Datasheet CD4052BMJ-883 Datasheet (NSC)

TL/F/5662

CD4051BM/CD4051BC, CD4052BM/CD4052BC, CD4053BM/CD4053BC

Analog Multiplexer/Demultiplexers

October 1989

CD4051BM/CD4051BC Single 8-Channel Analog

Multiplexer/Demultiplexer

CD4052BM/CD4052BC Dual 4-Channel Analog

Multiplexer/Demultiplexer

CD4053BM/CD4053BC Triple 2-Channel Analog

Multiplexer/Demultiplexer

General Description

These analog multiplexers/demultiplexers are digitally con­trolled analog switches having low ‘‘ON’’ impedance and
very low ‘‘OFF’’ leakage currents. Control of analog signals
up to 15V

p-p

can be achieved by digital signal amplitudes of

3–15V. For example, if V

DD

e

5V, V

SS

e

0V and V

EE

eb

5V,

analog signals from

b

5V toa5V can be controlled by digi­tal inputs of 0 – 5V. The multiplexer circuits dissipate ex­tremely low quiescent power over the full V

DD

b

VSSand

V

DD

b

VEEsupply voltage ranges, independent of the logic
state of the control signals. When a logical ‘‘1’’ is present at
the inhibit input terminal all channels are ‘‘OFF’’.

CD4051BM/CD4051BC is a single 8-channel multiplexer
having three binary control inputs. A, B, and C, and an inhibit
input. The three binary signals select 1 of 8 channels to be
turned ‘‘ON’’ and connect the input to the output.

CD4052BM/CD4052BC is a differential 4-channel multiplex­er having two binary control inputs, A and B, and an inhibit
input. The two binary input signals select 1 or 4 pairs of
channels to be turned on and connect the differential ana­log inputs to the differential outputs.

CD4053BM/CD4053BC is a triple 2-channel multiplexer
having three separate digital control inputs, A, B, and C, and

an inhibit input. Each control input selects one of a pair of
channels which are connected in a single-pole double-throw
configuration.

Features

Y

Wide range of digital and analog signal levels: digital
3–15V, analog to 15V

p-p

Y

Low ‘‘ON’’ resistance: 80X (typ.) over entire 15V

p-p

sig-

nal-input range for V

DD

b

V

EE

e

15V

Y

High ‘‘OFF’’ resistance: channel leakage ofg10 pA
(typ.) at V

DD

b

V

EE

e

10V

Y

Logic level conversion for digital addressing signals of
3–15V (V

DD

b

V

SS

e

3–15V) to switch analog signals to

15 V

p-p(VDD

b

V

EE

e

15V)

Y

Matched switch characteristics: DR

ON

e

5X (typ.) for

V

DD

b

V

EE

e

15V

Y

Very low quiescent power dissipation under all digital­control input and supply conditions: 1 mW (typ.) at
V

DD

b

V

SS

e

V

DD

b

V

EE

e

10V

Y

Binary address decoding on chip

Connection Diagrams

Dual-In-Line Packages

CD4051BM/CD4051BC CD4052BM/CD4052BC CD4053BM/CD4053BC

TL/F/5662– 1

Order Number CD4051B, CD4052B, or CD4053B

C

1995 National Semiconductor Corporation RRD-B30M105/Printed in U. S. A.

Absolute Maximum Ratings

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.

DC Supply Voltage (V

DD

)

b

0.5 VDCtoa18 V

DC

Input Voltage (VIN)

b

0.5 VDCto V

DD

a

0.5 V

DC

Storage Temperature Range (TS)

b

65§Ctoa150§C

Power Dissipation (P

D

)
Dual-In-Line 700 mW
Small Outline 500 mW

Lead Temp. (T

L

) (soldering, 10 sec.) 260§C

Recommended Operating
Conditions

DC Supply Voltage (VDD)

a

5VDCtoa15 V

DC

Input Voltage (VIN) 0VtoVDDV

DC

Operating Temperature Range (TA)

4051BM/4052BM/4053BM

b

55§Ctoa125§C

4051BC/4052BC/4053BC

b

40§Ctoa85§C

DC Electrical Characteristics (Note 2)

