VIPA System 300S
VIPA System 300S CPU 317-4PN23 ManualHB140 CPU 317-4PN23 en 18-32SPEED7 CPU 317PNwww.vipa.com/en/service-support/manuals
VIPA GmbHOhmstr. 491074 HerzogenaurachTelephone: 09132-744-0Fax: 09132-744-1864Email: info@vipa.comInternet: www.vipa.com317-4PN23 000 CPU 317PN,3,EN - 2018
VIPA System 300S Table of contentsTable of contents1General.1.1 Copyright VIPA GmbH .1.2 About this manual.1.3 Safety information.66782Basics. 92.1 Safety information for users. 92.2 Operating structure of a CPU. 102.2.1 General. 102.2.2 Applications . 102.2.3 Operands. 102.3 CPU 317-4PN23. 122.4 General data. 143Assembly and installation guidelines.3.1 Overview.3.2 Installation dimensions.3.3 Assembly SPEED-Bus.3.4 Assembly standard bus.3.5 Cabling.3.6 Installation guidelines.161617182124254Hardware description.4.1 Properties.4.2 Structure.4.2.1 General.4.2.2 Interfaces.4.2.3 Memory management.4.2.4 Slot for storage media.4.2.5 Battery backup for clock and RAM.4.2.6 Operating mode switch.4.2.7 LEDs.4.3 Technical data.27272828283030303031345Deployment CPU 317-4PN23.5.1 Assembly.5.2 Start-up behavior.5.3 Addressing.5.4 Hardware configuration - CPU.5.5 Hardware configuration - I/O modules.5.6 Hardware configuration - Ethernet PG/OP channel.5.7 Hardware configuration - Communication.5.8 Hardware configuration - SPEED-Bus.5.8.1 Preconditions.5.8.2 Proceeding.5.9 Setting standard CPU parameters.5.9.1 Parameterization via Siemens CPU.5.9.2 Parameters CPU.5.9.3 Parameters for DP.5.9.4 Parameters for MPI/DP .5.10 Setting VIPA specific CPU parameters.4242424346474849494950515151545555HB140 CPU 317-4PN23 en 18-323
VIPA System 300S Table of contents45.10.1 Proceeding.5.10.2 VIPA specific parameters.5.11 Project transfer.5.11.1 Transfer via MPI/PROFIBUS.5.11.2 Transfer via Ethernet.5.11.3 Transfer via memory card.5.12 Accessing the web server.5.13 Operating modes.5.13.1 Overview.5.13.2 Function security.5.14 Overall reset.5.15 Firmware update.5.16 Reset to factory settings.5.17 Deployment storage media - MMC, MCC.5.18 Extended know-how protection.5.19 CMD - auto commands.5.20 Diagnostic entries.5.21 Control and monitoring of variables with test loyment PtP communication.6.1 Fast introduction.6.2 Principle of the data transfer.6.3 Deployment of RS485 interface for PtP.6.4 Parametrization.6.4.1 FC/SFC 216 - SER CFG - Parametrization PtP.6.5 Communication.6.5.1 FC/SFC 217 - SER SND - Send to PtP.6.5.2 FC/SFC 218 - SER RCV - Receive from PtP.6.6 Protocols and procedures .6.7 Modbus - Function codes .6.8 Modbus - Example communication.8383848487878787888892967Deployment PROFIBUS communication. 987.1 Overview. 987.2 Fast introduction. 997.3 Hardware configuration - CPU. 1007.4 Deployment as PROFIBUS DP master. 1017.5 Deployment as PROFIBUS DP slave. 1027.6 PROFIBUS installation guidelines. 1047.7 Commissioning and Start-up behavior. 1078Deployment Ethernet communication - productive.8.1 Basics - Industrial Ethernet in automation.8.2 Basics - ISO/OSI reference model.8.3 Basics - Terms.8.4 Basics - Protocols.8.5 Basics - IP address and subnet.8.6 Fast introduction.8.7 Commissioning and initialization.8.8 Hardware configuration - CPU via Ethernet.8.9 Configure Siemens S7 connections.8.10 Configure Open 40 CPU 317-4PN23 en 18-32
VIPA System 300S Table of contents8.11 NCM diagnostic - Help for error diagnostic. 1259Deployment Ethernet communication - PROFINET.9.1 Basics PROFINET.9.2 PROFINET installation guidelines.9.3 PROFINET system limits.9.4 Fast introduction PROFINET.9.5 Commissioning and Initialization.9.6 Hardware configuration - CPU.9.7 Parameters - PROFINET IO controller.9.7.1 Precondition.9.7.2 PN-IO.9.7.3 Port 1.9.8 Configuration PROFINET IO device.9.9 Configuration PROFINET-I-Device / Shared-Device.9.10 Topology - Configuration.9.11 Device replacement without exchangeable medium/PG.9.11.1 Replace device.9.12 Commissioning and start-up behaviour.9.13 PROFINET diagnostics.9.13.1 Overview.9.13.2 Diagnostics with the configuration and engineering