LTC3788-1_1 LINER [Linear Technology], LTC3788-1_1 Datasheet - Page 13

LTC3788-1_1

Manufacturer Part Number

LTC3788-1_1

Description

2-Phase, Dual Output Synchronous Boost Controller

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3788-1_1.pdf (30 pages)

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OPERATION

The typical capture range of the LTC3788-1’s PLL is from

approximately 55kHz to 1MHz, and is guaranteed to

lock to an external clock source whose frequency is be-

tween 75kHz and 850kHz.

The typical input clock thresholds on the PLLIN/MODE

pin are 1.6V (rising) and 1.2V (falling).

Operation When V

When V

boost controller can behave differently depending on the

mode, inductor current and V

tinuous mode, the loop works to keep the top MOSFET

on continuously once V

charge pump delivers current to the boost capacitor to

maintain a sufﬁ ciently high TG voltage.

In pulse-skipping mode, if V

of the regulated V

current rises above a certain threshold and turns off if the

inductor current falls below this threshold. This thresh-

old current is set approximately to 4% of the maximum

current. If the controller is programmed to Burst Mode

operation under this same V

off regardless of the inductor current.

If V

any mode, the controller turns on TG regardless of the

inductor current. In Burst Mode operation, however, the

internal charge pump turns off if the entire chip is asleep

(the other channel is asleep or shut down). With the charge

pump off, there would be nothing to prevent the boost

capacitor from discharging, resulting in an insufﬁ cient TG

voltage needed to keep the top MOSFET completely on.

To prevent excessive power dissipation across the body

diode of the top MOSFET in this situation, the chip can be

switched over to forced continuous mode to enable the

charge pump, or a Schottky diode can also be placed in

parallel to the top MOSFET.

rises above 110% of the regulated V

rises above the regulated V

OUT

> V

voltage, TG turns on if the inductor

OUT

rises above V

is between 100% and 110%

window, then TG remains

voltage. In forced con-

OUT

. The internal

voltage, the

voltage in

Power Good

The PGOOD1 pin is connected to an open-drain of an in-

ternal N-channel MOSFET. The MOSFET turns on and pulls

the PGOOD1 pin low when the corresponding VFB1 pin

voltage is not within ±10% of the 1.2V reference voltage.

The PGOOD1 pin is also pulled low when the corresponding

RUN1 pin is low (shut down). When the VFB1 pin voltage

is within the ±10% requirement, the MOSFET is turned

off and the pin is allowed to be pulled up by an external

resistor to a source of up to 6V.

Operation at Low SENSE Pin Common Voltage

The current comparator in the LTC3788-1 is powered di-

rectly from the SENSE

mode voltage of SENSE

low as 2.5V, which is below the UVLO threshold. Figure 1

shows a typical application when the controller’s VBIAS

is powered from V

2.5V. If the voltage on SENSE

pin will be held low. When the SENSE voltage returns to

the normal operating range, the SS pin will be released,

initiating a new soft-start cycle.

BOOST Supply Refresh and Internal Charge Pump

Each top MOSFET driver is biased from the ﬂ oating

bootstrap capacitor C

ing each cycle through an external diode when the bot-

tom MOSFET turns on. There are two considerations to

keep the BOOST supply at the required bias level. During

start-up, if the bottom MOSFET is not turned on within

100μs after UVLO goes low, the bottom MOSFET will be

forced to turn on for ~400ns. This forced refresh gener-

ates enough BOOST-SW voltage to allow the top MOSFET

ready to be fully enhanced instead of waiting for the initial

few cycles to charge up. There is also an internal charge

pump that keeps the required bias on BOOST. The charge

pump always operates in both forced continuous mode

and pulse-skipping mode. In Burst Mode operation, the

charge pump is turned off during sleep and enabled when

the chip wakes up. The internal charge pump can normally

supply a charging current of 55μA.

OUT

while V

, which normally recharges dur-

and SENSE

pin. This enables the common

drops below 2.5V, the SS

supply can go as low as

LTC3788-1

–

pins to operate at as

37881fa

LTC3788-1_1 LINER [Linear Technology], LTC3788-1_1 Datasheet - Page 13

LTC3788-1_1

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