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1. System Configuration

PI/O System Configuration

The intelligent PI/O system consists of the communication base unit and the terminal block units

shown in Figure 1.1. A communication module is mounted on the communication base unit, and

intelligent PI/O modules on the terminal block units.

Figure 1.1 Intelligent PI/O system configuration

Summary of Contents for TOSDIC-CIE DS

Page 1: ...Toshiba Integrated Control System Intelligent PI O Instruction Manual 6F8C0779 ...

Page 2: ...ion February 2017 The contents of this manual may be revised without notice Copyright 1998 2017 by Toshiba Corporation All rights reserved No part of this manual may be reproduced in any form without permission ...

Page 3: ...s Following shapes and symbols are used in the safety precaution labels affixed to the products and in other places including operation manuals for giving safety instructions Filled circle means Mandatory Action or Do as indicated Required action is shown in the circle or described near the circle Circle band with a diagonal slash means Prohibition or You must not do Prohibited action is shown in ...

Page 4: ...and inspection If not in case of malfunctioning it may hinder the recovery of the system and result in serious accident Ensure proper ventilation Do not block vents intake or exhaust openings of the equipment Blocking them may cause mulfunctioning or overheating which may result in fire Prohibit excessive voltage or current Avoid applying excessive voltage and current across the input output termi...

Page 5: ...the equipment or modules to avoid fault Shocks may cause malfunction Discharge static electricity Before handling equipment or modules discharge static electricity from your body by touching a metal that is grounded Static electricity may cause equipment to malfunction or fail Use a conductive sheet or bag to avoid static When cards and modules are taken out of base unit they should be placed on a...

Page 6: ... that may result in fire Turn off power in the event of a problem If the temperature in or around the equipment becomes abnormally high or an unusual fault occurs in the equipment stop using it and turn off power then contact your Toshiba representative If left alone overheat may result in fire Avoid touching hot components Some components inside the modules become very hot after the power is turn...

Page 7: ...on modules while the equipment is running Otherwise equipment may malfunction or fail Avoid noise interface Enclose the devices modules or signal cables in the cabinet away from a equipment that generates strong radio waves or magnetic fields or close the door of the cabinet Interference noise may cause them to malfunction 5 Safety Precautions in Disposal CAUTION Dispose of the unit and module as ...

Page 8: ...n system for nuclear power facilities and other important system for safety purpose Operation control system for mass transportation and air traffic control system Note 3 Special consideration means to construct safe system fool proof design fail safe design a tedious design upon much discussion with our engineer Exemption Matters from Responsibility We are not responsible for any damage caused by...

Page 9: ...reading The Structure of This Manual This manual consists of the following chapters Chapter 1 System configuration This chapter explains the serial PI O system configuration the standard system expansion configuration and the dual system expansion configuration Chapter 2 Installation and wiring This chapter explains the installation and wiring of each intelligent PI O and the relevant precautions ...

Page 10: ...Introduction viii ...

Page 11: ... Terminal Block Unit Mounting 14 Address Settings 15 Communication Base Unit Terminal Block Unit and I O base unit Mounting 16 Terminal Block Attachment and Removal 19 Wiring and Connections 21 Communication Base Unit Wiring and Connections 21 Terminal Block Unit Wiring and Connections 23 External wire connection 24 Module Mounting 24 3 System Configuration Unit and Module 27 Communication Section...

Page 12: ...Analog Input Module SAI02 71 Analog Input Module SAI03 74 Analog Input Module SAI06 77 Analog Input Module STC01 82 Analog Input Module SRT01 85 Analog Output Module SAO01 88 Analog Output Module SAO02 91 Analog Output Module SAO06 94 Digital Iput Mdule SDI01 97 Digital Output Module SDO01 99 Pulse Input Module SPI01 101 Pulse Input Module SPI012 105 Pulse Input Module SPI06 108 Pulse Output Modul...

Page 13: ... Inspection 131 Daily inspection 131 Priodical inspection 132 Maintenace Parts 133 Appendix 1 Specifications 134 Appendix 2 External Dimensions 136 Communication Base Unit 136 Terminal Block Unit 137 Relay Connection Unit 138 Module 138 Option Board 139 ...

Page 14: ...Contents xii ...

Page 15: ... DIN rail and PI O modules that are mounted on this unit providing a space saving chassis less system On line attachment and removal that is essential for continuously operating instrumentation control and dual bus signals provide high reliability and at the same time the system has intelligent functions for response to a variety of signals from the work site so that it can be used in a wide varie...

Page 16: ...I O system consists of the communication base unit and the terminal block units shown in Figure 1 1 A communication module is mounted on the communication base unit and intelligent PI O modules on the terminal block units Figure 1 1 Intelligent PI O system configuration ...

Page 17: ... units Maximum 15 Number of PI O modules Maximum 14 for single configuration Maximum 28 for dualized configuration Up to 14 terminal block units and I O base units Serial bus The SBIF1 and SBIF2 can be connected together on the same serial bus Serial bus cables Total length within 30 m I O bus Only the dual SBIF2 modules SAI06 SAO06 can be connected No other modules SAI01 SAO01 etc can be connecte...

Page 18: ... bus power supply capacity within 2 2 A Maximum 15 Termination connector I O bus cable Serial bus cables With termination resistors Note The serial bus I O bus and communication modules are all dual Control station PCS DS With termination resistors Figure 1 2 Standard system expansion configuration ...

Page 19: ...mmunication base unit 2 SBIF1s are mounted PI O modules maximum 14 Maximum 15 Termination connector I O bus cable For extension between units ZCS006A 1 For relaying power supply ZCS008A 1 Serial bus cables With termination resistors 2 SBIF1s are mounted PI O modules for dual maximum 28 I O bus cable For connection ZCS005A 1 Dual control station PCS DS With termination resistors Figure 1 3 Composit...

Page 20: ...1 System Configuration 6 ...

Page 21: ...lines as far as possible from power lines and devices that generate electric and magnetic fields Otherwise the effect of noise can cause misoperation or malfunction The Installation Environment The intelligent PI O system can either be mounted directly to a wall or enclosed in a cabinet In either case observe the following environmental conditions Installation location When mounting the intelligen...

Page 22: ...y to have an exhaust fan in the cabinet in which the system is installed in order to keep the ambient temperature within the operating range Estimate the required cooling capacity of the fans as the total amount of heat generated by all of the modules See Chapter 3 for the amount of heat generated by each intelligent PI O module Precautions in Mounting and Wiring NOTICE Keep the input output signa...

Page 23: ...s for example by an iron plate Do not mount a terminal block unit horizontally since this obstructs ventilation To increase the mouting stability fix the DIN rail in place with screws approximately in the center of the unit to which it is attached If the terminal block is mounted flush the interval becomes about 240 mm Unit mounting position DIN rail External wire with short bar attached 52 mm 48 ...

