ISO-P32C32/P32S32W/P64/C64
Contents
1. 00 AN A UQ N cC un fk O N N 0121 13 14 DO DI22 15 16 0 22 DE mae CON1 Pin assignment DI24 19 20 DO 24 DI25 21 22 DO25 DI26 23 24 0 26 External 0127 25 26 00 27 20 EG 0 DATA Tet E SE GC 21 DO 16 for High drive i x S N 8 22 DO 17 for High drive DESC 33 Ac nO Bie sx 23 DO 18 for High drive GND for High Drive 35 36 CONI D O External 24 DO 19 for High drive GND for High Drive 37 38 NC M S 25 DO 20 N C 39 40 N C GE x 26 DO 21 SE i 27 DO 22 oats 28 DO 23 DI 24 10 56 jazi DI 25 11 Bras 30 DO 25 DI 27 13 T nc el DI 28 14 i di sige ae 33 DO 28 BEE DU cwm 35 0030 EE GND for High Drive 18 sss GND for High Drive 19 M zi ud DB 40 Pin conversion DB 37 Pin Pin assignment of CON1 via extension cable ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2 10 Pin Assignment of ISO P64 Internal 1 mp2 17 ER ER JP4 JP3 External ISA BUS ISO P64 ISA BUS CON1 Pin assignment CON2 D O External Power GND 1 0132 3 DI33 5 DI34 7 0135 9 0136 11 DI37 13 DI38 15 DI39 17 0140 19 0141 21 0142 23 0143 25 0144 27 0145 29 0146 31 0147 33 CON2 DI Power 35 CON2 DI Power 37 N C 39 oo N 10 14 16 18 20 22 24 26 28 30 32 34 36 38 40 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 External Power GND2. ISO P32C32 P32S32W ISO P64 C64 Version 1 9 Oct 2011 Warranty All products manufactured by ICP DAS are warranted against defective materials for a period of one year from the date of delivery to the original purchaser Warning ICP DAS assumes no liability for damages consequent to the use of this product ICP DAS reserves the right to change this manual at any time without notice The information furnished by ICP DAS is believed to be accurate and reliable However no responsibility is assumed by ICP DAS for its use nor for any infringements of patents or other rights of third parties resulting from its use Copyright Copyright 2011 by ICP DAS All rights are reserved Trademark Names are used for identification only and may be registered trademarks of their respective companies Tables of Contents 1 INIRODUCTION E u 4 1 1 SINN Le 4 J EE 4 ee EE 5 E Ee EE 6 RE AE E 6 1 2 ORDER DESCRIPTION rd eN ama ee ee baa akan a aa sag essem datei haah 7 1 3 sug P 7 1 4 PRODUCT CHECK TAS E 8 2 HARDWARE CONFIGURATION aaa 9 sch e E ERR EE KEE H 2 2 IORS 32W BOARD LAYOUT Pu ont m usunku b 10 2 77 2 72 Zas E 13 2 70 2 3 ISO P64 DOARD LAYOUT Z u sadana aaa akan Ee N EE 17 2 18 2 3 2 J O base Address SOUS uu 18 21 2 4 ISOC 64 BOARD DAY OUT uy ESE EE Ee EG 2 23 E PO Reester
3. DI 16 31 DI 16 DI 17 DI 18 DI 19 DI 20 DI 21 DI 22 DI 23 DI 24 DI 25 DI 26 DI 27 DI 28 DI 29 DI 30 DI 31 DO 16 31 External Power CON2 Pin assignment External Power GND DI 0 15 1 Internal DIO 2 10082 Team ER ER DI 1 3 External 071 JP2 DI 2 4 DI 3 5 DI 4 6 DI 5 7 DI 6 8 DI 7 9 DI 8 10 DI 9 11 DI 10 12 I 11 13 CON2 Pin assignment DI 12 14 CON2 D O External DI 13 15 Power GND DI 48 DI 14 16 DI 49 External Dis us DI 50 Power DI 0 15 18 DI 51 N C 19 DI 52 DI 53 DI 54 DI 55 DI 56 DI 57 External DI 58 Power GND DI 32 47 1 DI 59 DI 32 2 DI 60 DI 61 DI 33 3 DI 62 DI 34 4 DI 63 DI 35 5 CON D O External DI 36 6 P DI37 7 N C DI 38 8 DI 39 9 DI 40 10 DI 41 11 DI 42 12 DI 43 13 DI 44 14 DI 45 15 DI 46 16 el fie C SS Extension Cable Mhh K External DAT Power DI 32 47 N C b 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 External Power GND DI 48 63 DI 48 DI 49 DI 50 DI 51 DI 52 DI 53 DI 54 DI 55 DI 56 DI 57 DI 58 DI 59 DI 60 DI 61 DI 62 DI 63 DI 48 63 External Power Pin assignment of CON2 via extension cable DB 40 Pin conversion DB 37 Pin ISO P32C32 P32S32W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2 11 Pin Assignment of ISO C64 CON1 Pin assignment External Power GND E
4. CurentSink NPN EN mom 1 2 Order Description B ISO P32C32 P32S32W ISA bus D I of 32 bit D O of 32 bit B ISO P64 ISA bus D I of 64 bit B ISO C64 ISA bus D O of 64 bit 1 3 Options B ADP 37 PCI extender 50 pin OPTO 22 header to DB 37 for PCI Bus VO boards B ADP 50 PCI extender 50 pin OPTO 22 header to 50 pin header for PCI Bus I O boards m 532 32 channel relay output board ROHS Include CA 3710D Male Male D sub Cable 1 0 M DB16P16R 16 channel input terminal and 16 channel relay output board Include CA 3710D Male Male D sub Cable 1 0 M ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 1 4 Product Check List The shipping package includes the following items One ISO P32C32 ISO P32S32W ISO P64 or ISO C64 card B One software utility ISA CD B One Quick Start Guide It is recommended that you read the Quick Start Guide first All the necessary and essential information is given in the Quick Start Guide including B Where to get the software driver demo programs and other resources B How to install the software B How to test the card Attention If any of these items is missing or damaged contact the dealer from whom you purchased the product Please save the shipping materials and carton in case you need to ship or store the product in the future EE 2 Hardware configuration 2 1 ISO P32C32 Board Layout The boar