tool.9.13.3 Diagnostics during runtime in the user program.9.13.4 Diagnostics via OB start information.9.13.5 Diagnostics via status 14214314414414414414614710Configuration with TIA Portal.10.1 TIA Portal - Work environment .10.1.1 General.10.1.2 Work environment of the TIA Portal.10.2 TIA Portal - Hardware configuration - CPU .10.3 TIA Portal - Hardware configuration - I/O modules.10.4 TIA Portal - Hardware configuration - Ethernet PG/OP channel.10.5 TIA Portal - Hardware configuration - PG/OP via PROFINET.10.6 TIA Portal - Setting VIPA specific CPU parameters.10.7 TIA Portal - VIPA-Include library.10.8 TIA Portal - Project .A System specific event IDs.B Integrated blocks.C SSL partial list.163165213217HB140 CPU 317-4PN23 en 18-325
VIPA System 300S GeneralCopyright VIPA GmbH1General1.1 Copyright VIPA GmbHAll Rights ReservedThis document contains proprietary information of VIPA and is not to be disclosed or usedexcept in accordance with applicable agreements.This material is protected by the copyright laws. It may not be reproduced, distributed, oraltered in any fashion by any entity (either internal or external to VIPA), except in accordance with applicable agreements, contracts or licensing, without the express written consent of VIPA and the business management owner of the material.For permission to reproduce or distribute, please contact: VIPA, Gesellschaft für Visualisierung und Prozessautomatisierung mbH Ohmstraße 4, D-91074 Herzogenaurach, GermanyTel.: 49 9132 744 -0Fax.: 49 9132 744-1864EMail: info@vipa.dehttp://www.vipa.comEvery effort has been made to ensure that the information contained inthis document was complete and accurate at the time of publishing. Nevertheless, the authors retain the right to modify the information.This customer document describes all the hardware units and functionsknown at the present time. Descriptions may be included for units whichare not present at the customer site. The exact scope of delivery isdescribed in the respective purchase contract.CE Conformity DeclarationHereby, VIPA GmbH declares that the products and systems are in compliance with theessential requirements and other relevant provisions. Conformity is indicated by the CEmarking affixed to the product.Conformity InformationFor more information regarding CE marking and Declaration of Conformity (DoC), pleasecontact your local VIPA customer service organization.TrademarksVIPA, SLIO, System 100V, System 200V, System 300V, System 300S, System 400V,System 500S and Commander Compact are registered trademarks of VIPA Gesellschaftfür Visualisierung und Prozessautomatisierung mbH.SPEED7 is a registered trademark of profichip GmbH.SIMATIC, STEP, SINEC, TIA Portal, S7-300, S7-400 and S7-1500 are registered trademarks of Siemens AG.Microsoft and Windows are registered trademarks of Microsoft Inc., USA.Portable Document Format (PDF) and Postscript are registered trademarks of AdobeSystems, Inc.All other trademarks, logos and service or product marks specified herein are owned bytheir respective companies.6HB140 CPU 317-4PN23 en 18-32
VIPA System 300S GeneralAbout this manualInformation product supportContact your local VIPA Customer Service Organization representative if you wish toreport errors or questions regarding the contents of this document. If you are unable tolocate a customer service centre, contact VIPA as follows:VIPA GmbH, Ohmstraße 4, 91074 Herzogenaurach, GermanyTelefax: 49 9132 744-1204EMail: documentation@vipa.deTechnical supportContact your local VIPA Customer Service Organization representative if you encounterproblems with the product or have questions regarding the product. If you are unable tolocate a customer service centre, contact VIPA as follows:VIPA GmbH, Ohmstraße 4, 91074 Herzogenaurach, GermanyTel.: 49 9132 744-1150 (Hotline)EMail: support@vipa.de1.2 About this manualObjective and contentsProductCPU 317PNThis manual describes the SPEED7 CPU 317-4PN23 of the System 300S from VIPA. Itcontains a description of