Page 24: ... When fixing a DIN rail the spacing between screws p should be within 250 mm andthe spacing between both sides of the screw and the fixing screw c should be within 50 mm The top to bottom spacing c of the base unit should be at least 35 mm Leave at least 18 mm of rail left to right as the stopper space s c 50mm p 250mm 15mm 35mm Note 1 Figure 2 2 I O Base Unit Mounting Method Vibration Measure In ...

Page 25: ...ding radius 25 mm Precautions in serial bus wiring Observe the following precautions in wiring the serial bus cable The wiring should be confined to the same cabinet or at most 2 jointed cabinet and have total length within 30 m As a rule multi drop wiring from the controller If the cable is to be bent observe the specified minimum bending radius see Table 2 1 or cable vender s recommendation Prec...

Page 26: ...and external noise to protect the cable from external noise Keep the total cable wiring length within 30 m For the distance which wires must be kept apart when a metal duct with or without cover is used see Table 2 3 in the next section Wiring separation The duct should be installed as follows 1 Use pull boxes at locations where cables are connected or ducts of different diameter are coupled The d...

Page 27: ... Table 2 3 Table 2 3 Minimum recommended separation when a covered or uncovered metal duct is used Cable power Total length of parallel wires 10 m or less 25 m or less 100 m or less 125 V or less 10 A or less 10 or more 10 or more 50 or more 250 V or less 50 A or less 10 or more 50 or more 150 or more 400 V or less 100 A or less 50 or more 100 or more 200 or more 500 V or less 200 A or less 100 or...

Page 28: ...r Terminal Block Unit Mounting The accessories provided for the terminal block unit include an option board a short bar and a name label Mount these as necessary before installing the DIN rail The preparatory procedure to be performed before mounting the terminal block unit is shown in Figure 2 4 Figure 2 4 Preparation for mounting the terminal block unit ...

Page 29: ...unit address setting switch sets the unit numbers 1 to F decimal 1 to 15 On the PI O modules the module address setting switch sets the module numbers 1 to E decimal 1 to 14 NOTICE In making the address settings use a screwdriver that matches the address setting switch grooves Otherwise the address setting switches may get damage Figure 2 5 Address settings ...

Page 30: ...unting groove slide it a bit to the right to fit it into the gap between the left edge of the DIN rail and the DIN rail stopper Push it to the right until it stops completely 3 Push the right side of the communication base unit or terminal block unit to the DIN rail side until it snaps into place with a click 4 Tighten the DIN tightening screw on the communication base unit or the terminal block u...

Page 31: ...unication base unit or the terminal block unit to the right then pull the communication base unit or terminal block unit forward a bit 3 Slide the communication base unit or terminal block unit slightly to the left then remove it NOTICE After removing the communication base unit or terminal block unit always tighten the DIN rail tightening screw and leave it that way Otherwise the DIN rail tighten...

Page 32: ... 2 Push the bottom of the communication base unit or the terminal block unit toward the DIN rail side while pressing down the tab of the lower part with a minus screwdriver etc so that the unit engages the rail 3 Slide the above leftward on the DIN rail and push it to the preceding unit s connector or stopper until they are adhered firmly to each other Note For removal follow the reverse of the pr...

Page 33: ... To remove a terminal block open the terminal block cover then loosen the 2 screws that hold the terminal block in place After loosening the 2 screws pull the screws out by pulling on their heads Figure 2 9 To attach the terminal block bring the terminal block to the communication base unit terminal block attachment position then tighten the 2 screws Figure 2 9 Removal of a terminal block from a c...

Page 34: ...ated the force of the screws will pull the terminal block loose Figure 2 10 To attach the terminal block bring the terminal block to the terminal block unit terminal block attachment position then tighten the 2 screws in place Figure 2 10 Removal of a terminal block from a terminal block unit NOTICE Be careful of attaching or removing a terminal block There is an exposed conductor on the rear of t...

Page 35: ...pply 24 Vdc to terminals 7 24 Vdc and 9 0 V on the communication base unit terminal block And connect the ground wire to terminal 11 GND on the communication base unit terminal block NOTICE Be careful of attaching or removing a terminal block After wiring if a terminal block with live wires is removed the exposed conductors on the rear of the terminal block may cause of trouble Do not pass electri...

Page 36: ...se units Connect termination resistors between terminals 1 and 3 and between terminals 2 and 4 of the last stage communication base unit Figure 2 12 Serial bus cable wiring IMPORTANT Perform serial bus cable shield processing on the side near the control station NOTE Concerning the terminal arrangement see 3 System configuration unit and modules ...

Page 37: ...e exposed on the rear of the terminal block may cause of trouble I O bus cable connection Connect the I O bus cable to the I O bus connector on the terminal block unit according to the following procedure 1 Connect the I O bus cable in sequence starting from the communication base unit and proceeding to the last stage terminal block unit 2 Connect an FSTM1 termination resistor accessory to the USC...

Page 38: ...k unit or a communication base unit If a non matching module is forcibly mounted it may damage to the terminal block unit or communication base unit and the module To avoid erroneously inserting the wrong module paste the correct name labels on the modules as explained in Preparation for mounting the terminal block units Use the correct size screwdriver to attach and remove the blank cover and the...

Page 39: ...until the claw on the bottom of it engages the guide at the rear of the terminal block unit I O base unit or communication unit 1 2 Push the top of the module all the way in to the terminal block unit or communication base unit 2 3 Tighten the mounting screw at the top of the module with a plus screwdriver 3 Figure 2 15 Module mounting ...

Page 40: ...2 Installation and Wiring 26 ...

Page 41: ...I O accessories and the spare parts Communication Section Components Each intelligent PI O system is built on a single communications unit component made up of a communications base unit communications module serial bus cable and an I O bus cable Figure 3 1 shows the communications unit component Figure 3 1 A communication section component 1 Communication base unit USCB1 This is a base on which t...

Page 42: ...d the communication module 4 I O bus cable ZCS005A 1 ZCS006A 1 This dedicated cable connects the communication base unit to the terminal block unit System power is supplied to the PI O unit through this cable The ZCS006A 1 is an extension cable 5 Serial bus terminator UTMN3 This is a serial bus termination resistor to be connected to the last stage communication base unit 6 Termination connector F...

Page 43: ...y itself excluding protrusions 80 W 138 H 120 D mm with module mounted excluding protrusions Weight 300 g or less this unit by itself USCB2 specifications Item Specification Model name USBC2 Form of attachment Only for horizontal mounting of DIN rails fixed with specialized stopper fittings Matching module Up to 2 SBIF1 modules in single system mounted on left P side Number connected to main unit ...

