Siemens S7 appendix 216

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SIMATIC NET NCM S7 for Industrial Ethernet

C79000-G8976-C129–06

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Contents Simatic NET Classification of Safety-Related Notices Safety Instructions Regarding your Product TrademarksQualified Personnel Correct Usage of Hardware ProductsPrior to Startup Copyright E Siemens AG 2001-2002All rights reservedCommunication services with / NCM S7 S7-CP and / NCM S7Manual PrimerSymbols used in this Manual AudienceScope of this Manual Title Content NCM S7 for IndustrialEthernet ManualAdditional Information on Simatic S7 and Step Topic DocumentAccess to Online Help of and NCM S7 ConventionsContents Programming FCs Functions and FBs for S7 Ethernet CPs 141 175191 197201 211Communication via Ethernet CPs in S7 Stations Network Access Industrial EthernetDefinition All-Round Communication in the Industrial SectorSimatic S7 Communication with S7 Ethernet CPs Types of CommunicationPG/OP communication S7 communication S5-compatible communication with SEND/RECEIVE interfacePROFInet communication Html process controlFile management and file access with FTP Possibilities for Communication between Device TypesConfiguration and Diagnostics PG/OP Communication via Industrial Ethernet ApplicationConfiguration for PG/OP Operation IsdnPG Communication with over Industrial Ethernet Requirements for PG CommunicationNetworking the PG / Engineering Station Procedure RequirementsS7 Communication on Industrial Ethernet NodesClient and server functionality at both ends Profibus Configuring S7 Connections Interface in the User Program of the S7 StationBlock type Client Server Described Communication via Ethernet CPs in S7 Stations S5-compatible Communication SEND/RECEIVE Interface1 ISO Transport ConnectionIP Internet Protocol SEND/RECEIVE interfaceStations WANFETCH/WRITE Services Server Coordinating Access Using the User ProgramConnection Types Configuring Networking Stations with StepNetworking in a Multiproject ToolsVariant examples Characteristics/Configuration VariantsConfiguration of the System Network/Project Variant One Subnet One ProjectView in a Project Simatic S5 Network/Project Variant Two or More Subnets One Project Network/Project Variant One Subnet More Than One SubProject Organization in a MultiprojectPossibilities for stations outside the current project Merging projects in the multiproject Cell level = subproject Communication via Ethernet CPs in S7 Stations Network/Project Variant Connections between Subnets TCP/IP Communication via Ethernet CPs in S7 Stations Installing and Starting the Ethernet CP With Step Installation FunctionsOperation Procedure Configuration data in the projectUDP Creating an Industrial Ethernet Subnet AimsSelect Insert Subnet Industrial Ethernet Properties of Merged Subnets Multiproject Installing and Starting the Ethernet CP with Step Entering an Ethernet CP in the Hardware Configuration Subnet AttachmentInstalling and Starting the Ethernet CP with Step Installing and Starting the Ethernet CP with Step Displaying the Network Attachments of a Station Graphic Overview in NetProOverview in Table Form ResultSetting Further CP Properties OverviewAddresses Tab Options Tab Option Meaning / EffectCPU Default Setting Time-of-Day Synchronization Tab Diagnostics Tab Addressing TabSubstitute Objects in the Project Plant ProductionS7-400/2 Non-Siemen Device Ethernet subnet S7-400/3Project With Substitute Objects Configured Attaching Non-S7 Stations to the SubnetSelecting the Subnet Type for Other Station Example Configuring Communication Services Setting Up ConnectionsAssigning Addresses for the First Time Applies to Latest CPs Assigning the Address Options and RecommendationsSelect the menu command PLC Assign Ethernet Address Installing and Starting the Ethernet CP with Step Alternative Procedure Installing and Starting the Ethernet CP with Step Downloading the Configuration Data to the Target System PrincipleType of Interface Deactivating the MAC Address in the Configuration Saving the Configuration Data in Non-Volatile MemoryDownloading the Configured Connections Relocating the CP in the Hardware Configuration Page SEND/RECEIVE Interface in the User Program How the SEND/RECEIVE Interface Works on the CPU Functions FCsAmounts of Data Ethernet CPProgramming the SEND/RECEIVE Interface Principle of Job and Data TransferPurpose of the FCs Programming ConnectionsCalling FCs in the CPU Program Agsend AgrecvSEND/RECEIVE Interface in the User Program Data Exchange S7 CPU Ethernet CP FC Calls Faster than the Transmission TimeFC Calls Slower than the Transmission Time SEND/RECEIVE Interface in the User Program Special Features Additional InformationProgramming Data Transfer on TCP Connections Purpose of TCP ConnectionsKnown Problems Recommendations for Use with a High Communications LoadRemedy SEND/RECEIVE Interface in the User Program Configuring Communication Connections Configuring StepsProgramming Program the SEND/RECEIVE interface in the user programPossible Connection Configurations Simatic S5Organization in a Multiproject Characteristics of a Connection ConnectionsTasks of the Ethernet CP Requirements for Configuring Connections Creating a New Connection New ConnectionConfiguring Communication Connections Configuring Communication Connections Connections to Non-S7 Stations using Substitute Objects Connections to Partners in Other ProjectsHandling Connections in a Multiproject Unspecified Connections By any partner via specific Tsap EmptyTo or