Texas Instruments CY74FCT245TSOCT, CY74FCT245TSOC, CY74FCT245CTQCT, CY74FCT245CTQC, CY74FCT245ATSOCT Datasheet

8-Bit Transceive

r

CY54/74FCT245T

SCCS018 - May 1994 - Revised February 2000

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

Copyright © 2000, Texas Instruments Incorporated

Features

• Function, pinout, and drive compatible with FCT, and

F logic

• FCT-D speed at 3.8 ns max. (Com’l),
FCT-C speed at 4.1 ns max. (Com’l),
FCT-A speed at 4.6 ns max. (Com’l)

• Reduced V

OH

(typically = 3.3V) versions of equivalent

FCT functions

• Edge-rate control circuitry for significantly improved
noise characteristics

• Power-off disable feature

• ESD > 2000V

• Matched rise and fall times

• Fully compatible with TTL input and output logic levels

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

• Sink current 64 mA (Com’l), 48 mA (Mil)
Source current 32 mA (Com’l), 12 mA (Mil)

Functional Description

The FCT245T contains eight non-inverting bidirectional buff­ers with three-state outputs and is intended for bus oriented
applications. For the FCT245T,current sinking capability is 64
mA at the A and B ports.

The Transmit/Receiver (T/

R) input determines the direction of
data flow through bidirectional transceiver. Transmit (Active
HIGH)enablesdatafromAports to Bports. The output enable
(

OE), when HIGH, disables both the A and B ports by putting

them in a High Z condition.
The outputs are designed with a power-off disable feature to

allow for live insertion of boards.

Function Table

[1]

OE T/R Operation

L L B Data to Bus A
L H A Data to Bus B

H X High Z State

Note:

1. H = HIGH Voltage Level. L = LOW Voltage Level. X = Don’t Care.

LogicBlockDiagram Pin Configurations

A

0

A

1

A

2

A

3

A

4

A

5

A

6

A

7

OE

B

0

B

1

B

2

B

3

B

4

B

5

B

6

B

7

T/R

4

8
9
10
11
12

765

1516 17 18

3
2
1

20

13

14

19

A6A5A

3

B

1

B

4

B

0

B

7

V

CC

GND

B

3

Top View

A

2

LCC

T/R

A

0

A

1

A

7

B

5

B

6

1
2
3
4
5
6
7
8
9
10

11

12

16

17

18

19

20

13

14

V

CC

15

Top View

B

2

A

4

OE

A

0

A

1

A

2

A

3

A

4

A

5

A

6

A

7

OE
B

0

B

1

B

2

B

3

B

4

B

5

B

6

B

7

T/R

GND

DIP/SOIC/QSOP

CY54/74FCT245T

2

Maximum Ratings

[2,3]

(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)

Operating Range

Range Range

Ambient

Temperature V

CC

Commercial DT 0°C to +70°C 5V ± 5%
Commercial T, AT, CT −40°C to +85°C 5V ± 5%
Military

[4]

All −55°C to +125°C 5V ± 10%

Electrical Characteristics Over the Operating Range

Parameter Description Test Conditions Min. Typ.

[5]

Max. Unit

V

OH

Output HIGH Voltage VCC=Min., IOH=−32 mA Com’l 2.0 V

VCC=Min., IOH=−15 mA Com’l 2.4 3.3 V
VCC=Min., IOH=−12 mA Mil 2.4 3.3 V

V

OL

Output LOW Voltage VCC=Min., IOL=64 mA Com’l 0.3 0.55 V

VCC=Min., IOL=48mA Mil 0.3 0.55 V

V

IH

Input HIGH Voltage 2.0 V

V

IL

Input LOW Voltage 0.8 V

V

H

Hysteresis

[6]

All inputs 0.2 V

V

IK

Input Clamp Diode Voltage VCC=Min., IIN=−18 mA −0.7 −1.2 V

I

I

Input HIGH Current VCC=Max., VIN=V

CC

5 µA

I

IH

Input HIGH Current VCC=Max., VIN=2.7V ±1 µA

I

IL

Input LOW Current VCC=Max., VIN=0.5V ±1 µA

I

OS

Output Short Circuit Current

[7]

VCC=Max., V

OUT

=0.0V −60 −120 −225 mA

I

OFF

Power-Off Disable VCC=0V, V

OUT

=4.5V ±1 µA

Capacitance

[6]

Parameter Description Typ.

