0AA1 6MF1807-0GB54-0AA1 6MF1807-0GB55-0AA1 6MF1807-0GB56-0AA1 6MF1807-0GD55-0AA1 6MF1807-0GD44-0AA1 6MF1807-0GA34-0AA1 6MF1807-0GB45-0AA1 6MF1807-0GE74-0AA1 6MF1807-0GD45-0AA1 6MF1807-0GD46-0AA1 6MF1807-0GD47-0AA1 3 SICAM Substation Automation and RTUs Product Catalog Edition /7

80 SICAM 230 Selection and ordering data 3 Description SICAM 230 6MF18 Updates/Upgrades/Crossgrades Version updates Server SRX Up (SAT No.: V ) REDUNDANCY Server SRXR Up (V ) Client Up (SAT No.: V ) From SRX 500 Basic SRX 500 Basic-Up-SRX 750 SRX 500 Basic-Up-SRX 2500 SRX 500 Basic-Up-SRX 5000 SRX 500 Basic-Up-SRX From SRX 750 Server-Up-SRX 750-SRX 2500 Server-Up-SRX 750-SRX 5000 Server-Up-SRX 750-SRX From SRX 2500 Server-Up-SRX 2500-SRX 5000 Server-Up-SRX 2500-SRX From SRX 5000 Server-Up-SRX 5000-SRX From SRXR Server-Up-SRXR 2500-SRXR 5000 Server-Up-SRXR 2500-SRXR Server-Up-SRXR 5000-SRXR From Prot Server-Up-Prot-SRX 750 Server-Up-Prot-SRX 2500 Server-Up-Prot-SRX 5000 Server-Up-Prot-SRX Server-Up-Prot-Gateway Server-Up-Prot-Dedicated Server From Dedicated Server Server-Up-Dedicated Server-SRX 750 Server-Up-Dedicated Server-SRX 2500 Server-Up-Dedicated Server-SRX 5000 Server-Up-Dedicated Server-SRX From Gateway Server-Up-Gateway-SRX 750 Server-Up-Gateway-SRX 2500 Server-Up-Gateway-SRX 5000 Server-Up-Gateway-SRX Server-Up-Gateway-Dedicated Server From SICAM 230 emb. emb. PC 1024 UP 2048 SICAM 230 emb. PC 2048 UP SRX 2500 Options Top-Up-Topology 5000-Topology EMS 15MW UP OPEN EMS 15MW UP 15MW RED EMS 15MW RED UP OPEN RED EMS OPEN UP OPEN RED NWM-UP-NWM LIGHT/SWL-NWM Order No. 6MF1807-2GB40-0AA1 6MF1807-0GB50-0AA1 6MF1807-0GB51-0AA1 6MF1807-2GD30-0AA1 6MF1807-0GD40-0AA1 6MF1807-0GD41-0AA1 6MF1807-0GD42-0AA1 6MF1807-2GD00-0AA1 6MF1807-0GD10-0AA1 6MF1807-0GD11-0AA1 6MF1807-0GD12-0AA1 6MF1807-0GD13-0AA1 6MF1807-0GD14-0AA1 6MF1807-0GD15-0AA1 6MF1807-0GD16-0AA1 6MF1807-0GD17-0AA1 6MF1807-0GD01-0AA1 6MF1807-0GD02-0AA1 6MF1807-0GD03-0AA1 6MF1807-0GD04-0AA1 6MF1807-0GD00-0AA1 6MF1807-0GE68-0AA1 6MF1807-0GE70-0AA1 6MF1807-0GE71-0AA1 6MF1807-0GE72-0AA1 6MF1807-0GE73-0AA1 6MF1807-0GD05-0AA1 6MF1807-0GD06-0AA1 6MF1807-0GD07-0AA1 6MF1807-0GD08-0AA1 6MF1807-2GE60-0AA1 6MF1807-0GD31-0AA1 6MF1807-0GD50-0AA1 6MF1807-0GD20-0AA1 6MF1807-0GD25-0AA1 6MF1807-0GD26-0AA1 6MF1807-0GD27-0AA1 6MF1807-0GD28-0AA1 6MF1807-2GD10-0AA1 3.5/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

81 SICAM 230 Selection and ordering data Description SICAM 230 6MF18 Updates/Upgrades/Crossgrades From Web-Server Web-Server-Up-1-3 Web-Server-Up-1-5 Web-Server-Up-1-10 Web-Server-Up-1-25 Web-Server-Up-1-50 Web-Server-Up Web-Server-Up-3-5 Web-Server-Up-3-10 Web-Server-Up-3-25 Web-Server-Up-3-50 Web-Server-Up Web-Server-Up-5-10 Web-Server-Up-5-25 Web-Server-Up-5-50 Web-Server-Up Web-Server-Up Web-Server-Up Web-Server-Up Web-Server-Up Web-Server-Up Web-Server-Up From Web-Server to Web-Server Pro Web-Server 1-Up-Web-WebServer Pro 1 Web-Server 3-Up-Web-WebServer Pro 3 Web-Server 5-Up-Web-Web Server Pro 5 Web-Server 10-Up-Web-Web Server Pro 10 Web-Server 25-Up-Web-Web Server Pro 25 Web-Server 50-Up-Web-Web Server Pro 50 Web-Server 100-Up-Web-Web Server Pro 100 Web-Server Pro Web-Server Pro-Up-1-3 Web-Server Pro-Up-1-5 Web-Server Pro-Up-1-10 Web-Server Pro-Up-1-25 Web-Server Pro-Up-1-50 Web-Server Pro-Up Web-Server Pro-Up-3-5 Web-Server Pro-Up-3-10 Web-Server Pro-Up-3-25 Web-Server Pro-Up-3-50 Web-Server Pro-Up Web-Server Pro-Up-5-10 Web-Server Pro-Up-5-25 Web-Server Pro-Up-5-50 Web-Server Pro-Up Web-Server Pro-Up Web-Server Pro-Up Web-Server Pro-Up Web-Server Pro-Up Web-Server Pro-Up Web-Server Pro-Up Web-Server PRO 3 BASIC-Up-Pro 3 From Web-Server Pro to Terminal-Server Web Pro-Web Terms Crossgrade Order No. 6MF1807-0GD32-0AA1 6MF1807-0GD33-0AA1 6MF1807-0GD34-0AA1 6MF1807-0GD35-0AA1 6MF1807-0GD36-0AA1 6MF1807-0GD37-0AA1 6MF1807-0GE00-0AA1 6MF1807-0GE01-0AA1 6MF1807-0GE02-0AA1 6MF1807-0GE03-0AA1 6MF1807-0GE04-0AA1 6MF1807-0GE05-0AA1 6MF1807-0GE06-0AA1 6MF1807-0GE07-0AA1 6MF1807-0GE08-0AA1 6MF1807-2GE00-0AA1 6MF1807-0GE10-0AA1 6MF1807-0GE11-0AA1 6MF1807-0GE12-0AA1 6MF1807-0GE13-0AA1 6MF1807-0GE14-0AA1 6MF1807-0GE57-0AA1 6MF1807-0GE58-0AA1 6MF1807-2GE50-0AA1 6MF1807-0GE60-0AA1 6MF1807-0GE61-0AA1 6MF1807-0GE62-0AA1 6MF1807-0GE63-0AA1 6MF1807-0GE15-0AA1 6MF1807-0GE16-0AA1 6MF1807-0GE17-0AA1 6MF1807-0GE18-0AA1 6MF1807-2GE10-0AA1 6MF1807-0GE20-0AA1 6MF1807-0GE21-0AA1 6MF1807-0GE22-0AA1 6MF1807-0GE23-0AA1 6MF1807-0GE24-0AA1 6MF1807-0GE25-0AA1 6MF1807-0GE26-0AA1 6MF1807-0GE27-0AA1 6MF1807-0GE28-0AA1 6MF1807-2GE20-0AA1 6MF1807-0GE30-0AA1 6MF1807-0GE31-0AA1 6MF1807-0GE32-0AA1 6MF1807-0GE33-0AA1 6MF1807-0GE34-0AA1 6MF1807-0GE35-0AA1 6MF1807-2GD40-0AA1 6MF18072GC400AA1 3 SICAM Substation Automation and RTUs Product Catalog Edition /9

82 SICAM 230 Selection and ordering data 3 Description SICAM 230 6MF18 Updates/Upgrades/Crossgrades Web-Server Terminal-Server Terminal-Server-Up-1-3 Terminal-Server-Up-1-5 Terminal-Server-Up-1-10 Terminal-Server-Up-1-25 Terminal-Server-Up-1-50 Terminal-Server-Up Terminal-Server-Up-3-5 Terminal-Server-Up-3-10 Terminal-Server-Up-3-25 Terminal-Server-Up-3-50 Terminal-Server-Up Terminal-Server-Up-5-10 Terminal-Server-Up-5-25 Terminal-Server-Up-5-50 Terminal-Server-Up Terminal-Server-Up Terminal-Server-Up Terminal-Server-Up Terminal-Server-Up Terminal-Server-Up Terminal-Server-Up Order No. 6MF18070GE360AA1 6MF18070GE370AA1 6MF18070GE380AA1 6MF18072GE300AA1 6MF18070GE400AA1 6MF18070GE410AA1 6MF18070GE420AA1 6MF18070GE430AA1 6MF18070GE440AA1 6MF18070GE450AA1 6MF18070GE460AA1 6MF18070GE470AA1 6MF18070GE480AA1 6MF18072GE400AA1 6MF18070GE500AA1 6MF18070GE510AA1 6MF18070GE520AA1 6MF18070GE530AA1 6MF18070GE540AA1 6MF18070GE550AA1 6MF18070GE560AA1 3.5/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

83 Flexible control and monitoring system Engineering

84 Engineering Contents 4. Engineering page 4.1 SICAM TOOLBOX II 4.1/3 4.2 SICAM Protocol Test System 4.2/1 4.3 DIGSI 4 see SIPROTEC 4 Catalog 4.4 DIGSI 5 see SIPROTEC 5 Catalog 4 4.1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

85 4 Flexible control and monitoring system SICAM TOOLBOX II The integrated engineering system

86 SICAM TOOLBOX II Contents page System overview 4.1/5 Benefits 4.1/8 Selection and ordering data 4.1/9 4 The technical data can be found in the device manual at: 4.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

87 SICAM TOOLBOX II System overview 4 Figure 4.1/1 The integrated engineering system More performance with one tool Today, engineering has become an important cost factor, not only in the creation of new plants but also for maintaining existing facilities and updating databases. With the integrated engineering system TOOLBOX II, we offer you a comprehensive and cost-saving solution for these applications. An integrated tool SICAM TOOLBOX II provides all functions for integrated and standard engineering throughout the entire plant, e.g.: Data collection, data modeling, configuration, and parameterization Engineering of process information for the automation and central control-room systems Administration of the systems and individual parameters of third-party manufacturers. SICAM TOOLBOX II is an ideal tool for plants and systems of all sizes. Current operating systems supported In addition to Windows XP Professional and Server 2003, SICAM TOOLBOX II V 5.0 also supports the Windows Vista, Windows 7 Professional, and Windows Server 2008 R2 operating systems. Object orientation: working faster and more reliably With the introduction of object orientation, the designer can describe actual units and equipment in the project planning process and can employ them in the engineering process as defined objects. These can, for example, be individual components like pumps and circuit breakers, but they can also be larger units like branch feeders. In particular, when a plant is made up of a multitude of primary technical units and equipment of identical type (for example, transformer substations, hydropower plants, and pipelines), object orientation offers the potential for substantial savings. In parallel, the error rate also drops, because by generating process-technical objects with SICAM TOOLBOX II, equipment design moves to the background. This means that designers no longer need to be concerned with a large number of individual signals. Instead, they can concentrate on their actual task, which is the engineering of the plant. In order to make full use of this advantage, the objects can be defined with absolute freedom, with no restrictions with respect to industry-specific applications. SICAM Substation Automation and RTUs Product Catalog Edition /5

88 SICAM TOOLBOX II System overview Control system SICAM TOOLBOX II NTP SICAM TM Central unit: Local input/ output Central processing SICAM AK Data node Front end Gateway 4 SICAM TM Turbine controller Power plant management Automation and control SICAM TM Telecontrol substation: Local processing Decentralized data acquisition IEC , IEC SICAM AK Station control unit: Process interfacing (serial, wide) Node function Automatic functions SICAM MIC SICAM EMIC Radio, fiber optics, cable etc. IEC Multi-point traffic Figure 4.1/2 Configurations SICAM TOOLBOX II leaves all the options open to you in terms of network ability and work-sharing work modes, from single workstations to complex network solutions in which several designers work on several projects in parallel. The work-sharing function even allows a number of designers to work simultaneously on a project even if the individual TOOLBOX II PCs are not networked together. The shared databases are then merged at a later time in a simple, user-friendly manner. Engineering in the Web The multiple functions for SICAM TOOLBOX II can also be used on the Internet or intranet without restriction with the same ergonomic user interface as local installations. The web functions integrated in SICAM TOOLBOX II allow users to work in Internet Explorer with no familiarization necessary. For this application, SICAM TOOLBOX II does not even need to be installed locally on the control PC. All functions run on the corresponding Windows terminal server and can be operated using a web browser. The core element of SICAM TOOLBOX II s data management is a central database to which all SICAM TOOLBOX II tools have access and in which all information is stored. Once information has been entered, it is available to all employees on a project and to all tools immediately, and is kept up to date at all times. This reduces the error rate, avoids duplicated entries, and so cuts engineering costs. 4.1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

89 SICAM TOOLBOX II System overview Functions for the SICAM automation systems In a SICAM RTU automation network, TOOLBOX II enables project planning, loading, system diagnosis, system testing, and documentation of the automation and telecontrol functions for local and remote automation units. All functions can be executed via the automation system s communication pathways (in other words, without a separate cable). This makes it a very simple matter to test the plant and to start it up. TOOLBOX II s integrated diagnostics options make it possible to locate and correct any errors quickly and reliably, thereby considerably increasing the availability of the system as a whole. In the event of an error, the detailed diagnosis gives you comprehensive plain-text information and informs you of possible causes and ways to correct them. Remote maintenance allows access to automation systems by phone, via modem, ISDN, TCP/IP, and other paths from any location whatsoever, and therefore lays the foundation for corresponding services. For data simulation purposes, telegrams of any kind can be defined in a menu-guided procedure and in this way simulated in the automation system. Logging points can be selected with graphical support in order to trace the data flow. Corresponding telegram filters ensure that only the relevant telegrams are displayed for each test. PLC applications The linking and control applications are created in TOOLBOX II with CAEx plus. This efficient tool is an attractive combination of a fully graphical user interface and intuitive operation, which results in short familiarization periods and minimized expenditures for training. CAEx plus is fully integrated in TOOLBOX II and enables you to generate IEC compliant application programs easily and efficiently. Using the standard function plans enables fast, errorfree programming with standardized application programs. The transparent, clearly organized operating structure ensures fast, efficient work that is further enhanced by a host of easy-to-use functions. Examples of these functions are the project explorer, the intuitive function plan editor, the navigator, and documentation management. The detailed online help function provides assistance at all times in case any aspects are unclear. CAEx plus also includes comprehensive and user-friendly test options. The purpose of the offline test is to test the application program in near-real time regardless of the automation system. The program can then be tested with the automation system in the online test. Functions for central control-room systems The process data points in the central control-room systems and local HMIs (like SICAM SCC) and their attributes can be defined and parameterized with SICAM TOOLBOX II. Attributes are taken over from the SICAM RTU automation system without redundancy, thanks to the use of SICAM TOOLBOX II references. Among other things, that frees the designer from having to enter the telegram address for the central controlroom system. The application of TOOLBOX II formulae also offers the option of automatically calculating the central control-room system s attributes, which speeds up the engineering process and cuts the error rate to a minimum. The text address is also generated automatically. Functions for third-party systems The open interface to third-party systems of any kind is an important feature of SICAM TOOLBOX II. Data can be exported and third-party data imported via this interface. Exported data can be converted with any kind of program for possible automatic post-editing. Importing of third-party data can also be implemented using batch control, in other words, without actually using SICAM TOOLBOX II. In addition to storing individual attributes, signals and any higher-value objects can also be created: for example, a branch circuit, pump, or circuit breaker. This also makes it very easy to transfer old data into SICAM TOOLBOX II. It is also possible to define and administer third-party system parameters as well as general parameters. The designer can personally define the attributes of the customer project, for example, the parameters of third-party manufacturers. Aside from all SICAM TOOLBOX II standard processing operations, these self-defined parameters can also be used, for example, for processing dimensions, for references and formulae, and for work-sharing engineering. 4 SICAM Substation Automation and RTUs Product Catalog Edition /7

