In the current detection circuit that detects the output currents of a switching power supply circuit, an improved current detection circuit makes it possible to detect the output current directions of power supplies solves the malfunction of the power supplies vibrating or diverging during changes in load state and during parallel operation, and thus implements stable operation. The direction of an output current I2 can be detected by using the current detection circuit 8 that has multiple switching elements S1 to S4 each operating synchronously with an inverter circuit.

A DC-DC power converter is presented. According to one embodiment, the converter includes first and second transformers, and a double-ended input circuit, including first and second primary switches, for generating an alternating voltage across the primary windings of the first and second transformers. The converter also includes a control circuit (such as, for example, a PWM control circuit) for controlling the primary switches such that the primary switches are simultaneously OFF for a first time period during a switching cycle of the converter. In addition, the converter includes first and second synchronous rectifiers. The first synchronous rectifier is coupled to the secondary winding of the first transformer and the second synchronous rectifier is coupled to the secondary winding of the second transformer. The first synchronous rectifier may be for rectifying a voltage across the secondary winding of the first transformer and the second synchronous rectifier may be for rectifying a voltage across the secondary winding of the second transformer. Further, the control circuit is for controlling the first and second synchronous rectifiers such that the first and second synchronous rectifiers are simultaneously ON for a second time period during the switching cycle.

In one embodiment, an apparatus includes a transformer having a primary winding and a secondary winding and a switching circuit to facilitate a periodic application of an input voltage to the primary winding. The switching circuit includes an active switch and a capacitor commonly coupled to the primary winding. In one embodiment, the apparatus further includes a synchronous rectification circuit coupled to the secondary winding to generate a rectified signal, an output filter coupled to the synchronous rectification circuit to provide an output voltage in response to the rectified signal, and a control circuit coupled to the output filter to receive the output voltage and coupled in a switching control relationship with the active switch and the synchronous rectification circuit.