LT3782EFE-PBF LINER [Linear Technology], LT3782EFE-PBF Datasheet - Page 14

LT3782EFE-PBF

Manufacturer Part Number

LT3782EFE-PBF

Description

2-Phase Step-UP DC/DC Controller

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT3782EFE-PBF.pdf (20 pages)

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LT3782

APPLICATIONS INFORMATION

For a given V

and then derive the output RMS ripple current from Figure

6. After choosing output capacitors with sufﬁ cient RMS

ripple current rating, we also need to consider the ESR

requirement if electrolytic caps, tantulum caps, POSCAPs

or SP CAPs are selected. Given the required output ripple

voltage spec ΔV

ripple current ΔI

the output capacitor to be

External Regulator to Bias Gate Drivers

For applications with V

may get too high. To reduce heat, an external regulator

between 12V to 14V should be used to override the internal

and BGATE2 (see Figure 7).

Efﬁ ciency Considerations

The efﬁ ciency of a switching regulator is equal to the out-

put power divided by the input power (¥100%). Percent

efﬁ ciency can be expressed as:

GBIAS

% Efﬁ ciency = 100% – (L1 + L2 + L3 + …),

ESR ≤

regulator to supply the current needed for BGATE1

ΔV

ΔI

OUT

and V

OUT

(in RMS value) and the calculated RMS

, one can estimate the ESR value of

OUT

, we can calculate the duty cycle D

higher than 24V, the IC temperature

3782 F07

LT3782

GBIAS1

GBIAS2

GBIAS

Figure 7

2μF

where L1, L2, etc. are the individual loss components

as a percentage of the input power. It is often useful to

analyze individual losses to determine what is limiting

the efﬁ ciency and which change would produce the most

improvement. Although all dissipative elements in the

circuit produce losses, four main sources usually ac-

count for the majority of the losses in LT3782 application

circuits:

1. The supply current into V

of the DC supply current I

acteristics) and the MOSFET driver and control currents.

The DC supply current into the V

7mA and represents a small power loss (much less

than 1%) that increases with V

results from switching the gate capacitance of the power

MOSFET; this current is typically much larger than the

DC current. Each time the MOSFET is switched on and

then off, a packet of gate charge Q

GBIAS to ground. The resulting dQ/dt is a current that

must be supplied to the GBIAS capacitor through the

12V

Q(TOT)

pin by an external supply. In normal operation:

= V

≈ I

• (I

= f • Q

+ f • Q

)

(given in the Electrical Char-

. The V

pin is typically about

. The driver current

is transferred from

current is the sum

3782ff

LT3782EFE-PBF LINER [Linear Technology], LT3782EFE-PBF Datasheet - Page 14

LT3782EFE-PBF

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