YASKAWA VIPA System 300S+ User manual
CPU | 317-2AJ23 | Manual
HB140 | CPU | 317-2AJ23 | en | 17-25
VIPA System 300S+
SPEED7 CPU 317SE
www.vipa.com/en/service-support/manuals
317-2AJ23_000_CPU 317SE,2,EN - © 2017
VIPA GmbH
Ohmstr. 4
91074 Herzogenaurach
Telephone: +49 9132 744-0
Fax: +49 9132 744-1864
Email: [email protected]
Internet: www.vipa.com
Table of contents
1 General.................................................................................................................... 6
1.1 Copyright © VIPA GmbH ................................................................................. 6
1.2 About this manual............................................................................................. 7
1.3 Safety information............................................................................................. 8
2 Basics...................................................................................................................... 9
2.1 Safety information for users.............................................................................. 9
2.2 Operating structure of a CPU......................................................................... 10
2.2.1 General........................................................................................................ 10
2.2.2 Applications ................................................................................................ 10
2.2.3 Operands..................................................................................................... 10
2.3 CPU 317-2AJ23.............................................................................................. 12
2.4 General data................................................................................................... 14
3 Assembly and installation guidelines................................................................ 16
3.1 Overview......................................................................................................... 16
3.2 Installation dimensions................................................................................... 17
3.3 Assembly SPEED-Bus................................................................................... 18
3.4 Assembly standard bus.................................................................................. 21
3.5 Cabling........................................................................................................... 24
3.6 Installation guidelines..................................................................................... 25
4 Hardware description........................................................................................... 27
4.1 Properties....................................................................................................... 27
4.2 Structure......................................................................................................... 28
4.2.1 General........................................................................................................ 28
4.2.2 Interfaces..................................................................................................... 28
4.2.3 Memory management.................................................................................. 30
4.2.4 Slot for storage media................................................................................. 30
4.2.5 Battery backup for clock and RAM.............................................................. 30
4.2.6 Operating mode switch................................................................................ 31
4.2.7 LEDs............................................................................................................ 31
4.3 Technical data................................................................................................. 34
5 Deployment CPU 317-2AJ23................................................................................ 40
5.1 Assembly........................................................................................................ 40
5.2 Start-up behavior............................................................................................ 40
5.3 Addressing...................................................................................................... 41
5.3.1 Overview...................................................................................................... 41
5.3.2 Addressing................................................................................................... 41
5.4 Hardware configuration - CPU........................................................................ 44
5.4.1 Switching CPU type to CPU 318-2AJ00...................................................... 44
5.5 Hardware configuration - I/O modules............................................................ 45
5.6 Hardware configuration - Ethernet PG/OP channel........................................ 45
5.7 Hardware configuration - Communication...................................................... 47
5.8 Proceeding..................................................................................................... 47
5.9 Setting standard CPU parameters.................................................................. 48
5.9.1 Parameterization via Siemens CPU............................................................ 48
5.9.2 Parameters CPU......................................................................................... 48
5.9.3 Parameters for DP....................................................................................... 50
5.9.4 Parameters for MPI/DP .............................................................................. 51
VIPA System 300S+Table of contents
HB140 | CPU | 317-2AJ23 | en | 17-25 3
5.10 Setting VIPA specific CPU parameters......................................................... 51
5.10.1 Proceeding................................................................................................ 51
5.10.2 VIPA specific parameters.......................................................................... 53
5.11 Project transfer............................................................................................. 56
5.11.1 Transfer via MPI/PROFIBUS..................................................................... 56
5.11.2 Transfer via Ethernet................................................................................. 57
5.11.3 Transfer via memory card.......................................................................... 58
5.12 Accessing the web server............................................................................. 59
5.13 Operating modes.......................................................................................... 64
5.13.1 Overview.................................................................................................... 64
5.13.2 Function security....................................................................................... 66
5.14 Overall reset................................................................................................. 67
