Q&A Of ISaGRAF Embedded Controllers
Contents
1. Offset Data Description Address Type 99 32 bit Integer Time where the min SINAD happened Format is same as min Vpp time Read only 101 32 bit Integer max SINAD unit is 0 01 Read only 103 32 bit Integer Date where the max SINAD happened Format is same as min Vpp date Read only 105 32 bit Integer Time where the max SINAD happened Format is same as min Vpp time Read only 107 32 bit Integer Min voltage unit is the same as Vpp Read only 109 32 bit Integer Date where the min voltage happened Format is same as min Vpp date Read only 111 32 bit Integer Time where the min voltage happened Format is same as min Vpp time Read only 113 32 bit Integer Max voltage unit is the same as Vpp Read only 115 32 bit Integer Date where the max voltage happened Format is same as min Vpp date Read only 117 32 bit Integer Time where the max voltage happened Format is same as min Vpp time Read only 119 32 bit Integer current min voltage unit is the same as Vpp Read only 121 32 bit Integer current max voltage unit is the same as Vpp Read only 123 32 bit Integer current TT unit is 0 00001ms 0 00000001 second Read only 125 32 bit Integer current TH unit is 0 00001ms 0 00000001 second Read only 127 32 bit Integer current TL unit is 0 00001ms 0 00000001 second Read only 129 32 bit Integer current Patern difference unit is the same as Vpp2. Offset Address Data Type Description 179 32 bit Integer The time gap between two sampling points in one WaveForm unit is 0 001 ms micro second i 87117 Value can be 5 to 1000 i 87118 Value can be 1 to 1000 Value is always 1 for i 87118 Range 1E not changeable for Range 1E This value can only be positive not negative Readable amp writable 181 200 Reserved 201 300 16 bit Integer Current WaveForm Point always 100 sampling points for the S6KHz signal max 100 sampling points for the 9KHz signal Each 16 bit Integer contains one sampling points If range 1E value 32768 means 10 0 V 32767 is 10 0 V If range 5 value 32768 means 2 5 V 432767 is 2 5 V If range 9 value 32768 means 5 0 V 432767 is 5 0 V If range 8 value 32768 means 10 0 V 32767 is 10 0 V If range 1D value 32768 means 31 25A 32767 is 31 25A 301 400 16 bit Integer Alarm WaveForm Point always 100 sampling points for the 56K Hz signal max 100 sampling points for the 9K Hz signal Each 16 bit Integer contains one sampling points If range 1E value 32768 means 10 0 V 32767 is 10 0 V If range 5 value 32768 means 2 5 V 432767 is 2 5 V If range 9 value 32768 means 5 0 V 432767 is 5 0 V If range 8 value 32768 means 10 0
3. Table 2 Offset Data Description Address Type 1 Boolean Low alarm status of Vpp Read only 2 Boolean High alarm status of Vpp Read only 3 Boolean Low alarm status of Vrms Read only 4 Boolean High alarm status of Vrms Read only 5 Boolean Low alarm status of frequency Read only 6 Boolean High alarm status of frequency Read only 7 Boolean Low alarm status of SINAD Read only 8 Reserved 9 Boolean Low alarm status of min voltage Read only 10 Boolean High alarm status of min volatge Read only 11 Boolean Low alarm status of max voltage Read only 12 Boolean High alarm status of max voltage Read only 13 Boolean Low alarm status of TT Read only 14 Boolean High alarm status of TT Read only 15 Boolean Low alarm status of TH Read only 16 Boolean High alarm status of TH Read only 17 Boolean Low alarm status of TL Read only 18 Boolean High alarm status of TL Read only 19 Boolean High alarm status of Pattern difference Read only Return True if any alarm status of item 1 thru 19 is True 20 Boolean Return False if all alarm status of item 1 thru 19 are False Read only 2 Boolean Enable Disable Vpp alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 22 Boolean Enable Disable Vrms alarm checking Readable amp writable Address for 9KHz signal only no
4. 140 Reserved 141 32 bit Integer Low alarm setting of Vpp unit is the same as Vpp This value can only be positive not negative Readable amp writable Offset Data Description Address Type 143 32 bit Integer High alarm setting of Vpp unit is the same as Vpp This value can only be positive not negative Readable amp writable 145 32 bit Integer Low alarm setting of Vrms unit is the same as Vpp Readable amp writable 147 32 bit Integer High alarm setting of Vrms unit is the same as Vpp Readable amp writable 149 32 bit Integer Low alarm setting of Frequency unit is 0 01Hz This value can only be positive not negative Readable amp writable 151 32 bit Integer High alarm setting of Frequency unit is 0 01Hz This value can only be positive not negative Readable amp writable 153 32 bit Integer Low alarm setting of SINAD unit is 0 01 Readable amp writable 155 Reserved 157 32 bit Integer Low alarm setting of Vmin unit is the same as Vpp Readable amp writable 159 32 bit Integer High alarm setting of Vmin unit is the same as Vpp Readable amp writable 161 32 bit Integer Low alarm setting of Vmax unit is the same as Vpp Readable amp writable 163 32 bit Integer High alarm setting of Vmax unit is the same as Vpp Readable amp writable 165 32 bit Integer Low alarm setting of TT unit is 0 00001ms 0 00000