90 SICAM TOOLBOX II Benefits Configuration server/client SICAM TOOLBOX II Client 1 Configuration web engineering Remote Client 1 SICAM TOOLBOX II Server SICAM TOOLBOX II Client 2 SICAM TOOLBOX II Server & Web server Remote Client 2 LAN/WAN LAN/Internet SICAM TOOLBOX II Client 3 Remote Client 3 Figure 4.1/3 SICAM TOOLBOX II server/client/configurations 4 SICAM TOOLBOX II overview of the benefits Integrated system One tool for all systems Third-party systems Standard engineering throughout Scalable Object orientation Straightforward, transparent engineering Improved engineering quality Increased engineering efficiency Lower costs for engineering Standard data storage throughout Central database Less work for data input No duplicated entries Fewer input errors Engineering of the technical process Reduction of initial generation time More rational and efficient engineering Functions for SICAM automation systems Simple system test online and offline Plain-text fault diagnosis Remote maintenance Logging and simulation of telegrams Local and remote functions Functions for central-room center systems Engineering of process variables Non-redundant data input (for example, transfer of the SICAM RTU telegram address) Automatic generation of attributes with formulae Automatic generation of the text address Generation of the database Context-sensitive loading of SICAM TOOLBOX II from the system display of the control-room system Functions for PLC applications Completely graphical user interface Object-oriented Compliance with IEC standard Simple offline/online test Functions for third-party systems Open interface Import and export of engineering data Simple transfer of existing data All attributes self-definable in the customer project 4.1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

91 SICAM TOOLBOX II Selection and ordering data Description Variants Order No. SICAM TOOLBOX II FULL 6 M F A 0 Version Version Version License Single-site FULL Server 3 Package No package A SICAM TOOLBOX II Standard B (=EM II & PSR II & OPM II & CAEx plus) SICAM TOOLBOX II Basic C (=EM II & PSR II & OPM II) SICAM TOOLBOX II Administration (=EM II) D SICAM TOOLBOX II Service M (=EM II & PSR II) Add-on packages No add-on package A TBII Live update L TBII_Server No server 0 2 users users users users users users TBII_Web-Basic No web 0 2 users users users users users 3 7 TBII-Web-CAEx plus No web-caex Plus 0 2 users users users users users 3 7 TOOLSET CAEx II No toolset A TBII-CAEx II X SICAM TOOLBOX II LIGHT 6 M F A 0 Version Version Version License Single-site LIGHT Package No package A SICAM TOOLBOX II Standard B (=EM II & PSR II & OPM II & CAEx plus) SICAM TOOLBOX II Basic C (=EM II & PSR II & OPM II) SICAM TOOLBOX II Administration (=EM II) D SICAM TOOLBOX II Service (=EM II & PSR II) M Add-on packages No add-on package A TBII Live-Update L TOOLSET CAEx II No toolset A TBII-CAEx II (SK RTU & Ax RTU) X SICAM Substation Automation and RTUs Product Catalog Edition /9

92 SICAM TOOLBOX II Selection and ordering data Description Variants Order no. SICAM TOOLBOX II Update 6 M F A A 0 Version Version Version License Update 0 0 Package No package A Update LIGHT V4.10/V5.0 V5.0/V5.10 L Update FULL V4.10/V5.0 V5.0/V5.10 F Add-on packages No add-on package A TBII Live-Update L TBII-Update_Server No server 0 2 users F 2 3 users F 3 5 users F 5 10 users F 6 25 users F users ( v5.10) F 8 4 TBII-Update_Web No web 0 2 users F 2 3 users F 3 5 users F 5 10 users F 6 25 users F 7 SICAM TOOLBOX II Extra & Upgrade 6 M F A A 0 Extra TBII Dongle Exchange CAEx plus H C TBII Dongle Exchange CAEx II H X TOOLSET Upgrade (LIGHT FULL) No toolset TBII_Upgrade_EM II LIGHT FULL G E TBII_Upgrade_PSR II LIGHT FULL G S TBII_Upgrade_OPM II LIGHT FULL G P TBII_Upgrade_CAEx plus LIGHT FULL G C TBII_Upgrade_CAEx II LIGHT FULL G X TOOLSET Upgrade (FULL) TBII_PSR II F S TBII_OPM II F P TBII_CAEx plus F C TBII_CAEx II F X TOOLSET Upgrade (LIGHT) TBII_PSR II L S TBII_OPM II L P TBII_CAEx plus L C TBII_CAEx II L X 4.1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

93 Flexible control and monitoring system SICAM Protocol Test System Testing and simulation according to IEC

94 SICAM Protocol Test System Contents page Description 4.2/3 Functions 4.2/4 Benefits 4.2/7 Selection and ordering data 4.2/8 4 The technical data can be found in the device manual at: 4.2/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

95 SICAM Protocol Test System Description Description Whether you re verifying safety in widely distributed processes for automation of power supply networks, the functioning of new devices, or the interaction of systems from different OEMs, you need to be able to regularly check compliance with international standards such as IEC using suitable testing and protocol systems. Standard protocol IEC was published in 1995 and soon became the standard for serial telecontrol communication in power supply networks. In addition, IEC for serial to protective devices connection and IEC for communication over LAN/WAN have also become generally established. These standard protocols are now supported by every major OEM and required by almost all major equipment users. They allow users, for the first time and at a reasonable cost, to create total solutions providing homogeneous communication structures and data formats for automation networks comprised of systems from different OEMs. Siemens, as a longtime contributor to the work of the IEC, actively helped to define and develop these standards and was therefore ideally placed to fully incorporate these standards into its products at an early stage. Although the standards themselves are long past the development stage, problems still tend to arise during implementation of projects. These are due to slight differences between systems (resulting from varying interpretations of the standard, specific features of the project etc.) and can have significant cost implications. In addition, in many cases, operators will need to test equipment early on in the course of a project although some of the system components or devices are not yet available at that time. SICAM Protocol Test System These imponderables are a thing of the past with the PC-based SICAM Protocol Test System. On the one hand, the system allows you to very easily test and analyze communication between systems that are based on the IEC , -103 and -104 protocols. On the other hand, with the SICAM Protocol Test System, you can also simulate automation devices and thus also test subsystems, even if some devices of the overall system are not in place. For example, the system contains predefined device profiles according to IEC for simulating protection devices. 4 Figure 4.2/1 Creation of filter Figure 4.2/2 Recording SICAM Substation Automation and RTUs Product Catalog Edition /3

96 SICAM Protocol Test System Functions The SICAM Protocol Test System runs on a PC with MS Windows and is used to record and simulate process interfaces. COM ports (V.24/V.28), the optional external hardware (V.24/V.28, X.24/X.27) or an Ethernet interface are used as the interface. Recorded data from unsupported protocols can be displayed in HEX mode. TxD RxD V.24/V.28 RxD TxD 4 Monitoring IEC , -103, PCBU, PCBE Statistics display (number of bytes, number of messages, transmission errors etc.) HEX mode message display option Time tagging of all received messages User-definable process technology address to bit level, including definition storage and loading Plain-text address import of CSV files (data points displayed with their actual names) Online and offline filter tool for IEC messages, type identification, cause of transmission, link address, object address (function type, information number) Individually tailored display format (type identification, time, structure etc.) Storage of recorded data in binary and ASCII formats Loading of stored records for further offline analysis, offline filter included Additional functions when you use SICAM Protocol Test System (IEC 60870) HW: V.24/V.28 or X.24/X.27 interface Bit rates up to 64 kbps Time tagging accurate to within 1 ms Internal or external (isochronic connection) clock pulse SICAM Protocol Test System (IEC 60870) Figure 4.2/3 Monitoring IEC , -103, PCBE & PCBU V.24/V.28 or X.24/X.27 TAKT INT. or EXT COMx TxD RxD COMx X1 X3 COMy X2 RxD TxD SICAM Protocol Test System (IEC 60870) SICAM Protocol Test System (IEC 60870) HW Figure 4.2/4 Monitoring IEC , -103, PCBE & PCBU with external hardware 4.2/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

97 SICAM Protocol Test System Functions If your PC has only one serial interface, as is the case for notebooks without an additional serial PC card, the optional SICAM Protocol Test System (IEC 60870) HW external hardware provides the full functionality of two interfaces. It also provides additional functions such as a logic analyzer, 64 kbps, X.24/X.27 etc. TxD RxD Simulation IEC , -103 Message definition via dialog box from existing records and from imported plain text (e.g. data point tests for automatic generation and transmission of messages from a data point list) Pre-defined control messages (initialization end, general interrogation, counter interrogation etc.) Saving and loading of message definitions Saving and loading of different parameter sets Import option for records taken using Frontline s Serialtest application (time tag included) IEC : send/receive file transfer and COMTRADE File generation option from DKE fault records V.24/V.28 COMx SICAM Protocol Test System (IEC 60870) Figure 4.2/5 Simulation IEC , -103 V.24/V.28 RxD TxD X1 X3 TAKT INT. or EXT X2 SICAM Protocol Test System (IEC 60870) HW 4 COMx SICAM Protocol Test System (IEC 60870) Figure 4.2/6 Simulation IEC , -103 with external hardware SICAM Substation Automation and RTUs Product Catalog Edition /5

98 SICAM Protocol Test System Functions Logic analyzer To use the logic analyzer, you need the SICAM Protocol Test System (IEC 60870) HW external hardware. It offers the following range of features: 4 channels V.28 input voltage level 10,000 signal changes recorded at time resolution of 40 µs (max. 72 hours) Minimum signal pulse duration 20 µs Export of recorded data to file 4 Monitoring and simulation IEC The SICAM Protocol Test System can record all data transferred using the TCP/IP protocol, provided that all such data is freely available to it on the Ethernet, for example, via a hub. This means that the SICAM Protocol Test System cannot be isolated from the systems under test via a switch or router. You have the following options: Additional filtering options when monitoring on serial interfaces, by protocol, IP address, host name and port number Statistics display Simulation of a station on the Ethernet Figure 4.2/7 Logic analyzer TxD RxD RTS DCD X1 X3 RxD TxD DCD RTS X2 SICAM Protocol Test System (IEC 60870) HW COMx SICAM Protocol Test System (IEC 60870) Figure 4.2/8 Logic analyzer V.28 with external hardware SICAM Protocol Test System (IEC 60870) HUB Ethernet TCP/IP Figure 4.2/9 Monitoring and simulation IEC /6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

99 SICAM Protocol Test System Benefits 4 Figure 4.2/10 Protocol Test System (IEC 60870) HW Tried and tested functionality Extensive experience of a wide range of protocols gained through implementation of SICAM RTU automation systems in systems comprising heterogeneous equipment from different OEMs Active participation on various IEC standardization committees Pioneering role in implementation of IEC x standard protocols Simple operation No training required, user-friendly Windows interface Context-sensitive online help Plug & Play installation Monitoring and simulation Simultaneous monitoring of send data from both sides Single remote station simulation for IEC and -104 Simulation of up to 255 remote stations for IEC Simulation of standard protection device profiles (user can add other protection device profiles) Fault record emulation (IEC only) External hardware for PCs requiring only one serial interface Plain-text display Interpreted message display (addresses and user data separated by link layer and user data) Plant name display possible through import of data point lists via CSV import interface SICAM Substation Automation and RTUs Product Catalog Edition /7

100 SICAM Protocol Test System Selection and ordering data Description Variants Order No. SICAM PTS 6 M F A A A 0 License Single-site 0 Package Only Add-on packages 1 Basic (IEC ) 2 Update V5.x V6.0 Add-on packages No Add-on A IEC IEC IEC TLS T Test system 6 M F A A 1 0 A A 1 Test system HW 0 7 Test system cable set /8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

101 Flexible control and monitoring system Bay Controllers

102 Bay Controllers Contents 5. Bay Controllers page 5.1 SICAM BC 5.1/3 5.2 SIPROTEC 6MD6x see SIPROTEC 4 Catalog 5.3 SIPROTEC 6MD8x see SIPROTEC 5 Catalog 5 5.1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

103 Flexible control and monitoring system SICAM BC Integrated Bay Controller

104 SICAM BC Contents page Description 5.1/5 Application overview 5.1/10 System overview 5.1/12 Function overview 5.1/13 Selection and ordering data 5.1/14 5 The technical data can be found in the device manual at: 5.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

105 SICAM BC Description Figure 5.1/1 SICAM BC integrated bay controller 5 Description In the past, control and protection have been completely separated from one another. Only through the use of the same basic technology (micro and signal processors) has it become possible to integrate control and protection functions into one device: SICAM BC integrated bay controller. The ACP (Automation, Control & Protection) system concept has managed the technological prerequisite of uniting the classic tasks measure, control, regulate and protect into a combined device. Fields of application Bay control unit with integrated protection signal voltage DC 110/220 V or DC 48/60 V For direct installation into the bay or a control cubicle From medium up to extra high voltage With SICAM BC, several models are available to meet the requirements in medium-voltage, high-voltage, and extrahigh-voltage applications in an economical way. Through the consequent further development of the reliable SICAM RTU system family the system for integrated automation networks SICAM BC is optimally suitable both for automation functions and protection functions. SICAM Substation Automation and RTUs Product Catalog Edition /5

106 SICAM BC Description 5 SICAM BC Autonomy of control and protection Autonomous functionality of protection and control due to 2-CPU architecture Separate engineering of control and protection is possible No mutual interference of control and protection Versatile communication Up to 3 serial interfaces according to IEC /103 LAN/WAN communication according to IEC and IEC Various third-party protocols possible Easy engineering SICAM TOOLBOX II One tool for control and protection Object orientation Programming of control and interlocking functions according to IEC All engineering tasks can be carried out also from remote Protection parameter can be set also using the operation and display panel Plug & play for spare parts Storing parameters and firmware on a flash card Spare part exchange does not require additional loading with SICAM TOOLBOX II Flash card is also writable via SICAM TOOLBOX II Open system architecture Modular, open and technology-independent system structure System-consistent improvement and therefore an innovative and future-proof product Comprehensive protection functions DTL/IDMTL directional and non-directional Flexible mechanical design and robust environment conditions Rear panel installation, front panel installation, or 19-inch installation Optionally, the operation and display panel can be detached up to 3 m High EMC resistance Large temperature range -25 to +70 C Autonomy of protection and control, redundant power supply Despite the integration in one device, protection and control are capable of functioning independently of one another. The 2-CPU architecture makes this possible, through which availability almost identical with that of separated devices is achieved. Due to the separation, the availability of the protection function is also preserved if a fault or even a total breakdown of the process control occurs. Protection and control can use separated control voltages with separated fuse protection, through which even external faults cannot impair the availability of the protection. Optionally, the power supply can also be designed redundant, through which the availability can be further increased. Figure 5.1/2 Configuration IEC /6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

107 SICAM BC Description Versatile communication capability A further important functionality is the communication capability. With SICAM BC, the consistent implementation of the IEC standard is guaranteed, through which unambiguous addressing, from the data acquisition through to the display at the control center, is enabled. Depending on the configuration, one can select between serial communication according to IEC IEC or a network solution according to IEC or IEC Combinations are naturally also possible. Through the implementation of these IEC standard protocols, a combination with other protective devices from other manufacturers within one station is also possible without any problems. When required, all third-party protocols available in SICAM RTUs (DNP 3.0, Modbus etc.) can also be used. Easy engineering An essential aspect in the overall economical consideration are the costs that occur for the creation, maintenance and service. For this, the reliable SICAM TOOLBOX II is used. Object orientation The object orientation makes it possible to also utilize the same characteristics of same-type primary-technology units Control system and operational equipment (e.g. disconnectors, circuit breakers, feeders etc.) for the configuration. The close coupling with the design tool ensures the consistent, uniform documentation of the entire plant through to the circuit diagram. Through this, considerable rationalization results with engineering. Controls and interlocks according to IEC Control and interlocking functions are created by means of CAEx plus according to IEC , a standard that is generally accepted and recognized in the market. As a result, the training periods are reduced considerably. All engineering tasks can also be carried out remotely All engineering tasks, from the system diagnostics through to the online test, can also be performed remotely with the SICAM TOOLBOX II. For this, no separate communication link between SICAM TOOLBOX II and SICAM BC is necessary: every available communication interface can be used. Using further automation units of the SICAM RTU product family, the SICAM TOOLBOX II can be remotely positioned over an arbitrary number of hierarchies. Separate parameterization of control and protection Due to the autonomous sub-data models defined through the architecture, protection and control functionality can also be parameterized separately (password protection). Consequently, a separation with regard to responsibility and competence is possible for protection and control. SICAM TOOLBOX II 5 Router IEC IEC Router IEC SICAM 230 IEC IEC IEC /IEC IEC SICAM BC SICAM BC SICAM BC SIPROTEC SICAM BC ELIN DRS Figure 5.1/3 SICAM BC: Continuous application of IEC and IEC standards SICAM Substation Automation and RTUs Product Catalog Edition /7

