Datasheet

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CH4 = I

CH2 = V

= 3.8 V, V

= 1.3 V,

= 40 mA to 400 mA, T

= 25°C

200 mA/div100 mV/div

100 µs/div

= 3.3 V to 3.8 V, V

= 1.8 V,

= 100 mA to 1000 mA,

= 25°C

CH2 = V

CH1 = V

500 mV/div10 mV/div

500 µs/div

= 3.3 V to 3.8 V, V

= 2.8 V,

= 100 mA, T

= 25°C

CH2 = V

CH1 = V

500 mV/div10 mV/div

500 µs/div

CH4 = I

CH2 = V

= 3.8 V, V

= 1.8 V,

= 100 mA to 1000 mA, T

= 25°C

500 mA/div100 mV/div

100 µs/div

CH4 = I

= 3.8 V, V

LDO = 3.3 V,

= 1.8 V, I

= 2 mA to 180 mA,

= 25°C

CH2 = V

200 mA/div100 mV/div

100 µs/div

CH4 = I

CH2 =V

= 3.8 V, V

LDO = 3.3 V,

= 2.8 V, I

= 2 mA to 180 mA,

= 25°C

200 mA/div100 mV/div

100 µs/div

CH3 = V

Core

CH1 = V

Main

CH2 = I

COIL

Main

= 3.8 V, T

= 25°C

Main = 1.8 V, I

Main = 100 mA,

Core = 1.3 V, I

Core = 40 mA

100 mA/div 200 mA/div

50 mV/div50 mV/div

CH4 = I

COIL

Core

5 µs/div

CH3 = V

Core

CH1 = V

Main

CH2 = I

COIL

Main

= 3.8 V, T

= 25°C

Main = 1.8 V, I

Main = 500 mA,

Core = 1.3 V, I

Core = 400 mA

100 mA/div

20 mV/div

CH4 = I

COIL

Core

20 mV/div

100 mA/div

500 ns/div

CH1 = V

Main

CH2 = I

COIL

Main

CH3 = V

Core

CH4 = I

COIL

Core

= 3.8 V, V

Main = 1.8 V,

Main = 1 A, V

Core = 1.3 V,

Core = 400 mA, T

= 25°C

500 µs/div

200 mA/div

1 V/div1 V/div

500 mA/div

TPS65013

SLVS517A – AUGUST 2004 – REVISED JANUARY 2005

LINE TRANSIENT RESPONSE LINE TRANSIENT RESPONSE LOAD TRANSIENT RESPONSE

(LDO1) (LDO2) (CORE)

Figure 13. Figure 14. Figure 15.

LOAD TRANSIENT RESPONSE LOAD TRANSIENT RESPONSE LOAD TRANSIENT RESPONSE

(MAIN) (LDO1) (LDO2)

Figure 16. Figure 17. Figure 18.

OUTPUT RIPPLE (PWM = 0) OUTPUT RIPPLE (PWM = 1) START-UP TIMING

Figure 19. Figure 20. Figure 21.