ADG1236YRUZ Datasheet, PDF(9/16 Page) Analog Devices – Low Capacitance, Low Charge Injection, ±15 V/12 V iCMOS™, Dual SPDT Switch

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ADG1236YRUZ Datasheet, PDF (9/16 Pages) Analog Devices – Low Capacitance, Low Charge Injection, ±15 V/12 V iCMOS™, Dual SPDT Switch

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ADG1236

TYPICAL PERFORMANCE CHARACTERISTICS

200

TA = 25Â°C

180

160

140

VDD = 13.5V

VSS = â13.5V

VDD = 15V

VSS = â15V

120

100

VDD = 16.5V

VSS = â16.5V

â18 â15 â12 â9 â6 â3 0 3 6 9 12 15 18

SOURCE OR DRAIN VOLTAGE (V)

Figure 4. On Resistance as a Function of VD (VS) for Dual Supply

250

VDD = 15V

VSS = â15V

200

TA = +125Â°C

150

TA = +85Â°C

TA = +25Â°C

100

TA = â40Â°C

â15

â10

â5

TEMPERATURE (Â°C)

Figure 7. On Resistance as a Function of VD (VS) for Different Temperatures,

Dual Supply

600

TA = 25Â°C

500

400

300

200

VDD = 4.5V

VSS = â4.5V

VDD = 5V

VSS = â5V

VDD = 5.5V

VSS = â5.5V

100

â6

â4

â2

SOURCE OR DRAIN VOLTAGE (V)

Figure 5. On Resistance as a Function of VD (VS) for Dual Supply

450

TA = 25Â°C

400

VDD = 10.8V

VSS = 0V

350

VDD = 12V

VSS = 0V

300

250

VDD = 13.2V

200

VSS = 0V

150

100

SOURCE OR DRAIN VOLTAGE (V)

Figure 6. On Resistance as a Function of VD (VS) for Single Supply

600

TA = +125Â°C

VDD = 12V

VSS = 0V

500

TA = +85Â°C

400

TA = +25Â°C

300

200

TA = â40Â°C

100

TEMPERATURE (Â°C)

Figure 8. On Resistance as a Function of VD (VS) for Different Temperatures,

Single Supply

0.20

0.15

VDD = 15V

VSS = â15V

VBIAS = +10V/â10V

0.10

0.05

IS (OFF)

â0.05

â0.10

ID, IS (ON)

â0.15

â0.20

100

120

TEMPERATURE (Â°C)

Figure 9. Leakage Currents as a Function of Temperature, Dual Supply

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