Page 44: ... 2 A 1 9 0 8 F 7 E 6 D 5 SBIF P SBIF S SW1 CN1 SW2 Position where SBIF1 is mounted P side in case of single system DIN rail tightening screw M4 USCB2 front panel 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 TB1 SW1 SBIF P SBIF S Unit address setup switch Unit address numbers 1 to F 1 to 15 are set Serial bus terminal block Where the SBIF1 SBIF2 module is additionally mounted S when the system isredundant I O b...

Page 45: ...phase B jumper LINE B2 phase B 5 Phase A shield for next stage USCB1 use 6 Phase B shield for next stage USCB1 use 7 24 Vdc system power supply input 24 Vdc system power supply input 8 9 0 V system power supply input 0 V system power supply input 10 11 GND ground terminal GND ground terminal 12 Note When terminating connect termination resistors between terminals 1 and 3 and between terminals 2 an...

Page 46: ...l I O bus Serial bus 24 Vdc 0 V Fixed voltage power supply circuit System power supply Status indicator switch Intemal CPU circuit Temination resistors I O bus interface Phase A RS 485 trans ceiver RS 485 trans ceiver Phase B Serial bus interface SBIF1 front panel RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation STAND BY indicator Lights up during dua...

Page 47: ... SBIF2 module internal circuit Phase A Module connector RS 485 transceiver Phase B Dual I O bus Serial bus 24 Vdc 0 V Fixed voltage power supply circuit System power supply Status indicator switch Intemal CPU circuit Temination resistors I O bus interface Phase A Phase B Serial bus interface RS 485 transceiver RS 485 transceiver RS 485 transceiver SBIF2 module front panel RUN indicator Lights up d...

Page 48: ...le ZCS007A 1 Shape of serial bus cable Shield wire Shield wire Cable length Method of specifying cable length The cable length up to 30 m is specified as follows ZCS004A 501 1 Code indicating type of serial bus cable Cable length 50 1 5 cm cm 10 n n 10 n cm ...

Page 49: ...l block unit The ZCS005A0701 length 7 cm is a standard accessory for the terminal block unit Cable length 7cm Shape of bus cable ZCS006A 1 This cable is used only to extend the length between units Cable length Shape of bus cable ZCS008A 1 This cable is only used when the I O bus power supply capacity exceeds the specification Power supply lead length Cable length ...

Page 50: ...ed as follows ZCS005A 070 1 ZCS006A 070 1 ZCS008A 501 1 Code indicating type I O bus cable Cable length 07 1 7 cm cm 10 n n 10 n cm IMPORTANT Keep the total cable length within 5 m including total terminal block length The power supply lead is 3 m long Adjust its length when the power supply is connected ...

Page 51: ...UTBA6 For 8 point analog duplexed system compatible module SAI06 SAO06 UTBA61 For 8 point analog 4 point pulse duplexed system compatible module SAI06 SAO06 SPI06 UTBD1 For digital input output use SDI01 SDO01 UTRC1 For input output relay connection use SDI01 SDO01 Used as a single configuration UTBA1 to UTBA3 and UTBA6 UTBA61 can perform current voltage conversions when an option board is mounted...

Page 52: ...lid when STC01 module is used External wire terminal blocks 2 removable type terminal blocks of 21 terminals per block M3 5 screws Matching external wire size 1 25 mm 2 or less External power supply 24 Vdc 10 ripple 5 or less for SPI01 SPO01 modules Maximum current in I O bus 24 Vdc 2 2 A total PI O modules current consumption Accessories 1 I O bus cable ZCS005A0701 1 blank cover FSCV1 Ability of ...

Page 53: ...3 System Configuration Unit and Module 39 UTBA1 front panel ...

Page 54: ...7 15 AI8 TC8 AO8 16 AI8 TC8 AO8 17 24 Vdc external 24 Vdc external 18 0 V external 0 V external 19 CJC CJC CJC CJC CJC 20 NOTICE Before mounting a PI O module check whether the connected signal matches the mounted PI O module rating If a PI O module is mounted and an erroneous signal is connected the PI O module or external sensor may got damage The FG terminal is a grounded terminal for use with ...

Page 55: ...xternal line terminal block 2 removable type terminal blocks M3 5 screws 21 terminals relation between screws and terminals unclear Matching external line size 1 25 mm 2 or less Maximum current in I O bus 24 Vdc 2 2 A total PI O modules current consumption Accessories 1 I O bus cable ZCS005A0701 1 blank cover FSCV1 Ability of insulation to withstand voltage 500 Vac for 1 minute between external si...

Page 56: ...3 System Configuration Unit and Module 42 UTBA2 front panel ...

Page 57: ...B AO4 15 DP4 RTD4 b 16 Shield 4 Shield 4 Shield 4 Shield 4 17 18 19 20 NOTICE Before mounting a PI O module check to make sure that the connected signal matches the mounted PI O module rating If a PI O module is mounted and an erroneous signal is connected the PI O module or external sensor may got damage Each terminal block shield 4 terminals is connected internally to each FG terminal The shield...

Page 58: ...e terminal block 2 removable type terminal blocks M3 5 screws 21 terminals relation between screws and terminals unclear Matching external line size 1 25 mm 2 or less External power supply 24 Vdc 10 21 6 to 26 4 V ripple 5 or less for sensor use Maximum current in I O bus 24 Vdc 2 2 A total PI O modules power consumption Accessory 1 I O bus cable ZCS005A0701 Ability of insulation to withstand volt...

Page 59: ...3 System Configuration Unit and Module 45 UTBA3 front panel ...

Page 60: ... signal matches it If a PI O module is mounted and an erroneous signal is connected the PI O module or external sensor may got damage The shields on each terminal block 4 terminals are all connected to each FG terminal internally The shields and the PI O are grounded by grounding the FG terminals Always ground them Otherwise parts will be damaged or system will be malfunction Do not connect an ext...

Page 61: ...nal blocks 2 removable type terminal blocks M3 5 screws 21 terminals Matching external wire size 1 25 mm 2 or less External power supply 24 Vdc 10 ripple 5 or less Maximum current in I O bus 24 Vdc 2 2 A total PI O modules current consumption If the power supply capacity exceeds the specification connect a power supply relay cable between the terminal blocks Accessories 1 I O bus cable ZCS005A0701...

Page 62: ...3 System Configuration Unit and Module 48 UTBA6 unit front panel Note 1 The upper and lower I O bus connectors form a are connected internally ...

Page 63: ...d 4 16 Shield 8 Shield 8 Shield 8 17 24 Vdc external 17 18 0 Vdc external 18 19 24 Vdc external 19 20 0 Vdc external 20 NOTICE Before mounting the PI O module always check whether the connected signal matches it If a PI O module is mounted and an erroneous signal is connected the PI O module or external sensor may got damage The shields on each terminal block 4 terminals are all connected to each ...

