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Contents
1. LS Industrial Systems Chengdu Office gt gt China aLa industrial Systime Hanol gt aun Address Room 2907 Zhong Yin B D No 35 Renminzhong 2 Address Room C21 5th Floor Horison Hotel 40 Cat Linh Road Chengdu China e mail hongkonk vip 163 com Hanol vienam Tel 86 28 8612 9151 86 28 8612 9236 TO GARE TAS DETOM PAR SAE LS Industrial Systems Qingdao Office gt gt China a Dallan Systems Cid e China Address 12th Floor Guodong building No52 Jindun Road Address No 15 Liaohexi 3 Road economic and technical Chengdu China e mail bellkikGhanmail net development zone Dalian China e mail lixk Igis com cn Tel 86 411 8273 7777 Fax 86 411 8730 7560 Tel 86 532 580 2539 Fax 86 532 583 3793 LS Industrial Systems constantly endeavors to improve its product so that 2009 9 Information in this manual is subject to change without notice 2008 LS Industrial Systems Co Ltd All Rights Reserved2. 2 2 22 2 2 2 2 9 2 ADDIICQUOD a ere 8 2 1 Program to sort A D converted value in size 8 2 2 Program to output error codes of analog input module to BCD display 8 8 Contents Chapter 9 Troubleshooting 4 9 2 8188 1118 Cr M 9 2 3 CPU module cannot read A D converted value 9 3 9 2 4 Relationship discordant between analog input value amp digital output value 9 4 9 2 5 H W error of A D conversion module 2 0 2 2 2 2 22 2 2 2 2 92 4 9 2 6 Status check of A D conversion module through XG5000 system monitor 9 4 Appendix Dimension Appendix T DO ed S10 Ul is 022245 Rae condos wx doe mine E X AST Appendix 1 1 0 Chapter 1 Introduction Chapter 1 Introduction This user s manual is to describe XGF AD16A analog input module used as associated with XGT PLC series of CPU module about their specifications treatment and programming which will be hereinafter referred to as A D conversion module Ana
3. 72 2 19 2 5 4 Hold last value Dedicated for current input 2 21 2 21 Chapter 3 Installation and Wiring STE o A 3 1 1 Installation environment 2 OF 1 3 1 2 Precautions TOI acini wae one v wie min ohh 3 2 1 Precautions TOF Wiring RET dos Contents 8 2 2 WINO REPOS UM CMM ME Chapter 4 Operation Setting 4 1 5 cvs cas uve cendo vas soe eae quisi ed x mac p d 4 2 Operation Parameters Setting 2 22 222 22 22 2 22 2 2 2 4 2 SUN MES adio acted votes uns bes 4 2 2 How to use I O Parameters 2 0 4 2 4 3 Special Module Monitoring Functions 2 0
4. EX R ES UXY 14 CH12 digital output value UXY 15 CH13 digital output value UXY 16 CH14 digital output value UXY 13 CH11 digital output value UXY 17 CH15 digital output value 5 1 Chapter 5 Configuration and Function of Internal Memory For XGK Flag to detect UXY180 Flagto detect CHOdisconnection 1 5Vor4 20mA mA Flag to detect CH1 disconnection 1 5 V or 4 20 mA Flag to detect CH2 disconnection 1 5 V or 4 20 mA Flag to detect CH3 disconnection 1 5 V or 4 20 mA Flag to detect CH4 disconnection 1 5 V or 4 20 mA Flag to detect CH5 disconnection 1 5 V or 4 20 mA Flag to detect CH6 disconnection 1 5 V or 4 20 mA Flag to detect disconnection 1 5 V or 4 20 mA Flag to detect CH8 disconnection 1 5 V or 4 20 mA Flag to detect CH9 disconnection 1 5 V or 4 20 mA Flag to detect CH10 disconnection 1 5 V or 4 20 mA Flag to detect CH11 disconnection 1 5 V or 4 20 mA Flag to detect CH12 disconnection 1 5 V or 4 20 mA Flag to detect CH13 disconnection 1 5 V or 4 20 mA Flag to detect CH14 disconnection 1 5 V or 4 20 mA Flag to detect CH15 disconnection 1 5 V or 4 20 mA U UXY 19 0 Flag to request error clear version 1 01 CHO alarm upper limit CH1 alarm upper limit CH2 alarm upper limit CH3 alarm upper limit CH4 alarm upper limit CH5 alarm upper
5. Analog Quanity du Qo 1 2 2 Digital Quantity D petuo quien nope Rec dE 1 2 8 Characteristics of analog digital conversion 0 2 2 71 9 uc de 1 4 Chapter 2 Specifications 2 1 General Specifications 2 2 2 2 420 2 2 22 22 2 2 2 2 222 2 2 2 1 2 2 Performance Specifications 2 2 2 222 22 2 4 2 2 2 3 Respective Designations and Functions 2 4 2 3 1 Analog input module dee uices ard nus dut peut an aot eee ree rrr 4 2 4 Characteristics of I O Conversion 2 2 2 222 22 22 2 2 42 4 4 2 2 5 2 4 1 I O characteristics of analog input module 7 2 6 2 4 2 Accuracy 2 5 Functions of Analog Input Module sss RR 2 16 2 5 1 Sampling PIOCSCSSING 2 2 io RM ISP INN 2 5 2 Average processing 2 2 2 2 17 2 5 3 Input disconnection detection function
6. Count Avr Weighted Avr XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH ci cus C Channel status Disable Disable Disable Disable Disable Disable Disable Disable C Input range 4 20mA 4 20 4 20 4 20mA 4 20 4 20 4 20NA 4 20mA Output type 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 1600 Sampling Average processing Sampling Sampling Sampling Sampling Sampling Sampling Sampling 0 0 0 0 0 Sampling Time Avr Count Avr Weighted Avr e Average value This field is activated when Average processing field is set as Time Avr Count Avr Weighted Avr except Sampling If you double click Average value field you can input value 16 16000 range for Time Avr 2 64000 range for Count Avr and 0 99 range for Weighted Avr If the value exceeds that range input is not available XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH Disable Disable Disable Disable Disable Disable Disable Disable 4 20 4 20 4 20 4 20 4 20 4 20 4 20 4 20 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 Sampling Sampling Sampling Sampling Sampling Sampling Sampling Awmgevaue 1600 0 Rc 0 0 XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH Disable Disable Disable Disable Disable Disable Disable Disable 4 20mA 4 20mA 4 20mA 4 20mA 4 20mA 4 20 4 20 4 20 0 16000 0 16000 0 16000 0 186000 0
7. UD7 OD F 00000 te FL ot Analog Input Module Module Ready 00000 07 01 0 F MOV 07 02 000000 Analog Analog Input Input Module Module CHO Active Output UD 1 1 007 03 000001 Analog Analog Input Input Module Module CH1 Active CH1 Output MOV 107 04 000002 Analog Analog Input Input Module Module CH Active CH Output MOV UD 05 000003 Analog Analog Input Input Module Module CH3 Active CH3 Output s MOV 107 06 000004 Analog Analog Input Input Module Module CH4 Active CH4 Output 01 5 D00005 Analog Analog Input Input Module Module Active CHS Output Um 01 6 MOV 107 08 000006 Analog Analog Input Input Module Module CH6 Active CHE Output 4 19 01 7 Analog Input Module CH Active U07 01 8 Analog Input Module Active unm 01 3 Analog Input Module CH9 Active Analog Input Module CH10 Active 07 01 6 Analog Input Module CH11 Active un aT c Analog Input Module CH12 Active Analog Input Module CH13 Active UL E Analog Input Module CH14 Active Analog Input Module CH15 Active Chapter 4 Operation Setting MOV 09 000007 Analog Input Module Output MOV 10 10 000100 Analog Input Module CH8 Output MOV 11 000101 Analog
8. 8 2 Application Program 8 2 1 Program to sort A D converted value in size slot fixed points assigned based on 64 1 System configuration XGP XGI XGI XGF XGQ ACF2 CPUU D22A 16 RY2A 2 Details of initial setting Internal Value to write on internal Item Details of initial setting memory memory Used CH CHO CH2 CH3 00Dori3 Input range 10 10V 5505 21765 E 3 Program description a If CH 05 digital value is less than 12000 Contact No 0 0 2 0 of relay output module installed on Slot No 2 will be On b If CH 2 s digital value is greater than 13600 Contact No 2 96QX0 2 2 of relay output module installed on Slot No 2 will be On c If CH 35 digital value is greater than or equal to 12000 and less than or equal to 13600 Contact No 4 96QX0 2 4 of relay output module installed on Slot No 2 will be On d If CH 35 digital value is equal to 13600 Contact No 5 QxX0 2 5 of relay output module installed on Slot No 2 will be On 8 5 Chapter 8 Programming For XGI XGR 4 Program Program example using I O parameters setting Parameter Setting Fixed allocation 64points All Base Set 2440 Base 00 Default Input Filter Emergency Out Allocation B 00 DC 24V INPUT 0 DC 24V 32points 3 Standard ms 8 01 Cur vott 18 v 4 02 2 RELAY OUTPUT 15points Default cm 03 Default
9. 7 5 CS industrial Systems Chapter 7 Configuration and Function of Global variable For XGI XGR 2 Global variable registration Registers global variable set in parameter a Double click Global Direct Variable of project window XG5000 NewProgram Program amp Sx MAREA 00 a 518101 100 mm mm 8 69 4b F3 F4 sFi 10 11 EU X amp 22988 ed n amp 1 Project Windc Delete Select All 28 A AGES t Global Variable Direct Variable Comment ems a 447 2 8 Insert Line amp 8X Delete Line Export Variables to File XG5000 Global Direct Variables Project Edit Find Replace View Online Monitor Debug Tools Window Help BEE DP BAK BEC KX o BK uga m Em me cn i afox V Global Variable Mrs Variable Kind 4 168 VAR BLOBAL CONST 00 AVG VAL D gt m ct ie x 9 8 NewPLC XGI CPUU Offline
10. a At part reading A D conversion data to MWO by using the following MOVE function double click variable part ahead of IN then Select Variable window shows up Channel Double click b Select global variable at variable type at Select Variable window And select relevant base 0 base 0 slot at global variable view item Select Variable Variable OE 844 to direct variable comment Variable List Local Variable Global Variable Direct Variable Flag Mew 00 510100 xaF ADTBA Cur Volt 18 21 siotil 16 9 List 0000 ACT BOOL 0 16 INT RUMO O 2 _0000_ _ 100 BOOL amp LST LT 288 0000 2110 ACT BOOL 0000 SUWO 0 12 Select Variable Variable _0000 Add to direct variable comment Variable List Local Variable 5 Global Variable Direct Variable O Flag Mew Variable List Basel 510100 XGF ADIBA Cur Volt 16 v VAR BL BAL 1000 CHO ACT BOOL AUD 0 16 VAR GLOBAL Initial INE BL BAL 100 100 BOOL 200 VAR BL BAL 1000 ACT BOOL 0 26 BL BAL _0000_ _ 0 12 Chapter 7 Configuration and Function of Glo
11. ede epe 225 DONE H H H 1 1511411311211111019 8 7 6 Bit Description 1640003 0000 0000 0000 0011 1520008 Set channel CH3 CH2 CH1 CHO to use e The value 4 15 is ignored f The right figure is example enabling 1 of A D module equipped at slot 0 2 Input voltage current range setting a You can set input voltage current range per channel b When analog input range is not set all channels are set as 1 5V 4 20mA c Setting of analog input voltage current range is as follows The following is example setting CHO CH1 as 1 5V and 2 as 0 10V 5 4 Bi Bil 89 B7 86 BS B4 82 B INST CH3 CH2 CH1 CHO DUNE 0 STAT Bit Description 0000 4 mA 20 mA 0001 0 mA 20 mA FODDI 0010 1V 5V RANGE 0011 0V 5V bid 127 0100 0 10 0101 0 V 10V Input range 1684422 0100 0100 0010 0010 setting CH3 CH2 CH1 CHO 7 14 Chapter 7 Configuration and Function of Global variable For XGI XGR 3 Out put data range setting a Digital output data range about analog input can be set per channel b When output data range is not set all channels are set as 32000 32000 c Setting of digital output data range is as follows B15 Bl4 813 Bi2 Bll 810 B9 B6 85 HB 83 82 BO REL PUT WEB RE DONE CH3 CH2 CH1 CHO 0 Bit Descr
12. Off 2 _ 2 transmitter mE Run the channel to be used only Analog input module does not provide power for the input device Use an external power supplier 4 Wiring example of 4 wire sensor transmitter voltage current input CHO 2 8H mifi transmitter ES El transmitter REM Start the channel to be used only Analog input module does not provide power for the input device Use an external power supplier 1 Use a 2 core twisted shielded wire AWG 22 is recommended for the cable standard 2 XGF AD16Ass current input resistance is 250 typ 9 XGF AD164Ass voltage input resistance is 1 min 3 3 Chapter 3 Installation and Wiring 5 Relationship between voltage input accuracy and wiring length In voltage input the wiring cable length between transmitter or sensor and module has an effect on digital converted values of the module as specified below Rc V j Ri meee eee ee i i i i i i i eC Cl Analog Input voltage Where Rc Resistance value due to line resistance of cable Rs Internal resistance value of transmitter or sensor Ri Internal resistance value 1M of voltage input module Vin Voltage allowed to analog input module Vi Tolerance of converted value 96 due to source and cable length in voltage input Vin Ri x Vs Rs 2 Rc Ri i
13. c Output type Select the type of output data 4 formats are available in total 4 5 XGF AD16A Cur Volt 16 CH Disable 4 20mA 0 16000 Sampling 0 0 186000 Sampling 0 XGF AD16A Cur Volt 16 CH Disable Disable 4 20mA 0 16000 8000 8000 4000 20000 0 10000 XGF AD16A Cur Volt 16 CH 0 16000 Sampling 19 Disable 4 20mA 0 16000 Sampling 0 Disable 4 20mA 0 186000 Sampling 0 Disable 4 20mA 0 16000 Sampling 0 Disable 4 20 0 16000 Sampling 0 Disable 4 20 0 16000 Sampling 0 i 4 20mA 0 165000 Sampling 0 XGF AD16A Cur Volt 16 CH 0 16000 Sampling 0 Disable 4 20 LS industrial Systems Disable 4 20 0 16000 Sampling 0 Disable 4 20mA 0 16000 Sampling 0 Disable 4 20mA 0 186000 Sampling 0 Disable 4 20mA 0 165000 Sampling 0 Disable 4 20mA 0 16000 Sampling 0 16000 Sampling 0 16000 8000 8000 _ 8000 20000 0 10000 96 Chapter 4 Operation Setting d Average processing Set the average processing type 4 methods are available XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH Disable Disable Disable Disable Disable Disable Disable Disable 4 20 4 20 4 20 4 20 4 20 4 20 4 20 4 20 076000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 Sampling Sampling Sampling Sampling Sampling Sampling Sampling Average value Sampling 0 0 0 0 0 0 0
14. Address 4 5 3 3 How to specify the range of output data address No 5 address No 6 1 The range of digital output data for analog input can be specified for respective channels 2 Ifthe output data range is not specified the range of all the channels will be set to O 16000 3 Setting range of digital output data range is as specified below 815 4 812 Bll 89 Be 80 HB 82 55 5 815 4 812 Bll 89 B 80 HB 82 Address 6 5 9 Chapter 5 Configuration and Function of Internal Memory For XGK Precise value has the following digital output range about analog input range a Current 4 20 mA 0 20 mA Digital output 4000 20000 0 20000 b Voltage 10 10 V 0 10V 0 5 1 5 Digital output 10000 10000 0 10000 0 5000 1000 5000 5 3 4 How to specify average process address No 7 address No 8 1 Allowed Prohibited filter process can be specified for respective channels 2 Ifthe filter process is not specified all the channels will be sampled 3 Setting of the filter process is as specified below Address 7 85 4 812 89 87 80 84 82 BO Address 8 YO 5 10 Chapter 5 Configuration and Function of Internal Memory For XGK 5 3 5 How to specify average value address 9 24 1 Setting range of average value is as
15. Chapter 6 Programming For XGK 4 Program a Program example using I O parameters setting Parameter Setting Variable allocation Module list m E Base 00 ez 00 Default Default Default Default Default XGF AD16A Cur Vo Default Default Default Base 03 Base 04 Base 05 C Base 06 Base 07 Default Default Default Default Default Default Default XGF AD16A Cur Volt 16 CH Al3F AD 16 16 Parameter C Channel status Input range Output type Average processing Average value Enable 10 10V 0 186000 22216 Sla Comment InputFiter EmergencyOut Allocation Module ready Execution contact point UDT1 00 F 00001 00002 00000 101 01 0 71 01 2 01 01 4 01 02 01 04 101 06 1101 06 10 10 10 16000 sampling MI XGF AD164 Cur Volt 16 Enable Enable Disable 22 10 10 10 10V oo uu prom 2 i 3 per eid aman cw 7 on Disable Disable 10 10 10 10V MODOO1 80 12000 P00082 13600 M00002 12000 ta 00085 12800 c GET 1 25 Slot No 000000 1 200086 Internal memory address Device to save 0 16000 sampling ci ee Disable 10 10Ww 3 sampling 0 Read error code