5. 18 37 DO 48 63 N C 19 External Power DB 40 Pin conversion DB 37 Pin Pin assignment of CON2 via extension cable ISO P32C32 P32S32W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 3 The applications of Digital VO 3 1 The example of ISO P32C32 The circuit diagram of D O of ISO P32C32 is given as follows Ext I Device 1 xternal Device External Device 2 Figure 3 1 The example of digital inputs outputs for ISO P32C32 B The circuit diagram of external device 1 Refer to Figure 11 B The circuit diagram of external device 2 Refer to Figure 12 B The test circuit diagram of D I O of ISO P32C32 is given as follows From the CONI of ISO P32C32 Figure 3 2 The D I O of CON1 of ISO P32C32 B The of CON2 of ISO P32C32 for internal power From the CON of ISO P32C32 20 DN 37 VO CONNECTOR BLOCK 37 RE Figure 3 3 The D I O of CON2 of ISO P32C32 The of CON2 of ISO P32C32 for internal power B The interrupt input of circuit diagram 1 of ISO P32C32 is given as follows From the CONI or CON2 of ISO P32C32 Figure 3 4 The interrupt input for ISO P32C32 B The interrupt input of circuit diagram 2 of ISO P32C32 is given as follows From the CONI or CON2 of ISO P32C32 Signal Generator FUN FRE AMP PLUS 200 hz 5 0V CH0 CH1 RED ch 0 16 BLACK ch 0 16 Figure 3 5 The interrupt input for ISO P32C32 ISO P32C32 P32S32W P64 C64 User
6. wApcCount return 0 d MyErr char s cout lt lt s lt lt endl cout lt lt Press lt Enter gt key to exit lt lt endl getchar return 1 int main void cout lt lt Demo program for Interrupt of ISO P32C32 lt lt endl BO ee ee lt lt endl cout lt lt Wire connection lt lt endl cout lt lt Setting JP1 JP2 to Internal Power lt lt endl cout lt lt Connect DOO with DIO gt CON2 Pin21 with CON2 Pin2 lt lt endl cout lt lt Connect DO16 with DI 16 gt CON1 Pin21 with CON1 Pin2 lt lt endl cout lt lt Connect DI GND with DO GND gt CON2 Pin1 with CON2 Pin19 lt lt endl cout lt lt Connect DI GND with DO GND gt CON1 Pin1 with CON1 Pin19 lt lt endl Glee eee endl lt lt endl cout lt lt Please input the Base Address of I O port i e 0x200 cin gt gt wBase cout lt lt endl lt lt Please input the IRQ number i e 5 cin gt gt NIRO char buffer 20 _itoa wBase buffer 16 cout endl The Base Address of I O port is Ox lt lt buffer lt lt endl cout The IRQ number is nIRQ endl cout lt lt endl lt lt Press Enter key to test the interrupt lt lt endl cout lt lt or press Ctrl c key to exit program lt lt endl getchar wApcCount 0 If DIO Driverlnit 0 return MyErr Driver Initialize Error else cout lt lt Driver Initialize OK lt lt endl iff
7. 310 ch e a 2 N 5 O o z D be C gt D N st CO st A A Se O 2 un m 2 2 4 VO Register Address The ISO P32C32 P32S32W card occupies 8 consecutive PC VO addresses The following table lists the registers and their locations D l digital input data format D O digital output data format ISO P32C32 P32S32W VO Register Address Address Read Write ISO P32C32 P32S32W Base O Dl Channel 0 7 D O Channel 0 7 CON 2 Base Dl Channel 8 15 0 0 Channel 8 15 CON 2 Base __ 0 Channel 16 23 D O Channel 16 23 CON 1 Base D I Channel 14 31 D O Channel 14 31 CON 1 Read Write Base 0 Bit 7 6 5 4 3 2 1 0 Channel 7 5 4 3 2 1 0 Read Write Base 1 Bit 7 6 Channel 15 14 13 12 11 00 9 8 Read Write Base 2 Bit 7 23 22 21 20 19 18 17 16 Read Write Base 3 Bit 7 6 Channel 31 30 29 28 27 26 25 24 2 3 ISO P64 Board Layout The board layout of ISO P64 is given as follows Internal ISO P64 Internal 1 1882 Tam Tam JP4 JP3 External External 071 JP2 ISA BUS ISA BUS Figure 2 5 Board layout of ISO P64 JP1 select internal external power for DI 0 DI 15 3000 V isolation JP2 select internal external power for DI 16 DI 31 3000 V isolation JP3 select internal external
