74VHC4066M 查看數據表（PDF） - Fairchild Semiconductor

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74VHC4066M

Quad Analog Switch

Fairchild Semiconductor 

Absolute Maximum Ratings(Note 2)

(Note 3)

Recommended Operating

Conditions

Supply Voltage (VCC)

0.5 to 15V

DC Control Input Voltage (VIN)

1.5 to VCC  1.5V

DC Switch I/O Voltage (VIO)

VEE  0.5 to VCC  0.5V

Clamp Diode Current (IIK, IOK)

r20 mA

DC Output Current, per pin (IOUT) r25 mA

DC VCC or GND Current, per pin

(ICC)

r50 mA

Storage Temperature Range (TSTG)

65qC to 150qC

Power Dissipation (PD) (Note 4)

600 mW

S.O. Package only

500 mW

Lead Temperature (TL)

(Soldering 10 seconds)

260qC

Min Max Units

Supply Voltage (VCC)

2

12

V

DC Input or Output Voltage

0

VCC

V

(VIN, VOUT)

Operating Temperature Range (TA) 40 85 qC

Input Rise or Fall Times (tr, tf)

VCC 2.0V

1000 ns

VCC 4.5V

500 ns

VCC 9.0V

400 ns

Note 2: Absolute Maximum Ratings are those values beyond which dam-

age to the device may occur.

Note 3: Unless otherwise specified all voltages are referenced to ground.

Note 4: Power Dissipation temperature derating — plastic “N” package: 

12 mW/qC from 65qC to 85qC.

DC Electrical Characteristics (Note 5)

Symbol

Parameter

Conditions

VCC

TA 25qC

TA 40 to 85qC

Units

Typ

Guaranteed Limits

VIH

Minimum HIGH Level

Input Voltage

2.0V

4.5V

1.5

1.5

V

3.15

3.15

V

9.0V

6.3

5.3

V

12.0V

8.4

8.4

V

VIL

Maximum LOW Level

Input Voltage

2.0V

4.5V

0.5

0.5

V

1.35

1.35

V

9.0V

2.7

2.7

V

12.0V

3.6

3.6

V

RON

Maximum “ON” Resistance

See (Note 6)

VCTL VIH, IS 2.0 mA

VIS VCC to GND

(Figure 1)

4.5V

100

170

200

:

9.0V

50

85

105

:

12.0V

30

70

85

:

2.0V

120

180

215

:

VCTL VIH, IS 2.0 mA

VIS VCC or GND

(Figure 1)

4.5V

50

80

9.0V

35

60

12.0V

20

40

100

:

75

:

60

:

RON

Maximum “ON” Resistance

Matching

VCTL VIH

VIS VCC to GND

4.5V

10

15

9.0V

5

10

12.0V

5

10

20

:

15

:

15

:

IIN

Maximum Control

Input Current

IIZ

Maximum Switch “OFF”

Leakage Current

IIZ

Maximum Switch “ON”

Leakage Current

ICC

Maximum Quiescent

Supply Current

VIN VCC or GND

VCC 2  6V

VOS VCC or GND

VIS GND or VCC

VCTL VIL (Figure 2)

VIS VCC to GND

VCTL VIH

VOS OPEN (Figure 3)

VIN VCC or GND

IOUT 0 PA

r0.05

r0.5

PA

6.0V

10

r60

r600

nA

9.0V

15

r80

r800

nA

12.0V

20

r100

r1000

nA

6.0V

10

r40

r150

nA

9.0V

15

r50

r200

nA

12.0V

20

r60

r300

nA

6.0V

1.0

10

PA

9.0V

2.0

20

PA

12.0V

4.0

40

PA

Note 5: For a power supply of 5V r 10% the worst case on resistance (RON) occurs for VHC at 4.5V. Thus the 4.5V values should be used when designing

with this supply. Worst case VIH and VIL occur at VCC 5.5V and 4.5V respectively. (The VIH value at 5.5V is 3.85V.) The worst case leakage current occurs

for CMOS at the higher voltage and so the 5.5V values should be used.

Note 6: At supply voltages (VCC – GND) approaching 2V the analog switch on resistance becomes extremely non-linear. Therefore it is recommended that

these devices be used to transmit digital only when using these supply voltages.

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