An375 – Cirrus Logic AN375 User Manual

AN375

AN375REV4

19

Reflected voltage V

Reflected

was initially selected to be 170V. To avoid incomplete layers in the transformer

winding voltage V

Reflected

was reduced to 165.6V. Use Equation 8 on page 10 to verify the FET breakdown

voltage V

Breakdown

. See Equation 29:

The low power and cost constraints attached to the design example make the RC snubber circuit a desirable
choice. The initial snubber resistance R

Snubber

is calculated by equating the energy E

leakage

stored in the

leakage inductance to the power P

leakage

dissipated by the snubber resistor during the entire switching

period TT at the peak of the line voltage. Set the leakage energy E

leakage

derived in Equation 5 on page 9

equal to the leakage power P

leakage

dissipated in Equation 9 on page 11. See Equation 30:

Knowing or by measuring that the leakage inductance is 1% of the transformer primary side inductance the
leakage inductance L

leakage

is calculated using Equation 31:

Use Equation 29 on page 19 to set the clamp voltage V

RC

equal to the zener clamp voltage V

Zener

.

See Equation 32:

To calculate the snubber resistance R

Snubber

, first establish values for peak current I

PK

, switching period TT,

and zener clamp voltage V

Zener

. Peak current I

PK

is derived using Equation 41 on page 20 to equal 513.6mA

and a maximum switching frequency F

SW(max)

of 56.7kHz implies a switching period TT equals 17.6µs. Use

Equation 30 to solve for snubber resistor R

Snubber

. See Equation 33:

Determine the RC time constant using Equation 34:

Calculate the snubber capacitance C

Snubber

using Equation 35:

Since the snubber capacitor C

Snubber

is not a critical component of the RC snubber circuit, the value of the

snubber capacitor C

Snubber

is selected as a standard 1nF.

Step 3) Determine the Flyback Transformer Turns Ratio
Using Equation 10 on page 11, calculate a turns ratio N based on the output voltage V

OUT

. See Equation 36:

V

Breakdown

V

INPK max





V

Zener

V

M

in

arg

+

+

187V 275V 138V

+

+

600V

=

=

=

[Eq. 29]

I

PK

2

L

leakage



2

------------------------------------

V

RC

2

TT



R

Snubber

-------------------------

=

[Eq. 30]

L

leakage

0.01 2600

H



26

H

=

=

[Eq. 31]

V

RC

V

Zener

V

Breakdown

V



INPK max





–

V

M

in

arg



+

600V

187V 138V

+





–

275V

=

=

=

=

[Eq. 32]

R

Snubber

2 V

RC

2



TT



I

PK

2

L

leakage



------------------------------------

2

275V





2



17.6

s



513.6mA





2

26

H



--------------------------------------------------------

388k



=

=

=

[Eq. 33]

RC

T

line

TT



2

--------------------------

16.667ms 17.6

s



2

----------------------------------------------------

383

s

=

=

=

[Eq. 34]

C

Snubber

RC

R

Snubber

------------------------

383

s

388k



------------------

0.987nF

=

=

=

[Eq. 35]

N

N

P

N

S

-------

V

Reflected

V

OUT

V

F

+

----------------------------

165.6V

27.9V 0.9V

+





----------------------------------------

5.75

=

=

=

=

[Eq. 36]