Precision rectifier

About: Precision rectifier is a research topic. Over the lifetime, 4952 publications have been published within this topic receiving 63668 citations. The topic is also known as: super diode.

Zero-voltage-switched, three-phase PWM rectifier inverter circuit

Abstract: A novel switching rectifier circuit that combines the conventional three-phase, 6-stepped PWM rectifier/inverter circuit with a simple, low-power switch commutation circuit to provide zero-voltage turn-on for the switches, and soft turn-off for the diodes. The main features of the new circuit include elimination of switching losses on the power switches and reverse recovery problems on the diodes, elimination of the need for any snubbers in the three-phase bridge, possibility of use of slower diodes in the power bridge, constant frequency operation, and no increase in component current and voltage stresses over the conventional PWM rectifier.

Full wave rectifier circuit using normally off JFETs

Abstract: A four terminal full wave rectifier circuit that can be used as a pin for pin replacement for the full wave diode rectifier circuit commonly used in DC power supply circuits. Two full wave rectifier circuits that can efficiently supply the DC currents required in both discrete and integrated circuits being operated at low DC supply voltages are disclosed. Both circuits utilize two n-channel, enhancement mode Junction Field Effect Transistors (JFET) and two p-channel, enhancement mode Junction Field Effect Transistors to replace the rectifier diodes used in a conventional full wave rectifier circuit. The forward voltage drop across each JFET is considerably smaller than the forward voltage drop of a conventional rectifier. In a first configuration, the JFETs are all symmetrical about the source and drain leads. Starter devices are connected between source and drain leads and current limiting devices are in series with the gate leads. The gate leads of the JFETs are connected to the input terminals of the circuit such that a full wave rectified version of the input signal is produced at the output of the circuit. In a second configuration, two asymmetrical n-channel and two asymmetrical p-channel JFETs are used to replace the four rectifier diodes found in a conventional full wave rectifier circuit. The gate of each JFET is connected to its source lead and a full wave rectified version of the input signal is then produced at the output of this circuit.

A Three-Phase Active Rectifier Topology for Bipolar DC Distribution

Abstract: A new three-phase active rectifier topology is proposed for bipolar dc distribution, which can achieve the independent dc-pole control, with only one two-level voltage source converter and an ac-side grounding inductor. The averaged large-signal model and linearized small-signal model of the rectifier are derived in the stationary reference frame. Moreover, a control system is proposed with proper controller parameters. Besides, the rectifier is tested on an experiment platform. Comprehensive experiment results are given and analyzed to validate the function of the proposed rectifier under different operation conditions, including the rectifier start-up performance, rectifier dynamics with unbalanced dc loads for two poles, and rectifier dynamics with asymmetrical dc voltages for two poles. Finally, the proposed rectifier is compared with other two existing ac–dc conversion approaches, in terms of required number and rating of components as well as power losses with different load imbalance levels, which further highlight some potential benefits of the proposed topology.

Inverter fault protection and frequency limiting circuit

Abstract: An inverter fault protection and frequency limiting circuit for inverters having controlled rectifier and antiparallel diode pairs is described for preventing short circuits of the inverter power supply and for limiting the operating frequency of the inverter. An inhibit circuit is responsive to controlled rectifier forward blocking voltages and antiparallel diode currents to generate a gate inhibit signal for one of the seriescoupled controlled rectifiers when the other one of the controlled rectifiers is not forward blocking or if the time duration of the current through the antiparallel diode thereof is less than a specified controlled rectifier turn-off time. A frequency limiting circuit is responsive to the gate inhibit signal for limiting the maximum operating frequency of the inverter.

Current-supply arrangement for an electronic remote control receiver

Abstract: A current supply arrangement for an electronic remote control receiver, wherein a series circuit comprising a protective impedance, a capacitor and a full-wave rectifier is connected between two input terminals intended for connection to an alternating current network, a voltage limiter is operatively associated with the full-wave rectifier.