LTC3525L-3_15 Datasheet, PDF(7/12 Page) Linear Technology – 400mA Micropower Synchronous Step-Up DC/DC Converter with Output Disconnect

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LTC3525L-3_15 Datasheet, PDF (7/12 Pages) Linear Technology – 400mA Micropower Synchronous Step-Up DC/DC Converter with Output Disconnect

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LTC3525L-3

OPERATION

During start-up, the synchronous rectifier is not enabled,

and the internal P-channel synchronous rectifier acts

as a follower, causing the peak voltage on SW to reach

(VIN + 1V) typical. This limits inrush current by maintaining

control of the inductor current when VOUT is less than VIN.

To reduce power dissipation in the P-channel synchronous

rectifier when the output is shorted, a foldback feature is

incorporated that reduces the peak inductor current when

VIN is more than 1.7V greater than VOUT.

Normal Operation

Once VOUT has increased more than 0.2V typical above

VIN, and either voltage is above 1.8V, normal operation

begins, with synchronous rectification enabled. In this

mode, the internal N-channel MOSFET connected between

SW and GND stays on until the inductor current reaches a

maximum peak value, after which it is turned off and the

P-channel synchronous rectifier is turned on. It stays on,

delivering current to the output, until the inductor current

has dropped below a minimum value at which point it

turns off and the cycle repeats. When the output voltage

reaches its regulated value both switches are turned off

and the LTC3525L-3 goes to sleep, during which time the

output capacitor supplies current to the load. Once the

output voltage drops below the regulation value the IC

leaves sleep mode and switching is resumed.

The LTC3525L-3 has been designed for low output voltage

ripple. The output voltage ripple is typically only 20mV

peak-to-peak at light load and 60mV peak-to-peak at

full load using the minimum recommended 10ÂµF output

capacitor. An anti-ring circuit damps any oscillation at the

switch node when the inductor current falls to zero.

Power Adjust Feature

The LTC3525L-3 incorporates a feature that maximizes

efficiency at light load while providing increased power

capability at heavy load by adjusting the peak and valley

of the inductor current as a function of load. Lowering the

peak inductor current to 150mA at light load optimizes

efficiency by reducing conduction losses in the internal

MOSFET switches. As the load increases, the peak inductor

current is automatically increased to a maximum of 400mA.

At intermediate loads, the peak inductor current may vary

from 150mA to 400mA. Figure 2 shows an example of

how the inductor current changes as the load increases.

Please note that output capacitor values greater than 47ÂµF

will result in higher peak currents than necessary at light

load. This will lower the light load efficiency.

The valley of the inductor current is automatically adjusted

as well, to maintain a relatively constant inductor ripple

current. This keeps the switching frequency relatively

constant.

INDUCTOR

CURRENT

100mA/DIV

LOAD

CURRENT

50mA/DIV

10Âµs/DIV

3525l F02

Figure 2. Inductor Current Changing as a Function of Load

3525lfa

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