Page 64: ...erminal blocks 2 removable type terminal blocks M3 5 screws 21 terminals Matching external wire size 1 25 mm 2 or less External power supply 24 Vdc 10 ripple 5 or less Maximum current in I O bus 24 Vdc 2 2 A total PI O modules current consumption If the power supply capacity exceeds the specification connect a power supply relay cable between the terminal blocks Accessories 1 I O bus cable ZCS005A...

Page 65: ...3 System Configuration Unit and Module 51 UTBA61 unit front panel Note 1 The upper and lower I O bus connectors form a are connected internally ...

Page 66: ...Shield 8 Shield 8 Shield 8 17 24 Vdc external 24 Vdc external 17 18 0 Vdc external 0 Vdc external 18 19 24 Vdc external 24 Vdc external 19 20 0 Vdc external 0 Vdc external 20 NOTICE Before mounting the PI O module always check whether the connected signal matches it If a PI O module is mounted and an erroneous signal is connected the PI O module or external sensor may got damage The shields on eac...

Page 67: ... removable type terminal blocks M3 5 screws 21 terminals Matching external line size 1 25 mm 2 or less External power supply 24 Vdc 10 ripple 5 or less external load for contact use Maximum current in I O bus 24 Vdc 2 2 A total PI O modules current consumption Accessories 1 I O bus cable ZCS005A0701 1 blank cover FSVC1 1 short bar FSBR2 Ability of insulation to withstand voltage 500 Vac for 1 minu...

Page 68: ...3 System Configuration Unit and Module 54 UTBD1 front panel ...

Page 69: ...s rating If a PI O module is mounted and an erroneous signal is connected the PI O module or external sensor may got damage The terminal block TB1 TB2 external power supply terminals are connected internally in the SDI01 and SDO01 modules When it is necessary to wire between terminal units use only TB1 terminals or TB2 terminals for all units do not mix TB1 and TB2 among units If the internal path...

Page 70: ...ID16 5 for input use When SDO01 is used Omron G70A ZOC16 3 Note 1 G7TC OC16 G7VC O 16 for output use Input and output can be intermingled in 32 point units Relay power supply 24V 10 supply to relay unit side Maximum current in I O bus 24 Vdc 2 2A total PI O modules current consumption Accessories 1 I O bus cable ZCS005A0701 1 blank cover FSCV1 Ability of insulation to withstand voltage 500 Vac for...

Page 71: ...3 System Configuration Unit and Module 57 UTRC1 front panel ...

Page 72: ... DO24 7 C7 DI25 DO25 8 C8 DI26 DO26 9 C9 DI27 DO27 10 C10 DI28 DO28 11 C11 DI29 DO29 12 C12 DI30 DO30 13 C13 DI31 DO31 14 C14 DI32 DO32 15 C15 Note The signal correspondences given here are for the case in which an Omron G79 C cable with connector is used NOTICE One mounted SDI01 or SDO01 module controls 2 relay units 16 points Input and output relays should not be mixed among these 32 points Doin...

Page 73: ...rizontal mounting of DIN rails fixed with specialized stopper fittings Number of mounting modules Up to two PI O modules Applicable modules SAI01 SAI06 SAO01 SAO06 SPI01 SPI06 SPO01 Input output signal connector CN1 CN2 Lever type connector with reverse connection prevention function Number of connector pins 20 pins plug Type AXM220001 Matsushita Electric Industrial Co Conforming cable connector T...

Page 74: ... 4 EXTP24 2 EXTP2 4 EXTP24 3 EXTN24 EXTN24 3 EXTN24 EXTN24 4 EXTN24 EXTN24 4 EXTN24 EXTN24 5 AI8 AO8 5 AI8 AO8 6 AI8 AO8 6 AI8 AO8 7 AI7 AO7 7 AI7 AO7 8 AI7 AO7 8 AI7 AO7 9 AI6 AO6 9 AI6 AO6 10 AI6 AO6 10 AI6 AO6 11 AI5 AO5 11 AI5 AO5 12 AI5 AO5 12 AI5 AO5 13 AI4 AO4 PI4 PO4 CLS 13 AI4 AO4 PI4 PO4 CLS 14 AI4 AO4 PI4 PO4 OPN 14 AI4 AO4 PI4 PO4 OPN 15 AI3 AO3 PI3 PO3 CLS 15 AI3 AO3 PI3 PO3 CLS 16 AI...

Page 75: ...vention function Number of connector pins 20 pins plug Type AXM220001 Matsushita Electric Industrial Co Conforming cable connector Type AXM120415 Matsushita Electric Industrial Co Conforming flat cable Type ZCKFTAB Cable length Up to 20 m Conforming DIN rail 35 mm wide Outer dimensions 80W 160H 15Dmm excluding protrusions I O bus terminating resistor When mounted on the end tail the final resistor...

Page 76: ...able CN1 PI O module SAI06 SAO06 SPI06 1 EXTP24 2 EXTP24 3 EXTN24 4 EXTN24 5 AI8 AO8 6 AI8 AO8 7 AI7 AO7 8 AI7 AO7 9 AI6 AO6 10 AI6 AO6 11 AI5 AO5 12 AI5 AO5 13 AI4 AO4 PI4 14 AI4 AO4 PI4 15 AI3 AO3 PI3 16 AI3 AO3 PI3 17 AI2 AO2 PI2 18 AI2 AO2 PI2 19 AI1 AO1 PI1 20 AI1 AO1 PI1 ...

Page 77: ...64P024 AU Fujitsu Ltd Conforming I O cable connector Type G79 C Omron Corp 100 150 200 300 500 If cables are going to be made by Toshiba refer to the Omron company s catalog Conforming I O relay terminal OUT G7TC OC16 IN G7TC ID16 5 Conforming DIN rail 35 mm wide Outer dimensions 60W 160H 15D mm excluding protrusions I O bus terminating resistor When mounted on the end tail the final resistor is s...

Page 78: ...5 DI21 DO21 6 DI06 DO06 6 DI22 DO22 7 DI07 DO07 7 DI23 DO23 8 DI08 DO08 8 DI24 DO24 9 EXTN24 EXTN24 9 EXTN24 EXTN24 10 EXTP24 EXTP24 10 EXTP24 EXTP24 11 DI09 DO09 11 DI25 DO25 12 DI10 DO10 12 DI26 DO26 13 DI11 DO11 13 DI27 DO27 14 DI12 DO12 14 DI28 DO28 15 DI13 DO13 15 DI29 DO29 16 DI14 DO14 16 DI30 DO30 17 DI15 DO15 17 DI31 DO31 18 DI16 DO16 18 DI32 DO32 19 EXTN24 EXTN24 19 EXTN24 EXTN24 20 EXTP2...

Page 79: ...M3 screw 12 pins For I O bus connection and system power 24 Vdc receiving Conforming I O cable Cross section 1 5mm 2 AWG14 Conforming DIN rail 35 mm wide Outer dimensions 60W 160H 15D mm excluding protrusions I O bus terminating resistor When mounted on the end tail the final resistor is set to ON Mass No more than 250 g Single unit Front Side of UITU5 Unit ON TB1 I O bus extension terminal block ...