108 SICAM BC Description Comprehensive protection functions In SICAM BC, all classic functions of feeder protection are available. Multi-level executions of the individual functions, various characteristic curves and selectable parameter records permit a finely adjustable adaptation to the object to be protected and to a variety of cases of operation. The autonomous function of the protection ensures the fundamental protection functionality even with a failure of the process control. SICAM BC can be employed in networks with grounded, low-resistance grounded, insulated or compensated neutral end type. Data recording with 32 sampling values per system period Every analog transformer input is sampled 256 times per system period (8-fold oversampling) and supplied to the digital filtering. After the digital filtering, a reduction to 32 sampling values per system period takes place, all of which are recorded in the disturbance record. From this, in addition new results are calculated 16 times per system period, such as root mean square values of voltages and currents, which are supplied to the protection functions. In order to achieve precise calculations for measuring or protection purposes, the acquisition of the signals takes place up to the 8th harmonic order. Designation ANSI code PFO 50/51 PFD 67 EFO 50N/51N EFD 67N SEF 64S IEF 64T FOC 50F NPS 46 UOV 27/59 ROV 59N TOL 49 UUF 81 Designation ANSI code AR 79 SYN 25 F_LOC 21FL RUSH 68 CBF 50BF SOTF 50HS DYN TCS 74TC LOGIC CHECK Main functions Phase-Fault Overcurrent Protection Directional Phase-Fault Overcurrent Protection Earth-Fault Overcurrent Protection Directional Earth-Fault Overcurrent Protection Directional Sensitive Earth-Fault Protection Intermittent Earth-Fault Protection Fast Overcurrent Protection Negative Phase Sequence Overcurrent Protection Phase Under- and Overvoltage Protection Residual Overvoltage Protection Thermal Overload Protection Under- and Overfrequency Protection Auxiliary functions Auto-Reclose Function Synchrocheck Fault Locator Inrush Restraint Circuit-Breaker Failure Protection Switch-On to Fault Cold Load Pickup Trip-Circuit Supervision Programmable Protection Logic Transformer Monitoring 5 5.1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

109 SICAM BC Description Open system architecture The basis for SICAM BC is a modular, open and consequently technology-independent system architecture for processing, communication and peripherals (multi-processor system, firmware). Standardized interfaces between the individual elements permit, even with further developments, the latest state of technology to be implemented, without having to modify the existing elements. Only this way can a longevity of the product and consequently investment security and continuity be ensured. Every board and every module on which a firmware can run forms, together with the function-determining firmware, one system element. The adaptation to the specific requirements of the application is achieved through individual configuration and through the loading of firmware and parameters with the help of the TOOLBOX II. Plug & Play for spare parts All data of a SICAM BC such as firmware and parameters are stored non-volatile centrally on an exchangeable flash card. With a restart of the automation unit, and also with a restart of individual system elements, all necessary data are automatically transferred from the flash card to all system elements. With the replacement of spare parts, Plug & Play becomes a reality: one needs no special tool for this, even loading is no longer necessary. Together with the comprehensive remote diagnostic possibilities, downtimes can be reduced to a minimum. Within their defined limits, the parameters thereby not only influence the behavior of the firmware, but also that of the hardware. As a result, the mechanical parameterization operations on the system elements, such as jumpers, loads etc., are omitted. This enables a consistent online change and a continuous documentation of the set parameters by the TOOLBOX II. This architecture guarantees the integration of the function packages telecontrol, automation and protection in one automation unit an autonomous behavior of the protection functions, in other words, independent of the availability of process control functions an autonomous behavior of process control functions (e.g. with a failure of the communication) a deterministic behavior of the open-/closed-loop control function with guaranteed reaction times Figure 5.1/4 For data storage 5 SICAM Substation Automation and RTUs Product Catalog Edition /9

110 SICAM BC Application overview SICAM BC models In order to meet the large field of application ranging from medium voltage to extra high voltage, two SICAM BC models are available. Basically, the difference lies in device size and number of signals. Both models have exactly the same architecture, and use exactly the same system elements. There is no difference with respect to engineering as well as to peripheral signal wiring. Thereby, entire transformer substations can be equipped using the same equipment technology. 5 Figure 5.1/5 Model SICAM BC/C Compact Medium voltage and high voltage Up to 10 switchgears Up to 73 I/O signals Figure 5.1/6 Model SICAM BC/M Modular High voltage and extra high voltage 10 switchgears and more Up to 500 I/O signals 5.1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

111 SICAM BC Application overview Communication On the process control CPU, there is an integrated serial optical communication interface available: Communication conforming to standard protocol IEC (Slave) In addition, a serial interface module can be installed on the process control CPU: A serial interface module has serial and/or LAN communication interfaces. Supported protocols: Ethernet standard protocol IEC Standard protocol IEC Standard protocol IEC (Master, Slave) Standard protocol IEC (Server/Client) In addition, a large number of third-party protocols are available (protocols subject to license) The protocol can be freely selected for each serial interface. Basic configurations Basically, after having selected the suitable model, C or M, the required protection functionality makes clear which package to select: Model SICAM BC/C Package Designation Description A_55/C Compact Bay Controller Automation AP55/C Compact Bay Controller Automation & Protection w. non-dir. OC (DTL, IDMTL) DTL/IDMTL AP56/C Compact Bay Controller Automation & Protection with dir. OC (DTL, IDMTL) DTL/IDMTL Model SICAM BC/M Package Designation Description A_55/M Modular Bay Controller Automation AP55/M Modular Bay Controller Automation & Protection w. non-dir. OC (DTL, IDMTL) DTL/IDMTL AP56/M Modular Bay Controller Automation & Protection with dir. OC (DTL, IDMTL) DTL/IDMTL Each package offers options which allow for flexible configuration and functionality. By selecting from available packages and options, the bay controller can be configured to meet the feeder requirements in the best possible way, further increasing economical efficiency. Choice of communication options There are a large number of communication options available. 5 Choice of power supply One can choose between a DC 48/60 V and DC 110/220 V power supply. In addition, to increase the availability of the SICAM BC, the power supply can be designed redundant. Choice of signal voltage and quantity structure As with the power supply, the signal voltage can be chosen between DC 48/60 V and DC 110/220 V. SICAM Substation Automation and RTUs Product Catalog Edition /11

112 SICAM BC System overview Mechanics During the mechanical design phase, high value was set on flexible deployment. The hardware of the device consists of two separable parts: Operation and Display Panel CM-0882 (removable, can be detached up to 3 m) One of the SICAM BC Mounting Racks: CM-5882 (model SICAM BC/C) CM-5884 (model SICAM BC/M, 16 slots) CM-5888 (model SICAM BC/M, 9 slots) The shown rear view suits the rear panel installation, front panel installation, or 19-inch installation optionally, the operation and display panel can be detached up to 3 m. Process connection via screw terminal: Up to 2.5 mm 2 cross-section solid conductor Current transformer connections up to 6 mm 2 5 Figure 5.1/7 Mounting SICAM BC/M 5.1/12 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

113 SICAM BC Function overview Main functions Designation ANSI code Function Cycle Non-directional Directional PFO 50/51 Phase-Fault Overcurrent Protection 5 ms 3/1 3/1 PFD 67 Directional Phase-Fault Overcurrent Protection 1) 5 ms x EFO 50N/51N Earth-Fault Overcurrent Protection 5 ms 3/1 3/1 EFD 67N Directional Earth-Fault Overcurrent Protection 1) 5 ms x SEF 64S Directional Sensitive Sarth-Fault Protection 1) 5 ms x IEF 64T Intermittent Earth-Fault Protection 5 ms x x FOC 50F Fast Overcurrent Protection 2.5 ms x x NPS 46 Negative Phase Sequence Overcurrent Protection 5 ms 1/1 1/1 UOV 27/59 Phase Under- and Overvoltage Protection 1) 5 ms x x ROV 59N Residual Overvoltage Protection 1) 5 ms x x TOL 49 Thermal Overload Protection 100 ms x x UUF 81 Over- and Underfrequency Protection 5 ms x x 1) AI-5399 necessary n/m n taps UMZ, m taps AMZ Auxiliary functions Designation ANSI code Function Cycle Non-directional Directional AR 79 Auto-Reclose Function 5 ms x x SYN 25 Synchrocheck 1) 10 ms x x F_LOC 21FL Fault Locator 1) spontaneous x x RUSH 68 Inrush Restraint 2) 2.5 ms x x CBF 50BF Circuit-Breaker Failure Protection 2.5 ms x x SOTF 50HS Switch-On to Fault 2.5 ms x x DYN Cold Load Pickup 2.5 ms x x TCS 74TC Trip-Circuit Supervision 100 ms x x LOGIC Programmable Protection Logic 2.5 ms x x CHECK Transformer Monitoring 3) 2.5 ms x x 1) AI-5399 necessary 2) For PFU, EFU 3) Incl. outage of the measuring voltage (voltage transformer) 5 Abbreviations Abbreviation UMZ AMZ Description Definite Time-Overcurrent Protection Inverse Time-Overcurrent Protection Note The description of the functions can be found in the manual CP-5000/PIP55. SICAM Substation Automation and RTUs Product Catalog Edition /13

114 SICAM BC Selection and ordering data Description Variants Order No. SICAM BC 6 M F 1 Key 901 1" for CM-0881 and CM A A A A 1 Key 902 2" for CM-0881 and CM A A A A 1 CM-5883 BC1703ACP ass. kit at rem. display F J A A 0 Flash card 2 GB G A A A 0 DI-5110 as spare part F B A A 1 DI-5111 as spare part F B A A 1 DO-5203 as spare part F C A A 1 DO-5212 as spare part F C A A 1 AI-5303 as spare part F D A A 1 PS-5600 as spare part F G A A 1 PS-5602 power supply F G A A DC 220 V/230 V/20 W CM-0820/ADAP SAT TB adapter A J A A 0 CM-0827 fiber-optic interface (el. FO) A J A A 0 CM-0829 RS232/RS422; RS485 converter A J A A /14 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

115 Flexible control and monitoring system SICAM RTUs Feeder Automation Controller

116 SICAM RTUs Contents 6. SICAM RTUs page 6.1 SICAM AK 6.1/3 6.2 SICAM TM 6.2/1 6.3 SICAM Safety 6.3/1 6.4 SICAM CMIC 6.4/1 6.5 SICAM EMIC 6.5/1 6.6 SICAM MIC 6.6/1 6.7 SICAM SGU 6.7/1 6 The technical data can be found in the device manual at: 6.1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

117 Flexible control and monitoring system SICAM AK Controlling and telecontrol for large data volumes

118 SICAM AK Contents page Description 6.1/5 System elements 6.1/9 Selection and ordering data 6.1/13 6 The technical data can be found in the device manual at: 6.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

119 SICAM AK Description Figure 6.1/1 SICAM AK Description SICAM AK is the large automation component for a flexible mix of communication, automation and Input/Output. It offers optimal support as master controller or RTU, gateway or front-end, with local or distributed I/O. Versatile redundancy concepts are another asset of these components. SICAM AK features high functionality and flexibility through the implementation of innovative and reliable technologies, on the stable basis of a reliable product platform. For this, the system concept ACP (Automation, Control and Protection) creates the technological preconditions. Balanced functionality permits the flexible combination of automation, telecontrol and communication tasks. Complemented with the scalable performance and various redundancy configurations, an optimal adaptation to the respective requirements of the process is achieved. SICAM AK is thus perfectly suitable for automation with integrated telecontrol technology as: Telecontrol substation or central device Automation unit with autonomous functional groups Data node, station control device, front-end or gateway With local or remote peripherals For rear panel installation or 19-inch assembly SICAM AK the forward-looking product Versatile communication: Up to 66 serial interfaces according to IEC /103 LAN/WAN communication according to IEC LAN communication according to IEC Various third-party protocols possible Easy engineering with SICAM TOOLBOX II: Object-oriented data model Creation of open-loop and closed-loop control application programs according to IEC All engineering tasks can also be carried out remotely Plug and play for spare parts: Storage of parameters and firmware on a flash card Spare part exchange does not require additional loading with SICAM TOOLBOX II Open system architecture: Modular, open and technology-independent system structure System-consistent further development and therefore an innovative and future-proof product Scalable redundancy: Component redundancy Doubling of processing/communication elements The intelligent terminal SICAM TM, EMIC and MIC: Direct connection of actuators and sensors with wire crosssections up to 2.5 mm 2 Can be located remotely up to 200 m Binary input/output also for DC 110/220 V Assembly on 35 mm DIN rail Versatile communication capability With SICAM AK, a variety of media can be utilized for local and remote communication (wire connections, FO, radio, dial-up traffic, GSM, GPRS, WAN, LAN, field bus etc.). Through the simple installation of serial interface modules, in total up to 66 communication interfaces are possible in one SICAM AK, whereby a different individual protocol can be used for each interface. For standard communication protocols according to IEC /103/104 and IEC are implemented. Besides the standard protocols, there are also a variety of third-party protocols available (DNP 3.0, Modbus etc.). 6 Figure6.1/2 SICAM MIC peripheral elements SICAM Substation Automation and RTUs Product Catalog Edition /5

120 SICAM AK Description Simple process interfacing In addition to the central acquisition and output of process signals within an SICAM AK mounting rack, it is possible to use SICAM TM, EMIC and MIC peripheral elements (figure 6.1/2). An essential feature of the SICAM TM, EMIC and MIC peripheral elements is the efficient and simple interfacing possibility of the process signals. This takes place on so-called I/O modules, which are distinguished through a robust casing, a secure contact as well as solid electronics. The I/O modules are lined up in rows. The contact takes place during the process of latching together without any further manipulation. Thereby, each module remains individually exchangeable. A clearly arranged connection front with LEDs for the status display ensures clarity locally. The structure of the terminals enables a direct sensor/actuator wiring without using intermediate terminal blocks with wire cross-sections up to 2.5 mm 2. Modules for binary inputs and outputs up to DC 220 V open up further saving potentials at the interface level. Depending on the requirements, the I/O modules can be fitted with either an electrical bus or an optical bus, through which the peripheral signals can be acquired as close as possible to the point of origin. In this way, broad cabling can be reduced to a minimum. Easy engineering An essential aspect in the overall economical consideration are the costs that occur for the creation, maintenance and service. For this, the reliable SICAM TOOLBOX II is used. Object orientation: The object orientation makes it possible to also utilize the same characteristics of same-type primary-technology units and operational equipment (e.g. disconnectors, circuit breakers, feeders etc.) for the configuration. The close coupling with the design tool ensures the consistent, uniform documentation of the entire plant through to the circuit diagram. Through this, considerable rationalization results with engineering. Open-loop and closed-loop control according to IEC : Open-loop and closed-loop control application programs are created by means of CAEx plus according to IEC , a standard that is generally accepted and recognized in the market. As a result, the training periods are reduced considerably. All engineering tasks can also be carried out remotely: All engineering tasks, from the system diagnostics through to the online test, can also be performed remotely with the SICAM TOOLBOX II. For this, a separate communication link between SICAM TOOLBOX II and SICAM AK is not necessary: Every available communication interface can be used. Using further automation units of SICAM TM, AK or BC, the SICAM TOOLBOX II can be remotely positioned over an arbitrary number of hierarchies. The access to the engineering data is fundamentally protected by a password. 6 Figure 6.1/3 Open system architecture 6.1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

121 SICAM AK Description Plug and play for spare parts All data of an automation unit such as firmware and parameters are stored non-volatile centrally on an exchangeable flash card. With a restart of the automation unit, and also with a restart of individual modules, all necessary data are automatically transferred from the flash card to all CPUs and modules. Consequently, with the exchange of modules, new loading is no longer required, since new modules obtain all data from the memory card. With the replacement of spare parts, plug and play becomes a reality: No special tool is required, even loading is no longer necessary. Thereby, work during a service operation is reduced to a minimum. Open system architecture The basis for this automation concept is a modular, open and consequently technology-independent system architecture for processing, communication and peripherals (multi-processor system, firmware). Standardized interfaces between the individual elements again permit, even with further developments, the latest state of technology to be implemented, without having to modify the existing elements. In this way, a longevity of the product and consequently investment security and continuity can be ensured (figure 6.1/3). Every board and every module on which a firmware can run forms, together with the function-determining firmware, one system element. The adaptation to the specific requirements of the application is achieved through the individual configuration and through the loading of standard firmware and parameters. Within their defined limits, the parameters thereby not only influence the behavior of the firmware functions, but also that of the hardware functions. With that, for all module types, all mechanical parameter settings are omitted, such as the changing of jumpers or loads, thus enabling not only the online change, but also a consistent documentation of the set parameters by the SICAM TOOLBOX II as well as a simplified storage. System overview Mechanics Figure 6.1/4 and figure 6.1/5 show two types of basic mounting racks: module CM-2832 with 9 slots and module CM-2835 with 17 slots. Module CM-2833 (not pictured here) is the expansion mounting rack for up to 16 peripheral elements outside the basic mounting rack. With the mechanics, value has been placed on flexibility and easy handling. Consequently, the mounting rack is available for rear panel installation or for 19" (swing) frame installation. Almost all necessary external connectors (e.g. communication, peripherals, external periphery bus) can be connected with the help of standard cables or prefabricated cables without any additional tools (figure 6.1/6, figure 6.1/7, figure 6.1/8). 6 Figure 6.1/4 CM-2832 SICAM AK mounting rack with 9 slots Figure 6.1/5 CM-2835 SICAM AK mounting rack with 17 slots SICAM Substation Automation and RTUs Product Catalog Edition /7