5. i 880B8B8 5biosi MiniOs for 88008 Uer 2 00 0802 date 04 08 2085 Checking CRC 16 0K Update the OS code Please wait the message lt lt Write Finished Erase Flash F666 Write Flash ait WDT en Syston ICP Df iniO or I 8888 Uer 2 66 build 8802 pr 88 2085 17 86 02 SRAM 512K FLASH MEMORV 512K CPU RDC 8826 D Serial number 5A 5A SA SA SA SA SA SA q 3 Type dir to make sure autoexec bat and isa_8803 exe are well burned i 8666 gt DIR d autoexec bat 45 21 2063 66 46 68 22 00016 18082 6666 8663 8606 10 25 2086 10 28 08 186678 2C1C6 18005 88606 0C21 B68C 4 Press ALT X to exit 7188xw 5 Switch the dip on the iPAC to Run position recycle the power of the controller Appendix B Install the i 87117 and i 87118 I O library into ISaGRAF software i 87117 is in the IO complex equipments while i 87017W E5 is in the IO boards selection E ISaGRAF Project Management loj x File Edit Project Tools Options Help alig Archive 8 Test Ep t wchar Libraries gp ti m dba program ti _8024 LA IS0GRAF Libres MNT ae File Edit Tools Options Help A D 1O complex equipments D m gt amp H is NET r 16 channels isolated digital input or open collector output O complex equipments ch channel to be Input or Output is selectable et 1 841 7 881 7 8437 8837 3050 is supported since driver version 2 38
6. Format is same as min Vpp time Read only 77 32 bit Integer max Vrms unit is the same as Vpp Read only 79 32 bit Integer Date where the max Vrms happened Format is same as min Vpp date Read only 81 32 bit Integer Time where the max Vrms happened Format is same as min Vpp time Read only 83 32 bit Integer min Frequency unit is 0 01Hz Read only 85 32 bit Integer Date where the min Frequency happened Read only Format is same as min Vpp date 87 32 bit Integer Time where the min Frequency happened Read only Format is same as min Vpp time 89 32 bit Integer max Frequency unit is 0 01Hz Read only 9 32 bit Integer Date where the max Frequency happened Read only Format is same as min Vpp date 93 32 bit Integer Time where the max Frequency happened Read only Format is same as min Vpp time 95 32 bit Integer min SINAD unit is 0 01 Read only 97 32 bit Integer Date where the min SINAD happened Format is same as min Vpp date Read only Offset Data Description Address Type 99 32 bit Integer Time where the min SINAD happened Format is same as min Vpp time Read only 101 32 bit Integer max SINAD unit is 0 01 Read only 103 32 bit Integer Date where the max SINAD happened Format is same as min Vpp date Read only 105 32 bit Integer Time where the max SINAD happened Format is same a
7. Two Click modem ps Set Password of Com4 Modem held rdn Redundant System For Wincon m Then set proper Range and NumOfWavePoint in each channel Note 1 One iPAC 8803 can accept only max three i 87118 range 1E in its Slot 5 thru 7 2 If setting i 87118 s range as 5 8 9 or ID then it becomes 1 87117 In this case you can plug it at slot 0 thru 7 just like the real i 87117 card does Please refer the data of the 1 87117 3 If setting range as 1E the NumOfWavePoint of the 56KHz signal is always using 100 points Time gap between two points is always 1 micro second that is 0 000001 second The 9K Hz signal will use the same time gap but its NumOfWavePoint can be set as 20 40 60 or 100 recommend to set NumOfWavePoint to 100 for 9KHz signal if range 1E Range Canbe IE 5 8 9 0r ID IE Voltage input with 9KHz signal plus 56KHz signal 10 0 to 10 0 V Default range 5 Voltage input 2 5 to 42 5 V 8 Voltage input 10 0 to 10 0 V 9 Voltage input 5 0 to 45 0 V ID Current input 31 25 to 431 25 A NumOfWavePoint number of points inside the waveform diagram Value can be 10 20 40 60 or 100 Setting as wrong value will use the default value of 20 If the Range is 1E then this NumOfWavePoint setting is only for 9KHz signal The 56KHz signal always uses setting value as 100 ZeroCrossingChk Default is 1 it mean