the construction, project implementation and usage.Order no.317-4PN23as of state:CPU-HWCPU-FWDPM-FWPN-IO controller-FW02V3.7.14V3.3.5V1.1.21Target audienceThe manual is targeted at users who have a background in automation technology.Structure of the manualThe manual consists of chapters. Every chapter provides a self-contained description of aspecific topic.Guide to the documentThe following guides are available in the manual:n An overall table of contents at the beginning of the manualn References with page numbersAvailabilityThe manual is available in:n printed form, on papern in electronic form as PDF-file (Adobe Acrobat Reader)Icons HeadingsImportant passages in the text are highlighted by following icons and headings:DANGER!Immediate or likely danger. Personal injury is possible.HB140 CPU 317-4PN23 en 18-327
VIPA System 300S GeneralSafety informationCAUTION!Damages to property is likely if these warnings are not heeded.Supplementary information and useful tips.1.3 Safety informationApplications conformingwith specificationsThe system is constructed and produced for:nnnnncommunication and process controlgeneral control and automation tasksindustrial applicationsoperation within the environmental conditions specified in the technical datainstallation into a cubicleDANGER!This device is not certified for applications in–Documentationin explosive environments (EX-zone)The manual must be available to all personnel in thennnnproject design departmentinstallation departmentcommissioningoperationCAUTION!The following conditions must be met before using or commissioning the components described in this manual:– Hardware modifications to the process control system should only becarried out when the system has been disconnected from power!– Installation and hardware modifications only by properly trained personnel.– The national rules and regulations of the respective country must besatisfied (installation, safety, EMC .)Disposal8National rules and regulations apply to the disposal of the unit!HB140 CPU 317-4PN23 en 18-32
VIPA System 300S BasicsSafety information for users2Basics2.1 Safety information for usersHandling of electrostaticsensitive modulesVIPA modules make use of highly integrated components in MOS-Technology. Thesecomponents are extremely sensitive to over-voltages that can occur during electrostaticdischarges. The following symbol is attached to modules that can be destroyed by electrostatic discharges.The Symbol is located on the module, the module rack or on packing material and it indicates the presence of electrostatic sensitive equipment. It is possible that electrostaticsensitive equipment is destroyed by energies and voltages that are far less than thehuman threshold of perception. These voltages can occur where persons do not discharge themselves before handling electrostatic sensitive modules and they can damagecomponents thereby, causing the module to become inoperable or unusable. Modulesthat have been damaged by electrostatic discharges can fail after a temperature change,mechanical shock or changes in the electrical load. Only the consequent implementationof protection devices and meticulous attention to the applicable rules and regulations forhandling the respective equipment can prevent failures of electrostatic sensitive modules.Shipping of modulesModules must be shipped in the original packing material.Measurements and alterations on electrostatic sensitive modulesWhen you are conducting measurements on electrostatic sensitive modules you shouldtake the following precautions:n Floating instruments must be discharged before use.n Instruments must be grounded.Modifying electrostatic sensitive modules you should only use soldering irons withgrounded tips.CAUTION!Personnel and instruments should be grounded when working on electrostatic sensitive modules.HB140 CPU 317-4PN23 en 18-329
