SMC Networks EX500 User's Manual
Contents
1. Straight connector type M12 co o ES 3 313 31 3 lman L Angled connector type 8 OO Cable core 70 013 Terminal NO O ermina sheath color O 09 6 4 1 2 O1 White 2 2 Brown 5 30 03 Green 4 E Sa Yellow Socket connector 2 o o 3 Gray Plug connector Pin assignment T o7 Blue Pin assignment 8 8 Shield Wiring 15 EX500 Serial System 3 6 3 Power Supply Connector Cable How to Order EX 500 API0 5 0 L Cable length 010 1m 050 5m Connector spesification S Straight AlAngled M12 e L Straight connector type Teminal NO Cable core Terminal NO Cable color Signal name sheath color 1 Brown OV for solenoid valve 310 0 2 i White 24V D Si E CE y lenoid valve 2 White 24V DC 10 5 O 3 Na ab for solenoid valve O O 4 LY Black 24V be TWE Cor power source Ji 4 3 5 1 5 Gray PE 3 Blue OV for power source Socket connector Wirin 4 Black 24V DC 10 Pin assignment g for power source 5 Gray PE 3 6 4 Terminal Plug EX OME0008 Electric specification Rated voltage 125V DC Rated current 3A La 40m ohms or less connector part At 20mV DC or less 100mA or less sa 1000M2. EX500 Serial System EX OME0008 8 2 Correspondence of output number and Manifold Valve The output number to the Manifold Valve of the SI Unit is shown in the following figure The SI Unit has output of 16 points In case of the Relay Output Module 1 output it becomes like the Single solenoid valve In case of the Relay Output Module 2 output it becomes like the Double solenoid valve single solenoid SI Unit SI Unit SI Unit Example 1 8 stations double solenoid valve The Manifold Valve combination of Example 2 shows the single solenoid valve using the Manifold Block Ass y wired for single solenoid and the double solenoid valve using Manifold Block Ass y wired for double wiring Confirm the Manifold Block assembly configuration i e wired for single solenoid or wired for double solenoid before making a control program and so on Example 2 Single and double solenoid valves are mixed 32 EX500 Serial System EX OME0008 8 3 How to install the SI Unit The following figure shows how to install remove the SI Unit with from the Manifold Valve Refer to the Catalogues or Technical Instruction Manual of SV and VQC series Manifold Valve for more details M3 x 30 4 pcs SUP EXH Block Ass y M3 X 10 2 pcs SI Unit for VQC series Manifold Tight the screws which hold the SI Unit with SUP EXH Block Ass y with specified tightening torque
3. 1999 Electromagnetic Emission Item Test Procedure Specification Criterion Radiated Electric Field EN55011 1998 A1 30MHz to 230MHz 230MHz to 1GHz Group 1 Strength 1999 Distance 10m Class A Electromagnetic Susceptibility Immunity Test Procedure Specification Criterion EN61000 4 2 1995 4kV contact A1 1998 8kV air discharge _ EN61000 4 3 1996 80MHz to 1000MHz Radiated Susceptibility 741 1998 10V m 1kHz AM 80 amplitude modulated i RS 900 5MHz Radiated Susceptibility ENV50204 1995 10V m pulse modulated 200Hz Pulse Mod Duty 50 CS Conductive 0 15MHz to 80 MHz Susceptibility EN61000 4 6 1996 10V 1kHz AM 80 amplitude modulated EFT Burst H2kV DC power lines a A 5 50ns 5kHz EFT Burst H2kV ENGY000 44 1995 AS Sone kt purge EN61000 4 5 1995 1kV Common interface lines RS EX500 Serial System EX OME0008 3 2 Gateway GW Unit How to Order EX500 GDN1 oi Network communication protocol GW Unit compatible DeviceNet PROFIBUS DP Remote I O RIO DN DeviceNet PR PROFIBUS DP AB Remote I O RIO X1 Nil Gateway GW Unit specification Specification Input and control power supply 24V DC 10 Solenoid valve power supply 24V DC 10 5 Power supply Warning of voltage drop given lower than approx 20V voltage Communication power supply for DeviceNet 11V DC to 25V DC
4. EX500 Serial System EX OME0008 6 4 1 Address setting switch SW1 2 3 These switches set node address The setting is shown in the following figure The address per one segment can be set in 32 node in case of no Repeater used and is set a maximum of 126 node in case of a Repeater used onl Ry ES X100 CG X10 O X1 1 2 6 4 2 Terminating resistance setting switch SW4 This switch is to set the terminating resistance resistance 2 No resistance No resistance The setting is shown in three figures on right ON OFF OFF ON OFF OFF ON OFF OFF State of SW4 6 5 I O memory map The GW Unit can control 128 input output points in total Regardless of I O points of the equipment it always occupies each data memory area for 64 inputs and 64 outputs Once the address is assigned in the GW Unit every port then corresponds to a specific Word respectively So Word n always corresponds to COM A Word n 1 corresponds to COM B and so on Ex n 1 In case of the input data the sensor signal data of the Input Manifold which was connected with the COM A port occupies Word1 of the I O memory mapping Ifa sensor signal is stored in the 0 bit of the Input Manifold it becomes like the Figure below In the same way in the case of the output data the contents displayed in Word1 of the I O
5. Do not drop nor apply force to the product It may damage the unit and may cause failure or malfunction 3 Take appropriate measures to ensure that the specified power is supplied regardless of the condition of power supply Use within specified voltage range To use outside of specified voltage will cause malfunction damage to unit electric shock and fire 4 Do not touch the terminal or internal circuit board while they are energized It may cause malfunction damage to unit and electric shock Turn the power supply OFF when increasing decreasing the number of Input Block or the Manifold Valve and disconnecting the power supply 5 Use within operating ambient temperature Do not use where temperatures can rapidly change even though it is within the specifications 6 Foreign objects should be prevented from entering the product Contamination by foreign objects such as wire chips will cause fire breakage and malfunction 7 Use within the operating environment of the protection structure IP65 is achieved by proper mounting of Input Unit Input Block and Manifold Valve with SI Unit and by processing properly a cable with the M12 connector which is wiring each unit and a cable which is wiring for power supply and a connector which is setting for communication and by processing properly with the water proof cap when there is an unused port Take measures such as the covers to be used in the environment in which water splashes always 8