16. Chapter 7 Configuration and Function of Global variable For XGI XGR M Global variable dd Contents Read Write allocation _ CHO LOOR UXxx yy 336 CHO alarm lower limit _xxyy_CH1_LOOR 0 337 CH1 alarm lower limit _ 2 LOOR UXxx yy 338 CH2 alarm lower limit _ LOOR 0 339 alarm lower limit _ 4 LOOR 0 340 CH4 alarm lower limit _ CH5 LOOR 0 341 CH5 alarm lower limit _ CH6 LOOR UXxx yy 342 CH6 alarm lower limit _ LOOR 9oUXx yy 343 CH7 alarm lower limit _xxyy_CH8 LOOR UXxx yy 344 CH8 alarm lower limit _ 9 LOOR UXxx yy 345 CH9 alarm lower limit CH10 LOOR UXxx yy 346 CH10 alarm lower limit _ CH11 LOOR UXxx yy 347 CH11 alarm lower limit CH12 LOOR UXxx yy 348 CH12 alarm lower limit _ CH13 LOOR UXxx yy 349 CH13 alarm lower limit _ CH14 UXxx yy 350 CH14 alarm lower limit _ CH15 LOOR UXxx yy 351 CH15 alarm lower limit _ ERR SoU Xxx yy 352 Error clear request flag V1 02 At the device allocation xx means base number and yy means slot number where module is installed 7 1 2 How to use global variable In order to register global variable there are two method auto registration after setting I O parameter at project window and batch registration after setting parameter 1 I O parameter registra
17. Compare 2 4 Error code 8 7 LS Industrial Systems Chapter 8 Programming For XGI XGR 8 2 2 Program to output error codes of analog input module to BCD display 1 System configuration XGP XGK XGI XGQ CPUS 024 2 AD16A RY2A Initial value setting L P0000 A D converted value amp 5 0001 error code saved Digital BCD display error display Error code output to BCD 0002 2 Details of initial setting a Used CH CH 0 b Analog input current range DC 4 20 mA c Time average process setting 100 ms d Digital output data range 0 16000 3 Program description a If IX0 0 0 is on A D conversion will be initially specified b If IX0 0 1 is on A D converted value and error code will be saved respectively on DATA and 1 4 0 0 2 is on applicable error code will be output to digital BCD display QW0O 3 0 4 Program a Program example through I O parameters setting Parameter Setting Fixed allocation 64points All Base Set Base zi Base 00 Default B i DC edv INPUT 3 Standard ms B 01 RELAY OUTPU Default 2 ee vae Ec _ 03 RELAY OUTPU 04 Default on ez U5 Default 05 Default exa 07 Default U8 Default 09 Default a 10 Default ea 1 Default Base 01 Default Base 02 Default x
18. Fig 1 6 Characteristics of A D conversion Current Input If analog input range of O 20 is used in current type of Analog input module 0 m of analog input quantity will be output with digital value of 0 and 20 m of analog input quantity will be output with digital value of 16000 where consequently analog input of 1 25 is equivalent to digital value of 1 Fig 1 6 1 3 Chapter 1 Introduction The new functions of A D conversion module are as follows Module CPU OS Item Description OS version Ref Sl value effective input value related XGK V3 2 Alarm When input signal exceeds effective range relevant XGI V3 1 function alarm flag turns on 1 4 Chapter 2 Specifications Chapter 2 Specifications 2 1 General Specifications General specifications of XGT series are as specified in Table 2 1 Table 2 1 General Specifications Item Specifications Related standards Operating temp 072 455 Storage humidity 5 9595 Non condensing For discontinuous vibration NENNEN 10445572 0 075 574515012 98m sXiG Vibration Each 10 For continuous vibration times in IEC61131 2 iN Amplitude XYZ directions 57sfs150Hz 4 9m s2 0 5G impact acceleration 147ms 15G eee pulse Each 3 times in X Y Z directions Noise 27 500MHz 10 Vim Fast Power Digital Transi
19. If Analog input module is installed on Base No 0 and Slot No 3 and internal memory addresses No 0 amp 1 s data in Analog input module is read to DO and D1 of CPU module Address D area of CPU module Internal memory Address CH enable disable setting 0 Range setting of input voltage 1 current CH enable disable setting Range setting of input voltage current 00000 GET 3 0 000000 2 END 6 3 Chapter 6 Programming For XGK 6 2 2 Write of operation parameters setting area PUT PUTP instruction PUT instruction Execution condition n1 n2 S Area available Slot No the special module is installed on n2 Start address of special module s internal memory to write data S Device s start address or integer with saved data to write M P K L T C D D n3 Number of words data to write Integer Difference between PUT instruction and PUTP instruction gt PUT always executed with execution condition On PUTP executed with execution condition of operation start If Analog input module is installed on Base No 0 and Slot No 6 and CPU module s data of D10 D13 is written on internal memory addresses 7 10 of Analog input module Address D area of CPU module Internal memory Address Average processing Average processing Average processing Average processing CH1 average value setting CH1 average value setting PUT 6 7 0000170 1 Average process 1 ME N
20. Temp Measuring Module lt T Process control module Communication Module List Delete Slot ils c Set parameter by pressing Details and select OK XGF AD16A Cur Volt 16 CH GF AD164 Cur Volt 16 CH Channel status 4 20 0 16000 Sampling 0 Disable XGF AD16A Cur Volt 16 CH GF 4D164 Cur Volt 16 CH Disable 4 20mA 0 186000 Sampling 0 Disable Disable 4 20mA 0 16000 Sampling 0 Disable Disable 4 20 0 16000 Sampling 0 Disable Disable 4 20mA 0 16000 Sampling 0 Disable Disable 4 20mA 0 16000 Sampling 0 Disable Disable 4 20mA 0 185000 Sampling 0 Disable Disable 4 20mA 0 165000 Sampling 0 Disable Disable 4 20 0 16000 Sampling Disable Disable 4 20mA 0 16000 Sampling 0 Disable Disable 4 20 0 16000 Sampling 0 Disable Disable 4 20 0 16000 Sampling 0 Disable Disable 4 20 0 16000 Sampling 0 Disable Disable 4 20mA 0 165000 Sampling 0 Disable Disable 4 20mA 0 16000 Sampling 0 Disable CH 10 CH 11 CH 13 CH 14 CH 15 Disable 4 20mA 0 165000 Sampling 0 Disable iis 7 4 LS Industrial Systems Chapter 7 Configuration and Function of Global variable For XGI XGR d Select Yes Auto register global variable of module set in parameter XG5000 Automatically register comments in the U Devices according to the special module set in
21. oigned value 8192 8000 4000 4000 8192 8191 Precise value 10000 15000 3808 20191 Percentile value 5000 7500 120 10119 3 If the range is DC 1 5V a On the XG5000 menu I O Parameters Setting set Input range to 1 5 V XGF AD16A Cur Volt 16 CH ABF AD15A Cur Volt 1 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 Sampling Sampling Sampling Sampling Sampling Sampling Sampling Sampling 0 0 0 0 0 0 0 0 Disable Disable Disable Disable Disable Disable Disable Disable C Channel status v XGF AD16A Cur Volt 16 ABFADITBA 16 CH Disable Disable Disable Disable Disable Disable Disable Disable 0 16000 0 186000 0 186000 0 168000 0 16000 0 16000 016000 0 18000 Sampling sampling sampling Sampling sampling sampling sampling sampling ppc C Hold last value Disable Disable Disable Disable Disable Disable Disable Disable Chapter 2 Specifications 10000 5000 8000 16000 i 7500 4000 4000 12000 5000 3000 0 8000 en eA 2500 2000 4000 4000 0 1000 8000 0 120 952 8192 192 1 2 3V 4V 5V Analog input value voltage b Digital output value for voltage input characteristics is as specified below Resolution based on 1 16000 0 25 mV Digital Analog input voltage V Output r
22. Vs In current input there will be no accuracy tolerance caused by cable length and internal resistance of the Source 3 4 Chapter 4 Operation Setting Chapter 4 Operation Setting 4 1 Operation Procedures The processing for the operation is as shown in Fig 4 1 Install A D conversion module on the slot Connect A D conversion module with the external device Will you specify Run parameters through I O parameters setting YES Y Specify Run parameters through NO parameters setting Prepare PLC program 4 Fig 4 1 Procedures for the operation 4 1 Chapter 4 Operation Setting 4 2 Operation Parameters Setting Analog input module s operation parameters can be specified through XG5000 s I O parameters 4 2 1 Settings For the user s convenience of Analog input module XG5000 provides GUI Graphical User Interface for parameters setting of Analog input module Setting items available through parameters on the XG5000 project window as described below in the table 4 1 Table 4 1 Function of I O Parameters I O parameters 1 Specify the following setting items necessary for the module operation a Channel Enable Disable setting C Digital output data format setting b Setting analog input range d Average process method setting e Averag
23. _ 1 Input current voltage range setting 1 _ RANGE2 Input current voltage range setting 2 _ IN RANGES Input current voltage range setting 3 _ 4 Input current voltage range setting 4 CODE At the device allocation xx means base number and yy means slot number where module is installed 21 Chapter 7 Configuration and Function of Global variable For XGI XGR 7 2 2 PUT GET instruction 1 PUT instruction PUT Writing data to special module Input REQ execute function when 1 BASE setbase position DONE SLOT setslot position STAT MADDR module address DATA data to save module Output 1 when normal Error information WORD DWORD INT USINT DINT UDINT type available among ANY type m Function Head data from designated special module Funcion Block po PUT WORD WORD Save WRD data into the designated module address MADDR PUT DWORD DWORD rvs data into the designated module address PUT UINT UINT Save UNIT data into the designated module address MADDR PUT DINT DINT Save DINT data into the designated module address MADDR PUT UDINT UDINT Save UDINT data into the designated module address MADDR PUT_INT INT Save INT data into the designated module address MADDR 7 12 Chapter 7 Configuration and Function of Global variable For XGI XGR 2 GET instruction GET
24. a Used CH CH 0 b Analog input current range DC 4 20 mA c Time average process setting 100 ms d Digital output data range 0 16000 3 Program description a is On A D conversion will be initially specified b 1 is On A D converted value and error code will be saved respectively on D00000 and 000001 c If POO002 is On applicable error code will be output to digital BCD display 40 4 Program a Program example through parameters setting Parameter Setting Variable allocation 34 Base 00 Default DC 24V INPUT 3 Standard ms PODIDUF RELA OUTPUT Default 0010 001 00020 0002 Default 200030 5 Default Default Default 8 Default Default B Default 11 Default 8410 Base 01 Default 0 Base 02 Default 08 10 Base 03 Default lt Delete Slot Delete Base Base Setting Delete All Details _ Cancel 6 8 Chapter 6 Programming For XGK XGF AD16A Cur Volt 16 CH SGF AD164 16 Channel status Enable Disable Disable Disable Disable Disable Disable Disable 4 20 4 20 4 20 4 20 4 20 4 20 4 20 4 20 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 Time Avr Sampling Sampling Sampling Sampling Sampling Sampling Sampling 100 0 0 0 o o Disable Disable Disable Disable Disable Dis
25. ASIC RAM or Register Error Flickers every Module error A D Conversion Error 0 2 sec 3 Module error EEPROM Error Module error Offset value with the range of 4 20 mA is set greater than or equal to Gain value Module error Offset value with the range of O 20 mA is set greater than or equal to Gain value 1 Module error Offset value with the range of 1 5 V is set greater than or equal to Gain value Module error Offset value with the range of 0 5 V is set greater than or AHH Flickers ev equal to Gain value 5 every 1 sec Module error Offset value with the range of 0 10 V is set greater than or equal to Gain value Module error Offset value with the range of 10 10 V is set greater than or equal to Gain value Time average setting range exceeded Count average setting range exceeded Weighted average setting range exceeded 1 of the error code stands for the channel with error found 2 If 2 or more errors occur the module will not save other error codes than the first error code found 3 Use the flag to request error clear to delete the error code from the sequence program Refer to 9 2 5 Chapter 9 Troubleshooting 9 2 Troubleshooting 9 2 1 RUN LED blinks RUN LED flickers RUN LED flickers every 0 2 sec Let the power ON OFF again If the error occurs again it seems to be a module defect Contact the nearest agency or LS branch office RUN LED flickers e
26. Parameter C Channel status Enable Disable Disable Enable Enable Disable Disable Disable 10 10V 10 10V 10 10V 10 10V 10 10V 10 10 10 10V 10 10V 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 Weighted Avr Sampling Sampling Weighted Avr Weighted Avr Sampling Sampling Sampling 20 0 0 20 50 0 QR Disable Disable Disable Disable Disable Disable Disable Disable XGF AD16A Cur Volt 16 CH ABF AD15A Cur Volt 16 Parameter CH 10 CH 11 CH 12 CH 13 CH 14 CH 15 C Channel status Disable Disable Disable Disable Disable Disable Disable Disable C Input range 10 10V 10 10V 10 10V 10 10V 10 10V 10 10 10 10V 10 10V Output type 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 165000 C Average processing Sampling Sampling Sampling Sampling Sampling Sampling Sampling Sampling 0 o o 0 0 o Hold last value Disable Disable Disable Disable Disable Disable Disable Disable gt 6 1 LS Industrial Systems Chapter 6 Programming For XGK Device to save data Module READY Execution contact point Device having data to send OU F 02 01 Digital output U02 01 3 CH3 Digital output Un2 01 4 CH4 Digital output Read emor code Slot No Device to save Internal memory address No of data to read 6 1 2 Program example using PUT GET instruction Internal memory address No of data to read Execution contact point POTIT
27. Reading from special module data Funcion boc Input REQ execute function when 1 BASE setbase position SLOT setslot position BOOL BOOL MADDR module address USINT UINT 512 0x200 1023 0x3FF USINT ANY UINT Output DONE output 1 when normal STAT Error information DATA datato read from module ANY WORD DWORD INT UINT DINT UDINT type available among ANY type m Function Head data from designated special module Funcion Block Oupu ANV pe GET WORD WORD Read data as much as WORD from the designated module address MADDR Read data as much as DWORD from the designated module GET DWORD DWORD address ADDR Read data as much as INT from the designated Module address GET_INT MADDR Head data as much as UNIT from the designated module address ET UINT m MADR Read data as much as DINT from the designated module address GET_DINT DINT MADDR GET UDINT UDINT as much as UDINT from the designated module address 7 19 Chapter 7 Configuration and Function of Global variable For XGI XGR 7 2 3 Example using PUT GET instruction 1 Enable channel a You can enable disable A D conversion per channel b Disable channel not using to reduce the conversion cycle per channel c When channel is not designated all channels are set as not used d Enable disable of A D conversion is as follows 85 4 812 BO 87 86 85 B4 82 Bi BO INST2 PUT_WORD
28. Shanghai Co Ltd gt gt China LS tower Hogye dong Dongan gu Anyang si Gyeonggi do Address Room E G 12th Floor Huamin Empire Plaza 1026 6 Korea http eng lsis biz No 726 West Yan an Road Shanghai China Tel 82 2 2034 4689 4888 Fax 82 2 2034 4648 Tel 86 21 5237 9977 xcv systems TOKYO LS Industrial Systems Wuxi Co Ltd gt gt China IDEE SSH Address 102 National High amp New Tech Industrial TOE Development Area Wuxi Jiangsu China e mail Xugh Igis com cn Tel 86 510 534 6666 86 510 522 4078 e mail jschuna Isis biz_ m LS Industrial Systems Beijing Office gt gt China m LS Industrial Systems Dubai Rep Office gt gt UAE Address P O BOX 114216 API World Tower 303B Sheikh Zayed road Dubai UAE e mail hwyim lsis biz Tel 971 4 3328289 Fax 971 4 3329444 LS VINA Industrial Systems Co Ltd gt gt Vietnam Address B tower 17th Floor Beijing Global Trade Center building No 36 BeiSanHuanDong Lu DongCheng District Beijing China Tel 86 10 5825 6025 m LS Industrial Systems Guangzhou Office gt gt China Address Room 1403 14F New Poly Tower 2 Zhongshan Liu Address LSIS VINA Congty che tao may dien Viet Hung Rad Guangzhou China e mail zhangch lgis com cn Dong Anh Hanoi Vietnam e mail srjo hn vnn vn Tel 86 20 8326 6754 Fax 86 20 8326 6287
