DMS8000 MP4.
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About this document ............................................................................................... 5 1 Introduction – products concept ........................................................... 9 1.1 Danger management systems .................................................................. 9 1.2 1.3 Connectivity – NK8000 networks ............................................................ 10 1.2.1 Which NK8000 Ethernet Port to choose? ................................. 10 1.2.1.
3.3.3 3.3.3.1 3.3.3.2 3.3.3.3 3.3.3.4 3.3.3.5 3.3.3.6 3.4 Subsystem connectivity solutions ............................................. 63 Subsystems connected via BACnet ......................................... 64 Subsystems connected via RS232 interface ............................ 65 Subsystems connected via RS485 interface ............................ 66 Subsystems connected via USB LON interface ....................... 67 Cerloop network connected via MK7022 ..................................
Introduction – products concept About this document Scope This document applies to the following Siemens DMS8000Danger Management System products: − MM8000 Management Station − MK8000 OPC Server for Subsystems − NK8000 Networks (With WW8000 Composer) Target audience This documentation is intended for the following users: Sales Representatives are the first contact to the customer’s buying center who establish the relationship.
Introduction – products concept Documentation resource information The DMS8000 Documentation Resource Information and Glossary Guide assembles important information regarding documentation resources.
Introduction – products concept Current version Date Notes A6V10063710_a_en 09.2014 15th Application & Planning edition for all Siemens DMS, Network, and 3rd party products (MP4.70) - CS6 connectivity on NK823x - Web and mobile client connectivity (Web Services) - Mimic display client - Support for Windows Hyper-V virtual environment - NK823x firewall and router - NK823x Web Server for monitoring and configuration - FTP passive mode supported A6V10063710_a_en 06.
Introduction – products concept Current version Date Notes A6V10063710_b_en 12.2009 9th Application & Planning edition for all Siemens DMS, Network, and 3rd party products (MP4.20-01) Updates include: – Documentation pertaining to release of NK823x products MP4.20-01 8 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Introduction – products concept 1 Introduction – products concept One of Siemens Infrastructure and Cities Sector, Building Technologies Divisions’ (IC BT) primary goals is to be able to provide complete integration solutions to our customers. Complete integration includes fire safety, security, and building automation systems built by various Siemens and third-party suppliers.
Introduction – products concept 1.2 Connectivity – NK8000 networks NK8000 connects various subsystems via TCP/IP or BACnet/IP over Ethernet or serial connectivity with the MM8000 and the MK8000 systems. The following make up the NK8000 product family: • NK823x (second generation of NK8000 Ethernet Ports): − NK8232 Ethernet Port for a single subsystem for DMS8000 systems − NK8235 Ethernet Port for DMS8000 systems − NK8237 Modbus Gateway for Sinteso and Cerberus PRO fire detection systems 1.2.
Introduction – products concept • Direct support for digital I/O modules connected via I2C bus. − Up to 32 non-supervised digital inputs − Up to 32 non-supervised digital relay outputs − Up to 16 balanced inputs • Interaction machine supporting logical combinations between locally connected subsystems → See section 4.4 on page 74 for subsystems supported. • Optional dial-up connectivity via modem for wide area extension systems. 1.2.1.
Introduction – products concept 1.4 What’s new The following is a list of modifications included in MP4.81 for new functions and software improvements. Modification index Section Modification Security Disclaimer inserted 5.1 New section NK8000 Security 5.4.2 List of NK823x port numbers updated 12 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Management level configurations 2 Management level configurations This section lists the management configuration types that are supported in DMS8000 MP4.81 for: − MM8000 Management Station − MK8000 OPC Server − NK8000 Networks To see network connectivity options, refer to Appendix A. 2.1 MM8000 Management Station/MK8000 OPC DA/UA Server configurations The following management configuration types are supported by MM8000/MK8000. Examples show the different site configuration options available.
Management level configurations 2.1.2 Peer to peer Characteristics: − Each station is a stand-alone, and therefore contains all the software layers (client, server, and communication) − The stations can be connected to the communication level configurations, e.g. NK82xx Ethernet ports, which allow multiple routing. Fig. 2 2.1.
Management level configurations The following distributed configurations are available: • Small/medium configuration: In this configuration, a main station provides for the server functions, including local and networked (NK82xx) communication. Then, one or more stations running the client are connected to the server (See Fig. 3 and Fig. 4.). Each client machine may contain any subset of the applications.
