Page 1 VIPA System 300S CPU | 314-6CF23 | Manual HB140 | CPU | 314-6CF23 | en | 19-01 SPEED7 CPU 314ST www.vipa.com/en/service-support/manuals...
Page 2 VIPA GmbH Ohmstr. 4 91074 Herzogenaurach Telephone: +49 9132 744-0 Fax: +49 9132 744-1864 Email: info@vipa.com Internet: www.vipa.com 313-6CF23_000_CPU 314ST,4,EN - © 2019...
Page 3: Table Of Contents
VIPA System 300S Table of contents Table of contents General........................6 1.1 Copyright © VIPA GmbH ................. 6 1.2 About this manual..................... 7 1.3 Safety information..................... 8 Basics........................9 2.1 Safety information for users................9 2.2 Operating structure of a CPU................. 10 2.2.1 General......................
Page 4 Table of contents VIPA System 300S 5.8.2 Parameters CPU..................59 5.8.3 Parameters for DP..................62 5.8.4 Parameters for MPI/DP ................62 5.9 Setting VIPA specific CPU parameters............63 5.9.1 Proceeding....................63 5.9.2 VIPA specific parameters................64 5.10 Project transfer..................... 67 5.10.1 Transfer via MPI/PROFIBUS..............
Page 5 VIPA System 300S Table of contents 7.8 Modbus - Example communication.............. 150 Deployment PROFIBUS communication............152 8.1 Overview....................... 152 8.2 Fast introduction................... 152 8.3 Hardware configuration - CPU..............153 8.3.1 Switching CPU type to CPU 318-2AJ00............ 154 8.4 Deployment as PROFIBUS DP master............155 8.5 Deployment as PROFIBUS DP slave............
Page 6: General
General VIPA System 300S Copyright © VIPA GmbH General 1.1 Copyright © VIPA GmbH All Rights Reserved This document contains proprietary information of VIPA and is not to be disclosed or used except in accordance with applicable agreements. This material is protected by the copyright laws. It may not be reproduced, distributed, or altered in any fashion by any entity (either internal or external to VIPA), except in accord- ance with applicable agreements, contracts or licensing, without the express written con- sent of VIPA and the business management owner of the material.
Page 7: About This Manual
VIPA System 300S General About this manual Information product sup- Contact your local VIPA Customer Service Organization representative if you wish to port report errors or questions regarding the contents of this document. If you are unable to locate a customer service centre, contact VIPA as follows: VIPA GmbH, Ohmstraße 4, 91074 Herzogenaurach, Germany Telefax: +49 9132 744-1204 EMail: documentation@vipa.de...
Page 8: Safety Information
General VIPA System 300S Safety information CAUTION! Damages to property is likely if these warnings are not heeded. Supplementary information and useful tips. 1.3 Safety information Applications conforming The system is constructed and produced for: with specifications communication and process control general control and automation tasks industrial applications operation within the environmental conditions specified in the technical data...
Page 9: Basics
VIPA System 300S Basics Safety information for users Basics 2.1 Safety information for users Handling of electrostatic VIPA modules make use of highly integrated components in MOS-Technology. These sensitive modules components are extremely sensitive to over-voltages that can occur during electrostatic discharges.
Page 10: Operating Structure Of A Cpu
Basics VIPA System 300S Operating structure of a CPU > Operands 2.2 Operating structure of a CPU 2.2.1 General The CPU contains a standard processor with internal program memory. In combination with the integrated SPEED7 technology the unit provides a powerful solution for process automation applications within the System 300S family.
Page 11 VIPA System 300S Basics Operating structure of a CPU > Operands Process image and The user application can quickly access the process image of the inputs and outputs PIO/ periphery PII. You may manipulate the following types of data: individual Bits Bytes Words Double words...
Page 12: Cpu 314-6Cf23
Basics VIPA System 300S CPU 314-6CF23 2.3 CPU 314-6CF23 Overview The CPU 314-6CF23 bases upon the SPEED7 technology. This supports the CPU at pro- gramming and communication by means of co-processors that causes a power improve- ment for highest needs. Ò...
Page 13 VIPA System 300S Basics CPU 314-6CF23 Integrated PROFIBUS DP The CPU has a PROFIBUS/PtP interface with a fix pinout. After an overall reset the inter- master/slave respectively face is deactivated. By appropriate configuration, the following functions for this interface PtP functionality may be enabled: PROFIBUS DP master operation: Configuration via PROFIBUS sub module with ‘Operation mode’...
Page 14: General Data
Basics VIPA System 300S General data 2.4 General data Conformity and approval Conformity 2014/35/EU Low-voltage directive 2014/30/EU EMC directive Approval Refer to Technical data others RoHS 2011/65/EU Restriction of the use of certain hazardous substances in electrical and electronic equipment Protection of persons and device protection Type of protection IP20...
Page 15 VIPA System 300S Basics General data Mounting conditions Mounting place In the control cabinet Mounting position Horizontal and vertical Standard Comment Emitted interference EN 61000-6-4 Class A (Industrial area) Noise immunity EN 61000-6-2 Industrial area zone B EN 61000-4-2 8kV at air discharge (degree of severity 3), 4kV at contact discharge (degree of severity 2) EN 61000-4-3 HF field immunity (casing)
Page 16: Assembly And Installation Guidelines
Assembly and installation guidelines VIPA System 300S Overview Assembly and installation guidelines 3.1 Overview General This CPU is provided with a parallel SPEED-Bus that enables the additional connection of up to 10 modules from the SPEED-Bus periphery. While the standard peripheral modules are plugged-in at the right side of the CPU, the SPEED-Bus peripheral modules are connected via a SPEED-Bus bus connector at the left side of the CPU.
Page 17: Installation Dimensions
VIPA System 300S Assembly and installation guidelines Installation dimensions 3.2 Installation dimensions Dimensions Basic enclo- 2tier width (WxHxD) in mm: 80 x 125 x 120 sure Installation dimensions HB140 | CPU | 314-6CF23 | en | 19-01...
Page 18: Assembly Speed-Bus
Assembly and installation guidelines VIPA System 300S Assembly SPEED-Bus 3.3 Assembly SPEED-Bus Pre-manufactured SPEED- For the deployment of SPEED-Bus modules, a pre-manufactured SPEED-Bus rail is Bus profile rail required. This is available mounted on a profile rail with 2, 6 or 10 extension slots. Dimensions Order Number of modules SPEED-...
Page 19 VIPA System 300S Assembly and installation guidelines Assembly SPEED-Bus Installation of the profile Bolt the profile rail with the background (screw size: M6), so that you still have min- rail imum 65mm space above and 40mm below the profile rail. Please look for a low- impedance connection between profile rail and background.
Page 20 Assembly and installation guidelines VIPA System 300S Assembly SPEED-Bus To connect the SPEED-Bus modules, plug it between the triangular positioning helps to a slot marked with "SLOT ..." and pull it down. Fix the CPU by screwing. Installation CPU without Standard-Bus-Modules To deploy the SPEED7-CPU exclusively at the SPEED-Bus, plug it between the tri- angular positioning helps to the slot marked with "CPU SPEED7"...
Page 21: Assembly Standard Bus
VIPA System 300S Assembly and installation guidelines Assembly standard bus CAUTION! – The power supplies must be released before installation and repair tasks, i.e. before handling with the power supply or with the cabling you must disconnect current/voltage (pull plug, at fixed connection switch off the concerning fuse)! –...
Page 22 Assembly and installation guidelines VIPA System 300S Assembly standard bus Bus connector For the communication between the modules the System 300S uses a backplane bus connector. Backplane bus connectors are included in the delivering of the peripheral modules and are clipped at the module from the backside before installing it to the profile rail.
Page 23 VIPA System 300S Assembly and installation guidelines Assembly standard bus Click the CPU downwards and bolt it like shown. Repeat this procedure with the peripheral modules, by clicking a backplane bus connector, stick the module right from the modules you've already fixed, click it downwards and connect it with the backplane bus connector of the last module and bolt it.
Page 24: Cabling
Assembly and installation guidelines VIPA System 300S Cabling 3.5 Cabling CAUTION! – The power supplies must be released before installation and repair tasks, i.e. before handling with the power supply or with the cabling you must disconnect current/voltage (pull plug, at fixed connection switch off the concerning fuse)! –...
Page 25 VIPA System 300S Assembly and installation guidelines Cabling Front connector I/O The 40pole front connector with the order number 392-1AM00 is in the delivery. periphery Open the front flap of your I/O module. Bring the front connector in cabling position. For this you plug the front connector on the module until it locks.
Page 26: Installation Guidelines
Assembly and installation guidelines VIPA System 300S Installation guidelines 3.6 Installation guidelines General The installation guidelines contain information about the interference free deployment of a PLC system. There is the description of the ways, interference may occur in your PLC, how you can make sure the electromagnetic compatibility (EMC), and how you manage the isolation.
Page 27 VIPA System 300S Assembly and installation guidelines Installation guidelines Proof the correct fixing of the lead isolation. – Data lines must be laid isolated. – Analog lines must be laid isolated. When transmitting signals with small ampli- tudes the one sided laying of the isolation may be favourable. –...
Page 28: Hardware Description
Hardware description VIPA System 300S Properties Hardware description 4.1 Properties CPU 314-6CF23 SPEED7 technology and SPEED-Bus integrated 512kbyte work memory integrated (256kbyte code, 256kbyte data) Work memory expandable to max. 2Mbyte (1Mbyte code, 1Mbyte data) 2Mbyte load memory PROFIBUS DP master integrated (DP-V0, DP-V1) RS485 interface configurable for PROFIBUS DP master respectively PtP communica- tion Ethernet PG/OP interface integrated...
Page 29: Structure
