Datasheet SN74LS194ADR2, SN74LS194AN, SN74LS194AD Datasheet (MOTOROLA)

 Semiconductor Components Industries, LLC, 1999

December, 1999 – Rev. 6

1 Publication Order Number:

SN74LS194A/D

SN74LS194A

4-Bit Bidirectional
Universal Shift Register

The SN74LS194A is a High Speed 4-Bit Bidirectional Universal
Shift Register. As a high speed multifunctional sequential building
block, it is useful in a wide variety of applications. It may be used in
serial-serial, shift left, shift right, serial-parallel, parallel-serial, and
parallel-parallel data register transfers. The LS194A is similar in
operation to the LS195A Universal Shift Register, with added features
of shift left without external connections and hold (do nothing) modes
of operation. It utilizes the Schottky diode clamped process to achieve
high speeds and is fully compatible with all ON Semiconductor TTL
families.

• Typical Shift Frequency of 36 MHz

• Asynchronous Master Reset

• Hold (Do Nothing) Mode

• Fully Synchronous Serial or Parallel Data Transfers

• Input Clamp Diodes Limit High Speed Termination Effects

GUARANTEED OPERATING RANGES

Symbol Parameter Min Typ Max Unit

V

CC

Supply Voltage 4.75 5.0 5.25 V

T

A

Operating Ambient

T emperature Range

0 25 70 °C

I

OH

Output Current – High –0.4 mA

I

OL

Output Current – Low 8.0 mA

LOW

POWER

SCHOTTKY

Device Package Shipping

ORDERING INFORMATION

SN74LS194AN 16 Pin DIP 2000 Units/Box
SN74LS194AD 16 Pin

SOIC

D SUFFIX

CASE 751B

http://onsemi.com

2500/Tape & Reel

PLASTIC
N SUFFIX
CASE 648

16

1

16

1

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2

CONNECTION DIAGRAM DIP (TOP VIEW)

Mode Control Inputs
Parallel Data Inputs
Serial (Shift Right) Data Input
Serial (Shift Left) Data Input
Clock (Active HIGH Going Edge) Input
Master Reset (Active LOW) Input
Parallel Outputs

S

0

, S

1

P0 – P

3

D

SR

D

SL

CP
MR
Q0 – Q

3

0.5 U.L.

0.5 U.L.

0.5 U.L.

0.5 U.L.

0.5 U.L.

0.5 U.L.
10 U.L.

0.25 U.L.

0.25 U.L.

0.25 U.L.

0.25 U.L.

0.25 U.L.

0.25 U.L.
5 U.L.

NOTES:

a) 1 TTL Unit Load (U.L.) = 40 mA HIGH/1.6 mA LOW.

HIGH LOW

(Note a)LOADING

PIN NAMES

14 13 12 11 10 9

123456

7

16 15

8

V

CC

MR

Q0Q1Q2Q

3

S

1

CP S

0

DSRP0P1P2P3DSLGND

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3

LOGIC DIAGRAM

VCC = PIN 16
GND = PIN 8

= PIN NUMBERS

S

1

S

0

D

SR

D

SL

CP

MR

Q

0

Q

1

Q

2

Q

3

P

0

P

1

P

2

P

3

14

1

2

6

7

3

4

5

9

11

12

10

1315

SQ

0

CP
R

CLEAR

SQ

1

CP
R

CLEAR

SQ

2

CP
R

CLEAR

SQ

3

CP
R

CLEAR

FUNCTIONAL DESCRIPTION

The Logic Diagram and Truth Table indicate the
functional characteristics of the LS194A 4-Bit Bidirectional
Shift Register. The LS194A is similar in operation to the
ON Semiconductor LS195A Universal Shift Register when
used in serial or parallel data register transfers. Some of the
common features of the two devices are described below:

All data and mode control inputs are edge-triggered,
responding only to the LOW to HIGH transition of the Clock
(CP). The only timing restriction, therefore, is that the mode
control and selected data inputs must be stable one set-up
time prior to the positive transition of the clock pulse.

The register is fully synchronous, with all operations
taking place in less than 15 ns (typical) making the device
especially useful for implementing very high speed CPUs,
or the memory buffer registers.

The four parallel data inputs (P

0

, P1, P2, P3) are D-type

inputs. When both S

0

and S1 are HIGH, the data appearing
on P0, P1, P2, and P3 inputs is transferred to the Q0, Q1, Q2,
and Q3 outputs respectively following the next LOW to
HIGH transition of the clock.

The asynchronous Master Reset (MR), when LOW,
overrides all other input conditions and forces the Q outputs
LOW .