Page 80: ...ignal Table TB1 Signal name 1 LINE B1 B system throughout 2 LINE B2 B system throughout 3 4 5 DC24V I O system power i nput 6 0V I O system power 7 LINE A1 A system throughout 8 LINE A1 A system throughout 9 10 GND 接地端子 11 DC24V I O system power i nput 12 0V I O system power ...

Page 81: ...ut SAO02 Analog output module 4 points 4 20 mAdc isolated output SAO06 Analog output module dual possibility 8 points 4 20 mAdc output SDI01 Digital input module 32 points 24 Vdc 5 mA ON resistance 500 or less SDO01 Digital output module 32 points 24 Vdc 100 mA maximum SPI01 Pulse input module 4 points Non voltage contact open collector input Voltage pulse SPI012 Pulse input module 4 points Non vo...

Page 82: ... C Power supply voltage drift Within 0 1 of full scale in a system power supply fluctuation of 10 Input wire break characteristics Down scale Input wire break detection time 2 seconds bipolar 10 seconds unipolar Address setting Set from 1 to E decimal 1 to 14 by front panel address setting switch Diagnosis of trouble Analog standard voltage transmission CPU memory Insulation resistance 100 M or mo...

Page 83: ...r circuit Status indicator switch Internal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Fixed voltage power supply circuit Insulated DC DC corverter circuit Internal power supply Signal isolation circuit 8 channel analog multi plexer circuit Phase B System power supply 24 Vdc Dual I O bus AI1 AI1 AI8 AI8 ...

Page 84: ...0 Alarm P24 SDA01 Power supply SAI01 Terminals identified by symbol are connected together internally GND External sensor A short bar FSBR2 is used for shielding GND FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TB1 TB2 250 SAI01 FG AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI8 FIVC11 FIVC12 side internal connection RUN indicator Lights up during normal operation Alarm in...

Page 85: ...of 10 Input wire break characteristics Down scale Input wire break detection time Within 10 seconds Address setting Set from 1 to E decimal 1 to 14 by front panel address setting switch Diagnosis of breakdown Analog standard voltage transmission CPU memory Insulation resistance 100M or more measured with 500 Vdc megger between input channels between total inputs and internal circuits Ability of in...

Page 86: ...tor V F converter circuit Status indicator switch Internal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Fixed voltage power supply circuit Insulated DC DC converter circuit Internal power supply Signal isolation circuit Filter Phase B System power supply 24 Vdc Dual I O bus AI1 AI1 AI4 AI4 ...

Page 87: ...G 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 FG AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 SAI02 module front panel RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 AI02 1 5V dc TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 ...

Page 88: ...wn scale Input wire break detection time Within 10 seconds Sensor power supply 18 to 30 Vdc load current 20 mA or less including FIVC21 FIVC22 resistance board voltage drop Address setting Set from 1 to E decimal 1 to 14 by front panel address setting switch Diagnosis of breakdown Analog standard voltage transmission CPU memory Insulation resistance 100 M or more measured with 500 Vdc megger betwe...

Page 89: ... converter circuit Status indicator switch Intemal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Fixed voltage power supply circuit Internal power supply Signal isolation circuit Filter Phase B System power supply 24 Vdc Dual I O bus AI1 AI1 AI4 DP4 DPI AI4 Insulated DC DC converter circuit ...

Page 90: ...14 15 16 17 18 19 20 FG AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 DP1 DP2 DP3 DP4 SAI03 front panel RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 AI03 1 5V dc DIS TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 CH1 CH4 CH3 CH2 OFF ON Sensor power supply switches CH1 to CH4 ...

Page 91: ...osis is implemented under dual system Dualization Possible Two units are mounted on terminal block units UTBA6 UTBA61 or I O base unit UABU3 Dualized switching condition When a major alarm such as ADC error or I O bus transmission interruption has occurred to the online module Address setting Set the address by selecting between 1 and E 1 to 14 by front panel address setting switch For duplexed co...

Page 92: ...trans ceiver Fixed voltage power supply circuit Insulated DC DC corverter circuit Internal power supply Signal isolation circuit 8 channel analog multi plexer circuit AI1 AI1 AI8 AI8 Dual I O bus 1 3 2 1 3 2 1 4 Diagnostic functions 1 ADC reference input diagnostics 2 ROM RAM check WDT supervision and power supply supervision 3 I O bus transmission diagnostics 4 Analog deviation diagnostics 1 The ...

Page 93: ...B2 250 SAI06 FG AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI8 FIVC11 FIVC12 side internal connection RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 AI06 UNIVERSAL TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 STAND BY STAND BY indicator Lights up durin...

Page 94: ...4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TB2 250 side internal connections FDA01 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI8 AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 FG Upper primary SAI06 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI8 AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 FG Lower secondary SAI06 Power supply FDA01 Power supply 4 20 mAdc 2 wire type sensor 24 Vdc 4 20 mAdc 2 wire type sensor ...

Page 95: ...6 17 18 19 20 24 Vdc 4 3 2 1 FG GND 4 20 mAdc 2 wire type sensor TB1 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Alam load 4 3 2 1 FG OP1 SAI06 FG 1 2 3 4 AI3 AI3 AI4 AI4 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI2 AI2 AI1 AI1 FG AI8 SDA01 4 DP2 DP3 DP4 DP5 DP6 DP7 DP8 Alarm P24 DP1 SAI06 and SDA01 modules terminals are all connected together internally 24 Vdc ...

Page 96: ...C 0 12 0 600 C 0 1 0 1200 C 0 1 600 1200 C 0 1 T 0 300 C 0 1 E 0 200 C 0 1 0 400 C 0 1 0 600 C 0 1 0 800 C 0 1 Cold contact compensation accuracy Within 1 C Temperature drift Within 0 015 C Power supply voltage drift 0 1 of ull scale in a system with power supply fluctuation of 10 Address setting Set from 1 to E decimal 1 to 14 by front panel address setting switch Breakdown diagnosis Analog stand...

Page 97: ... circuit Insulated DC DC converter Internal power supply Signal isolation circuit 8 channel analog multi plexer circuit Phase B System power supply 24 Vdc Dual I O bus TC1 TC1 TC8 TC8 CJC Cold contact compensation circuit STC01 module external wiring When mounted on UTBA1 GND TC A ground bar FSBR2 is used for shielding GND FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TB1 TB2 STC01 FG TC1 ...

Page 98: ...e front panel RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 TC01 THERMOCOUPLE ...

Page 99: ... 50 C 0 1 Pt3916 0 150 C 0 1 0 300 C 0 1 0 500 C 0 1 50 100 C 0 1 150 50 C 0 1 Temperature drift Within 0 015 C Power supply voltage drift 0 1 of full scale in a system power supply fluctuation of 10 Address setting Set from 1 to E decimal 1 to 14 by front panel address setting switch Breakdown diagnosis Analog standard voltage transmission CPU memory Insulation resistance 100 M or more measured w...