6. Operate within the specified tightening torque It will be possible to damage the screw when the screw is tightening exceeds the range of the tightening torque 9 Take appropriate and sufficient countermeasures when installing systems in the following locations Locations subject to static electricity or other forms of noise Locations subject to strong electromagnetic fields Locations subject to possible exposure to radioactivities Locations close to power supplies 10 Take appropriate measures to noise such as the noise filter and so on when installing this product in equipment 11 This product is a component which is installed in the final equipment and used Please confirm the adaptability of EMC instruction when being installed in equipment by the customer 12 Do not detach the nameplate 13 Carry out periodical checks to confirm correct operation Safety may not be maintained by unintentional malfunction or incorrect operation Safety instructions for cables 1 Pay attention to wrong wiring It will cause malfunction fire and damage to the unit 2 Do not wire the power line with the high voltage wire to prevent the signal line from the noise serge It will cause the malfunction 3 Confirm the non conductivity of wiring It will cause the unit to be damaged by the excessive electric current flowing and voltage s being impressed when there is an insufficient insulation resistance 4 Do not bend cable repeatedly or pull
7. P 12 21 DIN rail L2 Rail mounting pitch 12 5 L1 Se 105 a ve Dior 1 Loni ers 100 1125 126 1375 150 1625 36 EX500 Serial System EX OME0008 In case of M12 Input Block Pitch 47 P 20 25 DIN rail 31 60 se L3 L2 Rail mounting pitch 12 5 L1 44 2 EX500 181 mor e ran re asa 205 an Gn 100 1126 1975 1828 175 200 2128 a fs ed 10 3 Manifold Valve Refer to the Catalogues or Technical Instruction Manual of SV and VQC series Manifold Valve for more details 287 lt EX500 Serial System 11 Trouble shooting Whole system EX OME0008 NO Item Remedies 1 The solenoid valve does not work Check the power supply for the solenoid valve is supplying 24VDC Refer to section 9 1 Check the Branch Cable with M12 Connector is properly connected with the SI Unit Refer to section 8 1 Check the Power LED and the Communication LED of the SI Unit light up Refer to section 8 1 The solenoid valve does not work as in the program Check the wiring specification of Manifold Block Ass y Refer to section 8 2 The Powe
8. Tightening torque 0 6 N m 33 EX500 Serial System EX OME0008 Wire each cables after turning the power supply OFF 9 1 Source wiring Wiring from power supply to GW s power supply connector is called Source wiring Refer to section 4 2 5 2 6 2 For pin out of this connector refer to section 3 2 It is not necessary to supply power to SI Unit Valve Manifold Block and Input Unit Manifold Block individually Power to these units will be supplied from GW Unit s power supply connector Refer to Safety instructions for power supply when selecting a power supply It is recommended to use SMC specified cable for source wiring Refer to section 3 6 3 As shown in the following two figures a single power supply or 2 individual power supplies can be used to supply power to SI Unit and Solenoid Valve Manifold A Individual power supply Brown OV for solenoid valve White 24V DC 10 5 for solenoid valve Gray PE Blue OV for power source Black 24V DC 10 for power source 24V DC 24V DC P N EX500 AP XXX X Power connector for GW Unit B Single power supply Brown OV for solenoid valve White 24V DC 10 5 for solenoid valve Blue OV for power source Black 24V DC 10 for power source 24V DC P N EX500 AP XXX X Power connector for GW Unit 34 EX500 Serial System EX OME000
9. Valve series 3 6 Option 3 6 1 Communication Connector Cable 3 6 2 Branch Cable with M12 Connector 3 6 3 Power Supply Connector Cable 3 6 4 Terminal Plug 3 6 5 Water Proof Cap 4 How to operate EX500 GAB1 X1 Rockwell Automation Remote I O RIO 1 Applicable PLC 2 Parts description 3 LED display 4 Operation setting 4 4 1 Operation setting switch SW1 4 4 2 Operation setting switch SW2 4 4 3 Terminating resistance setting switch SW3 4 5 Layout of scanner I O 4 4 4 4 5 How to operate EX500 GDN1 DeviceNet 5 1 Connection style 5 2 Parts description 5 3 LED display 5 4 Operation setting 5 4 1 Address setting switch SW1 2 5 4 2 Data rate setting switch SW3 5 5 I O memory map 6 How to operate EX500 GPR1 PROFIBUS DP 1 Communication wiring 2 Parts description 3 LED display 4 Operation setting 6 4 1 Address setting switch SW1 2 3 6 4 2 Terminating resistance setting switch SW4 6 5 I O memory map 6 6 6 6 EX OME0008 EX500 Serial System EX OME0008 7 Input Unit Manifold 29 7 1 Parts description 29 7 2 Correspondence of input number and Input Block 29 7 3 Exploded view Input Unit Manifold 30 8 Manifold Valve 31 8 1 Parts description 31 8 2 Correspondence of output number and Manifold Valve 32 8 3 How to install the SI Unit 33 9 Wiring 34 9 1 Source wiring 34 9 2 Communication wiring 35 9 2 1 Communication wiring to PLC 35 9
10. block part number are entered together But only one sensor type has to be specified per manifold either NPN or PNP Q M8 Input Block M12 Input Block M8 and M12 mixe 3 3 1 Input Manifold The Input Manifold includes Input Unit EX500 IB1 X1 End Block and DIN rail How to Order sss EEX500 1B1 E Isl Input Unit Specification l GW Unit compatible Connector type E M8 connector TIM12 connector M M8 M12 mixed Input Manifold 3 3 2 Input Unit How to Order EX500 1B4 i GW Unit compatible Ri DeviceNet i PROFIBUS DP Input Unit X1 Remote I O RIO Input Unit specification Current source type Input Block PNP Connecting block or Current sink type input Block NPN 8 blocks Max 1A Typ for each unit supply power cut Cut the power for power source once and then supply it again for return M12 connector 8 pin plug Pin NO 1 RD 2 RD Communication connector 3 N C 4 N C 5 N C 6 N C 7 24V DC for power source i 8 OV DC for power source For Input Unit Weight 100g Input Unit End Block Short circuit protection 11 EX500 Serial System EX OME0008 3 3 3 Input Block HowtoOrder 0 EX500 1El1 Connector type lig Input specification 1 IM8 connector PNP 2 IM8 connector NPN 3 IM12 connector PNP 4 IM12 connector NPN M12 Input Block 5 8 point unit M8 connector PNP 6 18
