Abstract: A transmitter/receiver circuit comprises a wireless transmission/reception circuit having a first inductor for generating/detecting a magnetic induction field onto which an output of a radio frequency circuit is modulated and a second inductor in series with the first inductor for generating/detecting an electric induction field onto which the output of the radio frequency circuit is modulated. The second inductor comprises an electrically conductive track which at least partially surrounds a grounded electrically conductive core. The invention thus provides the transmitter and receiver for a communication system using near fields, and in which the input/output of the radio frequency circuitry can be balanced. The first coil produces the main magnetic induction field and the second coil is activated as an antenna producing an electric induction field. By this method, the operating range is increased and the relative positioning between both communication ends is less sensitive.

Abstract: A driver circuit for controlling a semiconductor power switch comprises a first power driver transistor and a second power driver transistor complementary to the first power driver transistor. Both power driver transistors have an output terminal connected to an input terminal of the semiconductor power switch. An input terminal of the second power driver transistor is connected to a half bridge circuit comprising a first pre-driver transistor and a second pre-driver transistor complementary to the first pre-driver transistor. Both first and second pre-driver transistors have an output terminal connected to the input terminal of the second power driver transistor. This provides fast switching times with low power consumption for the pre-driver transistors.