Management level configurations Fig. 4 MM8000/MK8000 + SiPass small/medium distributed configuration Note: MM8000/MK8000 and SiPass servers may reside separately. This is recommended for large/high connectivity configurations. For technical details, please contact customer support. https://intranet1.siemens.com/org/bt/en/business/support/Pages/csc-fs.aspx 16 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Management level configurations • Large/high connectivity configuration: In this configuration, the server layer and the communication layer are installed on separate machines. One or more front-end machines can be installed for a large connectivity over LAN for load distribution. Fig. 5 MM8000/MK8000 with multiple FEPs for communication load distribution • Fault-tolerant hardware configuration: For maximum reliability, the server hardware can be doubled and managed with Marathon everRun™ FT software.
Management level configurations • Multiple server configuration: For high reliability, the server is replicated, and a manual server switch functionality is available on the client station(s) if a backup solution is desired. If the server fails, the client can switch to another server configured for the same project thus ensuring minimum connectivity interruption. Up to four servers can be configured. Fig. 7 Multiple server distributed configuration Note: Clients can connect to only one server at a time.
Management level configurations • Multiple projects on separate servers configuration: MM8000 supports multiple projects residing on separate servers. These servers are available to client stations via a manual server switch functionality. This provides the ability to switch one or more clients from, for example, an intrusion to a fire network. Up to four servers are configurable. Fig.
Management level configurations 2.2 Support of mobile devices Mobile devices (smartphones and tablets) are supported in MM8000 by the DMS8000 Web Services and the MM8000 Alarms app. The DMS8000 Web Services interface (REST Web API) enables any client supporting this Representational State Transfer (REST) Application Program Interface (API) to handle MM8000 events. The MM8000 Alarms app is based on this interface and lets an operator view and handle events with Acknowledge and Reset commands.
Management level configurations → For details about the Mobile device requirements, Web Station Browser requirements and how to get and install the MM8000 Alarms app see the MM8000 Alarms Quick Start Guide (A6V10425977). To learn how to obtain this document, see the Documentation resource information section on p. 5. 2.2.2 Mobile devices connected via WLAN wireless network WLAN connections are mainly used in in-house applications because they are limited in range.
Management level configurations 2.2.3 Mobile devices connected via Internet The following picture shows a configuration where the MM8000 server is connected through a router with firewall to the internet, which is configured with a fixed public IP address. The mobile devices connect over the mobile telecommunication network to the internet. Fig.
Management level configurations 2.2.4 Mobile devices connected via UMTS The following picture shows a configuration where the MM8000 server is connected through a router with firewall and UMTS modem over the mobile telecommunication network to the internet. The mobile devices connect over the mobile telecommunication network to the internet. Whenever the router is connected to the Internet via mobile telecommunications, it is assigned a dynamic IP address.
Management level configurations 2.3 NK8000 network configurations NK8000 safety and security networks are supported by MM8000 and MK8000 MP4.81 in the configurations described in section 2.1 (up to four hosts). Additional configuration examples are illustrated in this section. 2.3.1 DMS8000 Multiple host configuration – CMSDL/IP Characteristics: − Communication layer equipped with NS8210 Network driver, CMSDL/IP protocol − Up to four hosts Fig. 13 2.3.
Management level configurations 2.3.
Management level configurations 2.3.4 DMS8000 multiple or single host – network redundancy with dual LAN Characteristics: − Communication layer equipped with NS8210 Network driver, CMSDL/IP or CEI 79-5 protocol, − Up to four hosts (limit two hosts for CEI) − Dual Ethernet connections for network redundancy If the primary NK823x Ethernet connection goes down, the NK823x can communicate with the management station(s) via the secondary Ethernet connection. Fig.
Management level configurations 2.3.5 DMS8000 – support of dial-up connections Characteristics: − Communication layer equipped with NS8210 Network driver and modem(s), CEI 79-5/IP protocol − NK82xx dial-ups as primary (no Ethernet connection) or secondary (in case network is down) via PSTN − Encryption supported − Up to two CEI hosts (NK823x only) Note: Dial-ups not supported on 2nd host Fig.