11. by two points A maximum of 8 blocks can be used on a single input manifold 2 Output Manifold Valve Relay Output Module with the SI Unit SV series VQC series The SV series and the VQC series Manifold Valve can be used with the EX500 series SI Unit The number of Solenoid Valve and Relay Output Module can be increased decreased by the block alone A maximum of 8 Double Solenoid Valve and or 2 point Relay Output Module can be connected And a maximum of 16 Single Solenoid Valve and or 1 point Relay Output Module can be connected with each channel 2 System Structure Remote I O DeviceNet PROFIBUS DP Power source 24V DC Communication line Power supply line A Manifold Valve Relay Output Module with the SI Unit B Input Unit Input Block EX500 Serial System EX OME0008 3 Specification and Product numbers 3 1 General specification of EX500 series lea To Specification Standard Insulation resistance 21 orimere 500VDC meg between PE external terminal package 35 to 85 RH without condensation 25 C to 70 C 10Hz to 57Hz 0 35mm constant amplitude Vibration proof 57HZ to 150Hz 5G constant speed 2 hours per each direction of X Y and Z Shock resistan Peak value 15G CETE ee 3 times per each direction of X Y and Z Applicable altitude Less than 1000m above sea EMC Directive 89 336 EEC EN50081 2 1993 EN55011 1998 A1 1999 EN50082 2 1995 EN61000 6 2
12. conjunction with atomic energy railway air navigation vehicles medical eguipment food and beverage recreation eguipment emergency stop circuits press applications or safety eguipment 3 An application which has the possibility of having negative effects on people property or animals reguires special safety analysis Safety instructions for electric eguipment 1 The product specified here is designed to be used in ordinary factory automation eguipment Prevent the use in machinery and or eguipment where human life may be directly injured and malfunction or failure may cause enormous loss 2 Do not use in the explosive atmosphere the atmosphere of flammable gas the corrosive atmosphere In these atmospheres it may cause injury or fire 3 Only The person who has professional knowledge should implement work of the carriage the establishment the piping the wiring the operation the handling the maintenance the check If not it will cause in being shocked the injury the fire and so on 4 Install a direct stop circuit outside that to stop operation immediately and then to shut the power supply 5 Do not disassemble the product for modifications It may injure the person or damage the property 6 Do not wipe this product with any chemical solvent e EX500 Serial System EX OME0008 1 Read this manual thoroughly and operate this product within the range of the specification after observing notes strictly 2
13. corresponds to COM A Word n 1 corresponds to COM B and so on Ex n 1 In case of the input data the sensor signal data of the Input Manifold which was connected with the COM A port occupies Word1 of the I O memory mapping If a sensor signal is stored in the O bit of the Input Manifold it becomes like the Figure below In the same way in the case of the output data the contents displayed in Word1 of the I O memory mapping is output by the COM A port Data 2 byte LSB MSB 817 Branch m n 0 connector MSB 15 Word n COMA Byte m 1 Byte m Word n 1 COM B Byte m 3 Byte m 2 Word n 2 COM C Byte m 5 Byte m 4 Word n 3 COM D Byte m 7 Byte m 6 Read carefully the user manual of PLC which is used as a master The method of PLC setup reading from or writing to memory differ from one PLC manufacturer to another 24 EX500 Serial System EX OME0008 6 How to operate EX500 GPR1 PROFIBUS DP 6 1 Communication wiring A twisted pair cable with shield is used in the Cable specification Impedance 135 ohms to 165 ohms communication wiring of PROFIBUS DP Capavitance between 30 pF m or less A maximum length of cable depend on conductors communication speed Conductor resistance 110 ohms km The specification of cable length is based on Ca
14. ohms or more At 500V DC t s 1500V AC 1min connector part Leak current 1mA or less M12 L Angled connector type When Input Unit Manifold is not required a Terminal Plug should be hooked up with port C1 for SV Valve Manifold or port 0 for VQC Valve Manifold Without this plug the communication LED of GW Unit will not light up How to Order EX500 AC000 S M12 Plug connector Pin assignment 3 6 5 Water Proof Cap Electric specification Rated voltage 36V DC Rated current 1 5A estanca 40m ohms or less connector part At 20mV DC or less 100mA or less kare 1000M ohms or more At 500V DC Witnstang 1000V AC 1min voltage Leak current 1mA or less connector part To accommodate the product s water proof feature a Water Proof Cap is used for an open port in the GW Unit and the Input Block The Cap is supplied with the product when ordered Tighten the Water Proof Cap with the specified tightening torque M8 0 05 N m M12 0 1 N m How to Order EX500 AW Connector specification ES M8 connector socket 10 pcs TP M12 connector plug 1 pc TS M12 connector socket 10 pcs 16 EX500 Serial System EX OME0008 4 How to operate EX500 GAB1 X1 Rockwell Automation Remote I O RIO 4 1 Applicable PLC Applicable PLCs in which Rockwell
15. the cable or put a heavy object on the cable EX500 Serial System EX OME0008 Safety instructions for power supply 1 Whether you use a single power supply or a dual power supply two power lines have to be supplied at all times for solenoid valve and for input and control 2 Choose UL recognized product for direct current power source to be mounted 1 Limited voltage current circuit complying with UL508 The power supply circuit made with the secondary winding of an isolating type transformer which satisfies the following condition Max voltage No load applied 30Vrms 42 4V peak or less and Max current 8A or less Including a short circuit and restricted by the circuit protective device or a fuse with rating in the table below Open circuit volts V peak Amperes Oto 20 V 5 0 100 Over 20 V to 30 V VE V is defined as the peak open circuit voltage 2 Max 30Vrms 42 4V peak or less circuit Class 2 circuit which is supplied by an isolating source that complies with the requirements in the Standard for Class 2 Power Units UL1310 or for Class 2 Transformers UL1585 EX500 Serial System INDEX 1 Outline 2 System Structure 3 Specification and Product numbers 3 1 General specification of EX500 series 3 2 Gateway GW Unit 3 3 Input Unit Manifold 3 3 1 Input Manifold 3 3 2 Input Unit 3 3 3 Input Block 3 4 SI Unit 3 5 Applicable Manifold
16. to section 4 4 2 Check the terminating resistance is correctly set Refer to section 4 4 3 SOL LED lights off Check the power supply for 24VDC Refer to section 9 1 Check the power supply for the solenoid valve is not less than 20V 38 EX500 Serial System DeviceNet communication EX OMEOOO8 NO Item Remedies 1 The status of MS LED Check the signal line from PLC is properly connected Operating in a normal condition Referto section 5 2 Green lights Check Wiring and pin out Recoverable fault Refer to section 3 2 3 6 1 Memory is abnormal Red lights Check communication speed and Address setting switch are correctly set Refer to section 5 4 2 The status of NS LED Check the signal line from PLC is properly connected Not online Lights off Refer to section 5 2 Online Not Allocated Check wiring and pin out Green flashing Refer to section 3 2 3 6 1 Online Allocated Green lights Check communication speed and Address setting switch Connection Time Out are correctly Refer to section 5 4 Red flashing Critical Link Failure Red lights 3 SOL LED lights off Check power supply to make sure that 24VDC is supplied to solenoid valve Refer to section 9 1 Check power supply to solenoid valves is not less than 20VDC PROFIBUS DP communication NO Item Remedies 1 RUN L
