AlienCircuits
Member level 5
I would like to use an offline PFC flyback controller that operates in critical/boundary conduction mode.
http://cds.linear.com/docs/en/datasheet/3748fa.pdf
I am stuck in trying to figure out what my magnetizing inductance Lm for my flyback transformer should be! The datasheet only recommends part numbers, but I would like to know how they figured these out since my requirements are different.
In the datasheet, my switching frequency can vary between 4kHz and 150kHz to accommodate this mode. Do I make my Lm calculation at the maximum or the minimum frequency? I think the maximum current draw will force Ton to be maximized, and Ton can be largest at low frequency - so 4kHz. If I use my turns ratio and Vin/Vout ratio to calculate my duty cycle, I can then use the V = Ldi/dt formula to determine the L at minimum input voltage/maximum load current. Am I on the right track with this, or completely off?
http://cds.linear.com/docs/en/datasheet/3748fa.pdf
I am stuck in trying to figure out what my magnetizing inductance Lm for my flyback transformer should be! The datasheet only recommends part numbers, but I would like to know how they figured these out since my requirements are different.
In the datasheet, my switching frequency can vary between 4kHz and 150kHz to accommodate this mode. Do I make my Lm calculation at the maximum or the minimum frequency? I think the maximum current draw will force Ton to be maximized, and Ton can be largest at low frequency - so 4kHz. If I use my turns ratio and Vin/Vout ratio to calculate my duty cycle, I can then use the V = Ldi/dt formula to determine the L at minimum input voltage/maximum load current. Am I on the right track with this, or completely off?