8. 48001 48500 2 40501 41000 2 44501 45000 2 48501 49000 5 3 41001 41500 6 3 45001 45500 7 3 49001 49500 4 41501 42000 4 45501 46000 4 49501 50000 9K 5 42001 42500 ox 5 46001 46500 ox 5 50001 50500 Hz 6 42501 43000 Hz 6 46501 47000 Hz 6 50501 51000 7 43001 43500 7 47001 47500 7 51001 51500 8 43501 44000 8 47501 48000 8 51501 52000 1 52001 52500 1 56001 56500 1 60001 60500 2 52501 53000 2 56501 57000 2 60501 61000 5 3 53001 53500 6 3 57001 57500 7 3 61001 61500 4 53501 54000 4 57501 58000 4 61501 62000 56K 56K 56K Hz 5 54001 54500 Hz 5 58001 58500 yy 5 62001 62500 6 54501 55000 6 58501 59000 6 62501 63000 7 55001 55500 7 59001 59500 7 63001 63500 8 55501 56000 8 59501 60000 8 63501 64000 The detailed definition of the Modbus number in the i 87118 s channel area is listed as Table 2 The address in Table 2 is the Offset address The offset address 1 is mapped to the starting address 1 in the Tablel So the absolute modbus address is the Offset Address in Table2 plus the Starting Address of the associated channel in Table 1 minus 1 That is abs addr offset addr start addr 1 For example The absolute Modbus address of the 56KHz channel 2 s offset 1 of the i 87118 in slot 7 is 60501 its offset 101 has absolute address as 60601
9. AF Anction blocks UC functions i C function blocks ijConversion functions selectable I O OE s ISaGRAF Libraries Dl xj T ron File Edit Tools Options Help esa T Standard not fomat fels isolated digital input or open collector output versi i_7188xq ICP DAS pel to be Input or Output is selectable s _ INS integration 7 9817 8437 8837 Nate i Bflkfl ic eunnarted cince driver wvercinn 38 Archive I O complex equipments x Workbench Archive Pun Backup Restore N Close me X Help version for ICP DAS mpus asc mmicon modem ps rdn Compress Archive location CACHUNSWwSS37ACD ROMNMSAGRAFSARKS Browse Appendix C Setting IP and Mask and Gateway Address of the iPAC 1 Create a file folder named 8000 in your hard drive For example c 8000 2 Copy all iPAC 8803 driver files into the c 8000 7188xw exe 7188xw f4 7188xw ini ip 20080530 img autoexec bat isa 8803 exe isa data exe 3 Run 8000 7188xw exe in your hard drive A 7188xw screen will appear Press F1 for help 4 link COMI or COM2 of your PC to COMI of the controller through a RS232 cable If you use other COM port ex COM5 please modify the first line of 7188xw ini c1 31152880 Po DB s1 115288 P8 D8 1 Xautoexec bat Xisa exe w25 5 Power off iPAC switch the dip on the iPAC 8803 to INIT position then power it up 6 I
10. Read only 131 32 bit Integer Date where the Alarm happened Read only For ex value 20080926 means Sep 26 2008 133 32 bit Integer Time where the Alarm happened Read only For ex value 071559 means 07 15 59 135 32 bit Integer The sampling number of one WaveForm amount of points in one waveform Read only Value is one of 10 20 40 60 100 This value is set in the ISaGRAF 137 140 Reserved 141 32 bit Integer Low alarm setting of Vpp unit is the same as Vpp This value can only be positive not negative Readable amp writable Offset Data Description Address Type 143 32 bit Integer High alarm setting of Vpp unit is the same as Vpp This value can only be positive not negative Readable amp writable 145 32 bit Integer Low alarm setting of Vrms unit is the same as Vpp Readable amp writable 147 32 bit Integer High alarm setting of Vrms unit is the same as Vpp Readable amp writable 149 32 bit Integer Low alarm setting of Frequency unit is 0 01Hz This value can only be positive not negative Readable amp writable 151 32 bit Integer High alarm setting of Frequency unit is 0 01Hz This value can only be positive not negative Readable amp writable 153 32 bit Integer Low alarm setting of SINAD unit is 0 01 Readable amp writable 155 Reserved 157 32 bit Integer Low alarm setting of Vmin unit is the same a
11. 0 6 30501 31000 6 42501 43000 7 31001 31500 7 43001 43500 8 31501 32000 8 43501 44000 The detailed definition of the Modbus number in the i 87117 s channel area is listed as Table 2 The address in Table 2 is the Offset address The offset address 1 is mapped to the starting address 1 in the Tablel So the absolute modbus address is the Offset Address in Table2 plus the Starting Address of the associated channel in Table 1 minus 1 That is abs addr offset addr start addr 1 For example The absolute Modbus address of the channel 2 s offset 1 of the i 87117 in slot 1 is 24501 its offset 101 has absolute address as 24601 Table 2 Offset Data Description Address Type 1 Boolean Low alarm status of Vpp Read only 2 Boolean High alarm status of Vpp Read only 3 Boolean Low alarm status of Vrms Read only 4 Boolean High alarm status of Vrms Read only 5 Boolean Low alarm status of frequency Read only 6 Boolean High alarm status of frequency Read only T Boolean Low alarm status of SINAD Read only 8 Reserved 9 Boolean Low alarm status of min voltage Read only 10 Boolean High alarm status of min volatge Read only 11 Boolean Low alarm status of max voltage Read only 12 Boolean High alarm status of max voltage Read only 13 Boolean Low alarm status of TT Read only 14 Boolean