Automation level configurations 3 Automation level configurations 3.1 Configurations supported by MM8000/MK8000 The MM8000/MK8000 MP4.81 support the following: Automation level configuration types − Direct RS-232 − Cerloop − CDI-Net − NK8000 − Direct LAN − FCnet (SAFEDLINK) Network components − NK82xx − MK7022 − GW-21, GW20 Control units Note: For control unit versions, see MM8000 MP4.81 Release Notes (A6V10062509).
Automation level configurations Video systems: − SIMATRIX, SIMATRIX NEO video crossbars − SISTORE AX, CX, MX (including NVS*), MXpro, SX, Vectis HX and iX NVR/NVS − TELSCAN − IP cameras (fixed) equipped with: − CCIS1337-LP − CFVA-IP − CVVA-IP *Network Video Software Access control: − SiPass Integrated Access Control System − CerPass CC30 (connected via SiPass) Building automation: − DESIGO PX ‡ General automation and I/O systems: − SIMATIC S7 − MF7033/MM7033 digital PLC unit − DF8000 digital I/O systems Rem
Automation level configurations 3.2 Configuration types 3.2.1 ISO1745 direct configuration Fig. 18 ISO1745 direct configuration example System architecture This configuration allows for integration of CS11 AlgoRex (or FC700A) fire panels. The CK1142/43 (or FG700A) provides the liaison to MM8000/MK8000. Communication/connection The upstream side of the gateway (CK1142/43 or FG700A) is connected to the DMS via serial line.
Automation level configurations Type Name Version Gateway for CS11 CK1142/43 ‡ Gateway for FC700A FG700A ‡ Additional components required for the various management station types Type Additional components Name Version Foreign station OPC client head end Any OPC DA/UA compliant client OPC DA2.0x OPC UA 1.02 OPC Server MK8000 MP4.81 ISO1745 Driver NS8010 ISO1745 Driver NS8010 MM8000 MP4.81 Limits and restrictions Type Version Restrictions MM8000 MP4.
Automation level configurations 3.2.2 Cerloop configuration Fig. 19 Cerloop configuration example System architecture This configuration allows for integration of a number of Cerloop (proprietary Class A loop) connectable control panels. The MK7022 provides the liaison to MM8000/MK8000. Communication/connection The upstream side of the MK7022 gateway is connected to the DMS via serial line. The downstream side of the MK7022 is connected via Cerloop to different fire & security control units.
Automation level configurations Digital PLC unit MF/MM7033 X X Système de Télécommande et Télésignalisation STT11 X X Network devices required Type Name Version Gateway for Cerloop MK7022 ‡ Gateway for CS11 CK1142/43 ‡ Gateway for STT11 SK11 Additional components required for the various management station types Type Additional components Name Version Foreign station OPC client head end Any OPC DA/UA compliant client OPC DA2.0x OPC UA 1.02 OPC Server MK8000 MP4.
Automation level configurations 3.2.3 CS1115/FC330A direct configuration Fig. 20 RS-232 direct configuration example System architecture This configuration allows for integration of CS1115 (or FC330A) fire panels. Communication/connection Via serial line RS-232. Subsystems that can be connected in this way Type Name Fire panel CS1115 FC330A Supported by MM8000 MP4.81 MK8000 MP4.
Automation level configurations 3.2.4 SI410/420 direct configuration Fig. 21 Serial configuration via RS-232 example Fig. 22 Serial configuration via LAN tunnelling example System architecture This configuration allows for integration of SI410/420 intrusion panels. Communication/connection The connection can be via: − Serial line RS-232; − LAN, where the SI410/420 is equipped with a SMNxx (e.g. SMN42) serial/LAN adapter.* * External adapter (e.g. LANTRONIX UDS1100) can also be used.
Automation level configurations Type Name Intrusion panel Supported by MM8000 MP4.81 MK8000 MP4.
Automation level configurations 3.2.5 SPC 4000/5000/6000 LAN configuration Fig. 23 SPC 4000/5000/6000 LAN configuration example System architecture This configuration allows for integration of SPC 4000/5000/6000 intrusion panels. Communication/connection The SPC 4000/5000/6000 intrusion panels are connected to the DMS via LAN. Subsystems that can be connected in this way Type Name Intrusion panel Supported by MM8000 MP4.81 MK8000 MP4.
Automation level configurations 3.2.6 Access control LAN configuration Fig. 24 SiPass LAN configuration example System architecture This configuration allows for the integration of access control to MM8000 /MK8000. Communication/connection The Advanced Central Controller(s) (either SiPass ACC or CerPass CC30 via SiPass) manages communication between devices and the SiPass server. The SiPass server in turn manages communication to/from the DMS locally (see Fig. 24) or via LAN.