[5]

Max. Unit

C

IN

Input Capacitance 5 10 pF

C

OUT

Output Capacitance 9 12 pF

Notes:

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

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

CC

or ground.

4. T

A

is the “instant on” case temperature.

5. Typical values are at V

CC

=5.0V, TA=+25˚C ambient.

6. This parameter is specified but not tested.

7. Not morethan one output shouldbe shorted at a time.Duration of short should notexceed one second.The use of high-speedtest apparatus and/or sample
and holdtechniques are preferablein order tominimize internal chip heatingand more accurately reflect operational values.Otherwise prolonged shorting of
a high output mayraise the chip temperature well abovenormal and thereby cause invalid readings in other parametric tests. In any sequence of parameter
tests, I

OS

tests should be performed last.

CY54/74FCT245T

3

Power Supply Characteristics

Parameter Description Test Conditions Typ.

[5]

Max. Unit

I

CC

Quiescent Power Supply Current VCC=Max., VIN≤0.2V, VIN≥VCC−0.2V 0.1 0.2 mA

∆I

CC

Quiescent Power Supply Current
(TTL inputs HIGH)

VCC=Max., VIN=3.4V,

[8]

f1=0, Outputs Open

0.5 2.0 mA

I

CCD

Dynamic Power Supply Current

[9]

VCC=Max., One Input Toggling,
50% Duty Cycle, Outputs Open,
T/

R or OE=GND and

V

IN

≤0.2V or VIN≥VCC−0.2V

0.06 0.12 mA/MHz

I

C

Total Power Supply Current

[10]

VCC=Max.,50% DutyCycle,OutputsOpen,
One Bit Toggling at f

1

=10 MHz,

T/

R or OE=GND and

V

IN

≤0.2V or VIN≥VCC−0.2V

0.7 1.4 mA

VCC=Max.,50% DutyCycle,OutputsOpen,
One Bit Toggling at f

1

=10 MHz,

T/

RorOE=GND and VIN=3.4VorVIN=GND

1.2 3.4 mA

VCC=Max.,50% DutyCycle,OutputsOpen,
Eight Bits Toggling at f

1

=2.5 MHz,

T/

R or OE=GND and

V

IN

≤0.2V or VIN≥VCC−0.2V

1.3 2.6

[11]

mA

VCC=Max.,50% DutyCycle,OutputsOpen,
Eight Bits Toggling at f

1

=2.5 MHz,

T/

RorOE=GND and VIN=3.4VorVIN=GND

3.3 10.6

[11]

mA

Notes:

8. Per TTL driven input (V

IN

=3.4V); all other inputs at VCC or GND.

9. This parameter is not directly testable, but is derived for use in Total Power Supply calculations.

10. I

C

=I

QUIESCENT

+ I

INPUTS

+ I

DYNAMIC

IC=ICC+∆ICCDHNT+I

CCD(f0

/2 + f1N1)

I

CC

= Quiescent Current with CMOS input levels

∆I

CC

= Power Supply Current for a TTL HIGH input (VIN=3.4V)

D

H

= Duty Cycle for TTL inputs HIGH

N

T

= Number of TTL inputs at D

H

I

CCD

= Dynamic Current caused by an input transition pair (HLH or LHL)

f

0

= Clock frequency for registered devices, otherwise zero

f

1

= Input signal frequency

N

1

= Number of inputs changing at f

1

All currents are in milliamps and all frequencies are in megahertz.

11. Values for these conditions are examples of the ICC formula. These limits are specified but not tested.