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PLDC20RA10

Reprogrammable Asynchronous CMOS Logic Device

Cypress Semiconductor 

PLDC20RA10

Selection Guide

Generic Part

Number

20RA10-15

20RA10-20

20RA10-25

20RA10-35

tPD ns

Com‘l

Mil

15

20

20

25

35

Pin Configurations

LCC

Top View

tSU ns

Com’l

Mil

7

10

10

15

20

STD PLCC/HLCC

Top View

tCO ns

Com’l

Mil

15

20

20

25

35

tCC ns

Com’l

Mil

80

80

85

85

85

[1]

JEDEC PLCC/HLCC

Top View

4 3 2 1 282726

I2 5

25 NC

I3 6

24 I/O 2

I4 7

23

I5 8 PLDC20RA10 22

I/O 3

I/O 4

II67

9

10

21 I/O 5

20 I/O 6

NC 11

19 I/O 7

12131415161718

4 3 2 1 2827 26

NC 5

25 I/O 2

I3 6

24 I/O 3

I4

NC

7

23

8 PLDC20RA10 22

I/O 4

I/O 5

I5 9

21 I/O 6

I6 10

20 I/O 7

NC 11 121314 1516 1718 19 NC

4 3 2 1 2827 26

I2 5

25 I/O 2

I3 6

24 I/O 3

I4

NC

7

23

8 PLDC20RA10 22

I/O 4

NC

I5 9 CG7C324 21 I/O 5

I6 10

20 I/O 6

I7

11

121314

1516 1718 19

I/O 7

RA10–2

RA10–3

RA10–4

Macrocell Architecture

Figure 1 illustrates the architecture of the 20RA10 macrocell.

The cell dedicates three product terms for fully asynchronous

control of the register set, reset, and clock functions, as well

as, one term for control of the output enable function.

The output enable product term output is ANDed with the input

from pin 13 to allow either product term or hardwired external

control of the output or a combination of control from both

sources. If product-term-only control is selected, it is automat-

ically chosen for all outputs since, for this case, the external

output enable pin must be tied LOW. The active polarity of

each output may be programmed independently for each out-

put cell and is subsequently fixed. Figure 2 illustrates the out-

put enable options available.

When an I/O cell is configured as an output, combinatorial-only

capability may be selected by forcing the set and reset product

term outputs to be HIGH under all input conditions. This is

achieved by programming all input term programming cells for

these two product terms. Figure 3 illustrates the available out-

put configuration options.

An additional four uncommitted product terms are provided in

each output macrocell as resources for creation of user-de-

fined logic functions.

Programmable I/O

Because any of the ten I/O pins may be selected as an input,

the device input configuration programmed by the user may

vary from a total of nine programmable plus ten dedicated in-

puts (a total of nineteen inputs) and one output down to a

ten-input, ten-output configuration with all ten programmable

I/O cells configured as outputs. Each input pin available in a

given configuration is available as an input to the four control

product terms and four uncommitted product terms of each

programmable I/O macrocell that has been configured as an

output.

An I/O cell is programmed as an input by tying the output en-

able pin (pin 13) HIGH or by programming the output enable

product term to provide a LOW, thereby disabling the output

buffer, for all possible input combinations.

When utilizing the I/O macrocell as an output, the input path

functions as a feedback path allowing the output signal to be

fed back as an input to the product term array. When the output

cell is configured as a registered output, this feedback path

may be used to feed back the current output state to the device

inputs to provide current state control of the next output state

as required for state machine implementation.

Preload and Power-Up Reset

Functional testability of programmed devices is enhanced by

inclusion of register preload capability, which allows the state

of each register to be set by loading each register from an

external source prior to exercising the device. Testing of com-

plex state machine designs is simplified by the ability to load

an arbitrary state without cycling through long test vector se-

quences to reach the desired state. Recovery from illegal

states can be verified by loading illegal states and observing

recovery. Preload of a particular register is accomplished by

impressing the desired state on the register output pin and

lowering the signal level on the preload control pin (pin1) to a

logic LOW level. If the specified preload set-up, hold and pulse

width minimums have been observed, the desired state is

loaded into the register. To insure predictable system initializa-

tion, all registers are preset to a logic LOW state upon pow-

er-up, thereby setting the active LOW outputs to a logic HIGH.

Note:

1. The CG7C324 is the PLDC20RA10 packaged in the JEDEC-compatible 28-pin PLCC pinout. Pin function and pin order is identical for both PLCC pinouts. The

principal difference is in the location of the “no connect” (NC) pins

Document #: 38-03012 Rev. **

Page 2 of 14

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