Automation level configurations Additional components required for the various management station types Type Additional components Name Version Foreign station OPC client head end Any OPC DA/UA compliant client OPC DA2.0x OPC UA 1.02 OPC Server MK8000 MP4.81 Access Control software SiPass Integrated SiPass Driver NS8018 MM8000/ MK8000 Limits and restrictions Type Version Restrictions MM8000 MK8000 MP4.81 – The SiPass driver can reside on a Server station only (no FEPs) – Max.
Automation level configurations 3.2.7 BACnet/IP LAN configuration Fig. 25 Direct BACnet/IP LAN configuration for subsystems example 40 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Automation level configurations PRO/STT20‡ Fig. 26 FS20 Sinteso/FS720 Cerberus configuration example on FCnet/SAFEDLINK Fig. 27 FS20/FS720 multiple SAFEDLINK loop configuration example System architecture This configuration allows for the integration of FS20 Sinteso/FS720 Cerberus PRO, STT20 fire panels and DESIGO PX building automation controllers. Note: STT20 is only supported in FCnet/SAFEDLINK topology.
Automation level configurations automation Additional components required for the various management station types Type Additional components Name Version Foreign station OPC client head end Any OPC DA/UA compliant client OPC DA2.0x OPC UA 1.02 OPC Server MK8000 MP4.81 BACnet Driver NS8011 MP4.81 BACnet Driver NS8011 MP4.81 MM8000 Limits and restrictions Type Version Restrictions MM8000 MP4.
Automation level configurations 3.2.8 Video LAN configuration Fig. 28 Video LAN configuration example System architecture This configuration allows for the integration of CCTV to MM8000 (full integration including live video) and MK8000 (event treatment and diagnostics only). Communication/connection The CCTV devices are connected to the DMS via LAN. Subsystems that can be connected in this way Type CCTV Name Supported by MM8000 MP4.81 MK8000 MP4.
Automation level configurations components Foreign station MM8000 OPC client head end Any OPC DA/UA compliant client OPC DA2.0x OPC UA 1.02 OPC Server MK8000 MP4.81 Appropriate software according to specific device SISTORE, TELSCAN Appropriate software according to specific device SISTORE, TELSCAN, 3rd party systems* IP camera devices CCIS1337-LP CFVA-IP CVVA-IP MP4.81 → *See section 3.4 on page 70 and MM8000 ICC Add-on Configuration Guides for supported 3rd party subsystems.
Automation level configurations 3.2.9 Remote notification configuration Fig. 29 Remote notification configuration example System architecture This configuration allows for the integration of a paging system to MM8000. Communication/connection The paging system is connected to the DMS via RS-232. Subsystems that can be connected in this way Type Name Version Supported by MM8000 MP4.81 Paging System ESPA ‡ compliant paging devices MK8000 MP4.
Automation level configurations 3.2.10 OPC DA integration configuration Fig. 30 OPC DA integration configuration example System architecture This configuration allows for the integration of 3rd party subsystems equipped with an OPC server, which can run on a separate PC or on the management station server. OPC connectivity for subsystems can be provided in two ways: – Generic OPC subsystem tool: No software development necessary, but limited functionality and requires more engineering.
Automation level configurations Type Additional components MM8000 3rd party OPC server Name Version Limits and restrictions Type Version Restrictions MM8000 MP4.81 8 OPC connections 10,000 OPC tags (in total) Please contact customer support for more connections, tags. 47 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Automation level configurations 3.2.11 NK82xx serial configuration Fig. 31 NK8000 serial configuration for MM8000/MK8000 example Note: Not all subsystems are configurable for MK8000. Refer to section 3.1. System architecture This configuration allows for integration of a number of Cerloop (proprietary Class A loop), Cerban and/or RS485 connectable control panels. In addition, it allows for CS6 Guarto integration via LON-bus.
