Digital i/o circuitry, Figure 4-5. digital i/o circuitry block diagram, Figure 4-5 – National Instruments Low-Cost Multifunction I/O Board for ISA Lab-PC+ User Manual

Theory of Operation

Chapter 4

Lab-PC+ User Manual

4-10

© National Instruments Corporation

Each DAC channel can be jumper-programmed for either a unipolar voltage output or a bipolar
voltage output range. A unipolar output gives an output voltage range of 0.0000 V to +9.9976 V.
A bipolar output gives an output voltage range of -5.0000 V to +4.9976 V. For unipolar output,

0.0000 V output corresponds to a digital code word of 0. For bipolar output, -5.0000 V output
corresponds to a digital code word of F800 (hex). One LSB is the voltage increment
corresponding to a LSB change in the digital code word. For both unipolar and bipolar output,
one LSB corresponds to:

10 V

4,096

Digital I/O Circuitry

The digital I/O circuitry is designed around an 8255A integrated circuit. Figure 4-5 shows a
block diagram of the digital I/O circuitry. The 8255A is a general-purpose PPI containing
24 programmable I/O pins. These pins represent the three 8-bit I/O ports (A, B, and C) of the
8255A as well as PA<0..7>, PB<0..7>, and PC<0..7> on the Lab-PC+ I/O connector. The
8255A also has a control register to configure each of the three I/O ports on the chip. These
ports can be programmed as two groups of 12 signals or as three individual 8-bit ports. In
addition, the board can be programmed in one of the three modes of operation–basic I/O, strobed
I/O, or bidirectional bus. The programming of the digital I/O circuitry is covered in Appendix E,
Register-Level Programming.

8255A

Programmable

Peripheral

Interface

To
Interrupt
Control

DIO RD/WR

DATA<0..7>

PC0

PC3

PC<0..7>

PB<0..7>

PA<0..7>

I/O Connector

PC I/O Channel

2

8

8

8

Figure 4-5. Digital I/O Circuitry Block Diagram