VIPA System 300S BasicsOperating structure of a CPU Operands2.2 Operating structure of a CPU2.2.1 GeneralThe CPU contains a standard processor with internal program memory. In combinationwith the integrated SPEED7 technology the unit provides a powerful solution for processautomation applications within the System 300S family. A CPU supports the followingmodes of operation:nnnncyclic operationtimer processingalarm controlled operationpriority based processingCyclic processingCyclicprocessing represents the major portion of all the processes that are executed inthe CPU. Identical sequences of operations are repeated in a never-ending cycle.Timer processingWhere a process requires control signals at constant intervals you can initiate certainoperations based upon a timer, e.g. not critical monitoring functions at one-second intervals.Alarm controlled processingIf a process signal requires a quick response you would allocate this signal to an alarmcontrolled procedure. An alarm can activate a procedure in your program.Priority based processingThe above processes are handled by the CPU in accordance with their priority. Since atimer or an alarm event requires a quick reaction, the CPU will interrupt the cyclic processing when these high-priority events occur to react to the event. Cyclic processing willresume, once the reaction has been processed. This means that cyclic processing hasthe lowest priority.2.2.2 ApplicationsThe program that is present in every CPU is divided as follows:n System routinen User applicationSystem routineThe system routine organizes all those functions and procedures of the CPU that are notrelated to a specific control application.User applicationThis consists of all the functions that are required for the processing of a specific controlapplication. The operating modules provide the interfaces to the system routines.2.2.3 OperandsThe following series of operands is available for programming the CPU:nnnn10Process image and peripheryBit memoryTimers and countersData blocksHB140 CPU 317-4PN23 en 18-32
VIPA System 300S BasicsOperating structure of a CPU OperandsProcess image andperipheryThe user application can quickly access the process image of the inputs and outputs PIO/PII. You may manipulate the following types of data:nnnnindividual BitsBytesWordsDouble wordsYou may also gain direct access to peripheral modules via the bus from user application.The following types of data are available:n Bytesn Wordsn BlocksBit MemoryThe bit memory is an area of memory that is accessible by means of certain operations.Bit memory is intended to store frequently used working data.You may access the following types of data:nnnnTimers and countersindividual BitsBytesWordsDouble wordsIn your program you may load cells of the timer with a value between 10ms and 9990s.As soon as the user application executes a start-operation, the value of this timer isdecremented by the interval that you have specified until it reaches zero.You may load counter cells with an initial value (max. 999) and increment or decrementthese when required.Data BlocksA data block contains constants or variables in the form of bytes, words or double words.You may always access the current data block by means of operands.You may access the following types of data:nnnnindividual BitsBytesWordsDouble wordsHB140 CPU 317-4PN23 en 18-3211
BasicsVIPA System 300S CPU 317-4PN232.3 CPU 317-4PN23OverviewThe CPU 317-4PN23 bases upon the SPEED7 technology. This supports the CPU at programming and communication by means of co-processors that causes a power improvement for highest needs.n The CPU is programmed in STEPÒ7 from Siemens. For this you may use theSIMATIC Manager or TIA Portal from Siemens. Here the instruction set of the S7-400from Siemens is used.n Modules and CPUs of the System 300S from VIPA and Siemens may be used at thebus as a mixed configuration.n The user application is stored in the battery buffered RAM or on an additionally pluggable storage module.n The CPU is configured as CPU 317-2 PN/DP (6ES7 317-2EK14-0AB0 V3.2) fromSiemens.AccessPlease always use the CPU 317-2 PN/DP (6ES7 317-2EK14-0AB0 V3.2)from Siemens of the hardware catalog to configure this CPU from VIPA.For the project engineering, a thorough knowledge of the SiemensSIMATIC Manager and the hardware configurator from Siemens isrequired!12HB140 CPU 317-4PN23 en 18-32
