ltc3862gn-1 Linear Technology Corporation, ltc3862gn-1 Datasheet - Page 27

ltc3862gn-1

Manufacturer Part Number

ltc3862gn-1

Description

Multi-phase Current Mode Step-up Dc/dc Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3862GN-1.pdf (40 pages)

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Part Number:

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APPLICATIONS INFORMATION

result, some iterative calculation is normally required to

determine a reasonably accurate value.

The power dissipated by the MOSFET in a multi-phase

boost converter with n phases is:

The ﬁ rst term in the equation above represents the I

losses in the device, and the second term, the switching

losses. The constant, k = 1.7, is an empirical factor inversely

related to the gate drive current and has the dimension

of 1/current.

The ρ

the R

Figure 19 illustrates the variation of normalized R

over temperature for a typical power MOSFET.

From a known power dissipated in the power MOSFET, its

junction temperature can be obtained using the following

formula:

Figure 19. Normalized Power MOSFET R

FET

DS(ON)

= T

term accounts for the temperature coefﬁ cient of

+ P

+ k • V

2.0

1.5

1.0

0.5

n • 1– D

of the MOSFET, which is typically 0.4%/ºC.

–50

FET

(

O(MAX)

• R

OUT

JUNCTION TEMPERATURE (°C)

MAX

TH(JA)

•

)

n • 1– D

(

O(MAX)

• R

DS(ON)

MAX

100

DS(ON)

)

• D

• C

38621 F19

MAX

RSS

150

vs Temperature

•

• f

DS(ON)

The R

the R

the case to the ambient temperature (R

of T

used in the iterative calculation process.

It is tempting to choose a power MOSFET with a very low

so, however, the gate charge Q

higher, which increases switching and gate drive losses.

Since the switching losses increase with the square of

the output voltage, applications with a low output voltage

generally have higher MOSFET conduction losses, and

high output voltage applications generally have higher

MOSFET switching losses. At high output voltages, the

highest efﬁ ciency is usually obtained by using a MOSFET

with a higher R

can easily be split into two components (conduction and

switching) and entered into a spreadsheet, in order to

compare the performance of different MOSFETs.

Programming the Current Limit

The peak sense voltage threshold for the LTC3862-1 is

75mV at low duty cycle and with a normalized slope gain of

1.00, and is measured from SENSE

illustrates the change in the sense threshold with varying

duty cycle and slope gain.

DS(ON)

TH(JC)

can then be compared to the original, assumed value

TH(JA)

in order to reduce conduction losses. In doing

Figure 20. Maximum Sense Voltage Variation

with Duty Cycle and Slope Gain

for the device plus the thermal resistance from

to be used in this equation normally includes

DS(ON)

and lower Q

DUTY CYCLE (%)

SLOPE = 1

SLOPE = 1.66

SLOPE = 0.625

is usually signiﬁ cantly

LTC3862-1

. The equation above

to SENSE

TH(CA)

38621 F20

100

). This value

–

. Figure 20

38621f

ltc3862gn-1 Linear Technology Corporation, ltc3862gn-1 Datasheet - Page 27

ltc3862gn-1

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