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Fujitronic UG520H-x User's Manual

1. B E Cc Press the I O Test switch D VO Test mi a Main Menu sys Fa o i E Printer Check Switch Check pra o A cn FS we Sell Loop Test Please refer to the manual Hardware Specifications HEZE Communication Port rs i cts RTS EA EMI HB H rs IEO Selt Loop Test z ez In case of UG221 and UG220 when the switch A on the Main Menu is pressed the following I O Test is displayed Then the Serial Test switch on the I O Test is pressed The following Serial Test is displayed The self loop test can be executed on this screen Press the I O Test switch Press the Serial Test switch 7 Please refer to the manual Hardware Specifications Communication Port Printer Check Self Loop Test 17 Operation of POD Main Menu 1 45 A Self loop Test This is the test menu
2. fe System program version all UG220 Main Menu UG22 FSC 12 24 30 PROG VER 0 591 EITT b Font data version a a VER 1 000 1 010 1 000 Memory ANESE 32 boars O e c PLC I F driver PLG gt eri ia O MTSUBISHI AnA N U series ersion an PLC type and a comment specified Editor Mat by the panel editor Setting of modular jack sen A In case of UG221 and UG220 when the Communication Parameter switch on the Main Menu is pressed the following Comm Param is displayed 12 24 30 Tote Memory Card Communicatipa Comm Param Main Menu Screen Data Size 786432 lulti Link Network i i Error Stop A wn guano 13 Time out 0 50 sec y i Retry 3 Connection Multi Link N Signal Level PLC Stat No Baud Rate Data Length Stop Bit Press the Communication Parameter switch Parity Send Delay Multi link setting This menu is displayed only in case of selecting 1 1 in Connection of Comm Parameter Editor MJ1 POWER Pos 4 1 1 44 17 Operation of POD Main Menu 1 O Test When the switch a on the Main Menu is pressed the following I O Test is displayed This is the test menu to check only POD hardware
3. ias i l ll PLC1 PLC2 PLC3 O Available PLC for multi link communication Manufacturer Models FUJI MICREX F series FLEX PC series FLEX PC COM MITSUBISHI AnA N U series QnA series QnH Q series A Link Net10 FX series A prt OMRON SYSMAC C CV CQM1 CS1 DNA SHARP JW series JW100 70H COM Port JW20 30 COM Port HITACHI HIDIC H MATSUSHITA MEWNET YOKOGAWA FA500 FA M3 FA M3R YASKAWA Memobus CP9200SH MP900 TOYOPUC TOYOPUC Koyo SU SG SR T Allen Bradley PLC 5 SLC500 Micro Logix 1000 GE Fanuc 90 series TOSHIBA T series SIEMENS S7 200 PPI SHINKO SELMART SAMSUNG SPC series N_plus SECNET KEYENCE KZ series KV series LG MASTER K500 K1000 MASTER K xxxS CNET FATEK FACON FB series IDEC MICRO3 MODICON Modbus RTU TAIAN TP02 Universal Serial 1 38 15 Connection O Multi drop Communication RS 485 Refer to the PLC manual of each manufacturer for connection lt E g gt The following example describes how one POD is connected to three PLCs made by MITSUBISHI See MITSUBISHI s manual for further details POD CN1 Link unit Link unit Link unit Signal Pin No FG 1 SD 12 SD 13 RD 24 RD 25 SG 7 SD RD terminal resistance ON Use twist shielded cable n 1 Link Communication Multi link 2 o Upto 4 units can be connected to one PLC Between
4. Exsample Exsample S5 UG400 S5 S7 F0000217 F0000207 F0000207 F0000217 a Rea F0000210 F0000200 Memey es F0000200 F0000210 O Ol OT Ux r y YY Y Y YY Y rwao i5 1418 12 11110 9 8 7 6 5 4 3 2 1 0 Fweo t5ftafiali2 ifio 9 817 6 5 4 3 2 1 0 Memories to be accessed Memories to PLC by UG400 or UG200 F20 0 lt F21 0 lt to be accessed F20 0 lt P21 0 lt L gt F20 7 L gt 21 7 to PLC by UGx20 L F997 L gt F217 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC FG 1 SaaS SE e Ta D sub 25pin Male m ae rN SD 2 TXD 2 RD 3 RXD 3 RS 4 GND 7 cs 5 SG 7 Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC D sub 9pin Female RXD 2 TXD 3 GND 5 Use twist shielded cables RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 4 TS NE PLC FG 1 Fan rN D sub 15pin Male m SG E SD 4 SD E RD 9 RD N u Use twist shielded cables END ss csiumens pics A SIEMENS PLC 3 S5 PG Port Connection Connect to the S5 series PG port The communication parameter setting of POD is done automatically Available PLC Select PLC Type Link
5. ONTO aT wo CD POD CN1 D sub 25pin Male 1 CP217IF CN2 FG 1 erect A D sub 25pin Male m l 1 1 1 sD 2 de sD 2 RD 3 a a RD 3 AS 4 po i AS 4 f 1 cs 5 i ics 5 1 F 1 sa 7 A DSR 6 ro fo SG 7 Use twist shielded cables CD 8 RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 4 CP217IF CN3 FG 1 p 46 7H MR 8 Male 4 y ns SD 12 ES L RX 1 ioi SD 13 1 RX 2 1 1 l gt SE I RD 25 E Sj TX 7 Use twist shielded cables Wiring Diagram 4 POD CN1 2171F CN3 D sub 25pin Male 4 MR 8 Male m FG RX 1 SG RX 2 SD RXR 4 SD TRX 5 RD TX 6 RD TX 7 SG 8 Use twist shielded cables 24 TOYOPUC PLC 2 67 4 TOYOPUC PLC Available PLC Select PLC Type Link Unit Wiring Diagram L2 PC2 Series PC3J TOYOPUC CMP LINK RS 422 Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps Pot o Set the Trans Mode for Detail in the Comm Parameter PC3J Select Single Data Area or Split Data Area L2 PC2 series Select Single Data Area Trans Mode Contents Single Data Area Data area is common Split Data
6. CPU port AE IT I Ol Sey ANI gt Computer PC UG20 series MITSUBISHI QnH FX series y Communications between the comuputer and the PLC ama r Communications between the POD and the PLC gt When using the UGOOS CW editor and the PLC programming software When using two UGOOC T cables When the computer has two COM ports use one port for the UGOOS CW editor and the other port for the PLC programming software Use the UGOOC T cables It is not possible to transfer the UG00S CW editor and the PLC programming software at the same time rere y Communications between the PLC programming 4 gt software and the PLC l Communications between the UGO0S CW and POD lt gt i Communications between POD and the PLC 4 1 1 communication cable UGO0C T REN MJ1 al CPU port 5 IN eo com Computer PC comz UGOOC T UG20 series MITSUBISHI QnH FX series When using one UGOOC T cable When using the UGOOS CW editor and the PLC programming software it is not possible to use one COM port for both purposes at the same time Stop using both software for communications 1 1 communication cable UGO0C T Spey Loot m
7. OFront View O Side View 165 90000000 175 230 Panel Cut out of UG320 Unit mm 220 5 10 165 5 0 16 5 Dimensions and Panel Cut out Dimensions of UG420 Unit mm OTop View ORear View A A e OFront View 310 Panel Cut out of UG420 Unit mm 216 2 5 Dimensions and Panel Cut out 1 17 Dimensions of UG520 Unit mm OTop View ORear View OF ront View 334 Panel Cut out of UG520 Unit mm Sie 0 5 0 246 2 1 18 6 Mounting Procedure 6 Mounting Procedure Mounting Procedure Cut out the mounting panel Max thick 3 2 mm to match the dimensions shown below Mounting panel Unit mm 1747 205 Cut out UG220 a UG221 2 E 8 2 289 2 313 O 0 7 Oo ol 30 do 9 UG420 3 UG520 S Insert the fixtures attached to UGx20 into the mounting holes on UGx20 Tighten them with the locking screws Number of the fixtures all series 4 pcs Fixture AS ey Mounting panel SH Dimensions of Fixtures Unit mm Mounting hole o Mounting hole for UG220 320 78 for UG221 420 520 torque UG320 UG221 UG220 0 3 to 0 5 N e m UG520 UG420 0 5 to 0 7 N e m 3 The waterproof packing mounted on the UG221 main unit shall come in close contact with the mounting panel so that it is surely caugh
8. Connection 1 1 Baud Rate 19200 Signal Level RS 232C Data Length 7 PLC Stat No 0 Stop Bit 1 Parit ER Send Delay Omsec Cassette Adjust Memory Card VO Test Press the Cassette Adjust switch This switch is available for FONT VER 1 100 1 090 1 000 or newer 2 With the Cassette Adjust switch display the Cassette Adjust screen 3 Press the Format switch and then the Execute switch Then the cassette is formatted the same as the currently displayed screen data and you return to the Main Menu screen ge Cassette Adjustment 2000 6 26 14 38 51 Main Menu Date Time Date and Time Adjustment 2000 WJ Ba B Bn O Format of SRAM Cassette Formats SRAM cassette in the present screen data type N 17 Operation of POD Main Menu CED e Function Switches Type SYSTEM F1 F2 F3 F4 F5 F6 F7 UG221 UG220 SYSTEM F1 F5 the SYSTEM switch By pressing this switch the functions of the switches F1 F7 are defined The type of the SYSTEM switch is alternate When this switch is pressed once the switch menu is displayed by the side of the function switches F1 F5
9. The dimensions are the same for all UGO3I x The dimensions are the same for all UGO2I x 5 Connecting Communication Interface EDO External Dimensions of the I F Unit on the POD e UG520 O UG420 288 J l Funt A gt d s q q 5 sie 110 T 126 Q E o El o 66 6 6 6 A le 334 x ae e UG320 e UG221 220 MEAR i 1 F unit g III IT iE d 000000000 000000000000 Lhe pooo 85 85 t a S fr 3 Q 2 e i o E e i 2 y gt lig o e o K 4 N m 250 182 5 UG220 0000000000 00000000000 138 8 182 5 3 14 5 Connecting Communication Interface Mounting the I F unit UGO3I x Remove the seal for preventing dust attached on the back of the POD as shown in the figure on the right Mount the I F unit then secure it using the 3 screws Route the communication cable For details regarding how to lay and connect the communication cable refer to the corresponding user s manual O For the UG320 UG221 set the spacer contain
10. BENZINE 7 Never remove any printed circuit board from POD This will harm the unit 8 Never operate the display by using a tool with a sharp point like a screwdriver Touch the display by fingers ED 3 System Composition 3 System Composition System Composition Model Indication Peripheral Equipment System Composition The following illustration shows possible system configurations using UG20 Panel Editor E i for UG series i During operation Transferring Link communication screen data z RS 232C RS 422 Creating screens UGOOC T yy e gt lt gt ye E UGO3I x UGOOS CW Link Unit Personal Computer PC UGx20 During operation CTLINKORCN 1 SxBus Profibus Einernel Transferring screen data Transferring UGOOC T screen data During operation or Memory manager Data logging Universal serial communication RS 232C RS 422 Exclusive Cable SS Card R d Printer Cable ar ecoraer UGOOP MR 1 UG00C C Universal purpose 2 computer Video CCD camera Cable UG00C B Bar Code Reader Printer 1 UGOOP MR is optional 2 The interface for video function using only in UG520 and UG420 is optional for Maker 3 System Composition E List of Models The characters on the right of model names represent optional features and special spec
11. 3 18 6 Connecting the Dual Port Interface E How to use the UGOOP DI transfer utility 1 Start U2Dl exe xl Double click the U2DI exe icon and the UGOOP DI a a transfer utility dialog box will be displayed O gt fam z UGOOP DI Information 2 Select a port O gt tomen Refer to Select in box a port to be used c F O ap O ee File Path 3 UGOOP DI information E PROGRAM FILES POD UG20EDITORSTpardppra di Click the UGOOP DI information button to confirm the program version and connectable model of UGOOP DI See the xj figure at right Program Version 1 0 6 0 4 Select a program to be transferred Tos te be conecta A The path to the UGOOP DI program file that is to be transferred is displayed in text box As default the folder in which UGOOS CW is installed as explained above Tpa folder dpprg DI is displayed in this example To select other program file for transfer click the Reference button Then the Select program file dialog box is displayed In this dialog set the program that you want to transfer 5 Transfer the program file Turn on again the power switch of the PLC and click the Transfer button and the program will begin to be transferred When no program is selected for transfer the Select program file dialog box is displayed In this dialog select a program that you want to transfer Comments related to communication condition are di
12. EE B Bl 18 The test is OK when the F 4 lamp is lit Pressing this Main Menu switch leads to the previous Main Menu Press the Main Menu switch The Main Menu is displayed Main Menu UG420H TC1M1 1998 9 1 7 23 30 Information SYSTEM PROG VER 1 0001 VE DRV VER 1 000 VER 1 900 1 000 1 0001 MELSEC AMANU JAPANESE 32 Scan PLC Type MITSUBISHIANANL series Comment Sze CED 17 Operation of POD Main Menu Memory Card When the Memory Card switch on the Main Menu is pressed the following Memory Card is displayed This screen is to transfer the screen data between POD and a memory card The Memory Card screen is displayed Press the Memory Card oi SM Memory Card Main Menu Port Selection Modular Jack Memory Card MJi Socket Transfer Memory Card of UG220 UG221 Display lt Card Display gt Card isplay lt gt Car Start Memory Gard Main Menu Data Selection Port Selection Transfer Modular Jack MJt Display lt Card Screen Data Font Data Data Selection Display gt Card creen Data A
13. 1785 KE RS 232C Wiring Diagram 1 PLC PL irina Di es ce 1770 KF2 RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Item Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps pa A O ME o Transmission RS 2820 ir Control Mode r5 492 Not available with 1785 KE _ Transmission Datatenth 8 sas PMA a 2 76 26 Allen Bradley PLC 1 Available Memory N integer B bit T ACC timer current value T PRE timer set value C ACC counter current value C PRE counter set value R LEN control data length R POS control data position D BCD A ASC U Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Switch Setting o 1785 KE SW1 protocol No Setting Contents OFF BCC Even no OFF Duplicate message unacceptable OFF Handshaking signal ignored ON Diagnosis execution OJJA N SW2 port Specify the port for 1785 KE This port should not be duplicated in the network Contents 1st digit octal 2nd digit octal 3rd digit octal 26 Allen Bradley PLC 1 2 77 SW3 network link transmission speed Adjust the setting according to the network you are using
14. Body type Backlight Replacement Life of backlight unit type procedure UG520H V TFT color UG520P BFA 3 20 50 000 UG420H V TFT color 800 x 600 dots UG420P BVA 3 34 50 000 UG420H T TFT color 640 x 480 dots UG420P BFA 3 34 50 000 UG420H S STN color UG420P BC 3 40 25 000 UG320H S STN color UG320P BC 3 45 40 000 UG320HD S STN color UG220H S STN color UG220P BCA 3 52 40 000 UG220H L Monochrome UG220P BLA 3 52 40 000 UG221H All Types Can not be replace 50 000 Figures for the life of backlight shows the time till the surface luminance becomes 50 the initial value at the ambient temperature of 25 C A Warning Turn off the power before replacement You may get an electric shock or the body or backlight unit may malfunction or become faulty The liquid of the LCD liquid crystal is toxic If the LCD panel is damaged and the liquid flows out of the panel make certain that no liquid enters your mouth If the liquid contacts your skin or clothes wash it off using soap or detergent Do not remove any parts other than those indicated in the manual Otherwise the body or unit may become faulty A Caution O Replace the unit in an environment free from dust foreign matter or static electricity Otherwise the body or unit may malfunction or become faulty Lightly wipe dust or liquids off the surface of the body or unit using a soft cloth Do not push the front of the display unit
15. Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 10 4 FUJI PLC 4 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC Use twist shielded cables RS 485 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 Use twist shielded cables 4 FUJI PLC 5 CD 5 FUJI PLC 5 FLEX PC CPU port Available PLC Select PLC Type Wiring Diagram 41 7 FLEX PC FLEX PC Loader Port RS 422 UG200C N CPU NJ B16 RS 232C Port RS 232C Wiring Diagram 1 1 When FLEX PC CPU TOYOTA version is used select FLEX PC CPU T in PLC Type When the CPU is updated or the specifications are changed there is some possibility that POD cannot be connected to the PLC Communication Setting Connect to the CPU port The communication parameter setting of POD is done automatically When you use the RS 232C port of NJ CPU B16 be sure to set above items using the Comm Parameter dialog on the PLC side Available Memory WM as word device WL WK as word device WX as word device WY as word device N timer current value TN x ON F T T WS step relay The current values of the timer and counter are indicated with TN CN for purposes of convenience in the table above The actual value is T C Set t
16. lt E g gt F1 00002 t Address Colon File No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 15pin Male M Use twist shielded cables RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 PLC D sub 15pin Male M Use twist shielded cables 2 47 GED nmr HITACHI PLC 1 HIDIC H series Available PLC Select PLC Type PLC Link Unit Wiring Diagram RS 232C Wiring Diagram 1 Sd RS 422 Wiring Diagram 2 PERIPHERAL port cn on a CPU module RS 232C Wiring Diagram 1 HIDIC H HIDIC H series CPU EH150 1 EH RS05 cable made by HITACHI RS 232C Wiring Diagram 1 H 252C on a CPU module PERIPHERAL 1 RS 232C Wiring Diagram 1 PERIPHERAL 2 2 CNCOM 05 cable made by HITACHI RS 232C Wiring Diagram 1 1 When using EH RS05 cable made by HITACHI connect the cable of Wiring Diagram 1 to the D sub 15 pins side of EH RS05 to communicate with POD 2 When using CNCOM 05 cable made by HITACHI connect the cable of Wiring Diagram 1 to the D sub 15 pins side of ENCOM 05 to communicate with POD Communication Setting The recommended communication parameter setting of both PLC and POD is as foll
17. Select PLC Type PLC PORT Wiring Diagram TP02 TPo2 Communication Port T R T R RS 422 Wiring Diagram 1 MMI Port 9pin 4 5 Short Computer Link Mode RS 422 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps 1 1 None None Transmission Data Length 7 7 Available Memory a NIN IN rra A SY Pwo seman a We feonsantegsieg fs Sd OS EIA ewen e o K ION E 02000 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 49 TAIAN PLC CED Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 422 Wiring Diagram 1 POD CN1 D sub 25pin Male m Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC D sub 9pin Male 4 Use twist shielded cables CEE 50 sun rie san PLC Available PLC Select PLC Type PLC Communication module Wiring Diagram PGU port RS 232C Wiring Diagram 1 PCD PCD1 PCD7 F120 RS 232C Wiring Diagram 2 PCD4 F110 RS 485 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps C pers ai CM A Transmission Datale
18. Attention shall be paid to noise problems when wiring the devices Note that there are the following restrictions when connecting between UGOOP DI and QnA series CPU port 1 Concerning communication time out select one of the following two methods e Set Continue for Communication error treatment in the Detail menu under Comm Parameter under System Setting e Set such that Time out time x Retry count becomes 20 seconds or more 2 Running write operation If the required time is 20 seconds or more when running write operation is instructed from the GPP side the UGOOP DI cannot be used In such case perform the writing after stopping the PLC The number of steps of the program that permits running write operation within 20 seconds differs with the content of said program The following calculation provides a guideline Time Number of steps 60 x Scan time ms This calculation provides only a guideline This method is not applicable when constant scan is performed 3 If the power is turned on with the console connected to the UGOOP DI communication time out error occurs on the console before the initialization of UGOOP DI is completed In such case disconnect once the cable from the console and then reconnect it or reset the console and the console will be restored to normal condition The UGOOP DI starts normal operation 15 seconds after the power is turned on When connecting the UGOOP DI to A or FX series CPU set
19. Notes on RGB input O When there is no RGB input when the cable is not connected the mode cannot be changed over to RGB display mode O When bit 12 of read area n 1 is set to 1 the mode is changed over to RGB display mode the moment RGB input is restored the moment the cable is connected 17 Operation of POD Main Menu 1 57 Setting for SRAM cassette When the optional SRAM cassette UGOOP SR UG221P SR is installed in the POD main unit it is possible to adjust the internal calendar of the SRAM cassette or to format the SRAM cassette O Adjusting the internal calendar of SRAM cassette Main Menu 1 Activate the Main Menu screen Press the Cassette Adjust switch a Y This switch is displayed when the SRAM cassette is installed for FONT VER 1 100 mas par Jr 1 090 1 000 or newer SYSTEM PROG VER 1 150 VER 1 100 1 090 1 000 MELSEC AnA N U JAPANESE 32 Screen Data Information PLC Type MITSUBISHIANA N U series Error Stop Time Out 0 50 sec Size 2883584 LCOMment Retry 3 Connection 1 1 Baud Rate 19200 Signal Level RS 232C Data Length 7 PLC Stat No 0 Stop Bit 1 Parity Even Send Delay Omsec Cassette Adjust Editor MJ1 Memory Card VO Test 2 The Cassette Adjust screen i
20. Unit No 1 SM special relay 17 only in Q mode SB special link relay only in Q mode SW special link register only in Q mode ZR 2 only in Q mode file register continuous access x1 The unit number is required in addition to the memory type and the address Convert a byte address into a word address to enter the data if the memory device of link unit is byte address Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 connection of the UGOOC Q POD CN1 D sub 25pin Male 4 PLC FG Minimum DIN 6pin Male fa TXD RXD 1 RXD TXD 2 RTS DTR 5 SG SG 3 Use twist shielded cables GED iomitsusisui pic 4 MITSUBISHI PLC 4 FX FX2N FX1S series CPU Connection Connect to the FX series CPU port The communication parameter setting of POD is done automatically Available PLC Select PLC Sape Wiring Diagram RS 232C UGO0C X made by Fuji Electric FX1 2 RS 422 UG200C M made by Fuji Electric FX series CPU or Wiring Diagram 1 ron oo por tool ron oo por RS 422 UGOOC E made by Fuji Electric FX1N 2N Wiring Di 2 FX2N series CPU tool port iring Diagram 2 FX2NC tool port UG200C M made by Fuji Electric
21. Also used to connect a temperature controller to the POD via RS 232C UGOOC H Multi link 2 temperature controller connecting cable 3 m Used to connect between POD master and POD slave for Multi link 2 connection Also used to connect a temperature controller to the POD via RS 485 POD slave station in the Multi Link 2 connection UGxxP Bx UG220P 320P 420P 520P Bx Backlight for Replacement Placement backlight parts for UGx20 series 4 Names of Components CED 4 Namesof Components Front Side of UG220 Rear Side of UG220 000090 9000900 Mounting holes for fixtures Dip switches Display MJ1 2 for data transfer for temperature Function keys Refer to P1 59 controller for bar code reader for UGOOP MR Power lamp and for UGOOP U2 option DC power supply for UGOOP D4 option CN1 for PLC RS 232C RS 422 4 for UGO3I S J T C E P option CN2 for printer 1 12 4 Names of Components Front Side of UG420 SSS ESSE Front Side of UG520 X SS EAS LIES SS os Mounting holes for fixtures Display Function keys Refer to P1 59 Power lamp AC power supply DC power supply 6 CN1 for PLC RS 232C RS 422 CN2 for printer Dip switches OOOO Rear Side of UG420 E 7 CII 6 Mo EE RS
22. Applicable PLC Select PLC Type CPU Ladder comm prg I F DRV QnH Q series CPU Q02 H Q06H MelQHCpQ Icm MelQHCpQ tpb 1 240 QnH Q series link Q00 Q01 MelQnA Icm MelQnA tpb 1 300 FX series CPU FX1 2 FXON FX2N series CPU FX2N 1N FX2NC MelFx Icm MelFx tpb 1 300 FX1S series CPU FX1S Applicable Types UG221 UG320 UG420 UG520 UG420H E This function cannot be supported with 1 n communication multi drop multi link and multi link2 communication The following types are unavailable for this function UG220 UG320HD Version and Main Menu Screen Available versions are as follows The information can be shown on the Main Menu screen ee ITEM Version SYSTEM PROG VER 1 280 or later UG420H TC1 1998 9 1 07 23 30 0 ma FONT VER 1 210 1 130 1 000 or later 0 E C e ce x Extension Program Info Main Menu PS QM Ladder Cc Pr dl VER 1 000 MELSEC AnH Q Pressing the Extension switch brings to the Extension Program Info screen Appendix 2 Connection e Use each 1 1 communication cable when connecting the POD CN1 to the PLC CPU port e Use FUJI Electrics UGOOC T cable when connecting the computer PLC programming software and the POD MJ1 2 1 1 communication cable
23. D sub 25pin Male m PLC Wiring Diagram 4 POD CN1 D sub 25pin Male 4 PLC Use twist shielded cables 2 74 25 Koyo PLC Wiring Diagram 5 Wiring Diagram 6 Wiring Diagram 7 Wiring Diagram 8 POD CN1 D sub 25pin Male 4 FG 1 SG SD SD RD RD POD CN1 D sub 25pin Male 4 FG 1 SG SD SD RD RD POD CN1 D sub 25pin Male m FG 1 Use twist shielded cables 1 High density D sub 15pin SG 7 si PLC D sub 15pin Male M SD SD RD RD POD CN1 D sub 25pin Male 4 FG 1 SG Use twist shielded cables RXD 6 ov 7 TXD 9 TXD 10 RTS 11 RTS 12 RXD 13 CTS 14 CTS 15 PLC D sub 25pin Male 4 SG 7 RXD 9 RXD 10 CTS1 11 TXD1 14 TXD1 16 RTS1 18 RTS1 19 CTS1 23 PLC D sub 25pin Male 4 SD SD RD RD SG 7 TXD3 12 TXD3 13 24 Use twist shielded cables In case SU 6M it is possible to use terminal blocks 26 Allen Bradley PLC 1 2 75 b Allen Bradley PLC 1 PLC 5 series Available PLC Select PLC Type Link Unit Wiring Diagram
24. FX 20P CADP made by MITSUBISHI FX1S series CPU FX1S tool port About the ladder transfer function refer to Appendix When the CPU is updated or the specifications are changed there is some possibility that POD cannot be connected to the PLC 10 MITSUBISHI PLC 4 y Available Memory O FX1 2 FXON FX1S series CPU D data register TN timer current value CN counter current value 32CN counter 32bits internal relay state input relay output relay timer contact counter contact Data register 1 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits 2 When use D1000 to 2999 select DX O FX2N FX1N series D data register TN timer current value CN counter current value 32CN counter 32bits internal relay state input relay output relay timer contact CS counter contact 1 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits Set the memory to the extent of the memory rang
25. SDB 2 vol 1 RD 25 7 T SDA 1 Use twist shielded cables Wiring Diagram 6 POD CN1 D sub 25pin Male 4 PLC FG 1 er ea ye a ee TA D sub 9pin Male M pi my sq 7 sa 9 I 1 i 1 SD 12 a mm RDB 8 1 1 1 1 SD 13 7 i RDA 6 RD 24 E a spB 2 ioi tod RD 25 HH gt i SDA 1 1 I 1 l NCE ae RS 4 Use twist shielded cables CS 5 Wiring Diagram 7 POD CN1 D sub 25pin Male 44 PLC FG i RSS es 7 batt aera e D sub 9pin Male 4 Poy LY SD 12 z e 7 A RDB 8 I I RDA 6 I ee 1 RD 24 a SDB 2 I RD 25 4 m SDA 1 Use twist shielded cables 13 OMRON PLC 1 12 41 EMBA 4s omnoneic 2 4 OMRON PLC 2 OMRON CS1 DNA When connect the POD to CS1 on a network the POD can also access the other CS1 on a network Available PLC Select PLC Type ro Link Unit wiring Diagram Diagram CPU unit with a built in RS 232C Wiring Di 2 RS 232C port host link port PS 2920 Wiring Diagram 2 SYSMAC CS1 DNA CS1 CS1W SCU21 RS 232C Wiring Diagram 2 Communication board RS 232C Wiring Diagram 2 CS1W SCB41 RS 422 Wiring Diagram 7 1 Cannot be connected to POD by multi link connection Available Memory See Available Memory of CS1 in 13 OMRON PLC 1 Wiring See Wiring in 13 OMRON PLC 1 UGOOS CW Setting Select System Setting from Item and click Comm Parameter The Com
26. Then follow the directions displayed on the screen to install the touch panel driver Then Welcome Select destination to install Install Hardware setting See item 2 of the notes described later Installation end Install Clicking the OK button here automatically restart the personal computer Atthe same time the POD comes in RUN mode Then change screen over to the RGB Input screen to start Windows 8 When Windows is started the calibration software is automatically activated Set items for calibration see item 3 of the notes described later This completes the installation of the touch panel driver 9 When it is necessary to reset the Touch Panel Driver PN WIN98 95 select menus as follows Start gt Programs gt Gunze gt PN WIN98_95 Serial gt Touch panel driver Changes in the setting will take effect when the personal computer is started the next time Notes 1 It is impossible to change over to the Main Menu screen from the Windows screen displayed on the POD 2 The Hardware setting dialog box is prepared for installing the touch panel driver For COM Port in this dialog box select the COM port of the personal computer that is to be connected to the MJ port for touch switch of the POD For Address and IRQ set the address and IRQ of the selected COM port When you do not know which COM port of the personal computer to connect to the MJ port for touch switch of
27. UGOOP MR UGOOP TC 1 Prepare for UGx20 with card interface or UGx20 and UGOOP MR card recorder 2 UGOOP U1 Rear side installation I O unit UGOOP U2 Panel side installation I O unit 3 UGO3I T UGO2I T T LINK UGO3I J UGO2I J OPCN 1 UGO3I S UGO2I S SX BUS UGO3I C CC LINK UGO3I E 2 Ethernet or FL net UGO3I P PROFIBUS Q ta gt gt oo T 2 a O Memory Card OA SRAM card or FPROM card can be used for the memory card The following table shows the difference between the SRAM card and FPROM card SRAM FROM Supports the functions of POD memory manager and Supports transmission of screen data data logging and transmission of screen data Data is partially readable and writable at any time Data is written and read all together Data cannot be written or read partially Contains a battery Replace the battery when it runs No battery replacement is required out The FROM card cannot support any functions of memory manager and data logging The following memory cards supplied from Fuji Electric Co Ltd are recommended OSRAM UGO0K S25K 256K UGOOK S02M 2M UGO0K S51K 512K UGOOK S04M 4M UGOOK SO1M 1M OFROM UGOOK F25K 256k UGOOK F01M 1M UGO0K F51K 512K UGOOK F02M 2M ED 3 System Composition Model Indication UG221 UG220 Display area 115 2 X 86 4 mm A 5 7 inch display UG320 Display area 157 4 X 118 1 mm A 7 7 inch display UG420 Display area