122 SICAM AK Description Figure 6.1/6 Connection technique for peripheral signals 6 Figure 6.1/7 RJ45 connection technique for communication Figure 6.1/8 RJ45 connection technique for external Ax peripheral bus 6.1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

123 SICAM AK System elements Figure 6.1/9 Basic mounting rack SICAM AK peripheral bus Figure 6.1/10 Configuration of an automation unit SICAM AK The system architecture is shown in figure 2.3/9. SICAM AK is structured from the following elements: Master control element* Processing and communication element* Protocol element(s)* Peripheral element(s)* Mounting rack with one to four power supplies Peripheral elements can also be installed outside of the basic mounting rack. The configuration of an automation unit SICAM AK is shown in figure 6.1/10. 1 master control element: Up to 16 processing and communication elements: Up to 66 protocol elements (interfaces with individual communication protocol) Up to 272 peripheral elements Ax 1703 peripheral bus The Ax PE-Cn buses (n = 1 16) are available on connectors in order to be able to connect peripheral elements outside the basic mounting rack. One of the buses can be selected in order to also supply those peripheral elements in the basic mounting rack. Peripheral elements outside the basic mounting rack Peripheral elements may be installed in the basic mounting rack (as shown above), and/or installed in an expansion mounting rack and connected electrically, and/or installed at remote locations and connected electrically or optically. System elements A system element is a functional unit and consists of hardware and firmware. The firmware gives the hardware the necessary functionality. 6 * System elements SICAM Substation Automation and RTUs Product Catalog Edition /9

124 SICAM AK System elements Master control element The master control element (figure 6.1/11) forms the heart of the automation unit. Functions of the master control element: Communication with installed peripheral elements via the serial Ax peripheral bus Open-/closed-loop control function with a freely programmable user program according to IEC , e.g. in function diagram technology Communication with other automation units via protocol elements installable on the master control element (up to 2 interfaces) Central coordinating element for all system services and all internal and overlapping concepts, such as Data flow control Monitoring functions Diagnostics Time management and time synchronization via minute pulse, serial time signal (DCF77/GPS receiver), serial communication link, NTP server over LAN/WAN Local SICAM TOOLBOX II connection Storage of parameters and firmware on a flash card Processing and communication element Functions of the processing and communication elements (figure 6.1/12): Communication with installed peripheral elements via the serial Ax 1703 peripheral bus Open-/closed-loop control function with a freely programmable user program according to IEC , e.g. in function diagram technology Communication with other automation units via protocol elements installable on the processing and communication element (up to 4 interfaces) 6 Figure 6.1/11 Master control element Figure 6.1/12 Processing and communication element 6.1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

125 SICAM AK System elements Figure 6.1/13 Peripheral elements Peripheral element Peripheral elements, as shown in figure 2.3/13, are used for acquisition or output of process information and perform process-oriented adaption, monitoring and processing of the process signals at each point where the signals enter or leave an automation unit. Processing is performed to some degree by hardware (e.g. filter, ADC, DAC) and by firmware (e.g. smoothing of measured values, time tagging) The peripheral elements deliver over the Ax peripheral bus periodical information, messages with process information, and messages with system information (e.g. diagnostic information) and receive messages with process information, periodical information, and messages with system information (e.g. parameters) 6 SICAM Substation Automation and RTUs Product Catalog Edition /11

126 SICAM AK System elements Protocol element A protocol element (figure 6.1/14) is used for the exchange of data and thereby for the transmission of messages over a communication interface to other automation units or devices of third-party manufacturers, e.g. control systems. The hardware of a protocol element is a communication interface which dependent on system and interface can be available in different ways: Integrated on a basic system element On a serial interface module (SIM), which is installed directly or cascaded (SIM on SIM) on the basic system element 6 On every interface provided by the SIM, a communication protocol available for the interface can be loaded with the SICAM TOOLBOX II. Module Designation Master control element CP-2010/CPC25 System functions, processing and communication Master control element CP-2017/PCCX25 Processing and communication Peripheral elements SICAM AK DI-2100/BISI25 Binary signal input (8 8, DC V) DI-2110/BISI26 Binary signal input (8 8, DC V) DI-2111/BISI26 Binary signal input (8 8, DC 110/220 V) DO-2201/BISO25 Binary output (transistor, 40 1, DC V) AI-2300/PASI25 Analog input/output (16 x ± 20 ma opt. expans.) AI-2301/TEMP25 Analog input (32 Pt100) AI-2302/PASI25 Analog input/output (16 x ± 6 ma opt. expans.) DO-2210/PCCO2X Checked command output (64 DC V) DO-2211/PCCO2X Checked command output (64 DC V) MX-2400/USIO2X Signal input/output (DC V, ± 20 ma, opt. expans.) Supported peripheral elements SICAM TM PE-6410/USIO66 Peripheral controller (Ax-PE Bus el.) PE-6411/USIO66 Peripheral controller (1 Ax-PE Bus opt.) Power supply The mounting racks CM-2832, CM-2835 and CM-2833 are to be equipped with 80 W power supplies of the following types: PS-5620 Power supply (DC V) PS-5622 Power supply (DC V, AC 230 V) Table 6.1/1 System elements in SICAM AK Figure 6.1/14 Protocol element Function packages Telecontrol The function package Telecontrol includes the following functions: Process input and output on peripheral elements Communication with other automation units Protocol elements Automatic data flow routing Data storage Priority control Redundant communication routes Communication within the automation unit Protocol element control and return information Automation The function package Automation includes the following functions: Process input and output on peripheral elements Telecontrol functions Treatment for commands according to IEC /104 Change monitoring and generation of messages with time tag Open-/closed-loop control function System services System services is a function package providing general functions and basic services in an automation unit, which are required by other function packages: Communication with the engineering system Data flow control Addressing Time management General interrogation Self-test Failure Diagnostics and signaling Autonomy 6.1/12 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

127 SICAM AK Selection and ordering data Description Variants Order No. SICAM AK: Automation, Communication and Telecontrol 6 M F 1 Subrack CM-2834 AK board rack 9 slots C J A A 0 CM-2836 AK board rack 17 slots C J A A 0 CM-2816 Redundancy board rack for AK C J A A 0 CM-2833 AK board rack extension C J A A 0 Power supply PS-5620 Power Supply DC V F G A A 0 PS-5622 Power Supply DC V F G A A VAC Master control element CP-2014 Central Processor C A A A 0 CM-2839 Connect. Comm./Sys-I/O C J A A 0 Flash Card 2GB G A A A 0 Peripheral elements DI-2100 Binary signal input (8 x 8, DC V) C B A A 0 DI-2110 Binary signal input C B A A 0 (8 x 8, DC V), 1 ms resolution DI-2111 Binary signal input C B A A 0 (8 x 8, DC 110/220 V), 1 ms resolution DO-2201 Binary output C C A A 0 (transistor,40 x 1, DC V) DO-2210 Secured command output DC V C C A A 0 DO-2211 Secured command output DC 125 V C C A A 0 AI-2300 Analog input/output C D A A 0 (16 x ± 20 ma + 4 x opt. exp.) AI-2301 Analog input 32 x Pt C D A A 0 AI-2302 Analog input 16 x ± 6 ma, 4 x opt.iom C D A A 0 AI-2303 Analog input 16 x ± 24 ma, 4 x opt.iom C D A A 0 Submodules for AK peripheral elements SM-0570 Analog input (2 x ± 20 ma, ± 10 V) (opt. exp.) A F A A 0 SM-0571 Analog input (2 x Pt 100) A F A A 0 SM-0572 Analog output (2 x ± 20 ma, ± 1/10 V) A F A A 0 SM-0574 Counting pulse input (2 x DC V) A F A A 0 SM-2503 current module for AI ma C F A A 0 SM-2506 Measuring mod. Com. out. DC V C F A A 0 SM-2507 Measuring mod. Com. out. DC 125 V C F A A 0 CM-2890 Peripheral cable crimp 5 m 100 pins C J A A 1 6 Processing and communication element CP-2017 Processing and communication C A A A 0 CM-2838 Communication connection C J A A 0 SICAM Substation Automation and RTUs Product Catalog Edition /13

128 SICAM AK Selection and ordering data Description Variants Order No. SICAM AK: Automation, Communication and Telecontrol 6 M F 1 Protocol elements (hardware) CPU Serial interface processor 2 serial C F A A 0 interfaces SM-2556 Network interface Ethernet 10/100TX C F A A 0 SM-2557 Dual network interface Ethernet C F A A 0 2 x100tx SM-2545 PROFIBUS interface C F A A 0 CM-2845 Connection box for SM-2545 in AK C J A A 0 Submodule for SM-2556 SM-0551 Serial interface processor 1Sl A F A A 0 Patch Plug (1x per Sl) CM-2860 Patch plug standard V28, Ethernet C J A A 0 CM-2866 Patch plug V28, transposed C J A A 0 CM-2869 Patch plug SMI-RS C J A A 0 CM-2872 Patch CM-0821/27 FO C J A A 0 TM peripheral elements Power supply PS-6630 Power supply module G G A A 0 DC V EMC+ PS-6632 Power supply module G G A A 0 DC V EMC+ Periphery interfacing PE-6410 Periphery interfacing for G E A A 0 electrical peripheral bus Ax 1703 PE-6411 Periphery interfacing for G E A A 0 optical peripheral bus PE-6412 Periphery interfacing for Ax G E A A 0 peripheral bus 2x optical 6 Binary inputs DI-6100 Binary input 2x8, DC V G B A A 0 DI-6101 Binary input 2x8, DC V G B A A 0 DI-6102 Binary input 2x8, DC V, 1MS G B A A 0 DI-6103 Binary input 2x8, DC V, 1MS G B A A 0 DI-6104 Binary input 2x8, DC 220 V G B A A 0 Analog inputs AI-6300 Analog input 2x2 ± 20 ma/± 10 V G D A A 0 AI-6307 Analog input 2x2 ± 5 ma G D A A 0 AI-6308 Analog input 2x2 ± 1 ma/± 2 ma G D A A 0 AI-6310 Analog input 2x2 Pt G D A A 0 AI-6303 Direct transformer input (4 x 220 V, 3 x 6 A) G D A A 0 AI-6304 Direct transformer input G D A A 0 (4 x 220 V, 3 x 6 A) 2 x optical* Analog outputs AO-6380 Analog output 4 x ± 20 ma/± 10 ma ± 10 V G D A A 0 * Only in combination with AK in redundancy configurations 6.1/14 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

129 SICAM AK Selection and ordering data Description Variants Order No. SICAM AK: Automation, Communication and Telecontrol 6 M F 1 Binary outputs DO-6200 Binary output transistor 2x G C A A 0 DC V DO-6212 Binary output relay 1x G C A A 0 DC V, AC 230 V DO-6220 Command output basic module G C A A 0 DO-6221 Command output basic module G C A A 0 with measurement DO-6230 Command output basic module G C A A 0 Speed & Position measurements TE-6420 Speed measurement 2x2 DC 5/24 V/NAMUR G E A A 0 TE-6450 Position measurement 2x2 SSI/RS G E A A 0 Direct transformer input AI-6303 Direct transformer input (4 x 220 V, 3 x 6 A) G D A A 0 AI-6304 Direct transformer input G D A A 0 (4 x 220 V, 3 x 6 A) 2x optical* Accessories Modems CE-0700 V.23 Leased line modem B C A A 0 Converters CM-0821 Fieldbus-Int. ring (3xFO, 1x el.) A J A A 0 CM-0822 Fieldbus-interface star (4xFO) A J A A 0 CM-0823 Fieldbus-Int. Ring (3xFO, 1xRS485) A J A A 0 CM-0827 Converter V28/optical A J A A 0 CM-0829 Converter RS232/RS422; RS A J A A 0 SCA-RS redundancy switch A A A B 0 EPP RED 25 E-PROM programmed C A A A 2 CM-0828 Fiber-optic interface (TTL-FO) A J A A 0 CM-1820 SAT TB cable B J A A 0 CM-2826 Print for redundant power supply C J A A 0 Extracting tool for AK boards C B A A 0 Wall fastening kit for CM-2835 AK C A A A 0 IP 20 backside cover kit for C A A A 1 CM-2835/CM-2836 TC2-062 AK front pan for CM C A A A 0 change to CP-2014 (9 slots) TC2-063 AK front pan for CM C A A A 0 change to CP-2014 (17 slots) CM-0838 SFP-Transceiver optically A J A A 0 (duplex LC) for CM-2839 CM-0838 SFP-Transceiver electric (RJ45) A J A A 0 for CM-2839 CM-0842 AX 1703 Bus interface 4x fiber op A J A A 0 CM-0843 AX 1703 Bus interface electrical A J A A 0 CM-6810 TM I/O-Modules extension cable G J A A 0 TC6-200 Withdrawal aid for terminals G C A A 1 TC6-050 Bus termination CP-600X G A A A 1 GPS167-ANT/CON GPS-antenna-converter A J A A 0 GPS-AV4 GPS-antenna-terminal block A J A A 0 GPS-AV4 GPS-antenna-connecting kit A J A A 0 Supply cable for modem CE070X/DCF E A A A 0 * Only in combination with AK in redundancy configurations 6 SICAM Substation Automation and RTUs Product Catalog Edition /15

130 SICAM AK Selection and ordering data Description Variants Order No. SICAM AK: Automation, Communication and Telecontrol 6 M F 1 DCF 77-receiver for DIN rail A J A A 0 PS-4620 Power Supply DC V for E G A A 0 DCF 77-receiver KR-DCF/AAG connection kit 0,6M DCF-rec C A A A 0 CM-0825 TOOLBOX cable USB Type A-Mini B A J A A 0 WMOD Eurocom for 1703 DIAL UP config B A A A 0 W/SMOD Westermo Modem for SAT B A A A 0 Westermo TD-35LV 102 0BA16 0AA0 GSM Modem Dual-band B A A A 0 GSM Antenna 102 0BA31 0AA0 T Patch cable CAT5 3 m B C A A 1 USB-cable type A-A AWG20/ m G C A A 1 USB-cable type A-A AWG20/ m G C A A 1 USB-cable type A-A AWG20/ m G C A A 1 Dust protector for D-SUB A A A A 0 SYCON 811 0AA20 0AA /16 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

131 Flexible control and monitoring system SICAM TM Controlling and telecontrol for medium data volumes

132 SICAM TM Contents page Description 6.2/3 Peripherals 6.2/6 Selection and ordering data 6.2/8 6 The technical data can be found in the device manual at: 6.2/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

