LTC3773EG-PBF LINER [Linear Technology], LTC3773EG-PBF Datasheet - Page 26

LTC3773EG-PBF

Manufacturer Part Number

LTC3773EG-PBF

Description

Triple Output Synchronous 3-Phase DC/DC Controller with Up/Down Tracking

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3773EG-PBF.pdf (32 pages)

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APPLICATIONS INFORMATION

LTC3773

that the minimum on-time of 130ns is not violated. The

minimum on-time occurs at maximum V

The R

maximum current sense voltage speciﬁ cation with a con-

servative maximum sense current threshold of 55mV:

Use a commonly available 0.003Ω sense resistor.

Since the output voltage is below 2.4V the output resistive

divider will need to be sized to not only set the output voltage

but also to absorb the SENSE pin’s speciﬁ ed input current.

Choosing 1% resistors; R1 = 10k and R2 = 20k yields an

output voltage of 1.8V.

The power dissipation on the top side MOSFET can be

easily estimated. Choosing a Renesas HAT2168H MOSFET

results in: R

At maximum input voltage with T (estimated) = 50°C:

Using a Renesas HAT2165H as a bottom MOSFET, the

worst-case power dissipation by the synchronous MOSFET

under normal operating conditions at elevated ambient

temperature and an estimated 50°C junction temperature

rise is:

ON(MIN)

SYNC

SENSE

MAIN

(MAX)

SENSE

(13.5m ) + (22V)

= 30k

DS(ON)

22V 1.8V

= 30k

resistor value can be calculated by using the

5 1.8

1.8V

17.3A

55mV

22V

IN(MAX)

22V

OUT

(15)

= 13.5mΩ, C

2.4V V

2.4V 1.8V

3.2m

1.8

0.6V

(15)

[

1+ (0.005)(50°C 25°C)

22V(220kHz)

(220kHz) = 0.612W

OUT

(1.125)(5.3m ) = 1.23W

1.8V

MILLER

= 30k

15A

= 6nC/25V = 240pF.

= 372ns

(2 )(240pF)

]

A short-circuit to ground will result in a folded back

current of

PC Board Layout Checklist

When laying out the printed circuit board, the following

checklist should be used to ensure proper operation of

the IC. These items are also illustrated graphically in the

layout diagram of Figure 10. Check the following in the

PC layout:

1. Are the top N-channel MOSFETs located within 1cm of

2. Are the signal and power grounds kept separate? Keep

3. The V

4. Do the LTC3773 V

each other with a common drain connection at C

not attempt to split the input decoupling for the three

channels as it can cause a large resonant loop.

the SGND at one end of a printed circuit path thus

preventing MOSFET currents from traveling under

the IC. The SGND pin should be used to hook up all

control circuitry on one side of the IC. The combined

LTC3773 SGND pin and the ground return of C

return to the combined C

capacitor (–) terminals should be connected as close

as possible to the (–) terminals of the input capacitor

by placing the capacitors next to each other and away

from the charge pump circuitry. The path formed by

the top N-channel MOSFET, Schottky diode and the C

capacitor should have short leads and PC trace lengths.

The power ground returns to the sources of the bottom

N-channel MOSFETs, anodes of the Schottky diodes

and (–) plates of C

lengths as possible.

ately adjacent to the IC between the V

A 1μF ceramic capacitor of the X7R type is small enough

to ﬁ t very close to the IC to minimize the ill effects of the

large current pulses drawn to drive the bottom MOSFETs.

An additional 4.7μF to 10μF of ceramic, tantalum or other

very low ESR capacitance is recommended in order to

keep the internal IC supply quiet.

terminals of C

decoupling capacitor should be placed immedi-

0.003

15mV

OUT

? The resistive divider must be con-

resistive dividers connect to the (+)

, which should have as short lead

OUT

130ns(22V)

1.5μH

(–) terminals. The output

pin and SGND.

= 4.05A

VCC

must

? Do

3773fb

LTC3773EG-PBF LINER [Linear Technology], LTC3773EG-PBF Datasheet - Page 26

LTC3773EG-PBF

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