28. VF Driver Version Screen PLC Type Screen Comment Transfer Display lt Caral Display gt Card Data Selection VF Driver Font Data UG Program Display lt gt card During transferring Memory Card Main Menu Mernory Card Information Close Sys Program Version Font Data Version VF Driver Version Screen PLC Type Screen Comment Transfer Display lt Card Display gt Card Data Selection VF Driver Font Data UG Program isplay lt gt Card Busy Cancel Finish transferring Memory Card Main Menu Mernory Gard Information Close Sys Program Version Font Data Versiot VF Driver Version Screen PLC Type Screen Comment Transfer Display lt Card Display gt Card Data Selection pepe emcee Font Data V6 Program I F Driver Start Cancel When transfer the data from POD to memorycard via the card interface Memory Card Socket of POD use SRAM type memory card FLASH ROM type memory card is not used 1 52
29. and each function switch corresponds to an item on the displayed switch menu When the SYSTEM switch is pressed again the switch menu which is displayed on the screen will disappear and the functions of switches F1 F7 are defined for the purpose of the user The data of these function switches is allocated to the memory area of PLC Function of F1 F5 when the switch menu is displayed O O O O O mooz zman F1 Mode This switch changes the operation mode Main Menu Mode RUN Mode Run Mode Main Menu Mode possible to specify the changing time F2 Contrast Adjustment dark invalid in case of the TFT color type This switch adjusts the contrast of LCD When the F2 switch is pressed once the LCD color becomes dark If this switch is held down for 1 second the LCD color changes rapidly into darkness F3 Contrast Adjustment intermediate invalid in case of the TFT color type This switch also adjusts the contrast of LCD When the F3 switch is pressed once the LCD color becomes intermediate F4 Contrast Adjustment light invalid in case of the TFT color type This switch adjusts the contrast of LCD When the F4 switch is pressed once the LCD color becomes light If this switch is held down for 1 second the LCD color changes rapidly into lightness F5 Backlight This switch turns the backlight of POD on
30. ft S counter set value O5 dl ae El e E external relay Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs E 20 vococawa ric Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 25pin Male 4 RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 Use twist shielded cables 21 YOKOGAWA PLC 2 CED YOKOGAWA PLC 2 FA M3 FA M3R Available PLC Select PLC Type Link Unit Programming tool port on a CPU module 1 F3LC01 1N F3LC11 1N F3LC11 2N Programming tool port FA M3R FA M3 R on a CPU module F3LC12 1F Wiring Diagram Cable made by YOKOGAWA KM11 2N RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 2 Cable made by YOKOGAWA KM11 2N RS 232C Wiring Diagram 1 x1 CPU types which can be connected directly to programming tool port on a CPU module are F3SP21 0N F3SP25 2N and F3SP35 5N x2 When the link unit F3LC01 1N is used the communication setting and available memory are the same as the contents of 20 YOKOGAWA PLC 1 FA 500 provided that B common register cannot be used Communication Setting The recommended communication parameter setting of both PLC and POD is as fo
31. i 1210 24v Decon l LOUTI Toad s eL z SE S 7 1 5kQ vad a s 220 OUTI5 INO KI o D Load 3 a y Fs S 3 3kQ S ji la E INS COM i _ P _ _ 12V to 24V DC 2 Connecting the UGBOP U2 ED Connecting the UG 00P U2 The UGOOP U2 serial connection 1 O unit is connected with the UG520 420 320 221 220 It uses 16 input points and 16 output points for connection to an external device such as a PLC Note that the UGOOP U2 cannot be used with the UGOOP U1 simultaneously A Warning O Turn OFF the power before mounting dismounting wiring maintaining or checking otherwise electric shock erratic operation or troubles might occur A Caution O The serial connection I O unit uses a link Therefore do not use the unit in places where high speed operations urgent operations or dangerous operations emergency stop type are performed External Dimensions 2AVDO IN ING INS IN7 INS INIO INS INS QUT OUT3 OUTS OUT OUTS OUTIO OUTI2 OUTI4 COM2 ED 2 Connecting the UG OP U2 Specifications Item Specifications Power supply 60 mA max 1 5 A 200 us max environmental 20 to 85 No condensation conditions Conductive dust No corrosive gases Vibration resistance Vibration frequency 10 to 150 Hz Acceleration 14 7 m s Mechanical Directions X Y and Z Vibration was applied in each direction for service one hour conditio
32. 17 Operation of POD Main Menu O Message Display in Data Transferring If an error occurs during transferring data the message display window shown on the right is displayed The kinds and the contents of the messages are as shown below UGOOP MR when selecting a modular jack Memory Card not setting A memory card is not inserted Or in case of trying to write data into a memory card when inserting FLASH ROM type memory card Memory Card Capacity over Cannot write the data into a memory card because the data size in POD is larger than the capacity of a memory card Write Protect ON Cannot write data into a memory card because the write protect switch in a memory card is ON Writing Error occurred The error occurred while writing data into a memory card Selected data does not exist The data in the reading target does not exist POD type is different The specified type of the data in POD is different from the type of the memory card data Selected data can not be read The data in a memory card cannot be read Reading Error occurred The error occurred during writing data into a FLASH ROM of POD Data discrepant There is some discrepancy in data when comparing data between a memory card and POD Screen data on POD will be broken This message appears to inform the user that the data in POD will be broken by transferring the font data the size which is larger than the present data from a memory card to POD Th
33. 38400bps fixed Transmission Ses Even fixed 8 fixed fixed No function block FB settings are required on the PLC Available Memory RM retain memory 4 To specify a memory basically a variable name is set For the variable name linkage function refer to the User s Manual lt Variable Name Cooperation Function gt FEH363 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs To set an indirect memory using a macro specify the CPU No using the extended code Indirect memory setting by macro is not available for input I or output Q memory 2 FUJI PLC 2 ED Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC ier oer ear orem oat D sub 9pin Male m RS 485 Wiring Diagram 2 PLC D sub 9pin Female H POD CN1 D sub 25pin Male 4 Use twist shielded cables When signals are easily influenced by noise attach a ferrite core TDK ZCAT2032 0930 is recommended to both the ends of the cable ED irc FUJ I PLC 3 MIC REX SX C PU Port Available PLC Select PLC Type Connected Cable ey MICREX SX Loader Port UGOOC Sx When the CPU is updated or the specifications are changed there is some possibility that POD cannot be connected to the PLC Communication Setting Connect
34. A QnA series CPU Connection Connect to the A Q series CPU port The communication parameter setting of POD is done automatically Available PLC Select PLC Type A series CPU Wiring Diagram A2A A3A A2U A3U A4U A2US H A1N A2N A3N RS 422 UG200C M A3V A73 made by Fuji Electric A3H A3M or A0J2H Wiring Diagram 1 A1S A1SJ H A2S H A2CCPUC24 A1FX Q2A Q3A Q4A QnA series CPU Q2AS H When the CPU is updated or the specifications are changed there is some possibility that POD cannot be connected to the PLC 8 MITSUBISHI PLC 2 2 23 Available Memory Memory TYPE Remarks D data register Lo W link register R file register B TN timer current value N counter current value SPU special unit 5 UnitNo xt Pw merae a L latch relay 7 B link relay X input relay i TS timer contact 11 E E i ister 16 SD special register only in QnA SM special relay only in QnA SB special link relay only in QnA SW special link register only in QnA 19 ZR 20 only in QnA file register continuous access 1 The unit No is required in addition to the memory type and the address Convert a byte address into a word address to enter the data if the memory device of link unit is byte address 2 File register R cannot be used in case of ROM operation of A series CPU Set the memory to the extent of the memory range of each P
35. Mode for Detail in the Comm Parameter in UGOOS CW Trans Mode 1 w o sign BCD Trans Mode 2 w sign BCD 1 w sign BCD It is possible to display the data for PLC data with signs and When higher 4 bits of the memory are F or A treat the data as the minus data F regards higher 4 bits of the memory as 0 A regards higher 4 bits of the memory as 1 e range 1 word 1999 to 9999 2 words 19999999 to 99999999 lt Ex gt 00000000 to 99999999 0 to 99999999 F0000001 to F9999999 1 to 9999999 A0000000 to A9999999 10000000 to 19999999 e How to set Num Display Input Type BCD Display Type DEC w sign w sign 13 OMRON PLC 1 CED Available Memory DM data memory oc CH input output relay HR holding relay LR latch relay alarm relay timer current value counter current value extensional data memory timer contact counter contact o CV DM data memory CH input output relay alarm relay timer current value counter current value timer contact ME Read only counter contact Read only o CS1 DM data memory CH input output relay PH tongreay fp SY m ip PCS MANTECA NC SY ACACIA NCH Sd EMn extensional data memory Ww Internal Relay TU timer contact ME Read only CU counter contact Read only x1 When using EMn extensional data memory specify the bank number CV 0 to 7 CS1 0 to C
36. UG Series Manual Describes the procedures forcommunication lt OPCN 1 Communications gt FEH358 with PLCs using the optional OPCN 1 interface UG Series Manual lt Variable Describes the variable name cooperation function Name Cooperation Function gt FEH363 to be used between the UG editor and D300win UG Series Manual Describes the procedures for communicating lt Ethernet Communications gt FEH366 via the optional ETHERNET interface UG Series Manual Describes the procedures for communicating lt FL Net Communications gt FEH367 via the optional FL Net interface UG Series Manual Describes the procedures for communicating lt PROFIBUS Communications gt FEH368 via the optional PROFIBUS interface UG Series Manual lt Ladder The Functions and instructions of the Ladder Monitor Specifications gt FEH379 Monitor are explained Notes 1 This manual may not in whole or in part be printed or reproduced without the prior written consent of Fuji Electric Co Ltd 2 Information in this manual is subject to change without prior notice 3 Windows and Excel are registered trademarks of Microsoft Corporation in the United States and other countries 4 All other company names or product names are trademarks or registered trademarks of their respec tive holders 5 This manual is intended to give accurate information about POD hardware If you have any ques tions please contact your local distributor Notes on Safe Use of PO
37. an isolating transformer becomes unnecessary Olf any power voltage fluctuation caused by noise is expected it is recommended that a voltage stabilizer be used Insulation transformer Power Supply or to UG520 UG420 Stabilized transformer nn 1 25m twisted CED 7 Wiring Grounding N This equipment must be earthed OAn independent earth pole shall be used for POD The level of grounding resistance should be less than 100 Q OUse a cable which has a nominal cross section of more than 2mm for grounding OGrounding point shall be near the POD to shorten the other UGx20 equipment distance of grounding wires Grounding resistance less than 1002 Wiring for Communication ONever place the communication cable with electric circuits ONever bundle these cables together with other wires in ducts or electric boxes using cord locks Although it is tempting to bundle all the cables neatly together this does not necessarily lead to a noise resistant configuration Olt is recommended that the communication cable be independently wired Wiring duct Communication cable Power cable and control cable Communication cable Power cable and control cable ll Cord lock Ll 8 Specifications CED S Specifications General Specifications Power Supply Rated Voltage 24V DC Permissible Range of Voltage 24V 10 DC Per
38. and P2 22 A QnA series CPU port for available memory of the PLC to be accessed Note that CPU No should be set on the UGOOS CW Wiring See the wiring diagrams on P2 16 17 1 MITSUBISHI PLC 1 13 OMRON PLC 1 2 37 3 OMRON PLC 1 C CV CS1 seres Available PLC Select PLC Type Link Unit Wiring Diagram CPU unit with a built in VOTEN C20H C28H C40H RS 232C port host link port RS 232C Wiring Diagram 1 C120 C120F C200H C120 LK201 V1 RS 232C Wiring Diagram 3 C500 C500F ae C1000H C120 LK202 V1 RS 422 Wiring Diagram 4 C2000 C2000H C200H C200H LK201 ee C200HS CPU01 03 C200H LK201 V1 R3 232C Wiring Diagram 3 C200HS CPU21 23 C200H LK202 RS 422 Wiring Diagram 4 C200HS CPU31 33 C200H LK202 V1 SYSMAC C C200HS CPU21 23 C200HS CPU31 33 CPU unit with a built in CQM1 CPU21 RS 232C port host link port CQM1 CPU41 42 43 44 RS 232C Wiring Diagram 2 C500 C500F RS 232C Wiring Di C1000H C500 LK203 232C mining iagram 3 C2000 C2000H RS 422 Wiring Diagram 4 CPU unit with a built in ee C200HX RS 232C port host link port RS 232C Wiring Diagram 2 C200HG C200HE Communication board RS 232C Wiring Diagram 2 C200HW COM02 06 RS 422 Wiring Diagram 5 1 SRM1 C02 RS 232C interface RS 232C Wiring Diagram 2 CPM1A CQM1 CIF01 2 ma CPU unit peripheral port made by OMRON CPU unit with a built in RS 232C Wiring Diagram 2 RS 232C port host link port RS 422 Wiring Dia
39. changes to Editor and communications with the PLC programming software become possible Appendix 4 Communicating statuses with the PLC programming software and the PLC during communications between the UGOOS CW editor and the POD UG00S CW PLC programming software Writing to POD Communications disconnected normal communications on completion of writing Reading from POD Normal communications Comparing with POD Normal communications 3 PLC programming software communication setting For communication specifications between the PLC programming software and the PLC the communi cation parameter settings for the POD and the PLC can be used Select Comm Parameter from the System Setting menu and check the settings in the Comm Parameter dialog lt Baud rate setting gt There will be no problem if the setting for Baud Rate in the Comm Parameter dialog of the UG00S CW editor is not consistent with the baud rate setting on the PLC programming software The baud rate set on the PLC programming software is automatically selected when communica tions monitoring etc are performed When the POD is turned off and back on the setting for Baud Rate in the Comm Parameter dialog becomes valid again Setting the same baud rate of both PLC and POD makes the performance of POD faster 4 Transferring the ladder communication program When transferring screen data the ladder communication program is a
40. firmly press the entire case body to fit the internal POWER board connector into the CPU board connector 26 Mount the 6 screws on the rear outside panel Rear outside case 7 How to Replace the Backlight Unit 3 41 UG320 UG320 Backlight Unit Replacement Required Tool Screwdriver Do not touch cables and boards that are not associated with backlight unit replacement Doing so may result in failure When replacing the backlight take appropriate preventive measures against static electricity The point of measures against static electricity is to keep the entire workplace including humans at the same electric potential Use an anti static wristband or mat to prevent static electricity 1 Turn the POD over and remove the 4 external screws A Place it on a cloth etc to protect the display panel from scratches 2 Remove the rear external case Rear external case Screws 3 Remove the connector A 4 Remove the connector B 5 Remove the connector C A Hold the connector and pull it out Do not twist or yank on the cable then Leave position marks on the connectors B and C to check the positions when reattaching them Rear external case Front external case A ae Ribbon cable Connector B Connector C Connector A Backlight unit CFL unit connectors ED 7 How to Replace the Backlight Unit 6 Disconnect the backlight unit CFL unit connector Hold the connector and pull
41. 1 5 seconds or greater value for Time out time on the Comm Parameter dialog for the POD When using the UGOOP DI by directly connecting it to KZ A500 CPU port of Keyence PLC if program is written with the ladder software supplied from Keyence Ladder Builder for KZ A time out occurs due to too slow response of the PLC which may cause error to occur on the ladder software side In such case you can solve this problem by disconnecting the UGOOP DI and connecting the cable directly to the CPU port to write program UGOOP DI program can be upgraded version up with the transfer utility U2Dl exe that is included in UGO0S CW Version Up of UGOOP DI It is possible to upgrade version up the system program for UGOOP DI from the editor UGOOS CW E Connecting the personal computer to the UGOOP DI 1 2 Connect the UGOOP DI to the RS 422 connector of Mitsubishi A QnA FX series CPU Connect between the personal computer and the UGOOP DI GPP port using the RS232C 422 conver sion cable UGOOC X from Fuji Electric Co Ltd Turn on the power switch of the PLC and power is supplied to the UGOOP DI Personal computer Mitsubishi A QnA FX series RS232C 422 conversion Sliding switch for selecting the model of connected device 1 A series ACPU port 2 QnA series QnACPU port 3 FX series Note Be sure to turn the power off when changing over the sliding switch
42. 1 at the back of the UG body extension mode Write data other than programs for the UG fonts interface drivers or screen data into the extension memory The table below shows the sizes of screen data 2 Be sure to turn off the power to the UG then turn it on again after turning on DIP SW NO 1 The UG screen data size changes depending on the font used as shown in the table below AS UG Standard orl aaa 1 aves eu ouch Japanese 3 200 1 216 7 232 5 248 3 712 3 712 Japanese 32 3 2 816 768 6 848 4 800 3 200 3 264 English Western Europe 3 456 1 408 7 488 5 440 3 840 3 904 Chinese traditional 3 328 1 280 7 360 5 312 3 712 3 776 Chinese simplifide 3 200 1 216 7 232 5 248 3 712 3 712 Korean 3 328 1 344 7 360 5 376 3 840 3 840 1 The screen data size when the expansion memory is used and DIP SW NO 1 is turned off standard x2 The screen data size when the expansion memory is used and DIP SW NO 1 is turned on 3 Japanese 32 supports 32 dot fonts When the magnification coefficient for characters is an even number a 32 dot font is used as the base thus the characters are smoothly displayed Setting from the editor is also necessary With the UG screen development software UGOOS CW set items in the Memory Expansion dialog box on the Unit Setting window under System Setting How to Use the UGxxP SR The following functions are available when the SRAM cassette is
43. 485 Wiring Diagram 3 FXON 232ADP RS 232C Wiring Diagram FXON 485ADP RS 485 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows a ee eee Code Stop Bit Exclusive Protocol Communication fixed H W Type Normally RS 232C RS 232C Provided fixed gt Transmission Control Mode MODE 1 Trans Mode 1 1 When the link unit FX2N 485 BD FX2N 422 BD FX1N 485 BD FX1N 422 BD or FX0N 485 ADP is used select RS 485 in Signal Level At the Detail Setting menu of the Comm Parameter dialog of UGOOS CW setting the value more than 2 in Send Delay Time is recommended 11 MITSUBISHI PLC 5 CED Available Memory D data register TN timer current value CN counter current value 32CN counter 32bits internal relay state input relay output relay timer contact CS counter contact x1 The meaning of CN200 CN255 is the same as the meaning of 32CN counter 32bits 2 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and a word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro
44. 9 Serial Connector CN1 RS 422 Oln case of RS 422 SD and SD and RD and RD form a pair OUse SG if possible OConnect the shielded cable to pin No 1 or the connector case cover OUse UGOOP TC which is the optional equipment made by Fuji Electric Co Ltd in case of using terminal blocks in RS 422 485 connection OSpecify terminal resistance by the dip switches on POD Refer to the next page POD CN1 Signal Pin No Shielded cable FG 1 basa RD RD oli a z 25 1 1 SD SD SG Sacro cerrarse Terminal Blocks of RS 422 485 OConnect UGOOP TC Terminal Converter which is the optional equipment made by Fuji Electric Co Ltd to POD via the serial connector on POD CN1 in case of using terminal blocks in RS 422 485 connection OThe RS 422 signal wiring of UGOOP TC is connected to the serial connector CN1 UGOOP TC SWI set to top 4 wire connection To the RS 422 port of the PLC link unit Send data Send data CN1 Signal Pin No FG 1 SG 7 SD 12 SD 13 RD 24 RD 25 Receive data Receive data UGOOP TC Terminal Converter OSpecify 4 wire connection or 2 wire connection by the dip switch on UGOOP TC SW1 set to top 4 wire connection 10 Setting of Dip Switches y Setting of Dip Switc
45. Appox 2 81 6Kbytes different from the language Switches 768 per screen 192 per screen for UG221 220 However the number of memory settings is limited 3 Actions of Switch Set reset momentary alternate to light possible to press a function switch and a display switch at the same time With UG221 2 switches on the display can be pressed at the same time Lamps Reverse blinking exchange of graphics 768 per screen 192 per screen for UG221 220 However the number of memory settings is limited 3 Graphs Pie bar panel meter and closed area graph can be displayed without limit Total capacity per screen within 128KB Statics and trend graphs Max 256 per layer 2 However the number of memory settings is limited Numerical Data Display No limits total capacity per screen within 128 KB However the number of memory settings is limited Character Display No limits total capacity per screen within 128 KB However the number of memory settings is limited Message Display Resolution 320 x 240 Max 40 characters 640 x 480 Max 80 characters 800 x 600 Max 100 characters No limits total capacity per screen within 128 KB Data Setting However the number of memory settings is limited Messages 6144 lines Sampling Sampling display of buffer data constant sample bit synchronize bit sample relay sample alarm function Multi Overlaps Max 1024 Data Blocks Max 1
46. Area Divide each PLC device into a program file Switch Setting Baud rate 19200bps Switch Setting Contents Station address lower half Station address upper half Baud rate SW3 1 1 19200 2 9600 3 4800 4 2400 5 1200 6 600 Switch Shorbar SET2 Provided SET3 Provided EM 2 tovoruc pic Available Memory MEANCTIC ECT ENCINAS IN UNNE AS PN eurentvanereasie 8 IN E a EIC opa O O 8 Was e a INAETCE TN ACUC a Was word deve SC S T omero O o Waewae KEC AH Y TH entensonsetvaheregsien SSCS II Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs ay Ty Ay lt x z o Dy oO Cc C 1 x mi mi mi mim 24 TOYOPUC PLC ED Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 422 Wiring Diagram 1 POD CN1 D sub 25pin Male 4 Use twist shielded cables Screen Editing Memory Input If Split Data Area is selected at the Trans Mode the PRG No setting is available at the Memory Input dialog range 1to3 Memory Input PLC Memory TOYOPUC x Type o y 00100 Internal Mem Po indirect PERA 4 alel fal OARES Cancel Refer 25 Koyo PLC A Koyo PLC Available PLC i RS 232C Wiring Diagram 1 SU 5 5E 6B 5M 6M U01 DM RS 422 Wiring D
47. CPU No to 31 on the panel editor Response time will be equivalent to the case of 1 1 communication Please note that response will be delayed due to the transient transmission when the CPU No is set to other than 31 O In this case use OUT_ENQ command of the SYS to program the macro A CPU from a different network cannot be accessed on the same screen When accessing PLCs of other network numbers on NET 10 specify the network number to be connected with the screens Open Macro in Panel Editor EMBA 2 mitsusisui pic 6 O Macro type to specify network seeeeeceeeeeeceeeeeeeeeeee OUT ENQ command of SYS F1 Memory n 0 n n 2 n 3 The addresses n 0 and n 1 are fixed for 0 and 2 Specify n 2 System code to 1 NET 10 2 NET II B Enter 0 to n 3 Network No when n 2 System code indicates 2 and the number to be accessed to n 3 Network No when n 2 System code indicates 1 No macros can include this command except Open Macro Communication error will occur due to the execution of the netware change when this command is used in other kinds of macros Refer to the UGseries Manual lt Function gt FEH376 for further information on Macro Also refer to MITSUBISHI s manual for network registration O See MITSUBISHI s manual for details on the NET II B data link system and the NET 10 network system Available Memory See P2 16 A QnA series link units
48. EEE E 2 6 A FUJEPLO SA PAE E E E A E EE E ET 2 8 5 FUJI PLC 5 2 11 Ge FUJEPLO e EEEE O odos E E E E E EEE 2 14 Ta MIESUBISHLPEC S Di leashes tcc hee hus Sos des Sos des ATERA T T A A A AS 2 16 8 MISUBISHI PLG E D rrin e E A A AA EA ie E RE R R E 2 22 9 MITSUBISHI PLC Sree EEA N NR E N AAAS 2 26 10 MITSUBISHI PLC E A en Ei NO 2 28 11 MITSUBISHI PIC acen accedido Ia IR TE A ER E EE 2 32 12 MITSUBISHI PLC 6 3 ERAN E TA OMRON PLE 8D E E EEE etsedaedietinvaetaansereetaedeethethwteveeccecescensee 15 Sharp PLE triada eee hentai 16 Sharp PLC 2 17 HITACHI PLC 1 18 HITACHI PLC 2 TI Matsushita PEC aes as eee eee eA a SE a 20 YOKOGAWA PEC T ain EEEE A steeds nds odeeds odiedeeDasdiaduedsedssede tinchacdulescedeaceatesdacnete 2 57 21 YOKROGAWA PLO Di AA AAA AAA E E E E E AAA 2 59 INIA i eieiei eein e S a a a a e t a a a i 2 62 23 YASKAWA PLC 2 2 65 24 TOYOPUC PEG 55 a e e EEE E E A A A AA EA AE ENS ATA EAE NE DR SAARIO SAREREA 2 67 25 KOYO PEC aor a AEAEE AOA A a O E E E ab CA 2 70 Contents 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 Alen Bradley PLE dd E da a ita acacia 2 75 Allen Bradley PLE Ai SS 2 80 GE Fanuc PLC 1 GE Fanuc PLC 2 TOSHIBA PLE a seee eet eS ee oak Eat Lt AI i E ae it a TOSHIBA MACHINE PEG cdt Sig Ss Me noe leading ad ee 2 90 SIEMEN
49. IDEC FC2A KC2 RS 232C Wiring Diagram 1 RS 232C Cable made by IDEC FC2A KC4C MICRO Smart MICRO Smart RS 232C Wiring Diagram 1 When using RS 232C cable made by IDEC FC2A KC2 or FC2A KC4C connect the cable of Wiring Diagram 1 to the D dub 9 pins side of FC2A KC2 or FC2A KC4C to communicate with POD Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Item Setting of PLC Comm Parameter of POD Available Memory D data register input relay K UCI C NC counter elapsed value PO Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs BD 46 ec pic Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 PLC D sub 25pin Male m D sub 9pin Male m 1 Pa an CD 1 I I TJ 2 AA SD 2 lA 1 AA 3 Lo 4 i i ER 4 1 1 7 ma o DR 36 a m RS 7 Use twist shielded cables CS 8 47 MODICON PLC 2 125 MODICON PLC Available PLC Select PLC Type Wiring Diagram Modbus RTU Modbus RTU RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Item Setting of PLC Comm Parameter of POD A A Transmi
50. IN6 na into INi2 nta com OUTO ouT2 ouTs oute outs ourn outis outs l POLE b oh heel op lB E 24v DG ED 3 Connecting the Memory Card Recorder 3 Connecting the Memory Card Recorder The memory card recorder UGOOP MR is connected with the UG520 420 320 221 220 The memory card recorder supports screen data transmission and an external storage device functions for data logging and memory manager for the memory card For the UG400 210 Series use the UG200P MR or UG400P MR A Warning Turn OFF the power before mounting dismounting wiring maintaining or checking otherwise electric shock erratic operation or troubles might occur A Caution Do not bundle the control line communication cable with the power cables or route it close to the power cables Route the control line communication cable 200 mm or more apart from the power cables Otherwise the recorder may incorrectly operate due to noise External Dimensions UGOOP MR body4 92 0 gt 25 0 1 UGO0O0P MR attachment cover Cover panel 3 Connecting the Memory Card Recorder 3 7 Assembling the Recorder Cut the cover panel maximum thickness 5 mm so that the attachment cover can be set then insert the attachment cover into the cover panel Cover panel side Screw 1 Attachment cover Use M3 size scr
51. PLC Select PLC Type Link Unit Wiring Diagram JAMSC IF60 JAMSC IF61 RS 232C Wiring Diagram 1 GL60 series JAMSC IF61 1 JAMSC IF612 ee JAMSC IF613 RS 422 Wiring Diagram 3 Memobus Memobus port RS 232C Wiring Diagram 1 GL120 on a CPU module GL130 series JAMSC ee 120NOM27100 422 Wiring Diagram 4 PROGIC 8 PORT2 on a CPU unit RS 232C Wiring Diagram 2 Other kinds of MEMOBUS unit can be connected Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Select TYPE 1 or TYPE 2 from Trans Mode in Comm Parameter of the UGOOS CW GL120 130 series Standard binary mode 22 YASKAWA PLC 1 CzD gt Available Memory a SCS a ip PSY eem fs SY pa a NCAA IN a a SSC C SY eg YAA Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC D sub 9pin Male 4 2 64 22 YASKAWA PLC 1 Wiring Diagram 2 POD CN1 D sub 25pin Male 1 PLC D sub 15pin Male 4 Use twist shielded cables RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 1 PLC D sub 9pin Male m Use twist shielded cables Wiring Diagram 4 POD CN1 D sub 25pin Male