12. 001 second This value can only be positive not negative Readable amp writable 167 32 bit Integer High alarm setting of TT unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 169 32 bit Integer Low alarm setting of TH unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 171 32 bit Integer High alarm setting of TH unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 173 32 bit Integer Low alarm setting of TL unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 175 32 bit Integer High alarm setting of TL unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 177 32 bit Integer High Alarm setting of Patern difference unit is mV 0 001 Volt This value can only be positive not negative unit is the same as Vpp Readable amp writable Offset Address Data Type Description 179 32 bit Integer The time gap between two sampling points in one WaveForm unit is 0 001 ms micro second 1 87117 Value can be 5 to 1000 1 87118 Value can be 1 to 1000 This value can only be positive not negative Readable amp writable 181 200 Reserved 201 300 16 bit Integer Current WaveForm
13. 082c 2 Counter amp 2 read back DO i 87082F 2 Frequency amp 2 DO 87117 8 CH waveForm card i 87181 Concrete Freq amp Temper inpt iBke Link i BKE4 MTCP or i BKE8 MTCP mbus Modbus RTU master mbus asc Modbus ASCII master Library mmicon Connect MMICON by Com3 or Co modem ps Set Password of Com4 Modem_ C Boards rdn Redundant System For wincon n rdn new New Redundant System w 8x47 Equipments rtu slav 2nd 5th Modbus ATU slave port m 256 512 Battery backup SRAM for I Bxx7 Y Cancel Note re Then set proper Range and NumOfWavePoint in each channel Range Canbe 5 8 9 or ID 5 Voltage input 2 5 to 42 5 V 8 Voltage input 10 0 to 10 0 V default rage 9 Voltage input 5 0 to 45 0 V 1D Current input 31 25 to 431 25 A NumOfWavePoint number of points inside one single waveform Value can be 10 20 40 60 or 100 Setting as wrong value will use the default value of 20 ZeroCrossingChk Default is 1 it means eanble zero crossing check If setting it as 0 will disable it For AC input please enable it For straight line DC input that is voltage current is not changing please disable it ISaGRAF DEMO 4 I O connection o H A 9X3 NRBEM dEERBREEREBERBEBGC N t I i i EE L2 E ET There are 8 analog channels in the i 87117 Please plug them in the slot 0 through 7 of the iPAC 8803 The i 87117 can not b
14. 6K Hz It will Enable Disable both of 9KHz and 56KHz 36 Boolean Clear max Frequency Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56K Hz It will Enable Disable both of 9KHz and 56KHz 37 Boolean Clear min SINAD Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 38 Boolean Clear max SINAD Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 39 Boolean Clear min voltage Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 40 Boolean Clear max voltage Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 41 Boolean Set current WaveForm as the good pattern Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 42 Boo
15. Clear max Vpp Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 33 Boolean Clear min Vrms Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 34 Boolean Clear max Vrms Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 35 Boolean Clear min Frequency Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 36 Boolean Clear max Frequency Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 37 Boolean Clear min SINAD Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 38 Boolean Clear max SINAD Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 39 Boolean Clear min voltage Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 40 Boolean Clear max voltage Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 41 Boolean Set current WaveForm as the good pattern Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Clear all min and max value Readable amp writable 42 Boolean This command is equal to the sum of the command 31 thru 40 The iPAC 8803 will run it and then will reset it ba