8. DIO RegisterApc RegisterApcFunction 0 return MyErr Register APC Error else cout lt lt Register APC 061 lt lt endl if DIO_Installlrq wBase static_cast lt WORD gt nIRQ 0 return MyErr Interrupt Install Error else cout lt lt Interrupt Install OK lt lt endl DIO Resetl ntCount for int i 0 i lt 10 i K K K OK OK OK OK PK lt OK OK OK OK K K OK OK OK lt OK K OK OK OK OK OK lt K OK OK OK OK OK OK OK OK OK OK OK PE OK OK OK OK OK CE OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK The user could replace the internal trigger by external trigger OK lt OK OK OK OK OK K K OK OK OK OK OK OK K OK OK K E OK OK PR OK OK OK K PR OK OK OK K OK K PE K PR OK OK OK OK OK K PR OK OK cout lt lt Trigger interrupt lt lt endl Make the DO16 to high then low to generate the interrupt signal for IRQ3 4 5 6 7 Connect the DO16 with DI 16 Interrupt Source to enable Interrupt DIO OutputByte wBase 2 1 Sleep 100 DIO OutputByte wBase 2 0 Sleep 100 Make the Output Channel 0 to high then low to generate the interrupt signal for IRQ9 10 11 12 14 15 Connect the DOO with Di O Interrupt Source to enable Interrupt DIO OutputByte wBase 1 Sleep 100 DIO OutputByte wBase 0 Sleep 100 cout lt lt Waiting for an asynchronous procedure call APC is queued to t
9. ISO C64 card occupies 8 consecutive PC I O address The following table lists the registers and their locations ISO C64 I O Register Address Address D O Channel ISO C64 Base ___________ Channel 0 7 Write Only Basest Channel8 15 Write Only Bases2 Channel 16 23 Write Only Write Only Write Only Write Only Write Only Write Only ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2 5 Isolated D l Architecture The architecture of ISO P32C32 amp ISO P64 are the same The User can select internal power or external power to supply photo couple digital input power The ISO P32S32W only used external Power The block diagram of Di are given as follows Configure 1 Internal power supply Default Setting GND Internal o External GND Internal o D Input External ISO P32C32 P32S32W ISO P64 Figure 2 6 Isolated Architecture with internal power supply DC DC GND Internal External GND Internal R 10k ISO P32C32 P32S32W P64 Figure 2 7 Typical Applications of 0 1 with internal power supply ISO P32C32 P32S32W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 z Configure 2 External power supply GND Internal External GND Out External Power Internal o D Input External ISO P32C32 P32S32W P64 Figure 2 8 Isolated D I Architecture with external power supply Exte
10. If the internal resistance of external device is large enough the R can be omitted 4 The D1 D2 amp D31 are common cathode diodes for switching inductive lords They can be used as relay driver hammer driver lamp driver display driver line driver amp logic buffers 2 6 1 Sample D O Architecture External Power GND Device Exrternal Device Exrternal Device ISO PF32032 amp ISO CB4 Open Collector wiring Notice External High Drive Channel External Power Sink current 500mA O C External Out gt BSP75N ISO P32S32WU External Power External Low Drive External Power Channel 31 10V 30V OC Out gt 2N2222 ISO C64 P32C32 P32S32WU External Power Open Collector Output Type amp Notice High Drive channel Open collector N channel Power FET BPS75N Max Sink Current Is 500 mA for Each Cannel Low Drive channel Open collector NPN PNP Transistor Max Sink Current Is 100 mA for Each Channel Recommend It Is necessary to connect a diode In the External Device end as means of preventing damage form the counter emf If your External Device Is inductive Load Ex Relay 2 Daughter Boards 2 7 1 8 37 The DB 37 is a general purpose daughter board for D sub 37 pins It is designed for easy wire connection 2 2 DN 37 The DN 37 is a general purpose daughter board for DB 37 with DIN Rail Mounting It is designed for e
11. O0xff DI 07 to DI 00 of CON2 j2 inp wBase 1 Oxff DI 15 to DI 08 of CON2 j32inp wBase c2 0xff DI 23 to DI 16 of CONI j4 inp wBase 3 Oxff DI 31to DI 24 OF CONI printf nD 31 0 Input Value 9602x 96 02x 96 02x 96 02x j4 j3 j2 1 sleep 1 if kbhit 20 c getch Ke ss qee w eeezvj return delay 1 end of while end of for 4 3 DEMO3 D VO for ISO P32C32 P32S32W JK OE a Ne tj Demo 3 Digital I O test by itself for ISO P32C32 N Step 1 The circuit diagram of hardware refer to Sec 3 1 Step 2 run demo3 EXE under DOS SH Jus a define wBase 0 200 include lt dos h gt void main unsigned char i j1 j2 j3 j4 char C clrscr step 1 read from DI_O to DI 31 of CON2 and CONT while 1 printf n SO P32C32 test by itself i for i21 i 20x80 i i 1 outp wBase O0 i DO_07 to DO_ 00 of CON2 outp wBase 1 i DO_15 to DO_ 08 of CON2 outp wBase 2 i DO 23 to DO 16 of CONI outp wBase 3 i DO 31 to DO 24 of CONI sleep 1 ji inp wBase 0 O0xff DI 07 to DI 00 of CON2 j2 inp wBase 1 Oxff DI 15 to DI 08 of CON2 j3 inp wBase 2 Oxff DI 23 to DI 16 of CONI jA2inp wBase c3 0xff DI 31to DI 24 of CONI1 printf nD 31 0 Output Value Yo 02K Yo 02x 96 02x 96 02x i 1 1