5.15 Firmware update........................................................................................... 68
5.16 Reset to factory settings............................................................................... 70
5.17 Deployment storage media - MMC, MCC..................................................... 71
5.18 Extended know-how protection.................................................................... 73
5.19 CMD - auto commands................................................................................. 74
5.20 Diagnostic entries......................................................................................... 76
5.21 Control and monitoring of variables with test functions................................ 76
6 Deployment PtP communication........................................................................ 78
6.1 Fast introduction............................................................................................. 78
6.2 Principle of the data transfer........................................................................... 79
6.3 Deployment of RS485 interface for PtP.......................................................... 80
6.4 Parametrization.............................................................................................. 82
6.4.1 FC/SFC 216 - SER_CFG - Parametrization PtP......................................... 82
6.5 Communication............................................................................................... 82
6.5.1 FC/SFC 217 - SER_SND - Send to PtP...................................................... 82
6.5.2 FC/SFC 218 - SER_RCV - Receive from PtP............................................. 82
6.6 Protocols and procedures .............................................................................. 83
6.7 Modbus - Function codes .............................................................................. 86
6.8 Modbus - Example communication................................................................ 90
7 Deployment PROFIBUS communication............................................................ 93
7.1 Overview......................................................................................................... 93
7.2 Fast introduction............................................................................................. 94
7.3 Hardware configuration - CPU........................................................................ 94
7.3.1 Switching CPU type to CPU 318-2AJ00...................................................... 95
7.4 Deployment as PROFIBUS DP master.......................................................... 96
7.5 Deployment as PROFIBUS DP slave............................................................. 97
7.6 PROFIBUS installation guidelines.................................................................. 99
7.7 Commissioning and Start-up behavior......................................................... 101
8 WinPLC7.............................................................................................................. 103
8.1 System conception....................................................................................... 103
8.2 Installation.................................................................................................... 103
8.3 Example project engineering........................................................................ 104
8.3.1 Job definition............................................................................................. 104
8.3.2 Project engineering.................................................................................... 105
8.3.3 Test the PLC program in the Simulator...................................................... 111
8.3.4 Transfer PLC program to CPU and its execution....................................... 112
VIPA System 300S+
Table of contents
HB140 | CPU | 317-2AJ23 | en | 17-25 4
9 Configuration with TIA Portal............................................................................ 114
9.1 TIA Portal - Work environment .................................................................... 114
9.1.1 General...................................................................................................... 114
9.1.2 Work environment of the TIA Portal........................................................... 114
9.2 TIA Portal - Hardware configuration - CPU .................................................. 116
9.3 TIA Portal - Hardware configuration - I/O modules....................................... 117
9.4 TIA Portal - Hardware configuration - Ethernet PG/OP channel................... 118
9.5 TIA Portal - Setting VIPA specific CPU parameters..................................... 120
9.6 TIA Portal - VIPA-Include library................................................................... 123
9.7 TIA Portal - Project transfer.......................................................................... 124
Appendix............................................................................................................. 126
A System specific event IDs............................................................................... 128
B Integrated blocks............................................................................................. 174
C SSL partial list................................................................................................. 178
VIPA System 300S+Table of contents
HB140 | CPU | 317-2AJ23 | en | 17-25 5
1 General
1.1 Copyright © VIPA GmbH
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.
For permission to reproduce or distribute, please contact: VIPA, Gesellschaft für Visuali-
sierung und Prozessautomatisierung mbH Ohmstraße 4, D-91074 Herzogenaurach, Ger-
many
Tel.: +49 9132 744 -0
Fax.: +49 9132 744-1864
EMail: [email protected]
http://www.vipa.com
Every effort has been made to ensure that the information contained in
this document was complete and accurate at the time of publishing. Nev-
ertheless, the authors retain the right to modify the information.
This customer document describes all the hardware units and functions
known at the present time. Descriptions may be included for units which
are not present at the customer site. The exact scope of delivery is
described in the respective purchase contract.
Hereby, VIPA GmbH declares that the products and systems are in compliance with the
essential requirements and other relevant provisions. Conformity is indicated by the CE
marking affixed to the product.
For more information regarding CE marking and Declaration of Conformity (DoC), please
contact your local VIPA customer service organization.
VIPA, SLIO, System 100V, System 200V, System 300V, System 300S, System 400V,
System 500S and Commander Compact are registered trademarks of VIPA Gesellschaft
für Visualisierung und Prozessautomatisierung mbH.
SPEED7 is a registered trademark of profichip GmbH.
SIMATIC, STEP, SINEC, TIA Portal, S7-300 and S7-400 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 Adobe
Systems, Inc.
All other trademarks, logos and service or product marks specified herein are owned by
their respective companies.
