lt3430-1 Linear Technology Corporation, lt3430-1 Datasheet - Page 11

lt3430-1

Manufacturer Part Number

lt3430-1

Description

High Voltage, 3a, 100khz Step-down Switching Regulator

Manufacturer

Linear Technology Corporation

Datasheet

1.LT3430-1.pdf (28 pages)

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APPLICATIONS INFORMATION

Peak switch and inductor current can be signiﬁ cantly higher

than output current, especially with smaller inductors

and lighter loads, so don’t omit this step. Powdered iron

cores are forgiving because they saturate softly, whereas

ferrite cores saturate abruptly. Other core materials fall

somewhere in between. The following formula assumes

continuous mode of operation, but errs only slightly on

the high side for discontinuous mode, so it can be used

for all conditions.

EMI

Decide if the design can tolerate an “open” core geometry

like a rod or barrel, which have high magnetic ﬁ eld radiation,

or whether it needs a closed core like a toroid to prevent

EMI problems. This is a tough decision because the rods

or barrels are temptingly cheap and small and there are

no helpful guidelines to calculate when the magnetic ﬁ eld

radiation will be a problem.

Additional Considerations

After making an initial choice, consider additional factors

such as core losses and second sourcing, etc. Use the

experts in Linear Technology’s Applications department

if you feel uncertain about the ﬁ nal choice. They have ex-

perience with a wide range of inductor types and can tell

you about the latest developments in low proﬁ le, surface

mounting, etc.

Maximum Output Load Current

Maximum load current for a buck converter is limited by

the maximum switch current rating (I

for the LT3430/LT3430-1 is 3A. Unlike most current mode

converters, the LT3430/LT3430-1 maximum switch current

limit does not fall off at high duty cycles. Most current

mode converters suffer a drop off of peak switch current

for duty cycles above 50%. This is due to the effects of

slope compensation required to prevent subharmonic

oscillations in current mode converters. (For detailed

analysis, see Application Note 19.)

PEAK

OUT

LP P

OUT

(

OUT

( )( )( )( )

). The current rating

)(

–

f L

OUT

)

*US Patent # 6,498,466

The LT3430/LT3430-1 are able to maintain peak switch

current limit over the full duty cycle range by using patented

circuitry* to cancel the effects of slope compensation

on peak switch current without affecting the frequency

compensation it provides.

Maximum load current would be equal to maximum switch

current for an inﬁ nitely large inductor, but with ﬁ nite

inductor size, maximum load current is reduced by one-

half peak-to-peak inductor current (I

formula assumes continuous mode operation, implying

that the term on the right is less than one-half of IP.

For V

L = 15µH:

Note that there is less load current available at the higher

input voltage because inductor ripple current increases.

At V

conditions:

To calculate actual peak switch current with a given set

of conditions, use:

Continuous Mode

I –

OUT(MAX)

OUT MAX

SW PEAK

OUT

(

= 24V, duty cycle is 23% and for the same set of

LP-P

(

= 5V, V

)

= −

−

3 0 5 2 5

3 0 71 2 29

OUT

(

= 12V, V

2 15 10

OUT

2 15 10

(

5 0 52 24 5 0 52

5 0 52 12 5 0 52

(

L -P

LT3430/LT3430-1

•

OUT

( )( )

F(D1)

L f V

)

−

(

)

(

)(

(

)(

V V

= 0.52V, f = 200kHz and

200 10

( )( )( )

( )

L f V

)

−

(

−

I I N

LP-P

OUT

•

– .

−

). The following

–

)

OUT

( )

)

–

)

34301fa

lt3430-1 Linear Technology Corporation, lt3430-1 Datasheet - Page 11

lt3430-1

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