29. f Global Direct Variables Parameter B Basic Parameter Parameter Scan Program NewProgram fl User Function Function 8 User Data Type WAR GLOBAL CONST 0000 m VAR GLOBAL CONST F DDO CH EN 7 van GLOBAL CONST FOOD DATA TE VAR GLOBAL CONST _FO000_DATA_TYPE2 73 GLOBAL CONST 0000 ERR CODE 74 GLOBAL CONST 0 N RANGE VAR GLOBAL CONST 0000 IN RANGE me VaR GLOBAL CONST FOOOO_IN RANGES ss UN Ff VAR GLOBAL CONST 0000 N RANGE4 NewProgram Program 54 Global Direct Variables m id 4 EJ te itor 1 Monitor Message a X 4 Result Check Program Find 1 Find 2 Communication Cross Reference Used De Global Variable Overwrite LS industrial Systems 7 6 Chapter 7 Configuration and Function of Global variable For XGI XGR 3 Local variable registration Registers variable among registered global variable you want to use as local variable a Double click local variable to use in the following scan program Project Window Xx Items 5 2 dist 5 NewPLCCxGI CPULID Offline Global Direct Variables E Parameter 2022 48 Basic Parameter mp Parameter 38 Scan Program NewProgram Local Variables Program User Functian Functian Black User Data Type Wi Project b Click
30. 04 Default 05 Default Default 17 Default Default Default Default Default ufi Base 01 Default m Base 02 Default mfi Base 03 Default 4 XGF AD16A Cur Volt 16 CH AGF ADTBA 16 Enable Disable Enable Enable Disable Disable Disable Disable 10 10V 4 20mA 10 10V 10 10V 4 20mA 4 20mA 4 20mA 4 20mA Outputpe 10000 10000 0 186000 10000 10000 10000 10000 0 158000 0 186000 0 16000 0 186000 Average processing Weighted Avr P Sampling En Count Avr i Time Avr Sampling Sampling u Sampling Sampling MIENNE L Holdiastvalue Disable Disable Disable Disable Disable Disable Disable Disable gt XGF AD16A Cur Volt 16 CH AGF ADTBA 16 Disable Disable Disable Disable Disable Disable Disable Disable 4 20mA 4 20mA 4 20 4 20mA 4 20 4 20mA 4 20mA 4 20 Outputpe 0 165000 0 186000 0 16000 0 16000 0 156000 0 16000 0 16000 0 16000 C Average processing Sampling Sampling Sampling i Sampling 3 Sampling Sampling EN Sampling Sampling Heldlastvalue Disable Disable Disable Disable Disable Disable Disable Disable a 8 6 CS industrial systems Chapter 8 Programming For XGI XGR 0001 R Y Execution Contact Execution eMM i Execution 0 0 2 0 10xD 2 2
31. 15000 Sampling Sampling Sampling Sampling 0 0 0 XGF AD16A Cur Volt 16 cH cum cus Disable 4 20 0 16000 Sampling Disable 4 20 0 16000 Sampling Disable 4 20mA 0 16000 Sampling Owuwe Disable 4 20mA 0 186000 Sampling Disable Disab 4 20mA 4 20mA 0 16000 0 16000 Sampling Sampling Disable 4 20mA 0 16000 Sampling 0 0 0 Enable Sampling Chapter 4 Operation Setting b Input range Select the range of analog input voltage or current as desired Analog input module provides 4 voltage input ranges and 2 current input ranges XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH ___ Parameter 9 CHT 2 cHe Channel status Disable C Input range 4 20 Output type 4 20 C Average processing 0 20 Average value XGF AD16A Cur Volt 16 CH Disable 4 20mA 0 16000 Sampling 0 Disable 4 20mA 0 16000 Sampling Disable 4 20mA 0 186000 Sampling 0 Disable 4 20mA 0 165000 Sampling 0 Disable 4 20mA 0 16000 Sampling Disable 4 20mA 0 16000 Sampling 0 Disable 4 20mA 0 165000 Sampling 0 XGF AD16A Cur Volt 16 CH 0 158000 Sampling 0 Disable 4 20 Disable 4 20mA 0 16000 Sampling 0 Disable 4 20mA 0 16000 Sampling 0 Disable 4 20mA 0 165000 Sampling 0 Disable 4 20mA 0 186000 Sampling 0
32. 16000 0 16000 0 16000 0 186000 Sampling Sampling Sampling Sampling Sampling Sampling Sampling 0 0 0 0 54000 gt LS industrial s stems 4 6 Chapter 4 Operation Setting How to select the whole channels to change parameters Click and check the radio button in the parameters item in order to change the whole channels to identical setting value And then change the parameters of an optional channel to change the parameters of the whole channels at a time Fig 4 2 shows an example that Channel Status is changed to whole channels Enable by means of this function Fig 4 2 Parameters change of the whole channels XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH CHO Channel status v Enable Enable Enable Enable Enable Enable Enable C Input range 4 20 4 20 4 20 4 20 4 20 4 20 4 20 4 20 Output type 0 156000 0 186000 0 186000 0 185000 0 156000 0 16000 0 16000 0 185000 Average processing Sampling Sampling Sampling Sampling Sampling Sampling Sampling Sampling 0 0 0 0 0 0 XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH CH 10 11 13 Channel status Enable Enable Enable Enable Enable Enable Enable Enable C Input range 4 20mA 4 20 4 20 4 20 4 20 4 20mA 4 20mA 4 20mA Output type 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 C Average processing Sampling S
33. 4 6 2 Read Write of Operation Parameters Setting Area 6 2 1 Read of operation parameters setting area GET GETP instruction 6 3 6 2 2 Write of operation parameters setting are PUT PUTP instruction 5 15 51616 61 11 911 0 PROGRAM 6 3 1 Program to sort A D converted value in size 2 244 2 7202 0 6 3 2 Program to output error codes of analog input module to BCD display 6 8 Chapter 7 Configuration and Function of Global variable For XGI XGR 7 1 Global Variable Data area 2 22 2 2 7 7 42 2 2 7 1 1 A D conversion data IO area configuration 2 7 1 2 2 2 2 2 4 7 1 2 How to use global variable 2 27 2 2 2 72 2 2 4 4 4 27 72 2 2 72 2 4 7 2 PUT GET Function Block use area Parameter area 7 2 1 PUT GET Function Block use area Parameter area 7 2 2 PUT GET instruction 7 2 3 Example using PUT GET instruction Chapter 8 Programming For XGI XGR Waste uec m TT m 8 1 1 Program example using I O parameters setting 8 1 2 Program example using PUT GET instruction
34. CH s input terminal wiring is correct pu gt Refer to 3 2 2 to correct wiring Module defect Go to 9 2 5 9 3 Chapter 9 Troubleshooting 9 2 4 Relationship discordant between analog input value amp digital output value Relationship between analog input value and digital output value is not discordant Each CH s analog input type and connected input type is correct as specified Check the used analog input type if set correctly Analog input terminal s wiring is correct Go to 9 2 5 Refer to 3 2 2 to correct wiring rp 9 2 5 H W error of Analog input module Let the power ON OFF again If the error occurs again it seems to be a module defect Contact the nearest agency or LS branch office 9 2 6 Status check of Analog input module through XG5000 system monitor Module type module information O S version and module status of Analog input module can be checked through XG5000 system monitoring function 1 Execution sequence Two routes are available for the execution 1 Monitor gt System Monitoring gt And on the module screen click the right mouse button to display Module Information 2 Monitor gt System Monitoring gt And Double click the module screen 2 Module information 1 Module type shows the information of the module presently installed 2 Module information shows the O S version information of Analog input module 3 O S version shows the O S pre
35. Change Current Value System Monitoring 3 4 01 Device Monitoring NewPLC XGK CPUH Stop fal Special Module Monitoring Variable Comment 25 14 Parameter 08 Basic Parameter Custom Events Eg Parameter Data Traces Scan Program NewProgram Trend Monitoring 4 5 2 How to use Special Module Monitoring 1 With XG5000 connected to PLC CPU on line status click Monitor gt Special Module Monitoring to display Special Module List screen as in Fig 5 1 showing base slot information in addition to special module type The module installed on the present PLC system will be displayed on the list dialog box Special Module List Base Slot Module Slot 0 2 Line Driver 2 CH XGF AD16A 16 Module Info Fig 5 1 Screen of Special Module List LS industrial systems 4 10 Chapter 4 Operation Setting 2 Select Special Module in Fig 5 1 and click Module Information to display the information as in Fig 5 2 Special Module Infomation il H Displays the informations of special module Madule Name XGF AD 184A Cur Volt 16 Ver 10 2007 11 12 Normal Fig 5 2 Screen of Special Module Information 3 Click Monitor on the Special Module screen in Fig 5 1 to display Special Module Monitoring screen as in Fig 5 3 where 4 options are available such as Reset max min value Start Mon
36. E 1 5V 0 5V 0 10V 10 10V Digital output Unsigned Value 0 16000 oigned Value 8000 8000 Precise Value 1000 5000 0 5000 0 10000 S 10000 Digital output Percentile Value 0 10000 2 Current Type Analog input 4 20 mA 0 20 mA Digital output 0 16000 8000 8000 0 10000 14 bit binary value data 14 bits Format of digital output data can be set through user program or S W package respectively based o channels 20 mA 2 0 2 or less when ambient temperature is 25 5 y 0 3 or less when ambient temperature is 0 55 speed Absolute max input 30 mA Analog input points Analog input range Resolution 1 16000 Analog input range Resolution 1 16000 0250 resolution 03125 mV id 16 channels 1 module Insulation method Photo coupler insulation between input terminal and PLC power no insulation between channels Terminal connected 32 point terminal O points occupied Fixed type 64 points Changeable type 16 points Internal consumed DC 5 V 330 mA current Weight 115g 2 2 Chapter 2 Specifications E 1 When analog input module is released from the factory Offset Gain value is as adjusted for respective analog input ranges which is unavailable for user to change 2 When analog input module is released from the factory voltage current selection switch is selected as current 3 Offset Value An
37. GLOBAL OBOB CHO ACT 00 016 BLOBAL CHO DAT INT 02 I WARLGLOBAL 0000 CHO IDD 0028 IL GLOBAL CHI ACT BOOL 0000 DATA INT 1100 0 12 View per base slot B Add External Variable Global View Cancel Select All Unselect All 3eneral Variables Basell ximr S5b 10 volt 16 9 VAR CHO BODL oD GLOBAL 0000 CHO DAT INT 0002 VAR GLOBAL 0000 CHO 100 00 0 2868 w R GLOBAL 0000 ACT 00 28 0000 DATA 197 XUND U 12 dd External Yariable Global View Select All List Basel 510100 1 1 wv Select All Unselect All vaie Kra AP GLOBAL 0000 CHO BODL AUN TE 2 vARBLOBAL ODOD CHO DATA INT 0002 2 Li CHO AUMD D 88 7 Li CHID 0 26 5 VAR GLOBAL 0000 CHIO DATA INT 3UNO 0 12 LS industrial systems 7 8 Chapter 7 Configuration and Function of Global variable For XGI XGR 4 How to use local variable on program It describes the added global variable at local program The following is example getting the conversion value of CHO of Analog input module to
38. Input Module CH9 Output MOV 12 000102 Analog Input Module CH10 Output Analog Input Module CH11 Output Analog Input Module CH12 Qutput MOV 15 000105 Analog Input Module CH13 Output Analog Input Module CH14 Output 17 Analog Input Module CH15 Output LS industrial Systems 4 20 Chapter 5 Configuration and Function of Internal Memory For XGK E Chapter 5 Configuration and Function of Internal Memory For XGK Analog input module has the internal memory to transmit receive data to from PLC CPU 5 1 Internal Memory Configuration Configuration of internal memory is as described below 5 1 1 area of A D converted data area of A D converted data is as displayed in Table 5 1 Table 5 1 area of A D converted data UXY 00 0 Module ERROR flag UXY 00 F Module READY flag CHO Run flag CH1 Run flag CH2 Run flag Run flag CHA Run flag CH5 Run flag CH6 Run flag CH7 Run flag 8 Run flag CH9 Run flag CH10 Run flag CH11 Run flag CH12 Run flag CH13 Run flag CH14 Run flag CH15 Run flag UxvO CHOdigtal outputvaue UxYO CHidgilouptvdue R R Uxvo R CH4digtal outputvae R 1 CHSdigitaloutputvalue R Uxvo CH dgidoupuvlue R CH7dgilouptvle R UXYiO CH8dgidloupuvluie R
39. No of data to read LS industrial systems 6 6 Chapter 6 Programming For XGK Internal memory address of word to write Module ready Execution contact point 1 Min 3 I ad irri ble CHO PUT D i h0015 1 CH enable 2 4 ME MEME PUT 1 hFFFF 1 1 ppm PUT 1 12 IhFFFFi 1i MANN I l Output data range PUT 11 100 etin E PUT 1 1 7 10121 14 process CHO Time Avr CH2 Count Avr PUT 11101711 4 UP PUT 1 1201 111 oe I Average value BN B SENE 4 300 LIclc ck L MOOO001 U01 01 0 0001421 lt UD1 02 12000 C U01 01 2 Pooos gt 101 04 13500 UD1 01 4 MDODD2 gt 101 06 12000 C P0D0S6 UD1 06 12800 GET 1 25 DO0O0000 00002 lt 01 06 13600 Device to save No of data to read Chapter 6 Programming For XGK 6 3 2 Program to output error codes of analog input module to BCD display XGP XG XcF CPUS 24 2 AD16A RY2A Initial value setting P0000 Digital BCD display error display 1 System configuration A D converted value amp _ P000 errorcodesaved Error code output to BCD 0002 2 Details of initial setting
40. analog input signal range is used 1 1 Chapter 1 Introduction 1 2 Terminology Tem perat ure Temperature Voltage 10 10V 0 1000 C Transducer A D conversion Input on module Fig 1 1 Analog Quantity Fig 1 2 Example of Transducer 1 2 1 Analog Quantity A What is displayed in numerical value with continuous physical quantity is called Analog Quantity Since the size of analog changes continuously any middle value can be taken from it in which general physical quantities such as voltage current temperature speed pressure and flow are included For example temperature can change continuously together with time as shown in Fig 1 1 Since the changing temperature can not be input directly on Analog input module it shall be inout on Analog input module through the transducer converting identical analog quantity of input signal to electric signal 1 2 2 Digital Quantity D Tem pera What is displayed in data or numerical value such as 0 1 2 and 3 with data or P physical quantity is called Digital Quantity Digital in Fig 1 3 stands for electronic technology to create save and process the data through 0 and 1 only Accordingly the data sent or saved with digital technology will be displayed in a string of 0 and 1 tne Continuously used For example On and Off signal can be displayed in a digital Fig 1 3 Digital Quantity quantity of 0 and 1 BCD and binary value is also the digital q
41. flickers every Module error A D Conversion Error 0 2 sec Module error Offset value with the range of 4 20 5 set greater than or equal to Gain value Module error Offset value with the range of O 20mA is set greater than or equal to Gain value Module error Offset value with the range of 1 5V is set greater than or equal to Gain value Module error Offset value with the range of 0 5V is set greater than or equal to Gain value RUN LED flickers every 1 sec Module error Offset value with the range of 0 10V is set greater than or equal to Gain value Module error Offset value with the range of 10 10V is set greater than or equal to Gain value Time average setting range exceeded Count average setting range exceeded Weighted average setting range exceeded of the error code stands for the channel with error found Refer to 9 1 for more details on error codes 3 2 or more errors occur the module will not save other error codes than the first error code found 4 error found is corrected use the flag to request error clear refer to 5 2 5 or let power OFF gt ON in order to stop LED blinking and to delete the error code 5 12 Chapter 5 Configuration and Function of Internal Memory For XGK A 5 3 7 Hold last value Address 26 1 If you enable this function when input value exceeds the effective range holds the last value For example in cas