12. P32Cint EXE used interrupt function for ISO P32C32 P32S32W card Step 5 Select VO Base address of ISO P32C32 P32S32W card Step 6 Input IRQ number Refer to JP3 setting of P32C32 board JP1 setting of P32S32W board ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2 2 2 IRQ Circuit diagram JP3 for ISO P32C32 JP1 for ISO P32832W From DI 0 of CON2 input From DI 16 of CONI input Figure 2 2 Select circuit diagram of IRQ for ISO P32C32 P32S32W board Interrupt happend to rising edge a L4 IE Ie External signal inupt to channel 0 or channel 16 Figure 2 3 Interrupt happened to rising edge 2 2 3 VO Base Address Setting The ISO P32C32 P32S32W occupies 8 consecutive in VO address space The base address is set by DIP switch SW1 BASE ADDRESS BAL 123456 Default Base Address 200 Hex For Example How to select 2 0 0 Hex OFF gt 1 ON 20 The detail SW1 base addresses setting Please refer to ISO P32C32 P32S32W Base Address Table ISO P32C32 P32S32W Base Address Table Default setting S1 Dip Switch Address Hex 200 ON ON oN 2 A7 OFF ON 208 210 ON 218 220 228 230 238 240 248 250 258 260 268 2 0 2 8 280 288 290 298 2A0 2A8 230 236 260 266 21000 2108 2E0 2E8 2F0 2F8 300 308 r3 cm m o on ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19
13. disk as following 4 1 DEMO1 D O for ISO P32C32 P32S32W Demo 1 Digital Output of ISO P32C32 Step 1 The circuit diagram of hardware refer to Sec 3 1 include lt dos h gt define wBase 0x200 void main char c unsigned char i clrscr initial value outp wBase 0 0x00 outp wBase 1 0x00 outp wBase 2 0x00 outp wBase 3 0x00 while 1 printf n n Digital output of ISO P32C32 for i 1 i lt 0x80 i i lt lt 1 outp wBase O i DO_07 to DO_ 00 of CON2 outp wBase 1 i DO 15 to DO 08 of CON2 outp wBase 2 i lt DO _23 to DO 16 of CONT outp wBase 3 i DO 31 to DO 24 of CONI sleep 1 printf nD 31 0 Output Value 02x 02x 02x 02x i i i if i2 0x80 11i20x01 break if Kbhit 20 c getch if c q c Q c 27 return delay 1 end of while end of for loop 4 2 DEMO2 D I for ISO P32C32 P32S32W VE AA OR AD LA EG T Demo 2 Digital input of ISO P32C32 py Step 1 The circuit diagram of hardware refer to Sec 3 1 i Step 1 run demo2 EXE under DOS 0 ah HOL MA te nM m define wBase 0x200 include lt dos h gt void main unsigned char j1 j2 j3 j4 char c clrscr step 1 digital input from DI 0 to DI 31 SCH while 1 for printf n n Digital input of ISO P32C32 ji inp wBase 0
14. i printf nD 31 0 Input Value 9602x 96 02x 96 02x 96 02xMn j4 j3 j2 j1 if i j1 printf nDO 7 DO 0 error in here n putch 0x07 putch 0x07 putch 0x07 if j2 printf nDO_15 DO_8 error in here n putch 0x07 putch 0x07 putch 0x07 NE if 13 printf nDO 24 DO 16 error in here n putch 0x07 putch 0x07 putch 0x07 TER if i 14 printf nDO_31 DO_25 error in here n r UIDI putch 0x07 putch 0x07 if i1 j1 amp i j2 amp i j3 amp i j4 The Digital test of PISO P32C32 by itself OK n 1 0 0 i 0x01 break if kbhit 0 c getch if c q c Q c 27 return delay 3 end of while 4 4 P32Cint exe Interrupt input for ISO P32C32 P32S32W JK AA a ey NE ASA ED de i P32Cint exe Win32 Console Mode program used Interrupt function P32Cint cpp used Visual C compiler Step 1 The circuit diagram of hardware refer to Sec 3 1 Step 2 Run P32Cint exe under Win95 98 SE include lt windows h gt include lt iostream h gt include lt stdio h gt include do bi WORD wBase 0x200 WORD nIRQ 5 WORD wApcCount 0 pot E EE Function Registered TO Vxd EP uisa cud dE EE DWORD WINAPI RegisterApcFunction PVOID param Do you action in this function
15. 15 SW1 I O Address selection DI O Channel DI DO Channel DI 0 15 DO 0 3 High drive for 500 mA CON1 Pi sink current NPN Isolation Bank 2 n37 DO_4 15 Low drive for 100 mA Ground CON1 Pin1 Power CON1 Pin18 amp Pin19 CON1 Pin1 amp Pin20 sink current NPN Isolation Bank 3 DI 16 DI 31 CON2 Pin1 DO 16 19 High drive for 500 mA CON2 Pi sink current NPN Isolation Bank 4 n37 DO 20 31 Low drive for 100 mA sink current NPN Attention To prevent the board damaged forever by overload the GND pins CON1 pin 1 18 19 20 CON2 pin 1 18 19 20 all must be connected with GND of External Power ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 CON2 Pin18 amp Pin19 CON2 Pin1 amp Pin20 2 2 1 Jumper Setting JP1 JP2 Jumper setting for ISO P32C32 Internal Power Default Setting External Power B JP1 CONT Internal power External selection B JP2 CON2 Internal power External selection IRQ selection JP3 for ISO P32C32 JP1 for ISO P32S32W N C 15 1412 1110 9 7 6 5 4 3 NC Default IRQ N C Not use IRQ B Select IRQ one of the 3 4 5 6 7 for D I channel 16 of CON1 B Select IRQ one of the 9 10 11 12 14 15 for D I channel 0 of CON2 B Usage Step 1 Select IRQ 3 4 5 6 7 for channel 16 Step 2 Select IRQ 9 10 11 12 14 15 for channel 0 Step 3 Input interrupt signals by way of channel 0 16 of CON2 CONf1 Step 4 Run