17. 2 2 Communication wiring to the SI Unit and the Input Unit 35 10 Dimension 36 10 1 Gateway GW Unit 36 10 2 Input Unit Manifold 36 10 3 Manifold Valve 37 11 Trouble shooting 38 EX500 Serial System EX OME0008 1 Outline A Gateway GW Unit 1 The Gateway GW Unit can be connected with a PLC At present Gateway GW Unit with the following communication protocols are available Remote I O RIO System slaves to Rockwell Automation PLC and SLC series unit DeviceNet PROFIBUS DP 2 The Gateway GW Unit can be connected with Manifold Valve Relay Output Module with the SI Unit and Input Unit Input Block can be controlled in a decentralized fashion It is not necessary to supply power to I O unit individually because power supply line is built in the communication port 3 Transmission delay time problem will not occur because the communication with each branch is running by separate asynchronized transmission form from upper transmission form 4 16 input points per input manifold and 16 output points per output manifold can be controlled in a decentralized fashion per one branch 1CH of GW Unit GW Unit communication ports and in output can control 128 decentralized I O points Maximum number of I O points depends on the communication protocol and the host PLC B Input Output Unit 1 Input Unit Manifold Input Unit Input Block The Input Block can be increased or decreased
18. 2 1 0 E E De A YA A A INIA Gol Ge O PP A Dl Dn Ge DR AA ED Gat io pr EN EEE O E ENS SA E EN FR PE PE a ES E PEA ES a ENE EEES O ER ae pau Gn EE AAA AAA je pr DN ONA ae es PE Ko GA EA DEA DN Kol CE PN oo DA a Go Mat E A ee BEE HENO ie SP RS O PA KSP DNA GAY Kl A A DP PP pe ft DN PO ES DE E DE SE A PS E SR E a 20 NN 0 AGAN PE EA DE PN BA EKA AE PA A A ANN COM B occupied III comc occupied A AA SN com D occupied EN ae DG PEN ee a DI PK NG ee ee A AN AN COM A occupied pot ft ft Co occupied AN AN TA NG EN UR KE TN EN EN NN IR NA COM C occupied A AR AN AN NG DE DARA AAA COM D occupied EX500 Serial System EX OME0008 5 How to operate EX500 GDN1 DeviceNet 5 1 Connection style DeviceNet unit can be connected by T branch Multi branch and Branch line branch Total extension length of trunk and stay is different depending on communication speed and thickness of communication cable EX500 series can be connected only by T branch Terminating resistance Multi branch T branch Main Terminating resistance Node Node Multi branch Node Branch line branch Max 6m Branch line Node Branch line Multi branch Branch line Node Wiring length Communication speed k bit sec 125 250 500 Max len
19. 200mA or less only GW Unit Current Communication power consumption supply for DeviceNet 50mA or less Input Output Maximum 64 inputs Maximum 64 outputs points Input Output 4 branches one branch 16 inputs 16 outputs M12 connector 8 pin socket Pin NO RD 2 RD TD 4 TD 24V DC for solenoid valve OV DC for solenoid valve 24V DC for power source OV DC for power source For GW Unit Branch connector Length of branch cable Less than 5m Less than 10m Max Length ae Communication protocol SMC original protocol Un Communication speed 750 k bit sec DeviceNet PROFIBUS DP 500 k bit sec Remote I O RIO M12 connector 5 pin plug Pin NO OV for solenoid valve 24V DC 10 5 3A Max for solenoid valve OV for power source input and control 24V DC 10 3A Max for power source input and control PE Protective earth Power Supply connector EX500 Serial System EX OME0008 Communication specification for each PLC Applicable PLC Rockwell Automation Remote I O PLC Communication speed 57 6 k bit sec 115 2 k bit sec 230 4 k bit sec Cable distance 57 6 k bit sec 3048 m 10000 feet 1509 Terminating resistor size 115 2 k bit sec 1524 m 5000 feet 150 230 4 k bit sec 762 m 2500 feet 828 M12 connector 4 pin plug Pin NO 1 Line1 Blue Communication connector 2 N C
20. 3 Line2 Clear 4 Shield Shield For GW Unit DeviceNet communication specification EX500 GDN1 tem Specification ____ Vender code 7 SMC corp Device information Product type 12 Communication Adapter Product code 5001 Duplicate MAC ID Check Message Group2 Only Unconnected Explicit Message Explicit Message Poll I O Message I O message size Input 8 byte Output 8 byte Corresponding message Communication speed 125k bit sec 250 k bit sec 500 k bit sec Cable distance Refer to section 5 1 Photo coupler between CAN transceiver main circuit M12 connector 5 pin plug Isolation Communication connector For GW Unit EX500 Serial System EX OME0008 PROFIBUS DP communication specification EX500 GPR1 lea f Specification 0 EIA RS 485 EXE Caniiunicaioneneed 9 6 19 2 93 75 187 5 500 k bit sec p 15 3 6 12Mbit sec Cable distance Refer to section 6 1 Available Synchronous function Available M12 connector 5 pin plug OUT Pin NO 1 N C 2 RxD TxD N DGND 3 N C 4 5 Communication connector RxD TxD N RxD TxD P Shield RxD TxD P For GW Unit Shield 10 EX500 Serial System EX OME0008 3 3 Input Unit Manifold The Input Unit Manifold can have various combinations depending on the number of stations and type of the sensor connector When placing an order the input manifold part number and the input
21. 8 9 2 Communication wiring 9 2 1 Communication wiring to PLC A Remote I O EX500 GAB1 X1 communication wiring Remote I O communication cable can be connected with any of the two M12 4 pin connectors on GW Unit Refer to section 4 2 For pin out of M12 connector refer to section 3 2 Communication system has two connectors on the GW Unit and they are connected together inside the unit therefore either one of them can be use to connecting a PLC with the GW Unit and second one could be used for daisy chaining another GW Unit It is recommended to use SMC specified cable to connect a PLC with GW Unit Refer to section 3 6 1 Rockwell Automation specified Remote I O cable can be used too 1 If more than 1 GW Units are desired in the system connect the units together one by one using a communication cable 2 Set the terminating resistance at the last GW Unit Refer to section 4 4 3 for detail 3 Use the Water Proof Cap on an unused Communication connector Refer to section 3 6 5 Communication between a DeviceNet GW Unit and PLC is accomplished through a M12 5 pin connector Refer to section 5 2 for detail For pin out of this connector refer to section 3 2 It is recommended to use SMC specified Communication Connector Cable Refer to section 3 6 1 for detail 1 Follow the communication cable specification Refer to section 5 1 2 Use a terminal resistor at both ends of main t
