Abstract: A device includes a first amplifier and a second amplifier. The first amplifier includes an inverting input configured to be coupled to a feedback node of an output of a power converter, a first non-inverting input configured to couple to a first voltage node, a second non-inverting input, and an output. The second amplifier includes an inverting input coupled to the output of the first amplifier, a non-inverting input coupled to a second voltage node, and an output. The device also includes a first transistor coupled to the output of the first amplifier and having a control terminal coupled to the output of the second amplifier, a capacitor coupled to a ground node and to the second non-inverting input of the first amplifier, and a current node coupled to the capacitor.

Abstract: A device includes a first amplifier and a second amplifier. The first amplifier includes an inverting input configured to be coupled to a feedback node of an output of a power converter, a first non-inverting input configured to couple to a first voltage node, a second non-inverting input, and an output. The second amplifier includes an inverting input coupled to the output of the first amplifier, a non-inverting input coupled to a second voltage node, and an output. The device also includes a first transistor coupled to the output of the first amplifier and having a control terminal coupled to the output of the second amplifier, a capacitor coupled to a ground node and to the second non-inverting input of the first amplifier, and a current node coupled to the capacitor.

Abstract: A secure golf club, of the “wood” or “iron” variety intended for high-speed impact of a golf ball, whose shaft may be lengthened or shortened in a relatively quick and easy manner. In a preferred embodiment, the shaft includes one or more shaft extension sections rigidly attached to the shaft or to each other by reverse-thread connections, to reduce the tendency of the shaft sections to loosen during play. Shaft locking mechanisms are also preferably employed for preventing relative axial movement along the shaft and between the shaft sections. Preferably, the shaft has a substantially continuous and substantially smooth outer periphery, substantially void of gaps or steps creating stress points within the shaft that might lead to fracture or breakage of the golf club during play.

Abstract: An N-channel MOSFET is fabricated with its source, body and gate connected together and biased at a positive voltage with respect to its drain. The resulting two-terminal device functions generally in the manner of a diode but has a significantly lower turn-on voltage than a conventional PN diode. The device is therefore referred to as a “pseudo-Schottky mode”. Pseudo-Schottky diodes have numerous uses, but they are particularly useful when connected to shunt current from a conventional PN diode or MOSFET and thereby prevent such conditions as snapback and latchup which can result from the storage of minority carriers in a forward-biased PN junction. Also, because the pseudo-Schottky diode is a majority carrier device, the diode recovery time, amount of stored charge, and peak reverse current are much lower than in a conventional PN diode.

Abstract: An N-channel MOSFET is fabricated with its source, body and gate connected together and biased at a positive voltage with respect to its drain. The resulting two-terminal device functions generally in the manner of a diode but has a significantly lower turn-on voltage than a conventional PN diode. The device is therefore referred to as a "pseudo-Schottky diode". Pseudo-Schottky diodes have numerous uses, but they are particularly useful when connected to shunt current from a conventional PN diode or MOSFET and thereby prevent such conditions as snapback and latchup which can result from the storage of minority carriers in a forward-biased PN junction. Also, because the pseudo-Schottky diode is a majority carrier device, the diode recovery time, amount of stored charge, and peak reverse current are much lower than in a conventional PN diode.

Abstract: Multiple controllers connected in parallel to control external circuits such as dc-dc converters so that the external circuits supply power equally to a load such as a microprocessor. All of the controllers are connected and each controller includes an oscillator and a pulse width modulation circuit to synchronize the frequency of all of the oscillators such that the duty cycle of all the oscillators are equal. Each controller includes an over-current protection circuit and an over-voltage protection circuit which will cause the controller with a fault to discontinue supplying power to the load. Each controller further includes a circuit to adjust the duty cycle of the non-faulty controllers when a controller with a fault is caused to discontinue supplying power to the load.