Page 100: ...ator switch Internal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Fixed voltage power supply circuit Internal power supply Signal isolation circuit Current output Phase B System power supply 24 Vdc Dual I O bus RT1 A RT1 B RT4 A RT4 b RT1 b RT4 B Insulated DC DC converter circuit Resistance detection Analog multiplexer circuit ...

Page 101: ...3 A RT3 B RT3 b RT4 A RT4 B RT4 b FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TB1 TB2 SRT01 module front panel RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 RT01 Pt385 Pt3916 ...

Page 102: ...pple Within 0 5 of full scale Output specification in emergency HOLD mode output hold or RESET mode output OFF can be selected Address settings Set from 1 to E decimal 1 to 14 by front panel address setting switch Breakdown diagnosis Output current lead back transmission CPU memory Insulation resistance 100 M or more measured with 500 Vdc megger between total outputs and internal circuits Ability ...

Page 103: ...witch Internal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Fixed voltage power supply circuit Insulated DC DC converter circuit Internal power supply Signal isolation circuit Phase B System power supply 24 Vdc Dual I O bus AO1 AO1 AO8 AO8 D A conversion circuit with analog lead back Analog circuit power supply ...

Page 104: ...Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 AO01 4 20 mAdc TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 GND side internal connections External load TB1 TB2 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 SAO01 FG AO1 AO1 AO2 AO2 AO3 AO3 AO4 AO4 AO5 AO5 AO6 AO6 AO7 AO7 AO8 AO8 ...

Page 105: ...pply fluctuation of 10 Output ripple Within 0 5 of full scale Address settings Set from 1 to E decimal 1 to 14 by front panel address setting switch Breakdown diagnosis Output current lead back transmission CPU memory Insulation resistance 100 M or more measured with 500 Vdc megger between output channels between total outputs and internal circuits Ability of insulation to withstand voltage 500 Va...

Page 106: ...s indicator switch Internal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Fixed voltage power supply circuit Signal isolation circuit Phase B System power supply 24 Vdc Dual I O bus AO1 AO1 AO4 AO4 D A conversion circuit with analog lead back Internal power supply Insulated DC DC converter circuit ...

Page 107: ...s up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 AO02 4 20 mAdc TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 GND External load TB1 TB2 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 SAO02 FG AO1 AO1 AO2 AO2 AO3 AO3 AO4 AO4 ...

Page 108: ...itching condition When a major alarm has occurred to the online module Output bump at dualized switching Stabilized within 1ms when the data output is constant Address settings Set from 1 to E decimal 1 to 14 by front panel address setting switch When dualized the pair is set for the same address Output specification in emergency HOLD mode output hold or RESET mode output OFF can be selected Insul...

Page 109: ... Output current read back diagnostics ROM RAM check WDT supervision and power supply supervision I O bus transmission diagnostics Duplex switching status diagnostics 1 Part of the duplex switching circuit is not subject to diagnostics At the time of regular repair it is possible to check the presence or absence of errors by conducting duplex switching tests 2 In standby operation the output diode ...

Page 110: ...dc TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 STAND BY STAND BY indicator Lights up during stand by action External load AO5 AO5 AO6 AO6 AO7 AO7 AO8 AO8 AO1 AO1 AO2 AO2 AO3 AO3 AO4 AO4 FG Upper primary SAO06 FG Lower secondary SAO06 GND side internal connections External load TB1 TB2 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 SAO06 FG A01 A01 A02 A02 A03 A03 A04 A04 A05 A05 A0...

Page 111: ...red with 500 Vdc megger between total inputs and internal circuits Ability of insulation to withstand voltage 500 Vac for 1 minute between total inputs and internal circuits External power supply 24 Vdc 10 21 6 to 26 4V ripple 5 or less When used with external 24V at 26 4V ambient temperature 55 C should be derated to 50 C Current consumption 24 Vdc 35 mA or less system power supply Internal heat ...

Page 112: ...CN3 CN5 DI17 DI18 DI32 DI19 DI20 CN4 CN6 Input relay cable connection 16 point input 16 point input When mounted on upper level CN3 CN4 connected When mounted on lower level CN5 CN6 connected RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 DI01 DIG TAL IN TOSHIBA ALM ADDR 4 C 3...

Page 113: ...h 500 Vdc megger between total outputs and internal circuits Ability of insulation to withstand voltage 500 Vac for 1 minute between total outputs and internal circuits External power supply 24 Vdc 10 21 6 to 26 4 V ripple 5 or less Current consumption 24 Vdc 50 mA or less system power supply Internal heat generation 4 5 W or less external 24 Vdc all points rated ON Compatible terminal block units...

Page 114: ...8 DO32 DO19 DO20 CN4 CN6 Output relay cable connection 16 point output 16 point output When mounted on upper level CN3 CN4 connected When mounted on lower level CN5 CN6 connected External load External load RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 DO01 DIG TAL OUT TOSHIB...

Page 115: ... setting Note 2 Set from 1 to D decimal 1 to 13 by front panel setting switch Breakdown diagnosis External power supply voltage drop transmission CPU memory Basic pulse Insulation resistance 100 M or more measured with 500 Vdc megger between total inputs and internal circuits Ability of insulation to withstand voltage 500 Vac for 1 minute between total inputs and internal circuits External power s...

Page 116: ... power supply monitoring External power supply AMP PI4 PI4 Trans former insula tion circuit SPI01 module external wiring When mounted on UTBA1 A ground bar FSBR2 is used for shielding FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 24 Vdc 0 V FG PI1 PI1 PI2 PI2 PI3 PI3 PI4 PI4 TB1 TB2 SPI01 GND 24 Vdc GND side internal connection FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 24 Vdc 0...

Page 117: ...dress setting switch Sets address numbers 1 to E decimal 1 to 14 PI01 PULSE IN TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 CN1 CN2 CN3 CN4 Threshold level setting switch Sets threshold level numbers 1 to E decimal 1 to 14 THRESHOLD LEVEL ...

Page 118: ...setting Note 2 1 to 14V in terms of 1V as a unit setup accuracy set value s 6 0 3V Breakdown diagnosis External power supply voltage drop transmission CPU memory Basic pulse Insulation resistance 100 M or more measured with 500 Vdc megger between total inputs and internal circuits Ability of insulation to withstand voltage 500 Vac for 1 minute between total inputs and internal circuits External po...

Page 119: ...power supply monitoring External power supply AMP PI4 PI4 Trans former insula tion circuit SPI012 module external wiring When mounted on UTBA1 A ground bar FSBR2 is used for shielding FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 24 Vdc 0 V FG PI1 PI1 PI2 PI2 PI3 PI3 PI4 PI4 TB1 TB2 SPI012 GND 24 Vdc GND side internal connection FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 24 Vdc ...

