HwMuseum | Index

INDUSTRIAL COMPUTER SOURCE

AIO8G-P

Card Type

Analog to digital timing converter, Digital I/O card

I/O Options

parallel port

Data Bus

8-bit ISA

Card Size

Full-length

CONNECTIONS

Function

Label

DB-37 connector

CN1

USER CONFIGURABLE SETTINGS

Function

Label

Position

Channel 0 single-ended

S1/0

Off

Channel 0 differential

S1/0

On

Channel 1 single-ended

S1/1

Off

Channel 1 differential

S1/1

On

Channel 2 single-ended

S1/2

Off

Channel 2 differential

S1/2

On

Channel 3 single-ended

S1/3

Off

Channel 3 single-ended

S1/3

On

Channel 4 differential

S1/4

Off

Channel 4 single-ended

S1/4

On

Channel 5 differential

S1/5

Off

Channel 5 single-ended

S1/5

On

Channel 6 differential

S1/6

Off

Channel 6 single-ended

S1/6

On

Channel 7 differential

S1/7

Off

Channel 7 differential

S1/7

On

IRQ SELECTION

Interrupt

JP1/A

JP1/B

JP1/C

JP1/D

JP1/E

JP1/F

IRQ2

Closed

Open

Open

Open

Open

Open

IRQ3

Open

Closed

Open

Open

Open

Open

IRQ4

Open

Open

Closed

Open

Open

Open

IRQ5

Open

Open

Open

Closed

Open

Open

IRQ6

Open

Open

Open

Open

Closed

Open

IRQ7

Open

Open

Open

Open

Open

Closed

BASE I/O ADDRESS SELECTION

Setting

S2/1

S2/2

S2/3

S2/4

S2/5

S2/6

S2/7

 

000h

On

On

On

On

On

On

On

 

018h

Off

Off

On

On

On

On

On

 

038h

Off

Off

Off

On

On

On

Off

 

100h

On

On

On

On

On

Off

On

 

200h

On

On

On

On

On

On

Off

»

300h

On

On

On

On

On

Off

Off

 

380h

On

On

On

On

Off

Off

Off

 

3C0h

On

On

On

Off

Off

Off

Off

 

3E0h

On

On

Off

Off

Off

Off

Off

 

3F0h

On

Off

Off

Off

Off

Off

Off

 

3F8h

Off

Off

Off

Off

Off

Off

Off

Note:

A total of 128 base address settings are available. The switches are a binary representation of the decimal memory addresses. S2/7 is the Most Significant Bit and switch S2/1 is the Least Significant Bit. The switches have the following decimal values: S2/7=512, S2/6=256, S2/5=128, S2/4=64, S2/3=32, S2/2=16, S2/1=8. Turn off the switches and add the values of the switches to obtain the correct memory address. (Off=1, On=0)