VIPA System 300S Hardware description Structure > Interfaces 4.2 Structure 4.2.1 General CPU 314-6CF23 LEDs of the integrated PROFIBUS DP master Storage media slot (lockable) LEDs of the CPU part LEDs of the I/O part Operating mode switch CPU X1: Slot for DC 24V power supply X5: Ethernet PG/OP channel X2: MPI interface X3: PB-DP/PtP interface...
Page 30 Hardware description VIPA System 300S Structure > Interfaces X1: Power supply The CPU has an integrated power supply. The power supply has to be provided with DC 24V. For this serves the double DC 24V slot, that is underneath the flap. Via the power supply not only the internal electronic is provided with voltage, but by means of the backplane bus also the connected modules.
Page 31: Memory Management
VIPA System 300S Hardware description Structure > Battery backup for clock and RAM 4.2.3 Memory management Memory The CPU has an integrated memory. Information about the capacity of the memory may be found at the front of the CPU. The memory is divided into the following parts: Load memory 2MB Code memory (50% of the work memory) Data memory (50% of the work memory)
Page 32: Operating Mode Switch
Hardware description VIPA System 300S Structure > LEDs 4.2.6 Operating mode switch With the operating mode switch you may switch the CPU between STOP and RUN. During the transition from STOP to RUN the operating mode START-UP is driven by the CPU.
Page 33 VIPA System 300S Hardware description Structure > LEDs Meaning (RUN) (STOP) (SFAIL) (FRCE) (MMC) green yellow yellow yellow The alternate blinking indicates that there is new firmware on the memory card. The alternate blinking indicates that a firmware update is exe- cuted.
Page 34 Hardware description VIPA System 300S Structure > LEDs Meaning (RUN) (ERR) green green CPU is in STOP, at least 1 slave is missing. Initialization error at faulty parametrization. Wait state for start command from CPU. Slave operation Meaning (RUN) (ERR) green green Slave has no configuration respectively PtP is active.
Page 35: In-/Output Range Cpu 314-6Cf23
VIPA System 300S Hardware description Structure > In-/Output range CPU 314-6CF23 4.2.8 In-/Output range CPU 314-6CF23 Overview CPU 314-6CF23 The CPU 314-6CF23 has the following analog and digital in- and output ranges inte- grated in one casing: Analog input: 4x12Bit, 1xPt100 Analog output: 2x12Bit Digital input: 8xDC 24V, interrupt capable, 4 counter Digital in-/output: 8xDC 24V, 0.5A...
Page 36 Hardware description VIPA System 300S Structure > In-/Output range CPU 314-6CF23 CPU 314-6CF23: Analog part pin assignment and status indicator Assignment LEDs Description Power supply DC 24V AIO LED (green) Voltage measurement channel 0 Supply voltage Current measurement channel 0 available Ground channel 0 Voltage measurement channel 1...
Page 37 VIPA System 300S Hardware description Structure > In-/Output range CPU 314-6CF23 CPU 314-6CF23: Digital part pin assignment and status indicator Assignment LEDs Description Power supply 1L+ DC 24 V DI .0 ..7 I+0.0 / Counter 0(A) LED (green) I+0.1 / Counter 0(B) I+0.0 ...
Page 38: Technical Data
Hardware description VIPA System 300S Technical data 4.3 Technical data Order no. 314-6CF23 Type VIPA CPU 314ST SPEED-Bus ü Technical data power supply Power supply (rated value) DC 24 V Power supply (permitted range) DC 20.4...28.8 V Reverse polarity protection ü...
Page 39 VIPA System 300S Hardware description Technical data Order no. 314-6CF23 Input characteristic curve IEC 61131-2, type 1 Initial data size 34 Byte Technical data digital outputs Number of outputs Cable length, shielded 1000 m Cable length, unshielded 600 m Rated load voltage DC 24 V Reverse polarity protection of rated load voltage Current consumption from load voltage L+ (without load)
Page 40 Hardware description VIPA System 300S Technical data Order no. 314-6CF23 Number of inputs Cable length, shielded 200 m Rated load voltage DC 24 V Reverse polarity protection of rated load voltage ü Current consumption from load voltage L+ (without load) 85 mA Voltage inputs ü...
Page 41 VIPA System 300S Hardware description Technical data Order no. 314-6CF23 Operational limit of resistance thermometer ranges +/-0.6% Operational limit of resistance thermometer ranges with Basic error limit thermoresistor ranges +/-0.4% Basic error limit thermoresistor ranges with SFU Destruction limit resistance thermometer inputs max.
Page 42 Hardware description VIPA System 300S Technical data Order no. 314-6CF23 Destruction limit against external applied voltage max. 15V Current outputs ü Max. in load resistance (current range) 500 Ω Max. inductive load (current range) 10 mH Typ. open circuit voltage current output 16 V Output current ranges -20 mA ...
Page 43 VIPA System 300S Hardware description Technical data Order no. 314-6CF23 Work memory, maximal 2 MB Memory divided in 50% program / 50% data ü Memory card slot SD/MMC-Card with max. 2 GB Hardware configuration Racks, max. Modules per rack, max. 8 in multiple-, 32 in a single-rack configuration Number of integrated DP master Number of DP master via CP...
Page 44 Hardware description VIPA System 300S Technical data Order no. 314-6CF23 Word instruction, min. 0.01 µs Double integer arithmetic, min. 0.01 µs Floating-point arithmetic, min. 0.06 µs Timers/Counters and their retentive characteristics Number of S7 counters S7 counter remanence 0 .. 512 S7 counter remanence adjustable C0 ..
Page 45 VIPA System 300S Hardware description Technical data Order no. 314-6CF23 Digital inputs 65536 Digital outputs 65536 Digital inputs central 1032 Digital outputs central 1032 Integrated digital inputs Integrated digital outputs Analog inputs 1024 Analog outputs 1024 Analog inputs, central Analog outputs, central Integrated analog inputs Integrated analog outputs Communication functions...
Page 46 Hardware description VIPA System 300S Technical data Order no. 314-6CF23 MP²I (MPI/RS232) DP master DP slave Point-to-point interface 5V DC Power supply max. 90mA, isolated 24V DC Power supply max. 100mA, non-isolated Type Type of interface RS485 Connector Sub-D, 9-pin, female Electrically isolated ü...
Page 47 VIPA System 300S Hardware description Technical data Order no. 314-6CF23 S7 communication as client Activation/deactivation of DP slaves ü Direct data exchange (slave-to-slave communication) DPV1 ü Transmission speed, min. 9.6 kbit/s Transmission speed, max. 12 Mbit/s Number of DP slaves, max. Address range inputs, max.
Page 48 Hardware description VIPA System 300S Technical data Order no. 314-6CF23 PtP communication ü Interface isolated ü RS232 interface RS422 interface RS485 interface ü Connector Sub-D, 9-pin, female Transmission speed, min. 150 bit/s Transmission speed, max. 115.5 kbit/s Cable length, max. 500 m Point-to-point protocol ASCII protocol...
Page 49: Deployment Cpu 314-6Cf23
VIPA System 300S Deployment CPU 314-6CF23 Start-up behavior Deployment CPU 314-6CF23 5.1 Assembly Ä Chap. 3 ‘Assembly and Information about assembly and cabling: installation guidelines’ page 16 5.2 Start-up behavior Turn on power supply After the power supply has been switched on, the CPU changes to the operating mode the operating mode lever shows.
Page 50: Addressing
Deployment CPU 314-6CF23 VIPA System 300S Addressing > Addressing 5.3 Addressing 5.3.1 Overview To provide specific addressing of the installed peripheral modules, certain addresses must be allocated in the CPU. At the start-up of the CPU, this assigns automatically peripheral addresses for digital in-/output modules starting with 0 and ascending depending on the slot location.
Page 51 VIPA System 300S Deployment CPU 314-6CF23 Addressing > Addressing Automatic addressing If you do not like to use a hardware configuration, an automatic addressing comes into force. At the automatic address allocation DIOs occupy depending on the slot location always 4byte and AIOs, FMs, CPs always 16byte at the standard bus and 256byte at the SPEED-Bus.
Page 52 Deployment CPU 314-6CF23 VIPA System 300S Addressing > Addressing Example for automatic The following sample shows the functionality of the automatic address allocation sepa- address allocation rated for standard bus and SPEED-Bus: HB140 | CPU | 314-6CF23 | en | 19-01...
Page 53: Address Assignment I/O Part
VIPA System 300S Deployment CPU 314-6CF23 Addressing > Address assignment I/O part 5.3.3 Address assignment I/O part Overview By including the SPEEDBUS.GSD in your hardware configurator, the module is at your disposal in the hardware catalog. After the installation of the GSD you will find the CPU 314-6CF23 at ‘Additional field devices è...
Page 54: Hardware Configuration - Cpu
Deployment CPU 314-6CF23 VIPA System 300S Hardware configuration - CPU Addr. Name Byte Function AO_CH1 Analog output CH1 reserved OSTS_0 Output status counter 0 reserved OSTS_1 Output status counter 1 reserved OSTS_2 Output status counter 2 reserved OSTS_3 Output status counter 3 5.4 Hardware configuration - CPU Precondition The configuration of the CPU takes place at the Siemens ‘hardware configurator’...
Page 55: Switching Cpu Type To Cpu 318-2Aj00
VIPA System 300S Deployment CPU 314-6CF23 Hardware configuration - CPU > Switching CPU type to CPU 318-2AJ00 5.4.1 Switching CPU type to CPU 318-2AJ00 Overview To use projects, which were configured with the Siemens CPU type 318-2AJ00, you can switch from original CPU type to CPU type 318-2AJ00 by means of a CMD auto com- mand.
Page 56: Hardware Configuration - I/O Modules
Deployment CPU 314-6CF23 VIPA System 300S Hardware configuration - Ethernet PG/OP channel 5.5 Hardware configuration - I/O modules Hardware configuration of After the hardware configuration place the System 300 modules in the plugged sequence the modules starting with slot 4. Parametrization For parametrization double-click during the project engineering at the slot overview on the module you want to parameterize.
Page 57 VIPA System 300S Deployment CPU 314-6CF23 Hardware configuration - Ethernet PG/OP channel "Initialization" via PLC The initialization via PLC functions takes place with the following proceeding: functions Determine the current Ethernet (MAC) address of your Ethernet PG/OP channel. This always may be found as 1. address under the front flap of the CPU on a sticker on the left side.
Page 58: Hardware Configuration - Speed-Bus
Deployment CPU 314-6CF23 VIPA System 300S Hardware configuration - SPEED-Bus > Preconditions 5.7 Hardware configuration - SPEED-Bus 5.7.1 Preconditions Since the VIPA specific CPU parameters may be set and the modules at the SPEED-Bus may be configured, the installation of the SPEEDBUS.GSD from VIPA in the hardware catalog is necessary.