Contact your local VIPA Customer Service Organization representative if you wish to
report errors or questions regarding the contents of this document. If you are unable to
locate a customer service centre, contact VIPA as follows:
All Rights Reserved
CE Conformity Declaration
Conformity Information
Trademarks
Information product sup-
port
VIPA System 300S+
General
Copyright © VIPA GmbH
HB140 | CPU | 317-2AJ23 | en | 17-25
6
VIPA GmbH, Ohmstraße 4, 91074 Herzogenaurach, Germany
Telefax: +49 9132 744-1204
EMail: [email protected]
Contact your local VIPA Customer Service Organization representative if you encounter
problems with the product or have questions regarding the product. If you are unable to
locate a customer service centre, contact VIPA as follows:
VIPA GmbH, Ohmstraße 4, 91074 Herzogenaurach, Germany
Tel.: +49 9132 744-1150 (Hotline)
EMail: [email protected]
1.2 About this manual
This manual describes the SPEED7 CPU 317-2AJ23 of the CPU 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
CPU 317SE 317-2AJ23 01 V3.7.3 V3.3.5
The manual is targeted at users who have a background in automation technology.
The manual consists of chapters. Every chapter provides a self-contained description of a
specific topic.
The following guides are available in the manual:
nAn overall table of contents at the beginning of the manual
nReferences with page numbers
The manual is available in:
nprinted form, on paper
nin electronic form as PDF-file (Adobe Acrobat Reader)
Important passages in the text are highlighted by following icons and headings:
DANGER!
Immediate or likely danger. Personal injury is possible.
CAUTION!
Damages to property is likely if these warnings are not heeded.
Technical support
Objective and contents
Target audience
Structure of the manual
Guide to the document
Availability
Icons Headings
VIPA System 300S+General
About this manual
HB140 | CPU | 317-2AJ23 | en | 17-25 7
Supplementary information and useful tips.
1.3 Safety information
The system is constructed and produced for:
ncommunication and process control
ngeneral control and automation tasks
nindustrial applications
noperation within the environmental conditions specified in the technical data
ninstallation into a cubicle
DANGER!
This device is not certified for applications in
–in explosive environments (EX-zone)
The manual must be available to all personnel in the
nproject design department
ninstallation department
ncommissioning
noperation
CAUTION!
The following conditions must be met before using or commis-
sioning the components described in this manual:
– Hardware modifications to the process control system should only be
carried out when the system has been disconnected from power!
–Installation and hardware modifications only by properly trained per-
sonnel.
– The national rules and regulations of the respective country must be
satisfied (installation, safety, EMC ...)
National rules and regulations apply to the disposal of the unit!
Applications conforming
with specifications
Documentation
Disposal
VIPA System 300S+
General
Safety information
HB140 | CPU | 317-2AJ23 | en | 17-25 8
2 Basics
2.1 Safety information for users
VIPA modules make use of highly integrated components in MOS-Technology. These
components are extremely sensitive to over-voltages that can occur during electrostatic
discharges. The following symbol is attached to modules that can be destroyed by elec-
trostatic discharges.
The Symbol is located on the module, the module rack or on packing material and it indi-
cates the presence of electrostatic sensitive equipment. It is possible that electrostatic
sensitive equipment is destroyed by energies and voltages that are far less than the
human threshold of perception. These voltages can occur where persons do not dis-
charge themselves before handling electrostatic sensitive modules and they can damage
components thereby, causing the module to become inoperable or unusable. Modules
that have been damaged by electrostatic discharges can fail after a temperature change,
mechanical shock or changes in the electrical load. Only the consequent implementation
of protection devices and meticulous attention to the applicable rules and regulations for
handling the respective equipment can prevent failures of electrostatic sensitive modules.
Modules must be shipped in the original packing material.
When you are conducting measurements on electrostatic sensitive modules you should
take the following precautions:
nFloating instruments must be discharged before use.
nInstruments must be grounded.
Modifying electrostatic sensitive modules you should only use soldering irons with
grounded tips.
CAUTION!
Personnel and instruments should be grounded when working on electro-
static sensitive modules.
Handling of electrostatic
sensitive modules
Shipping of modules
Measurements and altera-
tions on electrostatic sen-
sitive modules
VIPA System 300S+Basics
Safety information for users
HB140 | CPU | 317-2AJ23 | en | 17-25 9
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. A CPU supports the following
modes of operation:
ncyclic operation
ntimer processing
nalarm controlled operation
npriority based processing
Cyclicprocessing represents the major portion of all the processes that are executed in
the CPU. Identical sequences of operations are repeated in a never-ending cycle.
