Theory of operation, 1 bus interface logic, 2 address decoding circuitry – Fluke Biomedical 960CD-220 User Manual

Theory of Operation

Bus Interface Logic

2

2-1

Section 2

Theory of Operation

2.1 Bus Interface Logic

Refer to Drawing 960CD-220-13, sheet 1 in Appendix B. Bus Interface signals are buffered and
distributed internally on the module and externally on the data bus. The internal address buffers, Z16 and
27 are permanently enabled. The external address bus is buffered by two bi-directional IC’s Z15 and Z28.

Z14 provides internal data bus buffering of D0 to D7. It also inverts the internal data signal. IR/W (internal
read/write) controls the direction of data flow. The external data bus is buffered by Z26, an inverting
buffer.

2.2 Address Decoding Circuitry

Refer to Drawing 960CD-220-13, Sheet 2 in Appendix B. Z29 is a programmable array logic (PAL) with
four sets of inputs; address bits A8 through A15, IR/W, VMA, and SHORT 02. Z29 is programmed as
shown in Table 4-1.

Memory consists of Z38, a 32K x 8-bit EPROM, and three 8K x 8 bit static RAMs (Z39, Z40, and Z41).

Table 2-1.

Address Decoding Circuitry Programs

Title Program

Hex

Address

Function

DISPID /A8*A9*/A10*/A11*/A12*/A13*/A14*/A15*VMA 200-2FF

Display or channel ID
addressed

ACIA1 A8*A9*/A10*/A11*/A12*/A13*/A14*/A15*VMA

300-3FF

Communications
channel 1 addressed

ACIA2 /A8*/A9*A10*/A11*/A12*/A13*/A14*/A15*VMA

400-4FF

Communications
channel 2 addressed

ACIA3 A8*/A9*A10*/A11*/A12*/A13*/A14*/A15*VMA

500-5FF

Communications
channel 3 addressed

BKSL

/A8*A9*A10*/A11*/A12*/A13*/A14*/A15*VMA*
SHORT02*IRW

600-6FF

Bank selected memory
addressed

DS /A9*/A10*/A11*/A12*/A13*/A14*/A15*VMA

000-1 FF

External device address

PROM /A15*VMA

8000-8FFF

32K PROM in Z38
addressed

RAM3 A13*A14*/A15*VMA

6000-7FFF

Memory in Z41
addressed

RAM 1 A13*/A14*/A15*VMA

2000-3FFF

8K RAM in Z39
addressed

RAM2 A13*A14*/A15*VMA

4000-5FFF

8K RAM in Z40
addressed

Battery backup for RAM memory is provided with a lithium iodide battery. This battery has a useful life
expectancy in excess of ten years. However, care should be taken when handling the controller module. If
placed on a conductive surface, the battery could be shorted out. The lithium iodide battery, B1, requires
no periodic maintenance. It is a primary cell battery that cannot be recharged.