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With a bus coupler bus interface and power module is integrated to one casing. With the

bus interface you get access to a subordinated bus system. As head module, via the inte-

grated power module for power supply, bus interface and the electronic of the connected

periphery modules are supplied. The DC 24V power section supply for the linked

periphery modules is established via a further connection of the power module. By instal-

ling of up to 64 periphery modules at the bus coupler, these are electrically connected,

this means these are assigned to the backplane bus, the electronic modules are power

supplied and each periphery module is connected to the DC 24V power section supply.

CAUTION!

Bus interface and power module may not be separated!

Here you may only exchange the electronic module!

In the System SLIO there is the possibility to place up to 64 modules in on line. By means

of the line extension you can divide this line into several lines. Here you have to place a

line extension master at each end of a line and the subsequent line has to start with a line

extension slave. Master and slave are to be connected via a special connecting cable. In

this way, you can divide a line on up to 5 lines. For each line extension the maximum

number of pluggable modules at the System SLIO bus is decreased by 1. To use the line

extension no special configuration is required.

Please note that some modules do not support line extensions due to the

system. For more information, see the  ‘System SLIO - Compatibility List’

at www.vipa.com

The periphery modules are available in the following 2 versions, whereby of each the

electronic part can be replaced with standing wiring:

n

8x periphery module for a maximum of 8 channels.

n

16x periphery module for a maximum of 16 channels.

Bus coupler

Line extension

Periphery modules

VIPA System SLIO

Basics and mounting

System conception > Components

HB300 | FM | 050-1BS00 | en | 20-40

 

10

Summary of Contents for VIPA 050-1BS00

Page 1: ...FM 050 1BS00 Manual HB300 FM 050 1BS00 en 20 40 VIPA System SLIO SSI module FM 050S...

Page 2: ...050 1BS00_000_FM050S 6 EN 2020 YASKAWA Europe GmbH Ohmstra e 4 91074 Herzogenaurach Tel 49 9132 744 0 Fax 49 9132 744 186 Email info yaskawa eu com Internet www yaskawa eu com...

Page 3: ...modules 22 2 7 Wiring 16x periphery modules 24 2 8 Wiring power modules 25 2 9 Demounting 8x periphery modules 29 2 10 Demounting 16x periphery modules 32 2 11 Easy Maintenance 35 2 12 Trouble shooti...

Page 4: ...riptions 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 YASKAWA Europe GmbH declares that the...

Page 5: ...IPA FM 050 1BS00 of the System SLIO It contains a description of the construction project implementation and usage Product Order number as of state HW FM 050S 050 1BS00 01 The manual is targeted at us...

Page 6: ...nel in the n project design department n installation department n commissioning n operation CAUTION The following conditions must be met before using or commis sioning the components described in thi...

Page 7: ...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 m...

Page 8: ...exity is low because the supply of the DC 24V power section supply is integrated to the backplane bus and defective modules may be replaced with standing wiring By deployment of the power modules in c...

Page 9: ...t the backplane bus these are electrically connected this means these are assigned to the backplane bus the electronic modules are power supplied and each periphery module is connected to the DC 24V p...

Page 10: ...modules in on line By means of the line extension you can divide this line into several lines Here you have to place a line extension master at each end of a line and the subsequent line has to start...

Page 11: ...s whole system The functionality of a periphery module is defined by the electronic module which is mounted to the terminal module by a sliding mechanism With an error the defective elec tronic module...

Page 12: ...interface for the signalling and supplies lines of the module When mounting the terminal block it is attached to the bottom of the elec tronic unit and turned towards the electronic unit until it cli...

Page 13: ...at the associated terminal block is plugged again when the electronics unit is replaced There is the possibility to fix the assignment of electronic and terminal module Here VIPA coding pins order num...

Page 14: ...beling strip of the corresponding electronic module n On modules without labeling strip such as CPUs and 16x periphery modules the hardware revision is printed on the front X 2 4 3 X 2 4 3 X 2 4 3 X 2...

Page 15: ...Dimensions CPU 01x Dimensions bus coupler and line extension slave Dimensions line extension master VIPA System SLIO Basics and mounting Dimensions HB300 FM 050 1BS00 en 20 40 15...

Page 16: ...nsions in mm 104 109 76 5 15 12 9 Dimensions 8x periphery module Dimensions electronic module Dimensions 16x periphery module VIPA System SLIO Basics and mounting Dimensions HB300 FM 050 1BS00 en 20 4...

Page 17: ...cking lever is opened The modules are each installed on a mounting rail The electronic and power section supply are connected via the backplane bus Up to 64 modules may be mounted Please consider here...

Page 18: ...ombinations for coding with the use of both coding sockets 1 Plug according to your coding 2 coding jacks in the coding sockets of your elec tronic module until they lock 2 Now plug the according codi...

Page 19: ...at the right side of the head module by pulling it forward Keep the cover for later mounting 4 For mounting turn the locking lever of the module upwards until it engages 5 For mounting place the modul...

Page 20: ...e module installed before and push the module to the mounting rail guided by the strips at the upper and lower side of the module The module is fixed to the mounting rail by pushing downward the locki...

Page 21: ...o place 1 2 Clack 80mm 80mm 60mm 6 5mm 1 Mount the mounting rail Please consider that a clearance from the middle of the mounting rail of at least 80mm above and 80mm below exist 2 Mount your head mod...

Page 22: ...ion the upper part of the bus cover is to be removed 2 6 Wiring 8x periphery modules CAUTION Do not connect hazardous voltages If this is not explicitly stated in the corresponding module description...