16. High alarm status of TT Read only 15 Boolean Low alarm status of TH Read only 16 Boolean High alarm status of TH Read only 17 Boolean Low alarm status of TL Read only 18 Boolean High alarm status of TL Read only 19 Boolean High alarm status of Pattern difference Read only Return True if any alarm status of item 1 thru 19 is True 20 Boolean Return False if all alarm status of item 1 thru 19 are False Read only 21 Boolean Enable Disable Vpp alarm checking Readable amp writable 22 Boolean Enable Disable Vrms alarm checking Readable amp writable 23 Boolean Enable Disable Frequency alarm checking Readable amp writable 24 Boolean Enable Disable SINAD alarm checking Readable amp writable 25 Boolean Enable Disable Vmin alarm checking Readable amp writable 26 Boolean Enable Disable Vmax alarm checking Readable amp writable Offset Data Description Address Type 27 Boolean Enable Disable TT alarm checking Readable amp writable 28 Boolean Enable Disable TH alarm checking Readable amp writable 29 Boolean Enable Disable TL alarm checking Readable amp writable 30 Boolean Enable Disable Pattern difference alarm checking Readable amp writable 31 Boolean Clear min Vpp Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto 32 Boolean
17. Point max 100 sampling points in one waveform Each 16 bit Integer contains one sampling points If range 5 value 32768 means 2 5 V 432767 is 2 5 V If range 9 value 32768 means 5 0 V 432767 is 5 0 V If range 8 value 32768 means 10 0 V 32767 is 10 0 V If range 1D value 32768 means 31 25A 32767 is 31 25A 301 400 16 bit Integer Alarm WaveForm Point max 100 sampling points in one waveform Each 16 bit Integer contains one sampling points If range 5 value 32768 means 2 5 V 32767 is 2 5 V If range 9 value 32768 means 5 0 V 32767 is 5 0 V If range 8 value 32768 means 10 0 V 32767 is 10 0 V If range 1D value 32768 means 31 25A 32767 is 31 25A 401 500 16 bit Integer WaveForm of the good patern max 100 sampling points Each 16 bit Integer contains one sampling points If range 5 value 32768 means 2 5 V 32767 is 2 5 V If range 9 value 32768 means 5 0 V 32767 is 5 0 V If range 8 value 32768 means 10 0 V 32767 is 10 0 V If range 1D value 32768 means 31 25A 32767 is 31 25A 2 Using i 87118W If you are using the i 87117 please refer to section 1 Using i 87117 Note 1 Please refer to Chapter 1 1 and 1 2 of the ISaGRAF User s Manual to
18. Using I 87117 and I 87118 1 Using i 87117W If you are using the i 87118 please refer to section 2 Using i 87118 Note 1 Please refer to Chapter 1 1 and 1 2 of the ISaGRAF User s Manual to install the ISAaGRAF wrokbench and ICP DAS utilities in your PC The complete manual is burned in the i 8000 CD ROM wnapdosNsagraf 8000 english manuV user manual i 8xx7 pdf and user manual i 8xx7 appendix pdf or visit http www icpdas com products PAC 1 8000 getting started manual htm 2 Before you can use the iPAC 8803 plus the 1 87117 and i 87017W E5 please make sure if your iPAC 8803 has installed the correct ISaGRAF driver please refer to Appendix A 3 To make sure if your ISaGRAF software in PC has installed the I O library of i 87117 and i 87017W ES please refer to Appendix B 4 Please refer to to Appendix C to set the correct IP and mask address of the iPAC 8803 5 In your ISaGRAF program please connect the complex equipmenet i 87117 in the IO connection windows to the correct slot No as below ISaGRAF T_87117 Programs loj x File Make Project Tools Debug Options Help O connection ISaGRAF T_87117 I O connection D x File Edit Tools Options Help amp bb5 995 02k S Two click Select board equipment xi i 87058c 8 CH D l amp Cnt Max 100Hz version for ICP DAS 87063 Isolated 4 CH DI amp 4 CH DO i 87063c 8CH 1 0 amp Cnt Max 100Hz i 87
19. V 32767 is 10 0 V If range 1D value 32768 means 31 25A 32767 is 31 25A 401 500 16 bit Integer WaveForm of the good patern always 100 sampling points for the 56K Hz signal max 100 sampling points for the 9K Hz signal Each 16 bit Integer contains one sampling points If range 1E value 32768 means 10 0 V 32767 is 10 0 V If range 5 value 32768 means 2 5 V 32767 is 2 5 V If range 9 value 32768 means 5 0 V 32767 is 5 0 V If range 8 value 32768 means 10 0 V 32767 is 10 0 V If range 1D value 32768 means 31 25A 32767 is 31 25A Appendix A Update iPAC 8803 ISaGRAF driver To Know The Current Driver Version We use driver 1 1 as an example 1 2 CA Create a file folder named 8000 in your hard drive For example c 8000 Copy all iPAC 8803 driver files into the c 8000 7188xw exe 7188xw f4 7188xw ini ip 20080530 img autoexec bat I isa 8803 exe isa data exe Run 8000 7188xw exe in your hard drive A 7188xw screen will appear Press F1 for help Link COMI or COM2 of your PC to COMI of the controller through a RS232 cable If you use other COM port ex COMS please modify the first line of 7188xw ini 115288 P8 D8 1 Nautoexec bat Xisa exe w25 Power off iPAC switch the dip on the iPAC 8803 to INIT position then power i