Automation level configurations Fire panel XLS X Fire panel SIGMASYS X X Fire panel D100 X X Intrusion panel CS440 X X Intrusion panel CS4 X X Intrusion panel CZ12 X X Intrusion panel SI410/420 X X Intrusion panel CS6 Guarto X X Gas panel CC60 X X Digital PLC unit MF/MM7033 X X Système de Télécommande et Télésignalisation STT11 * STT20 * STT2410 ** X X X X Video Crossbar SIMATRIX X X Video Crossbar SIMATRIX NEO X X Digital Input/Output DF8000 X X 3rd pa
Automation level configurations MM8000 MK8000 MP4.81 – Upstream serial connectivity is limited to one host. And – Host must be equipped with NS8012 CDI-Net Driver. – NS8012 CDI-Net Driver supports max. 3 NK82xxs. 50 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Automation level configurations 3.2.12 NK82xx LAN/WAN configuration Fig. 32 NK8000 LAN/WAN configuration example System architecture This configuration allows for integration of a number of Cerloop (proprietary Class A loop), Cerban and/or RS485 connectable control panels. In addition, it allows for CS6 Guarto integration via LON-bus. The NK82xx Ethernet Ports provide the liaison to MM8000/MK8000.
Automation level configurations Fire panel CS11 AlgoRex X X Fire panel FC700A X X Fire panel CS1115/FC330A X X Fire panel CZ10 X X Fire panel XLS X Fire panel SIGMASYS X X Fire panel D100 X X Intrusion panel CS440 X X Intrusion panel CS4 X X Intrusion panel CZ12 X X Intrusion panel SI410/420 X X Intrusion panel CS6 Guarto X X Gas panel CC60 X X Digital PLC unit MF/MM7033 X X Système de Télécommande et Télésignalisation STT11 * STT20 * STT2410 * X X X
Automation level configurations MM8000 Network Driver NS8210 Modem NK8021 (Analog); Siemens M20 or MC35i (GSM) MP4.81 Limits and restrictions Type Version Restrictions MM8000 MK8000 MP4.81 – NK82xx supports logical connections to a max.
Automation level configurations 3.2.13 NK823x Ethernet Port with BACnet configuration Fig. 33 NK823x Ethernet Port configuration example System architecture This configuration allows for integration of fire and intrusion detection systems. Communication/connection The NK823x is connected on the upstream side via BACnet/IP to MM8000 and/or MK8000, and can act as a BACnet Broadcast Management Device (BBMD). In addition, the NK823x can be configured as a BACnet Foreign Device for FS20/FS720.
Automation level configurations Fire panel FS20 Sinteso/ FS720 Cerberus PRO (NK823x only) X X Fire panel CS11 AlgoRex X X Fire panel FC700A X X Fire panel CS1115/FC330A (NK823x only) X X Fire panel XLS X Fire panel SIGMASYS/D100 X X Fire panel STT20/STT2410 X X Intrusion panel SI410/420 X X Intrusion panel CS6 Guarto X X Input/Output DF8000 X X Digital PLC unit MF/MM7033 X X 3rd party systems Philips Burle Allegiant LTC 8x00 switchers Modbus CDDL/CDSF X X X X
Automation level configurations MM8000 MK8000 MP4.81 – – – – – – – – NK823x supports logical connections to a max. of 4 hosts via proprietary CMSDL/IP protocol OR via BACnet/IP protocol Dial-up via CEI protocol and network-wideinteractions* via BACnet are currently not compatible FS20/FS720/STT20 supported by NK823x only - Limit 10,000 detectors in an FS20/FS720 system - Limit: Max.
Automation level configurations 3.2.14 NK823x: Modbus Gateway configuration for FS20/FS720/STT20 Fig. 34 NK823x: Modbus Gateway configuration for FS20/FS720/STT20 example System architecture The NK823x Modbus Gateway functionality allows for integration of FS20/FS720 and STT20 fire detection systems into 3rd party Modbus head-end/automation systems on LAN or over a serial line. It provides for bi-directional Modbus RTU and TCP/IP connectivity to Sinteso or Cerberus PRO and STT20 fire detection systems.
Automation level configurations Network devices required Type Name Version NK8232/NK8235 Ethernet Port MP4.81 NK8237 Modbus Gateway MP4.81 Additional components required for the various management station types Type Additional components Name Version MM8000/MK8000 BACnet Driver NS8011 MP4.81 Network Driver NS8210 → See next page for limits and restrictions. Limits and restrictions Type Version Restrictions MM8000 MK8000 MP4.81 NK823x supports logical connections to a max.
