C4066B.pdf

June 1992

CD4066BM/CD4066BC Quad Bilateral Switch

General Description

The CD4066BM/CD4066BC is a quad bilateral switch in-

tended for the transmission or multiplexing of analog or digi-

tal signals. It is pin-for-pin compatible with CD4016BM/

CD4016BC, but has a much lower ``ON'' resistance, and

``ON'' resistance is relatively constant over the input-signal

range.

Y Extremely low ``OFF'' 0.1 nA (typ.)

switch leakage @ V DD b V SS e 10V, T A e 25 § C

Y Extremely high control input impedance 10 12 X (typ.)

Y Low crosstalk b 50 dB (typ.)

between switches @ f is e 0.9 MHz, R L e 1k X

Y Frequency response, switch ``ON''

40 MHz (typ.)

Features

Y Wide supply voltage range

3V to 15V

Applications

Y Analog signal switching/multiplexing

# Signal gating

# Squelch control

# Chopper

# Modulator/Demodulator

# Commutating switch

Y Digital signal switching/multiplexing

Y CMOS logic implementation

Y Analog-to-digital/digital-to-analog conversion

Y Digital control of frequency, impedance, phase, and an-

alog-signal-gain

Y High noise immunity

0.45 V DD (typ.)

Y Wide range of digital and

g 7.5 V PEAK

analog switching

Y ``ON'' resistance for 15V operation

80 X

Y Matched ``ON'' resistance

D R ON e 5 X (typ.)

over 15V signal input

Y ``ON'' resistance flat over peak-to-peak signal range

Y High ``ON''/``OFF'' 65 dB (typ.)

output voltage ratio @ f is e 10 kHz, R L e 10 k X

Y High degree linearity 0.1% distortion (typ.)

High degree linearity @ f is e 1 kHz, V is e 5V p-p ,

High degree linearity V DD b V SS e 10V, R L e 10 k X

Schematic and Connection Diagrams

Order Number CD4066B

Dual-In-Line Package

TL/F/5665±1

Top View

C 1995 National Semiconductor Corporation

TL/F/5665

RRD-B30M105/Printed in U. S. A.

Absolute Maximum Ratings (Notes1&2)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales

Office/Distributors for availability and specifications.

Supply Voltage (V DD ) b 0.5V to a 18V

Input Voltage (V IN ) b 0.5V to V DD a 0.5V

Storage Temperature Range (T S ) b 65 § Cto a 150 § C

Power Dissipation (P D )

Dual-In-Line

Recommended Operating

Conditions (Note 2)

Supply Voltage (V DD )

3Vto15V

Input Voltage (V IN )

0VtoV DD

Operating Temperature Range (T A )

CD4066BM

b 55 § Cto a 125 § C

CD4066BC

b 40 § Cto a 85 § C

700 mW

Small Outline

500 mW

Lead Temperature (T L )

(Soldering, 10 seconds)

300 § C

DC Electrical Characteristics CD4066BM (Note 2)

Symbol

Parameter

Conditions

b 55 § C

a 25 § C

a 125 § C

Units

Min Max Min Typ Max Min Max

I DD Quiescent Device Current V DD e 5V

0.25

0.01 0.25

7.5 m A

V DD e 10V

0.5

0.01 0.5

15 m A

V DD e 15V

1.0

0.01 1.0

30 m A

SIGNAL INPUTS AND OUTPUTS

R ON ``ON'' Resistance

R L e 10 k X to V DD b V SS

V C e V DD ,V IS e V SS to V DD

V DD e 5V

800

270 1050

1300 X

V DD e 10V

310

120 400

550 X

V DD e 15V

200

80 240

320 X

R L e 10 k X to V DD b V SS

D R ON D ``ON'' Resistance

Between any 2 of

V C e V DD ,V IS e V SS to V DD

4 Switches

V DD e 10V

V DD e 15V

I IS

Input or Output Leakage V C e 0

g 50

g 0.1 g 50

g 500 nA

Switch ``OFF''

V IS e 15V and 0V,

V OS e 0V and 15V

CONTROL INPUTS

V ILC Low Level Input Voltage V IS e V SS and V DD

V OS e V DD and V SS

I IS e g 10 m A

V DD e 5V

1.5

2.25 1.5

1.5 V

V DD e 10V

3.0

4.5

3.0

3.0 V

V DD e 15V

4.0

6.75 4.0

4.0 V

V IHC High Level Input Voltage V DD e 5V

3.5

3.5 2.75

3.5

V DD e 10V (see note 6)

7.0

7.0 5.5

7.0

V DD e 15V

11.0

11.0 8.25

11.0

I IN

Input Current

V DD b V SS e 15V

g 0.1

g 10 b 5

g 0.1

g 1.0 m A

V DD t V IS t V SS

V DD t V C t V SS

DC Electrical Characteristics CD4066BC (Note 2)

Symbol

Parameter

Conditions

b 40 § C

a 25 § C

a 85 § C

Units

Min Max Min Typ Max Min Max

I DD

Quiescent Device Current V DD e 5V

1.0

0.01 1.0

7.5 m A

V DD e 10V

2.0

0.01 2.0

15 m A

V DD e 15V

4.0

0.01 4.0

30 m A

DC Electrical Characteristics (Continued) CD4066BC (Note 2)