Page 120: ... the hardware information that is set for each pulse input is automatically downloaded after startup 1 Selecting the input signal of the no voltage contact open collector or with voltage 2 Setting the input signal filter and select the high speed 10kHz or the low speed 50Hz 3 Selecting the input signal s threshold voltage 1 to 14V Set the threshold voltage in such a manner that it falls nearly on ...

Page 121: ...rom 1 to E decimal 1 to 14 by front panel address setting switch Breakdown diagnosis External power supply voltage drop transmission CPU memory Basic pulse Counter Redundancy Possible when mounting terminal block UTBA61 for redundancy or base unit UABU3 for redundancy Redundancy switching condition Major alarm to online modules Insulation resistance 100 M or more measured with 500 Vdc megger betwe...

Page 122: ...cator switch Fixed voltage power supply circuit External power supply monitoring AMP Trans former insula tion circuit Countter Redundant switching status signal Phase A Phase B Module connector Internal CPU circuit RS 485 trans ceiver RS 485 trans ceiver Internal powe supply System power supply 24 Vdc Dual I O bus Status indicator switch Fixed voltage power supply circuit External power supply mon...

Page 123: ...affected If diagnosing this part is necessary when single the need can be handled via software by entering parallel inputs into two modules 2 Panel SW and status display are not targeted for diagnosis By conducting power ON OFF tests during routine maintenance it is possible to check the absence presence of failures of panel switches and the lamp indication statuses of panel LEDs 3 Some consistenc...

Page 124: ...12 13 14 15 16 17 18 19 20 TB2 FG PI1 PI1 PI2 PI2 PI3 PI3 PI4 PI4 FG PI1 PI1 PI2 PI2 PI3 PI3 PI4 PI4 GND 24 Vdc FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TB1 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 TB2 FG PI1 PI1 PI2 PI2 PI3 PI3 PI4 PI4 Upper primary SPI06 Upper secondary SPI06 Upper primary SPI06 Upper secondary SPI06 side internal connection Pulse generator Pulse genera...

Page 125: ...the hardware information that is set for each pulse input is automatically downloaded after startup 4 Selecting the input signal of the no voltage contact open collector or with voltage 5 Setting the input signal filter and select the high speed 10kHz or the low speed 50Hz 6 Selecting the input signal s threshold voltage 1 to 14V Set the threshold voltage in such a manner that it falls nearly on t...

Page 126: ...4 by front panel address setting switch Breakdown diagnosis External power supply voltage drop transmission CPU memory Read back check Insulation resistance 100 M or more measured with 500 Vdc megger between total outputs and internal circuits Ability of insulation to withstand voltage 500 Vac for 1 minute between total outputs and internal circuits External power supply 24 Vdc 10 21 6 to 26 4V ri...

Page 127: ...ernal power supply Status indicator switch Photo coupler insulation circuit Read back Intemal CPU circuit External power supply fixed voltage circuit PO1CL PO4CL Output drive Pulse output circuit SPO01 module external wiring When mounted on UTBA1 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 24 Vdc 0 V FG PO1OP PO1CL PO2OP PO2CL PO3OP PO3CL PO4OP PO4CL TB1 TB2 SPO01 GND 24 Vdc GND A ground...

Page 128: ...ule front panel RUN indicator Lights up during normal operation Alarm indicator Blinks in an abnormal operation Module address setting switch Sets address numbers 1 to E decimal 1 to 14 PO01 PULSE OUT TOSHIBA RUN ALM ADDR 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 ...

Page 129: ...mA b contact 2 alarm indicator effective except when input power supply is cut OFF Sensor power supply switch For each output side Insulation resistance 100 M or more measured with 500 Vdc megger between alarm contact and power supply circuit Ability of insulation to withstand voltage 500 Vac for 1 minute between alarm contact and power supply circuit External power supply 24 Vdc 10 180 mA all sen...

Page 130: ...arm indicator Lights up during abnormal operation DA01 DISTRIBUTOR TOSHIBA ALM POWER Power supply switches CH1 to CH8 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 OFF ON CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 Alarm detector DP1 DP2 DP3 DP4 DP5 DP6 DP7 DP8 0V Current limiting circuit Status indicator External power supply 24 Vdc 0 V Module connector Alarm ...

Page 131: ...10 11 12 13 14 15 16 17 18 19 20 24 Vdc 4 3 2 1 FG GND 4 20 mAdc 2 wire type sensor TB1 FG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Alam 24 Vdc load 4 3 2 1 FG OP1 SAI01 FG 1 2 3 4 AI3 AI3 AI4 AI4 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI2 AI2 AI1 AI1 FG AI8 SDA01 4 DP2 DP3 DP4 DP5 DP6 DP7 DP8 Alarm P24 DP1 SAI01 and SDA01 terminals are all connected together internally ...

Page 132: ...y Within 0 2 Tmperature coefficient 25 ppm C Resistance section switch Located at each current input point 4 points Sensor power supply switch For each output side 4 points Insulation resistance 100 M or more Between mutual input circuits Ability of insulation to withstand voltage 500 Vac for 1 minute Between mutual input circuits External power supply 24 Vdc 10 UTBA6 external power supply Interna...

Page 133: ...terminals TB1 TB2 SAI06 FDA01 1 2 3 Power supply CH1 5 250 CH1 5 5 6 7 Power supply CH2 6 250 CH2 6 9 10 11 Power supply CH3 7 250 CH3 7 13 14 15 Power supply CH4 8 250 CH4 8 AI1 5 AI1 5 AI2 6 AI2 6 AI3 7 AI3 7 AI4 8 AI4 8 Note All SAI06 module inputs side are connected together internally ...

Page 134: ...section switch Yes corresponds to current input point No exclusively for current input Switch open circuit voltage 28 Vdc or less Internal heat generation 0 8 W total input 20 mAdc 0 8 W total input 20 mAdc Compatible terminal block units UTBA1 OP1 OP2 UTBA3 OP1 UTBA1 OP1 OP2 UTBA3 OP1 Compatible I O module SAI01 SAI01 External dimensions 15 W 85 H 45 D mm 15 W 85 H 45 D mm Weight 100 g or less 10...

Page 135: ...ether internally TB1 TB2 SAI01 1 250 2 CH1 3 250 4 CH2 5 250 6 CH3 7 250 8 CH4 9 250 10 CH5 11 250 12 CH6 13 250 14 CH7 15 250 16 CH8 AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI8 FIVC11 TB1 TB2 SAI01 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 AI5 AI5 AI6 AI6 AI7 AI7 AI8 AI8 FIVC12 250 250 250 250 250 250 250 250 ...