22. At 500V DC Withstand voltage 1500V AC 1min connector part Leak current 1mA or less y 4 e 50 40 7 L Lans Terminal NO Cable core sheth color 1 2 A Red V n re Y white CANH 5 1 Y Blue CAN L Socket connector Wiring Pin assignment Cable specification Terminal NO Cable color Signal name Signal AWG24 41 0 08 Are 1 Bare DRAIN Power supply AWG22 19 0 16 al 2 Red V4 ac Drain AWG22 19 0 16 3 Black V Outside d7 4 White CAN H diameter Sheath color Light blue 5 Blue CAN L 14 EX500 Serial System EX OME0008 3 6 2 Branch Cable with M12 Connector How to Order EX500 ACo30 SsPS L Cable length Connector specification 003 0 3m SSPS Socket side Straight Plug side Straight 005 0 5m SAPA Socket side Angled Plug side Angled 010 1m 030 3m 050 5m Electric specification Rated voltage 36V DC Rated current 1 5A Contact resistance 40m ohms or less connector part At 20mV DC or less 100mA or less Insulation resistance 1000M ohms or more At 500V DC Withstand 7 voltage 1000V AC 1min connector part Leak current 1mA or less M12
23. Automation Remote I O RIO system is installed Please contact Rockwell Automation for more details Representative PLC SLC500 PLC 2 20 PLC 2 30 PLC 3 10 PLC 5 11 PLC 5 15 PLC 5 20 PLC 5 25 PLC 5 30 PLC 5 40 PLC 5 40L PLC 5 60 PLC 5 60L PLC 5 80 PLC 5 250 PLC 5 VME PLC 5 V40B 4 2 Parts description Fieldbus connector 1771 Remote 1 0 LED display window Station switch protection cover Power supply connector Communication port A Communication port B Communication port C Communication port D a Fieldbus connector Port for PLC connection b Power supply connector The power source for Input Unit SI Unit and control and for the solenoid valve is connected through this port c Communication port Input Unit Manifold or the Manifold Valve with the SI Unit is connected through this port d LED display window The state of the power source supply and the PLC communication is displayed Refer to section 4 3 e Station switch protection cover Switches for the operation setting are inside Refer to section 4 4 The station switch protection cover should be tightened with specified tightening torque after it is opened Tightening torque 0 6 N m 17 EX500 Serial System EX OME0008 4 3 LED display GATEWAY UNIT EX500 SERIES COM A COMB COM C COMD Display Source ON Lights Source OFF Lights off SOL Solenoid val
24. D 4 TD 24V DC for solenoid valve OV DC for solenoid valve 24V DC for power source OV DC for power source 3 5 Applicable Manifold Valve series a Manifold Applicable cylinder size mm eries ie ee JE eee 40 50 63 80 100 125 SV1000 O O SV2000 O O SV3000 O SV4000 O VQC1000 O VQC2000 O VQC4000 O Refer to the Catalogues or Technical Instruction Manual of SV and VQC series Manifold Valve for more details 13 EX500 Serial System 3 6 Option 3 6 1 Communication Connector Cable EX OME0008 1 Communication Connector for Remote I O RIO EX500 GAB1 X1 How to Order EX500 AC000 AB Applicable cable diameter P6 95 66 Electric specification Rated voltage 125V DC Rated current 3A po 40m ohms or less connector part At 20mV DC or less 100mA or less Here 1000M ohms or more At 500V DC Hore 1500V AC 1min connector part Leak current 1mA or less 2 Communication Connector Cable for DeviceNet EX500 GDN1 How to Order EX500 eae DN L Cable length 010 1m 050 5m 1 M12 Electric specification Rated voltage 125V DC Rated current 3A Contact aa Maa 40m ohms or less connector part At 20mV DC or less 100mA or less klas pon 1000M ohms or more
25. ED Communication connector Sensor connector Indicator LED Marker Input Unit M8 Input Block End Block GW Unit or Manifold Valve with SI Unit is connected here Lights up when power source is ON Flashing LED indicates the presence of a short circuit Power supply must be reset after fixing the short circuit Lights off when power source is OFF c Sensor connector Sensor is connected d Indicator LED Lights up when sensor signal is ON logical 1 Lights off when sensor signal is OFF logical 0 Can be used for identifying input number a Communication connector b Power LED e Marker 7 2 Correspondence of input number and Input Block Each Input Unit Manifold can have up to 8 Input Blocks 16 input points The first Input Block is always next to Input Unit Refer to section 3 3 for pin out of connectors used on Input Unit and Input Block Input Unit 0 2 4 Q 7 OE EO C7 EO CFC OSADO SES EX500 Serial System EX OME0008 7 3 Exploded view Input Unit Manifold Parts list PAKE NAME Parts number Forstandard ForRIO Input Unit EX500 IB1 EX500 IB1 X1 ay mpur Block EX500 IEO EX500 IEO X1 PNP 0 1 NPN 0 2 M8 connector Input Block se see O EFE EX500 IEO EX500 IEO X1 PNP O 3 NPN Q 4 8 point unit Input Block kou a uae i aol E EX500 IEO EX500 IED X1 PNP O 5 NPN O 6 End Bl
26. ED lights off Check the power supply is supplying 24V DC Referto section 9 1 2 BF LED lights Check the signal line from PLC is properly connected Refer to section 6 2 Check wiring and pin out Refer to section 3 2 Check Address setting switch is correctly set Refer to section 6 4 1 Check the terminating resistance is correctly set Refer to section 6 4 2 3 DIALED lights Check the power supply for the solenoid valve is supplying Refer to section 9 1 Check the power supply for the solenoid valve is not less than 20VDC 4 SOL LED lights off Check the power supply for the solenoid valve is supplying Refer to section 9 1 Check the power supply for the solenoid valve is not less than 20VDC This technical instruction manual is the day of March 2001 present one Specifications are subjected to change without any notice Manufacture does not assume any liability arising out of application of any product specified in this manual 39
27. Z SMC NO EX OME0008 n TECHNICAL INSTRUCTION MANUAL For EX500 SERIAL SYSTEM Gateway GW Unit Rockwell Automation Remote I O RIO DeviceNet PROFIBUS DP Input Unit Manifold Input Manifold Input Unit M8 Input Block PNP M8 Input Block NPN M12 Input Block PNP M12 Input Block NPN 8 point unit Input Block PNP M8 8 point unit Input Block NPN M8 SI Unit SV series VQC series NPN output COM VQC series PNP output COM EX500 GAB1 X1 EX500 GDN1 EX500 GPR1 EEX500 181 DO X1 EX500 IB1 X1 EX500 IE1 X1 EX500 IE2 X1 EX500 IE3 X1 EX500 IE4 X1 EX500 IE5 X1 EX500 IE6 X1 EX500 S001 X1 EX500 Q001 X1 EX500 Q101 X1 SMC CORPORATION EX500 Serial System EX OME0008 Safety Instructions Read carefully before handling Thoroughly read this handling manual and related manuals mentioned here to ensure the safety and proper operation of the product These safety instructions are intended to prevent hazardous situations and or eguipment damage These instructions indicate the level of potential hazard by labeling CAUTION or WARNING Level of potential hazard A CAUTION Operator error could result in injury or equipment damage A WARNING Operator error could result in serious injury or loss of life Safety instructio