Symbol Parameter Conditions

b

55§C

a

25

§

a

125§C

Units

Min Max Min Typ Max Min Max

I

DD

Quiescent Device Current V

DD

e

5V 5 5 150 mA

V

DD

e

10V 10 10 300 mA

V

DD

e

15V 20 20 600 mA

Signal Inputs (VIS) and Outputs (VOS)

R

ON

‘‘ON’’ Resistance (Peak R

L

e

10 kX V

DD

e

2.5V,

for V

EE

s

V

IS

s

VDD) (any channel V

EE

eb

2.5V
800 270 1050 1300 X

selected) or V

DD

e

5V,

V

EE

e

0V

V

DD

e

5V

V

EE

eb

5V

310 120 400 550 X

or V

DD

e

10V,

V

EE

e

0V

V

DD

e

7.5V,

V

EE

eb

7.5V
200 80 240 320 X

or V

DD

e

15V,

V

EE

e

0V

DR

ON

D‘‘ON’’ Resistance R

L

e

10 kX V

DD

e

2.5V,

Between Any Two (any channel V

EE

eb

2.5V

10 X

Channels selected) or V

DD

e

5V,

V

EE

e

0V

V

DD

e

5V,

V

EE

eb

5V

10 X

or V

DD

e

10V,

V

EE

e

0V

V

DD

e

7.5V,

V

EE

eb

7.5V

5 X

or V

DD

e

15V,

V

EE

e

0V

‘‘OFF’’ Channel Leakage V

DD

e

7.5V, V

EE

eb

7.5V

Current, any channel O/I

e

g

7.5V, I/Oe0V

g

50

g

0.01g50

g

500 nA

‘‘OFF’’

‘‘OFF’’ Channel Leakage Inhibite7.5V CD4051

g

200

g

0.08g200

g

2000 nA

Current, all channels V

DD

e

7.5V,

‘‘OFF’’ (Common V

EE

eb

7.5V, CD4052

g

200

g

0.04g200

g

2000 nA

OUT/IN) O/I

e

0V,

I/O

e

g

7.5V CD4053

g

200

g

0.02g200

g

2000 nA

Control Inputs A, B, C and Inhibit

V

IL

Low Level Input Voltage V

EE

e

VSSR

L

e

1kXto V

SS

I

IS

k

2 mA on all OFF channels

V

IS

e

VDDthru 1 kX

V

DD

e

5V 1.5 1.5 1.5 V

V

DD

e

10V 3.0 3.0 3.0 V

V

DD

e

15V 4.0 4.0 4.0 V

V

IH

High Level Input Voltage V

DD

e

5 3.5 3.5 3.5 V

V

DD

e

10 7 7 7 V

V

DD

e

15 11 11 11 V

Note 1: ‘‘Absolute Maximum Ratings’’ are those values beyond which the safety of the device cannot be guaranteed. Except for ‘‘Operating Temperature Range’’
they are not meant to imply that the devices should be operated at these limits. The table of ‘‘Electrical Characteristics’’ provides conditions for actual device
operation.

Note 2: All voltages measured with respect to V

SS

unless otherwise specified.

2

DC Electrical Characteristics (Note 2) (Continued)

Symbol Parameter Conditions

b

40§C

a

25§C

a

85§C

Units

Min Max Min Typ Max Min Max

I

IN

Input Current V

DD

e

15V, V

EE

e

0V

b

0.1

b

10

b

5

b

0.1

b

1.0 mA

V

IN

e

0V

V

DD

e

15V, V

EE

e

0V

0.1 10

b

5

0.1 1.0 mA

V

IN

e

15V

I

DD

Quiescent Device Current V

DD

e

5V 20 20 150 mA

V

DD

e

10V 40 40 300 mA

V

DD

e

15V 80 80 600 mA

Signal Inputs (VIS) and Outputs (VOS)