Automation level configurations FS20/FS720/STT20 Modbus host connectivity (per NK823x): ⚫ Modbus host only: – Limit 10,000 detectors in an FS20/FS720 system – Limit: Max. 16 FS20/FS720 units or 12 FS20/FS720 and 10 STT20 units ⚫ 1 Modbus and 1 MM8000/MK8000 (DMS8000) host: – Limit 5,000 detectors in an FS20/FS720 system – Limit: Max. 8 FS20/FS720 units or 6 FS20/FS720 and 5 STT20 units ⚫ 2 Modbus and 1 DMS8000 hosts: – Limit 3,500 detectors in an FS20/FS720 system – Limit: Max.
Automation level configurations 3.3 NK8000 Networks This section provides more specific details of the NK8000 components. 3.3.1 Product overview The following describes the hardware configurations available for NK82xx Ethernet Ports: Note: Please see product datasheets for details. NK8232 NK8232.2 Base module – 2 Ethernet lines for remote station – 2 serial lines for subsystems/local station/modem Max 1 subsystem NK8235 NK8235.2 Ser.
Automation level configurations The following are available for all the NK82xx products: Further options NE8001 Wall-mountable, metallic cabinet with DIN-rail, including power supply unit. Input: 100 – 240 Vac; Output: 12Vdc 4A. DF8090 power supply supervision module Optional module on I2C bus for supervising the NK82xx power supply and detecting power failures and battery low conditions.
Automation level configurations 3.3.2 Installation Typically, NK82xx are installed in the enclosure of the subsystem and powered from the supervised power supply of the subsystem. NK82xx Ethernet Ports are supplied in a plastic box, easy to install on DIN-rails. Alternatively, the NK82xx can be installed without the plastic box using the specific mounting kit for CS11 AlgoRex/CS440. Fig.
Automation level configurations 3.3.
Automation level configurations 3.3.3.1 Subsystems connected via BACnet The following control units are supported: • Siemens FS20 Sinteso and FS720 Cerberus PRO • STT20 (Système de Télécommande et Télésignalisation) Fig. 37 Example of a subsystem connected via BACnet Technical Notes • FS20/FS720/STT20 connected via NK823x can support interactions and network separation. • FS20/FS720/STT20 in FCnet/SAFEDLINK topology. • NK8237 does not support upstream connections to DMS8000 hosts.
Automation level configurations Routing and firewall options: – Stand-alone firewall: – Protection from external sabotage – Routing between Ethernet 1 and Ethernet 2 disabled – Edge firewall: – Protection of internal network (e.g. MM8000 connected to FS20) with specific port access to external network (e.g.
Automation level configurations 3.3.3.3 Subsystems connected via RS485 interface The following control units are supported: • Siemens DF8000 digital I/O systems (DF8003, DF8020, DF8040, DF8045, DF8046 modules) • Modbus slave devices Fig. 39 Example of subsystems connected via RS485 interface Technical Notes: • NK823x: The serial interfaces COM1 and COM2 can be configured either as RS232 or RS485 interface. • NK8235 only: The RS485 serial interface can connect to up to 32 Modbus slave devices.
Automation level configurations 3.3.3.4 Subsystems connected via USB LON interface The following control units are supported: • Siemens CS6 Guarto intrusion detection systems (only one) Fig. 40 Example of subsystems connected to NK823x via USB LON interface Technical Notes: • Guarto CS6 Security System can be integrated via NK823x Ethernet Ports with an Echelon U10 USB Network Interface – TP/FT-10 Note: Only one CS6 control unit can be supported per NK823x.
Automation level configurations 3.3.3.5 Cerloop network connected via MK7022 The following control units are supported in a Cerloop configuration: Fire detection systems: − CS11 AlgoRex − CZ10 − STT11 (Système de Télécommande et Télésignalisation) − STT20 − STT2410 Intrusion detection systems: − CS4 − CS440 − CZ12 Gas detection systems: − CC60 General I/O systems: − MF7033/MM7033 digital PLC unit The Cerloop network is connected via the MK7022 to the NK82xx. Fig.
Automation level configurations 3.3.3.6 Power supply supervision and digital I/O-modules connected via I2C-bus The following Siemens DF80xx modules are supported: − DF8090: Power supply supervision module (max. 1 module) − DF8020: 8-output relays module NK823x: Max. 4 modules − DF8040: 8-input module NK823x: Max. 4 modules − DF8045: 4-balanced input module NK823x: Max. 4 modules − DF8046: 4-balanced input module NK823x: Max. 4 modules Note for NK823x: Limit 4 DF80xx modules total.
