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ManualsBrandsTEXAS INSTRUMENTS ManualsPMICsPMIC - gate drivers Inverting, Non-inverting High side SOIC 16

1

2

3

4

5

6

7

8

9

-40 20 80 140

I

EH

, I - Supply Current (mA)

EL

Ambient Temperature ( C)

o

-20 0 40 60 100 120

-0.7

-0.6

-0.5

-0.3

-0.8

0

-0.4

-0.2

-0.1

I , V - V = 0 V

EH E EE

I , V - V = 15 V

I , V - V = 0 V

I , V - V = 15 V

EH E EE

EL E EE

EL E EE

20 80

I - Supply Current (mA)

CC2

Load Capacitance (nF)

0 40 60 100

0

10

40

20

70

30

50

60

R = 10

f = 20 kHz

G

INP

W

V

CC2

CC2

= 15 V

V = 30 V

-40 20 80 140

I - Supply Current (mA)

CC2

Ambient Temperature ( C)

o

-20 0 40 60 100 120

4

7

5

9

6

12

8

10

11

V

CC2

CC2

= 15 V

V = 20 V

V = 30 V

CC2

50 200 300

I - Supply Current (mA)

CC2

Input Frequency (KHz)

0 100 150 250

6

8

7

12

9

10

11

No Load

V

CC2

CC2

CC2

= 15 V

V = 20 V

V = 30 V

-40 20 80 140

I - Supply Current (mA)

CC1

Ambient Temperature ( C)

o

-20 0 40 60 100 120

0

3

1

5

2

8

4

6

7

V = 4.5 V

V = 5 V

V = 5.5 V

CC1

CC1

CC1

V

CC1

= 3 V

V = 3.3 V

V = 3.6 V

CC1

CC1

50 200 300

I - Supply Current (mA)

CC1

Input Frequency (KHz)

0 100 150 250

1

3

5

2

7

4

6

V

CC1

CC1

= 3.3 V

V = 5 V

ISO5500

SLLSE64C –SEPTEMBER 2011–REVISED JUNE 2013

www.ti.com

TYPICAL CHARACTERISTICS

V

CC1

SUPPLY CURRENT vs. TEMPERATURE V

CC1

SUPPLY CURRENT vs. FREQUENCY

Figure 1. Figure 2.

V

CC2

SUPPLY CURRENT vs. TEMPERATURE V

CC2

SUPPLY CURRENT vs. FREQUENCY

Figure 3. Figure 4.

V

CC2

SUPPLY CURRENT vs. LOAD CAPACITANCE V

E

SUPPLY CURRENT vs. TEMPERATURE

Figure 5. Figure 6.

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