ADG5208SRUZ-EP-RL7 Datasheet ADG5208SRUZ-EP-RL7, ADG5209SRUZ-EP-RL7, ADG5209SRU-EP-RL7 | P10-P12

ADG5208-EP/ADG5209-EP Enhanced Product

Rev. B | Page 10 of 20

PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS

A0

1

EN

2

V

SS

3

S1

4

A1

16

A2

15

GND

14

V

DD

13

S2

5

S5

12

S3

6

S6

11

S4

7

S7

10

D

8

S8

9

ADG5208-EP

TOP VIEW

(Not to Scale)

11475-002

Figure 2. ADG5208-EP Pin Configuration (TSSOP)

Table 8. ADG5208-EP Pin Function Descriptions

Pin No. Mnemonic Description

1 A0 Logic Control Input.

2 EN

Active High Digital Input. When low, the device is disabled and all switches are off. When high, the Ax logic

inputs determine the on switches.

3 V

SS

Most Negative Power Supply Potential. In single-supply applications, this pin can be connected

to ground.

4 S1 Source Terminal 1. This pin can be an input or an output.

5 S2 Source Terminal 2. This pin can be an input or an output.

6 S3 Source Terminal 3. This pin can be an input or an output.

7 S4 Source Terminal 4. This pin can be an input or an output.

8 D Drain Terminal. This pin can be an input or an output.

9 S8 Source Terminal 8. This pin can be an input or an output.

10 S7 Source Terminal 7. This pin can be an input or an output.

11 S6 Source Terminal 6. This pin can be an input or an output.

12

S5

Source Terminal 5. This pin can be an input or an output.

13 V

DD

Most Positive Power Supply Potential.

14 GND Ground (0 V) Reference.

15 A2 Logic Control Input.

16 A1 Logic Control Input.

Table 9. ADG5208-EP Truth Table

A2

A1

A0

EN

On Switch

X

1

X

1

X

1

0 None

0

1

0 0 1 1 2

0 1 0 1 3

0 1 1 1 4

1 0 0 1 5

1 0 1 1 6

1

0

1

7

1 1 1 1 8

1

X is don’t care.

Enhanced Product ADG5208-EP/ADG5209-EP

Rev. B | Page 11 of 20

A0

1

EN

2

V

SS

3

S1A

4

A1

16

GND

15

V

DD

14

S1B

13

S2A

5

S2B

12

S3A

6

S3B

11

S4A

7

S4B

10

DA

8

DB

9

ADG5209-EP

TOP VIEW

(Not to Scale)

11475-004

Figure 3. ADG5209-EP Pin Configuration (TSSOP)

Table 10. ADG5209-EP Pin Function Descriptions

Pin No. Mnemonic Description

1 A0 Logic Control Input.

2 EN

Active High Digital Input. When low, the device is disabled and all switches are off. When high,

Ax logic inputs determine the on switches.

3 V

SS

Most Negative Power Supply Potential. In single-supply applications, this pin can be connected

to ground.

4 S1A Source Terminal 1A. This pin can be an input or an output.

5 S2A Source Terminal 2A. This pin can be an input or an output.

6

S3A

Source Terminal 3A. This pin can be an input or an output.

7 S4A Source Terminal 4A. This pin can be an input or an output.

8 DA Drain Terminal A. This pin can be an input or an output.

9 DB Drain Terminal B. This pin can be an input or an output.

10 S4B Source Terminal 4B. This pin can be an input or an output.

11 S3B Source Terminal 3B. This pin can be an input or an output.

12

S2B

Source Terminal 2B. This pin can be an input or an output.

13 S1B Source Terminal 1B. This pin can be an input or an output.

14 V

DD

Most Positive Power Supply Potential.

15 GND Ground (0 V) Reference.

16 A1 Logic Control Input.

Table 11. ADG5209-EP Truth Table

A1 A0 EN On Switch Pair

X

1

X

1

0 None

0

1

0 1 1 2

1 0 1 3

1 1 1 4

1

X is don’t care.

ADG5208-EP/ADG5209-EP Enhanced Product

Rev. B | Page 12 of 20

TYPICAL PERFORMANCE CHARACTERISTICS

160

0

20

40

60

80

100

120

140

–25 –20 –15 –10 –5 0 5 10 15 20 25

ON RESISTANCE (Ω)

V

S

, V

D

(V)

T

A

= 25°C

11475-006

V

DD

= +18V

V

SS

= –18V

V

DD

= +20V

V

SS

= –20V

V

DD

= +22V

V

SS

= –22V

Figure 4. R

ON

as a Function of V

S

, V

D

(±20 V Dual Supply)

250

200

150

100

50

0

–20 –15 –10 –5 0 5 10 15 20

ON RESISTANCE (Ω)

V

S

, V

D

(V)

T

A

= 25°C

11475-007

V

DD

= +13.5V

V

SS

= –13.5V

V

DD

= +15V

V

SS

= –15V

V

DD

= +16.5V

V

SS

= –16.5V

V

DD

= +9V

V

SS

= –9V

Figure 5. R

ON

as a Function of V

S

, V

D

(±15 V Dual Supply)

450

400

350

300

250

200

150

100

50

0

0 1412108642

ON RESISTANCE (Ω)

V

S

, V

D

(V)

11475-005

T

A

= 25°C

V

DD

= 10.8V

V

SS

= 0V

V

DD

= 12V

V

SS

= 0V

V

DD

= 13.2V

V

SS

= 0V

V

DD

= 9V

V

SS

= 0V

Figure 6. R

ON

as a Function of V

S

, V

D

(12 V Single Supply)

160

140

120

100

80

60

40

20

0

0 403530252015105

ON RESISTANCE (Ω)

V

S

, V

D

(V)

11475-009

V

DD

= 32.4V

V

SS

= 0V

V

DD

= 36V

V

SS

= 0V

V

DD

= 39.6V

V

SS

= 0V

T

A

= +25°C

Figure 7. R

ON

as a Function of V

S

, V

D

(36 V Single Supply)

250

200

150

100

50

0

–15 –10 –5 0 5 10 15

ON RESISTANCE (Ω)

V

S

, V

D

(V)

V

DD

= +15V

V

SS

= –15V

11475-008

T

A

= –55°C

T

A

= –40°C

T

A

= +25°C

T

A

= +85°C

T

A

= +125°C

Figure 8. R

ON

as a Function of V

S

, V

D

for Different Temperatures,

±15 V Dual Supply

200

150

100

50

0

–20 –15 –10 –5 0 5 10 15 20

ON RESISTANCE (Ω)

V

S

, V

D

(V)

11475-100

V

DD

= +20V

V

SS

= –20V

T

A

= –55°C

T

A

= –40°C

T

A

= +25°C

T

A

= +85°C

T

A

= +125°C

Figure 9. R

ON

as a Function of V

S

, V

D

for Different Temperatures,

±20 V Dual Supply

ADG5208SRUZ-EP-RL7

ADG5208SRUZ-EP-RL7

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