Abstract: Integrated circuits described herein implement an x-input logic gate. The integrated circuit includes a plurality of Schottky diodes that includes x Schottky diodes and a plurality of source-follower transistors that includes x source-follower transistors. Each respective source-follower transistor of the plurality of source-follower transistors includes a respective gate node that is coupled to a respective Schottky diode. A first source-follower transistor of the plurality of source-follower transistors is connected serially to a second source-follower transistor of the plurality of source-follower transistors.

Abstract: A digital I/Q reprocessing demodulator and a process for significantly reducing arctangent computational loads. This is done by ensuring that all calculations are carried out in the linear part of the curve. The architecture of the demodulator is such that the demodulator 100 utilizes two I/Q stages. The first stage is utilized to determine a phase offset with regards to the free-running I/Q clocks. In the second processing stage, the phase of the I/Q reference signals are phase shifted based on the initial estimate such that the incoming carrier signal is nearly in-phase.

Abstract: The invention provides a bidirectional level shifter which includes: a first signal terminal; a second signal terminal; a first switch, coupled between the first signal terminal and ground; an inverter receiving a signal from the first signal terminal; a Schottky diode including an anode and a cathode, the anode receiving a signal from the second signal terminal; a second switch, coupled between the cathode of the Schottky diode and the ground; a comparing circuit, comparing a reference voltage and a voltage at the second signal terminal to control the first switch, wherein the reference voltage is lower than a forward bias voltage of the Schottky diode; a first voltage source coupled to the first common node; and a second voltage source coupled to the second common node.

Abstract: A switching matrix has a first number of inputs and a second number of outputs as well as a conductor arrangement and controllable switching elements by means of which the inputs can be connected with the outputs. The controllable switching elements are fashioned such that at least two independent control signals are required to trigger a switching event.

Abstract: A logic gate is described that has an N-type region, which may be an N-well or N-tub, forming a cathode of one or more Schottky diodes and a collector of an NPN bipolar transistor. Accordingly, the Schottly diodes and transistor do not need to be isolated from one another, resulting in a very compact logic gate. The logic gate forms a portion of a NAND function in one embodiment. One or more Schottky diodes between the collector and base of the bipolar transistor act as a clamp to prevent the transistor from saturating. The clamp diodes can also be used to adjust the output voltage of the gate to ensure downstream transistors can be fully turned off.