An364 – Cirrus Logic AN364 User Manual

AN364

AN364REV3

13

Step 15) Determine I

PK(BST)

, I

SAT

, and R

IPK

(R13)

The boost stage peak current has two distinct values:
• I

PK(BST)

is related to input power P

IN

. The boost inductor current reaches this value during a substantial

portion of the line-cycle, affecting the RMS value of the inductor and line current.

• I

SAT

is a constant value of 0.6A and is independent of the power level. I

SAT

is necessary to maintain the

dimmer TRIAC in the conduction mode. I

SAT

is a brief duration that immediately follows the dimmer firing

and has a minimal impact on RMS current and its heating effects. The boost inductor must be capable of
carrying the current I

SAT

without saturating.

The factor 3.64 accounts for a factor of 2 due to the triangular waveform, a factor of 1.41 due to voltage
sinusoidal shape, and a factor of 1.29 derived by simulation accounting for the line current envelope profile.
The current envelope profile approximates a sine wave in a stepped fashion according to the following
conditional rules:
• IF V

LINE

< 60V THEN I

PK(BST)

equals 0

• IF V

LINE

> 60V AND Phase > 20° THEN the boost inductor peak current equals 0.75



I

PK(BST)

• IF 45° < Phase < 135° AND V

BST

< V

MAX

THEN the inductor current peak equals I

PK(BST)

• IF 45° < Phase < 135° AND V

BST

> V

MAX

THEN the inductor current peak equals 0.75



I

PK(BST)

• IF V

LINE

< 60V OR Phase > 160° THEN I

PK(BST)

equals 0

Boost output voltage V

BST

is regulated by controlling the time when the current is held equal to I

PK(BST)

during

the central portion of the period between 45° and 135°.
Figure 7 shows the inductor peak current envelope and the AC line current waveform at nominal voltage in No-
dimmer Mode.

I

PK BST





3.64 P

IN



V

RMS

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

=

[Eq. 19]