Abstract: A method for detecting a short circuit includes driving a transistor in response to a drive signal, forming a drain signal of the transistor, generating an inverted signal in response to the drain signal, generating a detect signal when the inverted signal and a control signal are active, and providing the drive signal in an active logic state when the control signal is active and the detect signal is inactive, and in an inactive logic state otherwise.

Abstract: A method for detecting a short circuit includes driving a transistor in response to a drive signal, forming a drain signal of the transistor, generating an inverted signal in response to the drain signal, generating a detect signal when the inverted signal and a control signal are active, and providing the drive signal in an active logic state when the control signal is active and the detect signal is inactive, and in an inactive logic state otherwise.

Abstract: In one form, a multi-mode converter includes first, second, third, and fourth transistors having respective control terminals and arranged in a four-switch buck-boost (FSBB) configuration for coupling to an inductor. The multi-mode converter also includes a first driver having an input for receiving a first switching signal and an output, a first charge pump having an output, a second driver having an input for receiving a second switching signal and an output, a second charge pump having an output, and a control circuit. The control circuit alternatively couples an output of the first driver or an output of the first charge pump to the control terminal of the first transistor, and the output of the second driver or the output of the second charge pump to the control terminal of the fourth transistor in response to a mode of operation of the multi-mode power converter.

Abstract: In one form, a multi-mode converter includes first, second, third, and fourth transistors having respective control terminals and arranged in a four-switch buck-boost (FSBB) configuration for coupling to an inductor. The multi-mode converter also includes a first driver having an input for receiving a first switching signal and an output, a first charge pump having an output, a second driver having an input for receiving a second switching signal and an output, a second charge pump having an output, and a control circuit. The control circuit alternatively couples an output of the first driver or an output of the first charge pump to the control terminal of the first transistor, and the output of the second driver or the output of the second charge pump to the control terminal of the fourth transistor in response to a mode of operation of the multi-mode power converter.

Abstract: In accordance with an embodiment, an audio amplification circuit includes an input stage switchably connected to a switching network through a signal generator and a signal generator stage having a first input and a first output, the first input of the signal generator stage coupled to the first output of the input stage. An output stage is connected to the signal generator stage. In accordance with another embodiment, a method for inhibiting audible transients in an audio signal comprises providing an audio amplification circuit having at least one input and at least one output and coupling a first output to a first source of operating potential in response to one of starting or turning off the audio amplification circuit.

Abstract: In accordance with an embodiment, an audio amplification circuit includes an input stage switchably connected to a switching network through a signal generator and a signal generator stage having a first input and a first output, the first input of the signal generator stage coupled to the first output of the input stage. An output stage is connected to the signal generator stage. In accordance with another embodiment, a method for inhibiting audible transients in an audio signal comprises providing an audio amplification circuit having at least one input and at least one output and coupling a first output to a first source of operating potential in response to one of starting or turning off the audio amplification circuit.

Abstract: In one embodiment, an amplification circuit charges a filter capacitor (14) and an input capacitor (12) with a substantially constant current and subsequently forms a delay prior to operating the amplification circuit to amplify input signals.

Abstract: In one embodiment, an amplification circuit charges a filter capacitor (14) and an input capacitor (12) with a substantially constant current and subsequently forms a delay prior to operating the amplification circuit to amplify input signals.