Where a process requires control signals at constant intervals you can initiate certain
operations based upon a timer, e.g. not critical monitoring functions at one-second inter-
vals.
If a process signal requires a quick response you would allocate this signal to an alarm
controlled procedure. An alarm can activate a procedure in your program.
The above processes are handled by the CPU in accordance with their priority. Since a
timer or an alarm event requires a quick reaction, the CPU will interrupt the cyclic pro-
cessing when these high-priority events occur to react to the event. Cyclic processing will
resume, once the reaction has been processed. This means that cyclic processing has
the lowest priority.
2.2.2 Applications
The program that is present in every CPU is divided as follows:
nSystem routine
nUser application
The system routine organizes all those functions and procedures of the CPU that are not
related to a specific control application.
This consists of all the functions that are required for the processing of a specific control
application. The operating modules provide the interfaces to the system routines.
2.2.3 Operands
The following series of operands is available for programming the CPU:
nProcess image and periphery
nBit memory
nTimers and counters
nData blocks
Cyclic processing
Timer processing
Alarm controlled pro-
cessing
Priority based processing
System routine
User application
VIPA System 300S+
Basics
Operating structure of a CPU > Operands
HB140 | CPU | 317-2AJ23 | en | 17-25 10
The user application can quickly access the process image of the inputs and outputs PIO/
PII. You may manipulate the following types of data:
nindividual Bits
nBytes
nWords
nDouble words
You may also gain direct access to peripheral modules via the bus from user application.
The following types of data are available:
nBytes
nWords
nBlocks
The 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:
nindividual Bits
nBytes
nWords
nDouble words
In 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 is
decremented 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 decrement
these when required.
A 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:
nindividual Bits
nBytes
nWords
nDouble words
Process image and
periphery
Bit Memory
Timers and counters
Data Blocks
VIPA System 300S+Basics
Operating structure of a CPU > Operands
HB140 | CPU | 317-2AJ23 | en | 17-25 11
2.3 CPU 317-2AJ23
The CPU 317-2AJ23 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.
nThe CPU is programmed in STEPÒ7 from Siemens. For this you may use the
SIMATIC Manager or TIA Portal from Siemens. Here the instruction set of the S7-400
from Siemens is used.
nThe CPU has 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 at the right side of the CPU, the SPEED-Bus peripheral modules are con-
nected via a SPEED-Bus bus connector at the left side of the CPU.
nModules and CPUs of the System 300S from VIPA and Siemens may be used at the
bus as a mixed configuration.
nThe user application is stored in the battery buffered RAM or on an additionally plug-
gable MMC storage module.
nThe CPU is configured as CPU 317-2DP (6ES7 317-2AK14 V3.3) from Siemens.
Please always use the CPU 317-2DP (6ES7 317-2AK14 V3.3) from Sie-
mens of the hardware catalog to configure this CPU from VIPA. For the
project engineering, a thorough knowledge of the Siemens SIMATIC
Manager and the hardware configurator from Siemens is required!
Overview
Access
VIPA System 300S+
Basics
CPU 317-2AJ23
HB140 | CPU | 317-2AJ23 | en | 17-25 12
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:
nLoad memory 8Mbyte
nCode memory (50% of the work memory)
nData memory (50% of the work memory)
nWork memory 4Mbyte
– There is the possibility to extend the work memory to its maximum printed
capacity 8Mbyte by means of a memory extension card.
nThe SPEED-Bus is a 32bit parallel bus developed from VIPA.
nVia the SPEED-Bus you may connect up to 10 SPEED-Bus modules to your CPU.
nIn opposite to the "standard" backplane bus where the modules are plugged-in at the
right side of the CPU by means of single bus connectors, the modules at the SPEED-
Bus are plugged-in at the left side of the CPU via a special SPEED-Bus rail.
nVIPA delivers profile rails with integrated SPEED-Bus for 2, 6, or 10 SPEED-Bus
peripheral modules with different lengths.
nEach SPEED-Bus rail has a slot for an external power supply. This allows you to raise
the maximum current at the back plane bus. Only the "SLOT1 DCDC" allows you to
plug-in either a SPEED-Bus module or an additional power supply (307-1FB70).