Page 59: Proceeding
VIPA System 300S Deployment CPU 314-6CF23 Setting standard CPU parameters > Parameters CPU 5.7.2 Proceeding The embedding of the CPU 314-6CF23 and its modules at the SPEED-Bus happens by means of a virtual PROFIBUS master system with the following approach: Ä...
Page 60 Deployment CPU 314-6CF23 VIPA System 300S Setting standard CPU parameters > Parameters CPU General Short description: The short description of the Siemens CPU is CPU 317-2DP (6ES7 317-2AK14-0AB0 V3.3). Order No. / Firmware: Order number and firmware are identical to the details in the "hardware catalog"...
Page 61 VIPA System 300S Deployment CPU 314-6CF23 Setting standard CPU parameters > Parameters CPU Retentive Memory Number of Memory bytes from MB0: Enter the number of retentive memory bytes from memory byte 0 onwards. Number of S7 Timers from T0: Enter the number of retentive S7 timers from T0 onwards.
Page 62: Parameters For Dp
Deployment CPU 314-6CF23 VIPA System 300S Setting standard CPU parameters > Parameters for MPI/DP Protection Level of protection: Here 1 of 3 protection levels may be set to protect the CPU from unauthorized access. – Protection level 1 (default setting): No password adjustable, no restrictions –...
Page 63: Setting Vipa Specific Cpu Parameters
VIPA System 300S Deployment CPU 314-6CF23 Setting VIPA specific CPU parameters > Proceeding Address Diagnostics: A diagnostics address for the MPI interface is to be preset here. In the case of an error the CPU is informed via this address. Operating mode, Configuration, Clock: These parameters are not supported.
Page 64: Vipa Specific Parameters
Deployment CPU 314-6CF23 VIPA System 300S Setting VIPA specific CPU parameters > VIPA specific parameters Hardware configuration The embedding of the CPU 314-6CF23 happens by means of a virtual PROFIBUS master system with the following approach: Perform a hardware configuration for the CPU. Ä...
Page 65 VIPA System 300S Deployment CPU 314-6CF23 Setting VIPA specific CPU parameters > VIPA specific parameters PROFIBUS DP syncInOut CPU and DP master system are waiting on each other and form thereby a cycle. Default: PROFIBUS DP async 5.9.2.1.1 Synchronization between master system and CPU Overview Normally the cycles of CPU and DP master run independently.
Page 66 Deployment CPU 314-6CF23 VIPA System 300S Setting VIPA specific CPU parameters > VIPA specific parameters PROFIBUS-DP SyncIn In the operating mode PROFIBUS DP SyncIn the CPU cycle is synchronized to the cycle of the VIPA PROFIBUS DP master system. Here the CPU cycle depends on the VIPA DP master with the longest cycle time.
Page 67: Project Transfer
VIPA System 300S Deployment CPU 314-6CF23 Project transfer > Transfer via MPI/PROFIBUS 5.9.2.6 Call OB 80 on cyclic interrupt error Once during a cyclic interrupt OB (OB 28, 29, 32 ... 35) the same cyclic interrupt is requested, the interrupt requests are collected and processed sequentially. Via the parameter ‘OB 80 for cyclic interrupt’...
Page 68 Deployment CPU 314-6CF23 VIPA System 300S Project transfer > Transfer via MPI/PROFIBUS MPI programming cable Activate the terminating resistor via switch MPI network Proceeding transfer via Connect your PC to the MPI jack of your CPU via a MPI programming cable. MPI interface Load your project in the Siemens SIMATIC Manager.
Page 69: Transfer Via Ethernet
VIPA System 300S Deployment CPU 314-6CF23 Project transfer > Transfer via memory card 5.10.2 Transfer via Ethernet For transfer via Ethernet the CPU has the following interface: X5: Ethernet PG/OP channel Initialization So that you may access the Ethernet PG/OP channel you have to assign IP address parameters by means of the "initialization".
Page 70: Accessing The Web Server
Deployment CPU 314-6CF23 VIPA System 300S Accessing the web server 5.11 Accessing the web server Access to the web server There is a web server, which can be accessed via the IP address of the Ethernet PG/OP channel with an Internet browser. At the web page information about the CPU and its connected modules can be found.
Page 71 VIPA System 300S Deployment CPU 314-6CF23 Accessing the web server X3 (RS485/COM2) DPM-async DPM: DP master operation or PtP: point to point operation PG/OP Ethernet Port Card Information Type Product S/N 6BC34010 Size 493617152 bytes Free 492355584 bytes Active Feature Set Information Status Memory Extension present Memory Usage...
Page 72 Deployment CPU 314-6CF23 VIPA System 300S Accessing the web server Currently nothing is displayed here. Here the IP address data of your Ethernet PG/OP channel are shown. Info - Overview DP master Info - Expert View Internal Information Slot 201 VIPA 342-1DA70 Module Type 0xCB2C0010...
Page 73 VIPA System 300S Deployment CPU 314-6CF23 Accessing the web server Info - Overview CPU component: Digitale I/O Info - Expert View Internal Information Slot 202 Module Type 0x4FD30000 Information for support Module Firmware Information PRODUCT VIPA DI8/DIO8 Name, firmware version V3.2.9.0 Data - Input data Offset...
Page 74 Deployment CPU 314-6CF23 VIPA System 300S Accessing the web server Info - Expert View Internal Information Slot 203 Module Type 0x55DD0002 Information for support Module Firmware Information BB000432 V1.1.2.0 PRODUCT VIPA AI5/AO2 Name, firmware version V1.1.2.0 Px000073.pkg Hx000041 V1.6.0.0 Data - AI5 (10byte) Offset Width Value (dec)
Page 75 VIPA System 300S Deployment CPU 314-6CF23 Accessing the web server Info - Overview CPU component: counter Info - Expert View Internal Information Slot 204 Module Type 0x38C00000 Information for support Module Firmware Information PRODUCT VIPA 4 COUNTER Name, firmware version V3.6.22.0 Data - Input data (16byte) Offset...
Page 76 Deployment CPU 314-6CF23 VIPA System 300S Accessing the web server Data - Output data (16byte) Offset Width Value (dec) Value (hex) Info - Overview VBUS - Digital In/Out 16 Data - Input data Offset Width Value (dec) Value (hex) HB140 | CPU | 314-6CF23 | en | 19-01...
Page 77 VIPA System 300S Deployment CPU 314-6CF23 Accessing the web server Data - Output data Offset Width Value (dec) Value (hex) New Value (hex) HB140 | CPU | 314-6CF23 | en | 19-01...
Page 78: Operating Modes
Deployment CPU 314-6CF23 VIPA System 300S Operating modes > Overview 5.12 Operating modes 5.12.1 Overview The CPU can be in one of 4 operating modes: Operating mode STOP Operating mode START-UP Operating mode RUN Operating mode HOLD Certain conditions in the operating modes START-UP and RUN require a specific reaction from the system program.
Page 79 VIPA System 300S Deployment CPU 314-6CF23 Operating modes > Overview Set the breakpoint with ‘Debug è Set Breakpoint’. ð The according command line is marked with a circle. To activate the breakpoint click on ‘Debug è Breakpoints Active’. ð The circle is changed to a filled circle. Bring your CPU into RUN.
Page 80: Function Security
Deployment CPU 314-6CF23 VIPA System 300S Operating modes > Function security 5.12.2 Function security The CPUs include security mechanisms like a Watchdog (100ms) and a parameterizable cycle time surveillance (parameterizable min. 1ms) that stop res. execute a RESET at the CPU in case of an error and set it into a defined STOP state.
Page 81: Overall Reset
VIPA System 300S Deployment CPU 314-6CF23 Overall reset 5.13 Overall reset Overview During the overall reset the entire user memory is erased. Data located in the memory card is not affected. You have 2 options to initiate an overall reset: Overall reset by means of the operating mode switch Overall reset by means of a configuration tool like e.g.
Page 82: Firmware Update
Deployment CPU 314-6CF23 VIPA System 300S Firmware update 5.14 Firmware update Overview There is the opportunity to execute a firmware update for the CPU and its compo- nents via memory card. For this an accordingly prepared memory card must be in the CPU during the startup.
Page 83 VIPA System 300S Deployment CPU 314-6CF23 Firmware update Load firmware and Go to www.vipa.com transfer it to memory card Click on ‘Service è Download è Firmware’. Navigate via ‘System 300S è CPU’ to your CPU and download the zip file to your Extract the zip file and copy the extracted pkg files to your memory card.
Page 84: Reset To Factory Settings
Deployment CPU 314-6CF23 VIPA System 300S Reset to factory settings 5.15 Reset to factory settings Proceeding With the following proceeding the internal RAM of the CPU is completely deleted and the CPU is reset to delivery state. Please regard that the MPI address is also reset to default 2 and the IP address of the Ethernet PG/OP channel is reset to 0.0.0.0! Ä...
Page 85: Deployment Storage Media - Mmc, Mcc
VIPA System 300S Deployment CPU 314-6CF23 Deployment storage media - MMC, MCC 5.16 Deployment storage media - MMC, MCC Overview At this slot the following storage media can be plugged: SD respectively MMC (Multimedia card) – External memory card for programs and firmware. MCC - Memory configuration card –...
Page 86 Deployment CPU 314-6CF23 VIPA System 300S Deployment storage media - MMC, MCC You may use the MCC also as "normal" MMC for storing your project. If the memory expansion on the MCC exceeds the maximum extendible memory range of the CPU, the maximum possible memory of the CPU is automatically used. You may determine the recent memory extension and the remaining time after pulling the MCC via the integrated web page.
Page 87: Extended Know-How Protection
VIPA System 300S Deployment CPU 314-6CF23 Extended know-how protection 5.17 Extended know-how protection Overview Please note that this functionality is not supported by the Siemens TIA Portal! Besides the "standard" Know-how protection the SPEED7 CPUs from VIPA provide an "extended" know-how protection that serves a secure block protection for accesses of 3. persons.
Page 88: Cmd - Auto Commands
Deployment CPU 314-6CF23 VIPA System 300S CMD - auto commands 5.18 CMD - auto commands Overview A command file at a memory card is automatically executed under the following condi- tions: CPU is in STOP and memory card is stuck After each PowerON Command file The command file is a text file, which consists of a command sequence to be stored as...
Page 89 VIPA System 300S Deployment CPU 314-6CF23 CMD - auto commands Command Description Diagnostics entry Ä Chap. 5.15 ‘Reset to factory settings’ page 84 or with this CPUTYPE_ORIGINAL With 0xE82B command the CPU type is reset to the original CPU type. CMD_END In the last line CMD_END is to be located.
Page 90: Diagnostic Entries