20. ate where the max Vpp happened Format is same as min Vpp date Read only 69 32 bit Integer Time where the max Vpp happened Format is same as min Vpp time Read only 71 32 bit Integer min Vrms unit is the same as Vpp Read only 73 32 bit Integer Date where the min Vrms happened Format is same as min Vpp date Read only 75 32 bit Integer Time where the min Vrms happened Format is same as min Vpp time Read only 71 32 bit Integer max Vrms unit is the same as Vpp Read only 79 32 bit Integer Date where the max Vrms happened Format is same as min Vpp date Read only 81 32 bit Integer Time where the max Vrms happened Format is same as min Vpp time Read only 83 32 bit Integer min Frequency unit is 0 01Hz Read only 85 32 bit Integer Date where the min Frequency happened Read only Format is same as min Vpp date 87 32 bit Integer Time where the min Frequency happened Read only Format is same as min Vpp time 89 32 bit Integer max Frequency unit is 0 01Hz Read only 9 32 bit Integer Date where the max Frequency happened Read only Format is same as min Vpp date 93 32 bit Integer Time where the max Frequency happened Read only Format is same as min Vpp time 95 32 bit Integer min SINAD unit is 0 01 Read only 97 32 bit Integer Date where the min SINAD happened Format is same as min Vpp date Read only
21. ck to False auto 43 50 Reserved 51 32 bit Integer Vpp Read only If range is 5 unit is 0 0001 V for ex 25000 is 2 5 V 25000 is 2 5V If range is 9 unit is 0 0001 V for ex 50000 is 5 0 V 50000 is 5 0V If range is 8 unit is 0 001 V for ex 10000 is 10 V 10000 is 10V If range is 1D unit is mA for ex 31250 is 31 25 A 31250 is 31 25A 53 32 bit Integer Vrms unit is the same as Vpp Read only Offset Data Description Address Type 55 32 bit Integer Frequency unit is 0 01Hz For ex 5000 is 50Hz 950000 is 9500Hz Read only 57 32 bit Integer SINAD unit is 0 01 Read only 59 32 bit Integer min Vpp unit is the same as Vpp Read only 6l 32 bit Integer Date where the min Vpp happened Read only For ex value 20080926 means Sep 26 2008 63 32 bit Integer Time where the min Vpp happened Read only For ex value 130943 means 13 09 43 65 32 bit Integer max Vpp unit is the same as Vpp Read only 67 32 bit Integer Date where the max Vpp happened Format is same as min Vpp date Read only 69 32 bit Integer Time where the max Vpp happened Format is same as min Vpp time Read only 7 32 bit Integer min Vrms unit is the same as Vpp Read only 73 32 bit Integer Date where the min Vrms happened Format is same as min Vpp date Read only T5 32 bit Integer Time where the min Vrms happened
22. e both of 9KHz and 56KHz 30 Boolean Enable Disable Pattern difference alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 3l Boolean Clear min Vpp Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 32 Boolean Clear max Vpp Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 33 Boolean Clear min Vrms Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 34 Boolean Clear max Vrms Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz Offset Address Data Type Description 35 Boolean Clear min Frequency Readable amp writable The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 5
23. e used in the RS 485 remote I O expansion base The HMI like InduSoft can Read Write iPAC 8803 via Modbus RTU protocol or via Modbus TCP IP protocol Each channel in the 1 87117 has a absolute Modbus address area which has 500 Modbus number in the iPAC 8803 Table 1 Slot Channel Address Slot Channel Address Slot Channel Address 1 20001 20500 1 32001 32500 1 44001 44500 2 20501 21000 2 32501 33000 2 44501 45000 3 21001 21500 3 33001 33500 3 45001 45500 4 21501 22000 4 33501 34000 4 45501 46000 Y 5 22001 22500 5 34001 34500 5 46001 46500 6 22501 23000 6 34501 35000 6 46501 47000 7 23001 23500 7 35001 35500 7 47001 47500 8 23501 24000 8 35501 36000 8 47501 48000 1 24001 24500 1 36001 36500 1 48001 48500 2 24501 25000 2 36501 37000 2 48501 49000 3 25001 25500 3 37001 37500 3 49001 49500 4 25501 26000 4 37501 38000 4 49501 50000 5 26001 26500 i 5 38001 38500 d 5 50001 50500 6 26501 27000 6 38501 39000 6 50501 51000 T 27001 27500 7 39001 39500 7 51001 51500 8 27501 28000 8 39501 40000 8 51501 52000 1 28001 28500 l 40001 40500 2 28501 29000 2 40501 41000 3 29001 29500 3 41001 41500 4 29501 30000 4 41501 42000 5 30001 30500 2 5 42001 4250
