An364 – Cirrus Logic AN364 User Manual

AN364

AN364REV3

15

The frequency range should be as high as possible without exceeding 75kHz. This strategy will keep the
fundamental and second harmonic below the 150kHz EMI requirements.

In most low-power designs, the boost inductor peak current I

PK(BST)

is much higher than the RMS value.

Specify the boost inductor turns such that the core will reach 3000Gauss when the current equals 600mA. To
protect against runaway, set the artificial load to a constant voltage to achieve nominal

V

BST

, then adjust the

value of R

IPK

to obtain nominal boost output current I

BST(nominal)

.

Measure the switching frequency in the high current region in the 45° to 90° AC phase angle range. Adjust the
boost inductor value to determine the desired frequency. Adjustments to the inductor value are made by
changing the gap. Increasing the gap is always safe, but reducing the gap may saturate the core. It may be
beneficial to redesign the boost inductor if changes to the inductor gap are greater than 20%.

Step 17) Determine Boost Output Capacitor
The boost stage output capacitor is also the flyback stage input capacitor. Determine the size of the boost
output capacitor using the following points:
• For a 120V line input system, capacitor C4 > 2

F/Watt of input power

• For a 230V line input system, capacitor C4 > 0.5

F/Watt of input power

Proper capacitor size is required to ensure that the following dimmer algorithms execute properly:
• Transition CCM to CRM properly
• No erroneous CCM events
• No CCM operation with trailing-edge dimmers
• No CCM operation in No-dimmer Mode
• Boost and flyback stages loop stability

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120V Min Freq

120V Max Freq

230V Min Freq

230V Max Freq

Power Multiplied by Inductance (Watts Multiplied by mH)

Sw

itching Frequency

(kHz

)

Figure 8. Switching Frequency vs Power



Inductance