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MC74HC4066A

Quad Analog Switch/

Multiplexer/Demultiplexer

High−Performance Silicon−Gate CMOS

The MC74HC4066A utilizes silicon−gate CMOS technology to

achieve fast propagation delays, low ON resistances, and low

O F F

−c

h a n n e l l e a k a g e c u r r e n t . T h i s b i l a t e r a l s w i t c h /

multiplexer/demultiplexer controls analog and digital voltages that

may vary across the full power−supply range (from V

to GND).

The HC4066A is identical in pinout to the metal−gate CMOS

MC14016 and MC14066. Each device has four independent switches.

The device has been designed so the ON resistances (R

) are more

linear over input voltage than R

of metal−gate CMOS analog

switches.

The ON/OFF control inputs are compatible with standard CMOS

outputs; with pullup resistors, they are compatible with LSTTL outputs.

For analog switches with voltage−level translators, see the HC4316A.

Features

http://onsemi.com

MARKING

DIAGRAMS

PDIP−14

N SUFFIX

CASE 646

SOIC−14

D SUFFIX

CASE 751A

TSSOP−14

DT SUFFIX

CASE 948G

WL, L

YY, Y

WW, W

G or

= Assembly Location

= Wafer Lot

= Year

= Work Week

= Pb−Free Package

4066A

ALYWG

HC4066AG

AWLYWW

MC74HC4066AN

AWLYYWWG

•

Fast Switching and Propagation Speeds

High ON/OFF Output Voltage Ratio

Low Crosstalk Between Switches

Diode Protection on All Inputs/Outputs

Wide Power−Supply Voltage Range (V

−

GND) = 2.0 to 12.0 V

Analog Input Voltage Range (V

−

GND) = 2.0 to 12.0 V

Improved Linearity and Lower ON Resistance over Input Voltage

than the MC14016 or MC14066

Low Noise

Chip Complexity: 44 FETs or 11 Equivalent Gates

These Devices are Pb−Free, Halogen Free and are RoHS Compliant

NLV Prefix for Automotive and Other Applications Requiring

Unique Site and Control Change Requirements; AEC−Q100

Qualified and PPAP Capable

(Note: Microdot may be in either location)

ORDERING INFORMATION

See detailed ordering and shipping information in the package

dimensions section on page 2 of this data sheet.

Semiconductor Components Industries, LLC, 2013

June, 2013

−

Rev. 11

Publication Order Number:

MC74HC4066A/D

MC74HC4066A

PIN ASSIGNMENT

B ON/OFF CONTROL

C ON/OFF CONTROL

LOGIC DIAGRAM

A ON/OFF CONTROL

D ON/OFF CONTROL

B ON/OFF CONTROL

ANALOG

OUTPUTS/INPUTS

GND

C ON/OFF CONTROL

FUNCTION TABLE

On/Off Control

Input

State of

Analog Switch

Off

D ON/OFF CONTROL

ANALOG INPUTS/OUTPUTS = X

, X

PIN 14 = V

PIN 7 = GND

ORDERING INFORMATION

Device

MC74HC4066ANG

MC74HC4066ADG

MC74HC4066ADR2G

NLV74HC4066ADR2G*

MC74HC4066ADTR2G

NLV74HC4066ADTR2G*

Package

PDIP−14

(Pb−Free)

SOIC−14

(Pb−Free)

SOIC−14

(Pb−Free)

TSSOP−14

(Pb−Free)

Shipping

†

25 Units / Rail

55 Units / Rail

2500 / Tape & Reel

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging

Specifications Brochure, BRD8011/D.

*NLV Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q100 Qualified and PPAP

Capable.

http://onsemi.com

MC74HC4066A

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MAXIMUM RATINGS

Symbol

Parameter

Value

Unit

Positive DC Supply Voltage (Referenced to GND)

Analog Input Voltage (Referenced to GND)

Digital Input Voltage (Referenced to GND)

DC Current Into or Out of Any Pin

Power Dissipation in Still Air,

– 0.5 to + 14.0

– 0.5 to V

+ 0.5

– 0.5 to V

+ 0.5

750

500

450

Plastic DIP†

EIAJ/SOIC Package†

TSSOP Package†

stg

Storage Temperature

– 65 to + 150

260

°C

Lead Temperature, 1 mm from Case for 10 Seconds

(Plastic DIP, SOIC or TSSOP Package)

Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress

ratings only. Functional operation above the Recommended Operating Conditions is not implied.

Extended exposure to stresses above the Recommended Operating Conditions may affect device

reliability.

†Derating

−

Plastic DIP: – 10 mW/°C from 65° to 125°C

EIAJ/SOIC Package: – 7 mW/°C from 65° to 125°C

TSSOP Package:

−

6.1 mW/°C from 65° to 125°C

This device contains protection

circuitry to guard against damage

due to high static voltages or electric

fields. However, precautions must

be taken to avoid applications of any

voltage higher than maximum rated

voltages to this high−impedance cir-

cuit. For proper operation, V

and

out

should be constrained to the

range GND

or V

out

)

Unused inputs must always be

tied to an appropriate logic voltage

level (e.g., either GND or V

Unused outputs must be left open.

I/O pins must be connected to a

properly terminated line or bus.

RECOMMENDED OPERATING CONDITIONS

Symbol

Parameter

Min

2.0

Max

Unit

Positive DC Supply Voltage (Referenced to GND)

Analog Input Voltage (Referenced to GND)

Digital Input Voltage (Referenced to GND)

Static or Dynamic Voltage Across Switch

12.0

1.2

GND

−

, t

Operating Temperature, All Package Types

Input Rise and Fall Time, ON/OFF Control

Inputs (Figure 10)

–55

+ 125

1000

600

500

400

250

°C

= 2.0 V

= 3.0 V

= 4.5 V

= 9.0 V

= 12.0 V

*For voltage drops across the switch greater than 1.2 V (switch on), excessive V

current may be drawn; i.e., the current out of the switch may

contain both V

and switch input components. The reliability of the device will be unaffected unless the Maximum Ratings are exceeded.