52. POD using the connector for programmer of the CPU of the PLC AN Warning Turn OFF the power before mounting dismounting wiring maintaining or checking otherwise electric shock erratic operation or troubles might occur AN Caution O Follow the directions of the operating instructions and the manual when mounting the product If mounting is improper the product might drop or develop problems or erratic operations External Dimensions 4 1 100 UGOOP DI UG Device mounting screw l 38 1 3 16 6 Connecting the Dual Port Interface How to install UGOOP DI To connect the UGOOP DI to A series PLC of small type A1S A2US etc itis necessary to mount the bracket that is supplied with the UGOOP DI MELSEC AxS cpu MELSEC AxS cru E A Surely tighten the O a A neser screw after mounting ERROR neser neser MITSUBISHI the bracket Se MITSUBISHI Fit the bracket according to the figure at right 1 Dimensions of i the bracket Unit mm 6 16 3 O gt Surely tighten the screws UGOOP DI UGOOP DI O EY Not used Used to connect to A or QnA series of large type EN How to Use UGOOP DI 1 To use for d
53. Port CN1 RS 232C MJ2 Loop back Test Check the signals SD and RD Jump each pin 12 and 24 13 and 25 of CN1 The test is OK if the OK lamp turns on when the Self Loop Test switch is pressed Self Logo Test Self Loop Test If the NG lamp turns on when the same switch as above is pressed ask the advice of your distributor eTest of CTS RTS Check the signals CTS and RTS Jump each pin 14 RTS and 19 CTS 17 RTS and 18 CTS of CN1 The test is OK if the CTS lamp and the RTS lamp turn on at the same time that the RTS switch is pressed Similarly the test is OK if the CTS turns off at the same time that the RTS is turned off I a NS it Self Loop Test Self Loop Test RTS Self Loop Test Self Loop Test 17 Operation of POD Main Menu 1 47 OSignal Test of RS 232C in MJ1 and MJ2 Select MJ1 or MJ2 and RS 232C in Communication Port by pressing each switch Communication Port CN1 RS 232C MJ1 RS 485 MJ2 Loop back Test Check the signals SD and RD Execute the test by connec
54. SS A SS Rear Side of UG520 gt H aes LY y MUUA ENE ae M41 2 for data transfer for temperature controller for bar code reader for UGOOP MR and for UGOOP U2 option for UGOOP D2 D4 option for video option for UGO3I S J T C E P option 43 for UGOOP U1 option 42 Card interface option 5 Dimensions and Panel Cut out L 1 13 5 Dimensions and Panel Cut out Dimensions of UG220 Unit mm O Top View O Rear View O Front View O Side View foe foo S a Y Y lt 182 5 gl Panel Cut out of UG220 Unit mm 174338 lt a 131 1 14 5 Dimensions and Panel Cut out Dimensions of UG221 Unit mm OSide View OFront View A K Y gt 182 5 l ORear View O Under View 1 Y pt TO000O000000000000000 00 i 0 DD i E y oO MJ2 LMJ1 CN EAE cNi e ee TES 8 Panel Cut out of UG221 Unit mm 174 lt 4 al 0 5 0 1317 5 Dimensions and Panel Cut out EDB Dimensions of UG320 Unit mm OTop View ORear View
55. T series programmer and enter the following data in the system information 7 COMPUTER LINK Station No 1 Baud rate 19200 BPS Parity Odd Data bit 8 bit Stop bit 1 bit 30 TOSHIBA PLC ED Available Memory e a C Wass SY MEC NA MEAN CIN METETE UCI TT Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 422 Wiring Diagram 1 POD CN1 D sub 25pin Male m O REE PLC FG 1 x T D sub 15pin Male 4 SG 7 SD R 21200 1 2W Use twist shielded cables GED gt rosuien Macuine pic TOSHIBA MACHINE PLC TC 200 Available PLC Select PLC Type Link Unit Wiring Diagram Porton a CPU unit on a CPU unit TC200 TC200 RS 232C Wiring Diagram 1 TCCMW TCCMO Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate 9600bps 9600bps E deo se e AO Available Memory a A ICO E E E CIN INEA NC ICI INACIO ITTT TS TR tenpoaysiaad 6 AW eswodaevee iY Honey sega 8 Wanda iY a e 22 TP tineroomerowenivany fe SY MAME fe SY Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 31 TOSHIBA MACHINE PLC CD W
56. UG420H TC analog RGB input adapted product is connected to a personal computer the screen image of the personal computer can be displayed on the UG420H TC Connector pin layout high density D sub 15 pin connector female H Input signal specification Input signal Video signal red wire Video signal green wire Video signal blue wire NC Ground Ground Ground Ground 2 3 4 5 6 7 8 9 NC o Ground NC NC Horizontal synchronizing signal Vertical synchronizing signal NC Displayed number 640 X 480 dots 640 X 400 dots 720X 350 dots f dot Color E max 262 144 colors max 262 144 colors max 262 144 colors pi dis 31 5KHz 24 9KHz 31 5KHz fear OO Sse pp 70Hz po Input amplitude 0 7V 0 8V 0 7V Sample main signals Windows screen Os ian ne BIOS screens No signal other than the above can be displayed To display Windows screen after displaying the Control panel dialog with the Control panel command in the Setting menu under Start Menu double click the Screen icon in this dialog and set refresh rate to 60 Hz in the Screen property window If a cable too long is used to connect between connector CN3 of UG420H TC and the personal computer the screen image may be blurred due to noise To prevent noise it is recommended to mount a ferrite core 15 Analog RGB Input CED Touch s
57. Unit Wiring Diagram S5 PG Port S5 series Programing port 6ES5 734 1 ADE SDE made by SIEMENS on a CPU unit RS 232C Wiring Diagram 1 When useing 6ES5 734 1BD20 cable made by SIEMENS connect the cable of Wiring Diagram 1 to the D sub 25 pin side of 6ES5 734 1BD20 to communicate with POD Available Memory Memory TYPE Remarks DB data register oo Use memories more than DB3 l input relay IW as word device Q output relay QW as word device internal relay FW as word device F The assigned memory is indicated while editing the screen as illustrated lt E g gt DB003000 AS absolute address 6 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Address No Block No Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PC Converter cable 6ES5 734 1BD20 FG ff D sub 25pin Male 41 SD RD CS SG l 2 3 AS 4 5 7 Use twist shielded cables 35 SIEMENS PLC 4 2 97 A SIEMENS PLC 4 S7 200 PPI Available PLC Select PLC Type PLC Wiring Diagram S7 200 PPI S7 200 series RS 422 Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows 22107 Available Memory TY
58. WX word input 1 e i WY word output 7 Y discrete output CR control relay 5 E Tor mer counersoivau e TOG timer comercarentvae 7 DCC drum count current value 9 Readony 0 DSC drum step current value A po S E 0 1 K fixed memory 12 STW system state 13 1 Incase of using DCP drum count set value set the lt F 9 gt DOP30000 1 drum step No 1 to 16 t Drum step No The assigned memory is indicated while editing the Colon screen as illustrated Address No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CAM ic stemensric s Notes on converting the data file of UG400 or UG200 into the UGx20 data file When converting the data file of UG400 or UG200 into the UGx20 data file the PLC type is automatically selected as TI500 505 UG400 In UG400 or UG200 the order of words is reversed when the double words In UG400 UG200 In UGx20 MSB LSB MSB LSB L 1 word I L 1 word t __ 9 words _ tL 9 words __ Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 PLC D sub 25pin Male m D sub 9pin Female PJ RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male 1 FG PLC xt TA D sub 9pin Male fh SG SD SD RD RD gt GND 6 Di 5
59. Wiring Diagram 1 sai link KZ350 KZ L2 Port 2 RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows For further information refer to the communication specifications of KEYENCE link unit Item Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps Parity Transmission Data Length Zod Stop Bit ee Terminal Resistor ON for RS 422 Set the port with the port setting switch the terminating resistance with terminator and the baud rate data bit parity stop bit with SET B dip switches Available Memory OE IE IA CH input output relay Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs OD xevence rc 1 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC FG i PASAS ae ae TA D sub 25pin Male h Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m Use twist shielded cables RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 4 Use twist shielded cables 41 KEYENCE PLC 2 D KEYENCE PLC 2 KZA500 Available PLC Select PLC Type Link Unit Wiring Diagram KZ A500 RS 232C Wiring Diagram 1 CPU CPU Modul
60. a PLC and the POD master station is the same as those for 1 1 connection PLC Communication between the stations RS 485 2 wire system maximum length 500 m a b Terminal c d e block CN1 M2 CN1 POD Master POD Slave POD Slave POD Slave local Port No 1 local Port No 2 local Port No 3 local Port No 4 O Available PLCs for multi link2 As of October 2002 the PLCs supported are as follows All the PLCs which are usable for 1 1 communi cation will be supported For the I F driver the Multi Link 2 is supported by the version of 1 100 or later screen development software version of 2 1 4 0 or later and as for a POD master station make sure the hardware version of the unit is as follows As for UG221 UG220 any version can be used UG520H V gt 4 UG520H S 3 UG420H V 5 UG420H T 5 UG420H S 4 UG320H 7 The Multi Link 2 cannot be used with a communication interface unit such as UGO3I T J E C S P UGO2I T J S The Multi Link 2 cannot be used with Temperature controll network 16 Connection CED lt Type gt lt Calendar gt lt Type gt lt Calendar gt FUJI MICREX F series Depends on the mode A B Micro Logix 1000 Not provided FUJI MICREX SX series Provided GE Fanuc 90 series Not provided FUJI MICREX SX CPU Provided GE Fanuc 90 series SNP X Not provided FUJI FLEX PC series Depen
61. by Koyo S 30JG E Port 2 on a CPU unit Convert connector cable made by Koyo S 15CNJ Convert connector made by Koyo S 15HCNP1 25 Koyo PLC Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Baud Rate Item Setting of PLC 19200bps for x 10 1 o for x 1 2 71 Comm Parameter of POD 19200bps me in Eb A pci Senet othe Host link system fixed None fixed HEX fixed Available Memory O SU SG SU SG K Sequence R l i input relay output relay internal relay global inputs GI i GQ global outputs T timer contact C counter contact CA IA ERE EA E MEA E ESA ESA ea IS EN E Ea A IIS2S2S2S2O2O O SR 1T SR T K prt is Remarks data register po i input relay X Y common use output relay X Y common use internal relay stage keep relay link relay 1 2 3 4 5 7 a EE a Lae EA ES e timer contact counter contact Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 72 Switch Setting o U 01DM 25 Koyo PLC On line off line switch on line UNIT ADR switch 0 for x 10 1 for x 1 SW4 Dip Switch No Set
62. cable Insert the ribbon cable into the connector and slide the lock to set it Connector D Front external case Connector A _ Connector B Connector E Connector C Ribbon cable ED 7 How to Replace the Backlight Unit 20 Attach the connector A to E NM Check the positions of the connectors with their marks 21 Visually check that all connectors and ribbon cables are connected securely 22 Attach the rear external case to the front external case 23 Attach the external 9 screws Rear external case _ S Screws 7 How to Replace the Backlight Unit 3 53 UG220 UG220 backlight unit replacemect N Do not touch cables and boards that are not associated with backlight unit replacement Doing so may result in failure 1 Turn the backlight unit upside down Remove the 4 external screws A Place it on a cloth etc to protect the display panel from scratches 2 Remove the rear external case 3 Disconnect the backlight unit CFL unit connector Rear external case Screws N Hold the connector and pull it out Do not twist or yank on the cable then Rear external case Backlight unit CFL unit connector Front external case ED 7 How to Replace the Backlight Unit 4 Remove the screw fixing the backlight unit CFL unit Backlight unit CFL unit 5 Raise the backlight unit CFL unit once and remove the unit by sliding it
63. cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC FG 1 ci a Ta Modular Connector 6pin I SD 2 SG 1 RD 3 RxD 3 Rs 4 TxD 4 cs 5 654321 SG 7 TT va Use twist shielded cables 12 136 53 Automationdirect PLC Wiring Diagram 3 POD CN1 D sub 25pin Male 4 PLC FG 1 SSS SSS SSS D sub 15pin Male m HA PE A SD 2 ma oh TXD 2 rr 1 1 1 1 RD 3 A EE RXD 3 1 1 RS 4 RTS 4 cs 5 ot a CTS 5 1 1 sG 7 w7 7 ov 7 Use twist shielded cables 1 High density D sub 15pin Wiring Diagram 4 POD CN1 D sub 25pin Male 4 PLC FG eres a ee D sub 15pin Male M nov pot SD 2 S ee TXD 2 AAA y 1 1 1 RD 3 1 RXD 3 RS 4 ov 13 CS 5 SG 7 Use twist shielded cables RS 422 Wiring Diagram 5 POD CN1 D sub 25pin Male 1 PLC FG 1 ya D sub 25pin Male m FS 1 SG 7 _ F SG 7 SD 12 RXD 9 SD 13 RXD 10 RD 24 CTS1 11 RD 25 TXD1 14 TXD1 16 RTS1 18 RTS1 19 Use twist shielded cables CTS1 23 Wiring Diagram 6 POD CN1 D sub 25pin Male 41 PLC FG 1 p7 P N D sub 25pin Male 1 SG 7 TXD3 12 TXD3 13 RXD3 24 RXD3 25 Use twist shielded cables In case SU 6M it is poss
64. check screen is displayed Confirm that the color of the pressed area changes into white The white color means that the switch reacts to the touch normally Pressing the F4 switch leads to the previous I O Test screen Pressing the F5 switch deletes all the white dots In case of matrix type 17 Operation of POD Main Menu 1 49 When pressing the Switch Check switch the following screen which is divided by a minimum size of switch is displayed Confirm that the color of the pressed switch changes into white Pressing the corner right below leads to the previous I O Test screen Press the Switch Check switch the Switch Check screen If the pressed area is reversed these switches reacts to the touch normally D Test of SYSTEM amp Function Switches Check the eight switches six switches for UG221 and UG220 placed vertically on the right side of the POD panel The test is OK if the lamps on the screen turn on when each switch is pressed E Main Menu gt Press the F4 switch gt sys Fa Fa E FS F7
65. control data position F ST So A A Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Transmission Parameter Setting O CPU Port Channel 0 Set up the parameters for CPU port channel 0 using the software specifically designed for this purpose Baud Rate 19200 Duplicate Detect ON ACK Timeout x 20 ms 20 Control Line NO HANDSHAKING Parity EVEN Error Detect BCC NAK Retries 3 ENQ Retries 13 Embedded Responses AUTO DETECT 2 82 27 Allen Bradley PLC 2 O 1747 KE Set up the parameters for 1747 KE using the software specifically designed for this purpose DF1 Port Setup Menu Baudrate 19200 Bits Per Character 8 Parity Even Stop Bits 21 DF1 Full Duplex Setup Parameters Duplicate Packet Detection Enabled Checksum BCC Constant Carrier Detect Disabled Message Timeout 400 Hardware Handshaking Disabled Embedded Response Detect Auto Detect ACK Timeout x 5ms 90 ENQuiry Retries 73 NAK Received Retries 13 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 PLC D sub 25pin Male m D sub 9pin Female Use twist shielded cables 27 Allen Bradiey PLC 2 PRD Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC FG 1 ra TN D sub 9pin Female 4 SD Wiring Diagra
66. file the PLC type is automatically selected as SIEMENS S5 UG400 In UG400 or UG200 the order of bytes in I input relay Q output relay and F internal relay is reversed Exsample Exsample 5 UG400 5 S7 F0000217 F0000207 F0000207 Fo000217 TORT Dearg F0000210 F0000200 Mamor aa F0000200 F0000210 O or of Ux y YY Y YY Y Fweo 15 1413 12111 10 9 8 7 6 5 4 3 2 l0 Fwao 15 14 13 12 11110 9 8 7 6 5 4 3 211 0 Memories to be accessed Memories to PLC by UG400 or UG200 F20 0 lt F21 00 lt to be accessed F20 0 lt F21 0 lt L gt F20 7 L gt F21 7 to PLC by UGx20 L 20 7 L gt F21 7 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC FG A AS nat D sub 25pin Male 2 SD RD RS Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC D sub 25pin Male m 6ES5 734 1BD20 1 I i I i 1 I Use twist shielded cables EM ss siemens pic 2 3 SIEMENS PLC 2 S5 115U 135U 155U S7 300 400 Available PLC A similar program as RK512 is required Select PLC Type pt Link Unit Wiring Diagram S5 115U CP 524 3964R RK512 RS 232C Wiring Diagram 1 CP 5
67. fixing screw Cushioning material LCD module rear 7 How to Replace the Backlight Unit 3 23 16 Remove the backlight unit CFL unit by pulling it up Cover Backlight unit CFL unit LCD module rear 17 Attach a new backlight unit CFL unit When taking a new backlight unit out of the bag do not twist or yank on the cable 18 Attach the cover Insert the cover in a slanting direction as shown with arrow 1 and slide it to the direction of arrow 2 until it is hooked on claws 19 Attach the screw fixing the cover Since the screw is small use a precision screwdriver to attach it Cover fixing screw Claws LCD module rear 3 24 7 How to Replace the Backlight Unit 20 Place the LCD module with the display panel side up 21 Attach the LCD module to the inside case Insert the cable and two ribbon cables into the inside case LCD module cable a Ribbon cables Inside case Inside case Ribbon cables i i i LCD module Backlight unit CFL unit cable 22 Attach the 4 screws to fix the LCD module LCD module Screws Inside case 23 After attaching the LCD module to the inside case place it with the display panel side down A Place it on a cloth etc to protect the display panel from scratches 24 Attach the inside case to the front external case A Do not allow the entry of dust or particles to the area
68. horizontally While raising the backlight unit do not twist or yank on the cable gt p Backlight unit CFL unit 6 Attach a new backlight unit CFL unit When taking a new backlight unit out of the bag do not twist or yank on the cable 7 Attach the screw to fix the backlight unit CFL unit 8 Connect the backlight unit CFL unit connector Backlight unit CFL unit Screw Backlight unit CFL unit connector 7 How to Replace the Backlight Unit 3 55 Visually check that all connectors and ribbon cables are connected se curely 9 Attach the rear external case to the front external case Fit the rear external case in position Press the case entirely so as to fit the power supply board connector with the CPU board connector inside AN Do not allow the cable to be caught in the area between the cases Rear external case Power supply board connector Front external case a CPU board connector 10 Attach the external 4 screws Rear external case Screws Appendix Ladder Transfer Function Appendix 1 Ladder Transfer Function Transparent Mode Up until now it was necessary to debug the data by removing and mounting connection cable between PC and PLC and connection cable between POD and PLC When using the ladder transfer function it is possible to write ladder programs or monitor the PLC memory via POD connected to PC without removing and mounting each cable
69. i I es I I l DI 8 1 l A 1 l i l 1 1 i DO 1 F po 7 Use twist shielded cables 37 SIEMENS PLC 6 SIEMENS PLC 6 S7 300 400M PI S7 300 400M PI ADP Available PLC Select PLC Type CPU Adapter Wiring Diagram 7 300 400MPI S7 300 400 series MPI port RS 422 Wiring Diagram 2 S7 300MPI SIEMENS HMI Adapter HMI ADP 6ES7 972 0CA11 0XA0 S7 300MPI S7 300 400 series SIEMENS PC Adapter RS 232C Wiring Diagram 1 PC ADP MPI port 6ES7 9720CA23 0XA0 S7 300MPI Helmholz SSW7 ADP Helmholz SSW7 Adapter Communication Setting The recommended communication parameter setting of both PLC and POD is as follows S7 300 400 MPI MOI 2 NT 057 300 MPI HMI ADP PC ADP Helmholz SSW7 ADP Setting of PLC Comm Parameter of POD HMI ADP 38400bps fixed Baud Rate 38400b PORDE 38400bps None re Code Stop Bit 1 fixed Local No Set the MPI SETTING in the Comm Parameter in Panel editor Item MPI setting Highest MPI Address 15 31 63 126 Sorce No UG station No 0 Highest MPI Address Specify the highest number on the network Source No Station number of POD Make sure that this number is unique Set difference number for Source No and Local No and make sure that Source No lt Node Cnt lt E g gt PLC is 13 and POD is 20 select 31 AD sz siemens rico Avail
70. image which is taken by a video or a camera can be displayed directly in a screen of UGx20 series UG221 UG220 A 5 7 inch display with 320 X 240 dot resolution UG320 A 7 7 inch display with VGA 640 X 480 dot resolution UG420 A 10 4 inch standard model display which uses the previous screen data 10 UG520 A 12 1 inch large display with SVGA 800 X 600 dot resolution lt 2 Notes on Usage Notes on Usage Environmental Limits 1 Use POD at an ambient temperature of 0 to 50 C and a relative humidity of 35 85 RH But a UG420 STN multi color display can be used at 0 to 40 C 2 Install a forced fan or an air conditioner to maintain the ambient temperature when it is higher than the above mentioned range 3 Avoid places where moisture may easily condense due to sudden temperature changes Never install POD in a place where impacts or vibrations may be transmitted Avoid any place in which there is the possibility that water corrosive gas flammable gas solvents or coolants grinding oil can come in contact with the unit Never install the unit in a place where dust salt and metallic particles are present Secure sufficient space around POD for ventilation 2 Never attach P
71. installed Calendar function Calendar can be displayed even when the PLC is connected that has no calendar function SRAM backup function The following data can be backed up Backup of sampling data data logging function e As external memory for PLC memory manager function Backup of the internal memory used for macros e Saving of memo pad data The setting is made from the Main Menu screen of the POD main unit or from the editor For details regarding the Main Menu screen refer to Section 1 for details regarding the setting on the editor refer to the User s Manual lt Function gt FEH376 4 Connecting the Memory Extension Unit ED About the Battery for UGxxP SR To set the battery in the SRAM cassette use the following procedure 1 With the plus side of the battery faced up set the battery in the socket of the SRAM cassette To set the battery insert the battery first in the plus side of the SRAM cassette and then insert it also in the minus side while pushing toward the side 2 Write the date year month day 5 years from today in the Next date to A EEA replace battery field on the attached Caution seal and stick the seal on the cassette according to the following figure H plus side Type UGO0P SR Lot No XXXXXXX See operating or maintenance instruction for type of battery to be used RiPOBMCIW TLRS ES
72. it out Do not twist or yank on the cable then 7 Remove the 2 screws fixing the board equipped with the backlight unit CFL unit connectors 8 Remove the board equipped with the backlight unit CFL unit connectors 9 Remove the two ribbon cables Front external case Rear external case Screw PC board Backlight unit CFL unit connectors Screw Ribbon cable connector Lock Ribbon cable connector loek oc Ribbon cable og Ribbon cable Slide the lock to release it AN Slide the lock with the ribbon cable holding down with your fingers The connector and the lock are not removable 7 How to Replace the Backlight Unit ED 10 Remove the 3 screws fixing the inside case Screws Screw Inside case Front external case LCD module 11 Remove the inside case from the front external case 12 Place the inside case with the display panel side up A Take care not leave scratches fingerprints or dirt on the display panel 13 Remove the 4 screws fixing the LCD module LCD module Inside case 14 Remove the LCD module from the inside case LCD module ED 7 How to Replace the Backlight Unit 15 Place the LCD module with the display panel side down A Place it on a cloth etc to protect the display panel from scratches 16 Release the lock of the backlight unit CFL unit Remove the unit by pulling it up LCD module rear Backlight units CFL unit
73. m PLC FG 1 PER 3 D sub 9pin Male m Use twist shielded cables 23 YASKAWA PLC 2 f 2 65 3 YASKAWA PLC 2 C P9200SH M P900 Available PLC Select PLC Type Link Unit Wiring Diagram RS 232C Wiring Diagram 1 CP9200SH CP 2171F Wiring Diagram 2 RS 422 Wiring Diagram 3 CP9200SH MP900 Memobus port RS 232C Wiring Diagram 1 on a CPU module RS 232C Wiring Diagram 1 ele RS 422 Wiring Diagram 4 The recommended communication parameter setting of both PLC and POD is as follows i eee eeo Communication Setting Available Memory Memory TYPE Remarks MW or devico a eT IW input register Pot Read only 1 MB coil 4 IB input coil 6 Read only When setting the MB IB memories set the bit number by HEX MBxxxx gt DEC Bit No HEX Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs GED 25 vaskawnric 2 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 FG 1 _ ___ i l RD 3 r i RD RS 4 cs 5 SG Wiring Diagram 2 t vy 7 SG CP217IF CN1 2171F CN1 2 D sub 9pin Male m RS CS Use twist shielded cables
74. memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CM se shino pic Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC D sub 25pin Male m Use twist shielded cables 39 samsuno ric ED O SAMSUNG PLC SPC series Available PLC Select PLC Sea Po Tie Wiring Diagram RS 232C Wiring Di 1 ETA S 232C iing agram ne RS 422 485 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows a E a BE TT Available Memory R input output L link relay K keep relay F special relay W_ data register SO Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CM 59 samsuns pic Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 9pin Male 4 Use twist shielded cables RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC D sub 9pin Male 4 Use twist shielded cables 40 KEYENCE PLC 1 KEYENCE PLC 1 KZ seres link Available PLC Select PLC Type Link Unit Wiring Diagram Port 1 KZ300 RS 232C
75. of POD Revision 1 Hardware Specifications 1 Special Features a en psen ool icles ol ated a A ead areas 1 1 2 NOTES ON USABE AAA vn tved voted vod A daptesterdesdustaedesicctectactestactenvestesss 1 2 oe OY Stem COMPOSIMON ii A ee Pele Tae Pee ec 1 4 A NNAMES OL Components bo i6 ost ois hast nck a a ace 1 11 5 Dimensions and Panel Cut out 1 13 G6 MOUNT S ProcOdure i it scacensensesswsscoeesteuiestwedcntendenientaescpseedendeasaescnaced tudectesdertertenses 1 18 To AAN 1 19 Ss SPECHICATOMS shot et oe A ad 1 21 9 Serial Connector CNI nai A ahcetawd eh 1 27 TO Setting Of Dip SWitChesyas c c cesses decceedescensesdvedeetestsedessectessecdecdestecten edvedVesVedbesdesuestashas 1 29 Te Modular Jack V6 2 esc 0e Ue Se E a as A OI I OSCE ESE EES CR ad sc EAA Ge 1 30 12 Bart Code R eader Int rtac 20 sei a ts 1 31 13 Printer Interface CNJ is ie 68 Sosee iaa i ided ded Raddadia vce neh vee 1 32 Y4 Video An lerfae APA tees 0a cvs coud E als A TN 1 33 THAN alos RGB MPA ton sa eet ee Na Pan a CoN Sass Tas dss ase Seale aie aR ta tees e 1 34 16 Connection 0 2 0 0 cee eeeeeeeeee eens 1 37 17 Ope ration of POD Main Menthe iiisisccctec ie ts iecodeodvodeonssepetiet oot o o ho e eaaa 1 42 18 FUNnCHON Switches esera eresse oa eiei iii don dn dan den daa o oaa a 1 59 2 Connection to Link Units ly FUJLPLO S iii T EE AS A 2 1 2 FUJLPLG E Zanu uraa araa dr 2 4 Se FUJI PLG S Ga E T A E E E
76. programs GED ui mitsusisui rc Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC D sub 9pin Female 4 Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m sane dl PLC FG Ae a Se D sub 25pin Male m SD RD RS Use twist shielded cables RS 422 Use the cable UGOOC E made by Fuji Electric Co Ltd RS 485 Wiring Diagram 3 POD CN1 D sub 25pin Male m Use twist shielded cables 12 mirsusis rico ED MITSUBISHI PLC 6 A Link Net 10 O POD can access other CPUs on the NET II B or NET 10 when POD is connected to one of the link units that the data link system or network system consists of Select A Link Net10 as PLC setting when configuring the screen data on the panel editor O To access other CPU on the NET II B or NET 10 from POD In case of NET II B only the network which has the CPU with the link unit connected to the POD e g No 1 can be accessed Available CPU No O to 30 In case of NET 10 other networks No 2 No 3 can be accessed in addition to the network No 1 Available CPU No 1 to 30 O To read write the memories of the CPU e g 1 1 of CPU which has the link unit to be connected to the POD 00000000 Link Unit POD Set the
77. replacing the backlight take appropriate preventive measures against static electricity The point of measures against static electricity is to keep the entire workplace including humans at the same electric potential Use an anti static wristband or mat to prevent static electricity 1 Turn the POD over and remove the 9 external screws AN Place it on a cloth etc to protect the display panel from scratches Rear external case Screws 2 Remove the rear external case AN Do not remove the gasket Connector D Front external case Connector A Connector B Connector C Ribbon cable i Ee at Gasket 3 O kovon cable 3 Remove the connectors A to E A Hold the connector and pull it out Do not twist or yank on the cable then Leave position marks on the connectors B and C A and D to check the positions when reattaching them 7 How to Replace the Backlight Unit Ey 4 Remove the three ribbon cables Ribbon cable connector Lock Ribpon caple connector Lock Ribbon cable Ribbon cable Slide the lock to release it AN Slide the lock with the ribbon cable holding down with your fingers The connector and the lock are not removable 5 Remove the 4 screws fixing the CPU board CPU board Screws 6 Raise the CPU board vertically until it is removed A Take necessary measures to protect the CPU board from static electricity Screw Insulating seal Conn