16. 2x 9o 02x 96 02x Yo 02xMn r8 r7 r6 r5 sleep 1 if kbhit 20 c getch fre ll fee Ll eme return delay 1 end of while pu end of for loop 4 6 DEMO1 D O for ISO C64 Ju ei MR AE OE AA gD die dd EE Demo 1 Digital Output of ISO C64 wj Step 1 The circuit diagram of hardware refer to Sec 3 3 GEN Step 2 run demol E J i EE GR n EES EE P Kae SEE OAR ER OE IS NES ELE UR define wBase 0x200 include lt dos h gt void main char c unsigned char i clrscr Digital output from DO to DO 63 while 1 SE SNE Digital output of ISO C64 p for i21 i 20x80 izi 1 outp wBase 0 i DO 07 to DO 00 outp wBase 1 i DO 15 to DO 08 outp wBase 2 i i DO 23 to DO 16 outp wBase 3 i DO 31 to DO 24 outp wBase 4 i DO 39 to DO 32 outp wBase 5 i DO 47 to DO 40 outp wBase 6 i DO 55 to DO 48 outp wBase 7 i DO 63 to DO 56 printf nThe CON1 of ISO C64 printf nD31 0 Output Value 02x Yo 02x 96 02x 96 02xxMn i i i i printf nThe CON2 of ISO C64 EO 32 Output Value 62 9o 02x 96 02x 02x n 1 1 1 1 sleep 1 if i2 0x80 i 0x01 break if kbhit 0 getch if c q c Q c 27 return delay 1 end of while end of for loop
17. AN ALN OAS Dl 9 Nn et L ch e SS N 6 O o z D be C D N z st O st af af Se O Se un m ch e E N 5 O o D be C gt D N st O st 0 A Se O T un m 2 3 3 VO Register Address The ISO P64 card occupies 8 consecutive PC I O address The following table lists the registers and their locations ISO P64 I O Register Address Address D I Channel ISO P64 Base ___________ Channel 0 7 Read Only 8561 Channel 8 15 Read Only Bases2 0 0 Channel 16 23 Read Only Read Only Read Only Read Only Read Only Read Only ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2E 2 4 ISO C64 Board Layout The board layout of ISO C64 is given as follows LED4 An CR 13 ES ISA BUS Figure 2 6 Board layout of ISO C64 ISO C64 LED2 LED1 ISA BUS LED 1 power indicator for DO 0 DO 15 LED 2 power indicator for DO 31 DO 16 LED 3 power indicator for DO 47 DO 32 LED 4 power indicator for DO 63 DO 48 Isolation bank 1 DO 0 DO 15 Isolation bank 2 DO 16 DO 31 Isolation bank 3 DO 32 DO 47 Isol
18. Addres see agak OE AA OE ean dae N 26 2 5 ISOLATED D LAREHITEETURE eirian oe side siese eie Se beseer vee eek Ese Ged bee Mes ebd bed 27 2 5 1 Sample D I Architecture for Internal Power 29 2 5 2 Sample D I Architecture for External Power 30 2 6 ISOLATED D OLARCEHITECEURE us uu icti Ee 3l 204 Sapi DO A KEDU UY ec iiie e dut diese edite 33 2 7 DAUGETER DOL ROSE ee 35 RE MA EE EE EA EE EER OIE EE ER 35 Ge KEE 35 35 2 8 EAR EC 36 2 9 PIN ASSIGNMENEOE IS OP SM a a ana a S Ba a ga na Ee m ad a aan e a Dan A aana 2 2 10 PIN ASSIGNMENT OETISOSPOd2 e rp t Eee EE AE 38 2 11 PIN ASSIGNMENT OF SO2C064 ee L a U E NG out oi aG u u ee 39 3 THE APPLICATIONS OF DIGITAL I O 40 3 1 THEEXAMPLE OFISO PS C De ug res see eae T nada tute eta Aeon a band SE de 40 3 2 THE ESAMPI E OF ISOSPO4 C aa nan aaa ag uu E M RM 43 3 3 THEE XAMPLE OFISO CHA um u umu De ee u aa uu Ducere 46 4 DEMO PROGRAM WEE 49 4 1 DEMO D OTORTSO SP52C32 P02S32W uc ase k aa a NG u uu us ees ie 49 4 2 DEMO2 DIEFOR ISOSP32C 52 P32832W E 50 4 3 DEMO3 D I O FOR ISO P32C32 P32832W se es ees ee ss ee se ee ee ss ee se ee ee se ee ee ee ee ee de ee 51 4 4 P32CINT EXE INTERRUPT INPUT FOR ISO P32C32 P32S32W 53 4 5 JOENIOT DEGREE 55 4 6 NI ROSE 50
19. KEE 1 Introduction The ISO P32C32 P32S32W consists of 32 channel isolated D l and 32 channels isolated D O The ISO P64 consists of 64 channel isolated D l The ISO C64 consists of 64 channel isolated D O The D l specifications of ISO P32C32 P32S32W amp ISO P64 are the same The D O specifications of ISO P32C32 P32S32W amp ISO C64 are the same 1 1 Specifications 1 1 1 ISO P32C32 Model Name ISO P32C32 3750 Vrms Using external power 3000 Vrms Using internal power Channels Compatibility Logic 0 DCO 1V Logic 1 DC 9 24 V Input Impedance Response Speed Isolation Voltage Isolation Voltage Input Voltage Channels 32 Compatibility Sink Open Collector External Voltage 5 30 Vpc max 100 mA for one channel 100 duty 100 mA for all channels 100 duty Response Speed 4 kHz Typical 8 0 8 Output Capability Storage Temperature 20 70 C Humidity 5 85 RH non condensing ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 nm 1 1 2 ISO P32S32W Model Name ISO P32S32W Isolation Voltage 3750 Vrms Using external power Channels Compatibility Photo isolated current Logic 0 DCO 1V Input Voltage Logic 1 DC 5 24 V Input Impedance Response Speed 500 mA for one high driving channel 100 duty 500 mA for all high driving channels 100 duty The GND pins all must be connected with GND of External Power Output Capability 100 mA for one low driving c