28. ble diameter 0 64 mm TYPE A cable which has parameters shown below Conductor area 0 34 mm or more Communication speed and Longest wiring length Communication 9 6 19 2 93 75 187 5 500 1 5 12 speed k bit sec k bit sec k bit sec k bit sec k bit sec M bit sec M bit sec Wiring 1200 1000 400 200 100 length m m m m m Terminating resistance l It is necessary to attach terminating RAS resistance to the units located at the Data Line ends of transmission line gt Refer to section 6 4 2 for setting 220 ohms the terminating resistance Data Line RxD TxD N 390 ohms 6 2 Parts description DGND Fieldbus connector PROFIBUS DP LED display window Station switch protection cover Power supply connector Communication port D a Fieldbus connector Port for PLC connection b Power supply connector The power source for Input Unit SI Unit and control and for the solenoid valve is connected through this port c Communication port Input Unit Manifold or the Manifold Valve with the SI Unit is connected through this port d LED display window The state of the power source supply and the PLC communication is displayed Refer to section 6 3 e Station switch protection cover Switches for the operation setting are inside Refer to section 6 4 The station switch protection cover should be tightened with specified tightening torque after it is opened Tighten
29. cted through this port d LED display window The status of power source supply and the PLC communication is displayed here Refer to section 5 3 e Station switch protection cover Rotary switches for the operation setting are inside Refer to section 5 4 The station switch protection cover should be tightened with specified tightening torque after it is opened Tightening torque 0 6 N m 22 EX500 Serial System EX OME0008 5 3 LED display c MS c NS ma soL DeviceNet COMA COMB COM C COM D Display Content Operating in a normal condition Green lights Recoverable fault Memory is abnormal Red lights Not online Lights off Online Not Allocated Green flashing NS Online Allocated Green lights Connection Time Out Red flashing OL Critical Link Failure Red lights Solenoid valve source voltage is normal Lights Voltage lowered to 20V or less Lights off Communication port A is receiving data Lights Communication port A has no data Lights off Communication port B is receiving data Lights Communication port B has no data Lights off Communication port C is receiving data Lights Communication port C has no data Lights off Communication port D is receiving data Lights Communication port D has no data Lights off When the Input Unit Manifold is not connected the respective COM LED of the GW Unit will not light up To monitor the status of COM port it is n
30. ecessary to use a Terminal Plug The COM LED will light up when a Terminal Plug is used Refer to section 3 6 4 5 4 Operation setting Turn the power supply OFF when setting switches Open the station switch protection cover and set the rotary switch with a flat blade screw driver DO OMNO SW1 SW2 SW3 6 5 4 Figure of setting switch 23 EX500 Serial System EX OME0008 5 4 1 Address setting switch SW1 2 These switches set node address The setting is shown in Table 1 5 4 2 Data rate setting switch SW3 This switch set data rate The setting is shown in Table 2 The factory default address and data rate are 63 and 125 k bit sec respectively ROE O SW1 SW2 SW3 SW1 i SW2 NODE ADDRESS SW3 DATA RATE 0 0 0 0 125 k bit sec 0 1 1 1 250 k bit sec 0 i 2 2 2 500 k bit sec 3 6 i 3 63 PGM 6 i 4 9 PGM 9 9 When PGM mode is chosen the address and data rate are set through network Table 1 Table 2 5 5 YO memory map The GW Unit can control 128 input output points in total Regardless of I O points of the equipment it always occupies each data memory area for 64 inputs and 64 outputs Once the address is assigned in the GW Unit every port then corresponds to a specific Word respectively So Word n always
31. gth Thick cable 500m or less 250m or less 100m or less Maa Thin cable 100m or less Total length of branch line 156m or less 78m or less 39m or less Note Max length of a branch line is up to 6m Terminating resistance 121 ohms 1 2W TURCK p n RSM57TR2 Cable specification Item Thick cable Thin cable Signal Power Signal Power Gendyan 0 82mm 1 65mm 0 20mm 0 33mm section area Blue CAN L Red 24VDC i Color Tg NEO ta One Blue White Red Black Impedance 120 ohms 10 120 ohms 10 Propagation delay 1 36ns ft 1 36ns ft Maximum Attenuation 500kHz 0 25dB ft 500kHz 0 500B ft rate 125kHz 0 13dB ft 125kHz 0 29dB ft Maximum 1 00MHz 0 40dB ft 1 00MHz 0 70dB ft Conductor resistance 6 9 ohms 1000ft 3 6 ohms 1000ft 28 ohms 1000ft 17 5 ohms 1000ft Maximum 1ft 0 3048m 21 EX500 Serial System EX OME0008 5 2 Parts description Fieldbus connector DeviceNet LED display window Station switch protection cover Power supply connector yb q OS W EN Communication port A Communication port B Communication port C Communication port D a Fieldbus connector Port for PLC connection b Power supply connector The power source for Input Unit SI Unit and control and for the solenoid valve is connected through this port c Communication port Input Unit Manifold or the Manifold Valve with the SI Unit is conne
32. ight figure Confirm the type of the sensor connector when selecting a sensor Figure of M12 Input Block the top of view 12 EX500 Serial System EX OME0008 SI Unit for SV series Manifold Valve SI Unit for VQC series Manifold Valve How to Order oo How to Order EX500 S001 EX500 Q1j01 GW Unit compatible Output specification Ni i O NPN output COM 1 IPNP output COM X1 SI Unit specification Specification tem EX500 S001 X1 EX500 Q001 X1 Connecting Solenoid valve Single Double l Relay Output Module 1 output 2 output solenoid Valve Single Double Double solenoid valve 8 blocks Max Relay Output Module 2 output Double solenoid valve 8 blocks Max A Single solenoid valve 16 blocks Max connecting block Relay Output Module 1 output Single solenoid valve 16 blocks Max ZV DO 0 65A Max 0 75A Max 100mA or less in case of rated voltage Short circuit Use current limit driver rotection Once the driver circuit is shorted current is limited in order to de energize the load p Once the short circuit is fixed the unit will self recover Connecting with Input Unit M12 connector 8 pin socket Pin NO 1 RD 2 RD 3 N C 4 N C 5 N C 6 N C 7 24V DC for power source Commu icati n 8 OV DC for power source connector Connecting with GW Unit M12 connector 8 pin plug Pin NO RD 2 RD T
