LTC4442_15 Datasheet, PDF(8/14 Page) Linear Technology – High Speed Synchronous N-Channel MOSFET Drivers

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LTC4442_15 Datasheet, PDF (8/14 Pages) Linear Technology – High Speed Synchronous N-Channel MOSFET Drivers

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LTC4442/LTC4442-1

OPERATION

Overview

The LTC4442 receives a ground-referenced, low voltage

digital input signal to drive two N-channel power MOSFETs

in a synchronous buck power supply conï¬guration. The

gate of the low side MOSFET is driven either to VCC or GND,

depending on the state of the input. Similarly, the gate of

the high side MOSFET is driven to either BOOST or TS by

a supply bootstrapped off of the switch node (TS).

Input Stage

The LTC4442 employs a unique three-state input stage with

transition thresholds that are proportional to the VLOGIC

supply. The VLOGIC supply can be tied to the controller

ICâs power supply so that the input thresholds will match

those of the controllerâs output signal. Alternatively, VLOGIC

can be tied to VCC to simplify routing. An internal voltage

regulator in the LTC4442 limits the input threshold values

for VLOGIC supply voltages greater than 5V.

The relationship between the transition thresholds and the

three input states of the LTC4442 is illustrated in Figure 1.

When the voltage on IN is greater than the threshold VIH(TG),

TG is pulled up to BOOST, turning the high side MOSFET

on. This MOSFET will stay on until IN falls below VIL(TG).

Similarly, when IN is less than VIH(BG), BG is pulled up

to VCC, turning the low side (synchronous) MOSFET on.

BG will stay high until IN increases above the threshold

VIL(BG).

VIH(TG)

TG HIGH

TG LOW

TG HIGH

TG LOW

VIL(TG)

VIL(BG)

BG LOW

BG HIGH

BG LOW

VIH(BG)

BG HIGH

4442 F01

Figure 1. Three-State Input Operation

The thresholds are positioned to allow for a region in which

both BG and TG are low. An internal resistive divider will

pull IN into this region if the signal driving the IN pin goes

into a high impedance state.

One application of this three-state input is to keep both of

the power MOSFETs off while an undervoltage condition

exists on the controller IC power supply. This can be ac-

complished by driving the IN pin with a logic buffer that

has an enable pin. With the enable pin of the buffer tied

to the power good pin of the controller IC, the logic buf-

fer output will remain in a high impedance state until the

controller conï¬rms that its supply is not in an undervoltage

state. The three-state input of the LTC4442 will therefore

pull IN into the region where TG and BG are low until the

controller has enough voltage to operate predictably.

The hysteresis between the corresponding VIH and VIL

voltage levels eliminates false triggering due to noise

during switch transitions; however, care should be taken

to keep noise from coupling into the IN pin, particularly

in high frequency, high voltage applications.

Undervoltage Lockout

The LTC4442 contains undervoltage lockout detectors that

monitor both the VCC and VLOGIC supplies. When VCC falls

below 3.04V or VLOGIC falls below 2.65V, the output pins

BG and TG are pulled to GND and TS, respectively. This

turns off both of the external MOSFETs. When VCC and

VLOGIC have adequate supply voltage for the LTC4442 to

operate reliably, normal operation will resume.

Adaptive Shoot-Through Protection

Internal adaptive shoot-through protection circuitry

monitors the voltages on the external MOSFETs to ensure

that they do not conduct simultaneously. The LTC4442

does not allow the bottom MOSFET to turn on until the

gate-source voltage on the top MOSFET is sufï¬ciently

low, and vice-versa. This feature improves efï¬ciency by

4442fb

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