LT3755-1 LINER [Linear Technology], LT3755-1 Datasheet - Page 22

LT3755-1

Manufacturer Part Number

LT3755-1

Description

60V 4-Switch Synchronous

Manufacturer

LINER [Linear Technology]

Datasheet

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LT3791

APPLICATIONS INFORMATION

From a known power dissipated in the power MOSFET, its

junction temperature can be obtained using the following

formula:

The R

the R

the case to the ambient temperature (R

of T

used in the iterative calculation process.

Optional Schottky Diode (D3, D4) Selection

The Schottky diodes D3 and D4 shown in the Typical Ap-

plications section conduct during the dead time between

the conduction of the power MOSFET switches. They

are intended to prevent the body diode of synchronous

switches M2 and M4 from turning on and storing charge

during the dead time. In particular, D4 significantly reduces

reverse-recovery current between switch M4 turn-off and

TH(JC)

can then be compared to the original, assumed value

= T

TH(JA)

Figure 10. Normalized R

+ P • R

2.0

1.0

0.5

1.5

for the device plus the thermal resistance from

to be used in the equation normally includes

–50

TH(JA)

JUNCTION TEMPERATURE (°C)

DS(ON)

100

vs Temperature

TH(JC)

3791 F10

150

). This value

switch M3 turn-on, which improves converter efficiency

and reduces switch M3 voltage stress. In order for the

diode to be effective, the inductance between it and the

synchronous switch must be as small as possible, mandat-

ing that these components be placed adjacently.

INTV

An internal P-channel low dropout regulator produces 5V

at the INTV

the drivers and internal circuitry within the LT3791. The

INTV

and must be bypassed to ground with a minimum of 4.7µF

ceramic capacitor or low ESR electrolytic capacitor. An

additional 0.1µF ceramic capacitor placed directly adjacent

to the INTV

Good bypassing is necessary to supply the high transient

current required by MOSFET gate drivers.

Higher input voltage applications in which large MOSFETs

are being driven at high frequencies may cause the maxi-

mum junction temperature rating for the LT3791 to be

exceeded. The system supply current is normally dominated

by the gate charge current. Additional external loading of

the INTV

power dissipation calculations. Power dissipation for the

IC in this case is V

lowered. The junction temperature can be estimated by

using the equations given

where θ

For example, a typical application operating in continuous

current operation might draw 24mA from a 24V supply:

= T

= 70°C + 24mA • 24V • 28°C/W = 86°C

Regulator

pin regulator can supply a peak current of 67mA

+ (P

(in °C/W) is the package thermal impedance.

also needs to be taken into account for the

pin from the V

and PGND IC pins is highly recommended.

• θ

)

• I

INTVCC

supply pin. INTV

, and overall efficiency is

powers

3791f

LT3755-1 LINER [Linear Technology], LT3755-1 Datasheet - Page 22

LT3755-1

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