133 SICAM TM Description Configuration example NTP Process control system SICAM TOOLBOX II SICAM TM Central unit Local input / output Central processing IEC IEC SICAM TM Data node Front end Gateway IEC IEC SICAM TM Station control unit Process coupling (serial, wide) Node function Automatic functions IEC IEC SICAM TM TC substation Local processing Decentralized acquisition SICAM TM Turbine controller Power plant management Automation & control SICAM RTUs SICAM RTUs SIPROTEC / IEDs Figure 6.2/1 SICAM TM configuration Description SICAM TM system concept makes it possible to combine automation and telecontrol in one device. The intelligent terminal modules are designed for easy mounting on 35 mm DIN rails. Wide transfer interfaces are systematically reduced with SICAM TM through direct connection of actuators and sensors with wire cross-sections of up to 2.5 mm². Binary input and output modules up to DC 220 V also open up savings potential at interface level. For decentral input/output, individual modules can be located remotely up to 200 m away from the master control element. The wide range of different media for local and long-distance communication can be used. SICAM TM functions with IEC standards /103/ 104 and IEC for consistent addressing from acquisition to output. Especially noteworthy is the possibility of offering client and server functionality on only one Ethernet interface. This interface was certified by an independent laboratory to verify interoperability. Seamless integration in existing automation networks is also possible. SICAM TOOLBOX II: Consistently simple engineering All engineering activities, from system diagnostics to online testing, can also be carried out extremely efficiently from remote locations. The close interfacing with design tools such as ELCAD ensures consistent documentation of the entire system, while the user programs for closed- and openloop control functions are created in CAEx plus according to IEC SICAM TM with Safety Integrity Level SIL 2 Functional safety in process instrumentation SICAM TM fulfils the SIL (Safety Integrity Level) requirements in accordance with standard IEC Several safetyrelated SICAM TM or SICAM AK controllers linked via standard telecontrol protocols can be operated with SICAM Safety Benefits The simple, intuitive operability with SICAM TOOLBOX II reduces cost for compiling and updating planning data Storage of parameters and firmware on a flash card reduces personnel and service costs. Thanks to Plug & Play, units can be exchanged without new parameterization or loading and without a PC. The combined automation and telecontrol incorporated in a device allows flexible applications and problem-free connection to communications infrastructures already in place. The extensive application area ranges from: Hydropower plants (e.g. turbine controllers) Electrical power distribution and transmission Oil and gas pipelines Tunnel equipment, etc. to Railway technology, in compliance with railway safety standards EN 50126, EN 50128, EN Safety-related safety controllers in accordance with IEC SIL2, also via standard telecontrol protocols distributed over several SICAM TM or SICAM AK controllers 6 SICAM Substation Automation and RTUs Product Catalog Edition /3

134 SICAM TM Description Figure 6.2/2 SICAM TM system architecture: connection of up to 16 peripheral elements via bus interface (electrical) 6 System concept SICAM TM SICAM TM is designed especially for easy installation and powerful application. Due to consequent development, it fits optimally both for automation and telecontrol systems. An essential feature of SICAM TM is its efficient and simple way of interfacing to the process signals. This is accomplished by so-called I/O modules boasting a robust housing and reliable contacting. The I/O modules are arranged side by side. Contact between them is established as soon as they engage with one another, without requiring any further manual intervention. Even so, it is still possible to replace every single module separately. A clearly structured connection front featuring status indicator LEDs makes sure that things at the site remain clear and transparent. The structure of the terminals permits direct sensor/actuator wiring without requiring the use of intermediate terminals. The I/O modules may, depending on the requirements, be equipped with either an electrical or an optical bus, whereby the peripheral signals can be acquired very close to their point of origin. Consequently, wide cabling can be reduced to a minimum. 6.2/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

135 SICAM TM Description System architecture A SICAM TM forms an automation unit of the SICAM system family and is constituted of the following components: Master control element Modular, expandable and detachable peripheral elements Protocol elements for communications, mountable on the master control element Master control unit The master control element forms the heart of the SICAM TM automation module. Process input and output is connected externally via peripheral elements. The communication interfaces can be fitted directly onto the master control element. Master control element The master control element provides the open-/closed-loop functions and/or the parameterizable telecontrol function, as well as the node function for the communication via serial interfaces and LAN/WAN. Therefore, it also serves as a centrally coordinating element for all system functions and all internal and integral concepts. This architecture ensures deterministic behavior of the open-/closed-loop control function with guaranteed reaction times autonomous behavior (e.g. in the case of communication failure), and integration of the telecontrol functionality (spontaneous processing and spontaneous communication) as well as the open-/closed-loop control functions (periodical processing and periodical communication with the periphery) into one common automation device. Figure 6.2/3 SICAM TM To connect peripheral elements to the master control element, a bus interface module must be arranged side by side with the master control element. Master control element with a 9-pin D-SUB socket on its right side Bus interface module with a 9-pin D-SUB connector on its left side Up to 2 bus interface modules on one master control element Up to 14 peripheral elements on a master control element Up to four communications interfaces via insertable serial interface modules for: serial communication (point-to-point, multipoint, and dial-up traffic) LAN/WAN (Ethernet) PROFIBUS DP Interfacing of up to 16 peripheral elements via the serial Ax peripherals bus (16 Mbps) Function diagram design according to IEC with CAEx plus for open-loop and closed-loop control functions Configurable telecontrol functions with and without time tagging Time synchronization via minute pulse, time signal receiver, serial communications link or NTP server (LAN/WAN) Parameter setting, diagnostics, and testing by SICAM TOOLBOX II, both locally or from remote locations Storing of parameters and firmware on flash card. 6 SICAM Substation Automation and RTUs Product Catalog Edition /5

136 SICAM TM Peripherals Peripherals A peripheral element is constituted of 1 power supply module, 1 peripheral control module, and up to 8 I/O modules The respective data sheets document how many I/O modules may actually be used per peripheral element and in what order they can be used. A key feature of SICAM TM is that it provides for the efficient and simple connection of the process signals. This is done at the I/O modules standing out for a robust housing, reliable contacting and sound electronics. The I/O modules are added side by side to the peripheral control module. Contact is established as soon as they engage with one another, without requiring any further manual intervention. Even so, every single I/O module can still be exchanged separately and mounted on a DIN rail. It may be installed horizontally or vertically. Removable terminals (I/O connectors) are used for the simple handling of modules when they are to be mounted or exchanged. Since the terminals carry the wiring, no connections need to be disconnected when devices are exchanged. To interface peripheral elements to the master control element, a bus interface module must be fitted on the side of the master control element. Using simple, standardized USB cables, the peripheral control modules are connected to the bus interface module, thereby reducing the assembly effort required for their connection to a minimum. The Ax peripheral bus permits the secured, serial, in-system communication between the master control element and the peripheral elements. Serial communication also renders it possible to detach individual or all peripheral elements via optical links up to 200 m from the master, with full system functionality remaining intact. Functions of the peripheral control module: Secured data exchange with the master control element Secured data exchange with the connected I/O modules via the TM bus (Terminal Module Bus) Monitoring of the connected I/O modules Preprocessing of the input and output signals Functions of the I/O modules: Acquisition and output of binary and analog process signals Secured data exchange with the peripheral control element via the TM bus The communication between the I/O modules and the peripheral control module takes place via the TM bus according to the master/slave method, with the I/O modules being the slaves. By arranging the various modules side by side, contact will be established automatically throughout the TM bus so that no additional wiring is required. 6 Figure 6.2/4 Peripheral element 6.2/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

137 SICAM TM Peripherals Communication The communication function is used for the exchange of data and thus for the transmission of messages via protocol elements to other automation units or control systems. The hardware for the protocol elements are serial interface modules (SIMs), which can be mounted on the master control element. On one master control element, up to 2 SIMs can be mounted. A serial interface module features: two serial communication interfaces, or one LAN communication interface (Ethernet) plus optional serial interface, or one Profibus interface (DP master) Since a communication interface corresponds to one protocol element, a total of up to 4 protocol elements can be used for each SICAM TM. This way, a multitude of communication options is available. Technical data Protocols: IEC /103/104, IEC 61850, PROFIBUS DP, SAT SSI, SAT PCMBA, Modbus, DNP 3.0, IEC Closed- and open-loop control function: 512 KB for user program, about 50,000 variables and signals, of which 2,000 buffered, 250 buffered setpoint values EMC: IEC , IEC 60255, IEC 61000, EN Supply voltage: Master control element: DC V + 30 %/-20 % Peripheral element: DC V + 30 %/-25 %; DC V +/-25 % Temperature range Master control element: C (depending on equipment) Peripheral element: C Dimensions: Master control element: 306 x 155 x 75 mm Peripheral element: 630 x 127 x 72 mm = fully configured peripheral element with 8 I/O modules 6 SICAM Substation Automation and RTUs Product Catalog Edition /7

138 SICAM TM Selection and ordering data Description Variants Order No. SICAM TM: Compact automation 6 M F 1 Ambient conditions: C Dimensions (WxHxD) Master control element 306x155x72 mm CP-6014 Master control module G A A A 0 (master control element) Flash Card 2GB 213 1GA05 0AA0 630x127x72 mm (fully configured Shock-proved mounting part CP-6003/ G C A A 1 peripheral element with 8 I/O modules) Power supply PS-6630 Power supply module G G A A 0 DC V EMC+ PS-6632 Power supply module G G A A 0 DC V EMC+ Periphery interfacing PE-6410 Periphery interfacing for G E A A 0 Ax 1703 electrical peripheral bus PE-6411 Periphery interfacing G E A A 0 for Ax 1703 optical peripheral bus Up to 8 modules for I/O modules Binary inputs DI-6100 Binary input 2x8, DC V G B A A 0 DI x8, DC V G B A A 0 DI-6102 Binary input 2x8, DC V, 1MS G B A A 0 DI-6103 Binary input 2x8, DC 110/220 V, 1MS G B A A 0 DI-6104 Binary input 2x8, DC 220 V G B A A 0 Up to 8 modules for Analog inputs AI-6300 Analog input 2x2 ± 20 ma/± 10 V G D A A 0 AI-6307 Analog input 2x2 ± 5 ma G D A A 0 AI-6308 Analog input 2x2 ± 1 ma/± 2 ma G D A A 0 AI-6310 Analog input 2x2 Pt G D A A 0 6 Up to 8 modules for Binary outputs DO-6200 Binary output transistor 2x G C A A 0 DC V DO-6212 Binary output relay 1x8 DC V G C A A 0 AC 230 V Up to 8 modules for Analog outputs AO-6380 Analog output 4x ± 20 ma/± 10 ma ± 10 V G D A A 0 Command outputs DO-6220 Command output basic module G C A A 0 DO-6221 Command output basic module G C A A 0 with measurement DO-6230 Command output relay module G C A A 0 Speed & Position measurements TE-6420 Speed measurement 2x G E A A 0 DC 5/24 V/NAMUR TE-6450 Position measurement 2x2 SSI/RS G E A A 0 Direct transformer input AI-6303 Direct transformer input (4 x 220 V, 3 x 6 A) G D A A 0 AI-6304 Direct transformer input (4 x 220 V, G D A A 0 3 x 6 A) 2 x optical* * Only in combination with AK in redundancy configurations 6.2/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

139 SICAM TM Selection and ordering data Description Variants Order No. SICAM TM: Compact automation 6 M F 1 Bus interface module CM-0842 Ax1703-Bus interface 4-way, optical fiber A J A A 0 CM-0843 Ax1703-Bus interface electrical A J A A 0 Cables T Patch cable CAT5 3 m B C A A 1 USB-cable type A-A AWG20/ m G C A A 1 USB-cable type A-A AWG20/ m G C A A 1 USB-cable type A-A AWG20/ m G C A A 1 Ax-Bus patch cable DSUB to RJ45 3 m CAT G C A A 1 CPU (max. 2) SM-2551 Serial interface processor 2 serial C F A A 0 interfaces (SI) SM-2556 Network interf. Ethernet 10/100TX C F A A 0 SM-2557 Dual Network interface Ethernet 10/100 TX C F A A 0 SM-2545 Profibus interface C F A A 0 Submodule for SM-2556 SM-0551 Serial interface processor 1Sl A F A A 0 Patch Plug (1 x per Sl) CM-2860 Patch Plug Standard V28, Ethernet C J A A 0 CM-2868 Patch Plug V28 transposed C J A A 0 CM-2869 Patch Plug PROFIBUS C J A A 0 CM-2872 Patch Plug CM-0821/27 FO C J A A 0 Accessories Modems CE-0700 V.23 Leased line modem B C A A 0 CE-0701 VFT-channel modem C A A A 0 Converters CM-0821 Fieldbus-Int. ring (3 x FO, 1 x EL.) A J A A 0 CM-0822 Fieldbus-interface star (4 x FO) A J A A 0 CM-0823 Fieldbus-Int. Ring (3 x FO, 1 x RS485) A J A A 0 CM-0827 Converter V28/optical A J A A 0 CM-0829 Converter RS232/RS422; RS A J A A 0 TC6-200 Withdrawal aid for terminals G C A A 1 TC6-050 Bus termination CP-600X G A A A 1 GPS167-ANT/CON GPS-antenna-converter A J A A 0 GPS-AV4 GPS-antenna-terminal block A J A A 0 GPS-AV4 GPS-antenna-connecting kit A J A A 0 Supply cable for modem CE070X/DCF E A A A 0 DCF 77-receiver for DIN rail A J A A 0 KR-DCF/AAG connection kit 0.6M DCF-rec C A A A 0 PS-4620 Power Supply DC 24-60V for E G A A 0 DCF 77 receiver CM-6810 TM I/O-Modules extension cable G J A A 0 CM-1820 SAT TB cable B J A A 0 CM-0820/ADAP SAT TB adapter A J A A 0 WMOD Eurocom for 1703 DIAL UP config B A A A 0 W/SMOD Westermo Modem for SICAM B A A A 0 Westermo TD-35LV 102 0BA16 0AA0 GSM Modem Dual-band B A A A 0 GSM Antenna 102 0BA31 0AA0 Dust protector for D-SUB A A A A 0 SYCON 811 0AA20 0AA1 6 SICAM Substation Automation and RTUs Product Catalog Edition /9

140 6 6.2/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

141 Flexible control and monitoring system SICAM Safety Full functionality for safety-critical applications

142 SICAM Safety Contents page Description 6.3/3 Selection and ordering data 6.3/5 6 The technical data can be found in the device manual at: 6.3/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

143 SICAM Safety Description Description SICAM Safety is conceived for safety-related automation of the power distributions in hydropower plants as well as in oil and gas sectors. The goal of safety technology is to minimize the dangers of plant operation for people and environment without restricting production more than necessary. The safety requirements of the Machinery Directive 2006/42/EC are found in the following standards: EN ISO Safety of machinery Safety-related parts of control systems IEC 61508/62061 Safety of machinery Functional safety of safety-related electronic control systems SICAM safety components comply with all specifications of the certified safety integrity level (SIL). Besides the application in the oil and gas segment, SICAM Safety is primarily suitable for the automation of hydropower plants. The modules protect turbines and generators from mechanical overload by reliably detecting: impermissible operating states, imbalance of the shaft due to bearing damage, rise in temperature due to an interwinding fault in the generator, or a guide vane fracture in a Francis turbine. Figure 6.3/1 SICAM AK, TM and Safety SICAM Safety integrates safety functions simply and conveniently into the plant. In addition to automation functions, the SICAM platform thus also fulfills the necessary safety requirements. One system, more functionality, standard engineering for safety with efficiency. SICAM platform extension The SICAM Safety application upgrades existing SICAM hardware with reliable open-loop and closed-loop control functions. The SICAM Safety input/output modules are designed as terminal modules, allowing them to be combined flexibly with SICAM standard modules. SICAM TOOLBOX II extension Planning and implementation of safety-related functions takes place with the CAEx safety toolset. 6 SICAM Substation Automation and RTUs Product Catalog Edition /3

144 SICAM Safety Description Two-channel solution When you use SICAM Safety, process information from the sensor via the control system to the actuators is processed on a two-channel basis. To this end, the internal design of all safety modules features two-channel technology. Two integrated processors process the firmware in parallel and detect faults. The crucial advantage is that they also monitor each other. If a malfunction occurs, the modules switch over reliably to a safe state or remain in this state. Guaranteed reaction time: 100 ms from occurrence of a criterion to triggering Proven solution Standard and safety-related automation functions are separated. The PROFIsafe protocol is used for communication between a safety-related control unit and the safety-related peripheral equipment. Engineering in SICAM TOOLBOX II: You use OPM II to process the safety parameters; then you finally verify and validate safety controls and parameters with the CAEx safety toolset. Safety application on existing hardware Safety and standard applications run simultaneously. Several CP-2017 processing and communication elements can be installed in an automation unit. Several distributed peripheral elements can be connected to SICAM AK and SICAM TM. SICAM Safety application distributed between several locations The SICAM Safety application allows the integration of sensors or data from different localities for example from weir systems in large power plants pumps in pipelines Distribution of SICAM Safety applications between several SICAM AK or SICAM TM automation units. The partial applications communicate securely via a standard telecontrol connection with standard protocol. SICAM Safety input/output modules Binary input and output for DC 24 V Analog input for 4 to 20 ma Thanks to the terminal module design, a mix of standard and safety modules is possible also for retrofitting. The connection can be made via several lines with a choice of optical and/or electrical. SICAM Safety configuration SICAM AK Ax-bus interface 6 SICAM Safety SICAM Safety Optical bus Electrical bus Figure 6.3/2 Plant configuration 6.3/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