Special logic features of the LS194A design which
increase the range of application are described below:

Two mode control inputs (S

0

, S1) determine the
synchronous operation of the device. As shown in the Mode
Selection T able, data can be entered and shifted from left to
right (shift right, Q

0

!

Q1, etc.) or right to left (shift left, Q

3

!

Q2, etc.), or parallel data can be entered loading all four
bits of the register simultaneously. When both S0 and S1,are
LOW, the existing data is retained in a “do nothing” mode
without restricting the HIGH to LOW clock transition.

D-type serial data inputs (D

SR

, DSL) are provided on both
the first and last stages to allow multistage shift right or shift
left data transfers without interfering with parallel load
operation.

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MODE SELECT — TRUTH TABLE

INPUTS OUTPUTS

OPERATING MODE

MR S

1

S

0

D

SR

D

SL

P

n

Q

0

Q

1

Q

2

Q

3

Reset L X X X X X L L L L
Hold H I I X X X q

0

q

1

q

2

q

3

Shift Left H h I X I X q

1

q

2

q

3

L

H h I X h X q

1

q

2

q

3

H

Shift Right H I h I X X L q

0

q

1

q

2

H I h h X X H q

0

q

1

q

2

Parallel Load H h h X X P

n

P

0

P

1

P

2

P

3

L = LOW Voltage Level
H = HIGH Voltage Level
X = Don’t Care
I = LOW voltage level one set-up time prior to the LOW to HIGH clock transition
h = HIGH voltage level one set-up time prior to the LOW to HIGH clock transition
p

n

(qn) = Lower case letters indicate the state of the referenced input (or output) one set-up time prior to the LOW to HIGH clock transition.

DC CHARACTERISTICS OVER OPERATING TEMPERATURE RANGE (unless otherwise specified)

Limits

Symbol Parameter

Min Typ Max

Unit Test Conditions

V

IH

Input HIGH Voltage 2.0 V

Guaranteed Input HIGH Voltage for
All Inputs

V

IL

Input LOW Voltage

0.8
V

Guaranteed Input LOW Voltage for
All Inputs

V

IK

Input Clamp Diode Voltage –0.65 –1.5 V VCC = MIN, IIN = –18 mA

V

OH

Output HIGH Voltage 2.7 3.5 V VCC = MIN, IOH = MAX, VIN = V

IH

or VIL per Truth Table

p

0.25 0.4 V IOL = 4.0 mA

VCC = VCC MIN,

VOLOutput LOW Voltage

0.35 0.5 V IOL = 8.0 mA

V

IN

=

V

IL

or

V

IH

per Truth Table

p

20 µA VCC = MAX, VIN = 2.7 V

IIHInput HIGH Current

0.1 mA VCC = MAX, VIN = 7.0 V

I

IL

Input LOW Current –0.4 mA VCC = MAX, VIN = 0.4 V

I

OS

Short Circuit Current (Note 1) –20 –100 mA VCC = MAX

I

CC

Power Supply Current 23 mA VCC = MAX

Note 1: Not more than one output should be shorted at a time, nor for more than 1 second.

AC CHARACTERISTICS (T

A

= 25°C)

Limits

Symbol Parameter

Min Typ Max

Unit Test Conditions

f

MAX

Maximum Clock Frequency 25 36 MHz

t

PLH

t

PHL

Propagation Delay,
Clock to Output

14
17

22
26

ns

VCC = 5.0 V

C

= 15 pF

t

PHL

Propagation Delay,
MR

to Output

19 30 ns

C

L

15

F

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5

AC SETUP REQUIREMENTS (T

A

= 25°C)

Limits

Symbol Parameter

Min Typ Max

Unit Test Conditions

t

W

Clock or MR Pulse Width 20 ns

t

s

Mode Control Setup Time 30 ns

t

s

Data Setup Time 20 ns

VCC = 5.0 V

t

h

Hold time, Any Input 0 ns

t

rec

Recovery Time 25 ns

DEFINITIONS OF TERMS

SETUP TIME(ts) —is defined as the minimum time
required for the correct logic level to be present at the logic
input prior to the clock transition from LOW to HIGH in
order to be recognized and transferred to the outputs.

HOLD TIME (t

h

) — is defined as the minimum time
following the clock transition from LOW to HIGH that the
logic level must be maintained at the input in order to ensure

continued recognition. A negative HOLD TIME indicates
that the correct logic level may be released prior to the clock
transition from LOW to HIGH and still be recognized.

