lt3430-1 Linear Technology Corporation, lt3430-1 Datasheet - Page 24

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)

Current page: 24 of 28
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LT3430/LT3430-1

APPLICATIONS INFORMATION

DUAL OUTPUT SEPIC CONVERTER

The circuit in Figure 14 generates both positive and negative

5V outputs with a single piece of magnetics. The two induc-

tors shown are actually just two windings on a standard

Coiltronics inductor. The topology for the 5V output is a

standard buck converter. The – 5V topology would be a

simple ﬂ yback winding coupled to the buck converter if

C4 were not present. C4 creates a SEPIC (single-ended

primary inductance converter) topology which improves

regulation and reduces ripple current in L1. Without C4,

the voltage swing on L1B compared to L1A would vary

due to relative loading and coupling losses. C4 provides a

low impedance path to maintain an equal voltage swing in

L1B, improving regulation. In a ﬂ yback converter, during

switch on time, all the converter’s energy is stored in L1A

only, since no current ﬂ ows in L1B. At switch off, energy

is transferred by magnetic coupling into L1B, powering

the –5V rail. C4 pulls L1B positive during switch on time,

causing current to ﬂ ow, and energy to build in L1B and

C4. At switch off, the energy stored in both L1B and C4

supply the –5V rail. This reduces the current in L1A and

changes L1B current waveform from square to triangular.

For details on this circuit, including maximum output cur-

rents, see Design Note 100.

* L1 IS A SINGLE CORE WITH TWO WINDINGS

†

7.5V TO 60V

COILTRONICS #CTX25-4A

IF LOAD CAN GO TO ZERO, AN OPTIONAL

PRELOAD OF 1k TO 5k MAY BE USED TO

IMPROVE LOAD REGULATION

D1, D3: 30BQ060

CERAMIC

GND

100V

4.7µF

Figure 14. Dual Output SEPIC Converter

SHDN

SYNC

GND

0.022µF

LT3430

3.3k

BOOST

100µF

TANT

0.68µF

10V

220pF

POSITIVE-TO-NEGATIVE CONVERTER

The circuit in Figure 15 is a positive-to-negative topology

using a grounded inductor. It differs from the standard

approach in the way the IC chip derives its feedback

signal because the LT3430/LT3430-1 accepts only posi-

tive feedback signals. The ground pin must be tied to the

regulated negative output. A resistor divider to the FB pin

then provides the proper feedback voltage for the chip.

The following equation can be used to calculate maximum

load current for the positive-to-negative converter:

0.15 = Switch voltage drop at 3A

Example: with V

OUT

= Catch diode forward voltage

= 0.52V, I

MAX

= Minimum input voltage

= Maximum rated switch current

= Output voltage

L1B*

MMSD914TI

⎡

⎢

⎣

25µH

L1A*

4.99k

15.4k

–

= 3A: I

10V TANT

IN(MIN)

100µF

(

OUT

(

MAX

100µF

10V TANT

)(

= 5.5V, V

3430 F14

= 0.6A.

OUT

–5V

)( )( )

– . )(

OUT

)

f L

0 15

†

OUT

⎤

⎥

⎦

(

OUT

= 12V, L = 10µH,

OUT

)(

– . )

)

0 15

34301fa

lt3430-1 Linear Technology Corporation, lt3430-1 Datasheet - Page 24

lt3430-1

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