Deployment CPU 314-6CF23 VIPA System 300S Control and monitoring of variables with test functions 5.19 Diagnostic entries Ä Appendix A ‘System specific event IDs’ page 187 Accessing diagnostic data You may read the diagnostics buffer of the CPU via the Siemens SIMATIC Manager. Besides of the standard entries in the diagnostics buffer, the VIPA CPUs support some additional specific entries as Event-IDs.
Page 91 VIPA System 300S Deployment CPU 314-6CF23 Control and monitoring of variables with test functions ‘PLC This test function returns the condition of a selected operand (inputs, outputs, flags, data è Monitor/Modify word, counters or timers) at the end of program execution. This information is obtained Variables’...
Page 92: Deployment I/O Periphery
Deployment I/O periphery VIPA System 300S Overview Deployment I/O periphery 6.1 Overview General At the CPU 314-6CF23 the analog and digital in-/output channels are together in a 2tier casing. The following components are integrated: Analog input – 4xU/Ix12bit – 1xPt100 Analog output –...
Page 93: In-/Output Range Cpu 314-6Cf23
VIPA System 300S Deployment I/O periphery In-/Output range CPU 314-6CF23 6.2 In-/Output range CPU 314-6CF23 Overview CPU 314-6CF23 The CPU 314-6CF23 has the following analog and digital in- and output ranges inte- grated in one casing: Analog input: 4x12Bit, 1xPt100 Analog output: 2x12Bit Digital input: 8xDC 24V, interrupt capable, 4 counter Digital in-/output: 8xDC 24V, 0.5A...
Page 94 Deployment I/O periphery VIPA System 300S In-/Output range CPU 314-6CF23 CPU 314-6CF23: Analog part pin assignment and status indicator Assignment LEDs Description Power supply DC 24V AIO LED (green) Voltage measurement channel 0 Supply voltage Current measurement channel 0 available Ground channel 0 Voltage measurement channel 1 LED (red)
Page 95: Address Assignment I/O Part
VIPA System 300S Deployment I/O periphery Address assignment I/O part CPU 314-6CF23: Digital part pin assignment and status indicator Assignment LEDs Description Power supply 1L+ DC 24 V DI .0 ..7 I+0.0 / Counter 0(A) LED (green) I+0.1 / Counter 0(B) I+0.0 ...
Page 96: Analog Part
Deployment I/O periphery VIPA System 300S Analog part Addr. Name Byte Function AI_CH3 Analog input CH3 AI_CH4 Analog input CH4 reserved CVCL_0 Counter/Latch value 0 reserved ISTS_0 Input status counter 0 CVCL_1 Counter/Latch value 1 reserved ISTS_1 Input status counter 1 CVCL_2 Counter/Latch value 2 reserved...
Page 97 VIPA System 300S Deployment I/O periphery Analog part CAUTION! Temporarily not used analog inputs with activated channel must be con- nected to the concerning ground. To avoid measuring errors, you should connect only one measuring type per channel. CPU 314-6CF23: Analog part pin assignment and status indicator Assignment LEDs Description...
Page 98 Deployment I/O periphery VIPA System 300S Analog part Address Access Assignment Word Analog input CH3 Word Analog input CH4 Ä ‘Output area’ page 96 Used area Address Access Assignment Word Analog output CH0 Word Analog output CH1 Numeric notation in Sie- The analog values are represented in two’s complement format.
Page 99 VIPA System 300S Deployment I/O periphery Analog part Byte Bit 7 ... 0 0...1 Bit 15 ... 0: Module selection – 0000h: Activate digital and analog part (default) – 0001h: De-activate digital part – 0002h: De-activate analog part Digital/Analog conversion In the following all measuring ranges are listed that are supported by the analog part.
Page 100: Analog Part - Parametrization
Deployment I/O periphery VIPA System 300S Analog part - Parametrization Measuring range Current Decimal Range Conversion 4 ... 20mA 22.81mA 32511 7EFFh overrange 20mA 27648 6C00h nominal range 12mA 13824 3600h 0000h 1.19mA -4864 ED00h underrange Measuring range Current Decimal Range Conversion ±20mA...
Page 101 VIPA System 300S Deployment I/O periphery Analog part - Parametrization Record set B4h Byte Bit 7 ... 0 Default Wire break recognition Bit 0: Wire break recognition channel 0 Bit 1: Wire break recognition channel 1 Bit 2: Wire break recognition channel 2 Bit 3: Wire break recognition channel 3 Bit 4: Wire break recognition channel 4 –...
Page 102 Deployment I/O periphery VIPA System 300S Analog part - Parametrization Byte Bit 7 ... 0 Default Channel 6: Function Ä ‘Output area (channel 5, channel 6)’ page 104 Channel 5: High byte substitute value Channel 5: Low byte substitute value Channel 6: High byte substitute value Channel 6: Low byte substitute value *) If you want to get 0A respectively 0V as output value at CPU-STOP, you have to set the replacement value E500h.
Page 103 VIPA System 300S Deployment I/O periphery Analog part - Parametrization Structure measuring cycle byte: Byte Bit 7 ... 0 Default 7 ... Bit 3 ... 0: Velocity per channel – 0000: 15 conversions/s, resolution: 16 – 0001: 30 conversions/s, resolution: 16 –...
Page 104 Deployment I/O periphery VIPA System 300S Analog part - Parametrization Input area (channel 4) Function Input area Pt100 in 2wire mode -240...1000°C 1000°C = End overdrive region (10000) -200...+850°C = Nominal range (-2000 ... 8500) -240°C = End underdrive region (-2400) two’s complement Pt100 in 2wire mode -240...600°C...
Page 105: Analog Part - Diagnostic Functions
VIPA System 300S Deployment I/O periphery Analog part - Diagnostic functions Function Output area Current ±20mA ±23.52mA S7 format from Siemens 23.52mA = End overdrive region (32511) -20...20mA = Nominal range (-27648 ... 27648) -23.52mA = End underdrive region (-32512) two’s complement Current 4...20mA 0...22.81mA...
Page 106 Deployment I/O periphery VIPA System 300S Analog part - Diagnostic functions Record sets Record set 0 - diagnostic incoming Byte Bit 7 ... 0 Bit 0: set at module failure Bit 1: 0 (fix) Bit 2: set at external error Bit 3: set at channel error Bit 4: set at external auxiliary supply missing Bit 6 ...
Page 107 VIPA System 300S Deployment I/O periphery Analog part - Diagnostic functions Byte Bit 7 ... 0 Bit 0: Channel error channel 0 Bit 1: Channel error channel 1 Bit 2: Channel error channel 2 Bit 3: Channel error channel 3 Bit 4: Channel error channel 4 Bit 5: Channel error channel 5 Bit 6: Channel error channel 6...
Page 108: Digital Part
Deployment I/O periphery VIPA System 300S Digital part Byte Bit 7 ... 0 Bit 0: Parametrization error channel 5 Bit 1: 0 (fix) Bit 2: 0 (fix) Bit 3: Short circuit channel 5 Bit 4: Wire break channel 5 Bit 7 ... 5: 0 (fix) Bit 0: Parametrization error channel 6 Bit 1: 0 (fix) Bit 2: 0 (fix)
Page 109 VIPA System 300S Deployment I/O periphery Digital part CPU 314-6CF23: Digital part pin assignment and status indicator Assignment LEDs Description Power supply 1L+ DC 24 V DI .0 ..7 I+0.0 / Counter 0(A) LED (green) I+0.1 / Counter 0(B) I+0.0 ...
Page 110: Counter - Fast Introduction
Deployment I/O periphery VIPA System 300S Counter - Fast introduction Addr. Name Byte Function ISTS_1 Input status counter 1 CVCL_2 Counter value / latch value counter 2 reserved ISTS_2 Input status counter 2 CVCL_3 Counter value / latch value counter 3 reserved ISTS_3 Input status counter 3...
Page 111 VIPA System 300S Deployment I/O periphery Counter - Fast introduction Control counter The counter is controlled via the internal gate (I-gate). The I-gate is the sum of hardware- (HW) and software-gate (SW), where the HW-gate evaluation may be deactivated via the parametrization.
Page 112: Counter - In-/Output Area
Deployment I/O periphery VIPA System 300S Counter - In-/output area 6.9 Counter - In-/output area Access to the digital part By including the SPEEDBUS.GSD in your hardware configurator, the module is at your disposal in the hardware catalog. After the installation of the GSD you will find the CPU at ‘Additional field devices è...
Page 113 VIPA System 300S Deployment I/O periphery Counter - In-/output area Latch value counter An edge 0-1 at the digital Latch input stores the current counter value in as latch value. ISTS_ Input status The status word in the input area has the following structure: Name Function COUNT_LTCH...
Page 114: Counter - Parametrization
Deployment I/O periphery VIPA System 300S Counter - Parametrization Name Function reserved reserved SET_C_VAL By setting the counter may be temporarily set to a value, which was pre-set via record set (9A+x)h before. RES_STS By setting the status bits STS_CMP, STS_END, STS_OFLW, STS_UFLW and STS_ZP are reset.
Page 115 VIPA System 300S Deployment I/O periphery Counter - Parametrization Byte Record set Description C3: Count value that is transferred to counter by setting bit 5 in the output status word Activate respectively de-activate analog/digital part Except of the parameter in record set 0, you may transfer the other parameters during runtime by using the SFC 55, 56, 57 and 58 to the digital part.
Page 116 Deployment I/O periphery VIPA System 300S Counter - Parametrization The double word for the counter mode has the following structure: Byte Bit 7 ... 0 Bit 2 ... 0: Signal evaluation – 000b = Counter de-activated At de-activated counter the further parameter settings for this counter are ignored and the according I/O channel is set as "normal"...
Page 117 VIPA System 300S Deployment I/O periphery Counter - Parametrization Byte Bit 7 ... 0 Bit 5 ... 0: Interrupt behavior: – Bit 0: Process interrupt HW gate open Bit 1: Process interrupt HW gate closed Bit 2: Process interrupt overflow Bit 3: Process interrupt underrun Bit 4: Process interrupt comparison value Bit 5: Process interrupt end value...
Page 118 Deployment I/O periphery VIPA System 300S Counter - Parametrization Byte Bit 7...0 Bit 1 ... 0: Edge selection I+1.2 Bit 7 ... 2: reserved Bit 1 ... 0: Edge selection I+1.3 Bit 7 ... 2: reserved Bit 1 ... 0: Edge selection I+1.4 Bit 7 ...
Page 119 VIPA System 300S Deployment I/O periphery Counter - Parametrization This record set allows you to preset an input filter in steps of 2.56ms steps for I+0.0 ... I+1.7. By preceding a filter you define how long an input signal must be present before it is recognized as "1"...
Page 120: Counter - Functions
Deployment I/O periphery VIPA System 300S Counter - Functions Record set 9A ... 9Dh - Set A register can be preset using record set (9A+x)h. The current counter value is replaced counter value temporary by the register value by setting bit 5 of the output status word without any influence to the load value.
Page 121 VIPA System 300S Deployment I/O periphery Counter - Functions The count process continuous after closing and restart of the gate beginning with the last recent counter value. Count continuously In this operating mode, the counter counts from the load value. When the counter counts forward and reaches the upper count limit and another counting pulse in positive direction arrives, it jumps to the lower count limit and counts from there on.
