Wholly integrated switch-on control loop of a high voltage power transistor of a quasi resonant flyback converter

A flyback DC-DC converter employs a flyback transformer for storing and transferring energy to a load having an auxiliary winding whose voltage is compared by a comparator with a threshold to detect its crossing. As a consequence, a power transistor driving the primary winding of the transformer is switched on through a control flip-flop, for a new phase of conduction and accumulation of energy, whose duration is established by a secondary control loop of the output voltage producing the switching off of the power transistor for a successive energy transfer phase toward the load of the energy stored in the transformer during the preceding conduction phase. The converter has a wholly integrated control circuit that includes a second comparator of the voltage existing on the current terminal of the power transistor connected to the primary winding of the transformer with respect to the ground potential of the circuit. Furthermore, a delay network is coupled in cascade to the output of a first comparator and has an output coupled to a second input of a logic gate, so that under steady state functioning conditions of the converter, the setting of the flip-flop is done by the second comparator rather than by the first comparator.