24. f the connection is Ok i 8000 gt messages will appear on the 7188xw screen ICP_DAS MiniOS for I 8666 Uer 2 66 build 662 fApr 88 20805 17 66 62 SRAM 512K FLASH MEMORY 512K CCPU Am188ES 1 Serial number 69 63 4A 66 3 66 HA 76 i 88808 7 Type IP xxx xxx xxx xxx to set LANI s IP address For ex IP 192 168 1 100 then type IP to see the current set IP 8 Type IP2 xxx xxx xxx xxx to set LAN2 s IP address For ex IP2 192 168 1 101 then type IP to see the current set IP 9 Type Mask xxx xxx xxx xxx to set LANI s Mask address For ex Mask 255 255 255 0 then type Mask to see the current set Mask 10 Type Mask2 xxx xxx xxx xxx to set LAN2 s Mask address For ex Mask2 255 255 255 0 then type Mask2 to see the current set Mask If you wish to set the gateway address you can use the Gateway xxx xxx xxx xxx and the Gateway2 XXX XXX XXX xxx command 11 Remember to switch the dip on the iPAC back to Run position recycle the power of the controller
25. install the ISAaGRAF wrokbench and ICP DAS utilities in your PC The complete manual is burned in the i 8000 CD ROM wnapdosNsagraf 8000 english manuV user manual i 8xx7 pdf and user manual i 8xx7 appendix pdf or visit http www icpdas com products PAC 1 8000 getting started manual htm 2 Before you can use the iPAC 8803 plus the 1 87118 and i 87017W E5 please make sure if your iPAC 8803 has installed the correct ISaGRAF driver please refer to Appendix A 3 To make sure if your ISaGRAF software in PC has installed the I O library of i 87117 1 87118 and 1 87017W ES please refer to Appendix B 4 Please refer to to Appendix C to set the correct IP and mask address of the iPAC 8803 5 In your ISaGRAF program please connect the complex equipmenet i 87118 in the IO connection windows to the correct slot No as below Note One iPAC 8803 can accept only max three i 87118 in its Slot 5 thru 7 ISaGRAF T_87117 Programs loj x File Make Project Tools Debug Options Help amp Bei CoO sur gh RO Begin me LD 1 aw ISaGRAF DEMO_04 I O connection loj x File Edit Tools Options Help x Select hoard equipment mE APBA TIFA 4 87 118 8 CH WaveForm card frange 1E i 87181 Concrete Freq amp Temper put ike Link i BKE4 MTCP or i BKES MT HELEENE mbus Modbus ATU master C i mbus_asc Modbus ASCII master Beau mmicon Connect MMICON by Com3 or Corr Equipments
26. lean Clear all min and max value Readable amp writable This command is equal to the sum of the command 31 thru 40 The iPAC 8803 will run it and then will reset it back to False auto Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 43 50 Reserved 51 32 bit Integer Vpp Read only If range is 1E unit is 0 001 V for ex 10000 is 10 V 10000 is 10V If range is 5 unit is 0 0001 V for ex 25000 is 2 5 V 25000 is 2 5V If range is 9 unit is 0 0001 V for ex 50000 is 5 0 V 50000 is 5 0V If range is 8 unit is 0 001 V for ex 10000 is 10 V 10000 is 10V If range is 1D unit is mA for ex 31250 is 31 25 A 31250 is 31 25A 53 32 bit Integer Vrms unit is the same as Vpp Read only Offset Data Description Address Type 55 32 bit Integer Frequency unit is 0 01Hz For ex 5000 is 50Hz 950000 is 9500Hz Read only 57 32 bit Integer SINAD unit is 0 01 Read only 59 32 bit Integer min Vpp unit is the same as Vpp Read only 61 32 bit Integer Date where the min Vpp happened Read only For ex value 20080926 means Sep 26 2008 63 32 bit Integer Time where the min Vpp happened Read only For ex value 130943 means 13 09 43 65 32 bit Integer max Vpp unit is the same as Vpp Read only 67 32 bit Integer D
27. s Vpp Readable amp writable 159 32 bit Integer High alarm setting of Vmin unit is the same as Vpp Readable amp writable 161 32 bit Integer Low alarm setting of Vmax unit is the same as Vpp Readable amp writable 163 32 bit Integer High alarm setting of Vmax unit is the same as Vpp Readable amp writable 165 32 bit Integer Low alarm setting of TT unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 167 32 bit Integer High alarm setting of TT unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 169 32 bit Integer Low alarm setting of TH unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 171 32 bit Integer High alarm setting of TH unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 173 32 bit Integer Low alarm setting of TL unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 175 32 bit Integer High alarm setting of TL unit is 0 00001ms 0 00000001 second This value can only be positive not negative Readable amp writable 177 32 bit Integer High Alarm setting of Patern difference unit is mV 0 001 Volt This value can only be positive not negative unit is the same as Vpp Readable amp writable