Page 136: ...input use Switch open circuit voltage 28 Vdc or less Insulation resistance 100 M or more measured with 500 Vdc megger between input circuits Ability of insulation to withstand voltage 500 Vac for 1 minute between input circuits Internal heat generation 0 4 W total input 20 mAdc 0 4 W total input 20 mAdc Compatible terminal block unit UTBA2 OP1 OP2 UTBA2 OP1 OP2 Compatible I O modules SAI02 SAI03 S...

Page 137: ...22 board internal circuitry and connection terminals TB1 TB2 SAI02 SAI03 1 250 2 CH1 5 250 6 CH2 9 250 10 CH3 13 250 14 CH4 FIVC21 AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 TB1 TB2 SAI02 SAI03 1 2 5 6 9 10 13 14 FIVC22 250 250 250 250 AI1 AI1 AI2 AI2 AI3 AI3 AI4 AI4 ...

Page 138: ...k unit and shield processing Name label Name labels various types specified for PI O modules mounted on terminal block units Short Bar FSBR2 FSBR2 specifications Item Specification Model name FSBR2 Number of terminals M3 5 33 terminal Mounting screw 4 M4s set accessory Application terminal block unit UTBD1 common wire processing standard form is to be provided already mounted UTBA1 shield processi...

Page 139: ...o which the PI O module is mounted These are convenient for checking when mounting or replacing a module Label name Printing on label Order unit FSL01 DI01 Sheet units FSL02 DO01 10 labels sheet FSL03 AI01 FSL04 AI02 FSL05 AI03 FSL06 RT01 FSL07 TC01 FSL08 AO01 FSL09 AO02 FSL10 PI01 FSL11 PO01 FSL12 DA01 Figure 3 2 Name labels ...

Page 140: ...nit option section 3 Termination connector FSTM1 1 For terminating the I O bus 4 Tag card FSTG1 Units of 10 For terminal block 21 terminals use 5 Tag card FSTG2 For use with PI O modules other than the SDI01 and SDO01 modules 6 Tag card FSTG3 For use with SDI01 SDO01 and SBIF1 modules 7 Terminal block cover FSCV4 2 For use with 21 terminal external lines with tag card 8 Terminal block cover FSCV5 ...

Page 141: ...nfiguration Unit and Module 127 1 2 No Name Model Unit order Remarks 1 Connector protection cover FSCV7 I O bus interconnector protection cover 2 Stopper fitting BNL6 I O base unit bracket Figure 3 4 Spare parts 2 ...

Page 142: ......

Page 143: ... for power supply overload or breakdown Are the communication modules all mounted securely on the communication base unit terminal block Fix in place securely with screws Serial bus error is detected Is the serial bus wiring to the communication base unit correct Recheck the wiring paths and wire correctly Is the termination resistor connected to the last stage communication base unit terminal blo...

Page 144: ...real values Is the external line terminal block main unit fixed in place with screws Fix external line terminal block with screws Is the input open Connect the prescribed signal Is the input signal polarity reversed Connect the signal polarity correctly Is an analog signal from the same power supply connected to an uninsulated PI O module Use an insulated PI O module for analog signals from differ...

Page 145: ...e procedure detailed in Chapter 4 Troubleshooting Check the registration state and error state of the I O from the controller for taking measures Check the input LED display of the intelligent PI O unit digital input The corresponding LED illuminates when the external input signal is ON Check if the input voltage is within the specified value Check for looseness of the input terminal block Check i...

Page 146: ...ess of the power terminal screw No looseness Check for damage of the wiring cable No damage Installation state Check if the base unit of the controller unit is secured No looseness or backlash Check if the I O base unit of the TC net I O unit is secured No looseness or backlash Check for looseness of the cable connector and damage of the cable No looseness or damage Intelligent I O related Measure...

Page 147: ... at least the following maintenance parts WARNING Replace fuses with specified items Using anything other than specified may cause a fire or failure Table 5 3 Maintenance parts Product name Quantity Remark I O module One for each type Important When storing spare items avoid a place with high temperature or humidity ...

Page 148: ...ere No severe corrosive gases Dust concentration 0 3 mg m 3 or less Power supply System power supply 24 Vdc 10 ripple 5 or less PI O external power supply According to PI O module specifications Cooling method Natural air cooling Appended Table 1 2 Serial bus specifications Item Specification Composition of transmission path Shielded twisted pair cable Number of connected nodes During dualization ...

Page 149: ...ximum 14 nodes During dualization Maximum 28 nodes maximum 14 terminal block units Transmission path length Maximum 5m including terminal block unit length Transmission rate SBIF1 19 2 kbps SBIF2 375 kbps Transmission method Asynchronous method Interface level RS 485 Topology Multi drop Transmission path impedance 100 Bus dualization Standard dualization Error detection CRC 16 bit frame inspection...

Page 150: ...Dimentions 136 Apendix 2 External Dimensions The following are the external dimensions of the units and modules that comprise the intelligent PI O system Communication Base Unit Appended Figure 2 1 Communication base unit ...

Page 151: ...Apendix 2 External Dimentions 137 Terminal Block Unit Appended Figure 2 2 Terminal block unit ...

Page 152: ...y Connection Unit Appended Figure 2 3 Relay connection unit Module Appended Figure 2 4 Module 40 95 9 90 Applicable module model name SBIF1 SAI01 SAI02 SAI03 STC01 SRT01 SAO01 SAO02 SDI01 SDO01 SDA01 SPI01 SPI012 mm SPO01 SBIF2 SAI06 SAO06 ...

Page 153: ...1 FIVC12 FIVC21 FIVC22 mm Applicable option model name Appended Figure 2 5 Option board 4 C 3 B 2 A 1 9 0 8 F 7 E 6 D 5 TB1 SW1 SBIF P SBIF S 80 110 15 3 160 USCB2 Applicable communication base unit model name mm Appended Figure 2 6 Communication base unit USCB2 ...

Page 154: ...ons 140 CN1 CN2 ON 110 15 3 160 UABU1 80 Applicable I O base unit model name mm Appended Figure 2 7 I O base unit UABU1 110 15 3 160 UABU3 80 CN1 ON Applicable I O base unit model name mm Appended Figure 2 8 I O base unit UABU3 ...

Page 155: ...tions 141 110 15 3 160 UDBU1 60 CN1 CN2 ON Applicable I O base unit model name mm Appended Figure 2 9 I O base unit UDBU1 UITU5 40 ON TB1 15 3 160 Applicable I O base unit model name mm Appended Figure 2 10 I O base unit UITU5 ...

Page 156: ......

Page 157: ...ion December 2017 The contents of this manual may be revised without notice Copyright 1998 2017 by Toshiba Corporation All rights reserved No part of this manual may be reproduced in any form without permission ...

Page 158: ...TOSHIBA CORPRATION 72 34 Horikawacho Saiwai ku Kawasaki shi Kanagawa 212 8585 JAPAN ...

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