78. shielded cables 41 KEYENCE PLC 2 2 111 Wiring Diagram 2 POD CN1 D sub 25pin Male 1 PLC A 7 D sub 25pin Male M Use twist shielded cables Wiring Diagram 3 POD CN1 D sub 25pin Male m Use twist shielded cables RS 422 Wiring Diagram 4 POD CN1 D sub 25pin Male 4 Use twist shielded cables AD 22 kevence rio 3 KEYENCE PLC 3 KV KZsenes Available PLC Select PLC Type PLC Wiring Diagram KZ 10 16 24 40 80 300 350 RS 232C Wiring Diagram 1 or KZ KV Program port direct connection Cable made by KEYENCE OP 26487 Series CPU Connector made by KEYENCE OP 26485 KV Series RS 422 Cable made by KEYENCE KZ C20 Program port direct connection Cable made by FUJI UG200C M KZ 24 300 KZ 24 300 CPU Program port direct connection RS 232C Wiring Diagram 1 or Cable made by KEYENCE OP 26487 KZ 10 24 KZ 10 24 CPU Program port direct connection Connector made by KEYENCE OP 26485 KV 700 KZ 700 CPU Program port direct connection When using RS232C cable made by KEYENCE OP 26487 attach the D sub 25 pins connecter OP 26485 to the modular jack on the POD side to communicate Communication Setting KV series KV 700 series CPU The communication parameter setting of POD is done automatically KZ24 300 series CPU ee AAA w en oo Peppe pee gt gt gt 1 Maximum ba
79. to check the signals necessary for UG20 to communicate with PLC or a personal computer by using only POD OSignal Test of RS 232C in CN1 Select CN1 and RS 232C in Communication Port by pressing each switch Communication Port CN1 RS 232C MJ1 RS 485 MJ2 Loop back Test Check the signals SD and RD Jump pins 2 and 3 of CN1 The test is OK if the OK lamp turns on when the Self Loop Test switch is pressed If the NG lamp turns on when the same switch as above is pressed ask the advice of your distributor 2 Loop Test Self Logo Test eTest of CTS RTS Check the signals CTS and RTS Jump pins 4 RTS and 5 CTS of CN1 The test is OK if the CTS lamp and the RTS lamp turn on at the same time that the RTS switch is pressed Similarly the test is OK if the CTS turns off at the same time that the RTS is turned off I N iw Ni Loop Test Self Loop Test RTS Self Loop Test Self Loop Test 1 46 17 Operation of POD Main Menu OSignal Test of RS 485 in CN1 Select CN1 and RS 485 in Communication Port by pressing each switch Communication
80. twist shielded cables 1 2 86 29 GE Fanuc PLC 2 O GEFanuc PLC 2 90 series SNP X Available PLC Select PLC Type Wiring Diagram Series 90 micro 90 Series CPU port TAN RS 485 Wiring Diagram 1 SNP X Series 90 30 CPU port Communication Setting The recommended communication parameter setting of both PLC and POD is as follows a O o O AUS NETA Mi Available Memory TR Gaareosen fe AQ analog output za SA system status SB system status 10 SC system status Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 29 GE Fanuc PLC 2 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 485 Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC OA D sub 15pin Male 4 E Use twist shielded cables 2 87 2 88 30 TOSHIBA PLC TOSHIBA PLC Tsenes Available PLC Select PLC Type Wiring Diagram T Series RS 422 Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows For further information refer to the TOSHIBA s PLC manual Setting of PLC Comm Parameter of POD Baud Rate _ Trasmission Datatength eT ot stop Bit PLC Transmission Parameter Setting For specifying parameters in the T series PLC use a
81. using a sharp pointed device such as tweezers and engineering tools Do not touch any parts other than those necessary especially for the printed circuit boards Otherwise the body or unit may malfunction or become faulty D 7 How to Replace the Backlight Unit UG520H V UG520H V Backlight Unit Replacement Required Tool Screwdriver Precision screwdriver A Do not touch cables and boards that are not associated with backlight unit replacement Doing so may result in failure When replacing the backlight take appropriate preventive measures against static electricity The point of measures against static electricity is to keep the entire workplace including humans at the same electric potential Use an anti static wristband or mat to prevent static electricity 1 Turn the POD over and remove the packing 2 Remove the 6 screws from the rear external case Place it on a cloth etc to protect the display panel from scratches Rear external case Screws Packing 3 Remove the rear external case 4 Disconnect the backlight unit CFL unit connector A Hold the connector and pull it out Do not twist or yank on the cable then Backlight unit CFL unit connector Inside case Ribbon cables Front external case 7 How to Replace the Backlight Unit 3 21 5 Remove the two ribbon cables Slide the lock with the ribbon cable holding down with your fingers The connector is not remov
82. 0 5 Nom Check the appearance of POD when it is unpacked Do not use the unit if any damage or deformation is found POD has a glass screen Do not drop or give physical shock to the unit Notes on Cable Connection Connect the cables correctly to the terminals of POD in accordance with the specified voltage and wattage Over voltage over wattage or incorrect cable connection could cause fire malfunction or damage to the unit Be sure to establish a ground of POD The FG terminal must be used exclusively for the unit with the level of grounding resistance less than 100W e Prevent any conductive particles from entering into POD Failure to do so may lead to fire damage or malfunction Notes on Safe Use of POD Notes on Maintenance and Operation Fuji Electric Co Ltd is not responsible for any damages resulting from repair overhaul or modification of POD that was performed by an unauthorized person Do not use thinners for cleaning because they may discolor the POD surface Use alcohol or benzine commercially available Do not use a sharp pointed tool when pressing a touch switch Only experts are authorized to set up the unit connect the cables or perform maintenance and inspection If a data receive error occurs when POD and the counterpart PLC temperature controller etc are started at the same time read the manual for the counterpart unit and handle the error correctly Switch resolution of the POD UG20 ser
83. 024 Graphic Libraries Max 2560 Patterns Max 1024 Macro Blocks Max 1024 Page Blocks Max 1024 Direct Blocks Screen Blocks Max 1024 Temp CTRL PLC 2 Way Max 32 Calendar provided Hard Copy provided Buzzer provided 2 types intermittent short and long sounds Back light Auto OFF Function ON at all time specified freely Self diagnostic Function Self test function of switches Check function of communication parameter setting Check function of communication 1 Screen memory capacity of the main unit with the following or newer hardware version Approx 760k bytes for older versions or UG221 UG220 For hardware version check the value of the 3rd digit from the left in Ser No line on the rear of the main unit UG520H V gt 6 UG520H S gt 5 UG420H V gt 8 UG420H T gt 9 UG420H S gt 7 UG320H gt 4 2 Layer 4 per screen base 3 overlaps x3 For the memory setting limit refer to the User s Manual lt Function gt FEH376 4 The main unit with the following or newer hardware version is adapted to the temperature controller network UG520H V gt 4 UG520H S gt 3 UG420H V gt 5 UG420H T gt 5 UG420H S gt 4 UG320H gt 7 CED 8 Specifications Touch Panel Specifications All the UGx20 series Switch Resolution Specifications Analog 1024 W x 1024 H Matrix type UG221 20 W x 12 H pcs Form Resistance film form Life of Tou
84. 1 33 SIEMENS PLC 2 34 SIEMENS PLC 3 35 SIEMENS PLC 4 36 SIEMENS PLC 5 37 SIEMENS PLC 6 38 Shinko PLC 39 SAMSUNG PLC eee o o o o o o o NUBWNRFOAUBWNEHE 40 KEYENCE PLC 1 41 KEYENCE PLC 2 42 KEYENCE PLC 3 43 LG PLC 44 FANUC PLC 45 FATEK PLC 46 IDEC PLC 47 MODICON PLC 48 YAMATAKE PLC 49 TAIAN PLC 50 SAIA PLC 51 MOELLER PLC 52 Telemecanique PLC 53 Automationdirect PLC 54 VIGOR PLC 55 DELTA PLC 56 BALDOR PLC 57 TOYO DENKI PLC Ji FUJI PLC 1 MIC REX F series Available PLC NV1L RS2 RS 232C Wiring Diagram 1 F70 F70S NC1L RS2 RS 232C Wiring Diagram 1 MICREX F NCIL RS4 NCIL RS4 RS4 RS 485 Wiring Diagram 2 Seri ER F80H F120H F120S FFU120B RS 232C Wiring Diagram 1 F140S F15xS FFK120A RS 485 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows A A AAN papas aa gt gt Switch Setting MODE Switch RS 232C 1 RS 485 3 RS 485 Port Setting SW 0 for both x10 x1 RS 485 Terminal Resistor ON Character Switches No Setting Contents Switch setting Parity provided Even 7 bit 1 bit Same as POD normally 19200bps 1 OFF GED ruir Available Memory C C mwen O OO O f e IRTE special relay WF as word device Read only 1e For the items for which double word numeric type can be set e g numer
85. 1 E sE 1 i i a DR 7 1 1 a a E PHL 8 1 l 1 y YU Vy vo A PV12 14 Use twist shielded cables RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male M Use twist shielded cables se mac eic RD HITACHI PLC 2 HIDIC S10 Available PLC Host Link H 7338 Select PLC Type PLC Link Unit Wiring Diagram Interface on a CPU unit RS 422 Wiring Diagram 3 HIDIC S10 2alpha RS 422 Wiring Diagram 3 10 mini RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 2 HIDIC S10 ABS TTT RS 422 Wiring Diagram 3 1 Specify the memory by absolute addresses For further information refer to the relevant PLC manual Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate 19200bps Available Memory O HIDIC S10 2 a S10 mini Memory TYPE Remarks FW work register x input relay XW as word device lt output relay YW as word device D internal relay RW as word device global link O GW as word device A KW as word device am SS oe TW as word device e o oa MTRO Z2 a keep relay 4 on delay timer contact one shot timer contact UW as word device CW as word device up down counter contact TS on delay timer set value TC on delay timer elapsed value US one shot timer set value UC one shot timer elap
86. 16 12t024VDC CoM 0 Common point 21 Input type Off voltage contact NPN type Input voltage 12V to 24V DC En Voltage at ON 9 6 to 30V El Voltage at OFF 0to3 6V bes Maximum allowable 30V DC 5 voltage Allowable ripple ratio 5 or less Insulation type Rated voltage Maximum loaded current E Output delay Offto On 1 ms or less On to Off 1 ms or less 5 Residual voltage 1 7V Leak currentwhen Up to 0 1 mA turned off Insulation type Insulation using photocoupler 12V to 24V DC 50mA Input impedance 3KQ Input current 5to7mA OOutput circuit Output points 16 Common points 2 8 points groups Output type Output with transistor sink Insulation using photocoupler 12 to 24V DC Terminal base wiring The figure below shows the serial expansion I O unit terminal base configuration Refer to the figure below when connecting the lines 24y DC E E E 24V DC i h l 0 0 H E E m na s nz mo nj its mis out ours outs our7 oura ourto ourte outa Ai A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 B1 B2 B3 B4 BS B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 FG Nof mN2 na
87. 2 Wiring Diagram 2 Power Mate Power Mate i Model H D RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Banate t9200bps tives Soma fo Rsm y po rom Y ome Pay ven tices gt Transmission Data Lengh 8 fixed Cote stops times SS Available Memory Po anon OSC ra A a 2 E a internal relay O3 WR as word data keep relay WK as word data ier E E e com fe o S S S SSS S i Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs HED MATO Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC FG 1 JD42 SD 2 RDB 9 RD 3 SDB 17 RS 4 ov 18 cs 5 SG 7 Use twist shielded cables 1 Half pitch 20 pins RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 PLC RGN ac Past aS s Ti JD14 SG 7 RDB 1 SD 12 RDA 2 SD 13 SDB 3 RD 24 SDA 4 RD 25 OV 11 Use twist shielded cables JD15 1 Half pitch 20Pin RDB 1 R R 1200 12w RDA 2 Wiring Diagram 3 POD CN1 D sub 25pin Male f
88. 20H 5412K bytes OE Calendar function UG221P SR luG221H Data part Y SRAM backup function UG220 cannot be used A Warning Turn OFF the power before mounting dismounting wiring maintaining or checking otherwise electric shock erratic operation or troubles might occur Do not connect in reverse polarity charge except rechargeable ones disassemble heat throw in fire or short circuit the batteries otherwise they might burst or take fire O l batteries have any deformation spilled fluids or other abnormality do not use them The use of such batteries might cause explosion or firing A Caution O Follow the directions of the operating instructions and the manual when mounting the product If mounting is improper the product might drop or develop problems or erratic operations Connecting the Memory Extension Unit 1 Turn off the power 2 Remove the cover indicated in the figure below then set the memory extension unit 3 Turn on the power Firmly press the edges of the memory extension unit to mount it securely For a Memory expansion 2 H ON DIPSW i Turn on DIP SW NO 1 1 3 10 4 Connecting the Memory Extension Unit How to Use the UGxxP D4 The extension memory can be used for the two ways Memory expansion 1 The memory size increases as listed in the table below 1 2 Memory expansion 2 Turn on DIP SW NO
89. 211 2 X 158 4 mm A 10 4 inch display UG520 Display area 246 0 X 184 5 mm A 12 1 inch display Peripheral Equipment The following options are available for using UGx20 series more effectively UGOOS CWW3 Panel Editor for Windows98 NT4 0 Me 2000 XP Application software for editing display data for UG series UGOOC T Data Transfer Cable 3m Connects UGx20 to a personal computer or a personal computer to UGOOP MR UGOOC C Printer Cable 2 5m Connects UGx20 to a printer 3 System Composition CED UGOOP D4 UG221P D4 FPROM Cassette e UGOOP D4 for UG520 UG420 UG320 e UG221P D4 for UG221 Extension print circuit board to extend the memory for display data back up There is 4Mbyte type UGOOP SR UG221P SR SRAM Cassette e UGOOP SR for UG520 UG420 UG320 e UG221P SR_ for UG221 Extension print circuit board to back up the memory for sampling data Internal Memory and Memo Pad There is 512kbyte type It is also possible to set the calendar for displaying in UGx20 at this cassette UGOOP MR Card Recorder Reads display data created by personal computer or works as an external memory storage system for the memory manager and data logging functions UGOOP MSE Memory Card Editor Application software for editing data stored in a memory card For Windows 98 Me NT 4 0 2000 XP UGOOP TC Terminal Converter Used for connection between a UGx20 and a PLC at the RS 422 485 termi
90. 44 3964R RK512 RS 422 Wiring Diagram 3 S5 rey 5 135U 5 155U S7 300 CP 341 3964R RK512 RS 232C Wiring Diagram 2 S7 E S7 400 CP 441 3964R RK512 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows e O AT E Available Memory data register Use memories more than DB1 for S7 a O S wesvoaaeee aeaoy e a e internal relay FW as word device Read only only in S5 series internal relay MW as word device Read only only in S7 series T timer current value Read only Cc counter current value Read only AS absolute address 6 Can not be used in S7 series The assigned memory is indicated while g gt S5 S5 UG400 s7 editing the screen as illustrated DB003000 DB003 a E Address No e No Block No os Block No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 33 SIEMENS PLC 2 f 2 95 Notes on converting the data file of UG400 or UG200 into the UGx20 data file When converting the data file of UG400 or UG200 into the UGx20 data file the PLC type is automatically selected as SIEMENS S5 UG400 In UG400 or UG200 the order of bytes in I input relay Q output relay and F internal relay is reversed
91. 5 L 2 13 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 422 Wiring Diagram 1 connection of the UG200C N POD CN1 D sub 25pin Male m PLC o A N ITA o Use twist shielded cables RS 232C Wiring Diagram 2 POD CN1 D sub 25pin Male PLC NJ B16 D sub 15pin Malez4 RD 2 SD 3 CTS 4 5 7 RTS SG Use twist shielded cables 2 14 5 FUJI PLC 6 6 FUJI PLC 6 TOYOTA version NJ Computer Link Available PLC Select PLC Type FLEX PC Computer link 9 aor COM of FLEX PC NJ JM RS 422 Wiring Diagram 1 Connect to the terminal block of the NJ JM computer link For further information refer to the PLC manual Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps 4 3 a A Transmission Data Length Sode stop Bt x1 The station No other than zero 0 is invalid for communication PLC Setting It is necessary to set the computer link parameters in the file register on the PLC For the communication parameters above set 0026h into W0000 in the file register to define the OPDF command 6 FUJI PLC 6 EDB Available Memory data register a input relay output relay WX as word device WY as wor
92. 8kg Approx 1 1kg Dimensions W XH XD mm 182 5X138 8X50 182 5X138 8xX57 3 230X175 x66 1 Panel Cut out mm 174 85131 3 1743 131 9 220 55 X 165 55 Case Color DARK GREY BLACK 2 DARK GREY Material PC ABS PC PS PC ABS 1 including 4mm the size of boss for communication unit 2 equivalent to the Munsell color system N 2 0 1 22 8 Specifications Power Supply Rated Voltage AC Power Supply DC Power Supply AC PowerSupply DC Power Supply 100 240V AC 24V DC 100 240V AC 24V DC Permissible Range of Voltage 85 to 265V AC 24V 10 DC 85 to 265V AC 24V 10 DC 47 to 440Hz 47 to 440Hz Permissible Momentary Power Failure 20ms or less 10ms or less 20ms or less 10ms or less Demand 45VA or less 25W or less 50VA or less 25W or less Rushed Electric Current 20A 100V AC 30A 200V AC 30A 6ms 30A 6ms 20A 100V AC 30A 200V AC With stand voltage AC external terminals to FG 1500V AC per min DC external terminals to FG 500V AC per min Insulation Resistance 500V DC 10MQ or more o E c o gt uw 9 12 gt lt a Ambient Temperature 0 C to 50 C UG420 STN Color 0 C to 40 C Storage Ambient Temperature 10 C to 60 C Ambient Humidity 85 RH or less without dew condensation Dust No conductive dust Solvent Resistance No cutting oil or no organic solvent to cl
93. A Display lt gt Card Font Data Cancel VF Driver UG Program Start Cancel O Procedure of Data Transferring 1 Port Selection Select the Modular Jack MJ1 switch or Modular Jack MJ2 in case of using a modular jack Select the Memory Card Socket switch in case of using a memory card interface When each switch is pressed the Memory Card Information window is displayed In case of UG221 and UG220 pressing the Close switch leads to the original screen after checking the memory card information Memory Card Memory Card Port Selection Memory Gard Information V6 Program Modular Jack Memory Card Socket Transfer Versi gt VF Driver Display lt Caral Version Screen PLC Type Screen Comment Display gt Card Data Selection Psy gt cad Screen Data Font Data UF Driver UG Program In case of selecting Memory Card from Modular J ack 2 in the Others dialog of UGOOS CW it is possible to select the Modular J ack 2 switch in the Port Selection menu of the Memory Card screen on POD 17 Ope
94. Connectog B LCD module 7 How to Replace the Backlight Unit 3 39 17 Set and tighten the 4 screws for securing the LCD module LCD module Inside case 18 Put the inside case that has the LCD module mounted on it on the table with the display panel down Put a cloth or other protective material under the product so as not to damage the display panel 19 Mount the inside case on the front outside case Be careful not to allow dust or other foreign matter to enter the gap between the inside case and the front outside case Insert the optical fiber cable in the POWER hole on the front outside case Front outside case Inside case POWER hole Optical fiber cable D 7 How to Replace the Backlight Unit 20 Mount the 6 screws 21 Mount the connector for the backlight unit CFL unit 22 Mount connector B 23 Mount connector A Make sure that the connectors are correctly inserted in their original places by using the marks made before removal 24 Mount the 2 ribbon cables LCD module case Ribbon cable Connector for Connector A backlight unit CFL unit Connector B Front outside case Screw Connector for ribbon cable Lock Connector for ribbon cable iod Ribbon cable oc gt With the ribbon cable inserted in the connector slide the lock to lock it 25 Mount the rear outside case on the front outside case After fitting the rear outside case
95. D In this manual you will find various notes categorized under the following levels with the signal words DANGER and CAUTION Indicates an imminently hazardous situation which if not avoided will result in death or serious injury lt gt DANGER Indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury and could cause property damage CAUTION Note that there is a possibility that the item listed with CAUTION may have serious ramifications e Never use the input function of POD for operations that may threaten human life or to damage the system such as switches to be used in case of emergency Please design the system so that it can cope with malfunction of a touch switch e Turn off the power supply when you set up the unit connect cables or perform maintenance and inspection Failure to do so could cause an electric shock or damage to the unit e You must put a cover on the terminals on the unit when you turn the power on and operate the unit Without the terminal cover in place an electric shock may occur e The liquid crystal in the LCD panel is a hazardous substance If the LCD panel is damaged never swallow the leaked liquid crystal If the liquid crystal spills on your skin or clothing use soap and wash off thoroughly Notes on Safe Use of POD Notes on System Design Never bundle control cables and input output cables with high voltage and l
96. D SETTING IDE HARD DISK DETECTION SAVE amp EXIT SETUP EXIT WITHOUT SAVING Ese Out FIO Save amp Exit Setup 1h Select tem Shit F2__ Change Color CPU Name Type Speed 17 Operation of POD Main Menu 1 55 4 Then the Windows screen is adjusted Press the Adjust switch in the Setting 2 box to activate RGB display mode ee s RGB Adjust Main Menu Please refer to the manual Hardware Horizontal 31180Hz Vertical 59 Hz yy Setting 1 y Setting 2 Notused gt Not used Adjust Adjest AN PS E erm d With the Windows screen displayed adjust with switches F e 1 to F e 6 g E bd r 1 56 17 Operation of POD Main Menu 5 Press the Save switch to save the setting data The setting data is written in the flash ROM ge en RGB Adjust Main Menu Please refer to the manual Hardware Horizontal 31180 Hz Vertical 59 Hz y Setting y Setting 2 Notused _ Notused _ ES lt Adjust Adjust 6 By doing this screen adjustment is completed
97. D Slave POD Slave POD Slave Mine prepared by user CN1 UGOOP TC CN1 UGOOP TC CN1 UGOOP TC gt terminal resistance terminal resistance terminal resistance terminal resistance e Short circuit between RD and SD RD and SD when the UGOOP TC terminal converter is not used ED 16 Connection n 1 Link Communication Multi link O Multiple POD and a PLC are connected n 1 to 32 POD 1 POD 2 POD 3 POD n A A A E le le e le le E ll ll E ll ll S ll ll E le ll o e e The connections shown below are not recommended aaa RS 485 Maximum length 500m from PLC to the last POD ON O Available PLCs for multi link FUJI MICREX F series MITSUBISHI AnA N U series A link Net10 FX series Link A prt MITSUBISHI QnA CPU port with UGOOP DI OMRON SYSMAC C series CV series SHARP JW series JW100 70H COM Port JW20 30 COM Port HITACHI HIDIC H MATSUSHITA MEWNET YOKOGAWA FA500 FA M3 FA M3R YASKAWA Memobus CP9200SH MP900 TOYOPUC TOYOPUC TOSHIBA T series SIEMENS S7 200 PPI SHINKO SELMART SAMSUNG SPC series SECNET LG MASTER K500 K1000 16 Connection CED O When multiple
98. ER KxxxS CNET K4F CUEA RS 232C Wiring Diagram 4 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows MASTER K10 60 200 Baudrate oosten y JO one y O gt Transmission Data Length fe Code sosi t ey 4 MASTER K500 1000 Pay none Transmission Data Length ies A El aa 7 1 In case of RS 422 the baud rate is fixed at 9600bps MASTER KxxxS Setting of PLC Comm Parameter of POD Baud Rate 38400bps 38400bps None hed aa E Code 1103 43 LG PLC 12 115 MASTER KxxxS CNET GLOFA CNET GM series CPU Setting of PLC Comm Parameter of POD Baud Rate 38400bps 38400bps Transmission Data Length ee Available Memory O MASTER K10 60 200 el o Lo M auxiliary relay 7 O MASTER K500 1000 Memory Remarks input output Input read only relay link relay keep relay ni x rc z vu special relay Read only timer current value O counter set value o data register an 43 LG PLC O MASTER KxxxS ra ttn SY a AS F AN EAS AN AS O MASTER KxxxS CNET P input output Input read only PW as word device M relay MW as word device L link relay LW as word device K keep relay KW as word device F special relay 4 Read only FW as word device rr a K 2 SCS E INN IN re vinecorey O GLOFA C
99. FG 4 SG 7 SD 12 sD 13 RD 24 RD 25 Use twist shielded cables 1 Half pitch 20Pin FA TEK AUTOMATION PLC FACON FB series Available PLC Select PLC Type Link Unit Wiring Diagram RS 232C Wiring Diagram 1 FACON FACON FB series CPU Port FB series Wiring Diagram 2 RS 422 Wiring Diagram 3 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows ew e A Available Memory ACACIA ACI IS NES ENCINAS a 222 Ta nerareay a IS a 2 A PT tinerconec fe Reo Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CEB 45 rarek pic Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 1 PLC FG D sub 15pin Male M SD RD RS Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male amp PLC D sub 9pin Male M Use twist shielded cables RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 1 FG 1 POTRO TOTS Ta PLC SG Use twist shielded cables 65 IDEC PLC Available PLC Selet PLC Type Wiring Diagram RS 232C Cable made by IDEC FC2A KC1 or MIGROS MIGROS Cable made by
100. FUSI ELECARIE FUJI UGx20 SERIES PROGRAMMABLE OPERATION DISPLAY USER S MANUAL lt HARDWARE gt TYPE UG520H x UG420H x UG320H x UG221H x UG220H x FEH352c 2 ig i ie e ag i i Preface UG Series Thank you for selecting the Fuji Programmable Operation Display POD UG520 420 320 221 220 Series called as the UG20 or POD hereafter For proper set up you are requested to read through this booklet to understand more about the product For more information about UG20 series refer to the Reference Manual For further details about the PLC see the manual attached to each PLC Reference In addition to this manual the following manuals on the UG20 Series are available Please ask your nearest dealer for the appropriate manuals and read them as required Name Manual No Contents UG Series Manual FEH375 Describes how to operate screen editor lt Operation gt UGOOS CW for the UG Series UG Series Manual FEH376 Describes the functions of the UG lt Function gt Series UG Series Manual Describes the procedures for communication lt CC Link Communications gt FEH355 with PLCs using the optional CC Link interface UG Series Manual Describes the procedures for communication lt T Link Communications gt FEH356 with PLCs using the optional T Link interface UG Series Manual Describes the procedures for communication lt SX BUS Communications gt FEH357 with PLCs using the optional SX Bus interface
101. G MASTER KxxxS CNET Not provided HITACHI HIDIC S10 2 alpha Not provided LG GLOFACNET Not provided HITACHI HIDIC S10 ABS Not provided FANUC Power Mate Not provided MATSUSHITA MEWNET Depends on the model FATEK AUTOMATION FACON FB series Provided YOKOGAWA FA500 Provided IDEC MICRO3 Provided YOKOGAWA FA M3 Provided MODICON Modbus RTU Depends on the model YOKOGAWA FA M3R Provided YAMATAKE MX series Provided YASKAWA Memobus Depends on the model TAIAN TPO2 Provided YASKAWA CP9200SH MP900 Not provided SAIA PCD Provided TOYOPUC Provided MOELLER PS4 Not provided KOYO SU SG Depends on the model Telemecanique TSX Micro Not provided KOYO SR T Provided Automationdirect Direct LOGIC Depends on the model KOYO SR T K prt Not provided Automationdirect KOYO SU SG K Sequence Depends on the model Direct LOGIC K Sequence Depends on the model A B PLC 5 Not provided TOYO UGPC sx series Provided A B SLC500 Provided TOYO uGPC sx CPU Provided Up to 4 units can be connected to one PLC Use the terminal converter UGOOP TC the optional equipment made by Fuji Electric Co Ltd For details please see the User s Manual lt Multi link 2 gt FEH364 Wire the shielded FG only at the one of both sides so that they are not connected e Set the dip switch SW1 of UGOOP TC as 2 wire connection when the UGOOP TC terminal converter is used b d e POD Master Terminal block PO
102. HLTFEN Battery replacement _ EAS Y Caution seal Write the date 5 years from today The life of the battery for the SRAM cassette is approximately 5 years at 25 C When the battery voltage drops 4th bit of address s167 in the POD internal memory turns ON to prompt you to replace the battery In such case replace the battery as early as possible MSB LSB gsie7 15114 13 12 11 10 09 o oz os os oa os 02 or oo o o ofo ofo o ofo olo ofo 0 Uninstalled 1 Expansion memory 2M 2 Expansion memory 4M Reserved for memory cassette 3 SRAM Clock cassette data set to 0 zero Eoo cassette data L 1 Battery abnormal needs to be replaced Precautions for Using the UGxxP SR About battery replacement Before replacing the battery be sure to make backup files of the data stored in the UGxxP SR from the screen development editor For the backing up procedure refer to the User s Manual lt Operation gt FEH375 Adapted version To use the UGxxP SR the versions of the POD main unit and the screen development editor must be the following POD main unit and program version 1 200 or newerFont data version 1 100 1 090 1 000 or newer Screen development editor UGOOS CW 2 4 0 0 or newer About the replacement battery The following replacement battery is prepared Name Type
103. LC model Use TYPE number to assign indirect memory for macro programs PD e misusisus pic 2 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC connection of the UG200C M RS 422 Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC D sub 25pin Male M Use twist shielded cables AD According to our noise tests the attachment of a ferrite core improves noise voltage by 650 900V and aids in preventing communication errors O In case of direct connection with the CPU port of A QnA series be sure to attach the ferrite core to the cable between POD and the CPU port of A QnA series for noise m__JA QnA Series Fa CPU Ferrite core O A Ferrite core is sold as an optional accessory A noise filter ferrite core is sold as an optional accessory When you buy it specify ZCAT032 0930 as the model name O In consideration of such noise problems it is recommended that the standard type link unit be used in such a case when the cable length of more than 15m is required NS 8 MITSUBISHI PLC 2 L 2 25 Notes on using UGOOP DI Dual Port Interface O As the UGOOP DI is powered by a CPU check that the electric capacity of the CPU is at 5V power consumption max 350mA O The distance between the CPU and the UGOOP DI should be as short as possible max 1 to 1 5m O For wiring take appropriate measures to eliminate noise O Specify th
