LT3755-1 LINER [Linear Technology], LT3755-1 Datasheet - Page 21

LT3755-1

Manufacturer Part Number

LT3755-1

Description

60V 4-Switch Synchronous

Manufacturer

LINER [Linear Technology]

Datasheet

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APPLICATIONS INFORMATION

Power MOSFET Selections and Efficiency

Considerations

The LT3791 requires four external N-channel power MOS-

FETs, two for the top switches (switch M1 and M4, shown in

Figure 1) and two for the bottom switches (switch M2 and

M3 shown in Figure 1). Important parameters for the power

MOSFETs are the breakdown voltage, V

voltage, V

capacitance, C

The drive voltage is set by the 5V INTV

sequently, logic-level threshold MOSFETs must be used

in LT3791 applications. If the input voltage is expected

to drop below the 5V, then sub-logic threshold MOSFETs

should be considered.

In order to select the power MOSFETs, the power dis-

sipated by the device must be known. For switch M1, the

maximum power dissipation happens in boost operation,

when it remains on all the time. Its maximum power dis-

sipation at maximum output current is given by:

where ρ

accounting for the significant variation in on-resistance

with temperature, typically 0.4%/°C as shown in Figure 10.

For a maximum junction temperature of 125°C, using a

value of ρ

M1(BOOST)

GS(TH)

is a normalization factor (unity at 25°C)

= 1.5 is reasonable.

RSS

, on-resistance, R



 

, and maximum current, I

LED

• V

OUT



 

• ρ

DS(ON)

•R

BR(DSS)

DS(ON)

, reverse transfer

DS(MAX)

supply. Con-

, threshold

Switch M2 operates in buck operation as the synchronous

rectifier. Its power dissipation at maximum output current

is given by:

Switch M3 operates in boost operation as the control

switch. Its power dissipation at maximum current is

given by:

where C

turers. The constant k, which accounts for the loss caused

by reverse-recovery current, is inversely proportional to

the gate drive current and has an empirical value of 1.7.

For switch M4, the maximum power dissipation happens

in boost operation, when its duty cycle is higher than

50%. Its maximum power dissipation at maximum output

current is given by:

For the same output voltage and current, switch M1 has

the highest power dissipation and switch M2 has the low-

est power dissipation unless a short occurs at the output.

M2(BUCK)

M3(BOOST)

M4(BOOST)

RSS

is usually specified by the MOSFET manufac-

+ k • V

(

OUT

– V

OUT

•

– V



 

LED

•

•I

LED

)

• V

OUT

•C

OUT

• ρ

ROSS



 

•I

•R

LED

• ρ

• f

DS(ON)

LT3791

• ρ

•R

DS(ON)

•R

DS(ON)

3791f

LT3755-1 LINER [Linear Technology], LT3755-1 Datasheet - Page 21

LT3755-1

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