Symbol

Parameter

Conditions

b 40 § C

a 25 § C

a 85 § C

Units

Min Max Min Typ Max Min Max

SIGNAL INPUTS AND OUTPUTS

R ON ``ON'' Resistance

R L e 10 k X to V DD b V SS

V C e V DD ,V SS to V DD

V DD e 5V

850

270 1050

1200 X

V DD e 10V

330

120 400

520 X

V DD e 15V

210

80 240

300 X

R L e 10 k X to V DD b V SS

D R ON D ``ON'' Resistance

Between Any 2 of

V CC e V DD ,V IS e V SS to V DD

4 Switches

V DD e 10V

V DD e 15V

I IS

Input or Output Leakage V C e 0

g 50

g 0.1 g 50

g 200 nA

Switch ``OFF''

CONTROL INPUTS

V ILC Low Level Input Voltage V IS e V SS and V DD

V OS e V DD and V SS

I IS e g 10 m A

V DD e 5V

1.5

2.25 1.5

1.5 V

V DD e 10V

3.0

4.5

3.0

3.0 V

V DD e 15V

4.0

6.75 4.0

4.0 V

V IHC High Level Input Voltage V DD e 5V

3.5

3.5 2.75

3.5

V DD e 10V (See note 6)

7.0

7.0 5.5

7.0

V DD e 15V

11.0

11.0 8.25

11.0

I IN

Input Current

V DD b V SS e 15V

g 0.3

g 10 b 5

g 0.3

g 1.0 m A

V DD t V IS t V SS

V DD t V C t V SS

AC Electrical Characteristics* T A e 25 § C, t r e t f e 20 ns and V SS e 0V unless otherwise noted

Symbol

Parameter

Conditions

Min Typ Max Units

t PHL ,t PLH Propagation Delay Time Signal V C e V DD ,C L e 50 pF, (Figure1)

Input to Signal Output

R L e 200k

V DD e 5V

V DD e 10V

V DD e 15V

t PZH ,t PZL Propagation Delay Time

R L e 1.0 k X ,C L e 50 pF, (Figures2and3)

Control Input to Signal

V DD e 5V

125

Output High Impedance to

V DD e 10V

Logical Level

V DD e 15V

t PHZ ,t PLZ Propagation Delay Time

R L e 1.0 k X ,C L e 50 pF, (Figures2and3)

Control Input to Signal

V DD e 5V

125

Output Logical Level to

V DD e 10V

High Impedance

V DD e 15V

Sine Wave Distortion

V C e V DD e 5V, V SS eb 5V

0.1

R L e 10 k X ,V IS e 5V p-p ,f e 1 kHz,

(Figure4)

Frequency Response-Switch V C e V DD e 5V, V SS eb 5V,

MHz

``ON'' (Frequency at b 3 dB) R L e 1k X ,V IS e 5V p-p ,

20 Log 10 V OS /V OS (1 kHz) b dB,

(Figure4)

AC Electrical Characteristics* (Continued) T A e 25 § C, t r e t f e 20 ns and V SS e 0V unless otherwise noted

Symbol

Parameter

Conditions

Min Typ Max Units

Feedthrough Ð Switch ``OFF''

V DD e 5.0V, V CC e V SS eb 5.0V,

1.25

(Frequency at b 50 dB)

R L e 1k X ,V IS e 5.0V p-p ,20Log 10 ,

V OS /V IS eb 50 dB, (Figure4)

Crosstalk Between Any Two

V DD e V C(A) e 5.0V; V SS e V C(B) e 5.0V,

0.9

MHz

Switches (Frequency at b 50 dB) R L 1k X ,V IS(A) e 5.0 V p-p ,20Log 10 ,

V OS(B) /V IS(A) eb 50 dB (Figure5)

Crosstalk; Control Input to

V DD e 10V, R L e 10 k X ,R IN e 1.0 k X ,

150

mV p-p

Signal Output

V CC e 10V Square Wave, C L e 50 pF

(Figure6)

Maximum Control Input

R L e 1.0 k X ,C L e 50 pF, (Figure7)

V OS(f) e (/2

V DD e 5.0V

V OS (1.0 kHz)

6.0

MHz

V DD e 10V

8.0

MHz

V DD e 15V

8.5

MHz

C IS

Signal Input Capacitance

8.0

C OS

Signal Output Capacitance

V DD e 10V

8.0

C IOS

Feedthrough Capacitance

V C e 0V

0.5

C IN

Control Input Capacitance

5.0

7.5

*AC Parameters are guaranteed by DC correlated testing.

Note 1: ``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices

should be operated at these limits. The tables of ``Recommended Operating Conditions'' and ``Electrical Characteristics'' provide conditions for actual device

operation.

Note 2: V SS e 0V unless otherwise specified.

Note 3: These devices should not be connected to circuits with the power ``ON''.

Note 4: In all cases, there is approximately 5 pF of probe and jig capacitance in the output; however, this capacitance is included in C L wherever it is specified.

Note 5: V IS is the voltage at the in/out pin and V OS is the voltage at the out/in pin. V C is the voltage at the control input.

Note 6: Conditions for V IHC :a)V IS e V DD ,I OS e standard B series I OH b) V IS e 0V, I OL e standard B series I OL .

AC Test Circuits and Switching Time Waveforms

FIGURE 1. t PHL ,t PLH Propagation Delay Time Signal Input to Signal Output

FIGURE 2. t PZH ,t PHZ Propagation Delay Time Control to Signal Output

TL/F/5665±2

FIGURE 3. t PZL ,t PLZ Propagtion Delay Time Control to Signal Output

AC Test Circuits and Switching Time Waveforms (Continued)

V C e V DD for distortion and frequency response tests

V C e V SS for feedthrough test

FIGURE 4. Sine Wave Distortion, Frequency Response and Feedthrough

FIGURE 5. Crosstalk Between Any Two Switches

FIGURE 6. Crosstalk: Control Input to Signal Output

TL/F/5665±3

FIGURE 7. Maximum Control Input Frequency

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