by a specific partner Configuring Communication Connections Further Functions ToolbarPrint Function in the Overview Tab Connections Without Assignment Assignment to a CPMenu option Edit Connection PartnerDisplay Example Remain without assignment Connection PartnerConfiguring ISO Transport Connections IntroductionOpening the Dialog TabsSpecifying the Local Connection Endpoint General TabAttributes Description Access Local Endpoint Connection Name Reference Only in MultiprojectBlock Parameters LaddrSpecifying ISO Transport Addresses Address ParametersTsap Tsap MACTsap Format Local and Remote TSAPsDefault TSAPs Addresses Tab Unspecified ISO transport connectionAttributes Description Access Connection Establishment Specifying ISO Transport Dynamic PropertiesDynamics Tab Data TransferAttributes Description Access ISO Transport with the FETCH/WRITE Mode Using Fetch Passive / Write PassiveMessages in the Diagnostic Buffer System MemoryLinks to Other Systems Checking ISO Transport Connection Properties Overview TabConnection Overview with Multiple CPUs in an S7 Station Parameter DescriptionConfiguring ISO-on-TCP Connections Properties Specifying the Local Connection Endpoint Parameter Description Access Local Endpoint Specifying ISO-on-TCP Addresses Address parameterAddresses Tab Addresses Tab Unspecified ISO-on-TCP Connection ISO-on-TCP with the FETCH/WRITE Mode 117 Checking ISO-on-TCP Connection Properties Configuring TCP Connection Properties Specifying the Local Connection Endpoint 121 Specifying TCP Addresses Address Parameters and Connection TypesTCP Addresses Tab Specified TCP Connection PortsApplication / Note Port Addresses Addresses Tab Unspecified TCP Connection TCP with the FETCH/WRITE Mode System Memory Checking TCP Connection Properties Configuring UDP Connection Properties Specifying the Local Connection Endpoint Connection Name Reference Only in Multiproject Specifying UDP Addresses 23 Sending and Receiving on One UDP ConnectionAddresses Tab Specified UDP Connections Addresses Tab Unspecified UDP Connection When to Use Multicast instead of Broadcast ? UDP with Broadcast and Multicast135 Addresses Tab Connection to all Broadcast Nodes Addresses Tab Connection to all Multicast Nodes Checking the Properties of a UDP Connection Free UDP Connection Program-Controlled AddressingRouting to Distribute Load Routing to Distribute LoadProgramming FCs Functions and FBs for S7 Ethernet CPs General Notes on FCs / FBs Block LibraryFCs and Module Replacement Spares Which Block Version Should I Use?Programming FCs Functions and FBs for S7 Ethernet CPs Setting Parameters for FC Calls Calling Communication Blocks for an S7-300Setting Block Parameters Automatically1 Response to Incorrect AddressesCause Reaction / Code Parameters for Specifying a CPU Data Area input parameters Status Information output parametersSpecifying the Data Area on the CPU Evaluating Status CodesFCs for Configured Connections Can be used with MeaningAglsend / Aglrecv Working without the Job Header Working with the Job Header 8EH 0BHMeaning of the Block CallAgsend / Aglsend How the Block Works Time Explanation of the Formal Parameters Parameter Declara Type Possible Remarks Tion ValuesCondition Codes On ISOTransport On UDPDone Error Status 8F3AH8F7FH Example of Agsend BEU160 2 FC6 Agrecv / FC60 Aglrecv Agrecv / AglrecvProgramming FCs Functions and FBs for S7 Ethernet CPs Status code is updated at each block call Recv Input ANY NDR Output BoolStatus Output Word NDR Error Status LEN Output INT166 FCs for Access Coordination with FETCH/WRITE Locks external data accessAccess with FETCH/WRITE With FETCH/WRITEAglock FETCH/WRITE Locked = Aglock FETCH/WRITE1 FC7 Aglock Locked Output Bool 2 FC8 Agunlock 172 Numeric Data / Resource Requirements of the FCs NameMC7 174 NCM S7 Diagnostics Diagnostic Options in Step Where to Find Further InformationOverview What You Should Already KnowFunctions of NCM S7 Diagnostics General diagnostic and statistical functionsMode-Dependent Functions Installing and Starting NCM S7 Diagnostics AlternativeStructure General Menu Commands Menu MeaningOptionsCustomize 181 Starting Diagnostics from the NCM Program Group Initial SituationMPI ProfibusStarting Diagnostics from the Properties Dialog of the CP InternetworkingTCP/IP Other Startup Options How to Use Diagnostics If the CP is in the RUN modeCall-Specific Diagnostic Functions 187 Checklist for ‘Typical Problems‘ in a System MeaningChecklist for General CP Functions Problem Possible Cause Identifying the Cause and RemedyCommunication Connections Checklist Evaluate diagnostic bufferCheck the user program Evaluate status bytes in AG-SENDFirmware Loader Application FirmwareUses of the Firmware Loader Load FilesNCM S7 Firmware Loader menu command Loading FirmwareStarting the Download 1st Step2nd Step 3rd Step195 196 References References Sinec CP Order Numbers Glossary General Section Gateway Industrial EthernetMulticast NCM S7 for Industrial EthernetServices PROFInetProtocol SegmentSubnet SystemTransmission rate Transport layerBase address Ind. Ethernet stationISO-on-TCP Media Access Control MAC MAC addressRFC1006 S5S5 connectionPROFInet Profibus device PROFInetPROFInet device PROFInet device, proxyPage FETCH/WRITE Structure of Write Frames Structure of Fetch Frames Parameter Values S7 Address AreaORG ID DbnrPI/PQ Address Area216 New in Release 05 / V5.1 SP3 New in Release 04 / up to V5.1 SP2Page Index-223 NCM S7 Technical Support Service & Support on the Internet
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S7 specifications