20. Manual Ver 1 9 Oct 2011 IMH 000 19 3 2 The example of ISO P64 B The circuit diagram of D I for ISO P64 is given as follows External Cable External Device 1 X VI External Device 2 Figure 3 6 The example of digital inputs for ISO P64 e The circuit diagram of external device 1 Refer to Figure 14 9 The circuit diagram of external device 2 Refer to Figure 15 SWITCH ONE gin ON Ji o OFF The circuit diagram of external device 1 is given as follows From the CON1 of ISO P64 s TU Figure 3 7 The circuit diagram of external device 2 for the digital inputs of ISO P64 The of CON1 of ISO P64 select internal power B The circuit diagram of external device 2 is given as follows From the CON of ISO P64 Figure 3 8 The circuit diagram of external device 2 for the digital inputs of ISO P64 The of CON2 of ISO P64 select internal power 3 3 The example of ISO C64 B The circuit diagram of D O for ISO P32C32 is given as follows 5 ISO C64 CON2 z ss III DN 37 UO CONNECTOR DN 37 VO CONNECTOR UU LITITITITITITITITITI Ext I Device 1 xternal Device External Device 2 Figure 3 9 The example of digital outputs for ISO C64 B The circuit diagram of external device 1 Refer to Figure 17 B The circuit diagram of external device 2 Refer to Figure 18 B The circuit diagram of external de
21. asy wire connection Waaa decades 2 7 3 DB 8125 The DB 8125 is a general purpose screw terminal board It is designed for easy wire connection There are one DB 37 two 20 pin flat cable headers in the DB 8125 DB 8125 for DB 37 or 20 pin flat cable header 2 8 Pin Assignment of ISO P32C32 CON2 Pin assignment External Power GND External DO 0 15 1 Power GND Internal ISO P32C32 Internal 20 DO 0 15 dE JP2 ER DI 0 2 upa lae 21 00 External External 011 22 DO 1 DI 2 23 DO 2 DI3 24 DO 3 DI 4 Deen oi 25 DO 4 26 DO 5 DI 6 SABUS DI 7 28 DO 7 018 10 29 DO 8 DI 9 11 30 DO 9 DI 10 12 31 DO 10 32 DO 11 Pin assignmen ee 33 DO 12 CON1 D O External CON1 D O External 0113 15 PowerGND 1 Power GND 34 DO 13 DI 14 16 0116 3 DO 16 35 DO 14 DI 17 5 DO 17 External a me 36 DO 15 Power DI 0 15 18 DO 18 0118 7 37 DO 0 15 0119 9 10 DO 19 External 1 0 15 19 External Power GND P 0120 11 12 DO 20 ower 0121 13 14 8021 DI22 15 16 DO 22 OM 00 23 CON1 Pin assignment DI24 19 20 0024 External DI25 21 22 DO25 Power GND External 0126 23 24 DO26 DO 16 31 1 Power GND 20 DO 16 31 DI27 25 26 00 27 16 2 21 DO 16 DI28 27 28 DO 28 DI 17 22 DO 17 DI29 29 30 00 29 0118 23 DO 18 DI30 31 32 DO 30 DI 19 24 DO 19 DI31 33 34 DO31 DI 20 CON1 D IPower 35 36 _ 6011 D O Ext
22. ation bank 4 DO 48 DO 63 Power CON 1 18 Ground CON1 1 Power CON 1 37 Ground CON1 20 Power CON2 18 Ground CON2 1 Power CON2 37 Ground CON2 20 All these four banks are fully isolated from each other ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2 4 1 VO Base Address Setting BASE ADDRESS Default base Address 200 Hex For Example How to select 2 0 0 Hex OFF gt 1 ON 20 The detail SW base addresses setting Please refer to ISO C64 Base Address Table ISO C64 Base Address Table ON LL zZ LL LL lt s lt lt s Z OFF ON ON ON O O 6 I DN y eo OO co O oo O oo oo O D oo O GD O Qj 6 92 Oj G OO co S co O c O S QE ENG O x OO qQ mr O 9o lt m m O O Q Q ul uj L SEEN S O QS N N AAAAAAAAAAAAAAAAAAAAASSAAAAAAIS co 09 09 OD ol Q OQ lt N lt lt ch e E N 6 O o e a be C D N 5 st CO st A cO A Se O oT un kl ch e a 2 N 5 O o z D be C gt D N st CO st A A Se O 2 un m 2 4 2 VO Register Address The
23. d layout of ISO P32C32 is given as follows Internal ISO P32C32 Internal p1 ER JP2 vale ME External External 5 6 LI LI L1 L1 LJ LJ LJ DJ DJ LJ L3 ISA BUS ISA BUS Figure 2 1 Board layout of ISO P32C32 CON 1 40 PIN connector for D I O channel 16 31 001 2 37 PIN D sub connector for D I O channel 0 15 JP1 CON1 select internal external power JP2 CON2 select internal external power JP3 Interrupt levels selection ISO P32C32 provides IRQ9 10 11 12 14 and 15 SW1 VO Address selection DI O Channel DO Channel Power Ground Isolation Bank 1 DI 0 15 CON1 Pin18 CON1 Pin19 Isolation Bank 3 DO 0 15 CON1 Pin37 20141 1 amp 20 CON2 Pin18 CON2 Pin19 Isolation Bank 3 DI 16 31 Isolation Bank4 DO 16 31 CON2 Pin37 CON2 Pin1 amp 20 ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 4 channel for 500mA sink current 12 channel for 100 sink current ISO P32S32W The board layout of ISO P32S32W is given as follow ISO P32S32W Board Layout 4 channel for 500mA sink current 12 channel for 100mA sink current OOOOOOOOOOg JPI ODODOOODODOODODOO IRO ISA BUS ISA BUS Figure 2 4 Board layout of ISO P32S32W B CON1 40 PIN connector for D I O channel 16 31 B CON2 37 PIN D sub connector for D I O channel 0 15 B JP1 Interrupt levels selection ISO P32S32W provides IRQ9 10 11 12 14 and