145 SICAM Safety Selection and ordering data Description Variants Order No. SICAM Safety 6 M F SICAM AK DI-6170 Binary Input 2x4, DC 24 V (S) G B A A 0 DO-6270 Bin. Outp. Trans. 4x, DC 24 V (S) G C A A 0 AI-6370 Analog Input 4x, 4-20 ma (S) G D A A 0 Labeling Strip CP-2017 SIL (S) C A A A 0 TC6-221 SICAM Safety sticker for CP-6014 SIL (S) G C A A 0 SICAM TOOLBOX II TBII_CAEx safety (FULL) F A A F 0 TBII_CAEx safety (LIGHT) L A A F 0 TBII_Upgrade_CAEx safety (LIGHT to FULL) G A A F 0 6 SICAM Substation Automation and RTUs Product Catalog Edition /5

146 6 6.3/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

147 Flexible control and monitoring system SICAM CMIC The smart cube for your distribution network

148 SICAM CMIC Contents page Description 6.4/3 Description/Selection and ordering data 6.4/4 6 The technical data can be found in the device manual at: 6.4/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

149 SICAM CMIC Description Description SICAM CMIC is a universal system. It is suitable for electrical distribution substations, gas distribution substations, hydropower plants, pipelines, railway power supplies, as well as in building protection or for alarm signaling. Ambient conditions often place high demands on supply substations. No matter whether they are transformer substations, utilities substations or small telecontrol stations they usually lack heating and air-conditioning systems to guarantee adequate ambient conditions. This is exacerbated by restricted space, which requires a very high degree of electromagnetic compatibility (EMC). SICAM CMIC is perfectly equipped to tackle these challenges. The device is suitable for broad application in the field, and can be deployed within a temperature range from -40 to +70 C and where strict EMC requirements apply. The SICAM CMIC SD memory card has a number of functions. First of all, it provides data for parameterizing the SICAM device. This means that your accurate parameters are always available locally, which saves you the need to perform complicated loading procedures on the PC. Secondly, exchanging devices for service purposes is a simple plug-and-play process, because the configuration is transferred directly to the replacement device with the SD memory card. Together with the extensive remote-fault diagnosis options, this reduces downtimes to a minimum, from hours to a matter of minutes. Figure 6.4/1 SICAM CMIC Advantages at a glance: Coupling of additional devices thanks to integrated node functionality Configuration, diagnostics and tests via a web server; alternatively per SICAM TOOLBOX II Reduction in work load through remote maintenance, remote diagnosis and remote parameterization Interlocking and local control in compliance with IEC thanks to smart user programs Local operation via display and function keys Data storage on SD card; plug-and-play for start-up and service Use of SICAM CMIC under all ambient conditions thanks to wide temperature range and extremely high degree of EMC Extendibility of the digital I/O with up to 6 SICAM I/O modules 6 SICAM Substation Automation and RTUs Product Catalog Edition /3

150 SICAM CMIC Description/Selection and ordering data LC display 2. 4 function keys 3. 3 LEDs for status (POK, RY, ER) 4. 2 LEDs for Ethernet 5. 2 LEDs for RS LEDs for RS LEDs for Ethernet 8. SD memory card 9. Connection for RJ45/Ethernet 10. Connection for RS-232 (underneath) 11. Connection for RS-485 (underneath) Figure 6.4/2 SICAM CMIC control display and connections 6 Thanks to its node functionality, SICAM CMIC is flexible and can even be used as a telecontrol substation with any form of communication to the control center. If the scope of signals of a SICAM CMIC should ever be insufficient, additional SICAM CMICs or other devices can be connected. Freely programmable user programs for local control, interlocking or regulating functions round out the versatile attributes of the SICAM CMIC. Communication: Joint communications You can connect external communication modules via the V.28 interface for transmission in joint traffic. The standard protocols are freely selectable (IEC , DNP 3.0, Modbus RTU). Additional protocols are available on request. Dial-up traffic Various connection-oriented transmission media are supported as standard via dial-up traffic (analog, ISDN, GSM, TETRA). LAN/WAN In the case of communication via LAN/WAN, transmission is implemented either in accordance with IEC or DNP(i) based on Ethernet TCP/IP. SICAM CMIC overview: Maintenance-free, small compact device for mounting on DIN rail Local operation via 4 function keys and display 12 digital inputs for messages 8 digital outputs for commands Ethernet-LAN 10/100BASE-TX, 2 ports, RS-485 and RS-232/V.24 interfaces with the common protocols: IEC /-103/-104, Modbus, DNP 3.0, DNP(i) etc. Freely programmable user programs in accordance with IEC Configuration via LAN, WAN Configuration via SICAM telecontrol center or SD card Simplified service thanks to SD card (storage of parameters and firmware) Integrated UPS functionality for external storage battery with supply voltage of AC 110 to 240 V Tomorrow s security standard (BDEW White Paper conformity and integrated crypto chip) Selection and ordering data Description Order No. SICAM CMIC 6 M F A B A A 0 DC V 1 Temperature range -25 to +70 C 0 Temperature range -40 to +70 C 1 6.4/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

151 Flexible control and monitoring system SICAM EMIC Feeder Automation Controller

152 SICAM EMIC Contents page Description 6.5/3 Selection and ordering data 6.5/6 6 The technical data can be found in the device manual at: 6.5/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

153 SICAM EMIC Description Figure 6.5/1 SICAM EMIC Description With growing pressure on costs in virtually all processes, there is an increasing need to also automate smaller stations to make better and more reliable use of existing equipment. Modern, high-performance automation systems allow the integration of smaller stations to provide universal and reliable management of complex processes. But smaller stations are also being equipped with greater functionality because of the increased demand for more information. From straightforward monitoring activities to control functions and the integration of additional equipment, modern systems need to offer a wide range of functionality. Flexible use As the logical consequence of these demands, SICAM EMIC represents the expansion of the proven product SICAM MIC. SICAM EMIC is a low-cost, flexible and modular telecontrol station, and is part of the proven SICAM RTU family. The hardware consists of a master control element and various I/O modules, and is designed for DIN rail mounting. The proven I/O modules can be used and fitted on all products in the SICAM AK, TM and MIC family. The master control element is used for interfacing and supplying the I/O modules and provides three communication interfaces (1 x Ethernet and 2 x serial) to meet a wide range of requirements. Complete flexibility is ensured here as well, because different communication protocols can be allocated freely. The option of automation functions rounds out the range of functionality of the SICAM EMIC. 6 SICAM Substation Automation and RTUs Product Catalog Edition /3

154 SICAM EMIC Description NTP Control system IEC IEC SICAM EMIC SICAM MIC Radio, fiber optics, cable, etc. IEC Telephone network(s) analog, digital IEC Dial-up traffic IEC IEC SICAM EMIC SICAM MIC Multipoint traffic Configuration example Figure 6.5/2 Practical applications of SICAM MIC/EMIC 6 Integrated web server for simple engineering Keeping the engineering process as simple as possible was a top priority with the SICAM EMIC. The master control element has an integrated web server for configuration, diagnostics and testing, so that no special tools or additional licenses are needed. The tool is already integrated in SICAM EMIC and is operated with a standard web browser. Engineering, diagnostics and testing of the SICAM EMIC can also be carried out with the proven SICAM TOOLBOX II, the integrated engineering tool for the entire SICAM RTU family. SICAM EMIC receives the parameterizing data via a flash card. Consequently, the correct parameters are always available locally and there is no need to load data from a PC. This makes exchanging devices during servicing a straightforward Plug & Play operation, and it is very simple to transfer configuration data to the replacement device with the flash card. For this reason, and because of the comprehensive remote diagnostics options, downtimes can be reduced to a minimum. Thanks to its node functionality, SICAM EMIC has many different potential applications: SICAM EMIC can be used as an ordinary telecontrol substation with any kind of communication to a control center. If SICAM EMIC doesn t offer adequate signal scope, additional EMIC systems can be connected. Freely programmable application programs for local control functions complete the all-round versatility of the SICAM EMIC. 6.5/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

155 SICAM EMIC Description Figure 6.5/3 SICAM EMIC architecture Highly flexible options for communication to the control center: Multi-point traffic External data transmission equipment can be connected via the V.28 interface for multi-point traffic transmission. Dial-up traffic A wide range of connection-oriented transmission media (analog, ISDN, GSM, TETRA) are supported as standard for dial-up traffic as well. LAN/WAN IEC /DNPi communication based on Ethernet TCP/IP is used for communication via LAN/WAN. Functions of the master control element: Central processing functions Storing of the parameters and the firmware on a flash card Interfacing and supplying of the I/O modules 3 communication interfaces, with different individual communication protocols (IEC , -103, -104, Modbus, DNP 3.0, other protocols on request) 6 SICAM Substation Automation and RTUs Product Catalog Edition /5

156 SICAM EMIC Selection and ordering data Description Variants Order No. SICAM EMIC: Small RTU with 3 communication interfaces (V.28, RS485 and Ethernet) 6 M F 1 Ambient conditions: C Dimensions (WxHxD): 134x127x72 mm (master control element) 67x127x72 mm (power supply, I/O modules) Power supply PS-6630 Power supply DC V EMC G G A A 0 PS-6632 Power supply DC V EMC G G A A 0 Master control element Mandatory 1 x CP-6010 EMIC Master control module G A A A 0 Mandatory 1 x Flash card 2 GB G A A A 0 Up to 8 modules for: Up to 8 modules for: Up to 8 modules for: Up to 2 modules for: Max. 8 I/O modules per master control element applicable Binary Inputs DI-6100 Binary input 2x8, DC V G B A A 0 DI-6101 Binary input 2x8, DC 110/220 V G B A A 0 DI-6102 Binary input 2x8, DC V, 1 MS G B A A 0 DI-6103 Binary input 2x8, DC 110/220 V, 1 MS G B A A 0 DI-6104 Binary input 2x8, DC 220 V G B A A 0 Analog Inputs AI-6300 Analog input 2x2 ± 20 ma/± 10 V G D A A 0 AI-6307 Analog input 2x2 ± 5 ma/± 10 V G D A A 0 AI-6308 Analog input 2x2 ± 2 ma/± 10 V G D A A 0 AI-6310 Analog input 2x2 PT100/NI G D A A 0 Binary Outputs DO-6200 Binary output transistor 2x8 DC V G C A A 0 DO-6212 Binary output relay 8x DC V/AC 230 V G C A A 0 DO-6220 Command output basic module G C A A 0 DO-6221 Command output basic module with measurement G C A A 0 DO-6230 Command output relay module G C A A 0 Analog Outputs AO-6380 Analog output 4x ± 20 ma/± 10 ma/± 10 V G D A A 0 6 Accessories CM-6810 TM I/O-Modules extension cable G J A A 0 Modem-cable TM 1703 MIC for CE-070X G C A A 1 Modem-cable TM 1703 MIC for CTC35-Modem G C A A 1 DSUB 9POL connector locking G C A A 0 WMOD Eurocom for 1703 DIAL UP config B A A A 0 W/SMOD Westermo Modem for SAT B A A A 0 Westermo TD-35LV 102 0BA16 0AA0 GSM Modem Dual-band B A A A 0 GSM Antenna 102 0BA31 0AA0 CE-0700 Leased line modem for B C A A 0 CE-0701 Chan. unit f. top hat rail C A A A 0 CM-0829 RS232/RS422; RS485 Converter isolated A J A A 0 CM-0821 Fieldbus-Int. Ring (3 x FO, 1 x el.) A J A A 0 CM-0822 Fieldbus-Interface Star (4 x FO) A J A A 0 CM-0823 Fieldbus-Interface (3 x FO,1 x RS485) A J A A 0 CM-0828S232/RS485 Converter isolated A J A A 0 TPP_3M TP patch cable 3M CAT 5, gray B C A A 1 Dust protector for D-SUB A A A A 0 Supply cable for Modem CE070X/DCF E A A A 0 TC6-200 Withdrawal aid for terminals G C A A 1 6.5/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

157 Flexible control and monitoring system SICAM MIC Controlling and telecontrol for small data volumes

158 SICAM MIC Contents page Description 6.6/3 Selection and ordering data 6.6/6 6 The technical data can be found in the device manual at: 6.6/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

159 SICAM MIC Description Figure 6.6/1 SICAM MIC Description SICAM MIC (Terminal Module for microcontrol) is a low-cost, modular, telecontrol substation and belongs to the proven automation family. The devices consist of a master control element and various I/O modules and are designed for DIN rail mounting. The master control element serves for the interfacing and supplying of the I/O modules and provides a telecommunications interface in accordance with IEC for dial-up or multi-point traffic. Alternatively, LAN/WAN communication can be used, according to IEC over TCP/IP. Integrated web server for simple engineering Great importance has been placed on keeping the engineering process as simple as possible. The master control element has an integrated web server for configuration, diagnostics and testing, so that no special tools or additional licenses are needed. The tool is already integrated in SICAM MIC and is operated with a standard web browser. Plug & Play for servicing and commissioning The configuration parameters in SICAM MIC are already stored on an SIM card of the kind used in mobile phones. When commissioning or servicing, the configuration is simply transferred to the new device when the SIM card is inserted. Additional advantages of the SIM card are that all data is always available locally and there is no possibility of accidentally loading incorrect parameters (for example from a PC). Configuration is also possible with an offline tool without destination system hardware and can be carried out very simply at any desk. The fully written SIM card transfers the complete configuration into SICAM MIC. A web browser is the only requirement for any changes or local tests. Alternatively, the engineering process can also be carried out with the SICAM TOOLBOX II. 6 SICAM Substation Automation and RTUs Product Catalog Edition /3

160 SICAM MIC Description NTP Control system IEC SICAM MIC Radio, fiber optics, cable, etc. IEC Telephone network(s) analog, digital IEC Dial-up traffic SICAM MIC Multipoint traffic Configuration example Figure 6.6/2 Network configuration Typical applications of SICAM MIC SICAM MIC can be operated optionally in multi-point or dialup traffic, or via LAN/WAN networks. Transmission conforms to IEC or IEC Multi-point traffic For transmission in multi-point traffic, external data transmission equipment can be connected via the V.28 interface. In this way, it is possible, for example, to use power lines for communication by means of DLC modems. Dial-up traffic A wide range of connection-oriented transmission media (analog, ISDN, GSM, TETRA) is supported as standard for dial-up traffic as well. LAN/WAN IEC compliant transmission based on Ethernet TCP/IP is used for communication via LAN/WAN networks. Configuration, diagnostics and testing are possible from any access point to the network including remote locations. 6 SICAM MIC the system in detail Functions of the master control elements Central processing functions Saving the parameters on SIM card Interfacing and supplying of the I/O modules Telecommunication or LAN/WAN interface 6 binary inputs 2 relay outputs Watchdog output Power supply Master control unit up to 8 I/O modules Figure 6.6/3 Device configuration 6.6/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

161 SICAM MIC Description SICAM MIC the advantages at a glance SICAM MIC is a universal system suitable for electricity distribution stations, hydro-electric power stations, pipelines, gas distribution stations, railway power supplies and tunnels, and for building protection and alarm sensors Simple configuration by means of integrated web browser with no special tools or licenses, configuration, diagnostics and testing via integrated web server Alternatively, engineering is also possible with the SICAM TOOLBOX II Simple application programs Plug & Play with SIM card for data storage when commissioning and servicing: no tools needed for changing modules; offline and duplication tool for SIM card Direct connection of process cables 35 mm DIN rail mounting Communication via IEC /104 Multi-point traffic: analog or digital radio telecommunications cable DLC modem (Distribution Line Carrier) Dial-up traffic: analog telephone networks ISDN GSM TETRA (TErrestrial Trunked RAdio) TCP/IP communication: LAN (local area network) WAN (wide area network), GPRS/EDGE Figure 6.6/4 Project engineering Figure 6.6/5 SICAM MIC 6 SICAM Substation Automation and RTUs Product Catalog Edition /5