VIPA System 300S BasicsCPU 317-4PN23MemoryThe CPU has an integrated memory. The memory is divided into the following parts:n Load memory 8Mbyten Work memory 8Mbyte– Code memory (50% of the work memory)– Data memory (50% of the work memory)SPEED-Busn The SPEED-Bus is a 32bit parallel bus developed from VIPA.n Via the SPEED-Bus you may connect up to 10 SPEED-Bus modules to your CPU.n In opposite to the "standard" backplane bus where the modules are plugged-in at theright side of the CPU by means of single bus connectors, the modules at the SPEEDBus are plugged-in at the left side of the CPU via a special SPEED-Bus rail.n VIPA delivers profile rails with integrated SPEED-Bus for 2, 6, or 10 SPEED-Busperipheral modules with different lengths.n Each SPEED-Bus rail has a slot for an external power supply. This allows you to raisethe maximum current at the back plane bus. Only the "SLOT1 DCDC" allows you toplug-in either a SPEED-Bus module or an additional power supply (307-1FB70).Integrated PROFIBUS DPmaster/slave respectivelyPtP functionalityThe CPU has a PROFIBUS/PtP interface with a fix pinout. After an overall reset the interface is deactivated. By appropriate configuration, the following functions for this interfacemay be enabled:n PROFIBUS DP master operation: Configuration via PROFIBUS sub module with‘Operation mode’ master in the hardware configuration.n PROFIBUS DP slave operation: Configuration via PROFIBUS sub module with‘Operation mode’ slave in the hardware configuration.n PtP functionality: Configuration as virtual PROFIBUS master system by including theVIPA SPEEDBUS.GSD.Integrated PROFINET IOcontrollerThe CPU has an integrated PROFINET IO controller which is to be configured via thePROFINET sub module in the hardware configurator from Siemens.Integrated Ethernet PG/OPchannelThe CPU has an Ethernet interface for PG/OP communication. After assigning IPaddress parameters with your configuration tool, via the "PLC" functions you may directlyaccess the Ethernet PG/OP channel and program res. remote control your CPU. You mayalso access the CPU with a visualization software via these connections.Operation SecuritynnnnDimensions/ WeightDimensions of the basic enclosure:Wiring by means of spring pressure connections (CageClamps) at the front connectorCore cross-section 0.08.2.5mm2Total isolation of the wiring at module changePotential separation of all modules to the backplane busn 2tier width: (WxHxD) in mm: 80x125x120Integrated power supplyThe CPU comes with an integrated power supply. The power supply is to be supplied withDC 24V. By means of the supply voltage, the internal electronic is supplied as well as theconnected modules via backplane bus. The power supply is protected against inversepolarity and overcurrent.HB140 CPU 317-4PN23 en 18-3213
VIPA System 300S BasicsGeneral data2.4 General dataConformity and approvalConformityCE2014/35/EULow-voltage directive2014/30/EUEMC directiveApprovalULRefer to Technical dataothersRoHS2011/65/EURestriction of the use of certain hazardous substances inelectrical and electronic equipmentProtection of persons and device protectionType of protection-IP20to the field bus-electrically isolatedto the process level-electrically isolatedElectrical isolationInsulation resistance-Insulation voltage to refe
This manual describes the SPEED7 CPU 317-4PN23 of the System 300S from VIPA. It contains a description of the construction, project implementation and usage. Product Order no. as of state: CPU-HW CPU-FW DPM-FW PN-IO controller-FW CPU 317PN 317-4PN23 02 V3.7.14 V3.3.5 V1.1.21 The manual is targeted at users who have a background in automation .
Title: BR-CAM-VIPA SI REV17
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