Abstract: An electronic power device is integrated monolithically in a semiconductor substrate. The device has a first power region and a second region, each region comprising at least one P/N junction formed of a first semiconductor region with a first type of conductivity, which first semiconductor region extends through the substrate from the top surface of the device and is diffused into a second semiconductor region with the opposite conductivity from the first. The device also includes an interface structure between the two regions, of substantial thickness and limited planar size, comprising at least one trench filled with dielectric material.
Abstract: A method for use in forming a capacitor having a hollow-cylinder electrode structure in a semiconductor device via controlled reactive etching of substantially only one semiconducting layer of a semiconductor device. In one embodiment, the device is a dynamic random access memory (DRAM) structure. In another embodiment, the device is a microprocessor.
Abstract: An external universal battery charging apparatus which can include external universal battery charger circuitry having at least one universal battery charger circuitry input and at least one universal battery charger circuitry output. The universal battery charger circuitry output can include at least one battery charger output, which itself can include at least one universal battery connector and at least one universal battery charger cable. The at least one universal battery charger circuitry output can include at least one adapter pass through output, which itself can include at least one connector adapted to operably connect to an electronic device. The external universal battery charger circuitry can include at least one battery recognition and parameter adjustment circuit, battery current parameter adjustment circuit, charged voltage parameter adjustment circuit, and maximum power draw parameter adjustment circuit.
Abstract: A line card integrates subscriber line interface circuitry, A/D and D/A converters, and digital signal processing technology. The digital signal processing technology performs many line card tasks such as switch hook detection, ground key detection, DC feed control, polarity reversal, ringing tests, fault detection, power cross detection, and ring trip detection. Actual subscriber loop parametric conditions may be determined by a digital signal processor using sensed small signals on both the A and B conductors of subscriber loop. By sensing small signals, saturation of sensing circuitry may be avoided. Furthermore, relatively high speed digital signal processing facilitates accurate and expeditious switch hook status determination.