The CPU has a PROFIBUS/PtP interface with a fix pinout. After an overall reset the inter-
face is deactivated. By appropriate configuration, the following functions for this interface
may be enabled:
nPROFIBUS DP master operation: Configuration via PROFIBUS sub module with
‘Operation mode’ master in the hardware configuration.
nPROFIBUS DP slave operation: Configuration via PROFIBUS sub module with
‘Operation mode’ slave in the hardware configuration.
nPtP functionality: Configuration as virtual PROFIBUS master system by including the
VIPA SPEEDBUS.GSD.
The CPU has an Ethernet interface for PG/OP communication. After assigning IP
address parameters with your configuration tool, via the "PLC" functions you may directly
access the Ethernet PG/OP channel and program res. remote control your CPU. You may
also access the CPU with a visualization software via these connections.
nWiring by means of spring pressure connections (CageClamps) at the front connector
nCore cross-section 0.08...2.5mm2
nTotal isolation of the wiring at module change
nPotential separation of all modules to the backplane bus
Dimensions of the basic enclosure:
n2tier width: (WxHxD) in mm: 80x125x120
The CPU comes with an integrated power supply. The power supply is to be supplied with
DC 24V. By means of the supply voltage, the internal electronic is supplied as well as the
connected modules via backplane bus. The power supply is protected against inverse
polarity and overcurrent.
Memory
SPEED-Bus
Integrated PROFIBUS DP
master/slave respectively
PtP functionality
Integrated Ethernet PG/OP
channel
Operation Security
Dimensions/ Weight
Integrated power supply
VIPA System 300S+Basics
CPU 317-2AJ23
HB140 | CPU | 317-2AJ23 | en | 17-25 13
2.4 General data
Conformity and approval
Conformity
CE 2014/35/EU Low-voltage directive
2014/30/EU EMC directive
Approval
UL 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
Electrical isolation
to the field bus - electrically isolated
to the process level - electrically isolated
Insulation resistance -
Insulation voltage to reference earth
Inputs / outputs - AC / DC 50V, test voltage AC 500V
Protective measures - against short circuit
Environmental conditions to EN 61131-2
Climatic
Storage / transport EN 60068-2-14 -25…+70°C
Operation
Horizontal installation hanging EN 61131-2 0…+60°C
Horizontal installation lying EN 61131-2 0…+55°C
Vertical installation EN 61131-2 0…+50°C
Air humidity EN 60068-2-30 RH1 (without condensation, rel. humidity 10…95%)
Pollution EN 61131-2 Degree of pollution 2
Installation altitude max. - 2000m
Mechanical
Oscillation EN 60068-2-6 1g, 9Hz ... 150Hz
Shock EN 60068-2-27 15g, 11ms
VIPA System 300S+
Basics
General data
HB140 | CPU | 317-2AJ23 | en | 17-25 14
Mounting conditions
Mounting place - In the control cabinet
Mounting position - Horizontal and vertical
EMC Standard Comment
Emitted interference EN 61000-6-4 Class A (Industrial area)
Noise immunity
zone B
EN 61000-6-2 Industrial area
EN 61000-4-2 ESD
8kV at air discharge (degree of severity 3),
4kV at contact discharge (degree of severity 2)
EN 61000-4-3 HF field immunity (casing)
80MHz … 1000MHz, 10V/m, 80% AM (1kHz)
1.4GHz ... 2.0GHz, 3V/m, 80% AM (1kHz)
2GHz ... 2.7GHz, 1V/m, 80% AM (1kHz)
EN 61000-4-6 HF conducted
150kHz … 80MHz, 10V, 80% AM (1kHz)
EN 61000-4-4 Burst, degree of severity 3
EN 61000-4-5 Surge, degree of severity 3 *
*) Due to the high-energetic single pulses with Surge an appropriate external protective circuit with lightning protection
elements like conductors for lightning and overvoltage is necessary.
VIPA System 300S+Basics
General data
HB140 | CPU | 317-2AJ23 | en | 17-25 15
3 Assembly and installation guidelines
3.1 Overview
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.
VIPA delivers profile rails with integrated SPEED-Bus for 2, 6 or 10 SPEED-Bus periph-
eral modules with different lengths.