Automation level configurations 3.4 3rd party systems The MM8000 and MK8000 Danger Management Systems, and the NK8000 Networks MP4.81 support the following 3rd party systems: Note: The following systems are available as add-on packages.* ➔ Please refer to product-specific documentation.
NK8000 application examples 4 NK8000 application examples 4.1 Local system Most of the sites where a management station is installed are local systems. Examples for local systems are: − Hotels − Office buildings − Shopping centres − Public buildings (such as museums) The following figure shows the various subsystem connections of an NK82xx in a local system. Fig.
NK8000 application examples 4.2 Distributed, campus-style systems Examples for campus size systems are: − Universities − Airports − Amusement parks (e.g. Disneyland) − Industries − Pharmaceutical companies − Hospitals − Automobile manufacturing plants The following figure shows a typical campus site configuration. The subsystems of each building are connected to an NK82xx Ethernet Port. The NK82xx are connected via the LAN or WAN to the remote management station. Fig.
NK8000 application examples 4.3 Wide area extension systems Examples for wide area extension systems are: − Metros − Pipelines − Banks with a network of branch offices − Telecom providers The following figure shows a typical geographical network configuration. The headquarters is equipped with several subsystems connected to an NK8235 Ethernet Port. The branches where a single fire or security subsystem needs to be centralised, are equipped with NK8232 Ethernet Ports for a single subsystem.
NK8000 application examples 4.4 Interactions Interactions are possible between the subsystems connected to NK82xx and the digital I/O modules. Incoming messages can trigger one or more command messages to other subsystems. Note: Incoming messages can be combined with the logical operators AND, OR, XOR, and NOT. The configuration is done via an easy to use interactions tool, and then downloaded to the NK82xx. Fig.
NK8000 application examples Fig. 47 Local and network-wide interactions on NK823x Note: Network-wide interactions and dial-up connections are not currently compatible.
NK8000 network planning 5 NK8000 network planning NK8000 networks can be built as a dedicated safety- and security IP network, or can be integrated into an existing customer network (shared network). The NK8000 Security and IT rules apply in both cases. 5.
NK8000 network planning 5.2 IT rules The NK8000 network supports the IEEE 802.3 Ethernet 10BaseT standard and 100BaseTX, which are based on a star topology. The cable specification for this standard is minimum Cat.5 UTP. We recommend you use Cat.6 cable, however, which fulfils the specification for 100BaseTX networks. Note: The maximum length for an Ethernet segment for Ethernet 10BaseT and 100BaseTX is 100m. 5.2.1 Repeater rules It is possible to extend the Ethernet length using repeaters (hubs).
NK8000 network planning Fig. 48 10BaseT network with up to 4 repeaters in serial star topology 100Mbps network For a 100Mbps network, it is not possible to extend the line length with the 5-4-3 repeater rule. This is due to the faster speed. The maximum number of repeaters in serial for 100Mbps Ethernet is 2. 5.2.2 Cable lengths Optimally, you should use Cat. 6 twisted pair cable.
NK8000 network planning 5.3 Dedicated safety and security networks We recommend you build dedicated safety and security networks whenever it is possible.
NK8000 network planning In the example in Fig. 49, the MM8000 Server and Client stations are connected to 100BaseT Switches, whereas the Ethernet Ports are connected to 10BaseT Hubs. One Ethernet Port is connected via Router (100BaseT) and WAN to the centre.
NK8000 network planning 5.3.2 Application example with Industrial Ethernet components With Industrial Ethernet from Siemens Industry Automation, it is possible to build up large and powerful networks. Components that are designed specifically for industry enable problem-free data exchange over long distances. Industrial Ethernet networks can be built up either electrically or optically, both in a linear structure as well as in redundant ring structures.
NK8000 network planning The Ethernet Ports are connected via Ethernet switches of the SCALANCE product line to the redundant network. The total size of a network with Industrial Ethernet can be up to 150km (above 150 km, take into account signal propagation time). The maximum length for the fibre optic cable is: − 3 km with multimode fibre optic cable − 26 km with single mode fibre optic cable You can find more information about Industrial Ethernet at: https://www.automation.siemens.