Page 122 Deployment I/O periphery VIPA System 300S Counter - Functions Aborting gate control: Main counting direction forward The counter counts starting with the load value. When the counter reaches the end value -1 in positive direction, it jumps to the load value at the next positive count pulse and the gate is automatically closed.
Page 123 VIPA System 300S Deployment I/O periphery Counter - Functions Main counting direction backwards The counter counts backwards starting with the load value. When the counter reaches the end value +1 in negative direction, it jumps to the load value at the next negative count pulse and the gate is automatically closed. To restart the count process, you must create a positive edge of the gate.
Page 124 Deployment I/O periphery VIPA System 300S Counter - Functions Limits Valid value range Lower count limit -2 147 483 648 (-2 Upper count limit +2 147 483 647 (2 Main counting direction forward The counter counts forward starting with the load value. When the counter reaches the end value –1 in positive direction, it jumps to the load value at the next positive count pulse.
Page 125: Counter - Additional Functions
VIPA System 300S Deployment I/O periphery Counter - Additional functions Limits Valid value range Limit value -2 147 483 648 (-2 to +2 147 483 646 (2 Upper count limit +2 147 483 647 (2 6.12 Counter - Additional functions Overview The following additional functions may be set via the parametrization of the counter: Gate function...
Page 126 Deployment I/O periphery VIPA System 300S Counter - Additional functions Gate function The activation respectively de-activation of a counter happens via an internal gate (I- gate). The I-gate consists of a software gate (SW-gate) and a hardware gate (HW-gate). The SW-gate is opened (activated) via your user application by setting the output status bit 2 for the according counter.
Page 127 VIPA System 300S Deployment I/O periphery Counter - Additional functions At interrupt function, the counter starts counting with the last recent counter value after gate restart. Gate control abort, inter- Gate control via SW-gate, aborting (parametrization: record set 0, byte 0, bit 7 ... 3 = rupt 00000b) SW-gate...
Page 128 Deployment I/O periphery VIPA System 300S Counter - Additional functions Gate control via SW/HW-gate, aborting (parametrization: record set 0, byte 0, bit 7 ... 3 = 00001b) SW-gate HW-gate Reaction counter Edge 0-1 Continue Edge 0-1 Restart with Load value Gate control via SW/HW-gate, interrupting (parametrization: record set 0, byte 0, bit 7 ...
Page 129 VIPA System 300S Deployment I/O periphery Counter - Additional functions Output set at comparison value (pulse at comparison value) – When the counter reaches the comparison value the output is set for the parame- trized pulse duration. – If the pulse duration = 0, the output is set until the comparison condition is not longer fulfilled.
Page 130 Deployment I/O periphery VIPA System 300S Counter - Additional functions With reaching the comparison condition the hysteresis gets active. At active hysteresis the comparison result remains unchanged until the counter value leaves the set hyste- resis range. After leaving the hysteresis range a new hysteresis is only activated with again reaching the comparison conditions.
Page 131: Counter - Diagnostic And Interrupt
VIPA System 300S Deployment I/O periphery Counter - Diagnostic and interrupt Effect at pulse at compar- ison value with pulse duration not zero Counter value = comparison value ® pulse of the parameterized pulse duration is put out, the hysteresis is activated and the counting direction stored Leaving the hysteresis range contrary to the stored counting direction ®...
Page 132: Process Interrupt
Deployment I/O periphery VIPA System 300S Counter - Diagnostic and interrupt > Diagnostic interrupt 6.13.1 Process interrupt Function A process interrupt causes a call of the OB 40. Within the OB 40 you may find the logical basic address of the module that initialized the process interrupt by using the local word 6.
Page 133 VIPA System 300S Deployment I/O periphery Counter - Diagnostic and interrupt > Diagnostic interrupt cessing at first all interim stored diagnostic interrupts are processed in the sequence of their occurrence and then all process interrupts. If a channel where currently a diagnostic interrupt is processed res.
Page 134 Deployment I/O periphery VIPA System 300S Counter - Diagnostic and interrupt > Diagnostic interrupt Byte Bit 7...0 Bit 3 ... 0: 0 (fix) Bit 4: Failure module internal supply voltage (output overload) Bit 7 ... 5: 0 (fix) Bit 5 ... 0: 0 (fix) Bit 6: Process interrupt lost Bit 7: 0 (fix) Record set 0 Diagnostic...
Page 135 VIPA System 300S Deployment I/O periphery Counter - Diagnostic and interrupt > Diagnostic interrupt Byte Bit 7...0 Bit 0: Error in channel group 0 (I+0.0 ... I+0.3) Bit 1: Error in channel group 1 (I+0.4 ... I+0.7 Bit 2: Error in channel group 2 (I+1.0 ... I+1.3) Bit 3: Error in channel group 3 (I+1.4 ...
Page 136 Deployment I/O periphery VIPA System 300S Counter - Diagnostic and interrupt > Diagnostic interrupt Byte Bit 7...0 Diagnostic interrupt due to process interrupt lost at... Bit 0: ... gate counter 0 closed Bit 1: 0 (fix) Bit 2: ... gate counter 0 opened Bit 3: 0 (fix) Bit 4: ...
Page 137: Deployment Ptp Communication
VIPA System 300S Deployment PtP communication Fast introduction Deployment PtP communication 7.1 Fast introduction General The CPU has a PROFIBUS/PtP interface with a fix pinout. After an overall reset the inter- face is deactivated. By appropriate configuration the PtP function (point to point) can be enabled: PtP functionality –...
Page 138: Principle Of The Data Transfer
Deployment PtP communication VIPA System 300S Deployment of RS485 interface for PtP 7.2 Principle of the data transfer RS485 PtP communication The data transfer is handled during runtime by using FC/SFCs. The principle of data transfer is the same for all protocols and is shortly illustrated in the following. Data, which are written into the according data channel by the CPU, is stored in a FIFO send buffer (first in first out) with a size of 2x1024byte and then put out via the interface.
Page 139 VIPA System 300S Deployment PtP communication Deployment of RS485 interface for PtP Installation of the The GSD (Geräte-Stamm-Datei) is online available in the following language versions. SPEEDBUS.GSD Further language versions are available on inquires: Name Language SPEEDBUS.GSD German (default) SPEEDBUS.GSG German SPEEDBUS.GSE English...
Page 140 Deployment PtP communication VIPA System 300S Deployment of RS485 interface for PtP Setting PtP parameters By double clicking the CPU 314-6CF23 placed in the slave system the properties dialog of the CPU may be opened. Switch the Parameter ‘Function RS485 X3’ to ‘PtP’ . Properties RS485 Logical states represented by voltage differences between the two cores of a twisted pair cable...
Page 141: Parametrization
VIPA System 300S Deployment PtP communication Communication > FC/SFC 217 - SER_SND - Send to PtP Connection RS485 interface Periphery *) For traffic-free data transfer use a terminating resistor of approximately 7.4 Parametrization 7.4.1 FC/SFC 216 - SER_CFG - Parametrization PtP The parametrization happens during runtime deploying the FC/SFC 216 (SER_CFG).
Page 142: Fc/Sfc 218 - Ser_Rcv - Receive From Ptp
Deployment PtP communication VIPA System 300S Protocols and procedures 7.5.2 FC/SFC 218 - SER_RCV - Receive from PtP This block receives data via the serial interface. Using the FC/SFC 218 SER_RCV after SER_SND with the protocols USS and Modbus the acknowledgement telegram can be read.
Page 143 VIPA System 300S Deployment PtP communication Protocols and procedures 3964 The 3964R procedure controls the data transfer of a point-to-point link between the CPU and a communication partner. The procedure adds control characters to the message data during data transfer. These control characters may be used by the communication partner to verify the complete and error free receipt.
Page 144 Deployment PtP communication VIPA System 300S Protocols and procedures It is essential: You may connect 1 master and max. 31 slaves at the bus The single slaves are addressed by the master via an address sign in the telegram. The communication happens exclusively in half-duplex operation. After a send command, the acknowledgement telegram must be read by a call of the FC/SFC 218 SER_RCV.
Page 145 VIPA System 300S Deployment PtP communication Protocols and procedures After a send command, the acknowledgement telegram must be read by a call of the FC/SFC 218 SER_RCV. The request telegrams send by the master and the respond telegrams of a slave have the following structure: Telegram structure Start sign...
Page 146: Modbus - Function Codes
Deployment PtP communication VIPA System 300S Modbus - Function codes 7.7 Modbus - Function codes Naming convention Modbus has some naming conventions: Modbus differentiates between bit and word access; bits = "Coils" and words = "Reg- ister". Bit inputs are referred to as "Input-Status" and bit outputs as "Coil-Status". word inputs are referred to as "Input-Register"...
Page 147 VIPA System 300S Deployment PtP communication Modbus - Function codes Code Command Description Read n bits Read n bits of master output area 0x Read n bits Read n bits of master input area 1x Read n words Read n words of master output area 4x Read n words Read n words master input area 3x Write 1 bit...
Page 148 Deployment PtP communication VIPA System 300S Modbus - Function codes Command telegram Slave address Function code Address 1. bit Number of bits Check sum CRC/LRC 1byte 1byte 1word 1word 1word Respond telegram Slave address Function code Number of Data 1. byte Data 2.
Page 149 VIPA System 300S Deployment PtP communication Modbus - Function codes Write 1 word 06h Code 06h: Write 1 word to master output area 4x Command telegram Slave address Function code Address word Value word Check sum CRC/LRC 1byte 1byte 1word 1word 1word Respond telegram...
Page 150: Modbus - Example Communication
Deployment PtP communication VIPA System 300S Modbus - Example communication 7.8 Modbus - Example communication Overview The example establishes a communication between a master and a slave via Modbus. The following combination options are shown: CPU 31xS as Modbus RTU master CPU 21xSER-1 as Modbus RTU slave Siemens SIMATIC Manager and possibilities for the project transfer Modbus cable connection...
