Step 1) select a value for boost output voltage, An379 – Cirrus Logic AN379 User Manual

AN379

10

AN379REV2

Dimming Operation
The dimmer conduction time or phase cut information is extracted by the boost stage and supplied to the buck
stage as a digital parameter, dim, ranging from 0.05 to 1 as a measure of the normalized output power to be
delivered. The dim parameter controls both the normalized peak current in the inductor and total period
TT

BUCK

. Reaching a lower peak current requires less time T1

BUCK

and consequently less time T2

BUCK

to

discharge the inductor; at the same time, the idle time T3

BUCK

is increased to keep the total period TT

BUCK

nearly constant. Doing so reduces power, maintaining constant frequency, until the peak current is halved.
Further power reduction is obtained by increasing period TT

BUCK

without reducing the current.

When the current is moderately reduced, time T3

BUCK

is increased just enough before turning on FET Q

BUCK

to maintain a constant switching mode of operation. At deeper dimming levels, reducing the switching
frequency also reduces the capacitor losses.
Basic Design Equations
The DC voltage across any winding must be zero. The buck inductor winding is subject to voltage
(V

BST

- V

OUT

) during time T1

BUCK

and subject to voltage V

OUT

during time T2

BUCK

. The average voltage

across inductor L

BUCK

is calculated using Equation 4:

Solve Equation 4 for ratio (T2

BUCK

/T1

BUCK

), which returns Equation 5:

Solve for critical duty cycle



C

using Equations 2 and 5 yields Equation 6:

where



C

= critical duty cycle for critical period (T1

BUCK

+T2

BUCK

)

Step 1) Select a Value for Boost Output Voltage
The value of the boost output voltage must be greater than the maximum input AC line voltage peak. The
full-scale boost voltage V

BST(full)

should be as low as possible to minimize the FET voltage rating. This allows

for optimal performance. Nominal boost voltage V

BST

is determined by an internal parameter and scaled to

70% of full-scale boost voltage V

BST(full)

. Voltage V

BST

changes slightly depending on the type of dimmer

detected. Resistor R

BST

connected to the BSTOUT pin sets the system full-scale voltage and determines

boost output voltage V

BST

regulation, boost overvoltage protection, and clamp behavior. Full-scale

voltage V

BST(full)

is calculated using Equation 7:

where

I

ref

= internal full-scale reference

R

BST

= external resistor used to set the full-scale voltage and boost output voltage

Boost output voltage V

BST

is regulated by charging the boost output capacitor to its nominal value each half

line-cycle. For an AC line system, boost output voltage V

BST

droops to its lowest value towards the end of each

half line-cycle until the boosting process starts again in the next half line-cycle.

V

BST

V

OUT

–



 T1

BUCK





 V

OUT

T2

BUCK







–

0

=

[Eq. 4]

T2

BUCK

T1

BUCK

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

V

BST

V

OUT

–





V

OUT

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

=

[Eq. 5]



C

T1

BUCK

TT

BUCK

T3

BUCK

–





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

=

V

OUT

V

BST

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

=

[Eq. 6]

V

BST full





I

ref

R

BST

20k



+







=

[Eq. 7]