Page 23: ...contact to the terminal 1 Shield bus carrier 2 Shield bus 10mm x 3mm 3 Shield clamp 4 Cable shield To attach the shield the mounting of shield bus carriers are necessary The shield bus carrier availab...

Page 24: ...le has a removable terminal block for wiring With the wiring of the terminal block a push in spring clip technique is used This allows a quick and easy connection of your signal and supply lines The c...

Page 25: ...releases the wire 2 Pull the wire from the round hole 2 8 Wiring power modules Power modules are either integrated to the head module or may be installed between the periphery modules With power modu...

Page 26: ...sert the stripped end of wire into the round opening You can use wires with a cross section of 0 08mm2 up to 1 5mm2 3 By removing the screwdriver the wire is securely fixed via the spring contact to t...

Page 27: ...d n The power section supply is to be externally protected with a fuse which corresponds to the maximum current This means max 10A is to be protected with a 10A fuse fast respectively by a line circui...

Page 28: ...max 4A n By placing the power module 007 1AB10 at the following backplane bus modules may be placed with a sum current of max 2A Afterwards a power module is to be placed again To secure the power su...

Page 29: ...t your shield bus into the shield bus carrier 3 Attach the cables with the accordingly stripped cable screen and fix it by the shield clamp with the shield bus 2 9 Demounting 8x periphery modules 1 Po...

Page 30: ...he just mounted right module and pull it forward 4 Turn the locking lever of the module to be exchanged upwards 5 Pull the module 6 For mounting turn the locking lever of the module to be mounted upwa...

Page 31: ...e unlocking lever at the lower side of the just mounted right module near the module group and pull it forward 4 Turn all the locking lever of the module group to be exchanged upwards 5 Pull the modul...

Page 32: ...ronic unit and push it towards the electronic unit until it clicks into place Now you can bring your system back into operation Clack 1 2 Clack Clack 1 Power off your system 2 Remove if exists the wir...

Page 33: ...ly plug the wired terminal block again Now you can bring your system back into operation 1 Power off your system 2 Remove if exists the wiring of the module group respectively the wired terminal block...

Page 34: ...etween the both modules and push it guided by the stripes at both sides to the mounting rail 7 Turn all the locking lever downward again 8 Wire your module group respectively plug the wired terminal b...

Page 35: ...ystem SLIO bus recovery 0x38D0 is triggered OB 86 is called If this is not available the CPU switches to STOP otherwise it remains in RUN The I O data of all modules become valid again n Wrong electro...

Page 36: ...power modules page 25 Behaviour After PowerON the MF LED of one module respectively more modules flashes The RUN LED remains off Reason At this position a module is placed which does not correspond to...

Page 37: ...the interference cause interferences to your control occur by means of different coupling mechanisms There are n galvanic coupling n capacitive coupling n inductive coupling n radiant coupling In the...

Page 38: ...h conductor is impedance low because otherwise the interference currents may appear as interference cause When isolating cables you have to regard the following n If possible use only cables with isol...

Page 39: ...ulation 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...

Page 40: ...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...

Page 41: ...DC 24V n integrated transformer for gray dual n asynchronous encoder evaluation n Normalization of the encoder value this means added bits are removed n Interrupt and diagnostics function with s time...

Page 42: ...ation is OK Module status is OK green red Bus communication is OK Module status reports an error red Bus communication is not possible Module status reports an error Error at bus power supply X 2Hz Er...

Page 43: ...IN Difference input for Clock IN exclusively for listening mode 5 CO O Clock OUT Difference output for Clock OUT exclusively for master mode 6 DI I Data IN Difference input for Data IN 7 DI I Data IN...

Page 44: ...els of groups to Between channels and backplane bus Between channels and power supply Max potential difference between circuits Max potential difference between inputs Ucm Max potential difference bet...

Page 45: ...ng Material PPE PPE GF10 Mounting Profile rail 35 mm Mechanical data Dimensions WxHxD 12 9 mm x 109 mm x 76 5 mm Net weight 58 g Weight including accessories 58 g Gross weight 73 g Environmental condi...

Page 46: ...tput area is used by the module DS Record set for access via CPU PROFIBUS and PROFINET IX Index for access via CANopen SX Subindex for access via EtherCAT with Index 3100h EtherCAT Slot More can be fo...

Page 47: ...encoder value as double word may always be found If the SSI function is disabled the encoder value still remains With missing the power supply of the encoder the encoder value F Fh as binary code resp...

Page 48: ...103h 3104h 03h CRES 1 reserved 00h 80h 3105h 04h NORM 1 Normalization 00h 80h 3106h 05h LGTH 1 Bit length encoder data 18h 80h 3107h 06h MODE 1 SSI mode 1Eh 80h 3108h 07h CRES 3 reserved 00h 80h 3109h...

Page 49: ...alue by means of the normalization The normalization of the encoder value takes place via the module always after a possible gray binary transformation More about this may be found in the data sheet o...

Page 50: ...e data sheet of your encoder Normally the SSI encoder reacts with a rising edge of the clock signal Range of values 0 edge 1 0 1 edge 0 1 With binary code the received encoder value is not influenced...

Page 51: ...he module serves for a clock signal for the encoder and stores the received data stream in the process image In the listening mode the module which is listening is passive connected between SSI encode...

Page 52: ...OFIBUS and PROFINET The access happens by DS 01h Additionally the first 4 bytes may be accessed by DS 00h IX Index for access via CANopen The access happens by IX 2F01h Additionally the first 4 bytes...

Page 53: ...bits of the module per channel here 08h Byte Bit 7 0 0 Number of channels of the module here 01h Byte Bit 7 0 0 reserved Byte Bit 7 0 0 reserved Byte Bit 7 0 0 3 Value of the s ticker at the moment o...

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