42. for specified time and save the average of the accumulated sum on memory Average processing option and time frequency value can be defined through user program or I O parameters setting for respective channels 1 Whatis the average processing used for This process is used for A D conversion of abnormal analog input sign such as noise to a value near to normal analog input sign 2 Average processing type Average processing type is of time average count average and weighted average a Time average processing 1 Setting range 16 16000 ms 2 Average processing count within specified time is decided based on the number of channels used Setting time Average processing count Number of Channels used x Conversion Speed Ex 1 Channels used 1 setting time 16000 ms 16000 ms Average processing count x 0 5 ms 32000 times Ex 2 Channels used 8 setting time 16 ms 16 ms Average processing count 4times 8x0 5ms 0 1 If setting value of time average is not specified within 16 16000 RUN LED blinks at an interval of 1 second In order to set RUN LED to On status reset the setting value of time average within 16 16000 and then convert PLC CPU from STOP to RUN Be sure to use request flag of error clear UXY 19 0 to clear the error through online editing 2 If any error occurs in setting value of time average the default value 16 will be saved Time average is processe
43. right button of mouse in the right local variable window and select Add EXTERNAL variable XG5000 NewProgram Local Variables SEE Project Edit Find Replace View Online Monitor Debug Tools Window Help 5 D c 5 8 04 BB Bal X CK x A ATA 42 223 9 X Qu y or a Project Window x Items 5 9 dd NewPLC XGI CPUU Offline P Global Direct Variables 29 14 Parameter Basic Parameter Bd 1 0 Parameter a Scan Program NewProgram Delete Local Variables i Ctrl D User Function Function Block User Data Type i vi Ctrl F Ctrl By Replace device Ctri4H lt Replace Ctrl J s NewProgramiP PLO Program Variable Export into text file Open program 4 4 PJP Result Check Program Find 1 A Find 2 Communication Cross Re Message X 44 1 2 Monitor EXTERNAL variable Offline 5 Variable 7 7 CS industrial Systems Chapter 7 Configuration and Function of Global variable For XGI XGR c Select local variable to add at Global View on Add External Variable window All or Base slot View All Add External Global View List ALL 3 Select All Unselect All esee Variable Kind Vaistle Type Addes a YAR
44. the I O parameter The previous comment will be deleted Continue e Global variable auto registration check Double click Global Direct Variable of project window XG5000 NewProgram Program fi Project Edit Find Replace View Online Monitor Debug Tools Window Help 1 Se OOO ii 21 CA 8 UH ed E 8 gt B 2 Project Window s e Off Variable a XG5000 Global Direct Variables Project Edit Find Replace View Online Monitor Debug Tools Window Help BEE PP X Se OO 00 E 21 84 3 ER iln D D Beant AcHOCKD E e js MBM e NewPLC xGl CPUU Offline Global Direct Variables 24445 Parameter 15 Basic Parameter Parameter f Scan Program NewProgram amp User Function Function User Data Type NewProgram Program Global Direct Variables E 1 Monitor ns Message a X 44 Result Check Program Find 1 Find 2 Communication Cross Reference Used Dex Global Variable Overwrite
45. toxic materials or explode itself Revision History Version Date Remark Revised Page V1 0 2008 5 First edition 141 9009 6 Add About Manual Add Configuration and Function of Internal Memory CH7 For XGI XGR Add Programming For XGI XGR CH8 Fix Troubleshooting CH7 gt CH9 CH9 V1 2 2009 9 Add function holding last value and alarm function 1 4 2 6 8 13 16 21 22 5 2 4 7 13 6 1 6 9 7 2 4 8 1 6 9 The number of User s manual is indicated right part of the back cover Copyright C 2008 LS Industrial Systems Co Ltd Rights Reserved Thank you for purchasing PLC of LS Industrial System Co Ltd About User s Manual Before use make sure to carefully read and understand the User s Manual about the functions performances installation and programming of the product you purchased in order for correct use and importantly let the end user and maintenance administrator to be provided with the User s Manual The User s Manual describes the product If necessary you may refer to the following description and order accordingly In addition you may connect our website http eng lsis biz and download the information as a PDF file Relevant User s Manuals XG5000 User s Manual for XGK XGB for XGK XGB CPU XG5000 User s Manual for XGI XG5000 software user manual describing online function such as programming print monitoring debugging by
46. using XGK XGB XG5000 software user manual describing online function such as programming print monitoring debugging by using XGI XGK XGB Instructions amp Programming Users manual for programming to explain how to use User s Manual instructions that are used PLC system with XGK XGB CPU XGI XGR XEC Instructions amp Programming Users manual for programming to explain how to use User s Manual instructions that are used PLC system with XGl XGR XEC CPU XGK CPUA CPUE CPUH CPUS CPUU user manual describing XGK CPU User s Manual about XGK CPU module power module base IO module XGK CPUA CPUE CPUH CPUS CPUU specification of extension cable and system configuration EMC standard XGI CPUU CPUH CPUS user manual describing about CPU User s Manual XGI CPUU CPUH CPUS CPU module power module base IO module specification of extension cable and system configuration EMC standard XGR CPUH F CPUH T user manual describing about XGR XGR redundant series User s CPU module power module extension drive base IO module Manual specification of extension cable and system configuration EMC standard Current XGF AD16A manual is written based on the following version Related OS version list Contents 255 111 Contents Chapter 1 Introduction 151 CMG AC LETS E e 12
47. 0 0 18000 Disable 4 20mA 0 18000 Sampling Disable Disable E Chapter 8 Programming For XGI XGR Execution E 0001 Rpy Contact Execution 0001 Execution ACT 0001 CHO DATA CHO output 0001 1 output _0001 _ 2_ DATA 2 output 0001 output INST GET WORD 1 001 ERR CODE 8 2 Chapter 8 Programming For XGI XGR E 8 1 2 Program example using PUT GET instruction _0001 8 3 _FOO01 CH_ Execution INSTI contact WORD EN 16 000E INSTTS PIT WDRD 1 _ 0001 DAT 16881210 INST PUT WDRD 1 _FOO01 Ah VAL n 5000 _ _FOOO1 CH2 INST3 PUT _WORD 168 210 PUT _WORD 158 2410 INST PUT DR AVG aL ADD NST3 PUT _WORD 1 F 1 CHS AVG VAL MADD H 100 Chapter 8 Programming For XGI XGR Execute output 001 CHT _ _0001 _ 1 _ IN CH1 output 0001 ACT EM 001 9 IN OUT L CH2 output _0001_ 3_ 001 CH3 IN CH3 output INSTTA RET WORD 1 Error code _FOUQ1 _ERR 8 4 Chapter 8 Programming For XGI XGR
48. 0 20mA 0 20 0 20 0 20 Output type 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 C Average processing Sampling Sampling Sampling Sampling Sampling Sampling Sampling Sampling o 0 0 o o 0 0 o Hold last value Disable Disable Disable Disable Disable Disable Disable Disable XGF AD164A Cur Volt 16 CH 15 CH Parameter cus cue CHE Disable Disable Disable Disable Disable _ 20mA 0 20mA 0 20m 0 20 0 20mA 0 20 0 20mA 0 20mA 0 168000 gt 0 16000 0 16000 0 156000 0 16000 0 156000 0 16000 0 186000 ous Gan Sinko JHoldiastvalue Disable Disable Disable Disable Disable Disable Disable Disable 10119 20239 8191 16191 10000 20000 8000 16000 7500 15000 4000 12000 Q r D O 23 5000 10000 0 8000 c e lt v c 2500 5000 4000 4000 0 0 8000 0 120 240 8192 192 mA 5 mA 10 mA 15 mA 20 mA Analog input value Current LS industrial Systems 2 8 Chapter 2 Specifications b Digital output value for current input characteristics is as specified below Resolution based on 1 16000 1 25 pA Output range Unsigned value 192 16191
49. 03 07 Moy 07 CH14_DAT _07_CHI5_A 4 17 LS Industrial Systems Chapter 4 Operation Setting 3 Select View gt Devices Variables Devices and variables are both displayed 07 00 n EET 00000 00001 Uo 01 0 Y MOV 007 02 000000 D 07 D 07 01 1 MOV 107 03 000001 _O7_CHI_AC 07 D T UO O1 2 MOV 007 04 000002 _07_ 2_ amp _07_ 2_ 1 07 01 3 MOV 107 05 000003 407 AC 07 D T 07 01 4 MOV 107 06 000004 D AC 0 CH4 D T 07 01 5 MOV 107 0 000005 407 CH5 AC 07 CH5 D 07 016 MOV 007 08 000006 07 AC 07 D T 07 01 7 MOV 107 09 00007 207 CH AC 407 CH D T 07 01 8 MOV 007 10 000100 07 07 T 00 01 9 MOV 007 11 000101 _07_CHS_AC 07 0 MOV 007 12 000102 407 0110 D CHIO D CT UO 01 B MOV 107 13 000103 09 CHI1 A 07 CHI1 D CT 007 01 0 MOV 007 14 000104 CHI2 0 CH12 D CT 007 01 0 MOV 007 15 000105 407 0113 0 CH13 D CT MOV 007 16 000106 0 CH14 D CT Ug 01 F MOV 107 1 000107 207 CHI5 0 CHI5 D CT Chapter 4 Operation Setting 4 Select View gt Device Comments Devices and comments are both displayed
50. 200 22 22 2 2 2 24 8 ae A 4 5 Special Module Monitoring 2 2 2 2022 2 2 2 2 22 22 2 22 2 22 2 4 10 4 5 1 Start of Special Module Monitoring 0 0000020 2 4 10 4 5 2 How to use Special Module Monitoring 0 0 4 10 Z5 Register U DEVICES 4 6 1 Register U devices 2 Edad tac 414 4 6 2 Save variabl s AREE 1 4 0 9 View variables men iu oa cuin Gu M ura Chapter 5 Configuration and Function of Internal Memory For XGK 5 1 Internal Memory cea ade eas pese OF 9 17 AD converted uud Rer vae oL XN att MUR REA EUER au d tors 5 1 2 Operation parameters setting area 2 4 5 2 A D Converted Data VO ome whe 5 2 1 Module HEADY EHRORM 44 nte ouk Que widen Gas eda
51. 713 4 6 2 Save variables 1 The contents of View Variable can be saved as a text file 2 Select Edit gt Export to File 3 The contents of View variable are saved as a text file Chapter 4 Operation Setting 4 6 3 View variables 1 The example program of XG5000 is as shown in below 00000 UD7 00 F 00000 Ow wu amm y MOV 107 02 000000 07 011 MOV 107 03 000001 UD 01 2 MOV 007 04 000002 07 01 3 MOV 007 05 000003 LUE OE 07 01 6 MOV 007 08 000006 UT 01 7 MOV 007 09 00000 LUE 01 8 UD 01 MOV 107 12 000102 107 01 MOV 107 13 000103 007 01 MOV 107 16 000106 UO O1 F MOV 007 17 000107 2 Select View gt Variables The devices are changed into variables 00000 07 RDY 00000 00000 MOV 07 CHO DATA 000000 07 CHO D CHI T MOV 07 CHI DATA 000001 D 2 AC T MOY 07 CH2 000002 07 AC MOV 07 CH3 DATA 000003 U CH4 AC T MOV 07 CH4 DAT 000004 07 CH5 AC MOV 07 CH5 DAT 000005 07 CH6 AC T MOV 07 DAT 000006 0 AC MOV 07 CH DAT 000007 07 AC T MOY 07 DAT 000100 0 AC 1 MOY 07 DATA 000101 07 Moy 07 CH10_DAT D00102 07 CH 1 CT Moy 07 CH11_DAT 000103 0 CHI2 Moy 0 Moy 7 0
52. 8000 8192 DC1 5V DC0 5V DCO0 10V DC 10 10V Analog applicable range Digital output value 8000 8192 Offset value Analog DC 4 20 mA 12 mA input value DC 0 20 mA 10 mA 2 5 Chapter 2 Specifications 2 41 I O characteristics of analog input module Analog input module is having 16 channels for analog input where Offset Gain can not be adjusted by user Voltage current input range can be set through user program I O parameter of XG5000 for respective channels Output formats of digital data are as specified below a Unsigned Value b Signed Value C Precise Value d Percentile Value Lom Pm nN 1 If the range is DC 4 20 mA On the XG5000 menu I O Parameters Setting set Input range to 4 20 m XGF AD16A Cur Volt 16 CH amp BF AD15 Lur volt 16 Parameter cH2 cus s cue cw Channel status Disable Disable Disable Disable Disable Disable Disable C Inputrange 4 20mA 4 20mA 4 20 4 nj 4 20n 4 20mA 4 20 I 150010 7 15000 1 150010 T 18000 1 101170 gt 1 15000 VR y oo j 8 go y c aano 4 dac pue cue g MO 0 0 0 0 0 0 0 0 Disable Disable i Disable Disable Disable Disable Disable Disable XGF AD16A Cur Volt 16 CH ABF AD154 Cu
53. CT _ CH2 ACT _ ACT _ 4 _ CH5 ACT _ CH6 ACT _ CH7 ACT _ CH8 ACT _ CH9 ACT CH10 ACT CH11 ACT CH12 ACT CH13 ACT CH14 ACT _xxyy_CH15 ACT _ CHO DATA _ CH1 DATA _ CH2 DATA _ CH3 DATA _ 4 DATA _ CH5 DATA _ CH6 DATA _ CH7 DATA _ CH8 DATA _ CH9 DATA _ CH10 DATA _ CH11 DATA _ CH12 DATA _ CH13 DATA _ CH14 DATA _ CH15 DATA VoU Xxx yy 1 6 0 17 1 8 0 19 20 0 21 0 22 VoU Xxx yy 23 0 24 0 25 0 26 0 27 0 28 29 UXxx yy 30 0 31 VJoUWXxx yy 2 9o UWxx yy 3 VJoUWXxx yy 4 UWxx yy 5 YUWxx yy 6 UW xx yy 7 9e UWxx yy 8 YUWxx yy 9 UWxx yy 10 YW xx yy 11 9e UWxx yy 12 YUWxx yy 13 9e UWxx yy 14 Je UWXxx yy 15 9e UWxx yy 16 VoU Wxx yy 17 CH 0 RUN flag CH 1 RUN flag CH 2 RUN flag CH 3 RUN flag CH 4 RUN flag CH 5 RUN flag CH 6 RUN flag CH 7 RUN flag CH 8 RUN flag CH 9 RUN flag CH 10 RUN flag CH 11 RUN flag CH 12 RUN flag CH 13 RUN flag CH 14 RUN flag CH 15 RUN flag CH 0 Digital output value conversion value CH 1 Digital output value conversion value CH 2 Digital outpu
54. E MEN PUT 6 8 000011 1 Average process 2 BERE NE PUT 6 8 0000172 1 average value SS PUT 6 10 D00013 1 CH1 average alue 6 4 Chapter 6 Programming For XGK 6 3 Application Program 6 3 1 Program to sort A D converted value in size slot fixed points assigned based on 64 1 System configuration XGP XGK XGI XGQ ACF2 CPUS 024 AD16A RY2A 2 Details of initial setting Internal Details of initial setting memory address CH2 4 Input range 10 10V Value to write on internal memory 10015 or 21 hFFFF or 65535 Output data range O 16000 10000 or 0 10064 or 100 100 8 or 200 CH2 Count average 4 Average process 4 h0120 or 288 4 Time average count average value 100 times 5 Average value CH4 time average value 200 ms 3 Program description a If CH 05 digital value is less than 12000 Contact No 0 80 of relay output module installed on Slot No 2 will be On b If CH 2 s digital value is greater than 13600 Contact No 2 P00082 of relay output module installed on Slot No 2 will be On c If CH 45 digital value is greater than or equal to 12000 and less than or equal to 13600 Contact No 4 86 of relay output module installed on Slot No 2 will be On d If CH 45 digital value is equal to 13600 Contact No 5 P00085 of relay output module installed on Slot No 2 will be On 6 5
55. HE larger or equal than gain value Module error Offset value of 0 5V range is set as RUN LED flickers larger or equal than gain value every 1s Module error Offset value of 0 10 range is set as larger or equal than gain value Module error Offset value of 10 10V range is set as larger or equal than gain value Time average setting range exceeded 898 Count average setting range exceeded Weighted average setting range exceeded Module error Offset value of 1 5V range is set as At error code indicates channel where error occurs For more detail error code refer to 9 1 d In case two error codes occurs module saves first occurred error code and later occurred error code is not saved In case error occurs after modifying error use Error clear request flag referring to 5 2 5 restart power to delete error code and stop LED flicker 7 18 Chapter 8 Programming For XGI XGR Chapter 8 Programming For XGI XGR 8 1 Basic Program How to specify Run condition details of Analog input module s internal memory will be described Analog input module is as installed on Slot 2 O assigned points of Analog input module is 16 points changeable Initial value specified will be saved on the internal memory of Analog input module through one time of input under the initial setting condition 8 1 1 Program example using parameters setting Parameter Setting Variable alloca
56. O F Module ready Slot No Setting data 4 Enable Channel 3 4 Pi Tl Input range 1 10 10V D t E a 1 Tl Input range 2 10 10V Output data range 192716191 Weighted average proccess 3 4 ca Lad m Weighted average value Weighted average value CH3 Weighted average value CH4 1 1 Un 01 0 MOV 102 02 000000 CHO digital output U02 01 3 U02 01 4 Channel RUN signal OV 2 05 000003 CH3 digital output e 102 06 000004 digital output u 4 END Chapter 6 Programming For XGK 6 2 Read Write of Operation Parameters Setting Area Configuration of the internal memory is described as below 6 2 1 Read of operation parameters setting area GET GETP instruction GET instruction Execution condition 1 GET nm mm D m i Description Area available Slot No the special module is installed on n2 2 address of setting area of special module s Run parameters to Device s start address with saved data to read M P K L T D 0 n3 Number of words data to read Integer Difference between GET instruction and GETP instruction gt GET always executed with execution condition On GETP executed with execution condition of operation start 1
57. ON ME RUN channel TAQ Dees Dinal OUIDEE 24116 i erre NUN 5 2 4 Flag to detect disconnection 2 0 0 42 2 2 9 6 9 2 9 Flag To request error CIO 9 2 b Flag to error Rua EcL UE execs vasca ad tad auia du 5 3 Operation Parameters Setting Area 5 8 5 3 1 How to specify the channel to use esses eI Hee 5 8 5 3 2 How to specify the range of input voltage current 2 2 2 2 5 8 5 3 3 How to specify the range of output data 0 22 2 9 5 3 4 How to specify average process 2 2 2 2 2 2 2 7 7 7 5 10 5 3 5 How to specify average value 2 2 2 02 2 2222222 2 2 4 2 2 5 11 27155 EB pz Contents 5 3 7 Hold last value Chapter 6 Programming For Basie Frog rali 6 1 1 Program example using I O Parameter setting 6 1 2 Program example using PUT GET instruction 2 2 2
