ACQUTEK CORPORATION PA-CP12 Card Type Data acquisition Chipset Unidentified I/O Options Analog input, digital input, digital I/O (2) Data Bus 8/16 bit ISA [Image] CONNECTIONS Function Label Function Label Digital XDI output module CON1 D/A converter range VR30 connector selector Digital XDI input module CON2 D/A converter offset VR31 connector selector Analog/digital I/O (see J1 A/D converter range VR32 pinout below) selector External clock input (see J4 A/D converter offset VR33 pinout below) selector J1 PINOUT Function Pin Function Pin D/A signal ground 1 A/D channel 9 positive 28 Not used 2 A/D channel 8 positive 29 Ground 3-19 A/D channel 7 positive 30 D/A signal out 20 A/D channel 6 positive 31 Not used 21 A/D channel 5 positive 32 A/D channel 15 positive 22 A/D channel 4 positive 33 A/D channel 14 positive 23 A/D channel 3 positive 34 A/D channel 13 positive 24 A/D channel 2 positive 35 A/D channel 12 positive 25 A/D channel 1 positive 36 A/D channel 11 positive 26 A/D channel 0 positive 37 A/D channel 10 positive 27 J4 PINOUT Function Pin Function Pin +5V DC out 1 Ground 3 Clock signal in 2 USER CONFIGURABLE SETTINGS Setting Label Position » Factory configured - do not alter JP1/C Open » Factory configured - do not alter JP2/C Open INPUT VOLTAGE SELECTION Setting JP1/A JP1/B JP1/D JP1/E 0V to 5V Open Closed Open Open 0V to 10V Closed Open Open Open -5V to 5V Open Closed Closed Closed -10V to 10V Closed Open Closed Closed OUTPUT VOLTAGE SELECTION Setting JP2/A JP2/B JP2/D 0V to 5V Open Closed Open 0V to 10V Closed Open Open -5V to 5V Open Closed Closed -10V to 10V Closed Open Closed INTERRUPT SELECTION Setting JP3/A JP3/B JP3/C JP3/D JP3/E IR/FONT> Open Open Open Open Pins 1 & 2 IRQ3 Open Open Open Pins 1 & Open 2 IRQ4 Open Open Pins 1 & Open Open 2 IRQ5 Open Pins 1 & Open Open Open 2 IRQ7 Pins 1 & Open Open Open Open 2 IRQ10 Open Open Open Open Pins 2 & 3 IRQ11 Open Open Open Pins 2 & Open 3 IRQ12 Open Open Pins 2 & Open Open 3 IRQ14 Open Pins 2 & Open Open Open 3 IRQ15 Pins 2 & Open Open Open Open 3 » Disabled Open Open Open Open Open Note:Pins designated are in the closed position. BASE I/O ADDRESS SELECTION Setting JP4/A JP4/B JP4/C JP4/D JP4/E JP4/F JP4/G JP4/H 000h Closed Closed Closed Closed Closed Closed Closed Closed 010h Closed Closed Closed Closed Closed Closed Closed Open 020h Closed Closed Closed Closed Closed Closed Open Closed 030h Closed Closed Closed Closed Closed Closed Open Open 040h Closed Closed Closed Closed Closed Open Closed Closed » 2E0h Closed Closed Open Closed Open Open Open Closed FB0h Open Open Open Open Open Closed Open Open FC0h Open Open Open Open Open Open Closed Closed FD0h Open Open Open Open Open Open Closed Open FE0h Open Open Open Open Open Open Open Closed FF0h Open Open Open Open Open Open Open Open Note: A total of 256 base address settings are available. The jumpers are a binary representation of the decimal memory addresses. JP4/A is the Most Significant Bit and jumper JP4/H is the Least Significant Bit. The jumpers have the following decimal values: JP4/A=2048, JP4/B=1024, JP4/C=512, JP4/D=256, JP4/E=128, JP4/F=64, JP4/G=32, JP4/H=16. Open the jumpers and add the values of the jumpers that are open to obtain the correct memory address. (Open=1, Closed=0)