lt1737is-trpbf Linear Technology Corporation, lt1737is-trpbf Datasheet - Page 25

lt1737is-trpbf

Manufacturer Part Number

lt1737is-trpbf

Description

High Power Isolated Flyback Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LT1737IS-TRPBF.pdf (28 pages)

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TYPICAL APPLICATIO S

therefore requires a physically larger transformer. The larg-

est size VERSA-PAC is used, a VP5-0083. Three windings

are paralleled for both the primary and secondary.

Overall power supply efficiency and output regulation ver-

sus load current at the nominal V

Figures 16 and 17.

5.25

5.00

4.75

0.01

Figure 16. Efficiency vs I

Figure 17. Load Regulation

0.1

LOAD

(A)

= 5V may be seen in

LOAD

1737 F16

1737 F17

NONISOLATED APPLICATION

While the LT1737 was designed to serve isolated flyback

applications, it is useful to note that it is also capable of

supporting nonisolated applications. These are performed

by providing a continuous pseudo-DC feedback signal to

the FB pin. (The part behaves as if the flyback waveform

is infinitely long.) Figure 18 demonstrates just such a

system.

A SEPIC topology is shown whereby a 8V to 16V input is

converted to a nonisolated 12V output. A conventional

resistive feedback divider, R3/R4 drives the FB pin. (Ca-

pacitor C7 serves to filter out high frequency ripple in the

output voltage.) A combination of an R/C network (R11/

C5) in parallel with a single capacitor (C9) on the V

provides the required loop compensation. The load com-

pensation function is unwanted, so the R

open and the R

dropout regulator is programmed to a nominal 8.25V

output by the R12/R13 resistor divider, and this allows the

LT1737 to drive M1, a logic level MOSFET. Minimum on

time programming resistor R5 is set to 33k to minimize the

required output preload. Minimum enable time has no

direct effect on steady state operation, but programming

resistor R7 has been set to 100k for rapid start-up. Enable

delay resistor is similarly set to 24k.

Overall power supply efficiency versus input voltage and

load current may be seen in Figure 19. Because this

application example utilizes a nonisolated topology, load

regulation is not an issue. It is typically 0.2% (25mV) from

no load to full load.

Other nonisolated switching topologies may be similarly

implemented. For example, Boost and NonIsolated Fly-

back readily suggest themselves. (A Nonisolated Flyback

topology also can be used to generate a negative output

voltage. In this case, the feedback is a dynamic waveform

derived from the primary side of the transformer, similar

to an isolated LT1737 application.)

CMPC

pin is grounded. An LT1121 low

OCMP

LT1737

pin is left

node

1737fa

lt1737is-trpbf Linear Technology Corporation, lt1737is-trpbf Datasheet - Page 25

lt1737is-trpbf

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