Page 151 VIPA System 300S Deployment PtP communication Modbus - Example communication HB140 | CPU | 314-6CF23 | en | 19-01...
Page 152: Deployment Profibus Communication
Deployment PROFIBUS communication VIPA System 300S Fast introduction Deployment PROFIBUS communication 8.1 Overview PROFIBUS DP PROFIBUS is an international standard applicable to an open and serial field bus for building, manufacturing and process automation that can be used to create a low (sensor-/actuator level) or medium (process level) performance network of program- mable logic controllers.
Page 153: Hardware Configuration - Cpu
VIPA System 300S Deployment PROFIBUS communication Hardware configuration - CPU To be compatible to the Siemens SIMATIC Manager, the CPU 314-6CF23 from VIPA is to be configured as CPU 317-2DP (6ES7 317-2AK14-0AB0 V3.3). The integrated PROFIBUS DP master (X3) is to be configured and con- nected via the sub module X2 (DP).
Page 154: Switching Cpu Type To Cpu 318-2Aj00
Deployment PROFIBUS communication VIPA System 300S Hardware configuration - CPU > Switching CPU type to CPU 318-2AJ00 8.3.1 Switching CPU type to CPU 318-2AJ00 Overview To use projects, which were configured with the Siemens CPU type 318-2AJ00, you can switch from original CPU type to CPU type 318-2AJ00 by means of a CMD auto com- mand.
Page 155: Deployment As Profibus Dp Master
VIPA System 300S Deployment PROFIBUS communication Deployment as PROFIBUS DP master 8.4 Deployment as PROFIBUS DP master Precondition The hardware configuration described before was established. Proceeding Open the properties dialog of the DP interface of the CPU by means of a double- click at ‘MPI/DP’...
Page 156: Deployment As Profibus Dp Slave
Deployment PROFIBUS communication VIPA System 300S Deployment as PROFIBUS DP slave 8.5 Deployment as PROFIBUS DP slave Fast introduction In the following the deployment of the PROFIBUS section as "intelligent" DP slave on master system is described, which exclusively may be configured in the Siemens SIMATIC Manager.
Page 157 VIPA System 300S Deployment PROFIBUS communication Deployment as PROFIBUS DP slave Switch at Operating mode to "DP master" and confirm the dialog with [OK]. Connect your slave system to this master system by dragging the "CPU 31x" from the hardware catalog at Configured stations onto the master system and select your slave system to be coupled.
Page 158: Profibus Installation Guidelines
Deployment PROFIBUS communication VIPA System 300S PROFIBUS installation guidelines 8.6 PROFIBUS installation guidelines PROFIBUS in general A PROFIBUS DP network may only be built up in linear structure. PROFIBUS DP consists of minimum one segment with at least one master and one slave.
Page 159 VIPA System 300S Deployment PROFIBUS communication PROFIBUS installation guidelines The PROFIBUS line has to be terminated with its ripple resistor. Please make sure to terminate the last participants on the bus at both ends by activating the terminating resistor. EasyConn bus connector In PROFIBUS all participants are wired parallel.
Page 160 Deployment PROFIBUS communication VIPA System 300S PROFIBUS installation guidelines Wiring [1] 1./last bus participant [2] further participants CAUTION! The terminating resistor is only effective, if the connector is installed at a bus participant and the bus participant is connected to a power supply. The tightening torque of the screws to fix the connector to a device must not exceed 0.02Nm! A complete description of installation and deployment of the terminating...
Page 161: Commissioning And Start-Up Behavior
VIPA System 300S Deployment PROFIBUS communication Commissioning and Start-up behavior 8.7 Commissioning and Start-up behavior Start-up on delivery In delivery the CPU is overall reset. The PROFIBUS part is deactivated and its LEDs are off after Power ON. Online with bus parameter The DP master can be served with bus parameters by means of a hardware configura- without slave project tion.
Page 162: Winplc7
WinPLC7 VIPA System 300S Installation WinPLC7 9.1 System conception General WinPLC7 is a programming and simulation software from VIPA for every PLC program- mable with Siemens STEP ® 7. This tool allows you to create user applications in FBD, LAD and STL. Besides of a comfortable programming environment, WinPLC7 has an integrated simulator that enables the simulation of your user application at the PC without additional hardware.
Page 163: Example Project Engineering
VIPA System 300S WinPLC7 Example project engineering > Job definition Activation of the "Profi" Start WinPLC7. version ð A ‘Demo’ dialog is shown Click at [Activate Software]. ð The following dialog for activation is shown: Fill in the following fields: Email-Addr.
Page 164: Project Engineering
WinPLC7 VIPA System 300S Example project engineering > Project engineering Here it should apply: if value1 = value2 activate output Q 124.0 if value1 > value2 activate output Q 124.1 if value1 < value2 activate output Q 124.2 Precondition You have administrator rights for your PC. WinPLC7 is installed and activated as "Profi"...
Page 165 VIPA System 300S WinPLC7 Example project engineering > Project engineering Establish online access via Ethernet PG/OP channel: Open the CPU-Properties, by double clicking to the CPU at slot 2 in the hardware configurator. Click to the button [Ethernet CP-Properties (PG/OP-channel)]. ð...
Page 166 WinPLC7 VIPA System 300S Example project engineering > Project engineering Programming of the FC 1 The PLC programming happens by WinPLC7. Close the hardware configurator and return to your project in WinPLC7. The PLC program is to be created in the FC 1. In ‘Project content’...
Page 167 VIPA System 300S WinPLC7 Example project engineering > Project engineering As requested in the job definition, the corresponding output is activated depending on the comparison of value1 and value2. For each comparison operation a separate network is to be created. The program is to be created as FBD (function block diagram).
Page 168 WinPLC7 VIPA System 300S Example project engineering > Project engineering The allocation to the corresponding output, here Q 124.0, takes place with the following proceeding: Click to the output at the right side of the operator. Open in the catalog the category ‘Bit logic’ and select the function ‘--[=]’ . The inserting of ‘--[=]’...
Page 169 VIPA System 300S WinPLC7 Example project engineering > Project engineering Save the FC 1 with ‘File è Save content of focused window’ respectively press [Strg]+[S]. ð After you have programmed the still missing networks, the FC 1 has the fol- lowing structure: Creating the block OB 1 The FC 1 is to be called from the cycle OB 1.
Page 170: Test The Plc Program In The Simulator
WinPLC7 VIPA System 300S Example project engineering > Test the PLC program in the Simulator Type in "Call FC 1" and press the [Return] key. ð The FC parameters are automatically displayed and the following parameters are assigned: Save the OB 1 with respectively press [Strg]+[S].
Page 171: Transfer Plc Program To Cpu And Its Execution
VIPA System 300S WinPLC7 Example project engineering > Transfer PLC program to CPU and its execution Open the OB 1. Change the value of one variable, save the OB 1 and transfer it to the simulator. ð According to your settings the process image changes immediately. The status of your blocks may be displayed with ‘Block è...
Page 172 WinPLC7 VIPA System 300S Example project engineering > Transfer PLC program to CPU and its execution Choose your CPU, which was provided with TCP/IP address parameters during the hardware configuration and click to [Confirm]. Close the dialog ‘Ethernet properties’ with [OK]. Transfer your project to your CPU with ‘PLC è...
Page 173: Configuration With Tia Portal
VIPA System 300S Configuration with TIA Portal TIA Portal - Work environment > General Configuration with TIA Portal 10.1 TIA Portal - Work environment 10.1.1 General General In this chapter the project engineering of the VIPA CPU in the Siemens TIA Portal is shown.
Page 174: Work Environment Of The Tia Portal
Configuration with TIA Portal VIPA System 300S TIA Portal - Work environment > Work environment of the TIA Portal 10.1.2 Work environment of the TIA Portal Basically, the TIA Portal has the following 2 views. With the button on the left below you can switch between these views: Portal view The ‘Portal view’...
Page 175: Tia Portal - Hardware Configuration - Cpu
VIPA System 300S Configuration with TIA Portal TIA Portal - Hardware configuration - CPU 10.2 TIA Portal - Hardware configuration - CPU Configuration Siemens With the Siemens TIA Portal the CPU 314-6CF23 from VIPA is to be configured as CPU 317-2DP (6ES7 317-2AK14-0AB0 V3.3) from Siemens.
Page 176: Tia Portal - Hardware Configuration - I/O Modules
Configuration with TIA Portal VIPA System 300S TIA Portal - Hardware configuration - I/O modules 10.3 TIA Portal - Hardware configuration - I/O modules Hardware configuration of After the hardware configuration of the CPU place the System 300 modules at the bus in the modules the plugged sequence.
Page 177: Tia Portal - Hardware Configuration - Ethernet Pg/Op Channel
VIPA System 300S Configuration with TIA Portal TIA Portal - Hardware configuration - Ethernet PG/OP channel 10.4 TIA Portal - Hardware configuration - Ethernet PG/OP channel Overview The CPU has an integrated Ethernet PG/OP channel. This channel allows you to pro- gram and remote control your CPU.
Page 178 Configuration with TIA Portal VIPA System 300S TIA Portal - Hardware configuration - Ethernet PG/OP channel Confirm with [Assign IP configuration]. ð Directly after the assignment the Ethernet PG/OP channel is online reachable using the set IP address data. The value remains as long as it is reassigned, it is overwritten by a hardware configuration or an factory reset is executed.
Page 179: Tia Portal - Setting Vipa Specific Cpu Parameters
VIPA System 300S Configuration with TIA Portal TIA Portal - Setting VIPA specific CPU parameters Device overview: Module Slot Type PLC... CPU ... DI... DI... DO... DO... DIO... DIO... AI... AI... AO... AO... CP 343-1 CP 343-1 10.5 TIA Portal - Setting VIPA specific CPU parameters Requirements Since the VIPA specific CPU parameters may be set, the installation of the SPEEDBUS.GSD from VIPA in the hardware catalog is necessary.