58. Right choice for ultimate yield LSIS strives to maximize customers profit in gratitude of choosing us for your partner Programmable Logic Controller XGT Analog Input Module XGT Series User s Manual XGF AD16A Safety Instructions eRead this manual carefully before installing wiring operating servicing or inspecting this equipment this manual within easy reach for quick reference LS Industrial Systems Safety Instructions Before using the product For your safety and effective operation please read the safety instructions thoroughly before using the product Safety Instructions should always be observed in order to prevent accident or risk with the safe and proper use the product Instructions are divided into Warning and Caution and the meaning of the terms is as follows This symbol indicates the possibility of serious injur NWarning i or death if some applicable instruction is violated This symbol indicates the possibility of severe or N Caution slight injury and property damages if some applicable instruction is violated Moreover even classified events under its caution category may develop into serious accidents relying on situations Therefore we strongly advise users to observe all precautions properly just like warnings The marks displayed on the product and in the users manual have the following meanings Be careful Danger may be expec
59. X Base No Y Slot No The area where Run information of respective channels is saved B15 B14 B13 B12 B10 B9 B8 B7 B6 roe res bee ghee 15 14 13 12 11 10 9 8 7 6 V Run channel information Rit ON 1 Bit Off 00 Oneratinn Stan B5 H 5 gt A I OIP o I OIW PR 5 2 3 Digital output value UXY 02 UXY 17 X Base Y Slot No 1 A D converted digital output value will be output to buffer memory addresses 2 17 UXY 02 UXY 17 for respective channels 2 Digital output value will be saved in 16 bit binary B15 B14 B12 B10 B9 B7 B6 BO UXY 02 UXY 17 5 5 Chapter 5 Configuration and Function of Internal Memory For XGK Address Address No 2 digital output value 5 2 4 Flag to detect disconnection UXY 18 Z X Base No Y Slot No Z Channel No 1 Detection sign of disconnection for respective input channels is saved in UXY 18 2 Each bit will be set to 1 if an assigned channel is detected as disconnected and it will be back to O if connected back In addition each bit can be used to detect the disconnection in the user program together with execution conditions B15 B14 B13 B12 B11 B10 B9 B Bo B5 B4 B B2 BO 8 C H 8 5 2 5 Flag to request error clear UXY 19 0 X Ba
60. able Disable Module ready Execution contact point F 206 PUT 2 0 h0001 Enable CH CHO 2 01 1 A D conversion value of po MOV 102 02 000000 saved at 00 CH RUN signal GET 2b 0000017 1 Save eror code at D1 02 2000 004 Change data saved at E D1 and output at P4 Change error code into BCD END b Program example using PUT GET instruction 21 T m PUT 2 0001 1 Enable CH PUT Input range 4 20 PUT 2 5 0000 1 Output data range 07 16000 3 Average process PUT 2 j 60001 1 0 MEN MEE MERE Average value PUT 2 d 100 1 CH0 100 UD2 01 0 x Save A D conversion MOV 00202 000000 value of CHO at DO NEM REN GET 2 2 000001 1 Save code of at D1 200002 Convert data saved at BCD 000001 PUDUA 01 into BCD and output into END 6 9 LS Industrial Systems Chapter 7 Configuration and Function of Global variable For XGI XGR JL Chapter 7 Configuration and Function of Global variable For XGI XGR 7 1 Global Variable Data area 7 1 1 A D conversion data area configuration Indicates conversion data IO area at table 7 1 Table 7 1 A D conversion data IO area Global variable memory Contents Read Write allocation _xxyy_ERR 0 Module ERROR flag Read _ HDY Module READY flag VoU Xxx yy 15 7 1 CHO ACT _ CH1 A
61. about 4 scans 2 16000 output after about 24 scans 9 16000 output after about 1491 scans 372 75 ms for 1 channel Run 2 18 Chapter 2 Specifications EH 3 In the case of current input a Analog input current range DC 0 20 mA Digital output range 0 16000 b If analog input value changes 0 10 mA 0 8000 weighted average output value based on avalue is as specified below 4000 6000 7000 50 inclined toward previous value 99 inclined toward previous value 1 8000 output after about 4 scans 2 8000 output after about 21 scans 9 8000 output after about 1422 scans 355 5 ms for 1 channel Run 7999 7999 1 inclined toward previous value 4 If weighted average process function is not used present A D converted value will be output as it is The weighted average process function takes weighted data between Present A D converted value and Previous A D converted value And the weighted data can be decided with average value If output data shakes too much set a big average value 2 5 3 Input disconnection detection function 1 Input range available If the input sign range of 1 5 V 4 20 MA is used the function to detect input circuit disconnected will be available Detection conditions for respective input sign ranges are as described below in the table Input signal range Voltage Current value regarded as disconnected 02V or less 4 20 0 8 mA or less 2 Disconnec
62. alog input value where digital output value is O when digital output format is set to Unsigned Value 4 Gain Value Analog input value where digital output value is 16000 when digital output format is set to Unsigned Value 5 In system you can install it at extension base Namely you can t install it at basic base 2 3 Chapter 2 Specifications 2 3 Respective Designations and Functions Respective designations of the parts are as described below 2 3 1 Analog input module XGF ADIGA RUN 4 1 2 RUNLED D Displays the operation status of analog input module voltage current On Operation normal Flickering Error occurs Refer to 9 1 for more details Off DC 5V disconnected analog input module error Terminal 2 Analog input terminal whose respective channels be connected with external devices Voltage current selection switch gt switch to select voltage current left voltage right current 3 2 4 Chapter 2 Specifications 2 4 Characteristics of I O Conversion Characteristics of I O conversion are the inclination connected in a straight line between Offset and Gain values when converting analog signal voltage or current input from PLC s external device to digital value I O conversion characteristics of analog input modules are as described below Analog applicable range Digital output value
63. ampling Sampling Sampling Sampling Sampling Sampling Sampling 0 0 0 4 7 LS Industrial Systems 1 Monitor Test Special Module Monitoring The screen may not be normally displayed due to insufficient system resource In such a case close the screen and finish Chapter 4 Operation Setting 4 3 Special Module Monitoring Functions Functions of Special Module Monitoring are as described below in table 4 3 Table 4 3 Functions of Special Module Monitoring Through applicable XG5000 menu of Monitor gt Special Module Monitoring A D converted value can be monitored and the operation of Analog input module can be tested Monitoring the max min value The value of the channel can be monitored during However the max min value displayed here is based on the present value shown on the screen Accordingly when Monitoring Test screen is closed the max min value will not be saved other applications in order to restart XG5000 4 8 Chapter 4 Operation Setting 4 4 Precautions The parameters specified for the test of Analog input module on the Monitor Special Module screen of Monitor Special Module will be deleted the moment the Monitor Special Module screen is closed In other words the parameters of Analog input module specified on the Monitor Special Module screen will not be saved in parameters located on the left tab of XG5000 Special Module M
64. ange 0 952 1 5 047 2 3 4 5 Unsigned value 192 4000 8000 12000 16000 16191 192 16191 Signed value 8192 8000 4000 4000 8000 8191 8192 8191 Precise value 952 1000 2000 3000 4000 5000 5047 952 5048 Percentile value 120 2500 5000 7500 10000 10119 120 10119 4 If the range is DC O 5V a On the XG5000 menu I O Parameters Setting set Input range to 0 5 V XGF AD16A Cur Volt 16 CH AGF ADTBA 15 0 Outputtype 0 186000 0 16000 0 186000 0 186000 0 186000 0 186000 0 16000 0 16000 Average processing sampling sampling sampling sampling sampling sampling sampling sampling Hold last value Disable Disable Disable Disable Disable Disable Disable Disable Cans 2 10 Chapter 2 Specifications XGF AD16A Cur Volt 16 CH ABF ADTBA 1 sampling sampling sampling sampling sampling sampling sampling sampling 0 0 0 0 0 0 0 Disable Disable Disable Disable Disable Disable Disable Disable E 10119 5059 8191 16191 10000 5000 8000 16000 7500 3750 4000 12000 5000 2500 0 8000 jeubig 2500 1250 4000 4000 0 0 8000 0 120 60 8192 192 0 V 1 25 V 2 5 V 3 75 V 5 Analog input value voltage b Digital output value for voltage input characteristics is as specified below Resolution based on 1 16000 0 3125 mV Dita Oum o o 15 25 375 5 sos Unsigned
65. ange of input value 3 Average processing Outputs average A D conversion value based on frequency or time Function to detect input If analog input with the range of 1 5 V 4 20 MA is disconnected user disconnected program will detect it 1 This function is supported at current input 4 20mA 0 20mA 2 When input signal exceeds the effective range holds the last effective value 1 Separate setting is not necessary Alarm function 2 When input signal exceeds the effective range relevant flag tums on to let the user know There are two A D conversion methods sampling processing average processing sampling process A D conversion zu Count Avr methods Average process Weighted Avr A D conversion methods Hold last value 2 5 1 Sampling processing It collects analog input sign through general A D conversion processing at a specific interval so to convert to digital The time required for A D conversion of analog input sign till saved on the memory depends on the number of channels used Processing time Number of Channels used X Conversion speed Ex If the number of channels used is 3 its process time will be 3 X 500 us 1500 us sampling is to calculate the sampling value of continuous analog sign at a specific interval 2 16 Chapter 2 Specifications 2 5 2 Average processing This process is used to execute A D conversion of the channel designated for specified frequency or
66. ayed after Test is executed with channel O s input voltage range changed to 1 5 V in the state of input not wired Special Module Monitor XGF AD16A Cur Volt 16 CH em voma 1921 192 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 Jr Jr 0 0 0 0 Jr Setting Value Current Value Enable Enable EA e 0 16000 0 16000 Sampling Sampling 0 0 63 683 oI Montem Fig 5 5 Execution screen of Test ES systems 1412 Chapter 4 Operation Setting c Reset Max Min value The max min value field at the upper screen shows the max value and the min value of A D converted value Click Reset max min value to initialize the value Fig 5 6 is after Reset max min value button is clicked in the Fig 5 5 where channel 05 A D converted value can be checked as reset Special Module Monitor XGF AD16A Cur Volt 16 CH tem Curentaue 492 192 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Enable Enable RS 1 59 0 16000 0 16000 Sampling Sampling o eS eo re 212122 Fig 5 6 Execution screen of Reset max min value d Close Close is used to escape from the monitoring test screen When the monitoring test screen is closed the max value th
67. bal variable For XGI XGR d The following figure is result adding global variable corresponding to CHO A D conversion value Channel 0000 CH 0 DATA a 7 10 Chapter 7 Configuration and Function of Global variable For XGI XGR 7 2 PUT GET Function Block use area Parameter area 7 2 1 PUT GET Function Block use area Parameter area It indicates operation parameter setting area of Analog input module at table 7 2 Table 7 2 Operation parameter setting area _Fxxyy_AVG_SEL1 Average process method setting 1 _Fxxyy_AVG_SEL2 Average process method setting 2 _Fxxyy_CH_EN Enable CH _ AVG VAL average value CH1 AVG VAL CH1 average value _ CH2 AVG VAL CH2 average value CH3 AVG VAL CH3 average value _ 4 AVG VAL CH4 average value _ CH5 AVG VAL average value _ 6 AVG VAL CH6 average value _ AVG VAL CH7 average value _ CH8 AVG VAL 8 average value _ CH9 AVG VAL CH9 average value CH10 AVG VAL CH10 average value CH11 AVG VAL CH11 average value 12 AVG VAL CH12 average value _ CH13 AVG VAL CH13 average value _ 14 AVG VAL CH14 average value CH15 AVG VAL CH15 average value _ DATA TYPE1 Output data type setting 1 DATA TYPE2 Output data type setting 2
68. ber Y slot number UXY 20 upper limit e O 0 0 0 0 0 Upper limit alarm UXY 21 limit ee eee Was Lower limit alarm 2 22 Chapter 3 Installation and Wiring E Chapter 3 Installation and Wiring 3 1 Installation 3 1 1 Installation environment This product is of high reliance regardless of installation environment However for the sake of reliance and stability of the system please pay attention to those precautions described below 1 Environmental conditions To be installed on the control panel waterproof and dustproof No continuous impact or vibration shall be expected Not to be exposed to the direct sunlight No dew shall be caused by rapid temperature change Ambient temperature shall be kept 0 55 C 2 Installation work No wiring waste is allowed inside PLC when wiring or drilling screw holes be installed on a good location to work on let it installed on the same panel as a high voltage device is on Let it kept at least 50mm away from duct or near by module To be grounded in an agreeable place free from noise 3 1 2 Precautions for handling Precautions for handling Analog input module are as described below from the opening to the installation 1 Dont let it dropped or shocked hard 2 Don t remove from the case It will cause abnormal operat
69. ble module to select Parameter Setting Variable allocation X Module list SED Base 00 5 Mele Comen Emergency 0u 00 Default 01 Default 02 Default 03 Default amp B Cur Volt 16 gt 05 Default 5 06 Default Digital Module List 07 Default Special Module List 08 Default A Analog Input Module 09 Default Al XGF AVA Voltage 8 10 Default XGF ACBA Current 8 egg 11 Default XGF AD4S Isolated 4 CH Base 01 Default XGF AD8A Cur Volt 8 Base 02 Default Al Cur Volt 15 CH H 0 Base 03 Default Analog Output Module ase B8 High Speed Counter Madule lt gt B8 Positioning Module 8 1 Motion Module Temp Measuring Module Delete Stot E g Process control module 8 B Communication Module List ES Reserved Module NewProgram Type Device Vali 5 After the module selected click Details Parameter Setting Variable allocation Module list 5 BD Base 00 Defaut St Module Comment Input Fiter_ Emergency Ouf Allocation a 00 Default Default Default Default ME Cur Volt 16 585855 4 3 LS Industrial S
70. can be used in current input module In this function enabled channel only value of effective range is indicated For example in case output data type is unsigned value if this function is disabled output data has the 192 16191 range But this function is enabled output data has the 0 16000 range Input t Classification Unsigned Signed Precise Percentile range 1 nm 92 16191 8192 8191 3808 20191 120 10119 0 16000 8000 8000 4000 20000 0 10000 192 16191 8192 8191 240 20239 120 10119 0 16000 8000 8000 0 20000 0 10000 2 When this function is enabled and range is 4 20mA output value corresponding to sample input value is as follows Output data type 0 16000 Input current 12 3 12 21 20 mA Output value 8000 800 0 12000 12000 16000 Ref Hold last Hold last value value 2 5 5 Alarm function When input signal exceeds effective range relevant flag turns on 1 Input detection condition Detection condition for each input signal range is as follows Input signal range Tolerance Upper limit 4 20 mA 3808mA 20 192 mA oma 1 2 1 0 12 10 12 10 24 V 10 24 V V V 2 21 Chapter 2 Specifications 2 Alarm indication for each channel Alarm detection signal is saved at UXY 20 and UXY 21 If input signal returns to the within of effective range alarm detection signal also returns to the normal status automatically X base num
