LT3573EMSEPBF LINER [Linear Technology], LT3573EMSEPBF Datasheet - Page 16

LT3573EMSEPBF

Manufacturer Part Number

LT3573EMSEPBF

Description

Isolated Flyback Converter without an Opto-Coupler

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT3573EMSEPBF.pdf (26 pages)

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applications inForMation

LT3573

The transformer turns ratio is selected such that the con‑

verter has adequate current capability and a switch stress

below 50V. Table 6 shows the switch voltage stress and

output current capability at different transformer turns

ratio.

Table 6. Switch Voltage Stress and Output Current Capability vs

Turns-Ratio

BIAS winding turns ratio is selected to program the BIAS

voltage to 3V~5V. The BIAS voltage shall not exceed the

input voltage.

The turns ratio is then selected as primary: secondary:

BIAS = 3:1:1.

2. Select the transformer primary inductance for target

The LT3573 requires a minimum amount of time to sample

the output voltage during the off‑time. This off‑time,

conditions. The converter also has a minimum current limit,

the minimum required inductance as defined as:

The transformer primary inductance also affects the

switching frequency which is related to the output ripple. If

above the minimum inductance, the transformer’s primary

inductance may be selected for a target switching frequency

range in order to minimize the output ripple.

The following equation estimates the switching frequency.

OFF(MIN)

MIN

1:1

2:1

3:1

4:1

switching frequency.

MIN

, of 250mA to help create this off‑time. This defines

, shall be greater than 350ns over all operating

SW(MAX)

N V

(

33.5

44.5

(V)

OUT

AT V

MIN

OFF

IN(MAX)

)

•

OUT(MAX)

OFF MIN

(

0.53

0.88

1.12

1.30

(A)

AT V

)

IN(MIN)

(

OUT

DUTY CYCLE

16~22

28~35

37~45

44~52

(%)

)

Table 7.Switching Frequency at Different Primary

Inductance at I

Note: The switching frequency is calculated at maximum output.

In this design example, the minimum primary inductance is

used to achieve a nominal switching frequency of 275kHz

at full load. The PA2454NL from Pulse Engineering is

chosen as the flyback transformer.

Given the turns ratio and primary inductance, a custom‑

ized transformer can be designed by magnetic component

manufacturer or a multi‑winding transformer such as a

Coiltronics Versa‑Pac may be used.

3. Select the output diodes and output capacitor.

The output diode voltage stress V

the output voltage and reflection of input voltage to the

secondary side. The average diode current is the load

current.

The output capacitor should be chosen to minimize the

output voltage ripple while considering the increase in

size and cost of a larger capacitor. The following equation

calculates the output voltage ripple.

4. Select the snubber circuit to clamp the switch

A flyback converter generates a voltage spike during switch

turn‑off due to the leakage inductance of the transformer.

In order to clamp the voltage spike below the maximum

rating of the switch, a snubber circuit is used. There are

many types of snubber circuits, for example R‑C, R‑C‑D and

voltage spike.

MAX

L (µH)

100

OUT

AT V

(kHz)

236

121

IN(MIN)

is the summation of

AT V

(kHz)

305

157

IN(MAX)

3573fb

LT3573EMSEPBF LINER [Linear Technology], LT3573EMSEPBF Datasheet - Page 16

LT3573EMSEPBF

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