Texas Instruments CY74FCT823ATSOC, CY74FCT823ATQCT, CY74FCT823ATQC, CY74FCT823ATPC, CY74FCT821CTSOCT Datasheet

8-/9-/10-Bit Bus Interface Registers

CY74FCT821T

CY74FCT823T
CY74FCT825T

SCCS033 - May 1994 - Revised March 2000

Data sheet acquired from Cypress Semiconductor Corporation.
Data sheet modified to remove devices not offered.

Copyright © 2000, Texas Instruments Incorporated

Features

• Function,pinout,anddrivecompatiblewithFCT,F,and
Am29821/23/25 logic

• FCT-C speed at 6.0 ns max.
FCT-B speed at 7.5 ns max.

• Reduced V

OH

(typically = 3.3V) versions of equivalent

FCT functions

• Edge-rate control circuitry for significantly improved
noise characteristics

• Power-off disable feature

• Matched rise and fall times

• Fully compatible with TTL input and output logic levels

• ESD > 2000V

• Sink current 64 mA
Source current 32 mA

• High-speed parallel registers with positive
edge-triggered D-type flip-flops

• Bufferedcommonclockenable(EN)and asynchronous
clear input (CLR)

• Extended commercial range of −40˚C to +85˚C

Functional Description

These bus interface registers are designed to eliminate the
extra packages required to buffer existing registers and
provideextradata width for wideraddress/data paths orbuses
carrying parity.TheFCT821T is a buffered,10-bit wideversion
of the popular FCT374 function. The FCT823T is a 9-bit wide
buffered register with clock enable (

EN) and clear (CLR) ideal
for parity bus interfacing in high-performance micropro­grammed systems. The FCT825T is an 8-bit buffered register
with all the FCT823T controls plus multiple enables (

OE1,
OE2, OE3) to allow multiuser control of the interface, e.g., CS,
DMA, and RD/

WR. They are ideal for use as an output port

requiring high I

OL/IOH

.

These devices are designed for high-capacitance load drive
capability, while providing low-capacitancebus loading at both
inputs and outputs. Outputs are designed for low-capacitance
busloadinginthehigh-impedance state and are designed with
a power-off disablefeature to allow for live insertion of boards.

Note:

1. Not on FCT821.

CL

D

Y

0

CP

OE

CLR

EN

D

0

Q

CP

Q

CL

D

Y

1

D

1

Q

CP

Q

CL

D

Y

2

D

2

Q

CP

Q

CL

D

Y

3

D

3

Q

CP

Q

CL

D

Y

4

D

4

Q

CP

Q

CL

D

Y

5

D

5

Q

CP

Q

CL

D

Y

n- 1

D

N- 1

Q

CP

Q

CL

D

Y

n

D

N

Q

CP

Q

[1]

[1]

Logic Block Diagram

CY74FCT821T

CY74FCT823T
CY74FCT825T

2

FCT821T(10-Bit Register)

FCT823T(9-Bit Register)

FCT825T(8-Bit Register)

D

Y

Q

CP

D

OE

D

YQ

CP

D

CP

OE

CP

EN CLR

10

10

9

9

EN

CLR

D

Y

Q

CP

D

OE

1

CP

EN CLR

8

8

EN

CLR

OE

2

OE

3

1
2
3
4
5
6
7
8
9
10
11
12

16

17

18

19

20

24
23
22
21

13

14

V

CC

15

DIP/QSOP/SOIC

Top View

OE

D

1

D

2

D

3

D

4

D

5

D

6

D

7

D

8

Y

1

Y

2

Y

3

Y

4

Y

5

Y

6

Y

7

Y

8

GND

D

0

D

9

Y

0

Y

9

CP

1
2
3
4
5
6
7
8
9
10
11
12

16

17

18

19

20

24
23
22
21

13

14

V

CC

15

DIP/QSOP/SOIC

Top View

OE

D

1

D

2

D

3

D

4

D

5

D

6

D

7

D

8

Y

1

Y

2

Y

3

Y

4

Y

5

Y

6

Y

7

Y

8

GND

D

0

CLR

Y

0

EN
CP

1
2
3
4
5
6
7
8
9
10
11
12

16

17

18

19

20

24
23
22
21

13

14

V

CC

15

DIP/QSOP/SOIC

Top View

OE

1

D

1

D

2

D

3

D

4

D

5

D

6

D

7

Y

1

Y

2

Y

3

Y

4

Y

5

Y

6

Y

7

GND

D

0

CLR

Y

0

EN
CP

OE

2

OE

3

Logic Diagrams PinConfigurations

FCT821T

FCT823T

FCT825T

CY74FCT821T

CY74FCT823T
CY74FCT825T

3

Maximum Ratings

[3,4]

(Above which the useful life may be impaired. For user
guidelines, not tested.)

Storage Temperature

.............................−65°C to +150°C

Ambient Temperature with
Power Applied

........................................−65°C to +135°C

Supply Voltage to Ground Potential

.............−0.5V to +7.0V

DC Input Voltage

.......................................−0.5V to +7.0V

DC Output Voltage

.....................................−0.5V to +7.0V

DC Output Current (Maximum Sink Current/Pin) ......120 mA

Power Dissipation..........................................................0.5W

Static Discharge Voltage............................................>2001V

(per MIL-STD-883, Method 3015)

Notes:

2. H = HIGH Voltage Level, L = LOW Voltage Level, X = Don’t Care, NC = No Change, = LOW-to-HIGH Transition, Z = HIGH Impedance.

3. Unless otherwise noted, these limits are over the operating free-air temperature range.

4. Unused inputs must always be connected to an appropriate logic voltage level, preferably either V

CC

or ground.

Pin Description

Name I/O Description

D I The D flip-flop data inputs.
CLR I When CLR is LOWand OE is LOW, the Q outputs are LOW. When CLR is HIGH, data can be

entered into the register.
CP O Clock Pulse for the register; enters data into the register on the LOW-to-HIGH transition.
Y O The register three-state outputs.
EN I Clock Enable. When EN is LOW, data on the D input is transferred to the Q output on the

LOW-to-HIGH clock transition. When

EN is HIGH, the Q outputs do not change state,

regardless of the data or clock input transitions.
OE I Output Control. When OE is HIGH, the Y outputs are in the high-impedance state. When OE

is LOW, the TRUE register data is present at the Y outputs.

Function Table

[2]

Inputs Internal Outputs

FunctionOE CLR EN D CP Q Y

H
H

H
H

L
L

L
H

L
H

Z
Z

High Z

H

L

L
L

X
X

X
X

X
X

L
L

Z
L

Clear

H

L

H
H

H
H

X
X

X
X

NC
NC

Z

NC

Hold

H
H

L
L

H
H
H
H

L
L
L
L

L
H
L
H

L
H
L
H

Z
Z
L

H

Load

Operating Range

Range Range

Ambient

Temperature V

CC

Commercial All −40°C to +85°C 5V ± 5%