ltc4414ems8-trpbf Linear Technology Corporation, ltc4414ems8-trpbf Datasheet - Page 7

ltc4414ems8-trpbf

Manufacturer Part Number

ltc4414ems8-trpbf

Description

36v, Low Loss Powerpath Controller For Large Pfets

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC4414EMS8-TRPBF.pdf (12 pages)

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APPLICATIO S I FOR ATIO

Introduction

The system designer will find the LTC4414 useful in a

variety of cost and space sensitive power control applica-

tions that include low loss diode OR’ing, fully automatic

switchover from a primary to an auxiliary source of power,

microcontroller controlled switchover from a primary to

an auxiliary source of power, charging of multiple batter-

ies from a single charger and high side power switching.

External P-Channel MOSFET Transistor Selection

Important parameters for the selection of MOSFETs are

the maximum drain-source voltage V

voltage V

The maximum allowable drain-source voltage, V

must be high enough to withstand the maximum drain-

source voltage seen in the application.

The maximum gate drive voltage for the primary MOSFET

is set by the smaller of the V

clamping voltage V

monly used, but if a low supply voltage limits the gate

voltage, a sub-logic level threshold MOSFET should be

considered. The maximum gate drive voltage for the

auxiliary MOSFET, if used, is determined by the external

resistor connected to the STAT pin.

As a general rule, select a MOSFET with a low enough

load current and an achievable V

operates in the linear region and acts like a voltage

controlled resistor. If the MOSFET is grossly undersized,

it can enter the saturation region and a large V

result. However, the drain-source diode of the MOSFET, if

forward biased, will limit V

the load current, will likely result in excessively high

MOSFET power dissipation. Keep in mind that the LTC4414

will regulate the forward voltage drop across the primary

MOSFET at 20mV if R

current in amps. Achieving forward regulation will mini-

mize power loss and heat dissipation, but it is not a

necessity. If a forward voltage drop of more than 20mV is

acceptable then a smaller MOSFET can be used, but must

be sized compatible with the higher power dissipation.

DS(ON)

to obtain the desired V

can be calculated by dividing 0.02V by the load

GS(VT)

and on-resistance R

G(ON).

DS(ON)

A logic level MOSFET is com-

supply voltage or the internal

. A large V

is low enough. The required

. The MOSFET normally

while operating at full

DS(ON)

DS(MAX),

, combined with

threshold

DS(MAX),

may

Care should be taken to ensure that the power dissipated

is never allowed to rise above the manufacturer’s recom-

mended maximum level. The auxiliary MOSFET power

switch, if used, has similar considerations, but its V

be tailored by resistor selection. When choosing the

resistor value consider the full range of STAT pin current

Many types of capacitors, ranging from 0.1µF to 10µF and

located close to the LTC4414, will provide adequate V

bypassing if needed. Voltage droop can occur at the load

during a supply switchover because some time is required

to turn on the MOSFET power switch. Factors that deter-

mine the magnitude of the voltage droop include the

supply rise and fall times, the MOSFET’s characteristics,

the value of C

insignificant by the proper choice of C

is inversely proportional to the capacitance. Bypass ca-

pacitance for the load also depends on the application’s

dynamic load requirements and typically ranges from 1µF

to 47µF. In all cases, the maximum droop is limited to the

drain source diode forward drop inside the MOSFET.

Caution must be exercised when using multilayer ceramic

capacitors. Because of the self resonance and high Q

characteristics of some types of ceramic capacitors, high

voltage transients can be generated under some start-up

conditions such as connecting a supply input to a hot

power source. To reduce the Q and prevent these tran-

sients from exceeding the LTC4414’s absolute maximum

voltage rating, the capacitor’s ESR can be increased by

adding up to several ohms of resistance in series with the

ceramic capacitor. Refer to Application Note 88.

The selected capacitance value and capacitor’s ESR can be

verified by observing V

age transitions during dynamic conditions over the full

load current range. This should be checked with each

power source as well. Ringing may indicate an incorrect

bypass capacitor value and/or too low an ESR.

Since the analog controller’s thresholds are small (±20mV),

the V

S(SNK)

and SENSE Pin Bypass Capacitors

and SENSE Pin Usage

) that may flow through it.

and SENSE pin connections should be made in a

OUT

and the load current. Droop can be made

and SENSE for acceptable volt-

OUT

LTC4414

, since the droop

4414fc

can

ltc4414ems8-trpbf Linear Technology Corporation, ltc4414ems8-trpbf Datasheet - Page 7

ltc4414ems8-trpbf

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