71. cause accidents from abnormal output or operation 4 Please install interlock circuits in the sequence program for safe operations in the system when exchange data with PLC or modify operation modes using a computer or other external equipments Read specific instructions thoroughly when conducting control operations with PLC Safety Instructions Safety Instructions for design process 1 signal or communication line shall be wired at least 100mm away from a high voltage cable or power line Fail to follow this instruction may cause malfunctions from noise Safety Instructions on installation process Use PLC only in the environment specified in PLC manual or general standard of data sheet If not electric shock fire abnormal operation of the product may be caused Before install or remove the module be sure PLC power is off If not electric shock or damage on the product may be caused Be sure that every module is securely attached after adding a module or an extension connector If the product is installed loosely or incorrectly abnormal operation error or dropping may be caused addition contact failures under poor cable installation will be causing malfunctions as well Be sure that screws get tighten securely under vibrating environments Fail to do so will put the product under direct vibrations which will cause electric shock fire and abnormal operation Do not come in contact with conducting parts in each mod
72. d after converted to average of the times inside the Analog input module In this case a remainder may be produced when setting time is divided by number of channels used X conversion speed which will be disregarded Thus the average processing frequency will be the quotient of setting time number of channels used conversion Ex If the number of channels used is 5 and setting time is 151 ms 151 ms 5 X 0 5 ms 60 times Remainder of 4 60 times Chapter 2 Specifications b Count average process 1 Setting range 2 64000 times 2 The time required for average value to be saved on memory when frequency average used depends on the number of channels used Process time setting frequency X number of channels used X conversion speed 41 If setting value of count average is not specified within 2 64000 RUN LED blinks at an interval of 1 second In order to set RUN LED to On status reset the setting value of frequency average within 2 64000 and then convert PLC CPU from STOP to RUN Be sure to use request flag of error clear UXY 19 0 to clear the error through modification during RUN 2 If any error occurs in setting value of frequency average the default value 2 will be saved Ex If the number of channels used is 4 and average processing frequency is 50 50 X 4 X 0 5 ms 25 ms c Weighted average process Weighted average process function is used to obtain stable digital o
73. e error occurs at error code d Setting of filter constant is as follows 5 4 812 Bll 89 B8 80 Bb HB 82 PET TT 1 etter ve 7 16 Chapter 7 Configuration and Function of Global variable For XGI XGR REU PUT DONE 1 STAT VAL Address Deals O O CH5 average process value or rae oes va setrg C HTaverageprocessvalueseting 0000 Ranae is different according to average process method At the device allocation xx means base number and yy means slot number where module is installed Before you set Time Count average value enable the average process and select average method Time Count 7 17 Chapter 7 Configuration and Function of Global variable For XGI XGR 6 Error code a Saves error code detected at Analog input module b Error type and contents are as follows c The following figure is program example reading error code 5 4 812 811 7 6 85 B 82 513 B9 B8 mii Error code Decimal 0 Normal RUN RUN LED on Module error ASIC RAM or Register error RUN LED flickers Module error A D Conversion Error every 0 2s Module error Offset value of 4 20mA range is set as larger or equal than gain value THE m Module error Offset value of 0 20mA range is set as larger or equal than gain value T
74. e min value and the present value will not be saved any more 4 13 L S industrial systems Chapter 4 Operation Setting 4 6 Register U Devices This section describes the automatic registration function of the U device in the XG5000 4 6 1 Register U devices Register the variables for each module referring to the special module information that is set in the parameter The user can modify the variables and comments Procedure 1 Select the special module type in the VO parameter setting window Parameter Setting Variable allocation Module list ei 9 Base 00 Defaut Slot Commen Input Filter Emergency Out Allocation Default Default Default Default Default Default Default XGF AD16A Cur Vo Base 01 Default Base 02 Default Base 03 Default Base 04 Default Base 05 Default Base 06 Default Base 07 Default Ge Ee EF 14 2 Double click Variable Comment from the project window Project Windows v View Variable D view Device E view Flag _ Variable Te Device Items Hp Example 7 Bp NewPLC XGK CPUHpOffline V Variable Comment 4 Parameter Basic Parameter Parameter E Scan Program NewProgram Comment LS industrial Systems 4 14 Chapter 4 Operation Setting 3 Select Edit gt Register U Device XG5000 Va
75. e of 4 20mA if input signal change from 10mA to 3mA shortly channels holds output value corresponding to 10 2 If this function is enabled channel indicates digital output value within effective range For effective range refer to chapter 2 4 conversion characteristic 3 This function is available in the following input range a 4 20 mA b 0 20 mA 4 Setting is as follows B15 B14 B13 B12 B10 B8 B7 B6 BS B2 Bi BO 15 14 13 12 11 10 _ 5 13 Chapter 6 Programming For XGK Chapter 6 Programming For XGK 6 1 Basic Program Describes how to set about operation condition at internal memory of analog input module Analog input module is equipped at slot 2 occupation point of analog input module is 16 changeable type Initial setting condition is one time input and initial setting is saved at internal memory of analog input module 6 1 1 Program example using I O Parameter setting Parameter Setting Variable allocation Module list Base 00 Defaut Slot nputFiter EmergencyDu Default Default Mggserao ies 16 Default i Default Default Default Default Default Default Default Default Default Default Default Ge Ee E XGF AD16A Cur Volt 16 CH ABF AD15A Cur Volt 16
76. e value setting 2 The data specified by user through S W package will be saved on Analog input module when I O Parameters are downloaded In other words the point of time when I O Parameters are saved on Analog input module has nothing to do with PLC CPU s status RUN SPOP 4 2 2 How to use I O Parameters 1 Run XG5000 to create a project Refer to XG5000 program manual for details on how to create the project 2 Double click I O parameters on the project window XG5000 NewProgram Project Edit Find Replace View Online M D aHa Hj ele e 41540 Esc sFi 22 F5 F6 sF8 sF9 FS Fi Project Window x Items c 01 NewPLC XGK CPUHVOftline T Variable Comment 25 14 Parameter Basic Parameter Scan Program New Program 4 2 Chapter 4 Operation Setting 3 On the 1 parameters setting screen find and click the slot of the base Analog input module is installed on 16 channel voltage type of Analog input module is installed on Base 0 Slot No 4 in this description Parameter Setting Variable allocation Module list a Base 00 Defaut Slot Module Comment Input Filter Emergency Out Allocation 842 Base 01 Base 02 amp Base 03 Base 04 ca Daan 4 Click the arrow button on the screen above to display the screen where an applicable module can be selected Search for the applica
77. ent Class nodule Analog IEC61131 2 burst communication interface 61000 4 4 Ambie ni No corrosive gas or dust conditions Operating height 2000m or less Pollution degree 1 IEC Intemational Electrotechnical Commission An international nongovemmental organization which promotes internationally cooperated standardization in electric electronic fields publishes international standards and manages applicable estimation system related With 2 Pollution level An index indicating pollution level of the operating environment which decides insulation performance of the devices For instance Pollution level 2 indicates the state generally that only non conductive pollution occurs However this state contains temporary conduction due to dew produced EX N O 2 1 Chapter 2 Specifications 2 2 Performance Specifications Performance specifications of Analog input modules are as specified in Table 2 2 Table 2 2 Performance Specifications Specifications Item Voltage Current DC1 5V DCO 5 DC 4 20 mA Analog input 10V DC 0 20 mA DC 10 10V Input Resistance 250 Input Resistance 1 MO min rdc ace gt Selecting current voltage can be set through switch g 9 Analog input range can be selected through XG5000 user s or sequence program or parameter Respective input ranges can be set based on channels 1 Voltage Type Analog input
78. fi Base 03 Default lt 8 8 Chapter 8 Programming For XGI XGR XGF AD164A Cur Volt 16 CH Ab F ADTB5 16 Channel status Enable Input range 4 20mA Output type 2 0 186000 Average processing Time Avr Average value Hold last value Disable 16716000 8 9 LS Industrial Systems Disable 4 20 mA 0 16000 Sampling D Disable _0002 0 1 Disable Disable i Disable Disable 4 20mA 4 20mA 4 20 4 20mA i 0 Disable Disable Disable 21 0 0 0 WORT 2 _FOOU2_CH_ EN 16580001 _000 _ _ 0002 _ s Tae RET MORI REQ DONE ERR _0 16000 0 16000 0 16000 0 16000 sampling i sampling i Sampling sampling FM 0 Disable 00 3 0 Disable Disable 4 20mA 4 20mA 0 16000 0 16000 V UN Disable Disable gt Chapter 9 Troubleshooting Chapter 9 Troubleshooting Details and diagnosis of errors which occur while analog input module is used will be described 9 1 Error Codes Errors which occur when Analog input module s RUN LED blinks are as described in Table 9 1 Error code detected at analog input module is saved at address 25 9 1 Table 9 1 List of error codes Error code Description RUN LED status Dec Module error ASIC Reset Error Module error
79. follows a Time average setting range 16 16000 ms b Count average setting range 2 64000 times c Weighted average setting range 1 99 2 In case other value exceeding the setting range is specified 1 Error No 602 will be displayed if time average range exceeded and 2 Error No 70 will be displayed if count average range exceeded 3 Error No 80 will be displayed if weighted average value range exceeded on the display address of the respective error codes At this time the default of average process will be applied and calculated at error code means channel where error occurs 3 Time Count Weighted average process value setting is as follows Nae 55 87 B6 Eb B4 82 BO EEELELLEIL m Time average process value setting range is 16 16000 Count average process value setting range is 2 64000 Weighted average process value setting range is 1 99 5 11 Chapter 5 Configuration and Function of Internal Memory For XGK 5 3 6 Error code address No 25 1 Error codes detected from Analog input module will be saved 2 Errortypes and details are as specified below 99 Adress 25 15 Bi4 Bi2 Bii B9 B7 B6 B Bi BO Hefer to the table below for detailed error codes E 0 RUNLEDon Hun RUNLEDon 000 RUNLEDon 000 on Module error ASIC RAM or Register Error RUN LED
80. ications b Digital output value for voltage input characteristics is as specified below Resolution based on 1 16000 0 625 mV Analog input voltage V 0 12 0 2 5 5 7 5 10 10 14 4000 8000 12000 16000 8192 8000 4000 4000 8000 2500 5000 7500 10000 Digital Output range Unsigned value 192 16191 Signed value 8192 8191 Precise value 60 5059 Percentile value 120 10119 FX 2500 5000 7500 10000 a On the XG5000 menu Parameters Setting set Input range to 10 10 V 6 Ifthe range is DC 10 10 V XGF AD16A Cur Volt 16 CH AbF AD 15A 15 0 Disable 0 186000 Sampling 0 Disable XGF AD16A Cur Volt 16 CH AGF ADTBA 1 cim cim Disable 0 156000 sampling 0 Disable Disable 10 10 0 16000 sampling Disable Disable 0 156000 sampling 0 Disable Disable 10 10 0 186000 sampling Disable Disable 0 186000 sampling Disable Disable 1 10 0 16000 Sampling Disable Disable 0 185000 Sampling 0 Disable Disable 10 10 0 16000 sampling 0 Disable Disable 0 156000 sampling j Disable Disable 10 10 0 16000 sampling Disable Disable 0 16000 sampling 0 Disable Disable 10 10 0 186000 sampling 0 Disable Disable 0 186000 sampling 0 D
81. ion 3 Dontlet any foreign materials including wiring waste inside the top of the module when wiring Remove foreign materials if any inside 4 Dontinstall or remove the module while powered on 3 1 Chapter 3 Installation and Wiring 3 2 1 Precautions for wiring 1 Dontlet AC power line near to Analog input module s external input sign line With an enough distance kept away between it will be free from surge or inductive noise 2 Cable shall be selected in due consideration of ambient temperature and allowable current whose size is not less than the max cable standard of AWG22 0 3 3 Dont let the cable too close to hot device and material or in direct contact with oil for long which will cause damage abnormal operation due to short circuit 4 Checkthe polarity when wiring the terminal 5 Wiring with high voltage line or power line may produce inductive hindrance causing abnormal operation or defect 3 2 2 Wiring examples 1 Voltage input LL APRI SSS eS iL p CHO C2 I 51 2 Current input Use a2 core twisted shielded wire AWG 22 is recommended for the cable standard 2 XGF AD164AsS current input resistance is 250 typ 3 XGF AD164As voltage input resistance is 1 min 3 2 Chapter 3 Installation and Wiring 1 3 Wiring example of 2 wire sensor transmitter current input 2 Wire CHO DC transmitter
82. iption 00 O 16000 E 1642012 0010 0000 0001 0010 16 2012 CH3 CH2 CH1 CHO Precise value has the following digital output range about analog input range 1 Current Analog input 4 20 mA 0 20 mA 4000 20000 2 Voltage Analog input 10 10V 0 10V 0 5V 1 5V Digital output 10000 10000 O 10000 0 5000 1000 5000 7 15 Chapter 7 Configuration and Function of Global variable For XGI XGR 4 Filter process setting a You can enable disable filter process per channel b Filter process is not set all channels are set as enable c Setting of filter process is as follows d The following figure is example using filter about CH4 HST2 815 Bl4 812 81 B B REL WORD DONE B9 88 2 Bd CH6 CH4 CH3 CH2 CH CHO 0 STAT Description 0 16000 8000 8000 Precise Value ee 2 0 10000 15800110 815 814 813 812 81 Bg Bb B B 89 B8 2 CH 3 CH 2 CH 1 CHO 5 Filter constant setting a Initial value of filter constant is O b Setting range of filter constant is as follows Average method Setting range 16 16000 ms 2 64000 times Weighted average 1 99 c When setting value other than setting range it indicates error number at error code indication F0001 ERR CODE At this time A D conversion value keeps previous data means the channel wher
