LTC3788-1_1 LINER [Linear Technology], LTC3788-1_1 Datasheet - Page 22

LTC3788-1_1

Manufacturer Part Number

LTC3788-1_1

Description

2-Phase, Dual Output Synchronous Boost Controller

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3788-1_1.pdf (30 pages)

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LTC3788-1

APPLICATIONS INFORMATION

a realistic load step condition. The initial output voltage

step resulting from the step change in output current may

not be within the bandwidth of the feedback loop, so this

signal cannot be used to determine phase margin. This

is why it is better to look at the ITH pin signal which is

in the feedback loop and is the ﬁ ltered and compensated

control loop response.

The gain of the loop will be increased by increasing R

and the bandwidth of the loop will be increased by de-

creasing C

is decreased, the zero frequency will be kept the same,

thereby keeping the phase shift the same in the most

critical frequency range of the feedback loop. The output

voltage settling behavior is related to the stability of the

closed-loop system and will demonstrate the actual overall

supply performance.

A second, more severe transient is caused by switching

in loads with large (>1μF) supply bypass capacitors. The

discharged bypass capacitors are effectively put in parallel

with C

alter its delivery of current quickly enough to prevent this

sudden step change in output voltage if the load switch

resistance is low and it is driven quickly. If the ratio of

should be controlled so that the load rise time is limited to

approximately 25 • C

require a 250μs rise time, limiting the charging current

to about 200mA.

Design Example

As a design example for one channel, assume V

12V(nominal), V

4A, V

The inductance value is chosen ﬁ rst based on a 30% ripple

current assumption. The highest value of ripple current

occurs at the maximum input voltage. Tie the PLLLPF

pin to GND, generating 350kHz operation. The minimum

inductance for 30% ripple current is:

LOAD

ΔI

SENSE(MAX)

OUT

to C

, causing a rapid drop in V

f L

OUT

•

. If R

⎛

⎜

⎝

is greater than 1:50, the switch rise time

= 75mV, and f = 350kHz.

−

is increased by the same factor that C

= 22V (max), V

LOAD

OUT

⎞

⎟

⎠

. Thus, a 10μF capacitor would

OUT

= 24V, I

. No regulator can

OUT(MAX)

A 6.8μH inductor will produce a 30% ripple current. The

peak inductor current will be the maximum DC value plus

one half the ripple current, or 9.25A.

The R

maximum current sense voltage speciﬁ cation with some

accommodation for tolerances:

Choosing 1% resistors: R

output voltage of 24.072V.

The power dissipation on the top side MOSFET can

be easily estimated. Choosing a Vishay Si7848BDP

MOSFET results in: R

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

The maximum output current peak is:

A low ESR (5mΩ) capacitor is suggested. This capacitor

will limit output voltage ripple to 23.1mV (assuming ESR

dominate ripple).

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 7. Figure 8 illustrates the current

waveforms present in the various branches of the 2-phase

synchronous regulators operating in the continuous mode.

Check the following in your layout:

1. Put the bottom N-channel MOSFETs MBOT1 and MBOT2

OUT

and the top N-channel MOSFETs MTOP1 and MTOP2

in one compact area with C

OUT PEAK

MAIN

SENSE

is chosen to ﬁ lter the square current in the output.

SENSE

(

•

≤

(

resistor value can be calculated by using the

⎡ ⎣

( . )(

)

9 25

1 7 24

(

( .

−

0 005 50

•

⎛

⎝ ⎜

)

DS(ON)

0 008

)

)(

= 5k and R

° ° −

= 0.012Ω, C

• (

OUT

(

⎞

⎠ ⎟

150

)

4 62

) • .

) ) (

⎤ ⎦

350

= 95.3k yields an

MILLER

0 008

kHz

)

= 150pF .

0 7

37881fa

LTC3788-1_1 LINER [Linear Technology], LTC3788-1_1 Datasheet - Page 22

LTC3788-1_1

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