Siemens SIMATICS PCS7 Special characteristics of DNP3 communication, 22 DNP3 telecontrol protocol

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Special characteristics of DNP3 communication

Change-driven data transmission

•Change-driven transmission of process data between RTU and control center

•Signaling of RTU, control center or connection failure

•Automatic data updating for all communication part- ners involved following troubleshooting and following the startup of the RTU or control center

Chronological processing of process data

•Time tagging of all data frames at the place of origin al- lows process data to be archived by the process control system in the correct chronological order

•The time of the DNP3 stations in the WAN can be syn- chronized via SIMATIC PCS 7 (including summertime/ wintertime switchover)

Local data storage

•The TIM communication module can temporarily store (for several hours or even days) message frames should the connection or the communication partner fail

•Intermediate storage of message frames of lower priority in the case of priority-controlled data trans- mission (with dial-up networks or quantity-dependent data transmission costs)

Operating modes

The DNP3 telecontrol protocol supports the following operating modes (functional principle similar to that described in the section for the SINAUT ST7 telecontrol protocol):

•Polling

•Polling with time slot procedure

•Multi-master polling with time slot procedure

•Spontaneous mode in dial-up networks

•Spontaneous mode in the TCP/IP-based WAN

22DNP3 telecontrol protocol

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Contents Simatic PCS Totally Integrated Automation Totally Integrated AutomationContents Automation of widely spread process plants Simatic PCS 7 TeleControlProcess control system with integral telecontrol center Simatic PCS 7 TeleControlOil and gas industries Typical application areasWater industry Integration in process control Engineering Simatic PCS 7 TeleControl system architectureSystem overview Communication with the outstations remote terminal unitsSimatic S7-300/S7-300F controllers Outstations remote terminal unitsSimatic S7-400/S7-400F controllers Spectrum of outstations and integration versions Media versions TopologiesBasic topologies Combinations of basic topologies and media versionsSingle-user and multi-user systems Simatic PCS 7 TeleControl system componentsPCS 7 TeleControl Operator System Dual-channel operationLong-term archiving and logging Data Base Automation DBA PCS 7 TeleControl engineering stationSimatic PCS 7 TeleControl blocks RTU Medium Simatic S7-300/S7-300F controller Remote terminal unitsPossible tele Information points RTU Large Simatic S7-400/S7-400F controllerTelecontrol protocols General/elementary telecontrol functionsSinaut ST7 telecontrol protocol Sinaut ST7 telecontrol protocolClassic WAN media Range without repeaters exampleTCP/IP-based WAN media Redundant transmission pathSpecial characteristics Sinaut ST7 communication Technological configuration with Simatic water libraryOperating modes DNP3 telecontrol protocol 20 DNP3 telecontrol protocolDNP3 telecontrol protocol ScalanceSpecial characteristics of DNP3 communication 22 DNP3 telecontrol protocolIEC 870-5-101/IEC 870-5-104 telecontrol protocol IEC 870-5-101/IEC 870-5-104 telecontrol protocolClassic WAN media IEC 870-5-101 telecontrol protocol TCP/IP-based WAN media IEC 870-5-104 telecontrol protocolRTU ET 200S Modbus telecontrol protocol Modbus telecontrol protocolIncreasing the plant availability RedundancyRedundancy Units with Modbus communication MigrationMigration of existing telecontrol systems Third-party stationsSinaut LSX systems Integration of third-party stations with OPCLinking of Siprotec or third-party protection equipment High system availability resulting from redundancy Application examplesUniform automation of all stations in the gas network Application examplesReporting and archiving in compliance with Cost-effective RTUs exactly matched to the respective unitAdditional information