83. isable Disable 0 186000 sampling 0 Disable Disable 0 156000 sampling 0 Disable gt E Chapter 2 Specifications 10119 10000 7500 U E 5000 r lt 2500 0 120 10239 10000 5000 5000 10000 10240 8191 8000 4000 4000 8000 8192 18184 0 16000 12000 8000 4000 192 10V 5 V OV 5 10V Analog input value voltage b Digital output value for voltage input characteristics is as specified below Resolution based on 1 16000 1 25 mV Digital Output range Unsigned value 192 16191 Analog input voltage V wo 4000 8000 12000 16000 16191 oigned value 9192 8000 4000 4000 8000 8191 8192 8191 Precise value 10240 10238 Percentile value 120 10119 192 10240 ES 2500 5000 7500 10000 10239 E 2500 5000 7500 10000 10119 1 If analog input value exceeding digital output range is input the digital output value will be kept to be the max or the min value applicable to the output range specified For example if the digital output range is set to unsigned value 192 16191 and the digital output value exceeding 16191 or analog value exceeding 192 is input the digital output value will be fixed as 16191 or 192 2 Offset Gain setting for analog input module shall not be performed by user N Cauti
84. itoring Test and Close Analog input module s output value and max min value are displayed on the monitoring screen at the top of the screen and parameters items of respective modules are displayed for individual setting on the test screen at the bottom of the screen Special Module Monitor XGF AD16A 16 CH tem MawWinvaue Cumentvaue CH6 A D value CH7 A D value CH8 A D value CH10 A D value tem Setting Value Curent value Disable 4 20 0 16000 Sampling 0 5 3 Special Module Monitoring screen a Start Monitoring Click Start Moitoring to display A D converted value of the presently operated channel Fig 5 4 is the monitoring screen displayed when the whole channels of analog input module are in Stop status In the present value field at the screen bottom presently specified parameters of Analog input module are displayed 4 11 S industrial ystems Chapter 4 Operation Setting Special Module Monitor XGF AD16A Cur Volt 16 CH em _Currentvalue e Disable Disable E 1 5 0 16000 0 16000 Sampling Sampling 0 0 Fig 5 4 Execution screen of Start Monitoring b Test Test is used to change the presently specified parameters of Analog input module Click the setting value at the bottom field of the screen to change parameters Fig 5 5 will be displ
85. limit CH6 alarm upper limit alarm upper limit More than OS CH8 alarm upper limit version 1 02 9 alarm upper limit CH10 alarm upper limit CH11 alarm upper limit CH12 alarm upper limit CH13 alarm upper limit CH14 alarm upper limit CH15 alarm upper limit 5 2 Chapter 5 Configuration and Function of Internal Memory For XGK CHO alarm lower limit CH1 alarm lower limit CH2 alarm lower limit alarm lower limit CH4 alarm lower limit CH5 alarm lower limit CH6 alarm lower limit CH7 alarm lower limit More than OS 8 alarm lower limit version 1 02 CHO alarm lower limit CH10 alarm lower limit CH11 alarm lower limit CH12 alarm lower limit CH13 alarm lower limit CH14 alarm lower limit CH15 alarm lower limit More th UXY 22 0 Flag to request error clear W ore than OS version 1 02 R W is to denote Read Write if available from PLC program 1 In the device assigned X stands for the Base No and Y for the Slot No on which module is installed 2 In order to read CH1 digital output value of Analog input module installed on Base 0 Slot No 4 it shall be displayed as 04 03 Base Word Sorter 04 03 Device Type Word Slot No a Base number setting range 0 7 b Slot number setting range 0 15 3 In order to read Flag to detect CH4 disconnection of Analog input module installed on Base No 0 Slot No 5 it shall be displayed as 005 10 4 Base No Word Sorter Bit S
86. log input module is used to convert analog signal voltage or current input from PLC s external device to signed 14 bit binary data of digital value 1 1 Characteristics 1 Hybrid input process 16 channel current voltage input can be processed at one module 2 High speed conversion High speed conversion be processed through 500 ZS channel 3 High accuracy High conversion accuracy of 0 2 95 ambient temperature of 25 5 is available 4 High resolution of 1 16000 High resolution of 1 16000 can be selected to obtain digital value of high resolution b Operation parameters setting monitoring through GUI Graphical User Interface Operation parameters setting which was by using traditional commands is available now by means of Parameters Setting for which user interface is reinforced to increase user s convenience With VO Parameters Setting used the sequence program can be reduced In addition through Special Module Monitoring function A D conversion value can be easily monitored 6 Various formats of digital output data provided 4 formats of digital output data are available as specified below a Unsigned Value 0 16000 b Signed Value 8000 8000 c Precise Value Refer to Chapter 2 2 Display based on analog input range d Percentile Value 0 10000 7 Input disconnection detection function This function is used to detect the disconnection of input circuit when 1 5 V 4 20 mA of
87. n and maintenance 1 Don t touch the terminal when powered Electric shock or abnormal operation may occur 2 Prior to cleaning or tightening the terminal screws let all the external power off including PLC power If not electric shock or abnormal operation may occur 3 Don t let the battery recharged disassembled heated short or soldered Heat explosion or ignition may cause injuries or fire Do not make modifications or disassemble each module Fire electric shock or abnormal operation may occur Prior to installing or disassembling the module let all the external power off including PLC power If not electric shock abnormal operation may occur Keep any wireless equipment such as walkie talkie or cell phones at least 30cm away from PLC If not abnormal operation may be caused When making a modification on programs or using run to modify functions under PLC operations read and comprehend all contents in the manual fully Mismanagement will cause damages to products and accidents Avoid any physical impact to the battery and prevent it from dropping as well Damages to battery may cause leakage from its fluid When battery was dropped or exposed under strong impact never reuse the battery again Moreover skilled workers are needed when exchanging batteries Safety Instructions Safety Instructions for waste disposal Product or battery waste shall be processed as industrial waste The waste may discharge
88. on Voltage and current input shall not exceed 15 V and 30 m respectively Rising heat may cause defects 2 14 Chapter 2 Specifications 2 4 2 Accuracy Accuracy of digital output value does not change even if input range is changed Fig 2 1 shows the change range of the accuracy at ambient temperature of 25 5 C with analog input range of 10 10 V selected and digital output type of Unsigned value selected 0 2 of error tolerance is acceptable at ambient temperature of 25 5 C and 0 3 at ambient temperature of 0 55 C 16031 6000 15968 1 s c amp 8000 26 5 lt 5 c D 0 32 210 10 V OV 10 V Analog input voltage Figure 2 1 Accuracy in case of 25 5 2 15 Chapter 2 Specifications 2 5 Functions of Analog Input Module Functions of Analog input module are as described below in Table 2 3 Table 2 3 List of Functions Function liem Specify Run Stop of the channel to execute A D conversion If the unused channel is set to Stop whole Run time can be reduced Input voltage Current range Specify analog input range to be used setting input ranges available for voltage input and 2 input ranges for current input opecify digital output type iT 4 output data formats are provided in this module 1 Sampling processing Sampling process will be performed if A D conversion type is not specified 2 Filter processing Used to delay the sudden ch
89. onitor XGF AD16A Cur Volt 16 CH value Current value A D value 192 192 CH1 A D value 0 0 CH2 A D value 0 0 CH3 A D value 0 0 A D value 0 0 CH5 A D value 0 0 CH6 A D value 0 0 CH7 A D value 0 0 8 A D value 0 0 9 A D value 0 0 CH10 A D value 0 0 CH11 A D value 0 0 CH12 A D value 0 0 CH13 A D value 0 0 CH14 A D value 0 0 CH15 A D value 0 0 Setting Value Current Value Channel Channel status Enable Enable Input range 1 5V 1 5V Not saved in I O Outputtype 0 16000 0 16000 parameters Average processing Sampling Average value 0 0 ah ei 2 Test function of Monitor Special Module is provided for user to check the normal operation of Analog input module even without sequence programming If Analog input module is to be used for other purposes than a test use parameters setting function in parameters Chapter 4 Operation Setting 4 5 Special Module Monitoring 4 5 1 Start of Special Module Monitoring Go through Online gt Connect and Monitor Special Module Monitoring to start If the status is not Online Special Module Monitoring menu will not be active G5000 NewProgram Project Edit Find Replace View Online Monitor Debug Tools Window Help E Stop Monitoring Pause aT Pausing Conditions Project Window
90. ope of warranty 1 Anytrouble attributable to unreasonable condition environment or handling otherwise specified in the manual Any trouble attributable to others products 3 Ifthe product is modified or repaired in any other place not designated by the company 4 Duetounintended purposes b Owing to the reasons unexpected at the level of the contemporary science and technology when delivered 6 Notattributable to the company for instance natural disasters or fire Co Since the above warranty is limited to PLC unit only make sure to use the product considering the safety for system configuration or applications Environmental Policy LS Industrial Systems Co Lid supports and observes the environmental policy as below Environmental Management About Disposal LS Industrial Systems considers the LS Industrial Systems PLC unit is designed to environmental preservation as the preferential protect the environment For the disposal management subject and every staff of LS separate aluminum iron and synthetic resin Industrial Systems use the reasonable cover from the product as they are reusable endeavors for the pleasurably environmental preservation of the earth LS values every single customer Quality and service come first at LSIS Always at your service standing for our customers WWW lsis biz LS Industrial Systems 10310000928 m HEAD OFFICE LS Industrial Systems
91. orter 005 10 4 Device Type Word Bit Slot No 5 3 Chapter 5 Configuration and Function of Internal Memory For XGK 5 1 2 Operation parameters setting area Operation parameter of analog input module can be set through Parameter of XG5000 For convenience setting parameter of analog input module is provided GUl Graphical User Interface method at XG5000 Setting area of Analog input module s Run parameters is as described in Table 5 2 Table 5 2 Setting area of Run parameters 0 Channelenable disable setting 2 2 Setting ranges of input voltage current 2 6 6 Outputdataformatseting2 8 8 Avergeproessdesgnaion2 9 9 ChOaveragevalue designation Ch5 average value designation RW 7 10 12 13 14 More than 26 Hold last value OS version 1 02 IL 5 4 Chapter 5 Configuration and Function of Internal Memory For XGK 5 2 A D Converted Data I O Area 5 2 1 Module READY ERROR flag UXY 00 X Base No Y Slot No 1 UXY 0O F It will ON when PLC CPU is powered or reset with A D conversion ready to process A D conversion 2 UXY 00 0 It is a flag to display the error status of Analog input module B15 B14 B13 B12 BIO B9 B7 84 0 Deane D i Error information Module READY Bit ON 1 READY Bit Off 0 NOT READY Bit ON 1 Frror Bit Off 0 Normal 5 2 2 Run channel flag UXY 01
92. pared date of Analog input module 4 Module status shows the present error code Refer to 9 1 for detailed error codes 9 4 Chapter 9 Troubleshooting System Monitoring NewPLC Base 0 File View Base PLC Help lt 8 Al 4 amp 6 XGF HD2A AGL EFHT AGF ADIGA Special Module Infomation Expte of sical module GF AD16A Cur Valt 16 CH Ver 1 0 2007 11 12 Module Status Normal System information _ Comment E Base 0 Main Base amp Slots lp Power XGP ACF AC1007240V Input ile CPU XGK CPUH High Speed CPU Slot 0 XGF HD24 High Speed Counter Pul Slot 1 XGL EFMT Fast Ethemet Module 2 Slot 2 Empty slot Slot 3 XGF AD 16A A D Voltage Curent Slot 4 Empty slot i s Slot 5 Empty slot R1 Ethernet OK 9 5 CS industrial Systems Appendix 1 Dimension Appendix 1 Dimension Appendix 1 1 Dimension Unit mm lt L lt L Li gt lt 1 LS Industrial Systems Warranty and Environmental Policy 1 Warranty Period The product you purchased will be guaranteed for 18 months from the date of manufacturing 2 Scope of Warranty Any trouble or defect occurring for the above mentioned period will be partially replaced or repaired However please note the following cases will be excluded from the sc
93. r Volt 16 Parameter C Channel status C Input range Output type C Average processing C Hold last value Sampling 0 Disable Sampling 0 Disable Sampling 0 Disable Sampling 0 Disable Sampling 0 Disable Sampling 0 Disable Sampling Sampling 0 0 Disable Disable LS industrial systems 2 6 Chapter 2 Specifications 10119 20191 8192 16191 10000 20000 8000 16000 7500 16000 4000 12000 5000 12000 0 8000 1ndjno 2500 8000 4000 4000 0 4000 8000 0 120 3808 8192 192 4 mA 8 mA 12 mA 16 mA 20 mA Analog input value Current b Digital output value for current input characteristics is as specified below Resolution based on 1 16000 1 Digital Analog input current mA Output range 3 808 20 191 Unsigned value 4000 8000 12000 16000 16191 192 16191 Signed value 9192 8000 4000 4000 8000 8191 8192 8191 Precise value 3808 4000 8000 12000 16000 20000 20191 3808 20191 Percentile value 120 2500 5000 7500 10000 10119 120 10119 2 7 Chapter 2 Specifications 2 Ifthe range is DC 0 20 mA On the XG5000 menu I O Parameters Setting set Input range to 0 20 mA XGF AD16A Cur Volt 16 CH ABF AD154 Cur Volt 16 C Channel status Disable Disable Disable Disable Disable Disable Disable Disable Input range 0 20 0 20 0 20 0 20
94. riable Comment Project Find Replace View Online Monitor Debug Tools Window Help Da d 5 15 im Ble DA AR 2 inte OBC pv mum E 8 BC ml Uu ed ES icut DH Y Hm cec wo Project Winde 1 Delete V View Variable view Device E view Fiag Select Al Device n4 t Line Ctrl 4 11 8 1 BX Delete Line Ctrl D Export Variables to File 4 Click Yes v View Variable view Device PE view Fiag tems 83 83 01 _ Type Commet NewPLC XGK CPUH Offline E Variable Comment 24 14 Parameter boe Basic Parameter XG5000 am Automatically register comments in the Devices according to the special module set in the I O parameter 4 The previous comment will be deleted ien New Program Continue 4 15 L S industrial systems Chapter 4 Operation Setting 5 As shown below the variables are registered Y Commer 1 BIT 107 000 Analog Made Modus Error a U CHT2 DATA WORD n Input Modde CHIZ di CHIA DATA WORD ud 18 Made C13 07 WORD 007308 77 0000000 7 DATA 110717 Module C
95. se No Y Slot No 1 parameters setting error occurs address No 22 s error code will not be automatically erased even if parameters changed correctly At this time turn the error clear request bit ON to delete address No 22 s error code and the error displayed in XG5000 s System Monitoring In addition RUN LED which blinks will be back to On status 2 to request error clear shall be used surely together with UXY 00 0 attached thereon for guaranteed Normal operation Its application shall be as shown below in Fig 5 1 5 6 Chapter 5 Configuration and Function of Internal Memory For XGK B15 14 B13 12 B11 B10 B9 Be B4 m Flag to request error ut UXY 19 0 Bit ON 1 Error clear request Bit Off 0 Error clear standing by UD7 190 107000 U0 7 19 0 Analog Analog Analog Input Input Input Module Module Module Error Clear Module Error Clear Request Error Request Fig 5 1 How to use the flag 5 2 6 Flag to request error clear UXY 22 0 X base number Y slot number 1 In more than OS version 1 02 address UXY 22 0 is used for error clear request flag Except address all functions are same with error clear request flag used at previous version 2 In less than OS version 1 02 use address UXY 19 0 for error clear request flag 5 Chapter 5 Configuration and Function of Internal Memory For XGK 5 3 Operation Parameters Set