104. NET GM series CPU Memory TYPE Remarks M internal memory po MW as word device Q output QW as word device I input IW as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring 43 LG PLC 2 117 The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC D sub 9pin Male 1 Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC Ka PS EN D sub 25pin Male 4 TXD 2 RXD 3 GND 7 Use twist shielded cables Wiring Diagram 3 POD CN1 D sub 25pin Male sul pin Male 1 PLC See ae D sub 25pin Male m Use twist shielded cables Wiring Diagram 4 POD CN1 PLC D sub 25pin Male m D sub 9pin Male 4 Use twist shielded cables EDO sirio Wiring Diagram 5 POD CN1 D sub 25pin Male m PLC Use twist shielded cables RS 422 Wiring Diagram 6 POD CN1 D sub 25pin Male 4 PLC D sub 25pin Male 1 Use twist shielded cables Wiring Diagram 7 POD CN1 D sub 25pin Male 4 PLC SG RDA RDB SDA SDB Use twist shielded cables 4 FANUC PLC Available PLC Select PLC Type Wiring Diagram Port of CPU unit JD14 of Power Mate Model H D S 42
105. No Setting Contents 1 ON Data highway 57 6k bps 2 ON 3 ON 4 ON Link transmission speed 19 2k bps 5 ON 6 ON Local remote selection SW4 spare Setting Contents OFF eer Normally OFF for expansion 3 4 OFF O 1770 KF2 SW1 protocol No Setting Contents S re 2 IN Pret s on Dupieda message marcapasos a o ticas egal nore s or Poe o SW2 SW3 SW4 port Specify the port for 1770 KF2 This port should not be duplicated in the network SW5 network link transmission speed Adjust the setting according to the network you are using oe ontents o 2 4 ON ON 57 6k bps 2 78 26 Allen Bradley PLC 1 SW6 asynchronous link transmission speed Set the same speed as POD No Setting Contents 1 OFF 2 ON 9600bps 3 ON 4 ON Diagnosis execution SW7 network link selection Switch Setting 1 2 Contents ON OFF Peer transmission link SW8 RS 232C RS 422 selection ES es ontents Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m lt PLC FG 1 kal D sub 15pin Male M SD RD RS CS SG Use twist shielded cables 26 Allen Bradley PLC 1 2 79 Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC FG ok eee Ti D sub 25pin Femal
106. OD to the top of any apparatus generating high levels of heat heater ransformer large capacity resistor etc 3 Never install POD in the same compartment as high voltage equipment The unit should be at least 200 mm away from high voltage lines or power cables Usage 1 An emergency stop circuit must be composed of an external relay circuit with a start signal for POD built in Do not create switches on POD to be used in case of emergency gt EN N Stop A Y Switch to be used in emergency 2 POD has a glass screen Never drop or subject impacts the unit to strong 3 Tighten mounting screws with the following torques Type Screw Screw Size Torque Nem UG320 220 M3 0 3 to 0 5 UG221 M4 0 3 to 0 5 UG520 420 M4 0 5 to 0 7 Note Never fasten these screws too tightly otherwise the cover of POD may be deformed 2 Notes on Usage DD 4 Securely fasten and lock every connector for each cable Double check this before turning the power on A NS 5 Ina dry environment POD may generate a large amount of static electricity Therefore before touching the unit touch a grounded metallic section to discharge the static electricity 6 Application of thinner may discolor POD Use alcohol or benzine available commercially for cleaning o
107. PE Remaris l i input relay output relay bit memory timer current value counter current value timer contact CB counter contact C high speed counter contact AIW analog input AQW analog output SM special memory special relay SMW as word device S stage SW as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CED 35 SIEMENS PLC 4 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 422 Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC D sub 9pin Male 1 5 TXD RXD 3 TXD RXD Use twist shielded cables Setting of Terminal Resistance Set the dip switch 7 8 of POD to OFF Connect terminal registance to the POD serial connector CN1 as follows If terminal registance is not connected the communication error may occur POD CN1 D sub 25pin Male 4 36 siemens Pic 5 MID 65 SIEMENS PLC 5 11545 555 Available PLC Select PLC Type Wiring Diagram TI500 505 TI545 555 CPU port RS 232C Wiring Diagram 1 TI500 505 UG400 built in RS 422 Wiring Diagram 2 Communication Setting Connect the cable to the CPU port RS 232C built in port for TI545 555 The recommended communication parameter setting of both PLC and POD is as follows CO ew Mec AV SUS A E Available Memory Vv variable memory po
108. POD are connected to a link unit of PLC use the terminal converter UGOOP TC the optional equipment made by Fuji Electric Co Ltd for RS 485 connection e Set the dip switch SW1 of UGOOP TC as 2 wire connection when the UGOOP TC terminal converter is used POD UGOOP TC POD UGOOP TC POD UGOOP TC Link unit RD terminal resistance RD SD terminal resistance RD SD terminal resistance ON ON ON Use twist shielded cable e Short circuit between RD and SD and RD and SD when the UGOOP TC terminal converter is not used O When multiple POD are connected directly to MITSUBISHI s QnA CPU port the optional equipment UGOOP DI is required Also the use of the optional cable MB CPUQT which is to connect UGOOP TC on POD side to UGOOP DI on QnA CPU port side is recommended Set the dip switch SW1 of UGOOP TC as 2 wire connection when the UGOOP TC terminal converter is used UGOOP DI POD UGOOP TC POD UGOOP TC POD UGOOP TC UG port Signal Signal Pin No Signal FG EG SD SD SD SD RD RD RD RD SG SG 7 a RD terminal resistance RD SD terminal resistance RD SD terminal resistance RxD ON ON ON Use twist shielded cable e Short circuit between RD and SD and RD and SD when the UGOOP TC terminal converter is not used An n to 1 system can be als
109. Remarks Replacement battery for UGOOP SR UG221P SR UGOOP BT Coin type lithium primary battery 3 12 5 Connecting Communication Interface 5 Connecting Communication Interface O The optional communication I F unit is installed on the rear of the POD main unit to construct individual network UG520 420 320 221 uses UGO3I x UG220 uses UGO2I x Network Name I F Type Refer to the Manual s UGO3I T F T TLink UGO2I T T Link Communications FEH356 UGO3I J case OPCN 1 UGO2I J OPCN 1 Communications FEH358 UGO3I S fe cy SX BUS UGO2I S SX BUS Communications FEH357 Ethernet UGO3I E 2 Ethernet Communications FEH366 CC Link UGO3I C CC Link Communications FEH355 FL NET UGO3I E 2 FL NET Commnications FEH367 PROFIBUS UGO3I P PROFIBUS Communications FEH368 AN Warning Turn OFF the power before mounting dismounting wiring maintaining or checking otherwise electric shock erratic operation or troubles might occur A Caution Follow the directions of the operating instructions and the manual when mounting the product If mounting is improper the product might drop or develop problems or erratic operations External Dimensions UGO3I x e UGO2I x i 102 5 28 5 O Oo gt o o OO J 9 A B SG H L z
110. S PLC De fois cei dea AANE Ra TVAE AE EE a Tee tit itive eskei hee hes doidos Toi on os i EE enai 2 92 SIEMENS POD as 2 94 SIEMENS PLC E NI E E el de De Tie ici 2 96 SIEMENS PLC 4 5 SIEMENS PO O tt ire o E A aa a 2 99 SIEMENS PEC 00 irati is ns SEa EEEE a 2 101 O O ORRE AEREE EE EEE ERER E ooh cel oat EE E E ot et 2 2 103 MOELEER PLC E E E E E TETE 2 132 Telemecamque PEC heresis kesye rasar Ie E o nhe nie ae adeno ie aeniei pes ded oE Ta In aeiia EES Esaa 2 133 Automationdirect PLC ad VIGOR PLC iaa DELTA PLC suo Sp Sg Sig Sis t te oats tae ie a ea decide des den dene a a a a a Toi BALDOR PLC dcir ideas TOYO DENKI PLC 3 Handling of Peripheral Equipment 1 Connecting the UGOOP Uli A Andar 3 1 2 Connecting the UGOOPR U2 oa iss cas co a5 op neo a a e a eea ae ie e SEERE 3 3 3 Connecting the Memory Card Recorder ooccccnccnnnccnnnccnnnccnnnccnnnacnnnccnnnrcnonacnnnrcnnnncnnncccnnciss 3 6 4 Connecting the Memory Extension Unit ccoooccnnccnnnnccnnncnnnncnnencnnnncnnnacononccnnnccnnncononicnnacons 3 9 5 Connecting Communication Interface cooooccnnccnnnccnnnncnnnocnnnacnnnncnnnacnnnnconnncnnnocnnnnccnnnicnn 3 12 6 Connecting Dual Port Interact a 3 15 7 How to Replace the Backlight Unit 3 19 UGDZLOH N i EEEE E EE ee eins eee 3 20 UREA a O T E EE E EEE T 3 26 UGALOHT A E A E E wt 3 31 UGAZ A ESE 3 36 UG S20 A oh ath aot 404 186 454 oh E EER 3 41 UEM DA a 3 48 A A NN 3 53 Appendix Hardw
111. Screw 25 Attach the 2 screws to fix the board equipped with the backlight unit CFL unit connectors 26 Attach the backlight unit CFL unit connector Front external case Rear external case Ribbon cables 27 Attach the 2 ribbon cables Lock Ribbon cable connector Ribbon cable Screw Backlight unit CFL unit connectors Ribbon cable connector Lock Ribbon cable Insert the ribbon cable into the connector and slide the lock to set it 7 How to Replace the Backlight Unit 3 47 28 Attach the connector C 29 Attach the connector B A Check the positions of the connectors with their marks 30 Attach the connector A Power supply board connector Front external case Rear external case CPU board connector Connector B Connector C Connector A Visually check that all connectors and ribbon cables are connected se curely 31 Attach the rear external case to the front external case Fit the rear external case in position Press the case entirely so as to fit the power supply board connector with the CPU board connector inside 32 Attach the external 4 screws Rear external case Screws 3 48 7 How to Replace the Backlight Unit UG320HD UG320HD Backlight Unit Replacement Required Tool Screwdriver A Do not touch cables and boards that are not associated with backlight unit replacement Doing so may result in failure When
112. able Ribbon cable connector Lock Ribbon cable connector Kock Ribbon cable Slide the lock to release it Ribbon cable 6 Remove cord band and remove the LCD module connector by pulling it up N Hold the connector and pull it out Do not twist or yank on the cable then Screws Cord band Inside case Se Screws Front external case LCD module connector 7 Remove the 8 screws fixing the inside case 8 Remove the inside case from the front external case AN Take care not leave scratches fingerprints or dirt on the display panel 9 Place the inside case with the display panel side up 3 22 7 How to Replace the Backlight Unit 10 Remove the 4 screws fixing the LCD module 11 Remove the LCD module from the inside case Screws LCD module Inside case 12 Place the LCD module with the display panel side down A Place it on a cloth etc to protect the display panel from scratches 13 Partly remove the cushioning material The cushioning material is cemented with an adhesive Remove only the portion on the backlight unit CFL unit cover 14 Remove the screw fixing the backlight unit CFL unit cover Since the screw is small use a precision screwdriver to remove it 15 Use a precision screwdriver slide the cover in the direction of arrow 1 and remove the cover from the claws while pulling it up in a slanting direction as shown with the arrow 2 Cover
113. able Memory Memory TYPE Remarks DB data register po Use memories more than DB1 l input relay IW as word device Ca eae OO e CUTE Ta werenn 8 WWarwerdevee MACETAS a E 5 The assigned memory is indicated while editing the screen as illustrated lt E g gt DB0001 0000 t Address No Block No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 HMI Adapter PC Adapter SN arr D sub 9pin Female H RD 6 SD 5 SG 8 RTS 1 CTS 7 SS SS SS a My Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC D sub 9pin Male m RD SD 3 RD SD 8 Use twist shielded cables 58 shinko rc QED e Shinko PLC Available PLC Select PLC Type Link Unit Wiring Diagram SELMART SELMART 100 or later series Version O1M2 UCI 6x RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Transmision CESTO Fase ZEN ss CN E U Sumcnex Provided ixe __ Available Memory Only D register is available for this PLC model No other devices can be used although they are available to be set in theUGOOS CM Set the
114. aller numeric values are displayed in data display mode operation is performed normally 1 FUJI PLC 1 ED 3e When you access the file memory from the POD be sure to define FILE instruction on the PLC side File type must be SI 16 bit length Communication with file memories that are defined by BD DI etc cannot correctly be performed To specify a memory from the editor input File No colon address in this order Example To specify W30 2 lt E g gt W30 00002 C Address Colon File No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 1 PLC Use twist shielded cables RS 485 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 PLC SDA SDB RDA RDB SG Use twist shielded cables ED irc FUJI PLC 2 MIC REX SX series Available PLC RS 232C Wiring Diagram 1 MICREX SX SPH Series NETAS RS 485 Wiring Diagram 2 NP NP1L RS2 RS 232C Wiring Diagram 1 NP1L RS4 RS 485 Wiring Diagram 2 Only one unit of POD can be connected to one link unit except for Multi link 2 connection Communication Setting The recommended communication parameter setting of both PLC and POD is as follows
115. ar Port RS 422 Cable made by KEYENCE KZ C20 Cable made by Fuji UG200C M KZ A500 Port 1 MITSUBISHI RS 232C Wiring Diagram 2 A series link Rene Port 2 RS 232C Wiring Diagram 3 RS 422 Wiring Diagram 4 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows 4 CPU modular port of KZ A500 e pp 6 8 rayo __0 w ss Transmission DataLengh _s_______ _sa pis Terminal Resistor omtems42 o 1 In case of RS 422 the baud rate is fixed at 9600bps Link Unit KZ L10 Setting of PLC Comm Parameter of POD po o Baud Rate 19200bps 19200bps Set the port with the port setting switch the terminating resistance with terminator and the baud rate data bit parity stop bit with SET B dip switches For further information refer to the communication specifications of KZ L10 CHID kevence rio 2 Available Memory o data register link register file register timer current value counter current value internal relay latch relay link relay input relay 7 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 PLC D sub 25pin Male 4 Modular Connector 6pin Use twist
116. ar To Save Ns st dl With the BIOS screen displayed adjust with switches F e 1 to F e 6 SYSTEM Fe 1 F e 2 F e 3 F e 4 F e 5 F e 6 End of adjustment Vertical Screen is moved downward Vertical Screen is moved upward Horizontal Screen is move rightward Horizontal Screen is moved leftward Increments dots by 1 Decrements dots by 1 Adjustment of dots is made so that blurring is minimized a BIOS Screen ROM PCIISA BIOS 2A69KA1E COMS SETUP UTILITY AWARD SOFTWARE INC 11 CPU SOFT MENU 11 STANDARD CMOS SETUP BIOS FETUREES SETUP CHIPSET FEATURES SETUP POWER MANAGEMENT SETUP PNP PCI amp ONBOAD 1O LOAD SETUP DEFAULTS LOAD BIOS DEFAULTS PASSWORD SETTING IDE HARD DISK DETECTION SAVE amp EXIT SETUP EXIT WITHOUT SAVING Ese Oui FIO Save amp Exit Setup 1 Selec tem Shin F2 Change Color CPU Name Type Speed Kae SS When adjustment is completed press the SYSTEM switch to return to the RGB Adjust screen ia FE ROM PCIISA BIOS 2A69KATE COMS SETUP UTILITY AWARD SOFTWARE INC 11 CPU SOFT MENU 11 STANDARD CMOS SETUP BIOS FETUREES SETUP CHIPSET FEATURES SETUP POWER MANAGEMENT SETUP PNP PCI amp ONBOAD LO LOAD SETUP DEFAULTS LOAD BIOS DEFAULTS PASSWOR
117. are Specifications 1 Special Features 2 Noteson Usage 3 System Composition 4 Namesof Components 5 Dimensions and Panel Cut out 6 Mounting Procedure 7 Wiring 8 Specifications 9 Serial Connector CN1 10 Setting of Dip Switches 11 ModularJack1 2 12 BarCode Reader Interface 13 Printer Interface CN2 14 Video Interface 15 Analog RGB Input 16 Connection 17 Operation of POD Main Menu 18 Function Switches 1 Special Features EED 1 Special Features 1 9 128 color Display 128 color display which makes colorful expression possible is realized Not only drawings but also bitmap files are clearly displayed UG221 and UG220 is 16 color display Data Sheet Printing Function It is possible to make the original data sheet screen by the panel editor the editing software Daily reports or monthly reports that the operator must fill out can be printed in an instant Sampling Function This function makes it possible to store the sampling data in an IC card The stored data can be edited easily by a personal computer It can be used widely in various fields Macro Function With this function UGx20 series can make programs which previously had to be produced by PLC Multi Window Function Up to three windows can be displayed simultaneously on a screen It is easy to move or delete the displayed windows Video Function UGx20 series can be connected to a video or a CCD camera and the
118. arge current carrying cables such as power supply cables Keep these cables at least 200 mm away from the power supply or high voltage cables Otherwise malfunction may occur due to noise For use in a nuclear energy facility or other facility of such official importance please consult your local distributor Notes on Installation Operate or store POD under the conditions indicated in this manual and related manuals Failure to do so could cause fire malfunction physical damage or deterioration Understand the following environmental limits for use and storage of POD Otherwise fire or damage to the unit may result Avoid locations where there is a possibility that water corrosive gas flammable gas solvents grinding fluids or cutting oil can come into contact with the unit Avoid high temperature high humidity and outside weather conditions such as wind rain or direct sunlight Avoid locations where excessive dust salt and metallic particles are present Avoid installing the unit in a location where vibration or physical shock may be transmitted Equipment must be correctly mounted so that the main terminal of POD will not be touched inadvertently Tighten the POD mounting screws to the specified torque Excessive tightening may distort the panel surface Loose tightening may cause POD to come off malfunction or be short circuited Tighten terminal screws on the power input terminal block equally to a torque of
119. band or mat to prevent static electricity 1 Turn the POD over and remove the packing 2 Remove the 6 screws from the rear external case A Place it on a cloth etc to protect the display panel from scratches Rear external case Screws Packing 3 Remove the rear external case 4 Disconnect the backlight unit CFL unit connector AN Hold the connector and pull it out Do not twist or yank on the cable then Ribbon cables Inside case Backlight unit CFL unit connector Front external case 3 32 7 How to Replace the Backlight Unit 5 Remove the two ribbon cables Slide the lock with the ribbon cable holding down with your fingers The connector is not removable Bibbon eable conneator Lock Ribbon cable connector Lock Ribbon cable Ribbon cable Slide the lock to release it 6 Remove the 6 screws fixing the inside case Screws Inside case Screws Front external case 7 Remove the inside case from the front external case AN Take care not leave scratches fingerprints or dirt on the display panel 8 Place the inside case with the display panel side up 9 Remove the 4 screws fixing the LCD module Screws LCD module Inside case 7 How to Replace the Backlight Unit 3 33 10 Open the LCD module by turning it to the left and remove it from the inside case Place it with the display panel side down AN Place it on a cloth etc to protect t
120. between the inside case and the front external case 25 Attach the 8 screws 7 How to Replace the Backlight Unit 3 25 26 Attach the 2 ribbon cables Pass one ribbon cable under the ribbon cable guide 27 Attach the backlight unit CFL unit connector Do not twist or yank on the cable of the backlight unit Backlight unit CFL unit connector CPU board connector Cord band Ferrite core Inside case Ribbon cables AAN LCD module connector Guide Pass this under the guide Ribbon cable connector Lock Ribbon cable Ribbon cable connector Lock Ribbon cable Insert the ribbon cable into the connector and slide the lock to set it 28 Attach the LCD module connector Secure the ferrite core using a cord band A Do not twist or yank on the cable of the LCD module i Visually check that all connectors and ribbon cables are connected se curely 29 Attach the rear external case to the front external case Fit the rear external case in position Press the case entirely so as to fit the panel board connector with the CPU board connector inside 30 Attach the external 6 screws 31 Attach the packing Rear external case Packing ED 7 How to Replace the Backlight Unit UG420H V UG420H V Backlight Unit Replacement Required Tool Screwdriver N Do not touch cables and boards that are not associated with backlight unit re
121. ch Panel Use of one million times or more Function Switch Specifications All the UGx20 series Number of Switches Specifications 8 6 for UG221 UG220 Type of Switch Life of Switch Pressure sensitive switches Use of one million times or more Interface Specifications All the UGx20 series Serial Interface for connecting PLC D sub 25 pins female Specifications RS 232C RS 422 485 Asynchronous type Data length 7 8 bits Parity even odd none Stop bit 1 2 bits Baud rate 2400 4800 9600 19200 38400 57600 115000bps 115200bps is invalid for UG221 UG220 Serial Interface 1 and 2 for transferring data other external modular jack 8 pins RS 232C RS 422 485 2 wire connection UGOOP MR Bar code UGOOP U2 Multi link 2 Temperature control network UG Link Printer Interface Complies with centronics half pitch 36 pins for PC98x1 NEC PR201 EPSON compatibles with ESC P24 84 or later HP PCL Level 3 CBM292 293 printer The screen copy cannot be printed out Drawing Environment All the UGx20 series Specifications Drawing Method Exclusive drawing software Drawing Tool Name of exclusive drawing software UG00S CW Personal computer Pentium2 450 MHz or above recommended OS Microsoft Windows 98 Me NT version 4 0 2000 XP Capacity of hard disk required free area of approx 460MB or more for minimum installation approx 105Mbyte resolu
122. colon address lt E g gt F1 00002 t Address Colon File No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 15 Sharp PLC 1 5D Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 15pin Male M Use twist shielded cables RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male M PLC D sub 15pin Male 4 Use twist shielded cables Wiring Diagram 3 POD CN1 D sub 25pin Male amp GED 16 sharp pic 2 6 Sharp PLC 2 J W 32C UH 33C UH Available PLC RS 232C PG COMM2 Wiring Diagram 1 JW 32CUH Communication port JW 33CUH on a CPU unit RS 422 PG COMM1 Wiring Diagram 2 PG COMM2 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows eS A a N MIN yt eg E DOI A a C rmson cono Gommand mode ine gt gt PLC System Memory Setting in case of a communication port Set communication condition in the system memory 234 235 for PG COMM port 1 or 236 237 for PG COMM port 2 to communicate with a personal computer Available Memory X9XXX register 16 Sharp PLC 2 1 To set up Fn file register input File No colon address
123. d device file register ME timer current value Read only counter current value 8 Read only MEA special relay WV as word device x The current values of the timer and counter are indicated with TN CN for purposes of convenience in the table above The actual value is T C Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 422 Wiring Diagram 1 POD CN1 D sub 25pin Male 4 Max 500 m Use twist shielded cables Recommended cable O VCTF SS 2C x 0 75 mm made by Chyugoku Densen 2 16 7 MITSUBISHI PLC 1 Y MITSUBISHI PLC 1 A Q senes link unit Available PLC Select PLC Type Link Unit Wiring Diagram A series link QnA series link QnH Q series link AJ71C24 S6 A2A ASA AJ71C24 S8 AJ71UC24 A2U A3U A4U AJ71UC24 RS 2320 Wiring Diagram 2 AJ71C24 die eo A1 A2 A3 AJ71C24 S3 RS 422 Wiring Diagram 3 A1N A2N ABN AJ71C24 S6 A3H A3M A73 AJ71C24 S8 AJ71UC24 AOJ2 AOJ2H A0J2C214 S1 A1SJ71UC24 R2 RS 232C Wiri A2US A1SJ71UC24 R4 RS 422 W A1SJ71UC24 PRF RS 232C Wi Diagram 1 3 Q gram 3 5 3 Olay iagram 1 A1SJ71C24 R2 RS 232C Wiri iw iagram 1 A1S A1SJ A2S A1SJ71C24 R4 RS 422 Wiri A1SJ71C24 PRF RS 2320 iagram 1 A2CCPUC24 CPU built in po
124. de 2 byte 16 dot JIS 1st and ond ASCII code Chinese 2 byte 32 dot JIS 1st ASCII code Size of Characters 1 4 size 8 x 8 dots 1 byte 8 x16 dots 2 byte 16 x 16 dots or 32 x 32 dots Enlarge W 1to8 H 1to8 Number of Characters Resolution 320 x 240 640 x 480 800 x 600 1 4 size 40 columns x 30 lines 80 columns x 60 lines 100 columns x 75 lines Chinese simplified Hangul without Kanji 1 byte 40 columns x 15 lines 80 columns x 30 lines 100 columns x 37 lines 2 byte 20 columns x 15 lines 40 columns x 30 lines 50 columns x 37 lines Property of Characters Display property normal reverse blinking bold shadow Color 128 colors blinking 16 colors 16 colors blinking Monochrome 8 gradation blinking Kind of Drawing Lines line continuous lines box parallelogram polygon Circles circle arc sector ellipse elliptical arc elliptical sector Others tile patterns Property of Drawing Type of lines 6 types fine thick dot chain broken two dot chain Tile patterns 16 types incl user definable 8 types Display property normal reverse blinking Display color 128 colors blinking 16 colors 16 colors blinking Monochrome 8 gradation blinking Color specification foreground background boundaries line 8 Specifications GED Function Performance Specifications All the UGx20 series Specifications Screens Max 1024 Screen Memory FP ROM flash memory
125. ds on the mode TOSHIBA T series Provided FUJI FLEX PC CPU Depends on the mode SIEMENS S5 Not provided FUJI FLEX PC COM T Provided SIEMENS S7 Not provided FUJI FLEX PC T Depends on the mode SIEMENS S5 UG400 Not provided FUJI FLEX PC CPU T Depends on the mode SIEMENS TI500 505 Provided MITSUBISHI AnA N U series Provided SIEMENS TI500 505 UG400 Provided MITSUBISHI QnA series Provided SIEMENS S5 PG port Not provided MITSUBISHI ACPU Port Provided SIEMENS S7 300MPI HMI ADP Not provided MITSUBISHI FX series Depends on the mode SIEMENS S7 300MPI PC ADP Not provided MITSUBISHI QnACPU Port Provided SAMSUNG SPC series Not provided MITSUBISHI QnHCPU Port A Provided SAMSUNG N_plus Provided MITSUBISHI QnHCPU Port Q Provided SAMSUNG SECNET Depends on the model MITSUBISHI FX series Link A prt Provided KEYENCE KZ series Not provided MITSUBISHI FX2N series Depends on the model KEYENCE KZ A500 CPU Port Provided MITSUBISHI FX1S series Provided KEYENCE KZ KV series CPU Not provided OMRON SYSMAC C Depends on the model KEYENCE KZ24 300 series CPU Not provided OMRON SYSMAC CV Provided KEYENCE KV10 24 series CPU Not provided OMRON SYSMAC CS1 Provided KEYENCE KV700 series CPU Provided SHARP JW series Provided LG MASTER K10 60 200 Not provided SHARP JW100 70H COM Port Provided LG MASTER K500 1000 Not provided SHARP JW20 COM Port Provided LG LGMKX00S Not provided HITACHI HIDIC H Provided L
126. e H SD RD RS RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 4 PLC D sub 25pin Female 4 Use twist shielded cables CED 27 Allen Bradley PLC 2 Allen Bradley PLC 2 SLC 500 series Micro Logix1000 Available PLC Select PLC Type Link Unit Wiring Diagram CPU Processor module RS 232C channel RS 232C Wiring Diagram 1 SLC500 SLC 5 03 or later models RS 232C Wiring Diagram 2 RS 422 Wiring Diagram 4 1747 KE RS 232C program transfer Micro Logix 1000 Micro Logix 1000 Port on a CPU cable made by Allen Bradley RS 232C Wiring Diagram 3 When using RS232C program transfer cable made by Allen Bradley connect the cable of Wiring Diagram 3 to the D sub 9 pin side of program transfer cable to communicate with POD Communication Setting The recommended communication parameter setting of both PLC and POD is as follows SLC500 series O e a o T o S ee ee ei orense __ panas Nove __ Micro Logix 1000 Setting of PLC Comm Parameter of POD Baud Rate 9600bps 9600bps Prot Pt o ef Transmission Data Length 27 Allen Bradiey PLC 2 QED Available Memory ACACIA ACI AE B o ME A r ACI CS TA inersetvaney sf 8 SCS OP countericurrentvalue 4 CA counterisetvalue ST II ACI CIT EE G e EA AECI CC counter control R control control R LEN control data length R POS
127. e OK switch continues the transferring The Cancel switch stops transferring Undefined Error occurred The error occurred due to some cause other than the above mentioned 17 Operation of POD Main Menu y Screen Adjustment Option UG420H T RGB input adapted product only Depending on what type of personal computer is used RGB output frequency for Windows screen BIOS screen or DOS screen changes Therefore adjustment is necessary When there is only one type of output frequency select either Setting 1 or Setting 2 How to adjust 1 Display the local MAIN MENU screen ge T Main Menu UG420H TC12 1998 5 5 07 23 30 System Information FONT IF DRV VER 1 100 SYSTEM PROG VER 1 150 VER 1 000 01 020 1 000 MELSEC AnANU JAPANESE 32 Screen Data Eror Sio PLC Type MITSUBISHIANA NU series p Information Comment DEMO Screen Time Out 0 50 sec Size 7864321 Retry 3 Connection 1 1 Baud Rate 19200 Signal Level RS 232C Data Length 7 PLC Stat No 0 StopBit 1 Parity Even Send Delay Omseo RGB Adjust a Memory Editor MJ1 Card VO Test MH e lt se 2 With the RGB Adjust switch display the RGB Adjust screen Main Menu UG420H TC12 1998 5 5 07 23 20 System Informat