The Siemens S7 series represents a cornerstone in the realm of programmable logic controllers (PLCs), developed by Siemens, a leading company in industrial automation. Widely used across various industries, the S7 series offers robust solutions for controlling machinery and processes, thanks to its reliable performance, flexibility, and scalable architecture.

One of the key features of Siemens S7 PLCs is the modularity of their design. Each system can be configured to meet specific application requirements due to the ability to mix various input/output modules, CPUs, and communication processors. This modular approach allows for the customization of systems to suit diverse automation tasks, providing end users with the adaptability required for modern manufacturing environments.

The S7 series encompasses several models, including the S7-1200, S7-300, and S7-1500. The S7-1200 is particularly suited for small to medium-sized applications, offering a compact design and integrated communication interfaces. In contrast, the S7-300 is designed for more extensive and complex control systems, making it ideal for large-scale industrial applications. The S7-1500 stands out with its advanced performance metrics, rich feature set, and high-speed processing capabilities, making it perfect for demanding applications that require real-time control and extensive data handling.

Siemens also emphasizes the importance of communication technologies within the S7 series. With options such as PROFINET, PROFIBUS, and EtherNet/IP, the S7 PLCs can seamlessly integrate into existing automation infrastructures, ensuring smooth data exchange between devices. The incorporation of web-based technologies and cloud connectivity further enables remote monitoring and control of systems, enhancing operational efficiency.

Another notable characteristic of Siemens S7 PLCs is the use of TIA Portal (Totally Integrated Automation Portal), an innovative software platform that simplifies the engineering process. TIA Portal allows users to program, configure, and diagnose their automation devices in a single environment, reducing setup times and improving productivity.

In conclusion, the Siemens S7 series stands out due to its modular design, range of models suitable for various applications, advanced communication technologies, and user-friendly programming software. This combination of features and characteristics makes S7 PLCs a preferred choice for industries seeking reliable and efficient automation solutions. As industrial demands continue to evolve, Siemens S7 PLCs remain at the forefront, adapting to technological advancements and setting benchmarks in the automation field.