RECOVER Y TIME (t

rec

) — is defined as the minimum time
required between the end of the reset pulse and the clock
transition from LOW to HIGH in order to recognize and
transfer HIGH Data to the Q outputs.

AC WAVEFORMS

The shaded areas indicate when the input is permitted to change for predictable output performance.

Figure 1. Clock to Output Delays Clock Pulse

Width and f

max

Figure 2. Master Reset Pulse Width, Master Reset

to Output Delay and Master Reset to Clock

Recovery Time

1.3 V

1.3 V

OTHER CONDITIONS: S1 = L, MR = H, S0 = H

OTHER CONDITIONS: S

0

, S1 = H

OTHER CONDITIONS: P

O

= P1 = P2 = P

3

= H

OTHER CONDITIONS: MR

= H

OTHER CONDITIONS: *D

SR

SET-UP TIME AFFECTS Q0 ONLY

OTHER CONDITIONS: D

SL

SET-UP TIME AFFECTS Q3 ONLY

OTHER CONDITIONS: MR

= H

S

0

S

1

DSR D

SL

P

0

P

1

P

2

P

3

CLOCK

OUTPUT*

(––– IS SHIFT LEFT)

CLOCK

CLOCK

CLOCK

OUTPUT

OUTPUT

S

0 S1

ts(H)

t

h

(L) = 0 th(H) = 0

t

h

(H) = 0

t

s

(H)

t

h

(L) = 0

t

s

(L)

th = 0 th = 0

(STABLE TIME)

t

PHL

t

PLH

1/fmax

t

W

ts(L)

MR

t

W

t

rec

t

PHL

1.3 V

1.3 V

1.3 V

1.3 V

1.3 V

1.3 V 1.3 V

1.3 V

1.3 V

1.3 V

1.3 V

t

s

t

s

Figure 3. Setup (ts) and Hold (th) Time for Serial Data

(DSR, DSL) and Parallel Data (P0, P1, P2, P3)

Figure 4. Setup (t

s

) and Hold (th) Time for S Input

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P ACKAGE DIMENSIONS

N SUFFIX

PLASTIC PACKAGE

CASE 648–08

ISSUE R

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.

2. CONTROLLING DIMENSION: INCH.

3. DIMENSION L TO CENTER OF LEADS WHEN
FORMED PARALLEL.

4. DIMENSION B DOES NOT INCLUDE MOLD FLASH.

5. ROUNDED CORNERS OPTIONAL.

–A–

B

F

C

S

H

G

D

J

L

M

16 PL

SEATING

18

916

K

PLANE

–T–

M

A

M

0.25 (0.010) T

DIM MIN MAX MIN MAX

MILLIMETERSINCHES

A 0.740 0.770 18.80 19.55
B 0.250 0.270 6.35 6.85
C 0.145 0.175 3.69 4.44
D 0.015 0.021 0.39 0.53
F 0.040 0.70 1.02 1.77
G 0.100 BSC 2.54 BSC
H 0.050 BSC 1.27 BSC
J 0.008 0.015 0.21 0.38
K 0.110 0.130 2.80 3.30
L 0.295 0.305 7.50 7.74
M 0 10 0 10
S 0.020 0.040 0.51 1.01

____

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7

D SUFFIX

PLASTIC SOIC PACKAGE

CASE 751B–05

ISSUE J

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.

2. CONTROLLING DIMENSION: MILLIMETER.

3. DIMENSIONS A AND B DO NOT INCLUDE
MOLD PROTRUSION.

4. MAXIMUM MOLD PROTRUSION 0.15 (0.006)
PER SIDE.

5. DIMENSION D DOES NOT INCLUDE DAMBAR
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.127 (0.005) TOTAL
IN EXCESS OF THE D DIMENSION AT
MAXIMUM MATERIAL CONDITION.

18

16 9

SEATING

PLANE

F

J

M

R

X 45

_

G

8 PLP

–B–

–A–

M

0.25 (0.010) B

S

–T–

D

K

C

16 PL

S

B

M

0.25 (0.010) A

S

T

DIM MIN MAX MIN MAX

INCHESMILLIMETERS

A 9.80 10.00 0.386 0.393
B 3.80 4.00 0.150 0.157
C 1.35 1.75 0.054 0.068
D 0.35 0.49 0.014 0.019

F 0.40 1.25 0.016 0.049

G 1.27 BSC 0.050 BSC

J 0.19 0.25 0.008 0.009
K 0.10 0.25 0.004 0.009
M 0 7 0 7

P 5.80 6.20 0.229 0.244
R 0.25 0.50 0.010 0.019

____

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8

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