Page 180 Configuration with TIA Portal VIPA System 300S TIA Portal - Setting VIPA specific CPU parameters Thus, the VIPA components can be displayed, you have to deactivate the "Filter" of the hardware catalog. Proceeding The embedding of the CPU 314-6CF23 happens by means of a virtual PROFIBUS master system with the following approach: Start the Siemens TIA Portal.
Page 181 VIPA System 300S Configuration with TIA Portal TIA Portal - Setting VIPA specific CPU parameters Thus, the VIPA components can be displayed, you have to deactivate the "Filter" of the hardware catalog. Connect VIPA_SPEEDbus Switch in the Project area to Network view. Connect the slave system "VIPA_SPEEDbus".
Page 182: Tia Portal - Vipa-Include Library
Configuration with TIA Portal VIPA System 300S TIA Portal - VIPA-Include library 10.6 TIA Portal - VIPA-Include library Overview The VIPA specific blocks can be found in the "Service" area of www.vipa.com as library download file at Downloads > VIPA LIB. The library is available as packed zip file for the corresponding TIA Portal version.
Page 183: Tia Portal - Project Transfer
VIPA System 300S Configuration with TIA Portal TIA Portal - Project transfer 10.7 TIA Portal - Project transfer Overview There are the following possibilities for project transfer into the CPU: Transfer via MPI Transfer via Ethernet Transfer via memory card Transfer via MPI Currently the VIPA programming cables for transfer via MPI are not supported.
Page 184 Configuration with TIA Portal VIPA System 300S TIA Portal - Project transfer Transfer via memory card The memory card serves as external storage medium. There may be stored several proj- ects and sub-directories on a memory card. Please regard that your current project is stored in the root directory and has one of the following file names: S7PROG.WLD AUTOLOAD.WLD...
Page 185: Appendix
VIPA System 300S Appendix Appendix HB140 | CPU | 314-6CF23 | en | 19-01...
Page 186 Appendix VIPA System 300S Content System specific event IDs................187 Integrated blocks.................... 235 SSL partial list....................239 HB140 | CPU | 314-6CF23 | en | 19-01...
Page 187: A System Specific Event Ids
VIPA System 300S System specific event IDs System specific event IDs Ä Chap. 5.19 ‘Diagnostic entries’ page 90 Event IDs Event ID Description 0x115C Manufacture interrupt for EtherCAT / PROFINET IO OB: OB number ZINFO1: Logical address of the slave station that triggered the interrupt ZINFO2: Interrupt type 0: Reserved 1: Diagnostic interrupt (incoming)
Page 188 System specific event IDs VIPA System 300S Event ID Description 0xE005 Internal error - Please contact the hotline! ZINFO1: Not user relevant ZINFO2: Not user relevant ZINFO3: Not user relevant 0xE007 Configured input/output bytes do not fit in the periphery area 0xE008 Internal error - Please contact the hotline! 0xE009...
Page 189 VIPA System 300S System specific event IDs Event ID Description ZINFO1: Error 4: SSL wrong 5: Sub-SSL wrong 6: Index wrong ZINFO2: SZL-ID ZINFO3: Index 0xE0CC Communication error ZINFO1: Error code 1: Wrong priority 2: Buffer overrun 3: Telegram format error 4: Wrong SSL request (SSL-ID invalid) 5: Wrong SSL request (SSL-Sub-ID invalid) 6: Wrong SSL request (SSL-Index invalid)
Page 190 System specific event IDs VIPA System 300S Event ID Description 0xE200 Memory card writing finished (Copy Ram2Rom) OB: Not user relevant PK: Not user relevant 0xE210 Memory card reading finished (reload after memory reset) OB: Not user relevant PK: Not user relevant ZINFO1 - Position 0: Not user relevant 0xE21D Memory card reading: Error on reload (after memory reset), error in the block header...
Page 191 VIPA System 300S System specific event IDs Event ID Description 70: SFB 97: VDB 98: VSDB 99: VFC 100: VSFC 101: VFB 102: VSFB 111: VOB ZINFO3: Block number 0xE300 Internal flash writing completed (copy Ram2Rom) 0xE310 Internal flash reading completed (recharging after battery failure) 0xE400 FSC card was plugged OB: FSC activated from this slot (PK)
Page 192 System specific event IDs VIPA System 300S Event ID Description 23357: 955-C000M00 24576: 955-C000050 35025: 955-C00MC10 36351: FSC-C000S40 36794: FSC-C000M40 37260: 955-C000S40 37833: 955-C000M40 38050: FSC-C00MC10 41460: 955-C000M50 41526: 955-C0PE040 42655: FSC-C00MC00 47852: 955-C00MC00 48709: FSC-C0PE040 50574: 955-C000M70 52366: 955-C000030 53501: FSC-C000030 58048: FSC-C000020 63411: 955-C000M60...
Page 193 VIPA System 300S System specific event IDs Event ID Description 4940: FSC-C000S30 5755: 955-C0ME040 6843: FSC-C0NE040 8561: FSC-C000S20 9012: FSC-C000M20 13895: 955-C000060 15618: 955-C000S20 16199: 955-C000M20 17675: FSC-C000S00 18254: FSC-C000M00 20046: FSC-C000040 21053: 955-C000040 22904: 955-C000S00 23357: 955-C000M00 24576: 955-C000050 35025: 955-C00MC10 36351: FSC-C000S40 36794: FSC-C000M40...
Page 194 System specific event IDs VIPA System 300S Event ID Description ZINFO2: Number of released axes ZINFO3: Number of configured axes 0xE403 FSC can not be activated in this CPU OB: FCS error code PK: FSC source 0: CPU 1: Card ZINFO1: FSC(CRC) 1146: 955-C000070 1736: 955-C0NE040...
Page 195 VIPA System 300S System specific event IDs Event ID Description 47852: 955-C00MC00 48709: FSC-C0PE040 50574: 955-C000M70 52366: 955-C000030 53501: FSC-C000030 58048: FSC-C000020 63411: 955-C000M60 65203: 955-C000020 ZINFO2: FSC serial number (high word) ZINFO3: FSC serial number (low word) 0xE404 Feature set deleted due to CRC error 0xE405 The trial time of a feature set/memory card has expired OB: Action after the end of the trial time...
Page 196 System specific event IDs VIPA System 300S Event ID Description 20046: FSC-C000040 21053: 955-C000040 22904: 955-C000S00 23357: 955-C000M00 24576: 955-C000050 35025: 955-C00MC10 36351: FSC-C000S40 36794: FSC-C000M40 37260: 955-C000S40 37833: 955-C000M40 38050: FSC-C00MC10 41460: 955-C000M50 41526: 955-C0PE040 42655: FSC-C00MC00 47852: 955-C00MC00 48709: FSC-C0PE040 50574: 955-C000M70 52366: 955-C000030...
Page 197 VIPA System 300S System specific event IDs Event ID Description 3903: 955-C000S30 4361: FSC-C000M30 4940: FSC-C000S30 5755: 955-C0ME040 6843: FSC-C0NE040 8561: FSC-C000S20 9012: FSC-C000M20 13895: 955-C000060 15618: 955-C000S20 16199: 955-C000M20 17675: FSC-C000S00 18254: FSC-C000M00 20046: FSC-C000040 21053: 955-C000040 22904: 955-C000S00 23357: 955-C000M00 24576: 955-C000050 35025: 955-C00MC10...
Page 198 System specific event IDs VIPA System 300S Event ID Description 56: OB 65: DB 66: SDB 67: FC 68: SFC 69: FB 70: SFB 97: VDB 98: VSDB 99: VFC 100: VSFC 101: VFB 102: VSFB 111: VOB ZINFO3: Block number 0xE501 Parser error ZINFO1: Error code...
Page 199 VIPA System 300S System specific event IDs Event ID Description 0xE503 Inconsistency of code sizes and block sizes in the working memory ZINFO1: Code size ZINFO2: Block size (high word) ZINFO3: Block size (low word) 0xE504 Additional information for CRC error in the working memory ZINFO2: Block address (high word) ZINFO3: Block address (low word) 0xE505...
Page 200 System specific event IDs VIPA System 300S Event ID Description ZINFO3: Not user relevant DatID: Not user relevant 0xE705 Too many PROFIBUS slaves configured ZINFO1: Diagnostic address of the PROFIBUS master ZINFO2: Number of configured slaves ZINFO3: Number of admissible slaves 0xE710 On-board PROFIBUS/MPI: Bus error occurred PK: Not user relevant...
Page 201 VIPA System 300S System specific event IDs Event ID Description ZINFO2: Length of the address range ZINFO3: Size of the process image DatID: Address range 0xE801 CMD - auto command: CMD_START recognized and executed 0xE802 CMD - auto command: CMD_End recognized and executed 0xE803 CMD - auto command: WAIT1SECOND recognized and executed 0xE804...
Page 202 System specific event IDs VIPA System 300S Event ID Description 0xE80E CMD - auto command: SET_NETWORK recognized and executed 0xE80F Internal error - Please contact the hotline! ZINFO3: Status 0: OK 65153: File create error 65185: File writing error 65186: Odd address for reading 0xE810 Internal error - Please contact the hotline! 0xE811...
Page 203 VIPA System 300S System specific event IDs Event ID Description 0xE901 Checksum error ZINFO1: Not user relevant ZINFO2: Not user relevant DatID: Not user relevant 0xE902 Internal error - Please contact the hotline! ZINFO1: Not user relevant ZINFO2: Not user relevant DatID: Not user relevant 0xE904 PG/OP: Multiple parametrization of a peripheral address...
Page 204 System specific event IDs VIPA System 300S Event ID Description ZINFO1: Slot DatID: Not user relevant 0xEA02 SBUS: Internal error (internal plugged sub module not recognized) PK: Not user relevant ZINFO1: Slot ZINFO2: Type identifier target ZINFO3: Type identifier DatID: Not user relevant 0xEA03 SBUS: Communication error between CPU and IO controller OB: Operating mode...
Page 205 VIPA System 300S System specific event IDs Event ID Description 7: Not Connected 8: Unknown DatID: Not user relevant 0xEA04 SBUS: Multiple configuration of a periphery address ZINFO1: Periphery address ZINFO2: Slot ZINFO3: Data width 0xEA05 Internal error - Please contact the hotline! 0xEA07 Internal error - Please contact the hotline! 0xEA08...
Page 206 System specific event IDs VIPA System 300S Event ID Description PK: Not user relevant ZINFO2: HW slot ZINFO3: Interface type DatID: Not user relevant 0xEA1A SBUS: Error in access to SBUS FPGA address table PK: Not user relevant ZINFO2: HW slot ZINFO3: Table 0: Read 1: Writing...
Page 207 VIPA System 300S System specific event IDs Event ID Description DatID: Line 0xEA50 PROFINET IO controller: Error in the configuration OB: Not user relevant PK: Not user relevant ZINFO1: Rack/slot of the controller ZINFO2: Device number ZINFO3: Slot at the device DatID: Not user relevant 0xEA51 PROFINET IO controller: There is no PROFINET IO controller at the configured slot...
Page 208 System specific event IDs VIPA System 300S Event ID Description OB: File number PK: Slot of the controller ZINFO1: Firmware major version ZINFO2: Firmware minor version DatID: Line 0xEA62 Internal error - Please contact the hotline! OB: File number. PK: Slot of the controller ZINFO1: Firmware major version ZINFO2: Firmware minor version DatID: Line...
Page 209 VIPA System 300S System specific event IDs Event ID Description ZINFO2 - Bit 2: DC parameter invalid ZINFO2 - Bit 3: I device configuration invalid (slot gap) ZINFO2 - Bit 4: MRP configuration invalid (client) 0xEA65 Internal error - Please contact the hotline! PK: Platform 0: none 8: CP...