33. ing torque 0 6 N m 25 EX500 Serial System EX OME0008 6 3 LED display GATEWAY UNIT EX500 SERIES COMA COMB COM C COM D Display Source ON Lights Source OFF Lights off SOL Solenoid valve source voltage is normal Lights Voltage lowered to 20V or less Lights off PROFIBUS DP communication is normal Lights off BF PROFIBUS DP communication is abnormal Lights DIA DIA is abnormal Lights DIA is normal Lights off COM A Communication port A is receiving data Lights Communication port A has no data Lights off Communication port B is receiving data Lights Communication port B has no data Lights off Communication port C is receiving data Lights Communication port C has no data Lights off Communication port D is receiving data Lights Communication port D has no data Lights off When the Input Unit Manifold is not connected the respective COM LED of the GW Unit will not light up To monitor the status of COM port it is necessary to use a Terminal Plug The COM LED will light up when a Terminal Plug is used Refer to section 3 6 4 6 4 Operation setting Turn the power supply OFF when setting switches Open the station switch protection cover and set the dip switch with a flat blade screw driver 0 Pee 9 1 on JL l 8 2 9 WOKO j eee dg e LA 7 3 SW4 sw3 sw2 Sw4 G 4 5 Figure of setting switch 26
34. it setting Oto 74 OCT octal number 61 types of setting are available wee E swi ONGI E onf Ea Ea EL OFF 0 2 Starting Quarter 2 bit setting Three Heese sering swi No 1 2 3 4 5 6 7 8 First Second Third NN KA LARI Pa L Ga A are available 3216 8 4201 PA lojojlojo RACK Address ambrol First popo Starting Second 0 1 Quarter Third St 0 Fourth dT 4 4 2 Operation setting switch SW2 Data Rate 1 Last RACK 1 bit setting Last RACK Abit 7 Mode 1bit With Last RACK the switch is set as 1 ON 2 Data Rate 2 bit setting sw2 NM Ps E oe an Set data communication rate OFF 0 57 6 k bit sec 00 1 2 3 4 115 2 k bit sec 01 Oik AN Last ete YES Data Rate 57 57 6 k bit sec k bit 57 6 k bit sec 230 4 k bit sec A k bit 230 4 k bit sec Mode Clear ma RE ita 3 Mode 1 bit setting Operation If 0 OFF set output status is cleared and held temporarily when Remote I O RIO has communication error When returned to normal signal the communication will automatically be recovered If 1 ON set operation held temporarily holding the last normal output signal when Remote I O RIO has communication error When returned to normal signal the communication will automaticall
35. memory mapping is output by the COM A port In case of corresponding with Word Data 2 byte Branch m n 0 connector MSB LSB MSB 15 817 Word n COMA Byte m t Byte m Word ntt COMB Byte m 3 Bye mi2 Word n 2 COMC Byte m 5 Byte m 4 Word n 3 COMD Byte m 7 Byte m 6 27 EX500 Serial System In case of corresponding with Double Word EX OME0008 E A Data 4 byte maso conector MSB LSB MSB LSB MSB LSB MSB LSB 7 017 O17 07 0 Double Word COMA iii e a pon a n n 1 COMB Byte m ii Byte m 1 Byte m 2 Byte m 3 Double Word COMC fob d df fib df Laadi Ped bo n 2 n 3 COMD Bytema ae Byte m 6 op j Seen Read carefully the user manual of PLC which is used as a master The method of PLC setup reading from or writing to memory differ from one PLC manufacturer to another 28 EX500 Serial System EX OME0008 7 Input Unit Manifold 7 1 Parts description The Input Unit Manifold is composed of Input Unit EX500 1B1 X1 Input Block EX500 IEO X1 End Block and DIN rail The Input Unit Manifold can have various combinations depending on the number of input and type of the sensor connector Input Block of different sensor specification can not be mixed All blocks should be either PNP type or NPN type Power L
36. ns for pneumatic eguipment 1 The compatibility of pneumatic eguipment is the responsibility of the person who designs the pneumatic system or decides its specifications Since the products specified here are used in various operating conditions their compatibility with the specific pneumatic system must be based on specifications or post analysis and or tests to meet your specific reguirements 2 Only trained personnel should operate pneumatically operated machinery and equipment Compressed air can be dangerous if an operator is unfamiliar with it Assembly handling or repair of pneumatic systems should be performed by trained and experienced operators 3 Do not service machinery eguipment or attempt to remove components until safety is confirmed 1 Inspection and maintenance of machinery eguipment should only be performed after confirmation of safe locked out control positions 2 When eguipment is to be removed confirm the safety process as mentioned above Cut the supply pressure for the eguipment and exhaust all residual compressed air in the system 3 Before machinery eguipment is re started take measures to prevent guick extensions of the cylinder piston rod etc Bleed air into the system gradually to create back pressure 4 Contact SMC if the product is to be used in any of the following conditions 1 Conditions and environments beyond the given specifications or if product is used outdoors 2 Installation on eguipment in
37. ock EX500 EB1 PA L Length pin cai MENON Rho a m Refer to the Valve Catalogues Addition of the Input Block Loose two screws which are holding the End Block and the Input Unit until they rotate freely Add a new Input Block on a desired location on DIN rail Press the whole assembly together to make a good connection between Input Blocks Tight the two screws to secure the assembly on DIN rail connected together Tight the screws with specified tightening torque Tightening torque 0 6 Nem 30 EX500 Serial System EX OME0008 8 Manifold Valve 8 1 Parts description Refer to the Catalogues or Technical Instruction Manual of SV and VQC series Manifold Valve for more details SV series Power LED Communication LED Communication connector C2 SI Unit for SV series Manifold SV1000 series VQC series Communication LED Power LED q Communication connector 0 Communication connector 1 SI Unit for VQC series Manifold VQC1000 series a Communication connector C1 or Of port Input Unit is connected here C2 or 1 port GW Unit is connected here b Power LED Lights up when power source is ON Lights off when power source is OFF c Communication LED Lights up when receiving data from the GW Unit communication ON Lights off when there is no communication from the GW Unit communication OFF 31
