Abstract: A converter circuit includes a magnetic core, a primary winding, a secondary winding, a main rectification circuit, and an auxiliary rectification circuit. The primary winding and the secondary winding are wound around the magnetic core. The main rectification circuit and the auxiliary rectification circuit are both connected to the secondary winding and produce output voltages having different magnitudes. The auxiliary voltage powers the control and drive circuits for both the primary switches and the synchronous rectifiers used for the main rectification circuit.

Abstract: A frequency detector is configured to provide reliable acquisition by a clock recovery and data regeneration circuit. A preferred frequency detector utilizes the output characteristics of a phase detector to determine a frequency difference between the recovered clock signal and the incoming data signal. The frequency detector then outputs a signal representing the frequency difference to a control device, preferably to a voltage-controlled oscillator (VCO). Upon receiving the frequency difference signal, the control device, preferably operating within a controlled-feedback loop, will begin to adjust the underlying clock frequency to approximate the incoming data frequency.

Abstract: A converter circuit comprises a magnetic core, a primary winding, a secondary winding, a main rectification circuit, an auxiliary rectification circuit. The primary winding and the secondary winding are wound around the magnetic core. The main rectification circuit and the auxiliary rectification circuit are both connected to the secondary winding and produce output voltages having different magnitudes. The auxiliary voltage powers the control and drive circuits for both the primary switches and the synchronous rectifiers used for the main rectification circuit.