Page 210 System specific event IDs VIPA System 300S Event ID Description 1: Dataset error stack 2: Dataset error station ZINFO1: Dataset number ZINFO2: Dataset handle (caller) ZINFO3: Internal error code from PN stack DatID: Device 0xEA69 Internal error - Please contact the hotline! ZINFO1: Minimum version for the FPGA ZINFO2: Loaded FPGA version 0xEA6A...
Page 211 VIPA System 300S System specific event IDs Event ID Description ZINFO2: Not user relevant ZINFO3: Not user relevant DatID: Not user relevant 0xEA6C PROFINET IO controller: Incorrect Device-ID OB: Operating mode 0: Configuration in operating condition RUN 1: STOP (update) 2: STOP (memory reset) 3: STOP (auto initialization) 4: STOP (internal)
Page 212 System specific event IDs VIPA System 300S Event ID Description 12: UPDATING 13: DEFECTIVE 14: Error search mode 15: De-energised 253: Process image release in STOP 254: Watchdog 255: Not set PK: Rack/slot ZINFO1: Device ID ZINFO2: Not user relevant ZINFO3: Not user relevant DatID: Not user relevant 0xEA6E...
Page 213 VIPA System 300S System specific event IDs Event ID Description OB: Operating mode 0: Configuration in operating condition RUN 1: STOP (update) 2: STOP (memory reset) 3: STOP (auto initialization) 4: STOP (internal) 5: STARTUP (cold start) 6: STARTUP (restart/warm start) 7: STARTUP (hot restart) 9: RUN 10: HALT...
Page 214 System specific event IDs VIPA System 300S Event ID Description 129: PNIO 207: RTA error 218: AlarmAck 219: IODConnectRes 220: IODReleaseRes 221: IOD/IOXControlRes 222: IODReadRes 223: IODWriteRes ZINFO2: ErrorDecode 128: PNIORW: Service Read Write 129: PNIO: Other Service or internal e.g. RPC errors 130: Vendor specific ZINFO3: Error code (PN spec.
Page 215 VIPA System 300S System specific event IDs Event ID Description 0: INIT 1: STOP 2: READY 3: PAUSE 4: RUN ZINFO1: Filenamehash[0-3] ZINFO2: Filenamehash[4-7] ZINFO3: Line DatID: Current job number 0xEA92 Internal error - Please contact the hotline! OB: Current OB number PK: Core status 0: INIT 1: STOP...
Page 216 System specific event IDs VIPA System 300S Event ID Description DatID: Not user relevant 0xEA99 Parameter assignment job could not be executed PK: Not user relevant ZINFO1: File version on MMC/SD (if not 0) ZINFO2: File version of the SBUS module (if not 0) ZINFO3: Slot DatID: Not user relevant 0xEAA0...
Page 217 VIPA System 300S System specific event IDs Event ID Description 6: STARTUP (restart/warm start) 7: STARTUP (hot restart) 9: RUN 10: HALT 11: COUPLING 12: UPDATING 13: DEFECTIVE 14: Error search mode 15: De-energised 253: Process image release in STOP 254: Watchdog 255: Not set ZINFO1: Diagnostic address of the master...
Page 218 System specific event IDs VIPA System 300S Event ID Description PK: Not user relevant ZINFO1: Error type 1: SDB parser error 2: Configured address already used 3: Mapping error ZINFO2: Slot (0=cannot be determined) DatID: Not user relevant 0xEB04 SLIO-Bus: Multiple configuration of a periphery address ZINFO1: Periphery address ZINFO2: Slot DatID: Input...
Page 219 VIPA System 300S System specific event IDs Event ID Description 3: Slot invalid 4: Master configuration invalid 5: Master type invalid 6: Slave diagnostic address invalid 7: Slave address invalid 8: Slave module IO configuration invalid 9: Logical address already in use 10: Internal error 11: IO mapping error 12: Error...
Page 220 System specific event IDs VIPA System 300S Event ID Description 0xEC05 EtherCAT: Check the set DC mode of the YASKAWA Sigma 5/7 drive OB: Operating mode 0: Configuration in operating condition RUN 1: STOP (update) 2: STOP (memory reset) 3: STOP (auto initialization)
Page 221 VIPA System 300S System specific event IDs Event ID Description 0: Undefined/Unkown 1: Init 2: PreOp 3: Bootstrap 4: SafeOp 8: Op ZINFO1 - Position 8: Previous status 0: Undefined/Unkown 1: Init 2: PreOp 3: Bootstrap 4: SafeOp 8: Op ZINFO2: Diagnostic address of the station ZINFO3: Number of stations, which are not in the same state as the master DatID: Station not available...
Page 222 System specific event IDs VIPA System 300S Event ID Description DatID: Input address DatID: Output address 0xEC12 EtherCAT: Recurrence slave ZINFO1 - Position 0: New status 0: Undefined/Unkown 1: Init 2: PreOp 3: Bootstrap 4: SafeOp 8: Op ZINFO1 - Position 8: Previous status 0: Undefined/Unkown 1: Init 2: PreOp...
Page 223 VIPA System 300S System specific event IDs Event ID Description 10: HALT 11: COUPLING 12: UPDATING 13: DEFECTIVE 14: Error search mode 15: De-energised 253: Process image release in STOP 254: Watchdog 255: Not set ZINFO2: Diagnostic address of the master ZINFO3: DC state change 0: DC master out of sync 1: DC slave stations out of sync...
Page 224 System specific event IDs VIPA System 300S Event ID Description DatID: Output address 0xED12 EtherCAT: Breakdown slave ZINFO1 - Position 0: New status 0: Undefined/Unkown 1: Init 2: PreOp 3: Bootstrap 4: SafeOp 8: Op ZINFO1 - Position 8: Previous status 0: Undefined/Unkown 1: Init 2: PreOp...
Page 225 VIPA System 300S System specific event IDs Event ID Description 35: Slave station needs to be in SafeOp state 45: Invalid output FMMU configuration 46: Invalid input FMMU configuration 48: Invalid DC Sync configuration 49: Invalid DC Latch configuration 50: PLL error 51: Invalid DC IO error 52: Invalid DC time out error 66: Error in acyclic data exchange Ethernet Over EtherCAT...
Page 226 System specific event IDs VIPA System 300S Event ID Description 0xED21 EtherCAT: Incorrect bus status change ZINFO1 - Position 0: New status 0: Undefined/Unkown 1: Init 2: PreOp 3: Bootstrap 4: SafeOp 8: Op ZINFO1 - Position 8: Previous status 0: Undefined/Unkown 1: Init 2: PreOp...
Page 227 VIPA System 300S System specific event IDs Event ID Description 3: Bootstrap 4: SafeOp 8: Op ZINFO2: Diagnostic address of the station ZINFO3: AlStatusCode 0: No error 1: Unspecified error 17: Invalid requested status change 18: Unknown requested status 19: Bootstrap not supported 20: No valid firmware 22: Invalid mailbox configuration 22: Invalid mailbox configuration...
Page 228 System specific event IDs VIPA System 300S Event ID Description DatID: Station not available DatID: Station available DatID: Input address DatID: Output address 0xED23 EtherCAT: Time out while changing the master state to OP, after CPU has changed to RUN OB: Operating mode 0: Configuration in operating condition RUN 1: STOP (update)
Page 229 VIPA System 300S System specific event IDs Event ID Description ZINFO2: Diagnostic address of the master 0xED31 EtherCAT: Overflow of the interrupt queue ZINFO2: Diagnostic address of the master 0xED40 Bus cycle time infringement occurred ZINFO1: Logical address of the IO system 0xED50 EtherCAT: Distributed clocks (DC) in sync OB: Operating mode...
Page 230 System specific event IDs VIPA System 300S Event ID Description 7: STARTUP (hot restart) 9: RUN 10: HALT 11: COUPLING 12: UPDATING 13: DEFECTIVE 14: Error search mode 15: De-energised 253: Process image release in STOP 254: Watchdog 255: Not set ZINFO1 - Position 0: New status 0: Undefined/Unkown 1: Init...
Page 231 VIPA System 300S System specific event IDs Event ID Description 33: Slave station needs to be in INIT state 34: Slave station needs to be in PreOp state 35: Slave station needs to be in SafeOp state 45: Invalid output FMMU configuration 46: Invalid input FMMU configuration 48: Invalid DC Sync configuration 49: Invalid DC Latch configuration...
Page 232 System specific event IDs VIPA System 300S Event ID Description 0xED63 EtherCAT: Diagnostic buffer CP: Error in the response to an INIT command OB: EtherCAT station address (high byte) PK: EtherCAT station address (low byte) ZINFO1: Error type 0: Not defined 1: No response 2: Validation error 3: INIT command failed, requested station could not be reached...
Page 233 VIPA System 300S System specific event IDs Event ID Description ZINFO2: Not user relevant ZINFO3: Not user relevant DatID: Not user relevant 0xEE01 Internal error - Please contact the hotline! ZINFO3: SFB number 0xEEEE CPU was completely deleted, since after PowerON the start-up could not be finished 0xEF00 Internal error - Please contact the hotline! DatID: Not user relevant...
Page 234 System specific event IDs VIPA System 300S Event ID Description 29: The component actively disconnected the system connection to the CPU 31: Inconsistency of the component data base by loading SDB xxxx by the rack component (SDB type 0x3100) 32: Periphery enabled by S7-CPU 33: Periphery disabled by S7-CPU 34: Component STOP due to switch actuation 35: Component STOP due to invalid configuration...
Page 235: B Integrated Blocks
VIPA System 300S Integrated blocks Integrated blocks More information about this may be found in the manual "SPEED7 Oper- ation List" from VIPA. Name Description OB 1 CYCL_EXC Program Cycle OB 10 TOD_INT0 Time-of-day Interrupt OB 20 DEL_INT0 Time delay interrupt OB 21 DEL_INT1 Time delay interrupt...
Page 236 Integrated blocks VIPA System 300S Name Description SFB 5 Create turn-off delay SFB 7 TIMEMESS Time measurement SFB 12 BSEND Sending data in blocks SFB 13 BRCV Receiving data in blocks: SFB 14 Remote CPU read SFB 15 Remote CPU write SFB 31 NOTIFY8P Messages without acknowledge display (8x)
Page 237 VIPA System 300S Integrated blocks Name Description SFC 22 CREAT_DB Create a data block SFC 23 DEL_DB Deleting a data block SFC 24 TEST_DB Test data block SFC 25 COMPRESS Compressing the User Memory SFC 28 SET_TINT Set time-of-day interrupt SFC 29 CAN_TINT Cancel time-of-day interrupt...
Page 238 Integrated blocks VIPA System 300S Name Description SFC 68 X_PUT Write data SFC 69 X_ABORT Disconnect SFC 70 GEO_LOG Determining the start address of a module SFC 71 LOG_GEO Determining the slot belonging to a logical address SFC 75 SET_ADDR Set PROFIBUS MAC address SFC 81 UBLKMOV...
Page 239: Cssl Partial List
VIPA System 300S SSL partial list SSL partial list More information about this may be found in the manual "SPEED7 Oper- ation List" from VIPA. SSL-ID SSL partial list xy11h Module identification xy12h CPU characteristics xy13h User memory areas xy14h System areas xy15h Block Types...

This manual is also suitable for:

Speed7 cpu-sc 314-6cf23 Cpu 314st

YASKAWA VIPA System 300S+ Manual

1 General

2 Basics

3 Assembly and Installation Guidelines

4 Hardware Description

5 Deployment CPU 314-6CF23

6 Deployment I/O Periphery

7 Deployment Ptp Communication

8 Deployment PROFIBUS Communication

9 Winplc7

10 Configuration with TIA Portal

Appendix

Quick Links

Related Manuals for YASKAWA VIPA System 300S+

Summary of Contents for YASKAWA VIPA System 300S+

This manual is also suitable for:

Table of Contents