DC ELECTRICAL CHARACTERISTIC

Digital Section (Voltages Referenced to GND)

Guaranteed Limit

85°C

1.5

2.1

3.15

6.3

8.4

0.5

0.9

1.35

2.7

3.6

Symbol

Parameter

Test Conditions

– 55 to

25°C

1.5

2.1

3.15

6.3

8.4

0.5

0.9

1.35

2.7

3.6

125°C

1.5

2.1

3.15

6.3

8.4

0.5

0.9

1.35

2.7

3.6

Unit

Minimum High−Level Voltage

ON/OFF Control Inputs

= Per Spec

2.0

3.0

4.5

9.0

12.0

2.0

3.0

4.5

9.0

12.0

Maximum Low−Level Voltage

ON/OFF Control Inputs

= Per Spec

Maximum Input Leakage Current

ON/OFF Control Inputs

= V

or GND

= V

or GND

= 0 V

12.0

0.1

1.0

160

Maximum Quiescent Supply Current

(per Package)

6.0

12.0

http://onsemi.com

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†At supply voltage (V

) approaching 3 V the analog switch−on resistance becomes extremely non−linear. Therefore, for low−voltage

operation, it is recommended that these devices only be used to control digital signals.

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DC ELECTRICAL CHARACTERISTICS

Analog Section (Voltages Referenced to GND)

Symbol

off

Maximum On−Channel Leakage

Current, Any One Channel

Maximum Off−Channel Leakage

Current, Any One Channel

Maximum Difference in “ON”

Resistance Between Any Two

Channels in the Same Package

Maximum “ON” Resistance

Parameter

= V

or GND

(Figure 4)

= V

or GND

(Endpoints)

2.0 mA (Figures 1, 2)

= V

to GND

2.0 mA (Figures 1, 2)

= V

or GND

Switch Off (Figure 3)

= V

= 1/2 (V

−

GND)

2.0 mA

Test Conditions

Power Dissipation Capacitance (Per Switch) (Figure 13)*

* Used to determine the no−load dynamic power consumption: P

= C

CC 2

f + I

AC ELECTRICAL CHARACTERISTICS

= 50 pF, ON/OFF Control Inputs: t

= t

= 6 ns)

Symbol

PLH

PHL

PZL

PZH

PLZ

PHZ

Maximum Capacitance

Maximum Propagation Delay, ON/OFF Control to Analog Output

(Figures 10 and 1 1)

Maximum Propagation Delay, ON/OFF Control to Analog Output

(Figures 10 and 11)

Maximum Propagation Delay, Analog Input to Analog Output

(Figures 8 and 9)

Parameter

ON/OFF Control Input

http://onsemi.com

MC74HC4066A

Control Input = GND

Analog I/O

Feedthrough

2.0

3.0

4.5

9.0

12.0

2.0

3.0

4.5

9.0

12.0

2.0

3.0

4.5

9.0

12.0

2.0

4.5

9.0

12.0

2.0

3.0

4.5

9.0

12.0

2.0†

3.0†

4.5

9.0

12.0

−

Typical @ 25°C, V

= 5.0 V

– 55 to

25°C

– 55 to

25°C

−

120

0.1

1.0

−

85°C

−

160

0.5

1.0

−

Guaranteed Limit

125°C

−

120

−

200

100

110

1.0

−

Unit

MC74HC4066A

ADDITIONAL APPLICATION CHARACTERISTICS

(Voltages Referenced to GND Unless Noted)

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Symbol

Parameter

Test Conditions

Limit*

25°C

54/74HC

150

160

Unit

Maximum On−Channel Bandwidth or

Minimum Frequency Response

(Figure 5)

Off−Channel Feedthrough Isolation

(Figure 6)

= 1 MHz Sine Wave

Adjust f

Voltage to Obtain 0 dBm at V

Increase f

Frequency Until dB Meter Reads – 3 dB

= 50

= 10 pF

Sine Wave

Adjust f

Voltage to Obtain 0 dBm at V

= 10 kHz, R

= 600

= 50 pF

= 1.0 MHz, R

= 50

= 10 pF

4.5

9.0

12.0

4.5

9.0

12.0

4.5

9.0

12.0

4.5

9.0

12.0

4.5

9.0

12.0

4.5

9.0

12.0

4.5

9.0

12.0

MHz

−

130

200

100

−

Feedthrough Noise, Control to

Switch

(Figure 7)

1 MHz Square Wave (t

= t

= 6 ns)

Adjust R

at Setup so that I

= 0 A

= 600

= 50 pF

= 10 kW, C

= 10 pF

−

Crosstalk Between Any Two

Switches

(Figure 12)

Sine Wave

Adjust f

Voltage to Obtain 0 dBm at V

= 10 kHz, R

= 600

= 50 pF

= 1.0 MHz, R

= 50

= 10 pF

– 70

– 80

THD

Total Harmonic Distortion

(Figure 14)

= 1 kHz, R

= 10 kW, C

= 50 pF

THD = THD

Measured

−

THD

Source

= 4.0 V

sine wave

= 8.0 V

sine wave

= 11.0 V

sine wave

4.5

9.0

12.0

0.10

0.06

0.04

*Guaranteed limits not tested. Determined by design and verified by qualification.

http://onsemi.com

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