FAN9611 Datasheet | onsemi

Description The FAN9611 interleaved dual Boundary- Conduction- Mode (BCM) Power- Factor- Correction (PFC) controller operates two parallel- connected boost power trains 180° out of phase. Interleaving extends the maximum practical power level of the control technique from about 300 W to greater than 800 W. Unlike the continuous conduction mode (CCM) technique often used at higher power levels, BCM offers inherent zero- current switching of the boost diodes, which permits the use of less expensive diodes without sacrificing efficiency. Furthermore, the input and output filters can be smaller due to ripple current cancellation and effective doubling of the switching frequency. The converters operate with variable frequency, which is a function of the load and the instantaneous input / output voltages. The switching frequency is limited between 16.5 k Hz and 525 k Hz. The Pulse Width Modulators (PWM) implement voltage- mode control with input voltage feedforward. When configured for PFC applications, the slow voltage regulation loop results in constant on- time operation within a line cycle. This PWM method, bined with the BCM operation of the boost converters, provides automatic power factor correction. The controller offer bias UVLO of 10 V / 7.5 V, input brownout, over- current, open- feedback, output over- voltage, and redundant latching over- voltage protections. Furthermore, the converters’ output power is limited independently of the input RMS voltage. Synchronization between the power stages is maintained under all operating conditions. Features - Sync- Lock Interleaving Technology for 180° Out- of- Phase Synchronization Under All Conditions - Automatic Phase Disable at Light Load - Dead- Phase Detect Protection - 2.0 A Sink, 1.0 A Source, High- Current Gate Drivers - High Power Factor, Low Total Harmonic Distortion - Voltage- Mode Control with (VIN)2 Feedforward - Closed- Loop Soft- Start with User- Programmable Soft- Start Time for Reduced Overshoot - Minimum Restart Frequency to...