NK8000 network planning 5.3.3 Application example with Open Transport Network (OTN) Open Transport Network (OTN) is a flexible private communication network of OTN Systems (formerly Nokia Siemens Networks), based on the fibre optic technology. This system allows interconnection of electronic equipment found in complex, basically industrial installations through one single network, irrespective of the distances to be bridged.
NK8000 network planning the network depends on the fibre characteristics and the type of optical transceivers used (from 2 km with multimode fibre up to 95 km with G.652/G.653 fibre). The following image shows a NK8000 network, which uses an OTN network as backbone. Fig. 52 NK8000 network built with OTN as backbone NK8000 is only one of the applications that can share the OTN network, together with CCTV-, access control-, and telephony applications (not shown in Fig. 52).
NK8000 network planning Also, you will need to determine the following regarding the client’s network: • Maintenance times for the network (shutdown of the network) • Network utilisation (Load > 30 – 40 % is bad on shared network) • Collision rate (< 5% is good) • Stability of the network (> 99.9% is good) • Availability of the network (Downtime) • Access time to the network (timeouts/access time < 1 sec.
NK8000 network planning The following Port numbers are used by NK823x: − TCP Port number 3001 − TCP Port number 3001…3004 in multiple host configurations − TCP Ports 20 and 21 (for the FTP configuration and firmware download) − TCP Port 22 (SSH Secure Shell) − TCP Port 443 (HTTPS) − TCP Port 502 (default for Modbus connectivity, configurable) − TCP Port number 20500 (for the secure configuration and firmware download) − TCP Port number 2404 (default for IEC 60870-5-104 connectivity, configurable) − TCP Port
NK8000 network planning Max. number of repeaters per sub-network: 4 (5 segments) Detailed specifications: http://www.echelon.com/support/documentation/Manuals/ 5.5.2 Serial interface (RSxxx) Transceiver Media Max. Nodes per Segment Topology Max. Speed Connector Type Max.
NK8000 network planning 100BaseT 100BaseT4 100BaseF 1000BaseT 1000BaseC X 1000BaseS X Fibre 50, whole network 62,5 or 100 m 4-wire 1024 per the Copper whole network cat. 6 100 impedance 8-wire Cat.
Licenses 5.5.6 xDSL Transceiver Media Max. Nodes per Segment Topology Max. Speed ADSL 2-wire copper Point-to-point Point-topoint CDSL 2-wire Point-to-point telephone lines Point-topoint HDSL 4-wire twisted pair 6-wire twisted pair Point-to-point Point-topoint IDSL 2-wire Point-to-point telephone lines Point-topoint Downstream 1.544 to 6.1 Mbps Upstream 16 to 640 kbps Downstream 1 Mbps Upstream 128 kbps 1.544 Mbps on two twisted pair lines 2.
Licenses Appendix A – DMS8000 network connectivity options The following matrix shows the connectivity options currently available for DMS8000 MP4.81 systems. KEY: Connection Network MM/MK MM8000 and MK8000 Upstream data-link protocol Downstream network Downstream interface device SPC5000/6000 Intrunet CS440 CZ12 / CS4 CS6 Guarto (via LON interface) SI410 / 420 / Plus Intrunet Propriet. ISO1745 BACnet/IP Direct - Cerloop MK7022 MM/MK MM/MK MM/MK LAN - NK8000 OPC Propriet.
Licenses Appendix B – Checklist This checklist covers the networking and management station part of a project. It will help you to structure technical details while you and the representatives of the customer or the consultant are in the specification phase.
Licenses If no, check with FS-DMS hotline to learn if this protocol is supported. Support mailbox: fs.support.sbt@siemens.com Support Centre intranet site: http://intranet.siemens.
Licenses What other data is transferred over the network? Network configuration For each DMS-PC and Ethernet Port we need to know: – IP-Address – Subnet mask – Default Gateway Note: IP addresses must be static (DHCP not supported).
Licenses Which components have to be attached to the UPS? (hubs, routers, ...) Is a redundant backup line for the network planned? Yes No If yes, which type of dial-up (ISDN, PSTN, and GSM)? 94 Building Technologies CPS Fire Safety 049_DMS_DMS8000_Application_&_Planning_MP4.81-02_A6V10063710_a_en.doc 01.
Issued by Siemens Switzerland Ltd Building Technologies Division International Headquarters Theilerstrasse1a CH-6300 Zug Tel. +41 41-724 24 24 www.siemens.com/buildingtechnologies Document no. A6V10063710_a_en Edition 01.