128. e case 7 How to Replace the Backlight Unit 3 37 6 Remove the two ribbon cables Connector for ribbon cable Connector for ribbon cable Lock Lock X Ribbon cable Slide the lock to unlock it The connector cannot be removed 7 Remove the 6 screws that fix the inside case Ribbon cable 8 Remove the inside case from Inside case the front outside case Front outside case 9 Put the inside case on the table with the display panel up 10 Remove the 4 screws that fix the LCD module 11 Remove the LCD module from the inside case LCD module Inside case 12 Put the LCD module on the table with the display panel down Put a cloth or other protective material under the product so as not to damage the display panel 3 38 7 How to Replace the Backlight Unit 13 Pull out the backlight unit CFL unit to the left as shown in the figure below Pull up the locks indicated in the figure below to unlock them Pull out to the left pa y E z Backlight unit CFL unit LCD module rear Backlight unit CFL unit LCD module 14 Insert the new backlight unit CFL unit Insert the new backlight unit until it locks completely 15 Put the LCD module on the table with the display panel up 16 Mount the LCD module on the inside case Pass the cables through the inside case Connector for backlight unit CFL uni Ribbon cab Connector A
129. e displayed on the Main Menu screen changes with the option provided from the manufacturer the communication I F unit installed or the screen setting temperature controller etc Main Menu The Main Menu is the system menu for transferring the data between a personal computer and POD When the screen data is transferred from a personal computer to POD the Main Menu must be displayed If Editor port is selected for Modular Jack 1 in the P2 menu of the editing software or the on line editing is executed it is not necessary to display the Main Menu 17 Operation of POD Main Menu CED System program version Model name of POD Font data version Data size Syster tion SYSTEM PROG VER 1 009 VER 1 000 1 000 1 000 JAPANESE 32 PLC I F driver Soon Data n PLC Type MITSUBISHIAnA N U series r Ea version and name J Size 786432 Comment inead o PLC type and comment i 6 og Multi Lin Metwork Connection 1 1 Baud Rate 19200 specified by the panel editor o Signal Level RS232C Data Length 7 Ve Total 2 PLC Stat No 0 Stop Bit 1 Retry 10 Parity Even Send Delay Omsec Setting of comm parameter Multi link setting This menu is displayed only in case of selecting 1 1 Mene cara VO Test in Connection of Comm Parameter Setting of modular jack Main Menu of UG221 UG220 Model name of
130. e of each PLC model Use TYPE number to assign indirect memory for macro programs GED iomitsusisni pic Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Use the cable UGOOC X 3m made by Fuji Electric Co Ltd in case of RS 232C connection RS 422 Wiring Diagram 1 connection of the UG200C M POD CN1 D sub 25pin Male 4 FG SG SD SD RTS PLC D sub 25pin Male mM RTS CTS CTS RD RD toy of 21 Ww y Use twist shielded cables Wiring Diagram 2 connection of the UGOOC E POD CN1 PLC D sub 25pin Male m Minimum DIN 8pin Male M FD 1 1 RxD 12 2 RxD 13 4 TxD 44 7 TxD 17 18 19 Use twist shielded cables According to our noise tests the attachment of a ferrite core improves noise voltage by 650 900V and aids in preventing communication errors O In case of direct connection with the CPU port of A QnA series be sure to attach the ferrite core to the cable between POD and the CPU port of A QnA series for noise Ferrite core O A Ferrite core is sold as an optional accessory A noise filter ferrite core is sold as an optional accessory When you buy it specify ho ZCAT032 0930 as the model name 18 MITSUBISHI PLC 4 CED Notes on using UGOOP DI D
131. e value more than 150 1 5 sec in Time out Time of Comm Parameter in case of connecting POD to a UGOOP DI MITSUBISHI A QnA Series SS A6GPP A7PHP personal computer etc g ETE In case of direct connection with the CPU port of A QnA series plug the rear connector of UGOOP DI in the CPU port or use the cable UG200C G made by Fuji Electric Slide swith A Oi 1 Aseries 2 QnA series 3 FX series Note i Be sure to turn the power off when changing over of the __ sliding switch PAD msuisn pic 3 9 MITSUBISHI PLC 3 QnH senes CPU Connection Connect to the QnH series CPU The communication parameter setting of POD is done automatically Available PLC Select PLC Type Wiring Diagram QnH A series CPU QO6H A RS 232C UGOOC Q or Wiring Diagram 1 QnH Q series CPU QO6H 1 About the ladder transfer function refer to Appendix When the CPU is updated or the specifications are changed there is some possibility that POD cannot be connected to the PLC 9 MITSUBISHI PLC 3 2 27 Available Memory MEAN a ga a EA a MET CIN DEIS NET CTO ec F latch relay O7 link relay MEN input relay O2 output relay 10 timer contact 1 1 timer coil CS counter contact CC counter coil 1 1 EA y EA ed 0 es ee 0 00 EN 00 IN 0 las Y 8 9 0
132. ebugging Connect to POD or GPP personal computer A6GPP etc Connector for GPP Enlarged view Mitsubishi A QnA FX series can be used to connect When connecting to A series or QnA series CPU insert the connector provided on the rear directly to the CPU port or use UG200C G A sold separately When connecting to FX1 2 series CPU use UG200C G sold separately ZA VA A w Sliding switch Used to select the model of Connector connected device for POD 1 A series ACPU port 2 QnA series QnACPU port 3 FX series Connector for CPU port When connecting to FXON 2N series CPU use the conversion cable FX 20P CADP supplied from Mitsubishi Note Be sure to turn the power off when changing over of the sliding switch UG200C G sold separately UG200C M POD UG520 420 320 221 220 UG400 210 2 To use for connecting two units of POD PODs can be connected on the GPP side as well as on the UG side see the above figure For this the cable used on the GPP side must be the same as that used on the UG side UG200C M Precautions for Use 1 Be careful of the capacity of the 5V power supply of the CPU because the UGOOP DI is supplied power from the CPU current consumption max 350 mA 2 The wiring length between the CPU and the UGOOP DI shall be as short as possible max 1 to 1 5 m 6 Connecting the Dual Port Interface 3 17
133. ector Inverter board 7 Remove the 2 insulating seals from the inverter board 8 Remove the connector from the inverter board ED 7 How to Replace the Backlight Unit 9 Remove the 2 screws fixing the inverter board 10 Remove the inverter board and detach two connectors from the backlight unit Backlight units CFL units connector Backlight units CFL units 11 Release the lock of the backlight unit CFL unit Remove the unit by pulling it up Lock 12 Attach a new backlight unit CFL unit Make sure that the lock is secured N When taking a new backlight unit out of the bag do not twist or yank on the cable 13 Attach the backlight unit CFL unit connector to the inverter board 14 Attach the 2 screws to fix the inverter board Screw ENB lamp hole Insulating seal Bh Screw A Power connection hole Connector 7 How to Replace the Backlight Unit CED 15 Attach the connector to the inverter board 16 Attach the 2 insulating seals to places above the resistors between the coil and the connector on the inverter board 17 Attach the CPU board AN Insert the LEDs into each hole of the POWER lamp and the ENB lamp 18 Attach the 4 screws to fix the CPU board Tighten one screw at the bottom right with an earth cable terminal Screws Earth cable 19 Attach the 3 ribbon cables Ribbon cable connector Lock Ribbon cable connector Ribbon cable Lock Ribbon
134. ed in the package to the hole on the upper left side then mount the I F unit I F unit E TTT Mounting screws 3 positions Tightening screws for fixing a unit See the table below for how to tighten the screw for fixing a unit Type of screw Screw size Tightening torque Nem Unit mounting screw 0 3 to 0 5 Mounting the I F unit UGO2I x I F unit Route the insulated cable through the notch Remove the seal for preventing dust attached on the back of the POD as shown in the figure on the right Mount the I F unit then secure it using the 4 screws Connect the insulated cable with the ground terminal on the POD I F unit Mounting screws 4 positions Route the communication cable For details regarding how to lay and connect the communication cable refer to the corresponding user s manual POD Tightening screws for fixing a unit See the table below for how to tighten the screw for fixing a unit Type of screw Tightening torque Nem Unit mounting screw 0 3 to 0 5 6 Connecting the Dual Port Interface ED 6 Connecting the Dual Port Interface O The UGOOP DI unit makes the connector for programmer of MELSEC A QnA or FX series CPU of Mitsubishi PLC into two port type It is used to connect POD and PLC loader at the same time for debugging PLC program or to connect two units of
135. ews Cover panel side Screw Attachment cover Secure the attachment cover to the cover panel using the screws UGOOP MR body Cover panel side Attachment cover Insert the UGOOP MR into the attachment cover then secure it using four screws Cover panel side See the table below for how to tighten Attachment cover the screw for fixing a unit Screw type Tightening torque Nem 0 3 to 0 5 Screw for securing a unit Screw ro Secure the body by screwing every side ED 3 Connecting the Memory Card Recorder Connecting the Memory Card Recorder with the POD E Connecting the UGOOP MR with the POD Screen data transmission and an external storage device functions for data logging and memory manager can be used when connecting the UGOOP MR with the POD Connect the UGOOP MR with the POD as shown in the figure on the right Connect the cable External Storage Device data logging and memory manager O To use MJ2 MJ1 for an external storage device specify Memory Card for Modular Jack 2 Modular Jack 1 at Modular in System Settings on the editor O To use data logging or memory manager with modular jack 1 set DIP SW6 to ON termination resistor Enabled at the back of the POD Transferring Screen Data between the UGOOP MR and POD O To use MJ1 to transfer screen data specify either Editor Por
136. g A MEME fs SY ACOMETER IN ia RA 7 internal relay latch relay 7 link relay input relay EN output relay 10 link buffer SD special register QnA QnH Q series only SM special relay QnA QnH Q series only QnA QnH Q series only QnA QnH Q series only ZR 2 QnA QnH Q series only file register continuous access SB special link relay 1 SW special link register 1 10 11 12 13 counter coil 5 6 7 8 9 0 1 The unit No is required in addition to the memory type and the address Convert a byte address into a word address to enter the data if the memory device of link unit is byte address Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CD msusi Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC A D sub 9pin Male M Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC D sub 25pin Male 4 7 MITSUBISHI PLC 1 RS 422 Wiring Diagram 3 POD CN1 D sub 25pin Male 4 Use twist shielded cables Wiring Diagram 4 POD CN1 D sub 25pin Male 4 PLC D sub 25pin Male mM L lt L a Sarean a ojl Nj N be e a a Use twist shielded cables BAD i mirsusisui ric 2 S MITSUBISHI PLC 2
137. gram 4 AFP5462 RS 232C Wiring Diagram 1 RS 232C port F RS 232C Wiring Diagram 1 AFP5462 RS 232C Wiring Diagram 1 AFP3462 RS 232C Wiring Diagram 1 AFP3463 RS 422 Wiring Diagram 4 RS 232C tool port RS 232C cable made by Matsushita on a CPU unit AFC8513 FPO RS 232C port j r 3 on a CPU unit RS 232C Wiring Diagram 3 RS 232C tool port RS 232C cable made by Matsushita on a CPU unit AFC8513 RS 232C port on a CPU unit MEWNET RS 232C port f f pine RS 232C Wiring Diagram 1 RS 232C Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows 7 rarenisien contol comprar konto eg E vad ee ss If a tool port the ladder port for RS 232C of FPO is used the range of PLC parameter setting is limited as below Adjust PLC parameter setting to comm parameter setting of POD Baud rate 9600 19200bps Parity Odd fixed Data bit 8 7 can be selected Normally 8 Stop bit 1 fixed 19 Matsushita PLC B Switch Setting of Link Unit 2 or a 182006 OFF normally 19200bps OFF le pon poo m Ek lea o cscbmad Available Memory C CI ck MCCAIN IN MEME IN INN IN EA a Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 1 2 56 19 Matsushita PLC Wiring The following is a diagram to show the wiring of the cable w
138. gram 6 CV500 CV1000 RS 232C SYSMAC CV CV2000 PORT1 Wiring Diagram 3 CVM1 CV500 LK201 PORT2 Wiring Diagram 2 RS 422 PORT2 Wiring Diagram 5 CPU unit with a built in RS 232C Wiring Di 2 RS 232C port host link port 9 2920 Mining Diagram SYSMAC CS1 CS1 CS1W SCU21 RS 232C Wiring Diagram 2 Communication board RS 232C Wiring Diagram a CS1W SCB41 RS 422 Wiring Diagram 7 CEE unit with a built in RS 232C Wiring Diagram 2 CEE port host link port 1 Cannot be connected to POD by multi link connection 2 Exchange the shell the side of D sub25 recommendation 17J 25 made by DDK CED 13 omnoneic 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows boli eae las ea Al TASC Command Level 3 fixed O g k 1 n fixed E ES Internal Synchronization fixed gt k OV normally ON fixed For the SYSMAC Series and COM1 Series set 0001 into DM6645 and 0304 HEX into DD6646 on the RS 232C port at the CPU side to use the recommended communication settings indicated in the table above For the CS1 Series store the values which match the communication setting in D32000 D32010 and the following when the communication board is used for communication in the memory space corresponding to machine No when the communication unit is used If SYSMAC C is selected at the Select PLC Type dialog set the Trans
139. gram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male amp PLC SSS A A D sub 9pin Male 4 d 1 p 3 1 1 1 1 2 TX l cod it 3 RX 1 l 1 I 1 E n 5 SG y vo Use twist shielded cables 52 Telemecanique PLC dB Telemecanique PLC Available PLC Select PLC Type PLC Wiring Diagram TSX Micro TSX Micro RS 485 Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows connection Muime AA Transmission 8 fixed oe Available Memory MW memory Word KW constant word M bit memory Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 485 Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC SS MiniDIN 9pin Male 4 OV 7 D 1 gD 53 Automationdirect PLC 3 Automationdirect PLC Available PLC Select PLC Type Link Unit Wiring Diagram Port 1 on a CPU unit RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 5 Direct LOGIC z Port 3 on a CPU unit RS 485 Wiring Diagram 6 a 2 on a CPU unit RS 232C Wiring Diagram 2 Por2ona cru unit 2 on a CPU unit D2 250 Port 2 on a CPU unit RS 232C Wiring Diagram 3 RS 232C Wiri
140. he display panel from scratches Mao SS Inside case LCD module rear 11 Hold down the claw and pull the backlight unit CFL unit out horizontally to the left Backlight unit CFL unit Claw 12 Attach a new backlight unit CFL unit Hold down the claw and insert the backlight unit CFL unit horizontally to the right When taking a new backlight unit out of the bag do not twist or yank on the cable 3 34 7 How to Replace the Backlight Unit 13 Close the LCD module by turning it to the right and attach the LCD module to the inside case Insert the cable and two ribbon cables into the inside case Ribbon cables Backlight unit CFL unit cable LCD module 14 Attach the 4 screws to fix the LCD module When attaching the screw tighten the grounding terminal together Be careful not to drop the fiber cable Grounding terminal Inside case Fiber cable 15 After attaching the LCD module to the inside case place it with the display panel side down AN Place it on a cloth etc to protect the display panel from scratches 16 Attach the inside case to the front external case A Do not allow the entry of dust or particles to the area between the inside case and the front external case 17 Attach the 6 screws 7 How to Replace the Backlight Unit 3 35 18 Attach the 2 ribbon cables 19 Attach the backlight unit CFL unit connector A D
141. he memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 2 12 5 FUJI PLC 5 Wiring e Fully consider the influence of noise on the communication cable routed between the POD and FLEX PC The level of noise resistance when a ferrite core is attached to the cable 1 000 V e Fully consider the influence of noise on the cable when routing it on the board and in the unit Route the cable apart from the power lines e The longer the communication cable the more it is influenced by noise Carefully route the cable When you create the cable attach a ferrite core to reduce the influence of noise Connected to the loader port Attach a ferrite core Attach it close to the connector N Series PC For a long distance communication it is recommended to use link units in consideration of the noise influence Dedicated Cable Dedicated cables for direct connection with the N Series loader port is available The table on the right shows the types of dedicated cables available Ferrite cores are already attached to all the dedi cated cables Type Details UG200C N02 For direct connection with loader port 2m UG200C N03 For direct connection with loader port 3m UG200C N05 For direct connection with loader port 5m Two ferrite core are respectively attached to the POD end and PLC end Maker TDK Type ZCATO930 5 FUJI PLC
142. hes Setting of Dip Switches DIPSW ON EEE ff S O es 12 3 4 5 6 7 8 Memory Extension 2 1 L Terminal resistance of MJ2 modular jack 2 invalid for UG220 Not used But it depends on a hardware version RD terminal resistance of pin No 24 and 25 Terminal resistance of MJ1 modular jack 1 OKeep DIPSW 2 3 4 and 5 not used OFF OSetting of Memory Extension 2 This dip switch is invalid for UG220 Keep DIPSW 1 OFF Set DIPSW 1 ON in case of selecting Memory Extension 2 Refer to Chapter 3 4 Connecting the Memory Extension unit OSetting of Terminal Resistance depends on the hardware version of the unit UG520 UG420 gt O UG320 gt D UG221 gt A For hardware version check the value of the 3rd digit from the left in Ser No line on the rear of the main unit 1 In case that the hardware version is the lower case letter e Set DIPSW 7 ON in case of connecting with CN1 by connection of RS 422 485 e Set DIPSW 6 DIPSW8 ON in case of connecting with Modular Jack 1 2 by the connection as below Multi link2 communication master Temperature controller communication by connection of RS 485 Card Recorder UGOOP MR option is used Serial Extension I O UGOOP U2 option is used Terminal POD connected with UG Link by connection of RS 485 2 In case that the hardware version is the capital letter e Set DIPSW 7 ON in case of connecting
143. hes 7 7 inches Color Monochrome 16 colors Monochrome 16 colors 128 colors 8 gradation o 8 gradation A blinking blinking blinking blinking blinking 16 colors Back light Cold cathode rectifier which can be exchanged by a user except for UG221 Contrast Adjustment By function switches only in case of STN type Back light Average Life Approx 40 000h Approx 50 000h On Power Lamp The lamp is lit when the power is supplied tem Pe UG420H S UG420H T UG420H V UG520H V STN TFT TFT Display Device Color LCD Color LCD Color LCD Resolution W x H dots 640 x 480 800 x 600 Dot Pitch W x H mm 0 11 x 0 33 0 33 x 0 33 0 264 x 0 264 0 3075X0 3075 Effective Display Area 211 2 x 158 4 246 0 x 184 5 W x H mm 10 4 inches 12 1 inches Color 128 colors blinking 16 colors Back light Cold cathode rectifier which can be exchanged by a user Contrast Adjustment By function switches only in case of STN type Back light Average Life Bs Beek Approx 50 000h Power Lamp The lamp is lit when the power is supplied When the normal temperature is 25 and the surface luminance of the display is 50 of the default CED 8 Specifications Display Function Specifications All the UGx20 series Display Language Japanese Eng W Europe Chinese Chinese simplified Korean Characters 1 4 size 1 byte ANKcode ASClicode ASCllcode ASCII code ASCII co
144. hich connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 9pin Male 4 Use twist shielded cables ER 9 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 PLC ran Fh D sub 9pin Male 4 Ae A MEE UN e i 1 1 ic i RD 1 1 1 i 1 i i 1 f RS 1 I 1 A 1 1 t 1 ds d Loa CS o i a7 SG a ee eo ete Use twist shielded cables Wiring Diagram 3 POD CN1 D sub 25pin Male 4 PLC SD RD SG Use twist shielded cables RS 422 Wiring Diagram 4 POD CN1 D sub 25pin Male M FG 1 ps P PLC SD 12 E SD 13 4 S RD 24 i i RD 25 A 20 YOKOGAWA PLC 1 2 57 YOKOGAWA PLC 1 FA 500 Available PLC Select PLC Type Link Unit Wiring Diagram FA500 FA500 Communication Setting LC01 0N RS 232C Wiring Diagram 1 LC02 0N RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 2 The recommended communication parameter setting of both PLC and POD is as follows e e 1 3 Terminal Character None fixed Protection Function None fixed Available Memory Memory TYPE Remarks D data register oo B common register oi 1 TP timer current value 2 TS timer set value 3 P counter current value 4 5 input relay Y output relay 7 l internal relay E Ea
145. iagram 3 SU 5E 6B Y irina Di Port 1 on a CPU unit RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 7 SU 5M 6M Port 3 on a CPU uni RS 485 Wiring Diagram 8 Port 2 on a CPU uni RS 2320 Program transfer cable made by Koyo S 30JG E S Port 2 on a CPU uni H Convert connector cable made by Koyo S 15CNJ RS 232C Program transfer cable made by Koyo S 30JG E Link Unit Wiring Diagram Z 4 Port 2 on a CPU uni Convert connector cable made by Koyo S 15CNJ Convert connector made by Koyo S 15HCNP1 G01 DM RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 4 z RS 232C Wiring Diagram Port P ort onja En anit RS 422 Wiring Diagram 4 Universal RS 232C Wiring Diagram communication port RS 422 Wiring Diagram 6 RS 232C Wiring Diagram eee RS 422 Wiring Diagram 3 SR 6T TOYOTA version G01 DM RS 232C Wiring Diagram RS 422 Wiring Diagram 4 SR T p Terminal blocks Tyit K prt SR 1T TOYOTA version on a CPU unit PRS422 Wiring Diagram 5 SU 5E 6B ERRE RS 422 Wiring Diagram 7 Programmer port RS 232C on a CPU unit Program transfer cable made by Koyo S 30JG E SU 5M 6M Port 3 on a CPU unit RS 485 Wiring Diagram 8 Port 2 on a CPU unit SU SG K Sequence RS 232C SZ 4 Port 1 on a CPU unit Program transfer cable made by Koyo S 30JG E Port 2 on a CPU unit Convert connector cable made by Koyo S 15CNJ Port 1 on a CPU unit RS 232C SZ 4M Program transfer cable made
146. ible to use terminal blocks 54 VIGOR PLC 2 137 4 VIGOR PLC Available PLC Select PLC Type Link Unit Wiring Diagram M series M1 CPU1 COM PORT RS 232C Wiring Diagram 1 RS 485 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows C o o A SS Available Memory Memory TYPE Remarks input relay 1 D X Y output relay M S T internal relay special relay timer current value Cc counter current value 1 1 In case of the items which can display double word data e g data display graph sampling the data is managed as double word data Both bit data and word data are managed as lower half 16 bits data Input 16 upper half bits are ignored Output 0 is written in the 16 upper half bits Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CRED sico pic Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC Sera aes D sub 9pin Male m RS 485 Wiring Diagram 2 POD CN1 D sub 25pin Male m SG RDA RDB SDA SDB Use twist shielded cables 55 DELTA PLC 2 139 A DELTA PLC Available PLC Select PLC Type Ze Link Unit Wiring Diagram Commun
147. ic data display graph etc specify double word from the editor For the items for which double word cannot be specified e g read write area buffering area etc only lower 16 bits become the object of processing and upper 16 bits are ignored 2e Step relay e S areais the memory for controlling steps in which numbers for the location of steps are stored For sequence instructions and word operation instructions from PLC program S area for 100 words is prepared supposing the data structure of directly readable writable unsigned 2 digit BCD 8 bit Step number corresponds to individual value of 2 digit BCD It does not correspond to bit unlike in B M K or other areas In using step numbers you can imagine as if 100 pieces of SC coil 00 to 99 exist in one word e For above explained reasons with the POD S area cannot be specified for switch memory or lamp memory To access the S area use word operation switch Specify the step number to be turned ON by the operational expression for word operation switch transfer Example To set such that S00 20 turns ON when the switch on the screen is pressed 1 Operation of switch Set to word operation Operation expression Set to transfer Source Set constant 20 h Destination Set WS00 e Do not specify SC area for data display or as the control area of various modes as doing so may result in abnormal operation However when 2 digit or sm
148. ication Setting The recommended communication parameter setting of both PLC and POD is as follows Setting of PLC Comm Parameter of POD Baud Rate E Transmission Data tengin ozo Code sos ot Available Memory E T E A 2222 OO Pw eodayeay INCISO a CI ee FCIS ACT CIEN MEETS 00 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs EM ssorimenc Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 485 Wiring Diagram 1 POD CN1 D sub 25pin Male m 56 BALDOR PLC 2 141 65 BALDOR PLC Available PLC Select PLC Type Controller Wiring Diagram NextM Cc Data A in oa Optimum Comms Data Array Communication Setting The recommended communication parameter setting of both PLC and POD is as follows A A Transmission Data Length 8 ret Stop Bt Available Memory C T M A a I B Integer omitting decimals Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs CB senior rc Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 9pin Female 1 TOYO DENKI PLC uGPC sx series Available PLC Select PLC Type Link Uni
149. ies is determined by the analog type resistance film Do not press two or more positions on the screen at the same time If two or more positions are pressed at the same time the switch located between the pressed positions activates Please take note of this 0000000 Avoid displaying the same patterns for hours lt may cause afterimages due to the property of LCD display Pressing two positions at the same time If you use the fixed patterns for hours use the auto activates the swith in the center OFF function of the backlight Notes on Disposal e At the time of disposal POD must be treated as industrial waste Revision Manual No is shown on cover Printed on Manual No Revision contents October 1999 FEH352 First edition April 2001 FH352a Second edition New Product UG221 specification added The following PLC model is added Mitsubishi QNH series FX1S series Allen Bradley Micro Logix 1000 Siemens S7 300 400 MPI Modicon Modbus RTU Others contents check November 2002 FEH352b Third edition The following PLC model is added SAIA PCD MOELLER PS4 Telemecanique TSX Micro Automationdirect Direct LOGIC Toyo Denki uGPC sx series Others contents check May 2003 FEH352c Fourth edition The following PLC model is added VIGOR M series DELTA DVP series BADOR Mint Appendix Ladder Transfer Function Others contents check Contents Preface Notes on Safe Use
150. ifications UG220H L Power requirements 4 24V DC Main unit Interface specifications C Serial Link Unit Communication Other interfaces can be supported using the I F unit LCD type S STN color LCD L Monochrome LCD White mode UG221H L_ Touch Panel Specifications D Matrix sw type None Analog sw type Main unit Power requirements 4 24V DC Interface specifications C Serial Link Unit Communication Other interfaces can be supported using the I F unit LCD type T TFT color LCD S STN color LCD L Monochrome LCD Blue mode UG320H oa Power requirements 4 24V DC Main unit Interface specifications C Serial Link Unit Communication Other interfaces can be supported using the I F unit LCD type S STN color LCD ED 3 System Composition Eg UG420H Main unit UG520H Main unit Image input NONE 1 Video interface TFT color LCD Only 2 RGB interface TFT VGA only Memory card None Standard Outside recorder M Memory card interface Power requirements 1 100 to 200V AC 4 24V DC Interface specifications C Serial Link Unit Communication Other interfaces can be supported using the I F unit LCD type S STN color LCD T TFT color LCD VGA V TFT color LCD SVGA Image input NONE 1 Video in
151. ing to the unit Corrosive Gas No corrosive gas Mechanical Working Conditions Vibration Resistance Vibration frequency 10 to 150Hz Acceleration 9 8m s Single amplitude 0 075mm 3 directions of X Y and Z one hour Shock Resistance Pulse shape Sine half wave Peak acceleration 147m s 3 directions of X Y and Z six times Electrical Working Conditions Noise Resistance Noise voltage 1500Vp p noise width 1us Static Electricity Discharge Resistance Contact 6kV Air 8kV Mounting Conditions Grounding Grounding resistance less than 100Q Structure Protection structure front panel complies with IP65 when gasket using rear panel complies with IP20 Form in a body Mounting procedure inserted in a mounting panel Cooling System Cooling naturally Weight Approx 2 5kg Approx 3 0kg Dimensions W H 310 x 240 x 92 3 334 x 270 x 95 8 Panel Cut out mm 28917x 216 245 3137 x246 27 Case Color DARK GREY Material PC ABS 8 Specifications GED Display Specifications item Pe ua220H 1 uG220H s UG221H L UG221H S UG221H T UG320H Display Device STN STN STN Monochrome Monochrome Color LCD LCD LCD Resolution W x H dots 320 x 240 640 x 480 Dot Pitch W x H mm 0 36 x0 36 0 12 x 0 36 0 36 x 0 36 0 12 x 0 36 0 36 x 0 36 0 082x0 246 Effective Display Area 115 2 x 86 4 157 4 x118 1 W x H mm 5 7 inc