38. point unit M8 connector NPN 8 point unit Input Block M8 Input Block specification Specification Current sink type NPN output M8 connector 3 pin socket M12 connector 4 pin socket Pin NO Pin NO 1 power supply 24V DC power supply 24V DC 3 power supply OV input Note 4 input power supply OV Sensor connector 1 input U 4 3 For Input Block For Input Block Input points 2 points 8 points M8 only Rated voltage 24V DC 15 10 26 4V OV to BV OV to 5V TOV to 26 4V SMA Typ SMA Typ 1m sec or less LED green colored light up Nothing 30mA Max sensor M8 20g M12 40g 8 points M8 559 Logical 0 allowable current 1 5mA 1 5mA Note Internal circuit of the M12 Input Block and the position of the key for installing the sensor connector of the M12 Input Block Input 0 n side Input 1 n 1 side Each No 2 pin of each sensor connector of the M12 Input Block is connected to the next No 4 pin which is the sensor signal input pin of the connector Therefore it is possible to incorporate the two input signals of the sensor into one cable just like a Y connection Confirm the specification of the output signal when connecting the sensor It will cause the malfunction Input 1 n 1 The position of the key for installing the sensor connector Input 0 n of the M12 Input Block refers to the r
39. r LED of the Input Unit is flashing There is possibility that the input sensor has a short circuit Check that the sensor is not bad Check the power supply for a possibility that the current in power supply line is above the specification Connecting sensor does not start signal Check the power supply to make sure that 24VDC is supplied Refer to section 9 1 Check whether or not the Indicator LED of each block lights up Refer to section 7 1 COM A D does not light Check whether or not the Input Unit is connected with the branch of the COM port which does not light up Check the Branch Cable with M12 Connector is properly connected with the Input Unit Refer to section 7 1 Check that a Terminal Plug is connected with port C1 or CO if Input Unit Manifold is not connected Refer to section 9 2 2 Remote I O communication NO Item Remedies 1 RUN LED lights off Check the power supply is supplying 24VDC Refer to section 9 1 2 COM LED lights off ERR LED lights Check the signal line from PLC is properly connected Refer to section 4 2 Check wiring and pin out Refer to section 3 2 Check the RACK Address is correctly set Refer to section 4 4 1 Check Starting Quarter is correctly set Refer to section 4 4 1 Check Data Rate is correctly set Refer to section 4 4 2 Check Last RACK is correctly set Refer
40. ruck line to absorb the reflection Refer to section 5 1 C PROFIBUS DP EX500 GPR1 communication wiring Communication between a PROFIBUS DP GW Unit and PLC is accomplished through a M12 5 pin connector Refer to section 6 2 for detail For pin out of this connector refer to section 3 2 Be careful to wire the communication connector for PROFIBUS DP because there are for input and for output 1 Follow the communication cable specification Refer to section 6 1 2 It is necessary to set the terminating resistance to the units located at the ends of transmission line Refer to section 6 4 2 9 2 2 Communication wiring to the SI Unit and the Input Unit GW Unit is connected with SI Unit or the Input Unit through a M12 8pin connector Refer to sections 4 2 5 2 6 2 7 1 8 1 for detail For pin out of this 8pin connector refer to sections 3 2 3 3 2 3 4 Refer to section 3 6 2 for Cable part number to connect a GW Unit with SI Unit or Input Unit If Input Unit Manifold is not connected with the SI Unit a Terminal Plug should be hooked up with port C1 for SV series valve manifold or port 0 for VQC series valve manifold Without this plug COM LED on the GW Unit will not light up Refer to section 3 6 4 35 EX500 Serial System EX OME0008 10 Dimension 10 1 Gateway GW Unit 136 10 2 Input Unit Manifold In case of M8 Input Block 47 Pitch
41. ve source voltage is normal Lights Voltage lowered to 20V or less Lights off RIO communication is normal Lights RIO communication is abnormal Lights off RIO communication is abnormal Lights RIO communication is normal Lights off COM A Communication port A is receiving data Lights Communication port A has no data Lights off Communication port B is receiving data Lights Communication port B has no data Lights off Communication port C is receiving data Lights Communication port C has no data Lights off Communication port D is receiving data Lights Communication port D has no data Lights off When the Input Unit Manifold is not connected the respective COM LED of the GW Unit will not light up To monitor the status of COM port it is necessary to use a Terminal Plug The COM LED will light up when a Terminal Plug is used Refer to section 3 6 4 4 4 Operation setting Turn the power supply OFF when setting switches Open the station switch protection cover and set the dip switch with a flat blade screw driver ARBBGEEE 8388 O 2 3 4 es 12 3 4 5 6 7 8 SW1 SW2 SW3 18 EX500 Serial System EX OME0008 4 4 1 Operation setting switch SW1 This switch sets RACK Address Starting Quarter RACK Address ebing Starting darter ADIE EX 111100b 740 bi 1 RACK Address 6 b
42. y be recovered 19 EX500 Serial System 4 4 3 Terminating resistance setting switch SW3 Set termination resistance M1502 822 Noresistance Data Rate 57 6 kbit sec 150 Y CD Q 115 2 kbit sec 150 oj o o jo oo 230 4 k bit sec 82Q State of SW3 4 5 Layout of scanner I O EX OME0008 I O mapping image at the Gateway GW Unit communication port is shown in examples 1 and 2 In this product regardless of the quantity of the I O equipment continuous 4 Groups are automatically occupied 1 2 RACK occupation Each communication port occupies all of 16 points in corresponding Group Ex 1 RACK Address 0 Starting Quarter First Bit Number decimal RIO LOGICAL RACKO RIO LOGICAL RACK1 RACKO Group0 RACKO Group1 RACKO Group2 RACKO Group3 RACKO Group4 RACKO Group5 RACKO Group6 RACKO Group7 RACK1 Group0 RACK1 Group1 RACK1 Group2 RACK1 Group3 RACK1 Group4 RACK1 Group5 RACK1 Group6 RACK1 Group7 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 NA e ee DI DA E COM A occupied Ex 2 RACK Address 1 Starting Quarter Third Bit Number decimal RIO LOGICAL RACKO RIO LOGICAL RACK1 RACKO Group0 RACKO Group1 RACKO Group2 RACKO Group3 RACKO Group4 RACKO Group5 RACKO Group6 RACKO Group7 RACK1 Group0 RACK1 Group1 RACK1 Group2 RACK1 Group3 RACK1 Group4 RACK1 Group5 RACK1 Group6 RACK1 Group7 15 14 13 12 11 10 9 8 7 6 5 4 3
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