24. ernal 25 DO 20 Power DI 21 CON1 0 1 Power 37 38 N C T 26 DO 21 N C 39 40 N C 27 DO 22 DI 23 o ON Q A 62 o A N oc N Oi RA Q 28 DO 23 29 DO 24 30 DO 25 31 DO 26 32 DO 27 33 DO 28 34 DO 29 35 DO 30 36 DO 31 024 10 DI 25 11 DI 26 12 DI27 13 EE TERM DI28 14 C s C 0129 15 Extension Cable 0130 16 0131 17 External Power DI 16 31 18 External DI 16 31 19 Power GND 37 DO 16 31 External Power SOD S ER assignment of CON1 via extension cable ISO P32C32 P32S32W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 2 9 Pin Assignment of ISO P32S32W CON2 Pin assignment ISO P32S32W External Power GND 1 External 20 Power GND DI 0 21 DO 0 for High drive DI 1 22 DO 1 for High drive DI 2 23 DO 2 for High drive DI 3 24 DO3 for High drive DI 4 25 DO 4 JP1 H 1 015 26 005 DI 6 ISA BUS 27 06 DI 7 28 DO 7 DI 8 29 DO 8 DI9 30 DO 9 DI 10 31 DO 10 1111 32 00 11 CON1 Pin assignment 0112 33 DO 12 CONI D O External CONI D O External DI 13 PowerGND 1 Power GND 34 DO 13 DI 14 DI 16 3 DO 16 for High drive 35 DO 14 DI 17 5 DO 17 for High drive DI 15 17 36 DO 15 0118 7 DO 18 for High drive GND for High Drive 18 37 mim 9 10 DO 19 for High drive GND for High Drive 19 ini Power 0120 11 12 DO2
25. hannel 100 duty 100 mA for all low driving channels 100 duty The GND pins all must be connected with GND of External Power Response Speed 4 kHz Typical Bus Type ISA Data Bus 8 bit Dimensions L x W x D Power Consumption Operating Temperature Storage Temperature Humidity 5 85 RH non condensing ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 1 1 3 ISO P64 Model Name ISO P64 Isolation Voltage 3750 Vrms Using external power 3000 Vrms Using internal power Channels Compatibility Photo Coupler Isolated Input Voltage Logic 0 DCO 1V Logic 1 DC 9 24V Response Speed 4 kHz Typical Bus Type S Data Bus 8 bit VO Connector Female DB37 x 1 40 pin Box header x 1 Dimensions L x W x D 175 mm x 115 mm x 22 mm Power Consumption 400 mA 5 V Operating Temperature 0 60 C Storage Temperature 20 70 C Humidity 5 85 RH non condensing 1 1 4 ISO C64 Model Name ISO C64 Isolation Voltage Channels Compatibility External Voltage Output Capability 100 mA for one low driving channel 100 duty 100 mA for all low driving channels 60 duty Response Speed 4 kHz Typical 8 0 Bus Type Data Bus 0 Connector Dimensions L x W x D Power Consumption Operating Temperature Storage Temperature Humidity ISO P32C32 P32S32W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 mm I O channels 6587 32 24 8 Curent Sink NPN ISO P32C32 22 32
26. he thread lt lt endl S eepEx INFINITE TRUE cout lt lt Got the APC lt lt endl lt lt endl Do some thing in here 7 WORD dwlntCount How many times the interrupt occur if DIO GetlntCount amp dwlntCount 0 return MyErr Get Interrupt Counter Error else cout lt lt Interrupt Counter lt lt dwlntCount lt lt endl DIO DriverClose cout lt lt Driver Close lt lt endl return 1 MyErr 4 5 DEMO1 0 1 for ISO P64 EE 2 Demo 1 Digital Input of ISO P64 B Step 1 The circuit diagram of hardware refer to Sec 3 2 jj Step 2 run demol EXE ui T SO I 5 define wBase 0x200 include lt dos h gt void main char c unsigned char i r1 r2 r3 r4 r5 r6 r7 r8 clrscr Digital input from DI 0 to DI 63 while 1 om orintf n Digital input of ISO P64 rl inp wBase 0 r2 inp wBase 1 r3 inp wBase 2 r4 inp wBase 3 Digital Dn of ISO P64 DI 07 to DI 0 DI 15 to DI 08 D 23 to DI 16 EE EE r5 inp wBase 4 r6 inp wBase 5 r7 inp wBase 6 r8 inp wBase 7 DI 39 to DI_32 DI 47 to DI 40 DI 55 to DI 48 DI 63 to DI 56 printf nThe CON1 of ISO P64 printf nD31 0 Input Value 02x 02x 96 02x 96 02xAn r4 r3 r2 r1 printf nThe CON2 of ISO P64 printf nD63 32 Input Value 96 0