162 SICAM MIC Selection and ordering data Description Variants Order No. Small RTU with 1 communication interface (V.28, or Ethernet) 6 M F 1 Ambient conditions: C Dimensions (WxHxD): 67x127x72 mm Power supply Either 1 x PS-6630 Power supply DC V EMC G G A A 0 or 1 x PS-6632 Power supply DC V EMC G G A A 0 Master control element Either 1 x CP-6020 MIC Master control ET10TX/V.28/8Mod G A A A 0 or 1 x CP-6040 MIC Master control G A A A 0 ET10TX/Ethernet/8Mod Mandatory 1 x SIM card 32KB G A A A 0 power supply Max. 8 I/O modules per master control Up to 8 modules for Binary inputs DI-6100 Binary Input 2x8, DC V G B A A 0 DI-6101 Binary Input 2x8, DC 110/220 V G B A A 0 DI-6102 Binary Input 2x8, DC V, 1MS G B A A 0 DI-6103 Binary Input 2x8, DC 110/220 V, 1MS G B A A 0 DI-6104 Binary Input 2x8, DC 220 V G B A A 0 Up to 8 modules for Analog Inputs AI-6300 Analog Input 2x2 ± 20 ma/± 10 V G D A A 0 AI-6307 Analog Input 2x2 ± 5 ma/± 10 V G D A A 0 AI-6308 Analog Input 2x2 ± 2 ma/± 10 V G D A A 0 AI-6310 Analog Input 2x2 PT100/NI G D A A 0 Up to 8 modules for Binary Outputs DO-6200 Binary Output Trans. 2x8 DC V G C A A 0 DO-6212 Binary Output Rel 8x G C A A 0 DC V/AC 230 V DO-6220 Command output basic module G C A A 0 DO-6221 Command output basic module G C A A 0 with measurement DO-6230 Command output relay module G C A A 0 6 Up to 2 modules for Analog Outputs AO-6380 Analog output 4x ± 20 ma/± 10 ma/± 10 V G D A A 0 Accessories CM-6810 TM I/O-Modules extension cable G J A A 0 Modem-cable TM 1703 MIC for CE-070X G C A A 1 Modem-cable TM 1703 MIC for CTC35-Modem G C A A 1 DSUB 9POL. Connector locking G C A A 0 WMOD Eurocom for 1703 DIAL UP config B A A A 0 W/SMOD Westermo Modem for SAT B A A A 0 Westermo TD-35LV 102 0BA16 0AA0 GSM Modem Dual-band B A A A 0 GSM Antenna 102 0BA31 0AA0 CE-0700 V.23 Leased line modem for B C A A 0 CE-0701 VFT Chan. unit f. top hat rail C A A A 0 CM-0829 RS232/RS422; RS485 Converter isolated A J A A 0 CM-0821 Fieldbus-Int. Ring (3 x FO, 1 x EL.) A J A A 0 CM-0822 Fieldbus-Interface Star (4 x FO) A J A A 0 CM-0823 Fieldbus-Interface Ring (3 x FO,1 x RS485) A J A A 0 CM-0828 S232/RS485 Converter isolated A J A A 0 TPP_3M TP patch cable 3 m CAT 5, GREY B C A A 1 Dust protector for D-SUB A A A A 0 Supply cable for Modem CE070X/DCF E A A A 0 TC6-200 Withdrawal aid for terminals G C A A 1 6.6/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

163 Flexible control and monitoring system SICAM SGU Compact and cost-efficient device for Smart Grid applications

164 SICAM SGU Content page Description 6.7/3 Selection and ordering data 6.7/4 6 The technical data can be found in the device manual at: 6.7/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

165 SICAM SGU Description Description Balancing supply and load is a challenge in a market with a growing energy demand and multiple decentralized energy resources. Even the most advanced management systems require numerous field devices to monitor and control the process level. Those devices usually have to be compact and costefficient and have to provide a secure communication interface even in remote locations. SICAM SGU 7XV5676 has such a secure and cellular communication build to connect with an energy management system. It can be used for smart grid purposes as various as demand response, DER controller for virtual power plants, renewable integration in microgrids, or small RTU (EEG-Box only for German version). Based on a powerful and future-proof hardware and software platform, SICAM SGU is designed for substations and rough industrial environment requirements. SICAM SGU is ready for today s and tomorrow s needs. The parameter setting of the SICAM SGU is simply carried out with a standard web browser at the PC which is connected via the Ethernet interface. No special engineering tool is required. OpenADR fit for demand response The SICAM SGU can be used as a field device in any demand response management system (DRMS) via the use of the interoperable and secure communication protocol OpenADR, a growing Smart Grid standard, where Siemens plays a key role with its expertise and integrated solutions. Communication The SICAM SGU can be used with an integrated GPRS modem to connect remote distributed energy resources. SICAM SGU provides a cost-efficient alternative to expensive wired installations and separate configuration of an external cellular modem. A VPN connection, based on IPsec, provides your application a secure way without intermediates. Even without IPsec, the integrated TLS provides end-to-end security for the OpenADR communication. Function overview Binary inputs, outputs and LEDs 6 ruggedized EMC-hardened binary inputs with pickup voltage threshold settable to DC 19 V, DC 88 V or DC 176 V for different station battery voltages 6 command relay outputs. Safe state of contacts after loss of connection settable by the user Signal/alarm outputs: 4 LEDs Housing Plastic housing for DIN rail mounting Dimensions: 96 x 96 x 100 mm (W x H x D) Protection class: IP20 Bild 6.7/1 SICAM SGU Standards CE, UL, IEC 60255, IEEE Temperature range From -25 C to +70 C Protocols, communication Electrical RJ45 Ethernet interface (100Base-TX) HTTP server, incl. password protection for critical actions SNTP client for time synchronization Variant 7XV5676-0JJ00-7AA1 OpenADR 2.0a, with integrated secure TLS Wide-range power supply: DC V ±20 % and AC V, Hz Variant 7XV5676-1JJ70-8AA2 IEC communication protocol Power supply: DC 24 V connected to SELV power supply GPRS communication Frequency bands: 850/900/1800/1900 MHz GPRS multi-slot class 10, coding schema 1 4 Data speed: 80 kbps in downlink and 40 kbps in uplink SIM card replaceable without opening device s cover 2 LEDs for GPRS status, SMA socket for external antenna Approvals: R&TTE (Europe) VPN security IPSec in tunnel mode with ESP Authentication/encryption based on pre-shared key or private key and X.509 certificates Internet key exchange protocol: IKEv1, IKEv2 Authentication algorithms: HMAC-MD5, HMAC-SHA1 Encryption algorithms: DES, 3DES, AES-(128, 192, 256) 6 SICAM Substation Automation and RTUs Product Catalog Edition /3

166 SICAM SGU Selection and ordering data Product description Variants Order No. SICAM SGU (Smart Grid Unit) 7 X V J J A A 1 DIN rail mounting device, IP20 Power supply: DC V, Dimensions (W x H x D): AC V 96mm x 96mm x 100 mm Digital I/O (6 DI/6DO) Web server for parameterization Protocol OpenADR 2.0 Ethernet port RJ45 and integrated Ethernet switch UL listing 7 X V J J A A 2 This SICAM SGU variant can be used as digital I/O unit Digital I/O (6DI/6DO) for remote Distributed Energy Resources (DER) Integrated GPRS Protocol IEC 104 with IPSEC Power supply: DC 24 V 1 This SICAM SGU variant can be used as compact RTU for remote Distributed Energy Resources (DER) Bundle with power supply SITOP PSU100C (AC V, DC V) 2 7 X V J L A A 2 Digital I/O (3DI/3DO) Analogue I/O (2AI/2AO) Integrated GPRS Protocol IEC 104 with IPSEC Power supply: DC 24 V 1 Bundle with power supply SITOP PSU100C (AC V, DC V) /4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

167 Flexible control and monitoring system Distribution-System Automation

168 Distribution-System Automation Contents 7. Distribution-System Automation page 7.1 SICAM FCM 7.1/3 7.2 SICAM DC 7.2/1 7.3 SICAM CMIC, EMIC, MIC, SGU see chapter SIPROTEC 7SC80 see SIPROTEC Compact Catalog 7.5 SICAM MMU, SICAM P85x, SICAM P50 see SICAM Power Quality and Measurements Catalog 7 The technical data can be found in the device manual at: 7.1/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

169 Flexible control and monitoring system SICAM FCM Keeping a finger on the pulse of your distribution network

170 SICAM FCM Contents page Description 7.1/5 Selection and ordering data 7.1/6 7 The technical data can be found in the device manual at: 7.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

171 SICAM FCM Description Requirements Precise fault location is the base for a quick service restoration at lowest costs. Monitoring the feeder condition such as load or cos φ helps to prevent critical network situations. Thereby, power system availability and reliability is improved in a very economic way. Description SICAM FCM is a fault locator which is based on protection know-how and newest low-power sensor technology. Using the neutral-point displacement voltage, reliable results in fault detection, especially for compensated and isolated networks, are achieved. Monitoring of capacity utilization of distributionnetwork components is supported by comprehensive measurands which give an overview on the network status. An instantaneous reading of the load, e.g. of a particular transformer running at 120 %, enables load shedding exactly where and when necessary. Therefore, SICAM FCM provides all information via Modbus RTU to judge the distribution-network health condition. 3 Figure 7.1/1 SICAM FCM control display 1 1. LC display 2. 4 function keys 3. 3 status LEDs 2 Transparency in the cable network Short-circuit and earth-fault detection (directional) Fast fault localization < 40 ms High availability Network condition monitoring (voltage, current, active/ reactive/apparent power, power factor, frequency) Early-stage detection of overload situations Reliable distribution network operation Load flow monitoring (maximum, minimum and mean values every 15 minutes) Load curves for planning network expansion Optimum investment planning Benefits: Usable in grounded, isolated and compensated networks. Directional short-circuit and ground fault detection. Exact and fast fault localization minimizes staff and traveling expenses. Selective fault information with direction indication used as a basis for self-healing applications. Service restoration times possible in the range of minutes or seconds (depending on the primary equipment) Minimal loss of network fees/end consumer fees. Reliable measured values for operation management and planning. Targeted use of investment resources in the network planning and network expansion. Use of low-power sensors and high-quality measurement equipment with a measuring accuracy of 99 %. SICAM FCM is the first short-circuit indicator which uses sensors in line with IEC /-8 standard. This enables high-precision measurements without calibration and adjustment to the primary variables. 7 SICAM Substation Automation and RTUs Product Catalog Edition /5

172 SICAM FCM Selection and ordering data Description Equipment for use Order No. SICAM FCM with existing sensors in solid or lowresistance grounded systems in isolated or compensated systems with conventional transformers (1 A) SICAM FCM Directional short-circuit/earth-fault indicator incl. monitoring Sensor for phase current Low-power sensor A, IEC , Split-core transformer 55 mm inside diameter Sensitive core-balance sensor Sensitive low-power sensor A, IEC , Split-core transformer 110 mm inside diameter 1 A adapter Transformer for 3 inputs (1 A) in low-power signal Voltage sensor 12 kv 10 kv/ 3 3,25 V/ 3, IEC for T connector with C cone Voltage sensor 24 kv 20 kv/ 3 3,25 V/ 3, IEC for T connector with C cone * Optional for measuring function 1 x 1 x 1 x 1 x 6MD2320-1AA00-1AA0 3 x 2 x 6MD2320-0GA00-1AA0 1 x 6MD2320-0AF00-1AA0 1 x 6MD2320-0AA10-1AA0 3 x* 3 x 6MD2320-0AA04-1AA0 3 x* 3 x 6MD2320-0AA07-1AA0 Figure 7.1/2 1A adapter Figure 7.1/3 Voltage sensor 7 Figure 7.1/4 Current sensor 7.1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

173 Flexible control and monitoring system SICAM DC Smart Grid infrastructure data concentrators for a more intelligent power supply network

174 SICAM DC Contents page Description 7.2/3 Technical data/selection and ordering data 7.2/4 7 The technical data can be found in the device manual at: 7.2/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

175 SICAM DC Description Description Smart Grid is a consistently intelligent power supply system that ensures a reliable and efficient power distribution in order to meet the constantly increasing requirements imposed on our power supply. The AMI (Advanced Metering Infrastructure) systems make a major contribution to the implementation of this task. The individual system components from the smart meter and data concentrator to the central IT provide power consumption data of the connected customers as well as information necessary for the network control so that the optimal power supply is ensured. Applications The data concentrator is one of the most important components within the AMI system and plays a key role in this context. The following two complementary applications can be roughly identified: 1) Communication gateway for data from smart meters ensures reliable data transmission (power consumption etc.) from all connected smart meters to and from the central IT, e.g. Siemens Energy IP. 2) Intelligent network node provides important data for the network operation and works as an active element in the network control. The SICAM DC data concentrator, developed on the basis of experience gained from smart metering and power automation projects, enables the implementation of consistent and highly available intelligent power supply networks the Smart Grids. Figure 7.2/2 SICAM SGU Communication To ensure the communication with the connected smart meters, the SICAM DC provides power line communication (PLC) based on PRIME 1) and DLMS/COSEM 2). The communication from the data concentrator to the central IT can be performed via glass fiber, Ethernet, radio (e.g. GPRS, WiMax) or B-PLC (Broad Band Power Line Communication). The SICAM DC provides web services for the data transmission. Operation The SICAM DC is the first data concentrator with display and function keys for local operation offered by SIEMENS. Apart from the display, the integrated web server also simplifies handling. As a result, the fast and easy interaction with the device is possible without additional tools. Network control station Meter Data Management (energyip) Control Center (Spectrum Power) Communication connection in the company Communication Substation Household SICAM DC Concentrator CU/FO Ethernet Ethernet Switch (RUGGEDCOM) Ethernet BPLC BPLC (MV) modem BPLC (MV) modem LV-PLC (PRIME) LV-PLC (PRIME) LV-PLC (PRIME) LV-PLC (PRIME) PRIME Smart Meter PRIME Smart Meter PRIME Smart Meter PRIME Smart Meter Router WiMAX (RUGGEDCOM) Ethernet Ethernet Ethernet SICAM SICAM DC SICAM SICAM DC SICAM SICAM DC CMIC Concentrator CMIC Concen- CMIC Concen- Automation Autotrator Autotrator I/O I/O mation I/O mation I/O SICAM CMIC Automation 7 Figure 7.2/1 Siemens smart metering solution 1) PRIME PoweRline Intelligent Metering Evolution 2) DLMS/COSEM Device Language Message Specification/ COmpanion Specification for Energy Metering SICAM Substation Automation and RTUs Product Catalog Edition /3

176 SICAM DC Technical data/selection and ordering data Technical data Communication interfaces and protocols 2 x Ethernet LAN 10/100BASE-TX 1 x RS-232, 1 x RS-485 Web services and file transfer for communication with the central IT Power Line (PLC) signal injection PRIME Base Node conformity DLMS/COSEM protocol for communication with smart meters Operation and Display Local operation via 4 function keys and display (74 x 56 mm) Power, ready und error LED, status LEDs of communication interfaces Real Time Clock +/- 2 ppm, maintenance-free, buffered, time synchronization via NTP (Network Time Protocol) Electromagnetic Compatibility IEC , IEC 61010, IEC , IEC Auxiliary Voltage AC 230 V DC 24 V Signal Inputs 2 galvanically isolated digital inputs (DC V) Temperature Range From -40 C to +70 C Housing Specification Plastic housing for DIN rail mounting Dimensions: 128 x 124 x 123 mm (W x H x D) Protection class: IP20, front IP40 Special Features Integrated web server for configuration and diagnostics Data storage via SD memory card (for meter data and device firmware) Integrated Ethernet switch for the connection of additional devices Product description Variants Order No. SICAM DC 6 M F A B A A 0 SICAM DC is a data concentrator for e-meters Small compact device with display with power-line communication with an SD-card slot DLC communication PRIME as data memory for user data Temperature range -25 to +70 C Interfaces: 2x Ethernet, 1x RS232, 1x RS485, PLC 2* DI (DC V) 0 Communication (Prime Standard) Power Supply 230 V Small compact device with display UPS functionality with interface to a 24 V plumb DLC communication PRIME accumulator with temperature supervision Temperature range -40 to +70 C Aux Output 24V for external modem supply 2* DI (DC V) 1 Contact Wetting Output 24 V for digital input 7 7.2/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

177 Flexible control and monitoring system Acessories

178 Acessories Contents 8. Acessories page 8.1 SICAM I/O-Unit 8.1/3 8.2 SICAM AI Unit 8.2/ /2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

179 Flexible control and monitoring system SICAM I/O-Unit with 6 binary In-/Outputs

180 SICAM I/O-Unit with 6 binary In-/Outputs Contents page Description/Function/Features 8.1/5 Operation features and application 8.1/6 Application 8.1/7 Application example 8.1/12 Selection and ordering data 8.1/13 8 The technical data can be found in the device manual at: 8.1/4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

