LTC3452 Datasheet, PDF(9/16 Page) Linear Technology – Synchronous Buck-Boost MAIN/CAMERA White LED Driver

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LTC3452 Datasheet, PDF (9/16 Pages) Linear Technology – Synchronous Buck-Boost MAIN/CAMERA White LED Driver

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OPERATIO

duty cycle DC4SW. The input voltage VIN where the four

switch region begins is given by:

VIN

1â

VOUT

(150ns

â¢

and the input voltage VIN where the four switch region

ends is given by:

[ ] VIN = VOUT â¢ 1â (150ns â¢ f)

Boost Mode (VIN < VOUT)

In boost mode, switch A is always on and switch B is

always off. Referring to Figure 2, when the control voltage

VC is above voltage V3, switches C and D will alternate

conducting similar to a typical synchronous boost regula-

tor. The maximum duty cycle of the converter is limited to

88% typical and is reached when VC is above V4.

Forward Current Limit

If the current delivered from VIN through PMOS switch A

exceeds 1600mA (typical), switch A is shut off immedi-

ately. Switches B and D are turned on for the remainder of

the cycle in order to safely discharge the forward inductor

current at the maximum rate possible.

Reverse Current Limit

If the current delivered from VOUT backwards through

PMOS switch D exceeds 200mA (typical), switch D is shut

off immediately. Switches A and C are turned on for the

remainder of the cycle in order to safely discharge the

reverse inductor current at the maximum rate possible.

Undervoltage Lockout

To prevent operation of the power switches at high RDS(ON),

an undervoltage lockout is incorporated on the LTC3452.

When the input supply voltage drops below approximately

1.9V, the four power switches and all control circuitry are

turned off except for the undervoltage block, which draws

only a few microamperes.

LTC3452

Overtemperature Protection

If the junction temperature of the LTC3452 exceeds 130Â°C

for any reason, all four switches are shut off immediately.

The overtemperature protection circuit has a typical hys-

teresis of 11Â°C.

Soft-Start

The LTC3452 includes an internally fixed soft-start which

is active when powering up or coming out of shutdown.

The soft-start works by clamping the voltage on the VC

node and gradually releasing it such that it requires 650Âµs

to linearly slew from 0.9V to 2.1V. This has the effect of

limiting the rate of duty cycle change as VC transitions

from the buck region through the buck-boost region into

the boost region. Once the soft-start times out, it can only

be reset by entering shutdown, or by an undervoltage or

overtemperature condition.

Main Error Amp

The main error amplifier is a transconductance amplifier

with source and sink capability. The output of the main

error amplifier drives a capacitor to GND at the VC pin. This

capacitor sets the dominant pole for the regulation loop.

(See the Applications Information section for selecting the

capacitor value.) The error amp gets its feedback signal

from a proprietary circuit which monitors all 7 LED current

sources to determine which LED to close the regulation

loop on.

Safety Error Amp

The safety error amplifier is a transconductance amplifier

with sink only capability. In normal operation, it has no

effect on the loop regulation. However, if any of the LED

pins open-circuits, the output voltage will keep rising, and

safety error amp will eventually take over control of the

regulation loop to prevent VOUT runaway. The VOUT thresh-

old at which this occurs is approximately 4.5V.

3452f

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