The single modules are directly installed on a profile rail and connected via the backplane
bus coupler. Before installing the modules you have to clip the backplane bus coupler to
the module from the backside. The backplane bus couplers are included in the delivery of
the peripheral modules.
With SPEED-Bus the bus connection happens via a SPEED-Bus rail integrated in the
profile rail at the left side of the CPU. Due to the parallel SPEED-Bus not all slots must be
occupied in sequence.
At slot (SLOT 1 DCDC) you may plug either a SPEED-Bus module or an additional power
supply.
You may assemble the System 300 horizontally, vertically or lying. Please regard the
allowed environment temperatures:
1 horizontal assembly: from 0 to 60°C
2 vertical assembly: from 0 to 50°C
3 lying assembly: from 0 to 55°C
General
Serial Standard bus
Parallel SPEED-Bus
SLOT 1 for additional
power supply
Assembly possibilities
VIPA System 300S+
Assembly and installation guidelines
Overview
HB140 | CPU | 317-2AJ23 | en | 17-25 16
3.2 Installation dimensions
2tier width (WxHxD) in mm: 80 x 125 x 120
Dimensions Basic enclo-
sure
Installation dimensions
VIPA System 300S+Assembly and installation guidelines
Installation dimensions
HB140 | CPU | 317-2AJ23 | en | 17-25 17
3.3 Assembly SPEED-Bus
For the deployment of SPEED-Bus modules, a pre-manufactured SPEED-Bus rail is
required. This is available mounted on a profile rail with 2, 6 or 10 extension slots.
Order
number
Number of modules SPEED-
Bus/Standard bus
A B C D E
391-1AF10 2/6 530 100 268 510 10
391-1AF30 6/2 530 100 105 510 10
391-1AF50 10/0 530 20 20 510 10
391-1AJ10 2/15 830 22 645 800 15
391-1AJ30 6/11 830 22 480 800 15
391-1AJ50 10/7 830 22 320 800 15
Measures in mm
Pre-manufactured SPEED-
Bus profile rail
Dimensions
VIPA System 300S+
Assembly and installation guidelines
Assembly SPEED-Bus
HB140 | CPU | 317-2AJ23 | en | 17-25 18
1. Bolt the profile rail with the background (screw size: M6), so that you still have min-
imum 65mm space above and 40mm below the profile rail. Please look for a low-
impedance connection between profile rail and background.
2. Connect the profile rail with the protected earth conductor. The minimum cross-sec-
tion of the cable to the protected earth conductor has to be 10mm2.
1. Dismantle the according protection flaps of the SPEED-Bus slot with a screw driver
(open and pull down).
For the SPEED-Bus is a parallel bus, not every SPEED-Bus slot must be used in
series. Leave the protection flap installed at an unused SPEED-Bus slot.
2. At deployment of a DC 24V power supply, install it at the shown position at the pro-
file rail at the left side of the SPEED-Bus and push it to the left to the isolation bolt
of the profile rail.
3. Fix the power supply by screwing.
Installation of the profile
rail
Installation SPEED-Bus
module
VIPA System 300S+Assembly and installation guidelines
Assembly SPEED-Bus
HB140 | CPU | 317-2AJ23 | en | 17-25 19
4. To connect the SPEED-Bus modules, plug it between the triangular positioning
helps to a slot marked with "SLOT ..." and pull it down.
5. Only the "SLOT1 DCDC" allows you to plug-in either a SPEED-Bus module or an
additional power supply.
6. Fix the CPU by screwing.
1. 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" and pull it down.
2. Fix the CPU by screwing.
1. If also standard modules shall be plugged, take a bus coupler and click it at the
CPU from behind like shown in the picture. Plug the CPU between the triangular
positioning helps to the slot marked with "CPU SPEED7" and pull it down.
2. Fix the CPU by screwing.
Repeat this procedure with the peripheral modules, by clicking a backplane bus
coupler, stick the module right from the modules you've already fixed, click it down-
wards and connect it with the backplane bus coupler of the last module and bolt it.
Installation CPU without
Standard-Bus-Modules
Installation CPU with
Standard-Bus-Modules
Installation Standard-Bus-
Modules
VIPA System 300S+
Assembly and installation guidelines
Assembly SPEED-Bus
HB140 | CPU | 317-2AJ23 | en | 17-25 20
Other manuals for VIPA System 300S+
3
Table of contents