R

ON

‘‘ON’’ Resistance (Peak R

L

e

10 kX V

DD

e

2.5V,

for V

EE

s

V

IS

s

VDD) (any channel V

EE

eb

2.5V
850 270 1050 1200 X

selected) or V

DD

e

5V,

V

EE

e

0V

V

DD

e

5V,

V

EE

eb

5V

330 120 400 520 X

or V

DD

e

10V,

V

EE

e

0V

V

DD

e

7.5V,

V

EE

eb

7.5V
210 80 240 300 X

or V

DD

e

15V,

V

EE

e

0V

DROND‘‘ON’’ Resistance R

L

e

10 kX V

DD

e

2.5V,

Between Any Two (any channel V

EE

eb

2.5V

10 X

Channels selected) or V

DD

e

5V,

V

EE

e

0V

V

DD

e

5V

V

EE

eb

5V

10 X

or V

DD

e

10V,

V

EE

e

0V

V

DD

e

7.5V,

V

EE

eb

7.5V

5 X

or V

DD

e

15V,

V

EE

e

0V

‘‘OFF’’ Channel Leakage V

DD

e

7.5V, V

EE

eb

7.5V

Current, any channel ‘‘OFF’’ O/I

e

g

7.5V, I/Oe0V

g

50

g

0.01g50

g

500 nA

‘‘OFF’’ Channel Leakage Inhibite7.5V CD4051

g

200

g

0.08g200

g

2000 nA

Current, all channels V

DD

e

7.5V,

‘‘OFF’’ (Common V

EE

eb

7.5V, CD4052

g

200

g

0.04g200

g

2000 nA

OUT/IN) O/I

e

0V

I/O

e

g

7.5V CD4053

g

200

g

0.02g200

g

2000 nA

Control Inputs A, B, C and Inhibit

V

IL

Low Level Input Voltage V

EE

e

VSSR

L

e

1kXto V

SS

I

IS

k

2 mA on all OFF Channels

V

IS

e

VDDthru 1 kX

V

DD

e

5V 1.5 1.5 1.5 V

V

DD

e

10V 3.0 3.0 3.0 V

V

DD

e

15V 4.0 4.0 4.0 V

V

IH

High Level Input Voltage V

DD

e

5 3.5 3.5 3.5 V

V

DD

e

10 7 7 7 V

V

DD

e

15 11 11 11 V

I

IN

Input Current V

DD

e

15V, V

EE

e

0V

b

0.1

b

10

b

5

b

0.1

b

1.0 mA

V

IN

e

0V

V

DD

e

15V, V

EE

e

0V

0.1 10

b

5

0.1 1.0 mA

V

IN

e

15V

Note 1: ‘‘Absolute Maximum Ratings’’ are those values beyond which the safety of the device cannot be guaranteed. Except for ‘‘Operating Temperature Range’’
they are not meant to imply that the devices should be operated at these limits. The table of ‘‘Electrical Characteristics’’ provides conditions for actual device
operation.

Note 2: All voltages measured with respect to V

SS

unless otherwise specified.

3

AC Electrical Characteristics* T

A

e

25§C, t

r

e

t

f

e

20 ns, unless otherwise specified.

Symbol Parameter Conditions VDDMin Typ Max Units

t

PZH,

Propagation Delay Time from V

EE

e

V

SS

e

0V 5V 600 1200 ns

t

PZL

Inhibit to Signal Output R

L

e

1kX 10V 225 450 ns

(channel turning on) C

L

e

50 pF 15V 160 320 ns

t

PHZ,

Propagation Delay Time from V

EE

e

V

SS

e

0V 5V 210 420 ns

t

PLZ

Inhibit to Signal Output R

L

e

1kX 10V 100 200 ns

(channel turning off) C

L

e

50 pF 15V 75 150 ns

C

IN

Input Capacitance

Control input 5 7.5 pF
Signal Input (IN/OUT) 10 15 pF

C

OUT

Output Capacitance
(common OUT/IN)

CD4051 10V 30 pF
CD4052 V

EE

e

V

SS

e

0V 10V 15 pF

CD4053 10V 8 pF

C

IOS

Feedthrough Capacitance 0.2 pF

C

PD

Power Dissipation Capacitance

CD4051 110 pF
CD4052 140 pF
CD4053 70 pF

Signal Inputs (VIS) and Outputs (VOS)

