MC74HC4316AFELG Datasheet MC74HC4316AFELG, MC74HC4316ANG | P4-P6

MC74HC4316A

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4

DC ELECTRICAL CHARACTERISTICS Digital Section (Voltages Referenced to GND) V

EE

= GND Except Where Noted

Symbol Parameter Test Conditions

V

CC

V

Guaranteed Limit

Unit

– 55 to

25°C

v 85°C v 125°C

V

IH

Minimum High−Level Voltage, Control

or Enable Inputs

R

on

= Per Spec 2.0

3.0

4.5

6.0

1.5

2.1

3.15

4.2

1.5

2.1

3.15

4.2

1.5

2.1

3.15

4.2

V

IL

Maximum Low−Level Voltage, Control

or Enable Inputs

R

on

= Per Spec 2.0

3.0

4.5

6.0

0.5

0.9

1.35

1.8

0.5

0.9

1.35

1.8

0.5

0.9

1.35

1.8

V

I

in

Maximum Input Leakage Current,

Control or Enable Inputs

V

in

= V

CC

or GND

V

EE

= – 6.0 V

6.0 ± 0.1 ± 1.0 ± 1.0

mA

I

CC

Maximum Quiescent Supply Current

(per Package)

V

in

= V

CC

or GND

V

IO

= 0 V V

EE

= GND

V

EE

= – 6.0

6.0

2

4

20

40

160

mA

DC ELECTRICAL CHARACTERISTICS Analog Section (Voltages Referenced to V

EE

)

Symbol

Parameter Test Conditions

V

CC

V

EE

V

Guaranteed Limit

Unit

– 55 to

25°C

v 85°C v 125°C

R

on

Maximum “ON” Resistance

V

in

= V

IH

V

IS

= V

CC

to V

EE

I

S

v 2.0 mA (Figure 3)

2.0*

4 5

4.5

6.0

0.0

− 4.5

− 6.0

−

160

90

−

200

110

−

240

130

W

V

in

= V

IH

V

IS

= V

CC

or V

EE

(Endpoints)

I

S

v 2.0 mA (Figure 3)

2.0

4.5

6.0

0.0

− 4.5

− 6.0

−

90

70

−

115

90

−

140

105

DR

on

Maximum Difference in “ON”

Resistance Between Any Two

Channels in the Same Package

V

in

= V

IH

V

IS

= 1/2 (V

CC

− V

EE

)

I

S

v 2.0 mA

2.0

4.5

6.0

0.0

– 4.5

– 6.0

−

20

15

−

25

20

−

30

25

W

I

off

Maximum Off−Channel

Leakage Current, Any One

Channel

V

in

= V

IL

V

IO

= V

CC

or V

EE

Switch Off (Figure 4)

6.0 – 6.0 0.1 0.5 1.0

mA

I

on

Maximum On−Channel

Leakage Current, Any One

Channel

V

in

= V

IH

V

IS

= V

CC

or V

EE

(Figure 5)

6.0 – 6.0 0.1 0.5 1.0

mA

*At supply voltage (V

CC

− V

EE

) approaching 2.0 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.

MC74HC4316A

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5

AC ELECTRICAL CHARACTERISTICS (C

L

= 50 pF, Control or Enable t

r

= t

f

= 6 ns, V

EE

= GND)

Symbol Parameter

V

CC

V

Guaranteed Limit

Unit

– 55 to

25°C

v 85°C v 125°C

t

PLH

,

t

PHL

Maximum Propagation Delay, Analog Input to Analog Output

(Figures 9 and 10)

2.0

4.5

6.0

40

6

5

50

8

7

60

9

8

ns

t

PLZ

,

t

PHZ

Maximum Propagation Delay, Control or Enable to Analog Output

(Figures 11 and 12)

2.0

4.5

6.0

130

40

30

160

50

40

200

60

50

ns

t

PZL

,

t

PZH

Maximum Propagation Delay, Control or Enable to Analog Output

(Figures 11 and 12)

2.0

4.5

6.0

140

40

30

175

50

40

250

60

50

ns

C

Maximum Capacitance ON/OFF Control

and Enable Inputs

− 10 10 10

pF

Control Input = GND

Analog I/O

Feedthrough

−

35

1.0

35

1.0

35

1.0

C

PD

Power Dissipation Capacitance (Per Switch) (Figure 14)*

Typical @ 25°C, V

CC

= 5.0 V

pF

15

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

D

= C

PD

V

CC

2

f + I

CC

V

CC

.