181 SICAM I/O-Unit with 6 binary In-/Outputs Description/Function/Features Description SICAM I/O-Unit 7XV5673 is a binary input/output device and is designed for substations and increased industrial environment requirements. The SICAM I/O-Unit allows the transmission of binary inputs to binary outputs locally or via long distances. It can be used for protection applications, e.g. overcurrent protection, signal comparison, teleprotection or as I/O expansion in substation automation systems. Function Via binary inputs, all kinds of binary signals of switchgear/ protection scheme (for example tripping commands, switch position signal, fault and status indications) are securely detected. This information can directly be distributed at this SICAM I/O-Unit via contacts, or be transmitted via communication links to further SICAM I/O-Units or to automation systems. Secured telegrams are used for the communication via Ethernet or serial connections. The parameter setting of the I/O-Unit is simply carried out with a standard web browser at the PC which is connected by the Ethernet interface. The SICAM I/O-Unit can be set as: I/O mirror: Point-to-point transfer of binary signals between two SICAM I/O-Units via Ethernet or a serial connection. Signal inputs and outputs assignable by the user. I/O expansion: Expansion of substation controllers by binary inputs and outputs using standard protocols. Detection and output of binary states by substation controllers via standard protocols Modbus RTU, Modbus TCP or IEC Extension for protection devices of the compact class 7SJ80 and 7SK80 via connection on their low-cost Ethernet interface (LEM). Contact multiplier: Distribution of signals on one or several binary inputs via relay contacts of the same SICAM I/O-Unit, e.g. for isolation between different voltage levels. Figure 8.1/1 7XV5673 I/O-Unit binary I/O mirror, binary I/O expansion, contact multiplier Electrical RJ45 Ethernet interface Cascading many devices without additional costs by the use of the integrated switch Serial fiber-optic interface (optional) ST connector, 820 nm for multi-mode fiber 62.5 μm/ 125 μm, typical range 2000 m using fiber 62.5 μm/125 μm, baud rate 1.2 kbit/s kbit/s settable per software Serial RS485 interface (optional) Sub-D plug, 9-pole female Protocols, communication Modbus TCP or Modbus RTU for connection to a substation controller Modbus UDP for point-to-point connections between two I/O-Units SNTP for time synchronization IEC (GOOSE and reporting) Housing IP20 rail mounting Standards CE, UL, IEC 60255, IEEE Environmental conditions EMC-hardened binary I/O for substation environment Extended high temperature range up to 85 C (16 h/day) Features Binary inputs 6 ruggedized EMC-hardened binary inputs Pickup voltage threshold settable to DC 19 V, DC 88 V or DC 176 V for different station battery voltages Binary outputs 6 command relay outputs Safe state of contacts after loss of connection settable by the user Signal/alarm outputs 4 LEDs Wide-range power supply DC V ± 20 % and AC V Hz 8 SICAM Substation Automation and RTUs Product Catalog Edition /5

182 SICAM I/O-Unit with 6 binary In-/Outputs Operation features and application Operation features Easy parameterization with a standard Internet browser (no special software required) Password protection against unauthorized access Monitoring of data errors, loss of connection, transfer time and the state of BI, BO Time synchronization with SNTP protocol with 1 ms resolution from an external time server over Ethernet, redundant time servers are supported Buffer battery changeable from the front Fast I/O mirror: Fast transmission time from BI pickup to contact closing between two I/O-Units typically 11 ms for highbandwidth connection Connection to a substation controller over Modbus TCP, Modbus RTU or IEC protocol (GOOSE, MMS, Reporting) Blocking of data transmission with a binary input for testing Battery-buffered operational event log with 1-ms-resolution time stamp Assignment of BI/BO signals which shall be logged into the operational buffer Integration into network management systems with SNTP protocol and provided MIB files. Extension of the transmission distance An extension of the transmission distance is possible. The following devices can be used: With serial optical repeater 7XV5461 scalable up to 170 km RS485-FO Converter 7XV5650 for cascading devices With different communication converters Uni-directional binary signal transmission When using the SICAM I/O-Units for uni-directional binary signal transmission according to figure 5.4/3, the devices transfer binary signals uni-directional from one device to several devices. In this application, the transmission only takes place in one direction. Input signals (max. 6) from the left unit are sent to the output contacts of one or more units on the right side. Application I/O mirror function When using the SICAM I/O-Units as I/O mirror according to figure 8.1/2, the devices transmit the binary signals bidirectionally. The transmission takes place between the two devices over serial links (option) or over Ethernet networks. Via the relay output contacts, voltages up to AC/DC 250 V and currents up to AC/DC 5 A can be switched. The pick threshold of the binary inputs can be set by the user on different levels. Signal inputs and outputs can be assigned by the user. Figure 8.1/3 I/O mirror, uni-directional transmission from one to multiple I/O-Units Figure 8.1/2 I/O mirror, bi-directional transmission between two devices 8 8.1/6 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

183 SICAM I/O-Unit with 6 binary In-/Outputs Application SICAM I/O expansion of a substation controller The SICAM I/O-Unit is used as I/O expansion, according to figure 8.1/4. Binary signals are exchanged between a substation controller (e.g. SICAM PAS) and the SICAM I/O-Units by using the Modbus TCP protocol over an Ethernet network. If the integrated switch in the SICAM I/O-Unit is used, the units can be operated in a line without using additional external switches as shown in figure 8.1/4. Also, IEC client server communication will be provided in future. Up to two I/O Units can be used as a binary expansion of SIPROTEC 7JS80 and SIPROTEC 7SK80. The connection is connected via Ethernet. The condition of the binary input can be read in of SIPROTEC 7J80/7SK80 and processed in the device. Logical singals of the device can be issued over contacts of the I/O Units. Figure 8.1/4 SICAM I/O expansion of a substation controller with binary inputs and outputs Figure 8.1/4-1 SICAM I/O expansion of a substation controller with binary inputs and outputs e.g. SIPROTEC Compact 8 SICAM Substation Automation and RTUs Product Catalog Edition /7

184 SICAM I/O-Unit with 6 binary In-/Outputs Application Uni-directional binary signal transmission Instead of using an Ethernet network, there is also the option of serial connection with Modbus RTU protocol. The link can be done by a RS485 bus line structure or an optical star network. Contact multiplier Input signals on one or more binary inputs can be assigned to binary outputs of the local device (figure 8.1/6). 1 binary signal on up to 6 relay outputs Several binary signals to several relay outputs assignable by the user Different voltage levels for inputs and outputs in a wide voltage range to isolate between different voltage levels Figure 8.1/5 SICAM I/O expansion for the connection to substation controller using a serial optical star topology Figure 8.1/6 Contact multiplier 8 8.1/8 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

185 SICAM I/O-Unit with 6 binary In-/Outputs Application The figure below shows the optical connection of an SICAM I/O-Unit to a communication converter (KU-XG) 7XV5662-0AA01, which establishes a connection to a multiplexer with G or X.21 interface. This allows the use of this communication converter to transfer the signals via communication network. The average delay time in the network and the signal quality is monitored by the SICAM I/O-Unit. Also, loss of connection is indicated. In this case, the state of the binary outputs can be set by the user to a safe condition depending on the application. A maximum of 6 binary single signals can be transmitted bi-directionally via the communication network. Figure 8.1/7 Binary signal exchange over a communication converter with G.703.1/X.21 interface via a communication network 8 SICAM Substation Automation and RTUs Product Catalog Edition /9

186 SICAM I/O-Unit with 6 binary In-/Outputs Application Binary signal transmission via two-wire copper cable with blocking Figure 8.1/8 shows the optical connection of an SICAM I/O-Unit to a communication converter 7XV5662-0AC01, which establishes a connection via pilot wire. Only one pair is necessary for bi-directional signal exchange. An additional isolation transformer allows 20 kv isolation from the pilot wire connection. A maximum of 6 binary single signals can be transmitted bidirectionally over the pilot wire. The additional delay caused by the transfer over the communication converter and pilot wire is less than 1 ms. Binary signal exchange over long fiber-optic links Figure 8.1/9 shows the optical connection of an SICAM I/O- Unit to a serial optical repeater 7XV5461-0BX00, which establishes a connection to multi-mode or single-mode fiber cables. A max. distance of 170 km can be reached with this application without additional amplifiers. A maximum of 12 binary signals can be exchanged via long fiber-optic links connections because the repeater allows the connection of two SICAM I/O-Units. A typical application is the signal comparison of a directional overcurrent protection device via pilot wires. In this case, the definite time-overcurrent protection device is connected to the SICAM I/O-Unit via contacts, and binary inputs and directional signals are transferred. Figure 8.1/8 Binary signal exchange of 6 signals via pilot wire connection 8 Figure 8.1/9 Binary signal exchange of up to 12 signals over long fiber-optic links 8.1/10 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

187 SICAM I/O-Unit with 6 binary In-/Outputs Application Figure 8.1/10 shows the optical connection of one up to three SICAM I/O-Units to a communication converter KU-2M 7XV5662-0AD00, which establishes a connection to a multiplexer with a G interface (1.44 kbit/s/2 Mbit/s, E1/T1). A maximum of 18 binary single signals can be transmitted bidirectionally over the communication network. The KU-2M is provided with two optical and one electrical RS232 interface. Two SICAM I/O-Units can be directly connected to the KU-2M by an optical cable. On the RS232 interface, an additional SICAM I/O-Unit can be connected via an optoelectronic converter. Using all input interfaces (2 FO, 1 RS232) of the KU-2M, a maximum of 18 signals can be exchanged bi-directionally. For configuring the IEC GOOSE Subscriber-Configuration, the SICAM I/O Mapping Tool is used. When the substation configuration is ready, the SICAM I/O Mapping reads the SCD data of the substation configuration and creates a binary IEC parameter set, which can be uploaded over HTML. For long-distance connections via Ethernet, media converters or Ethernet networks can be used. The SICAM I/O-Unit supports IP address settings and settings for a standard gateway. The electrical Ethernet interface of the SICAM I/O-Unit is connected to a media converter or switch, which transfer the signals of the units over long-distance Ethernet connections. The average delay time in the network is measured by the SICAM I/O-Unit. Device configuration The I/O-Unit is equipped with an integrated web server, which allows easy setting using standard Internet browsers. Figure 8.1/11 shows the user interface. All settings are done with the browser. Also, operational log and commissioning aid are supported by the browser, such as the indication of the actual state of the inputs and outputs. Figure 8.1/11 Configuration screen of the I/O-Unit in the browser 8 Figure 8.1/10 Binary signal exchange with G interface via a communication network SICAM Substation Automation and RTUs Product Catalog Edition /11

188 SICAM I/O-Unit with 6 binary In-/Outputs Application example Binary signal transmission via a optical-fiber or wireless connection The application (figure 8.1/12) shows the electric connection of a SICAM I/O-Unit 7XV5673 to Ethernet-based transmission devices via patch cable, which establish a connection via optical fibers on the remote side or a wireless connection. The connection could also be realized via switches with longdistance modules or via IP networks. Figure 8.1/12 Binary signal transmission via optical fibers or wireless connection; connection via the integrated Ethernet interface to external transmission devices 8 8.1/12 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

189 SICAM I/O-Unit with 6 binary In-/Outputs Selection and ordering data Description Order No. SICAM I/O-Unit with 6 binary In- and Outputs 7XV J J 0 A A 1 SICAM I/O-Unit, integrated electrical Ethernet interface, RJ45 connector Device type Dimensions 96 mm x 96 mm x 100 mm (W x H x D) Inputs and outputs 3 binary inputs with adjustable threshold voltage, 3 relay outputs (2 NO, 1 CO) 3 binary inputs with adjustable threshold voltage, 3 relay outputs (2 NO, 1 CO) Serial interface and communication protocol Without serial communication 0 RS485 Modbus RTU, I/O mirror 1 FO 820 nm Modbus RTU, I/O mirror 2 Protection class DIN rail mounting device without display, IP20 Ethernet interface and communication protocol Ethernet interface with Modbus TCP/UDP or I/O mirror 1 Ethernet interface with Modbus TCP/UDP, I/O mirror or IEC (GOOSE, MMS, reporting) 2 Specials Integrated Ethernet switch Accessories Y cable 7KE G D B A 2 8 SICAM Substation Automation and RTUs Product Catalog Edition /13

190 8 8.1/14 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

191 Flexible control and monitoring system SICAM AI Unit 20-mA Input Acquisition Device

192 SICAM AI Unit Contents page Description 8.2/3 Selection and ordering data 8.2/6 8 The technical data can be found in the device manual at: 8.2/2 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

193 SICAM AI Unit Description Description The SICAM AI Unit 7XV5674 is used for the acquisition of analog signals from automation processes and for the transmission of measured values to a connected supervisory system or control center over communication protocol. The modules of the device detect, calculate, analyze and transmit measured values. SICAM AI Unit offers twelve 20-mA inputs referring to the standard IEC The 20-mA inputs are divided into 2 groups, on 2 boards each with 6 channels. Device type: DIN rail mounted device Plastic case 96 mm x 96 mm x 100 mm (W x H x D) Protection class IP20 Application The SICAM AI Unit 7XV5674 can support diverse applications. For acquiring DC field signals, SICAM AI Unit 7XV5674 can be applied in the following application fields: Protection SCADA DMS EMS systems GIS (Gas-Insulated Switchgear) gas pressure monitoring Other industrial processes For example, 4-mA to 20-mA signals coming from transducers (for example, for monitoring of: power, temperatures, pressure and position) are delivered over standard protocol for further processing, as visualization or connection to other automation processes. The DC inputs from SICAM AI Unit 7XV5674 can be parametrized to support the following ranges: DC 0 ma to 20 ma DC 4 ma to 20 ma The measuring accuracy amounts to 0.2 % of the rated value (20 ma) under reference conditions. The measuring accuracy amounts to 1.0 % of the rated current (20 ma) under environmental impact. Figure 8.2/1 SICAM AI Unit Highlights Wide application field (SCADA, protection and automation processes) Connection to serial or Ethernet interfaces of SIPROTEC 4 or 5 devices Connection to all protection and field devices using IEC GOOSE messages and IEC reporting Compact and robust design (-25 C to 70 C operation temperature) Flexible communication variations (Ethernet, optical fiber or electrical RS485) Modbus RTU/TCP, SIPROTEC 20 ma Serial or Ethernet interface to SIPROTEC 5 devices via SUP protocol Accurate process measurement (0.2 % reference conditions) Time synchronization over NTP Internal switch allows cost savings The integrated web server allows you to configure the parameters via HTML pages using a web browser 8 Figure 8.2/2 Application example SICAM Substation Automation and RTUs Product Catalog Edition /3

194 SICAM AI Unit Description Measurands Only direct currents are measured with SICAM AI Unit. The measurement cycles on the board 1 and board 2 are carried out simultaneously. A complete measurement cycle amounts to 642 ms for 6 channels. The measurement of one channel amounts to 107 ms and is repeated after 642 ms. Limit settings With the automation functions menu, you can set up to 16 upper or lower limit violations. Limit violations of the upper or lower value range can be output as indications. Up to 4 limit value violations can be signaled at the device via the two binary outputs. 4 group indications can be parameterized and up to 16 logically linked single-point indications can be assigned to each of them. Communication To communicate with the substation controller and other peripheral devices, the SICAM AI Unit device has an Ethernet interface and optionally a serial interface (RS485 or optical). SICAM AI Unit is available in various variants: Communication via Ethernet Via Ethernet, the following functions are supported: Connection to SIPRPOTEC 5 devices via SUP (Slave Unit/Protocol) Device parameterization Transmission of measured data Transmission of indications Time synchronization via NTP Communication protocols Modbus TCP and IEC (reporting and GOOSE) Integrated Ethernet switch Serial interface The serial interface as electrical RS485 or optical can be chosen: Without serial interface With RS485 interface With optical interface The serial interface supports the following functions: Transmission of measured data Transmission of indications Time synchronization via Modbus RTU If the serial interface is selected, you can use either the Modbus RTU or the SIPROTEC RTU 20 ma communication protocol. Time synchronization During operation, SICAM AI Unit needs the date and time for all time-relevant processes. This ensures that a common time basis exists when communicating with peripheral devices and enables time stamping of the process data. The following types of time synchronization can be executed: External time synchronization via Ethernet NTP (preferred) External time synchronization via field bus using the Modbus RTU communication protocol Internal time synchronization via RTC Real Time Clock (if external time synchronization is not available) With the Ethernet switch that is integrated in the device, further network components can be cascaded via a Y cable, and can therefore also be incorporated in an existing network with IEC or another Ethernet protocol /4 SICAM Substation Automation and RTUs Product Catalog Edition 2.0

195 SICAM AI Unit Description Indications signaled by LEDs SICAM AI Unit automatically monitors the functions of its hardware, software and firmware components. The LEDs on the top side of the housing indicate the current device status. Parameterization No special software is needed for parameterization. You can set the parameters from your computer via HTML pages and a web browser. Internet Explorer 6 (or higher) is necessary for this purpose. Accessories The following components are optionally available: Device manual E50417-G1140-C492 (download available at Y cable, order no. 7KE6000-8GD00-0BA2 Ethernet patch cables (CAT6) RS485 cables for SIPROTEC devices 6XV E RS485 bus connectors for SIPROTEC devices, 6ES7972-0BA42-0XA0, 6ES7972-0BB42-0XA0 RS485 cable for SIPROTEC device 6XV E Order information for assembled fiber-optic cable (FO cable) can be found in the SIPROTEC download area at under accessories, 6XV81xx. Further details on the accessories of the device can be found at: Figure 8.2/3 Application example 8 SICAM Substation Automation and RTUs Product Catalog Edition /5