96. t value conversion value CH 3 Digital output value conversion value CH 4 Digital output value conversion value CH 5 Digital output value conversion value CH 6 Digital output value conversion value CH 7 Digital output value conversion value CH 8 Digital output value conversion value CH 9 Digital output value conversion value CH 10 Digital output value conversion value CH 11 Digital output value conversion value CH 12 Digital output value conversion value CH 13 Digital output value conversion value CH 14 Digital output value conversion value CH 15 Digital output value conversion value Chapter 7 Configuration and Function of Global variable For XGI XGR M Global variable is d Contents Read Write allocation _ CHO 288 CH 0 disconnection detection flag _ CH1 IDD 289 CH 1 disconnection detection flag _ CH2 IDD 290 2 disconnection detection flag _ 291 CH 3 disconnection detection flag _ 4 0 292 CH 4 disconnection detection flag _xxyy_CH5_IDD YUXXX VY 293 CH 5 disconnection detection flag _xxyy_CH6_IDD 294 CH 6 disconnection detection flag _ CH7 IDD 0 295 CH 7 disconnection detection flag _ CH8 SoU Xxx yy 296 CH 8 disconnection detection flag _ CH9 SoU Xxx yy 297 CH 9 disconnection detec
97. ted Be careful Electric shock may occur The user s manual even after read shall be kept available and accessible to any user of the product Safety Instructions Safety Instructions for design process 1 Please install a protection circuit on the exterior of PLC so that the whole system may operate safely regardless of failures from external power or PLC Any abnormal output or operation from PLC may cause serious problems to safety in whole system 1 Install protection units on the exterior of PLC like an interlock circuit that deals with opposite operations such as emergency stop protection circuit and forward reverse rotation or install an interlock circuit that deals with high low limit under its position controls 2 If any system error watch dog timer error module installation error etc is detected during CPU operation in PLC all output signals are designed to be turned off and stopped for safety However there are cases when output signals remain active due to device failures Relay which cant be detected Thus you are recommended to install an addition circuit to monitor the output status for those critical outputs which may cause significant problems 2 Never overload more than rated current of output module nor allow to have a short circuit Over current for a long period time may cause a fire 3 Never let the external power of the output circuit to be on earlier than PLC power which may
98. ting Area gt 1 word is assigned for each address in the internal memory which can be displayed in 16 bits gt If each bit of 16 bits configuring the address is On let it set to 1 and if it is Off let it set to 0 so to realize the respective functions 5 3 1 How to specify the channel to use address 0 1 Allowed Prohibited A D conversion can be set for respective channels 2 Setthe unused channel Prohibited from converted so to reduce the conversion cycle for respective channels 3 Ifthe channel to use is not specified all the channels will be set to Prohibited 4 Allowed Prohibited A D conversion is as specified below B15 B14 B13 B12 B10 B8 H 86 BB Address 0 5 3 2 How to specify the range of input voltage current address No 1 1 The range of analog input voltage current can be specified for respective channels 2 Ifthe analog input range is not specified the range of all the channels will be set to 4 20 mA 3 Setting range of analog input voltage current is as specified below 815 4 812 Bll 89 B 80 HB 82 Address 1 815 4 812 Bll 89 Be 80 HB 82 Address 2 5 8 Chapter 5 Configuration and Function of Internal Memory For XGK 815 4 812 Bll 810 89 B 80 HB 82 Address 3 5 4 812 Bll 89 B 80 HB 82 80
99. tion Module list Base 00 Default Default Default XGF AD18A Cur Vo Default Default Default Default 7 Default Default Default Base 03 Default Base 04 Default Base 05 Default Base 06 Default w Base 07 Default s XGF AD16A Cur Volt 16 CH ABF ADTBA 15 CH Enable Enable Enable Enable Disable Disable Disable Disable 4 20mA 4 20mA 4 20mA 4 20mA 4 20mA 4 20mA 0 16000 0 16000 0 16000 0 158000 Average processing Sampling Sampling Sampling Sampling Sampling Sampling ea Sampling Sampling 4 NE der emen ee ee eee Nl JHoldiastvalue Disable Disable Disable Disable Disable Disable Disable Disable 4 20mA 4 20mA Input range Output type 4000 20000 4000 20000 4000 20000 0 10000 96 XGF AD16A Cur Volt 16 CH AGF ADTBA CurVolt 15 CH cH Channel status Disable Disable Disable omuwe 7 8 1 LS Industrial Systems 4 20mA 0 18000 Senn E 2 0 Disable Disable 4 20 0 18000 Samping 0 Disable Disable 4 20mA 0 16000 Sampling 0 Disable Disable 4 20m 2 0 16000 sampling d 0 Disable 4 20mA 0 16000 _ Sampling 0 Disable 4 20 0 16000 sampling Disable Sampling Disable 4 2
100. tion Registers module you want to use at I O parameter a Double click parameter of project window xXG5ODO HewProgram Pregram Project Edit nd Eeegace Cirle Monitor Debug Tools Window 2 X amp mE Vins _ E HewProgram Program dd E MesPLCGGHZPUUHONTEne Variable Leh Parameter E sc Faraman a User Function Funcion Block Ls i5 Mew Program Program Monitor A nitor Breast t Peck Program Find 1 Find 2 Commu Offine 7 3 Chapter 7 Configuration and Function of Global variable For XGI XGR b Select XGF AD16A module at I O parameter window 1 0 Parameter Setting Fixed allocation 64points kats Module list Base 00 Default slot 1 Comment Input Fier Emergency Duipui location ez 00 Default 0 es 01 Default 1 Digital Module List 02 Default 2 Special Module List U3 Default 3 Analog Input Module ez 04 Default XGF Av8A Voltage 8 CH 05 Default Ej XGF ACBA Current 8 ez 06 Default 3 XGF AD4S Isolated 4 0 Default 5 Al XGFADBA Cur Volt 8 CH 08 Default 7 XGF AD164 16 09 Default 8 10 Default g 11 Default 10 amp Base 01 Default m B Base 02 Default
101. tion display for respective channels Detection sign of disconnection for respective input channels will be saved on UXY 18 X stands for Base No and Y for Slot No e a o o o o o 0 0 00 o YO 3 Operation Each bit will be set to 1 if an assigned channel is detected as disconnected and back to 0 if connected back In addition each bit can be used to detect the disconnection in the user program together with execution conditions 4 Program Example If module is installed on Base 0 and Slot No 2 with detection flag of disconnection used it will be as shown below If the applicable channel is detected as disconnected the channel number detected will be written on the P area 2 19 Chapter 2 Specifications System configuration Blank XGF ACF2 CPUH amp 00000 102 DO F 1 Poggi MOY POO d POOL MOM T Pogg MOY B 09 Poong 13 14 POL 4 MS 15 2 20 Chapter 2 Specifications 2 5 4 Hold last value Dedicated for current input When input signal exceeds the effective range last input value is held This function can be set for each channel by I O parameter setting or user program 1 Input range to be used This function can be used when you use input signal range of 4 20mA 0 20mA So this function
102. tion flag _ CH10 IDD 0 298 CH 10 disconnection detection flag CH11 IDD 299 CH 11 disconnection detection flag _ CH12 SoU Xxx yy 300 CH 12 disconnection detection flag _ CH13 IDD SoU Xxx yy 301 CH 13 disconnection detection flag _ CH14 0 302 CH 14 disconnection detection flag _ CH15 SoU Xxx yy 303 CH 15 disconnection detection flag _ ERR CLR UXxx yy 304 Error clear request flag _ CHO HOOR UXxx yy 320 CHO alarm upper limit _ CH1 HOOR UXxx yy 321 CH1 alarm upper limit _ CH2 HOOR 9eUXxx yy 322 alarm upper limit _ HOOR UXxx yy 323 alarm upper limit _ CH4 UXxx yy 324 CHA alarm upper limit _ CH5 HOOR UXxx yy 325 CH5 alarm upper limit _ CH6 HOOR UXxx yy 326 CH6 alarm upper limit _ 9eUXxx yy 327 CH7 alarm upper limit _ 8 HOOR UXxx yy 328 CH8 alarm upper limit _ CH9 HOOR UXxx yy 329 CH9 alarm upper limit _ 10 UXxx yy 330 CH10 alarm upper limit _ CH11 UXxx yy 331 CH11 alarm upper limit 12 UXxx yy 332 12 alarm upper limit _ 13 UXxx yy 333 CH13 alarm upper limit _ 14 UXxx yy 334 14 alarm upper limit _ 15 HOOR UXxx yy 335 CH15 alarm upper limit 7 2
103. uantity aola Analog quantity can not be directly input on PLC CPU for calculation Thus convert analog quantity to digital quantity as in Fig 1 4 so to input on PLC CPU which will be executed by Analog input module 17 Input Analog x t In addition in order to output the analog quantity outward convert PLC CPU s digital 0 10 1 5V 0 10 10 1 TOv quantity to analog quantity which will be executed by D A conversion module Fig 1 4 Process in PLC 1 2 Chapter 1 Introduction 1 2 3 Characteristics of analog digital conversion 1 Voltage Input 16000 8000 0 anea 1ndino __ gt 10 OV 10V Input Voltage Analoa Inout Voltage Fig 1 5 Characteristics of A D conversion Voltage Input Analog input module is used to convert analog electric signal input from the external device to digital quantity Analog input signal converted to digital quantity can be calculated in PLC CPU If analog input range of 10 10 V is used in voltage type of Analog input module 10 V of analog input quantity will be output with digital value of 0 and 10 V of analog input quantity will be output with digital value of 16000 where consequently analog input of 1 25 mV is equivalent to digital value of 1 Fig 1 5 2 Current Input enpeA 1ndino 10 00125mA OmA 10mA Input Current Analoa Inout Current
104. ule which may cause electric shock malfunctions or abnormal operation Safety Instructions Safety Instructions for wiring process Prior to wiring works make sure that every power is turned off If not electric shock or damage on the product may be caused 2 After wiring process is done make sure that terminal covers are installed properly before its use Fail to install the cover may cause electric shocks Check rated voltages and terminal arrangements in each product prior to its wiring process Applying incorrect voltages other than rated voltages and misarrangement among terminals may cause fire or malfunctions Secure terminal screws tightly applying with specified torque If the screws get loose short circuit fire or abnormal operation may be caused Securing screws too tightly will cause damages to the module or malfunctions short circuit and dropping Be sure to earth to the ground using Class 3 wires for FG terminals which is exclusively used for PLC If the terminals not grounded correctly abnormal operation or electric shock may be caused Don t let any foreign materials such as wiring waste inside the module while wiring which may cause fire damage on the product or abnormal operation Make sure that pressed terminals get tighten following the specified torque External connector type shall be pressed or soldered using proper equipments Safety Instructions Safety Instructions for test operatio
105. utput value by filtering delaying noise or sudden change of input value Weighted average constant can be specified for respective channels through user program or I O parameters setting 1 Setting range 1 99 F n 1 a x AIn a x F n 1 F n Present weighted average output value Present A D converted value F n 1 Previous weighted average output value a weighted average constant 0 01 0 99 Previous value s weighted value a If weighted value setting value is not specified within 99 RUN LED blinks at an interval of 1 second In order to set RUN LED to On status reset the weighted value setting value within 1 99 and then convert PLC CPU from STOP to RUN Be sure to use request flag of error clear UXY 19 0 to clear the error through online editing b If any error occurs in weighted average setting value the default of average weighted setting value 1 will be saved 2 In the case of voltage input a Analog input range DC 10 10 V Digital output range 0 16000 b If analog input value changes 10 V 10 V 0 16000 weighted average output value based on avalue is as specified below vsum Weighted average output value __ __ 1 2scan 3 001 0 15840 15998 15999 1 inclined toward previous value 705 O 8000 12000 14000 50 inclined toward previous vale oso o 160 38 475 99 inclined toward previous vale 1 16000 output after
106. value 4000 8000 12000 16000 16191 192 16191 Signed value 8192 8000 4000 4000 8000 8191 8192 8191 Precise value 1250 2500 3750 5000 5059 60 5060 Percentile value 120 2500 5000 7500 10000 10119 120 10119 2 11 Chapter 2 Specifications 5 If the range is DC 0 10V a On the XG5000 menu Parameters Setting set Input range to 0 10 V XGF AD16A Cur Volt 16 CH ABF AD15A Cur Volt 16 CH C Channel status Disable Disable Disable Disable Disable Disable Disable Disable 0 10V 0 10V 0 10V 0 10V 0 10V 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 0 16000 Sampling Sampling Sampling Sampling Sampling Sampling Sampling Sampling 0 0 0 0 0 0 0 0 Disable Disable Disable Disable Disable Disable Disable Disable 16 Cur Volt 16 CH AGF ADTBA 16 CH Parameter y Fig eae des 4 i CR E y 1 nnd y b Oe ge a y CU dl i LL eee mena if 7 Sire if Holdlastvalue Hold last value Disable Disable Disable Disable Disable Disable Disable i 10119 10119 8191 16191 10000 10000 8000 16000 7500 7500 4000 12000 2 2 5000 5000 0 8000 c on lt 23 Lum 2500 2500 4000 4000 0 0 8000 0 120 120 8192 192 OV 2 5 V 5V 7 5 10 V Analog input value Voltage LS industrial Systems 2 12 Chapter 2 Specif
107. very 1 sec Itis Run parameters setting error Check the error code to take action against as follows in the table below Emor Coce Error Details Action Dec 1 Let the power ON OFF again If the error occurs again it seems to be a module defect Contact the nearest agency or LS branch office OHH Module Offset Gain error Ti THH Change time average setting value within 16 16000 exceeded SHH Change count average setting value within 2 64000 exceeded Change weighted average setting value within 1 99 exceeded of the error code stands for the channel with error found 9 2 Chapter 9 Troubleshooting 9 2 2 RUN LED is Off RUN LED is Off Analog input module is installed on the base correctly ik pu Correctly install Analog input module on the base Capacity of power module installed on the base is sufficient ITM Check the system configuration again with each module s consumed current calculated correctly Normally operated if Analog input module with error is changed to another module Module defect Go to 9 2 5 Error due to other module than Analog input module Refer to CPU manual for more details 9 2 3 CPU module cannot read A D converted value CPU module can not read A D converted value Used channel is set correctly Check the channel number to use and let it correctly gt specified Specified
108. ystems Chapter 4 Operation Setting 6 A screen will be displayed for you to specify parameters for respective channels as shown below Click a desired item to display parameters to set for respective items XGF AD16A Cur Volt 16 CH XGF AD16A Cur Volt 16 CH Disable 4 20mA 0 16000 0 16000 0 186000 Sampling Sampling Sampling cime gu Disable 4 20 Disable 4 20mA 4 20mA 0 15000 Sampling 0 XGF AD16A Cur Volt 16 CH Disable 4 20 Disable 4 20 Disable 4 20mA 0 16000 0 16000 0 16000 0 15000 Sampling Sampling Sampling Sampling NS NAR pap Disable 4 20 XGF AD16A Cur Volt 16 CH CH13 CH 15 Disable 4 20mA Disable 4 20mA Disable 4 20 Disable 4 20 0 16000 0 16000 0 16000 0 16000 Sampling Sampling Sampling Sampling a Channel status Select Disable or Enable XGF AD16A Cur Volt 16 CH Disable 4 20mA 0 186000 Sampling Disable 4 20mA Disable 4 20 Disable 4 20 0 16000 0 16000 0 16000 Sampling Sampling Sampling E RNC NOE RAN XGF AD16A Cur Volt 16 CH Disable 4 20mA Disable 4 20 Disable 4 20mA Output type Enable 0 16000 0 186000 0 165000 Sampling Sampling Sampling Sampling MM ME M NL MIN NEC XGF AD16A Cur Volt 16 CH Disable 4 20 Disable 4 20 Disable 4 20 Disable 4 20mA 0 16000 0 16000 0 16000 0
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