27. power for DI 47 DI 32 3000 V isolation JP4 select internal external power for DI 63 DI 48 3000 V isolation Isolation bank 1 DI 0 DI 15 Power CON1 18 Ground CON1 1 Isolation bank 2 DI 16 DI 31 Power CON1 37 Ground CON1 20 Isolation bank 3 DI 32 DI 47 Power CON2 18 Ground CON2 1 Isolation bank 4 DI 48 DI 63 Power CON2 37 Ground CON2 20 All these four banks are fully isolated from each other The DC DC1 is used to provide the internal power supply for bank amp bank2 The DC DC2 is used to provide the internal power supply for bank3 amp bank4 ISO P32C32 P32832W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 o 2 3 1 Jumper setting JP1 JP2 JP3 JP4 jumper setting Internal Power External Power Default Setting 2 3 2 VO Base Address Setting BASE ADDRESS Default Base Address 200 Hex For Example How to select 2 0 0 Hex OFF gt 1 ON gt 0 The detail SW1 base addresses setting Please refer to ISO P64 Base Address Table ISO P32C32 P32S32W P64 C64 User Manual Ver 1 9 Oct 2011 IMH 000 19 ISO P64 Base Address Table ON 2000 ON ON 08 210 218 220 228 230 238 240 248 250 58 60 268 270 278 280 288 290 98 A0 A8 2B0 258 CO C8 DO D8 2E0 2E8 2F0 2F8 300 08 310 318 OFF LL Z LL LL lt s lt s Z s Z ON OFF OFF OFF ON ON OFF lt s 2 o 35 900 S g Q es NIN N
28. rnal Power Supply GND Internal Internal ISO P32C32 P32S32W P64 Figure 2 9 Typical Applications of 0 1 with external power supply 2 5 1 Sample D I Architecture for Internal Power DC DC PC s GND Internal e o External GND Power In Out ry P Internal p Vcc R 4 7k R 3K DIO Switch 0 Vcc R 4 7k R 3K DI 1 Switch 2 R 3K DI 2 Switch D 31 ISO P32C32 amp ISO P64 2 5 2 Sample D l Architecture for External Power DC DC PC s C GND Internal o GND power n ow Lekt EE Internal Switch 2 Vcc External Power Supply R 4 7k R 3K DI 0 Switch 0 R 3K DI 2 Switch D 31 ISO P32C32 amp ISO P64 2 6 Isolated D O Architecture The D O architecture of ISO P32C32 P32S32W amp ISO C64 are the same The block diagrams of D O are given as follows o External Power o D out External o GND External Power ISO P32C32 P32832W amp ISO C64 Figure 2 10 Isolated D O Architecture External Power Device ISO P32C32 P32832W amp ISO C64 Figure 2 11 Typical Applications of D O NOTE 1 The ISO P32C32 C64 11 12 amp 152 must be lt 100 mA The ISO P32S32W 1 14 amp 117 120 must be lt 500 mA The other must be lt 100 mA 2 The R1 R2 amp R32 are current limit resistors They must be designed to let 11 12 amp 132 lt 100 mA for ISO P32C32 C64 11 4 amp 117 20 lt 500 mA for ISO P32S32W 3
29. vice 1 is given as follows From the CON1 of ISO C64 VaN Power Supply ICP DAS Super 2 5 00 V POWER DN 37 VO CONNECTOR BLOCK 37 XX E Tus DO p R11 LED 11 Figure 3 10 The circuit diagram of external device 1 for the digital outputs of ISO C64 The resistor of R1 R32 are 330 Ohm The LED 1 LED 32 are light emitting diode The pin 1 20 are the GND signal of DO 0 DO 15 DO 16 DO 31 The pin 18 37 are the voltage signal of DO 0 DO 15 DO 16 DO 31 Input 5 Vpc 24 Voc B The circuit diagram of external device 2 is given as follows From the CON of ISO C64 Power Supply ICP DAS je O Super 2 20 DN 37 I O CONNECTOR BLOCK Vlotage Output COM au Figure 3 11 The circuit diagram of external device 2 for the digital outputs of ISO C64 The resistor of R33 R64 are 330 Ohm The LED 33 LED 64 are light emitting diode The pin 1 20 are the GND signal of DO 32 DO 47 DO 48 DO 63 The pin 18 37 are the voltage signal of DO 32 DO 47 DO 32 DO 63 Input 5 Vpc 24 Voc mE 4 Demo Program There are many demo programs given in the company floppy disk or CD ROM After the software installation the driver will be installed into
30. xternal LED4 03 LED2 LED1 DO 0 15 1 Power GND An A ISO C64 HE 20 DO 16 31 DO 0 2 21 DO 16 DO 1 3 22 DO 17 DO2 4 23 DO 18 DO3 5 24 DO 19 DO 4 6 25 DO 20 DO 5 7 ISA BUS ISA BUS Bae 26 DO 21 27 DO 22 DO 7 9 28 DO 23 DO8 10 29 DO 24 DO 9 11 30 DO 25 CON2 Pin assignment 9010 12 31 DO 26 CON2 D O External CON2 D O External DOO iS 32 DO 27 Power GND 1 2 Power GND DO12 14 33 DO 28 DO32 3 4 DO48 DO13 15 34 DO 29 DO33 5 6 D049 DO14 16 35 DO34 7 8 DO50 E 0015 17 Doe xterna 36 DO 31 19s cen Power DO 0 15 18 DO36 11 12 DO 52 i 37 ded SES xterna DO37 13 14 00 53 Power DO38 15 16 DO 54 DO 39 17 18 DO 55 DO 40 19 20 00 56 CON2 Pin asslgnment External DO 41 21 22 00 57 Power GND External DO42 23 24 DO 58 DO 32 47 1 Power GND 20 48 63 DO43 25 26 DO 59 DO 32 2 DO 46 63 DO44 27 28 DO60 DO 33 3 oe DO45 29 30 DO 61 BOUT d 22 _ 0049 DO 46 31 32 DO 62 23 DO 50 DO35 5 DO 47 33 34 0063 24 DO 51 DO 36 6 CON D I Power 35 36 CON2 D O External 25 DO 52 Power DO37 7 0142 D I Power 37 38 N C 26 DO 53 DO 38 N C 39 40 N C 27 DO 54 DO39 9 28 DO 55 DO 40 10 29 DO 56 0041 11 30 DO 57 0042 12 31 DO 58 0 43 13 32 DO 59 DO44 14 33 DO 60 DO45 15 Extension Cable b 34 DO 61 S 0046 16 35 DO 62 0047 17 E C E External 36 DOGS Power DO 32 47
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