Sine Wave Response R

L

e

10 kX

(Distortion) f

IS

e

1 kHz

10V 0.04 %

V

IS

e

5V

p-p

V

EE

e

V

SI

e

0V

Frequency Response, Channel R

L

e

1kX,V

EE

e

0V, V

IS

e

5V

p-p

,

10V 40 MHz

‘‘ON’’ (Sine Wave Input) 20 log

10VOS/VIS

eb

3dB

Feedthrough, Channel ‘‘OFF’’ R

L

e

1kX,V

EE

e

V

SS

e

0V, V

IS

e

5V

p-p

,

10V 10 MHz

20 log

10VOS/VIS

eb

40 dB

Crosstalk Between Any Two R

L

e

1kX,V

EE

e

V

SS

e

0V, VIS(A)e5V

p-p

10V 3 MHz

Channels (frequency at 40 dB) 20 log

10VOS

(B)/VIS(A)eb40 dB (Note 3)

t

PHL

Propagation Delay Signal V

EE

e

V

SS

e

0V 5V 25 55 ns

t

PLH

Input to Signal Output C

L

e

50 pF 10V 15 35 ns

15V 10 25 ns

Control Inputs, A, B, C and Inhibit

Control Input to Signal V

EE

e

V

SS

e

0V, R

L

e

10 kX at both ends

Crosstalk of channel. 10V 65 mV (peak)

Input Square Wave Amplitude

e

10V

t

PHL,

Propagation Delay Time from V

EE

e

V

SS

e

0V 5V 500 1000 ns

t

PLH

Address to Signal Output C

L

e

50 pF 10V 180 360 ns

(channels ‘‘ON’’ or ‘‘OFF’’) 15V 120 240 ns

*AC Parameters are guaranteed by DC correlated testing.

Note 3: A, B are two arbitrary channels with A turned ‘‘ON’’ and B ‘‘OFF’’.

4

Block Diagrams

CD4051BM/CD4051BC

CD4052BM/CD4052BC

TL/F/5662– 2

5

Block Diagrams (Continued)

CD4053BM/CD4053BC

TL/F/5662– 3

Truth Table

INPUT STATES ‘‘ON’’ CHANNELS

INHIBIT C B A CD4051B CD4052B CD4053B

0 0 0 0 0 0X, 0Y cx, bx, ax
0 0 0 1 1 1X, 1Y cx, bx, ay
0 0 1 0 2 2X, 2Y cx, by, ax
0 0 1 1 3 3X, 3Y cx, by, ay
0 1 0 0 4 cy, bx, ax
0 1 0 1 5 cy, bx, ay
0 1 1 0 6 cy, by, ax
0 1 1 1 7 cy, by, ay
1 *** NONE NONE NONE

*Don’t Care condition.

6

Switching Time Waveforms

TL/F/5662– 4

7

Special Considerations

In certain applications the external load-resistor current may
include both V

DD

and signal-line components. To avoid

drawing V

DD

current when switch current flows into IN/OUT

pin, the voltage drop across the bidirectional switch must

not exceed 0.6V at T

A

s

25§C, or 0.4V at T

A

l

25§C (calcu-

lated from R

ON

values shown). No VDDcurrent will flow

through R

L

if the switch current flows into OUT/IN pin.

Typical Performance Characteristics

‘‘ON’’ Resistance vs Signal
Voltage for T

A

e

25§C

‘‘ON’’ Resistance as a
Function of Temperature for
V

DD

b

V

EE

e

10V

‘‘ON’’ Resistance as a
Function of Temperature for
V

DD

b

V

EE

e

15V

‘‘ON’’ Resistance as a
Function of Temperature for
V

DD

b

V

EE

e

5V

TL/F/5662– 5

8

Physical Dimensions inches (millimeters)

Cavity Dual-In-Line Package (J)

Order Number CD4051BMJ, CD4051BCJ, CD4052BMJ,

CD4052BCJ, CD4053BMJ or CD4053BCJ

NS Package Number J16A

Small Outline Package (M)

Order Number CD4051BCM,

CD4052BCM or CD4053BCM

NS Package Number M16A

9

CD4051BM/CD4051BC, CD4052BM/CD4052BC, CD4053BM/CD4053BC

Analog Multiplexer/Demultiplexers

Physical Dimensions inches (millimeters) (Continued)

Molded Dual-In-Line Package (N)

Order CD4051BM, CD4051BC,

CD4052BM, CD4052BC, CD4053BM, CD4053BC

NS Package Number N16E

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