ADDITIONAL APPLICATION CHARACTERISTICS (GND = 0 V)

Symbol Parameter Test Conditions

V

CC

V

EE

V

Limit*

25°C

Unit

BW Maximum On–Channel Bandwidth

or

Minimum Frequency Response

(Figure 6)

f

in

= 1 MHz Sine Wave

Adjust f

in

Voltage to Obtain 0 dBm at V

OS

Increase f

in

Frequency Until dB Meter

Reads – 3 dB R

L

= 50 W, C

L

= 10 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

150

160

MHz

− Off–Channel Feedthrough

Isolation

(Figure 7)

f

in

 Sine Wave

Adjust f

in

Voltage to Obtain 0 dBm at V

IS

f

in

= 10 kHz, R

L

= 600 W, C

L

= 50 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

– 50

dB

f

in

= 1.0 MHz, R

L

= 50 W, C

L

= 10 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

– 40

− Feedthrough Noise, Control to

Switch

(Figure 8)

V

in

v 1 MHz Square Wave (t

r

= t

f

= 6 ns)

Adjust R

L

at Setup so that I

S

= 0 A

R

L

= 600 W, C

L

= 50 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

30

65

100

mV

PP

R

L

= 10 kW, C

L

= 10 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

60

130

200

− Crosstalk Between Any Two

Switches

(Figure 13)

f

in

 Sine Wave

Adjust f

in

Voltage to Obtain 0 dBm at V

IS

f

in

= 10 kHz, R

L

= 600 W, C

L

= 50 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

– 70

dB

f

in

= 1.0 MHz, R

L

= 50 W, C

L

= 10 pF

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

– 80

THD Total Harmonic Distortion

(Figure 15)

f

in

= 1 kHz, R

L

= 10 kW, C

L

= 50 pF

THD = THD

Measured

− THD

Source

V

IS

= 4.0 V

PP

sine wave

V

IS

= 8.0 V

PP

sine wave

V

IS

= 11.0 V

PP

sine wave

2.25

4.50

6.00

– 2.25

– 4.50

– 6.00

0.10

0.06

0.04

%

*Limits not tested. Determined by design and verified by qualification.

MC74HC4316A

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6

Figure 4. Maximum Off Channel Leakage Current,

Any One Channel, Test Set−Up

Figure 5. Maximum On Channel Leakage Current,

Test Set−Up

OFF

16

V

CC

V

EE

A

V

CC

V

EE

V

CC

O/I

7

8

9

SELECTED

CONTROL

INPUT

V

IL

ON

16

V

CC

N/C

A

V

EE

V

CC

V

EE

7

8

9

SELECTED

CONTROL

INPUT

V

IH

Figure 6. Maximum On−Channel Bandwidth

Test Set−Up

ON

16

V

CC

0.1 mF

C

L

*

f

in

TO dB

METER

*Includes all probe and jig capacitance.

R

L

R

L

V

EE

7

8

9

SELECTED

CONTROL

INPUT

V

CC

Figure 7. Off−Channel Feedthrough Isolation,

Test Set−Up

OFF

16

V

CC

0.1 mF

C

L

*

f

in

TO dB

METER

*Includes all probe and jig capacitance.

R

L

V

EE

7

8

9

SELECTED

CONTROL

INPUT

R

L

V

CC

Figure 8. Feedthrough Noise, Control to Analog Out,

Test Set−Up

16

V

CC

*Includes all probe and jig capacitance.

ON/OFF

CONTROL

R

L

SELECTED

CONTROL

INPUT

V

EE

7

8

9

C

L

*

TEST

POINT

R

L

V

CC

GND

ANALOG IN

ANALOG OUT

50%

t

PLH

t

PHL

50%

Figure 9. Propagation Delays, Analog In to

Analog Out

V

IS

MC74HC4316AFELG

MC74HC4316AFELG

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