28. s eanble zero crossing check If setting it as 0 will disable it For AC input please enable it For straight line DC input that is N C ma voltage current is not changing please disable it N C HI Plies nc fhe File Edit Tools Options Help AGND 2 PBem TLI FAS vino ie o j ref 87118A1 Vino ka ww Range 1E Vini he mw NumOfYavePoint 100 Vint n mwa Gain 1 Vin2 MEI 4 mu ZeroCrossingChk 1 Vin2 MEI m ScaleMapping 10000 Vin3 MEI Le ious Reserved 0 Vin3 Ma am i_87118 mw Reserved 0 e i B CH1 ne maj Reserved 0 M a z CH2 ne maj Reserved 0 M 1 CH3 ne mwaj Reserved 0 VIno I CH4 ne maj Reserved 0 Vins nf CHS aad ola Vin6 n Vin6 n Vin ma Vin7 Ln There are 8 analog channels in the i 87118 If setting the Range as 1E it can be plugged only in the slot 5 through 7 of the iPAC 8803 The i 87118 can not be used in the RS 485 remote I O expansion base The HMI like InduSoft can Read Write iPAC 8803 via Modbus RTU protocol or via Modbus TCP IP protocol Each channel in the i 87118 has a absolute Modbus address area which has 1000 Modbus number in the iPAC 8803 Table 1 Slot Channel Address Slot Channel Address Slot Channel Address 1 40001 40500 1 44001 44500 1
29. s min Vpp time Read only 107 32 bit Integer Min voltage unit is the same as Vpp Read only 109 32 bit Integer Date where the min voltage happened Format is same as min Vpp date Read only 111 32 bit Integer Time where the min voltage happened Format is same as min Vpp time Read only 113 32 bit Integer Max voltage unit is the same as Vpp Read only 115 32 bit Integer Date where the max voltage happened Format is same as min Vpp date Read only 117 32 bit Integer Time where the max voltage happened Format is same as min Vpp time Read only 119 32 bit Integer current min voltage unit is the same as Vpp Read only 121 32 bit Integer current max voltage unit is the same as Vpp Read only 123 32 bit Integer current TT unit is 0 00001ms 0 00000001 second Read only 125 32 bit Integer current TH unit is 0 00001ms 0 00000001 second Read only 127 32 bit Integer current TL unit is 0 00001ms 0 00000001 second Read only 129 32 bit Integer current Patern difference unit is the same as Vpp Read only 131 32 bit Integer Date where the Alarm happened Read only For ex value 20080926 means Sep 26 2008 133 32 bit Integer Time where the Alarm happened Read only For ex value 071559 means 07 15 59 135 32 bit Integer The sampling number of one WaveForm amount of points in one waveform Read only Value is one of 10 20 40 60 100 This value is set in the ISaGRAF 137
30. such an address for 56K Hz It will Enable Disable both of 9K Hz and 56KHz Offset Address Data Type Description 23 Boolean Enable Disable Frequency alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56K Hz It will Enable Disable both of 9K Hz and 56KHz 24 Boolean Enable Disable SINAD alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56K Hz It will Enable Disable both of 9KHz and 56KHz 25 Boolean Enable Disable Vmin alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 26 Boolean Enable Disable Vmax alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 27 Boolean Enable Disable TT alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 28 Boolean Enable Disable TH alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disable both of 9KHz and 56KHz 29 Boolean Enable Disable TL alarm checking Readable amp writable Address for 9KHz signal only no such an address for 56KHz It will Enable Disabl
31. t up If the connection is Ok i 8000 gt messages will appear on the 7188xw screen ICP_DAS MiniOS for I 8666 Uer 2 66 build 662 fApr 88 20805 17 06 02 SRAM 512K FLASH MEMORY 512K CCPU Am188ES 1 Serial number 89 63 4A 66 3 66 A 76 i 88808 Type ver to see the current OS version amp date Type isa 8803 p to see the current driver version No amp setting of the controller i 8 aaawer ICP DAS MiniOS for I 8808080 Uer 2 66 build 002 npr 88 20805 17 66 62 RAM 512K FLASH MEMORV 512K CCPU AM188ES 1 erial number 63 4A 66 83 66 080 76 Driver I 8xx isa exe 2 9 46 08 26 2006 MiniOS Must use QkO5A4A8 img isa data exe 1 8 0ct 25 2W86 NED ID 1 COM1 is Modbus RTU slave port 19200 8 N 1 COM3 is Modbus RTU slave port 19200 8 N 1 Use isa f 1 to free COMI isa to set COM1 as Modbus RTU C Copyright ICP DAS CO LTD Taiwan Id 8451729 7 To Upgrade An ISaGRAF Embedded Driver 1 Power off iPAC switch the dip on the iPAC 8803 to INIT position then power it up 2 Press F4 to auto download the following files and reboot system isa data exe autoexec bat isa 8803 exe ip 20080530 img i 8088 del y Total File number is 2 do you really want to delete Cuy n i 8888 LORD File will save to 8808080 88088 Startfddr 7888 FFFF Transfer time is 12 844008 seconds Wait about 60 sec to update ISaGRAF system amp DO NOT REMOVE THE POWER
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