LTC3731H Linear Technology, LTC3731H Datasheet - Page 17

LTC3731H

Manufacturer Part Number

LTC3731H

Description

Synchronous Buck Switching Regulator Controller

Manufacturer

Linear Technology

Datasheet

1.LTC3731H.pdf (32 pages)

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w w w . D a t a S h e e t 4 U . c o m

APPLICATIO S I FOR ATIO

able in case heights ranging from 2mm to 4mm. Other

capacitor types include Sanyo POS-CAP, Sanyo OS-CON,

Nichicon PL series and Sprague 595D series. Consult the

manufacturer for other specific recommendations.

Once the frequency and inductor have been chosen,

required peak inductor current. The current comparator

has a typical maximum threshold of 75mV/R

input common mode range of SGND to (1.1) • V

current comparator threshold sets the peak inductor cur-

rent, yielding a maximum average output current I

equal to the peak value less half the peak-to-peak ripple

current, ∆I

Allowing a margin for variations in the IC and external

component values yields:

The IC works well with values of R

0.02Ω.

The V

of the controller but also to the top and bottom gate

drivers on the LTC3731CUH and therefore must be by-

passed very carefully to ground with a ceramic capacitor,

type X7R or X5R (depending upon the operating tempera-

ture environment) of at least 1 µ F imme diately next to the

IC and preferably an additional 10µF placed very close to

the IC due to the extremely high instantaneous currents

involved. The total capacitance, taking into account the

voltage coefficient of ceramic capacitors, should be 100

times as large as the total combined gate charge capaci-

tance of ALL of the MOSFETs being driven. Good bypass-

ing close to the IC is necessary to supply the high transient

currents required by the MOSFET gate drivers while keep-

ing the 5V supply quiet enough so as not to disturb the very

small-signal high bandwidth of the current comparators.

SENSE

SENSE1,

SENSE

Decoupling

Selection for Output Current

pin supplies power not only to the internal circuits

SENSE2,

MAX

SENSE3

are determined based on the

SENSE

from 0.002Ω to

SENSE

and an

. The

MAX

Topside MOSFET Driver Supply (C

External bootstrap capacitors, C

pins, supply the gate drive voltages for the topside

MOSFETs. Capacitor C

charged though diode D

low. When one of the topside MOSFETs turns on, the

driver places the C

desired MOSFET. This enhances the MOSFET and turns on

the topside switch. The switch node voltage, SW, rises to

on, the boost voltage is above the input supply (V

30 to 100 times that of the total gate charge capacitance of

the topside MOSFET(s) as specified on the manufacturer’s

data sheet. The reverse breakdown of D

than V

The output voltage is set by an external resistive divider

according to the following formula:

The resistive divider is connected to the output as shown

in Figure 2.

Soft-Start/Run Function

The RUN/SS pin provides three functions: 1) ON/OFF, 2)

soft-start and 3) a defeatable short-circuit latch off timer.

Soft-start reduces the input power sources’ surge currents

by gradually increasing the controller’s current limit (pro-

portional to an internal buffered and clamped V

latchoff timer prevents very short, extreme load transients

from tripping the overcurrent latch. A small pull-up cur-

rent (>5µA) supplied to the RUN/SS pin will prevent the

overcurrent latch from operating. A maximum pull-up

current of 200µA is allowed into the RUN/SS pin even

though the voltage at the pin may exceed the absolute

maximum rating for the pin. This is a result of the limited

current and the internal protection circuit on the pin. The

following explanation describes how this function operates.

and the BOOST pin follows. With the topside MOSFET

+ V

OUT

IN(MAX).

). The value of the boost capacitor C

0 6 1

⎛

⎜

⎝

voltage across the gate-source of the

⎞

⎟

⎠

in the Functional Diagram is

from V

, connected to the BOOST

, D

when the SW pin is

LTC3731H

)

must be greater

needs to be

ITH

BOOST

). The

3731hf

LTC3731H Linear Technology, LTC3731H Datasheet - Page 17

LTC3731H

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