AMERICAN DATA AQUISITION CORPORATION 5500MF Card Type Data Aquisition Chip Set Unidentified Maximum Onboard Memory Unidentified I/O Options Analog input, digital input Hard Drives supported None Floppy drives supported None Data Bus 8-bit ISA Card Size Half length [Image] CONNECTIONS Function Label Function Label 37-pin analog/digital J1 Bipolar offset P2 signals connector selector A/D converter gain P1 Unipolar offset P3 selector selector USER CONFIGURABLE SETTINGS Function Label Position » 1.02 MHz PIT clock 1 input JP8 Pins 1 & 2 closed External PIT clock 1 input JP8 Pins 2 & 3 closed » Factory configured - do not JP11 Open alter » A/D channel not sequenced JP12 Open A/D channel auto sequenced JP12 Closed DIGITAL INPUT/OUTPUT SELECTION Setting Label Position » Digital I/O inputs (0-3) JP4 Open Digital I/O outputs (0-3) JP4 Closed » Digital I/O inputs (4-7) JP5 Open Digital I/O outputs (4-7) JP5 Closed » Digital I/O outputs (8-11) JP6 Closed Digital I/O inputs (8-11) JP6 Open » Digital I/O outputs (12-15) JP7 Closed Digital I/O inputs (12-15) JP7 Open A/D TRIGGER SOURCE SELECTION Source JP1 Software trigger only Open External trigger Pins 1 & 2 closed PIT counter 0 trigger Pins 2 & 3 closed A/D RANGE SELECTION Polarity Voltage JP2 JP3 JP9 JP10 » Bipolar + 10V Pins 1 Pins 1 Pins 1 Pins 1 & 2 & 2 & 2 & 2 Bipolar + 5V Pins 1 Pins 1 Pins 2 Pins 1 & 2 & 2 & 3 & 2 Unipolar 0-10V Pins 2 Pins 2 Pins 2 Pins 2 & 3 & 3 & 3 & 3 Note: Pins designated are in the closed position BASE I/O ADDRESS SELECTION Setting W9 W8 W7 W6 W5 W4 000h Closed Closed Closed Closed Closed Closed 010h Closed Closed Closed Closed Closed Open 020h Closed Closed Closed Closed Open Closed 030h Closed Closed Closed Closed Open Open 040h Closed Closed Closed Open Closed Closed » 200h Open Closed Closed Closed Closed Closed 3B0h Open Open Open Closed Open Open 3C0h Open Open Open Open Closed Closed 3D0h Open Open Open Open Closed Open 3E0h Open Open Open Open Open Closed 3F0h 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. W9 is the Most Significant Bit and switch W4 is the Least Significant Bit. The switches have the following decimal values: W9=512, W8=256, W7=128, W6=64, W5=32, W4=16. Turn off the switches and add the values of the switches to obtain the correct memory address. (Close=0, Open=1)