152. ion FONT UF DRV VER 1 100 SYSTEM PROG VER 1 180 VER 1 000 01 020 1 000 MELSEG AnAINIU JAPANESE 32 Screen Data PLC Type MITSUBISHIANA NIU series Error Stop Information Comment DEMO Screen Time Out 0 50 sec Size 786432 Retry 3 Connection 1 1 Baud Rate 19200 Signal Level RS 232C Data Length 7 PLC Stat No 0 Stop Bit 1 ity Even RGB Agi Editor Mut VO Test RGB adjustment screen RGB Adjust Main Menu Please refer to the manual Hardware Horizontal 31180 Hz Vertical 59 Hz y Setting 1 y Setting 2 Notused _ Notused _ SS N Adjust Adjust 1 54 17 Operation of POD Main Menu 3 First BIOS screen is adjusted Press the Adjust switch in the Setting 1 box to activate RGB display mode a F RGB Adjust Main Menu Please refer to the manual Hardware Horizontal 31180Hz Vertical 59 Hz y Setting 1 y Setting 2 Notused _ Notused _ Adi Adjust oS Cle
153. iring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC EA a siemens eno SIEMENS PLC 1 S5 90 S5 95U S5 100U Available PLC A similar program as RK512 is required Select PLC Type Link Unit Wiring Diagram CP 521SI s5 3964R Transmission Protocol 5 UG400 A Second serial interface 6ES5 734 1BD20 cable made by SIEMENS 3964R Transmission Protocol RS 232C Wiring Diagram 2 1 When using 6ES5 734 1BD20 cable made by SIEMENS connect cable of Wiring Diagram 2 to the D sub 25 pins side of 6ES5 734 1BD20 to communicate with POD RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows ar NO egy S wend ate ore gt gt gt 7 Available Memory F internal relay T timer current value Read only C counter current value AS absolute address The assigned memory is indicated while editing lt E g gt DB003000 the screen as illustrated Address No Block No Read only Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 32 SIEMENS PLC 1 2 93 Notes on converting the data file of UG400 or UG200 into the UGx20 data file When converting the data file of UG400 or UG200 into the UGx20 data
154. is impossible to select both Multi Link and Temp CTRL Net in each setting of modular jack 1 It is possible to select this item when Multi Link 2 is selected for Connection and Local Port is set to 1 in the Comm Parameter dialog 2 Multi Link 2 master and Temperature Control Network and UG Link are available in the following hardware version or later of POD As for UG220 UG221 any version can be used UG520H V 4 UG520H S gt 3 UG420H V 5 UG420H T gt 5 UG420H S gt 4 UG320H gt 7 Editor Transferring OUse modular jack 1 MJ1 in case of editor transferring OWhen Editor port is selected for Modular Jack 1 in the P2 menu it is also possible to transfer the data while running because the auto change of the local mode and the run mode is valid When Editor port is selected on line editing and the simulation mode are also available OWhen the item other than Editor port is selected for Modular Jack 1 in the P2 menu be sure to transfer the data by the software in the local mode On line editing and the simulation mode are not available OWhen the data is transferred by software use the cable for data transferring which is the optional equipment made by Fuji Electric Co Ltd UGOOC T 3m to connect POD to a personal computer 12 Bar Code Reader Interface ED BarCode Reader Interface O It is possible to receive the signal from a bar code reader by connecting a bar code reader
155. le of setting The procedure for adding the touch switch emulation function under the environment where the analog RGB input function is used is described below In this example it is supposed that the following setting is already made O On the RGB Adjust screen Setting 1 is set to BIOS screen while Setting 2 to Windows screen For details regarding the adjustment see Screen Adjustment explained above O Connect between COM2 of the personal computer and MJ1 of the POD by means of UGOOC T for screen data transfer 1 Change over to POD input screen Windows screen is displayed 2 Activate the screen development editor and open the file that is currently transferred to the POD 3 Select Touch Switch from Modular Jack 2 in the Modular dialog box of System Setting 1 36 15 Analog RGB Input 4 Save the file and send it to the POD 5 Mode is changed to RUN In this mode change screen over to the RGB Input screen Windows screen is displayed a aca 6 In order to execute touch panel emulation computer connect between COM1 communication port of ni ueooo T the personal computer and MJ2 touch switch MJ2 7 Touch Switch of the POD by means of UGOOC T 7 Insert the Touch Panel Driver PN WIN98 95 floppy disk supplied from GUNZE in the floppy disk drive and from the files stored in the floppy disk double click Serial setup exe
156. llows Item Setting of PLC Comm Parameter of POD Baud Rate 19200bps 19200bps E3 Transmission Data Length oot stow bit Terminal Character None fixed Protection Function None fixed When using programming tool port on a CPU module for direct connection to POD set Data Length as 8 bit in the comm Parameter dialog of POD because data length 8 is fixed Also specify the CPU Communication Port setting of Configuration in the ladder making tool as follows Personal Computer Link Function Use 1 2 60 21 YOKOGAWA PLC 2 Available Memory Po aaresey a EA EA EAS NA down timer current value Read only common relay E L link relay M special relay B file register The CPU No is required in addition to the memory type address The assigned memory is indicated while editing the screen as illustrated EF CPU No E g 1 D00001 E Address Memory Type Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 21 YOKOGAWA PLC 2 CED Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 9pin Male 4 RS 422 Wiring Diagram 2 POD CN1 D sub 25pin Male 4 Use twist shielded cables EM 2 vaskawnric YASKAWA PLC 1 memobus Available
157. lso transferred To transfer the ladder communication program only follow the procedure described below i Select Ladder com prg in the Transfer dialog and click PC gt ii The dialog shown on the right is displayed Select the ladder com program for the selected plc type and click Open The program is transferred to the POD Look in ate y E Al Ex a MelFx lcm Files of type 1cm y Cancel Notes on Ladder Transfer Function 1 When Ladder Tool is selected for a modular jack monitor registration on the PLC is prohibited so that the screen display speed becomes slower than usual during communications between the POD and the PLC even if the PLC programming software is not started 2 Also when the ladder program is transferred in the RUN mode of the POD communications are synchronized therefore the performance of both the POD and the PLC programming software de creases Fuji Electric Co Ltd ED amp C Drive Systems Company Gate City Ohsaki East Tower 11 2 Osaki 1 chome Shinagawa ku Tokyo 141 0032 Japan Phone 81 3 5435 7135 7136 7137 7138 Fax 81 3 5435 7456 7457 7458 7459 URL http www fujielectric co jp kiki Information in this manual is subject to change without notice 2003 6 PDF
158. lt E g gt EM0 30000 The assigned memory is indicated while editing the screen as ft Address No illustrated Colon Bank No Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs GED somos rio 1 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 9pin Male 4 Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male 1 PLC D sub 9pin Male 4 FG 1 A 1 1 1 1 I I I I Use twist shielded cables Wiring Diagram 3 POD CN1 D sub 25pin Male 1 PLC D sub 25pin Male 4 FG 1 Ps Use twist shielded cables RS 422 Wiring Diagram 4 POD CN1 D sub 25pin Male 4 PLC FG 1 A a D sub 9pin Male 4 SG RDB 1 SG 3 SDB 5 RDA 6 SDA 9 Use twist shielded cables Wiring Diagram 5 POD CN1 D sub 25pin Male 4 PLC FG 1 oe tee ee ee F4 D sub 9pin Male 1 1 I sa 7 a Lo se 9 Li 1 I t SD 12 Fm RDB 8 1 1 sD 13 F RDA 6 RD 24 i
159. m Parameter dialog is displayed Set Connection to 1 n in the Detail tab window Select System Setting from Item and click Network Table Edit Network Table is displayed Double click the No The dialog is displayed Register the CS1 on the network U2NetCfgMin untitled Edit Network Table File Edit View Help Sle BEECH DNA Target Network o a gt DA1 Target Node Address f double click Cesl 10 owun e wN IO 15 Sharp PLC 1 2 43 gt Sharp PLC 1 Available PLC JW50 JW70 JW100 JW50H JW70H ZW 10CM RS 422 Wiring Diagram 3 JW JW100H JW 10CM series JW20 e JW 31CUH JW 21CM RS 422 Wiring Diagram 3 JW100 70H JW70 JW100 COM port JW70H JW100H RS 232C Wiring Diagram CPU communication port a Ss Jw20 JW20 JW22CU P RS 422 Wiring Diagram 2 COM port JW20H JW22CU Communication Setting The recommended communication parameter setting of both PLC and POD is as follows i fixed GED issharpeic s Switch Setting of Link Unit Baud rate 19200bps Even parity Baud rate 0 19200 1 9600 2 4800 3 2400 4 1200 5 600 Teminating resistance provided PLC System Memory Setting in case of a communication port Baud rate 19200bps Jer oe os oe os oe or oo Gee Lo fof i fofolofo Facer o lo lo lolo oie System memory Available Memory Memory TYPE Remarks A 1 To set up Fn file register input File No
160. m 3 POD CN1 PLC D sub 25pin Male 4 D sub 9pin Male m AB RS 232C Ladder transfer cable Use twist shielded cables RS 422 Wiring Diagram 4 POD CN1 D sub 25pin Male m PLC FG 1 TE TA A TA D sub 9pin Male M SG Use twist shielded cables CED 28 GE Fanuc PLC 1 8 GE Fanuc PLC 1 90 series Available PLC Select PLC Type ro Link Unit Wiring aca RS 232C RS 2326 Wiring Diagram 1 Diagram 1 90 Series Series 90 30 Programmable co processor g viag PCM RS 485 Wiring Diagram 2 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows Port 0 for x 10 1 for x 1 1 a a rs Transmission Data Length ae AE funci n Hostimsystem iwed gt gt gt Response Delay me me 22 time out None fxe Ll asommex HEX fixed gt gt Available Available Memory zz NC MON o EC ANI Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 28 GE Fanuc PLC 1 2 85 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC D sub 25pin Male M Use twist shielded c cables RS 485 Wiring Diagram 2 POD CN1 D sub 25pin Male m PLC A A D sub 25pin Male M Use
161. missible Momentary Power Failure 10ms or less Demand 10W or less 20W or less Rushed Electric Current 15A 1 5ms 15A 1ms With stand voltage DC external terminals to FG 500V AC per min Insulation Resistance 500V DC 10MQ or more E o E E o gt E uw E 2 gt E o Ambient Temperature 0 C to 50 C Storage Ambient Temperature 10 C to 60 C Ambient Humidity 85 RH or less without dew condensation Dust No conductive dust Solvent Resistance No cutting oil or no organic solvent to cling to the unit Corrosive Gas No corrosive gas Mechanical Working Conditions Vibration Resistance Vibration frequency 10 to 150Hz Acceleration 9 8m s Single amplitude 0 075mm 3 directions of X Y and Z one hour Shock Resistance Pulse shape Sine half wave Peak acceleration 147m s 3 directions of X Y and Z six times Electrical Working Conditions Noise Resistance Noise voltage 1500Vp p noise width 1us Static Electricity Discharge Resistance Contact 6kV Air 8kV Mounting Conditions Grounding Grounding resistance less than 1000 Structure Protection structure front panel complies with IP65 when using gasket rear panel complies with IP20 Form in a body Mounting procedure inserted in a mounting panel Cooling System Cooling naturally Weight Approx 0 8kg Approx 0
162. move the 4 screws fixing the LCD module Screws LCD module Inside case 3 28 7 How to Replace the Backlight Unit 10 Open the LCD module by turning it to the left and remove it from the inside case Place it with the display panel side down AN Place it on a cloth etc to protect the display panel from scratches LCD module rear MAS Inside case 11 Hold down the claw and pull the backlight unit CFL unit out horizontally to the left Backlight unit CFL unit Claw 12 Attach a new backlight unit CFL unit Hold down the claw and insert the backlight unit CFL unit horizontally to the right When taking a new backlight unit out of the bag do not twist or yank on the cable 7 How to Replace the Backlight Unit 3 29 13 Close the LCD module by turning it to the right and attach the LCD module to the inside case Insert the cable and two ribbon cables into the inside case Ribbon cables Backlight unit CFL unit cable 14 Attach the 4 screws to fix the LCD module Be careful not to drop the fiber cable Screws Fiber cable Inside case 15 After attaching the LCD module to the inside case place it with the display panel side down AN Place it on a cloth etc to protect the display panel from scratches 16 Attach the inside case to the front external case Do not allow the entry of dust or particles to the area between the inside A ca
163. n MODES Binary Mode fixed Control Mode RS 422 When QnH Q series link is connected MC Protocol Type 5 fixed Transmission Data Length 8 fixed Code spee ot n Provided fixed AAA Write while running Available fixed Q00 Q01 CPU When connecting the POD to the tool port of Q00 or Q01 CPU it is neccessary to specify serial communication setting on PLC parameter Note on the following setting UGOOS CW Select QnH Q series link in PLC type GX Developer Application software for programming MITSUBISHI PLCs 1 Double click PLC parameter 2 Click the Serial tab menu of the Qn H Parameter dialog 3 Check Use serial communication to specify communication parameters such as Baud rate Sum check etc 2 18 7 MITSUBISHI PLC 1 Project data list Qn H Parameter BB Unset project PLE name PLC system PLCfile PLCRAS Device Device comment Parameter 4 PLC parameter use serial communication fw Network param E Device memory Baud rate 19 2Kbps poa Transmission wait time No waiting time RUN write setting IV Permit Start bit 1 Parity bit Odd parameters Switch Setting Program z Program SFC 0 assignment Boot file Be sure to check these items Data format value is fixed as below Check that these settings are Data bit8 Stop bit the same as POD comm The following is an example to show the settings for both ro
164. nal block UGOOP U1 Extension I O Unit Used as an external I O unit for PLC It has 16 inputs and 16 outputs It can be used for UG520 and UG420 UGOOP U2 Serial Extension I O Unit Used as an external I O unit for PLC It has 16 inputs and 16 outputs It can be used for UG520 UG420 UG320 UG221 and UG220 1 10 3 System Composition UGO3I x x T gt T Link x J gt OPCN 1 x S gt SX BUS x E 2 gt EtherneteFL net x C gt CC Link x P PROFIBUS Communication Interface Unit Used to communicate with each network lt makes it possible to connect multiple UGx20 series to a PLC This system which enables other devices to connect to the same network brings about the reduction in costs of the whole system UGOZ2I x DT gt T LINK x J gt OPCN 1 x S gt SX BUS Communication Interface Unit Used for UG220 to communicate with each network UGOOP DI ACPU QnACPU FXCPU Dual Port Inter face Add on connector with two ports specifically designed for the connector on the MITSUBISHI s ACPU QnACPU FXCPU programmer This can improve operability of the ACPU QnACPU FXCPU programmer that is directly connected UGx20P PS x 2 gt UG220 UG221 3 gt UG320 4 gt UG420 5 UG520 Protection Sheet Protects the operation panel surface Five sheets are included in one package UGOOC B bar code reader temperature controller connecting cable 3 m Used to connect a bar code reader to the POD
165. ng e o oo e OE row stop ai S BUS Configuration S BUS Mode Parity PGU Port Number 0 PGU port 1 PCD7 F120 PCD4 F110 Available Memory O Output Bit F Flag Bit read only E E Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 50 SAIA PLC 2 131 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male amp Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male M PLC PCD7 F120 Use twist shielded cables RS 485 Wiring Diagram 3 POD CN1 D sub 25pin Male 4 PLC PCD7 F110 Use twist shielded cables CB 51 morer pic MOELLER PLC Available PLC Select PLC Type PLC Wiring Diagram RS 232C Wiring Diagram 1 PS4 PS4 201 MM1 PRG port ZB4 303 KB1 Cable made by MOELLER Communication Setting The recommended communication parameter setting of both PLC and V6 is as follows Item Setting of PLC Comm Parameter of POD Baud Rate 9600bps 9600bps 1 1 a CINNNSE IAN re Transmission Data Length cect Stop Bit Available Memory Remarks MW as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a dia
166. ng Diagram 1 RS 422 Wiring Diagram 5 Port 0 on a CPU unit RS 232C Wiring Diagram 4 Direct LOGIC Port 3 on a CPU unit RS 485 Wiring Diagram 6 K Sequence i Port 2 on a CPU unit Port 1 on a CPU unit iring Di D2 24 RS 232C Wiring Diagram 2 Port 1 on a CPU unit Port 2 on a CPU unit RS 232C Wiring Diagram 3 Port 1 on a CPU unit Communication Setting The recommended communication parameter setting of both PLC and POD is as follows 0 for x10 1 for x rayo Ps _ 0 Transmission Data Length s A TATI Response Daly time 009 gt meca rea se Je O gt gt gt 53 Automationdirect PLC daB Available Memory O Direct LOGIC Direct LOGIC K Sequence data register input relay stage global inputs global outputs timer contact counter contact Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC FG 1 Past Ti D sub 25pin Male 1 1 oN p ti sp 2 m Li SD 2 1 1 1 1 RD 3 de RD 3 a i 1 1 Rs 4 o o RS 4 q _ _ 4 t 1 cs 5 va v cs 5 L A sa 7 Ome 7 sG 7 Use twist shielded
167. ns Shock resistance Pulse wave Half sine waves Peak acceleration 147 m s A Directions X Y and Z Shock was applied in each direction twice Electrical Noise voltage 1 500V Pulse width 1 us Rising time 1 ns service Between power supply and FG terminal 500V AC 1 minute conditions 500V DC 10 MQ or more Type Il grounding Mounting Natural air cooling conditions External dimensions 182 188 x 90 x 36 W x H x D mm Mounting dimensions 158 x 83 W x H mm Case color Munsell 5Y3 0 5 dark gray The bottom plate is not colored Others Case material Steel plate Mass 500g Mounting the serial expansion I O unit Cable contained Connect the cable in the package with MJ1 or MJ2 O Mount the serial extension I O unit then secure it using the four screws as shown in the figure on the right O Connect MJ1 on the serial expansion I O unit with MJ1 MJ2 at the bottom of the POD using the cable contained in the package Fasten screws i these two places Fasten screws in Serial expansion these two places VO unit Tightening the terminal screws on the terminal base The following table shows the screw to be used and tightening torque Place Screwsize Tightening torque Nem Crimp terminal unit mm Screw for I O terminal terbase 0 3 to 0 5 minal 2 Connecting the UGBOP U2 ED 1 O Circuits The following figures show the I O terminal circuit diagrams Olnput circuit Input points
168. o configured using optional interface units UGO3I 021 S T J E 2 C or P For the details refer to the User s Manual of each optional interface unit 1 1 42 17 Operation of POD Main Menu f Operation of POD Main Menu When the power of POD is turned on for the first time the screen on the below left is displayed After transferring the screen data to POD the following Main Menu is displayed When power is turned on for the first time Main Menu after trasferring data Main Menu UG420H TC1M1 1998 9 1 07 23 30 Sah System information 4100 MT y RIEL TRS FTE FRORSVER 1 00 VER an 0 xo Vr MELSE AANU Transfer the screen data wea Su 705058 LG Type MITSUBISHIANA NIU series Time Out 0 50 sec ny 3 E AMAS AEA SHialolels WS If the screen data has been already transferred to POD press the SYSTEM switch then press the F1 switch The Main Menu is displayed the SYSTEM switch the F1 switch The Main Menu is displayed Main Menu UG420H TC1M1 1998 9 1 07 23 30 System information FONT VE DAV VER 1 000 SYSTEM PROG VER 1 000 VEF 1 000 1 000 1 000 MELSEC AnANU JAPANESE 32 PLC Type MITSUBISHIANAINIU series Comment The switches that ar
169. o not twist or yank on the cable of the backlight unit Backlight unit CFL unit connector gt Ribbon cables CPU board connector Inside case Front external case Ribbon cable connector Lock E A Ribbon cable connector Lock Ribbon cable yz Insert the ribbon cable into the connector and slide the lock to set it Visually check that all connectors and ribbon cables are connected se curely 20 Attach the rear external case to the front external case Fit the rear external case in position Press the case entirely so as to fit the panel board connector with the CPU board connector inside 21 Attach the external 6 screws 22 Attach the packing Rear external case Screws Packing 3 36 7 How to Replace the Backlight Unit UG420H S 1 With the main body turned over remove the 6 screws from the outside case Put a cloth or other protective material under the product so as not to damage the display panel 2 Remove the rear outside case Rear outside case 3 Remove the connector for the backlight unit CFL unit 4 Remove connector A 5 Remove connector B AN Holding the connector carefully remove it without pulling on the cable Properly mark connectors B and C so that they can be correctly reinserted in the proper place Inside case Ribbon cable Connector for Connector A backlight unit CFL unit Connector B Front outsid
170. or off If you want to use this function you have to set Backlight of the Others dialog in System Setting The following list shows the backlight function specified in the editing software Backlight Function Switch F5 The following actions are added to the regular functions of these items Even if the time does not reach the setting time the backlight will turn off if the F5 switch is pressed provided that bit 11 Backlight of Read Area n 1 is OFF level Refer to the Users Manual lt Function gt FEH376 Manual If you select Manual the backlight will turn on or off only when this switch is Manual2 pressed Also you can specify the item Backlight Power ON Time Control When you turn the power supply of POD on ON the backlight is lit OFF the backlight is off Connection to Link Units 1 FUJ I PLC 2 FUJI PLC 3 FUJ I PLC 4 FUJI PLC 5 FUJ I PLC 6 FUJ I PLC 7 MITSUBISHI PLC 8 MITSUBISHI PLC 9 MITSUBISHI PLC 10 MITSUBISHI PLC 11 MITSUBISHI PLC 12 MITSUBISHI PLC 13 OMRON PLC 1 14 OMRON PLC 2 15 Sharp PLC 1 16 Sharp PLC 2 17 HITACHI PLC 1 18 HITACHI PLC 2 19 Matsushita PLC 20 YOKOGAWA PLC 1 21 YOKOGAWA PLC 2 22 YASKAWA PLC 1 23 YASKAWA PLC 2 24 TOYOPUC PLC 25 Koyo PLC 26 Allen Bradley PLC 1 27 Allen Bradley PLC 2 28 GE Fanuc PLC 1 29 GE Fanuc PLC 2 30 TOSHIBA PLC 31 TOSHIBA MACHINE PLC 32 SIEMENS PLC
171. ows COMM 2H pot etertonstarionsiomarf oid If Transmission control mode is any other type except the above specify Transmission control code as below T Setting of PLC Comm Parameter of POD Protocol 1 w o Port RS 232C Protocol 1 w Port Transmission Control Mode Protocol 2 w o Port RS 422 MODE2 Protocol 1 w Port 1 Cannot be connected to POD by multi link connection CPU module Peripheral port is only available with pattern 1 17 HITACHI PLC 1 f 2 49 Switch Setting Baud rate 19200bps MODE switch To connect to both RS 232C and RS 422 set MODE switch to 9 RS 232C pattern 2 w o RS 422 pattern 2 with port ST No switch Choose 0 for both X 10 and X 1 Dip Switch Setting Contents Bit length Same as POD normally 19200bps oN Sumcheck provided ae E EEN 3 o o s o ET or FF FF ON ON ON ON FF ON O O O Available Memory Remarks bit data area WM as word device Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs ED mon enc Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC oo A A na D sub 15pin Male M Pa Pa B l 1 1 i I 1 3 1 1 1 T T 4 1 1 l 1 l 1 l 1 1 l 5 1 1
172. panel printer made by CBM Corporation The screen copy cannot be printed out Note of Usage of SRAM Memory Card UGOOK Sx or SRAM Cassette UGOOP SR UG221P SR In case of connecting a printer to UGx20 series with a UGOOK xx Memory Card SRAM or UGOOP SR UG221P SR SRAM cassette at all times be sure to turn off a printer at the same time when turning off UGx20 If a printer is not turned off when UGx20 is turned off the voltage will circulate from the power supply line of a printer to make the power consumption of SRAM cassette s backup battery increase and finally the backup battery will consume drastically within a few months 14 Video Interface CED 4 Video Interface Option UG520 UG420 only O When a video or a CCD camera is connected to the optional UGx20 which has a video interface the image which is taken by a video or a camera is displayed directly in a screen of UGx20 series only in case of UG520H V and UG420H T V O Video Interface of UGx20 BNC O Video Display Specifications Display Color 262 144 colors Input Channel 4 Channels Signal Form NTSC type PAL type Video Input 1 0Vp p 75 ohm unbalance Display Size 640 x 480 640 x 240 320 x 240 160 x 120 dots possible to change the size Color Adjustment contrast 256 steps brightness 256 steps color gain 256 steps CED 15 Analog RGB Input A Analog RGB Input Option UG420H T only When connector CN3 of
173. placement Doing so may result in failure When replacing the backlight take appropriate preventive measures against static electricity The point of measures against static electricity is to keep the entire workplace including humans at the same electric potential Use an anti static wristband or mat to prevent static electricity 1 Turn the POD over and remove the packing 2 Remove the 6 screws from the rear external case A Place it on a cloth etc to protect the display panel from scratches Rear external case Screws Packing 7 3 Remove the rear external case 4 Disconnect the backlight unit CFL unit connector A Hold the connector and pull it out Do not twist or yank on the cable then Ribbon cables Backlight unit CFL unit connector Inside case Front external case 7 How to Replace the Backlight Unit 3 27 5 Remove the two ribbon cables Slide the lock with the ribbon cable holding down with your fingers The connector is not removable Ribbon cable connector Lock Ribbon cable connector Ribbon cable Lock Ribbon cable Slide the lock to release it 6 Remove the 6 screws fixing the inside case Screws Inside case Front external case Screws 7 Remove the inside case from the front external case AN Take care not leave scratches fingerprints or dirt on the display panel 8 Place the inside case with the display panel side up 9 Re
174. ration of POD Main Menu 1 51 2 Data Selection Transfer Pressing each switch leads to selection of the target for data transferring Possible to select multiple items Data Selection Transfer Mernory Gard Information Close Memory Card Information Close Sys Program Version Font Data Version VF Driver Version Screen PLC Type Screen Comment Transfer Display lt Caral Display gt Card Data Selection Data Font Data VE UG Program cad Start Cancel Sys Program Font Data UF Driver Screen PLC Type Screen Comment Version Version Transfer Version Display lt Card Display gt Card Data Selection VF Driver Font Data UG Program 3 Start When the Start switch is pressed the data transferring starts During data transfer the character Start on the switch changes into the character Busy and the switch starts blinking After transferring data the following message is displayed Press the OK switch Start transferring Memory Card Main Menu Memory Gard Information Close Sys Program Version Font Data Versio
175. rd Recorder 4 Connecting the Memory Extension Unit 5 Connecting Communication Interface 6 Connecting Dual Port Interface 7 How to Replace the Backlight Unit 1 Connecting the UGOBP U1 ED Connecting the UGOOP U1 The I O unit UGOOP U1 is attached to the rear side of the UG520 420 It uses 16 pins for input and 16 pins for output to support external I O of a PLC or another unit Note that UGOOP U1 does not support UG320 221 220 and UGOOP U1 cannot be used with the UGOOP U2 simultaneously For assignment in the memory or how to use UGOOP U1 refer to the User s Manual lt Function gt FEH376 DM Warning Turn OFF the power before mounting dismounting wiring maintaining or checking otherwise electric shock erratic operation or troubles might occur A Caution O The extension I O unit uses a link Thus do not use the unit in places where high speed operation urgent operation or dangerous operation emergency stop may be performed External Dimensions 125 5 i Hoe eeeeeeee eee 74 isis o ii lbs mes i Y anaaanada 2400944004000 24241090140 1049400244040 ED 1 Connecting the UG OP UI Mounting the I O Unit O Remove the seal for preventing dust attached on the back of the POD as shown in the figure on the right Mount the extension l O unit then secure it using the three screws O Set the DI DO connec
176. rt RS 232C Wiring Diagram 1 g A18J71UC24 R2 RS 232C Wiring Diagram 1 QNH mode A1SJ71UC24 R4 RS 422 Wiring Diagram 3 AJ71QC24N RS 232C Wi ing iagram 2 RS 422 Wiring Diagram 3 RS 232C Wiring Diagram 2 Q2A Q3A Q4A AJTIQGAA RS 422 Wiring Diagram 3 Q2ASx RS 232C Wiring Diagram 1 A1SJ71QC24 RS 422 Wiring Diagram 3 AJ71QC24 R4 CH1 RS 422 Wiring Diagram 4 AJ71QC24 R4 CH2 RS 422 Wiring Diagram 3 QnH Q mode RS 232C Wiring Diagram 1 Q00 ao1 QooJ 9471024 RS 422 Wiring Diagram 3 1 RS 232C UGO0C Q gram 3 Q a Ola T a pu iw 1 When connecting POD to the tool port of Q00 or Q01 CPU refer to page 2 27 About the ladder transfer function refer to Appendix 7 MITSUBISHI PLC 1 2 17 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows A series link unit np arameo dona o Tranemisson Damtengi reso O diia CO A Sumene Provided AAA Write while running Avaliabie ixed gt Terminal Resistor at Sender Provided fxed _ Terminal Resistor at Receiver Provided fixed 1 Mode 1 without CR LF Mode 4 with CR LF If Trans Mode 4 is selected from Trans Mode in Comm Parameter of the panel editor specify MODE4 in case of RS 232C or select MODE8 in case of RS 422 00 series link unit Por forbothstaTionxioandxt o When QnA series link is connected Transmissio
