Abstract: A power harvesting circuit includes a new transmitter topology that ensures that no junction of thin oxide transistors forming the power harvesting circuit will experience a voltage across junctions of the transistors that is more than a maximum tolerable junction voltage. A supplemental power feed circuit operates to provide a supplemental feed current to components in a transmitter circuit when power harvested from a receiver circuit is insufficient to adequately power these components of the transmitter circuit, which may occur during high frequency operation of communications channels coupling the transmitter and receiver circuits. The supplemental power feed circuit also operates to sink a shunt current when power harvested from the receiver circuit is more than is needed to power the components in the transmitter circuit.

Abstract: A power harvesting circuit includes a new transmitter topology that ensures that no junction of thin oxide transistors forming the power harvesting circuit will experience a voltage across junctions of the transistors that is more than a maximum tolerable junction voltage. A supplemental power feed circuit operates to provide a supplemental feed current to components in a transmitter circuit when power harvested from a receiver circuit is insufficient to adequately power these components of the transmitter circuit, which may occur during high frequency operation of communications channels coupling the transmitter and receiver circuits. The supplemental power feed circuit also operates to sink a shunt current when power harvested from the receiver circuit is more than is needed to power the components in the transmitter circuit.

Abstract: A regulator to provide an output voltage of a constant level at an output node. In an embodiment, the regulator contains a pass transistor to provide a conductive path between a pair of terminals, with the resistance offered by the path being determined by a control voltage on a third terminal of the pass transistor and the conductive path coupling a first reference potential (e.g., power supply) to the output node. An amplifier generates the control voltage based on a difference of a reference voltage and a voltage proportionate to the output voltage. A control unit turns on a current source when the voltage at the output node is below the desired constant level and turns on a current sink when voltage at said output node is above the constant level, to quickly correct for any variations in the output voltage due to load changes.

Abstract: A regulator to provide an output voltage of a constant level at an output node. In an embodiment, the regulator contains a pass transistor to provide a conductive path between a pair of terminals, with the resistance offered by the path being determined by a control voltage on a third terminal of the pass transistor and the conductive path coupling a first reference potential (e.g., power supply) to the output node. An amplifier generates the control voltage based on a difference of a reference voltage and a voltage proportionate to the output voltage. A control unit turns on a current source when the voltage at the output node is below the desired constant level and turns on a current sink when voltage at said output node is above the constant level, to quickly correct for any variations in the output voltage due to load changes.