Step 3) determine the buck stage timing, Step 5) calculate buck sense resistor, Step 6) calculate the buck inductance – Cirrus Logic AN379 User Manual

AN379

22

AN379REV2

It is desirable to maintain a minimum margin of 8V and to use a FET with a breakdown voltage of 50V. Solving
Equation 44 for voltage V

Margin

yields Equation 45:

Step 3) Determine the Buck Stage Timing
The buck stage operates in DCM at all times. Gain factor GAIN

TT

is defined as constant equal to 1.2. Solving

Equation 11 on page 11 for critical period (T1

BUCK

+T2

BUCK

) yields Equations 46:

Solving Equation 12 on page 11 for period T3

BUCK

yields Equation 47:

Step 4) Calculate Peak Current on the Buck Inductor
Use Equation 13 on page 11 to determine the peak current at the highest I

BUCKPK

. Solve Equation 48 for peak

current I

BUCKPK(max)

:

Step 5) Calculate Buck Sense Resistor
The voltage drop across sense resistor R

Buck(Sense)

must equal 0.525V when a maximum current of 1.0A

flows through sense resistor R

Buck(Sense)

. Using Equation 14 on page 12, solve Equation 49 for sense

resistor R

Buck(Sense)

:

where

R

BUCK(Sense)

= resistor R2 and selected as 0.51



Choosing a 0.51Ω standard value will assure margin against resistor tolerance. To prevent false triggering by
the comparator, pin BUCKSENSE has an internal blanking time of 250 ns. To reduce switching spikes, it is
recommended to add an additional 10

 resistor in series with pin BUCKSENSE.

Step 6) Calculate the Buck Inductance
Use Equation 6 on page 10 for the critical duty cycle at maximum boost output voltage V

BST(max)

and output

voltage V

OUT(max)

. Solve Equations 50 for critical duty cycle ∆

C(max/max)

:

Use Equations 16 and 17 on page 12 to express periods T1

BUCK

and T2

BUCK

using switching period TT

BUCK

,

critical duty cycle ∆

C

, and the effect of period T3

BUCK

. Calculate periods T1

BUCK

and T2

BUCK

at maximum

voltage V

BST(max)

and V

OUT(max)

using Equations 51 and 52, respectively:

V

M

in

arg

V

Breakdown

=

38V

–

50V 38V

–

12V

=

=

[Eq. 45]

T1

BUCK

T2

BUCK

+

TT

BUCK fb







GAIN

TT

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

6.67

s

1.2

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

5.56

s

=

=

=

[Eq. 46]

T3

BUCK

TT

BUCK fb

 

GAIN

TT

1

–







GAIN

TT

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

6.67

s

1.2 1

–







1.2

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

1.1

s

=

=

=

[Eq. 47]

I

BUCKPK max





2 I

OUT

GAIN

TT





2 430mA 1.2





1.0A

=

=

=

[Eq. 48]

R

BUCK Sense





V

BUCKPK th

 

I

BUCKPK

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

0.525V

1.0A

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

0.525



=

=

=

[Eq. 49]



C max/max





V

OUT max





V

BST max





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

=

12V 1.2V

+





32V

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

41.3%

=

=

[Eq. 50]

T1

BUCK

TT

BUCK fb

 

T3

BUCK

–



 

C max/max







6.67

s 1.1s

–



 0.413



2.3

s

=

=

=

[Eq. 51]

T2

BUCK

TT

BUCK fb

 

T3

BUCK

–





1



C max/max





–







6.67

s 1.1s

–



 0.587



3.3

s

=

=

=

[Eq. 52]