177. s Lock Lock 17 Attach a new backlight unit CFL unit Make sure that the lock is secured A When taking a new backlight unit out of the bag do not twist or yank on the cable Backlight units CFL units LCD module rear 18 Place the LCD module with the display panel side up 19 Attach the LCD module to the inside case Insert the connectors B and C into the inside case LCD module Connector B Connector C 7 How to Replace the Backlight Unit 3 45 20 Attach the 4 screws to fix the LCD module Tighten one screw at the bottom right with an earth cable terminal LCD module Earth cable Inside case 21 After attaching the LCD module to the inside case place it with the display panel side down A Place it on a cloth etc to protect the display panel from scratches 22 Attach the inside case to the front external case Do not allow the entry of dust or particles to the area between the inside case and the front external case Insert the two ribbon cables into the inside case Front external case Naw y Ribbon cables Inside case Insert the fiber cable into the power connection hole Fiber cable Power connection hole 3 46 7 How to Replace the Backlight Unit 23 Attach the 3 screws Screws Front external case 24 Attach the board equipped with the backlight unit CFL unit connectors Inside case
178. s NS T NS RS1 RS 232C Wiring Diagram 1 RS 485 Wiring Diagram 2 FLEX PC NJ RS2 RS 232C Wiring Diagram 1 Series NJ Series NJ T NJ RS4 RS 485 Wiring Diagram 2 RS 232C Wiring Diagram 1 NB Series NB RS1 Wining Diagram 1 RS 485 Wiring Diagram 2 1 When FLEX PC TOYOTA version is used select FLEX PC T in PLC Type Communication Setting The recommended communication parameter setting of both PLC and POD is as follows A A Transmission RS 232C 1 Asynchronous non protocol by command fixed AAA Control Mode RS 422 3 Asynchronous non protocol by command fixed lt r Terminal Resistor at Receiver Provided for RS 485 4 FUJI PLC 4 ED Switch Setting MODE Switch RS 232C 1 RS 485 3 RS 485 Port Setting SW 0 for both X 10 X 1 RS 485 Terminal Resistor ON Character Switches No Setting Contents 8 ON Switch setting 7 ON Parity provided 6 ON Even 5 ON 7 bit 4 ON 1 bit 3 Same as POD 2 normally 19200bps 4 Available Memory ACACIA ACI NA ACC fA ft internal relay WM as word device latch relay WL WK as word device WX as word device output relay WY as word device file register timer current value counter current value CN 8 timer contact counter contact step relay x The current values of the timer and counter are indicated with TN CN for purposes of convenience in the table above The actual value is T C
179. s displayed ee a Cassette Adjustment 2000 6 26 14 38 51 Main Menu Date and Time Adjustment Date 2000 WA Time EJ ES O e gt ii Format of SRAM Cassette Formats SRAM cassette in the present screen data type Format Execute es e 3 Select the data to be changed with lt or gt switch and change the data with or switch 4 After adjusting date and time press the SET switch 5 To return to the Main Menu screen press the Main Menu switch CED 18 Function Switches O Formatting the SRAM cassette When you changed the setting of SRAM cassette area be sure to format the SRAM cassette SRAM cassette can be formatted from the Main Menu screen If the format of the SRAM cassette does not coincide with the setting of screen data the SRAM cassette cannot be used error No 163 occurs How to format the SRAM cassette 1 Activate the Main Menu screen ms Main Menu UG420H TC12 1998 5 5 07 23 30 System Information font TF DRV VER 1 100 SYSTEM PROG VER 1 150 VER 1 100 1 090 1 000 MELSEC AnANU JAPANESE 32 Screen Data PLC Type MITSUBISHIANAINIU series Error Stop Information Ci Time Out 0 50 sec ze 2883584 omot Retry 3
180. se and the front external case 17 Attach the 6 screws 3 30 7 How to Replace the Backlight Unit 18 Attach the 2 ribbon cables 19 Attach the backlight unit CFL unit connector AN Do not twist or yank on the cable of the backlight unit Backlight unit CFL unit connector CPU board connector Ribbon cables Inside case Front external case Ribbon cable connector Lock Ribbon cable Ribbon cable connector Lock Ribbon cable Insert the ribbon cable into the connector and slide the lock to set it Visually check that all connectors and ribbon cables are connected se curely 20 Attach the rear external case to the front external case Fit the rear external case in position Press the case entirely so as to fit the panel board connector with the CPU board connector inside 21 Attach the external 6 screws 22 Attach the packing Rear external case Screws Packing 7 How to Replace the Backlight Unit 3 31 UG420H T UG420H T Backlight Unit Replacement Required Tool Screwdriver AN Do not touch cables and boards that are not associated with backlight unit replacement Doing so may result in failure When replacing the backlight take appropriate preventive measures against static electricity The point of measures against static electricity is to keep the entire workplace including humans at the same electric potential Use an anti static wrist
181. sed value CS up down counter set value CC up down counter elapsed value MI DW data register A 1 10 11 12 13 14 15 E non rc 2 E event register EW as word device S system register SW as word device J transfer register JW as word device Q receive register QW as word device M extension input register MW as word device O HIDIC ABS ICC E A ICO O EA ICO CIO A EA EI A es C AAA TE NE a Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male M PLC FG MARA Py D sub 9pin Female H PA PA sD i Ro RD sD sa 5 RS Use twist shielded cables 18 HITACHI PLC 2 CED Wiring Diagram 2 POD CN1 PLC D sub 25pin Male 4 D sub 9pin Female H Use twist shielded cables RS 422 Wiring Diagram 3 For connection to the S10x series use a 50 Q 1 2W resistance as shown below POD CN1 D sub 25pin Male 4 y A Use twist shielded cables CED 19 Matsushita PLC O Matsushita PLC Available PLC Select PLC Type Link Unit Wiring Diagram RS 232C port RS 232C Wiring Diagram 1 FP3 AFP3462 RS 232C Wiring Diagram 1 AFP3463 RS 422 Wiring Dia
182. splayed in text box Connecting to UGOOP D or Transferring data for example A bar is displayed in box while the program is being transferred and the message Transfer com pleted is displayed when transfer ended successfully To cancel the program transfer in the middle click the Cancel button If UGOOP DI information or Transfer instruction is executed after clicking 2 the UGOOP DI information or Transfer button and communicating with UGOOP DI the message Receiving waiting time over is displayed Turn the power switch of the PLC on again and re execute the instruction E Precautions e Do not interrupt the communication by disconnecting and reconnecting the cable while the program is being transferred If interrupted normal communication becomes impossible In such case turn the power switch of the PLC on again and re execute the instruction eThe UGOOP DI transfer utility is adapted to Ver 2 4 0 0 or newer UGOOS CW 7 How to Replace the Backlight Unit ED Y How to Replace the Backlight Unit When the screen brightness becomes dim and cannot be adjusted to the optimum setting the life of the backlight unit may be expiring For the UGx20 series PODs it is possible for users to replace the back light except UG221 Obtain a new backlight unit suitable for the POD type and replace the backlight unit with the new one according to the procedure described below
183. ssion DataLengtn e dee soose Pot y Available Memory FO arg A II CI SA input relay Read only Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC 7 ma D sub 9pin Male ee RTS Use twist shielded cables Ll CTS CRED 4 vamarace pic e YAMATAKE PLC Available PLC Select PLC Type Wiring Diagram MX200 MX50 RS 232C Wiring Diagram 1 Communication Setting The recommended communication parameter setting of both PLC and POD is as follows ltem Setting of PLC Comm Parameter of POD Baud Rate 9600bps 9600bps Transmission Data Length e 2 o ooo e Available Memory E a IN EE A A SO FO Py ein SCS MEN CIEN IN MEAT A MATT a ICC fp A NUNCIO fp PY nan fp S traga TOCSY Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs 48 YAMATAKE PLC 2 127 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC oe El D sub 25pin Male fh Use twist shielded cables CHED 49 min rc O TAIAN PLC Available PLC
184. t Memory Card or Barcode for the Modular Jack 1 setting on the editor To use MJ2 specify Modular Jack 2 for Memory Card MJ2 takes priority and data transmission from MJ1 is prohibited O For how to transfer POD screen data to the memory card or how to transfer screen data recorded in the memory card to the POD see Section 1 17 POD Operation Connecting the Memory Card Recorder with PC To write screen data to or read screen data from the R Connect the UGUOPEMR using a personal computer or to read dos write data using memory manager or data logging J connect the UGOOP MR with the PC as shown on the right to COM1 or COM2 a 5 Er gt gt T aT Connect the cable ol O Before reading writing screen data be sure to start up UGOOS CW screen development software on the PC For the procedure refer to the User s Manual lt Operation gt FEH375 O Before reading writing data using memory manager or data logging be sure to start up UGOOP MSE For the details of UGOOP MSE refer to the User s Manual lt Memory Card Editor gt FEH359 4 Connecting the Memory Extension Unit ED A Connecting the Memory Extenson Unit The following types of memory expansion unit are prepared Type of object POD Capacity Battery UGOOP D4 UG520H UG420H UG320H Expand the screen data 4M byte Unnecessary UG221P D4 UG221H memory UGOOP SR UG520H UG420H UG3
185. t a en Loru por e TW 00 O ils am _ 2 m Computer PC UG20 series MITSUBISHI QnH FX series Appendix 3 Settings and Communications 1 PLC type setting Select PLC Type from the System Setting menu Select a plc type available for the ladder transfer function in the Select PLC Type dialog ae z 2 PLC programming software port setting m Modular Jack 1 m Modular Jack 2 Select Modular Jack from the System Setting menu Editor port C Not used Select Ladder Tool for Modular Jack 1 or Modular Jack F Cad Recorder C Card Recorder 2 in the Modular Jack dialog C Barcode Barcode C UGOOP U2 C UGOOP U2 C Temp PLC2Way C Temp PLC2Way C UG Link C UG Link Touch Switch C Touch Switch adder tical aj sa Modbus Slave Modbus Slave Printer Serial Port Printer Serial Port Cancel Communications with UGOOS CW editor for screen data transfer On line editing between the UGOOS CW editor and the POD is not possible If attempted communications between the PLC programming software and the PLC will not be performed correctly With Ladder Tool selected for Modular Jack 2 MJ1 will be Editor Port when the Main Menu screen is displayed on the POD and communications with the UGO0S CW editor become possible With Ladder Tool selected for Modular Jack 1 even when the Main Menu screen is displa
186. t Wiring Diagram RS 232C Wiring Diagram 1 uGPCsx no RS 485 Wiring Diagram 2 Series uGPCsx Series NP1L RS2 RS 232C Wiring Diagram 1 NP1L RS4 RS 485 Wiring Diagram 2 uGPCsx CPU si ues Only one unit of POD can be connected to one link unit except for Multi link 2 connection Communication Setting The recommended communication parameter setting of both PLC and POD is as follows x No function block FB settings are required on the PLC Available Memory RM retain memory SM system memory AAN Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs To set an indirect memory using a macro specify the CPU No using the extended code Indirect memory setting by macro is not available for input I or output Q memory CE 57 10 0 venki Puc Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 1 PLC a a D sub 9pin Male M RS 485 Wiring Diagram 2 PLC D sub 9pin Female H POD CN1 D sub 25pin Male 4 Use twist shielded cables When signals are easily influenced by noise attach a ferrite core TDK ZCAT2032 0930 is recommended to both the ends of the cable Handling of Peripheral Equipment 1 Connecting the UG OOP U1 2 Connecting the UG OOP U2 3 Connecting the Memory Ca
187. t between the mounting panel and UG221 7 Wiring ED Y Wiring Do not remove the dust proof seal till you finish wiring in the panel If the seal is removed conductor chips or other foreign matter may enter the device to cause failure A Caution When you finished wiring in the panel be sure to remove the dust proof seal Electrical Wiring OConnects the cable for power supply to TB1 on the rear side of UGx20 seco DS Fores earn co a i o Mex d VELA i a Earth UG320 UG221 UG220 Type 100 200V AC Type 24V DC Power supply 100 200VAC UG520 UG420 Type Screw Screw Size Torque N m Clamp Terminal Unit mm UG320 UG221 UG220 M3 5 0 5 zox O 70max gt om UG520 UG420 M3 5 05 somax O ABE som O am OWhen TB1 is used for wiring refer to the following table OThe power source used must be within the allowable voltage fluctuation OUse a power source with low noise between the cables or ground and the cable OUse as thick a power cable as possible to minimize any drop in voltage OKeep cables of 100V AC and 24V DC sufficiently away from high voltage large current cables Notes on Usage of UG520 UG420 100 200V AC Specifications OGenerally an isolating transformer improves noise resistance However if the display unit is far away from the secondary port of the transformer and noise gets mixed in
188. tary dip switches and dip switches on PLC lt E g 1 gt Signal Level RS 232C Baud Rate 19200bps Trans Mode Trans Mode 1 ON AJ 71UC24 eve am swi2 Sw13 E STATION No Sw14 O SW15 CL swi6 E ON SW17 L OFF swis Sw21 L Sw22 L SW23 O SW24 L ON lt E g 2 gt Signal Level RS 232C Baud Rate 19200bps Trans Mode Trans Mode 1 A1S 71C24 R2 d A1SJ 71UC24 R2 swos C STATION No Swoe Sw07 L ON swos OFF swog CL sw10 L Sw11 sw12 L lt E g 3 gt Baud Rate 19200bps ON gt AJ 71QC24 gor Ol A1SJ 71QC24 STATION No STATION No MODE swo2 a SW03 AJ 71QC24N swos E SWO5 C SWO06 E OFF Swo7 E ON swos swog C Sw10 Sw11 E Sw12 C 7 MITSUBISHI PLC 1 D lt E g 4 gt Signal Level RS 422 Baud Rate 19200bps Trans Mode Trans Mode 1 A1SJ 71UC24 R4 A1SJ 71C24 R4 swor z Swo2 E STATION No STATION No MODE SW03 L swo4 E swo5 0O ON swoe E OFF swo7 E SWO8 swo9 i swio E swit E swi2 E ON Available Memory e ip PSY Pw tween A PY re
189. terface TFT color LCD Only Memory card None Standard Outside recorder M Memory card interface Power requirements 1 100 to 200V AC 4 24V DC Interface specifications C Serial Link Unit Communication Other interfaces can be supported using the I F unit LCD type V TFT color LCD SVGA UG220H LC4 Monochrome LCD Serial 24V DC UG320H SC4 STN color LCD Serial 24V DC UG420H TC1M1 TFT color LCD VGA Serial 100 to 200V AC Memory card interface Video interface UG520H VC41 TFT color LCD SVGA Serial 24V DC Standard Video interface Products conforming to overseas standards For the products that conform to overseas standards such as CE marking please contact Fuji Sales Department 3 System Composition 1 7 List of Options E Q D N o o E Q E N o 4 E O D m o lt c Q ar nN o T lt uaz ueza Card Interface x ojo o x x x x x o lt x 8 o lo le o o x o x 0 xx xx mal olx x xio olixjx x xig o dy T l T ole Video Interface by Manufacturer Analog RGB Input Interface Extension I O Unit UGOOP U1 16 inputs 16 outputs 2 Serial Extension I O UGOOP U2 16 inputs 16 outputs 2 UGOOP D4 Extension Memory Cassette 4Mbyte UG221P D4 SRAM Cassette UGOOP SR 512Kbyte UG221P SR x Communication Interface Unit UGO3I S J T C EJP 3 xX Communication Interface Unit UGO2I S J T 8 Card Recorder 1
190. the POD or when you do not know the address or IRQ of the COM port refer to the instruction manual for the personal computer Baud rate 9600 Parity none Data bits 8 and Stop bits 1 are fixed 3 With the calibration software correct the touch position and the mouse cursor indication position Touch as accurately as possible the red crosses that are displayed on the screen in the order of first point lower left on the screen second point upper right on the screen third point lower right on the screen and fourth point upper left on the screen Touch operation won t be available if the calibra tion setting is not correctly completed In such case re execute the setting 4 Not that once the touch panel driver is installed the serial port assigned for it won t be able to be used for other application till unless is uninstalled 5 When your personal computer has only one COM communication port it is recommended to use other personal computer for transferring POD screen 16 Connection 1 37 65 Connection 1 1 Link Communication One POD and one PLC are connected POD BEG 2 RS 232C or RS 422 RS 485 CE 1 n Link Communication Multi drop O One POD and multiple PLCs are connected n 1 to 32 POD o 20000000 RS 485 Maximum length 500m from POD to the last PLC
191. ting Contents 1 ON Same as POD 2 ON normally 19200bps 3 ON 4 ON Parity provided 5 OFF Self diagnosis 6 OFF 7 OFF Response delay time Omsec 8 OFF SW5 Dip Switch No Setting Contents 1 OFF Master slave control 2 OFF Slave 3 OFF Communication time out 4 OFF HEX mode O G 01DM On line off line switch on line Short plug 1 open Short plug 2 RS 232C ENABLE RS 422 DISENABLE SW1 Dip Switch No Setting Contents 1 ON 2 OFF 3 OFF 4 OFF Unit No 01 5 OFF 6 OFF 7 OFF 8 OFF 1 N 9 OFF Slave SW2 Dip Switch No Setting Contents 1 ON Same as POD 2 ON normally 19200bps 3 ON 4 ON Parity provided 5 OFF Self diagnosis 6 OFF Turn around delay if ORF Response delay time Omsec 8 OFF 9 OFF HEX mode 25 Koyo PLC 2 73 Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male m PLC A ran D sub 25pin Male m rN E Y A L SD 1 1 1 1 RD i 1 1 1 1 1 1 1 1 it RS 1 1 1 1 1 1 1 te od mt cs 1 1 1 1 oF Ki SG Use twist shielded cables Wiring Diagram 2 POD CN1 D sub 25pin Male 4 PLC FG Ii nae D sub 15pin Male m rN an NA sD 2 I TXD 2 t i t 1 RD 3 e RXD 3 1 1 Rs 4 o poa RTS 4 1 1 cs 5 va o CTS 5 1 1 se 7 i Tt ov 7 nota a Wiring Diagram 3 POD CN1
192. ting the data transfer cable UGOOC T to CN1 1 Set the adaptor ADP25 9 which is attached to UGOOC T to UGOOC T And connect the modular jack side of UGOOC T to MJ1 or MJ2 ADP25 9 side of UGOOC T to CN1 gt Self Log Test Loop Test If the NG lamp turns on when the same switch as above is pressed ask the advice of your distributor OSignal Test of RS 485 in MJ1 and MJ2 When you execute the signal test of RS 485 in MJ1 and MJ2 ask the advice of your distributor CED 17 Operation of POD Main Menu B Printer Check Check the signal of printer The test is OK if the test printout is executed satisfactorily when connecting POD to a printer and pressing this Printer Check switch amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO amp 0123456789 ABCDEFGHIJKLMNO C Switch Check Check the reaction of the touch switches on the POD panel When the Switch Check switch is pressed the following screen is displayed Main Menu Check Switcp Qheck F2 Press the Switch Check switch The switch
193. tion of 640 x 480 or more Display 800 x 600 is recommended 9 Serial Connector CN1 9 Serial Connector CN1 CN1 is used for communicating between a PLC and a POD RS 232C RS 422 485 Serial Connector CN1 The pin arrangement of serial connector is as follows Pin No Signal Contents 1 FG Frame ground 2 SD RS 232C send data 3 RD RS 232C receive data 4 RS RS 232C RS request to send EN Dsub 25pin P1 5 cs RS 232C CS clear to send 6 Not used 1 o 14 7 SG Signal ground 8 Not used 9 5V Use prohibited 10 ov Use prohibited 13 O 25 11 Not used 12 SD RS 422 send data 13 SD RS 422 send data 14 RS RS 422 RS send data 15 Not used 16 Not used 17 RS RS 422 RS send data 18 CS RS 422 CS receive data 19 CS RS 422 CS receive data 20 Not used 21 Not used 22 Not used 23 Not used 24 RD RS 422 receive data 25 RD RS 422 receive data Communication Cable of RS 232C RS 422 RS 232C Oln case of RS 232C SD and SG and RD and SG form a pair OConnect the shielded cable to pin No 1 or the connector case cover POD CN1 To the RS 232C port Signal Pin No Sn ee aE POETENE E gt e FG 4 Lo a 5 Receive data SD 2 i ee RS 4 e gt Send data l cs 5 E SG 7 Vf Ne Bee ey PA a CED
194. to POD via the modular jack MJ1 MJ2 of POD series O To connect a bar code reader to POD via MJ1 MJ2 use the cable which is the optional equipment made by Fuji Electric Co Ltd UGOOC B Length 3m Accessory Modular Plug 12345678 Brown 5V Red OV Orange RXD Yellow TXD O Notes on Connection e In case of using the bar code reader which uses the CTS and RTS control the bar code reader may not work normally without jumping RTS and CTS e The output power supply 5V is max 150mA Refer to the preview page O When the bar code reader connected to UG400 is used connect it to UGx20 by the following cable 12345678 Barcode Reader D sub 9pin 4 Pin No Signal x Jump pins 1 CTS and 4 RTS Red 0V Brown 5V CED 13 Printer Interface CN2 3 Printer Interface CN2 O When a printer is connected to POD via the connector CN2 it is possible to hard copy the screen display of POD the data sheet or the sampling data O To connect a printer to POD use the parallel interface cable of 36 pins which is optional equipment made by Fuji Electric Co Ltd UGOOC C When using CBM292 293 printer our printer cable be UGOOC A is available Half pitch 36 pins O Compatible Printer Control Code System and Printer Models NEC PC PR201 series EPSON Compatibles with ESC P24 84 or later HP HEWLETT PACKARD PCL Level 3 CBM292 293 Line thermal
195. to the CPU port The communication parameter setting of POD is done automatically Available Memory K INES IN M_ standardmemoy 2 ________ AM retainmemoy 4 SM system memory eS IA To specify a memory basically a variable name is set For the variable name linkage function refer to the User s Manual lt Variable Name Cooperation Function gt FEH363 Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs To set an indirect memory using a macro specify the CPU No using the extended code Indirect memory setting by macro is not available for input I or output Q memory 3 FUJI PLC 3 2 7 Notes on the direct connection with the CPU port of SX series CPU e Fully consider the influence of noise on the communication cable routed between the POD and MICREX SX The level of noise resistance when a ferrite core is attached to the cable 1 000 V e Fully consider the influence of noise on the cable when routing it on the board and in the unit Route the cable apart from the power lines e The longer the communication cable the more it is influenced by noise Carefully route the cable We have 2 m 3 m and 5 m communication cables UGOOC S dedicated for connection to PLCs Wiring Use an UGOOC S cable dedicated for communication to the PLC GED su A FUJI PLC 4 FLEX PC series Available PLC NS Serie
196. tor attached to the package to the extension l O unit connector then secure it using the two screws Tightening the screws for securing a unit The following table shows the screw to be used and tightening torque e for fixing a unit ree points Screw type Tightening torque Nem Screw for securing 0 3 to 0 5 a unit 24V DG COM N 1 2 3 4 5 6 7 8 9 10 11 12 22 8 5 Zar 14 se 15 34 23 han 16 EF 17 18 T 19 Tag DI DO connector included in the package 20 Us 21 Coad 22 Load Input z 23 INNO Jo 1 2 3 4 5 6 7 slo 10 11 12 13 14 15 net IN Pin No 23 13 2 24 14 3 25 15 4 26 16 5 27 17 6 28 nee IN 28 UT UT Output 2 b UT ouTno lo lil213 4 s e 7l 8 9 10 11 12 13 14 15 31 our Pin No 18 29 7 19 30 8 20 31 9 21 32 10 22 33 11 34 33 Pta 34 lag I O Circuit The following figures show the circuit diagrams for the I O pins e Input circuit e Output circuit Input voltage NPN type with off voltage contact 12 V to 24 V DC Input impedance 3 3KQ Maximum drive current 50 mA 12V to 24V DC Input curren 3to7 mA Residual current 1 7V
197. ual Port Interface O As the UGOOP DI is powered by a CPU check that the electric capacity of the CPU is at 5V power consumption max 350mA O The distance between the CPU and the UGOOP DI should be as short as possible max 1 to 1 5m O For wiring take appropriate measures to eliminate noise O Specify the value more than 150 1 5 s in Time out Time of Comm Parameter in case of connecting POD to a UGOOP DI In case of direct connection with the CPU port of FX1 2 series use the cable UG200C G separately sold In case of direct connection with the CPU port of FX2N 1N 0N 1S series use the cable FX 20P CADP made by MITSUBISHI Slide switch q 1 Aseries UG200C G 2 QnA series E 3 FX series JH Note SS Be sure to turn the power off H when changing over of the sliding switch POD When use the cable UGOOC E it is impossible to use the UGOOP DI GED i mitsusisui rc s MITSUBISHI PLC 5 FX series link A prt Available PLC Select PLC Type PLC Wiring Diagram FX2N 232 BD RS 232C Wiring Diagram 1 FX2N 485 BD RS 485 Wiring Diagram 3 FX2N 422 BD RS 422 UG00C E made by Fuji Electric FX1N 232 BD RS 232C Wiring Diagram 1 FX series FX1N 485 BD RS 485 Wiring Diagram 3 A protocol FX1N 422 BD RS 422 UGOOC E made by Fuji Electric FXON 232ADP RS 232C Wiring Diagram 2 FXON 485ADP RS
198. ud rate is 38400 bps lf 57600bps or 115000bps is selected POD communicates with a PLC forcibly at 9600 bps KV10 24 series CPU po Pot 9 ef ray ee _ Transmission Data Leng e gt gt gt cos f sos ____1w T 1 Maximum baud rate is 38400 bps lf 57600bps or 115000bps is selected POD communicates with a PLC forcibly at 9600 bps 4 KV700 series CPU AA O o A A lA 1 Maximum baud rate is 57600 bps 42 KEYENCE PLC 3 12 113 Available Memory DM data memory CH input output relay TC timer current value CC counter current value TS timer set value CS counter set value T timer contact TM temporary data memory Gui ore 2 NE 1 high speed counter current value 2 high speed counter comparator set value 3 high speed counter comparator contact Set the memory to the extent of the memory range of each PLC model Use TYPE number to assign indirect memory for macro programs Wiring The following is a diagram to show the wiring of the cable which connects POD to PLC RS 232C Wiring Diagram 1 POD CN1 D sub 25pin Male 4 PLC Modular Connector 6pin 3 RD 4 SG 5 SD 123456 Use twist shielded cables AD si 3 LG PLC Available PLC Select PLC Type Wiring Diagram MASTER K10 60 200 K10 60 200 RS 232C Wiring Diagram 1 RS 422 Wiring Diagram 6 MASTER KxxxS K200S K300S K1000S CPU port RS 232C Wiring Diagram 3 MAST
199. witch emulation function With this function you can manipulate the Windows screen displayed on the POD with touch switches i e without using the mouse O Applicable version of screen development editor This function is adapted to 2 4 0 0 or newer versions of the screen development editor O Applicable version of POD system program This function is adapted to 1 200 or newer versions of POD system program SYSTEM PROG VER Oo Touch panel driver to be installed PN WIN98 95 Ver 2 00J Japanese version from GUNZE O Operating environment of the access vision driver Computer DOS V personal computer OS Windows98 95 O Restrictions 1 DOS application software that runs on MS DOS prompt cannot be operated with touch panel 2 This function is compatible with PS 2 mouse but may not with the unique pointing device of manufacturer s own development that is installed mainly in note type personal computer O About setting 1 Select Touch Switch from Modular Jack 1 or Modular Jack 2 in the Modular dialog box of System Setting When you want to display the symbols for DOS V personal computer on the POD send the coordinate output of the touch panel to the DOS V personal computer via the MJ port that is set in this step 2 The touch panel driver supplied from GUNZE needs to be installed in the DOS V personal computer in advance For how to install the driver refer to the manual supplied with the GUNZE touch panel driver O Examp
200. with CN1 by the connection of RS 422 485 e Set DIPSW 6 ON in case of connecting with Modular Jack 1 by connection as below Multi link2 communication master Temperature controller communication by connection of RS 485 Card Recorder UGOOP MR option is used Serial Extension I O UGOOP U2 option is used Terminal POD connected with UG Link by connection of RS 485 e The terminal resistance of MJ 2 is always ON E 11 Modular Jack 1 amp 2 ModularjJack1 2 Modular J ack 1 amp 2 MJ 1 2 The right diagram is the pin arrangement and the signal name of modular jack 1 amp 2 MJ1 2 Pin No Signal Contents 1 SD RD RS 485 data res 2 SD RD RS 485 data 3 5V Output power supply MTI 4 5V Max 150mA Ta 5 OV Signal ground 6 OV 7 RD RS 232C receive data 8 SD RS 232C send data Setting of Modular J ack 1 amp 2 MJ 1 MJ 2 OSpecify the use of MJ1 MJ2 by the software UGOOS CW OSelect Modular from System Setting The Modular Jack dialog is displayed The setting items of Modular Jack 1 and Modular Jack 2 as follows Modular Jack 1 Editor port Memory Card Barcode UGOOP U2 Multi Link 1 2 Temp CTRL Net 2 UG Link 2 Touch Switch Ladder Tool Serial Printer Modular Jack 2 Not used Memory Card Barcode UGOOP U2 Multi Link 4 2 Temp CTRL Net 2 UG Link 2 Touch Switch Ladder Tool Serial Printer It
201. yed on the POD communications with the PLC programming software continue so that communications with the UGOOS CW editor are not available When communicating with the UGOOS CW editor refer to the following two ways When UG420H E is used selected the way of Automatic switching after upgrading system prg of U420E o Automatic switching UGOOS CW ver 3 0 9 0 or later sys prg ver 1 350 or later Check Ladder communication is not used in Local mode on the Environment Setting tab menu of the Unit Setting dialog in the System Setting o Manual switching Hold down the F2 switch for three seconds Editor changes to Memory Expansion Backlight Buzzer System Mode Switch Editor MJ1 and communications Blink TouchSwitch DIO Mem Overlap Environment Setting with the UGO0S CW editor become Display Item Display Al possible OTranstar Comment JUse Internal Flash ROM as Back up Area Communications with Communications with Print out bit sampling as displayed the PLC programming the UGO0S CW editor possible Convert DIO Input memory to bit memory software possible DValidate Text Process setting when using JIS code character strings as vay Relay Priority Display on Screen Call Lo Editor MJ1 Editon gt ditor Ms _jUse 3D Parts Special Operation Pressing two switches When the F2 switch is held down for e ommunication is not used in Local mode three seconds Editor MJ1

Fujitronic UG520H-x User's Manual

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