KR970028206A - Power control device and method - Google Patents

Abstract

The present invention provides an inductor made of a ferrite material, a current detector for detecting a current flowing through the inductor, a voltage detector for detecting a full-wave rectified voltage and an output voltage to the load stage, and an output voltage and a reference voltage of the load stage. The power factor is maintained at 1 with a power control unit that controls the input current so that the phase of the input current is maintained in phase with the input voltage based on the multiplied difference and the full-wave rectified voltage. It has the effect of spacing the space of the power supply and removing the noise filter part.

Description

Power control device and method

As this is a public information case, the full text was not included.

2 is a circuit diagram of a power supply control apparatus according to the present invention.

3 is a relationship diagram between a gate signal and a current showing an embodiment of a power supply control method according to the present invention;

Claims (8)

A power supply for converting commercial AC, comprising: a power supply for supplying commercial AC; A rectifier for rectifying the AC applied from the power source; An inductor positioned at a rear end of the rectifying unit and configured to reduce peak component of the rectified current and to reduce reactive power component; A smoothing capacitor connected to the inductor in series to reduce a ripple voltage of rectified DC; Switching means connected in series with said inductor and constituting a parallel circuit with said smoothing capacitor; A current detector for detecting a current flowing through the switching means and the smoothing capacitor; Means for distributing a voltage outputted to a load located at a rear end of the smoothing capacitor; Computing means for generating a difference between a predetermined voltage input from said distribution means and a reference voltage; Means for distributing a constant output voltage of the rectifier; Multiplication means for multiplying the output voltage of the divided rectifier by the output of the calculation means; And a current mode control unit outputting a control signal to the gate terminal of the switching means in accordance with the output of the multiplication means and the current detected by the current detection unit. The power supply control device according to claim 1, wherein the inductor is made of a ferrite core. The power supply control device according to claim 1, wherein the inductor is made of an amorphous core. The power supply control apparatus according to claim 1, wherein the switching means is an insulated gate bipolar transistor (IGBT). The inductor of claim 1, wherein the current mode control unit adds the current flowing through the smoothing capacitor and the switching means detected from the current mode detection unit to obtain a current flowing through the inductor, and outputs the output of the multiplication means as a current command signal. And a current control signal outputted to the gate terminal of the switching means for comparing and calculating the input current flowing through the inductor to maintain the phase of the input current flowing through the inductor in phase with the input voltage. A commercial AC power supply, a rectifier, a voltage detector, an inductor for reducing reactive power components, a current detector for detecting an input current flowing through the inductor, a smoothing capacitor connected in series with the inductor, and connected in parallel to the capacitor A power supply comprising a load, a switching means connected in series with the inductor, and configured to form a parallel circuit with the smoothing capacitor, and a power control unit connected to the voltage detector, the current detector, and the switching means. Detecting an output voltage; Generating an error between the detected voltage and a reference voltage; Detecting a full-wave rectified voltage of the rectifier; Performing a multiplication operation on the detected rectified voltage and the error; Detecting a current flowing in the full-wave rectified inductor of the input terminal; And controlling the switching means such that the detected current has a magnitude in a predetermined area having a predetermined upper limit and a lower limit based on the calculated signal and the detected current. A commercial AC power supply, a rectifier, a voltage detector, an inductor for reducing reactive power components, a current detector for detecting an input current flowing through the inductor, a smoothing capacitor connected in series with the inductor, and connected in parallel to the capacitor A power supply comprising a load, a switching means connected in series with the inductor, and configured to form a parallel circuit with the smoothing capacitor, and a power control unit connected to the voltage detector, the current detector, and the switching means. Detecting an output voltage; Generating an error between the detected voltage and a reference voltage; Detecting a full-wave rectified voltage of the rectifier; Performing a multiplication operation on the detected rectified voltage and the error; Detecting a current flowing in the full-wave rectified inductor of the input terminal; Based on the calculated signal and the detected current, the average value of the detected input current and the calculated signal are compared to amplify the difference, and compared with an external lamp signal having a predetermined frequency to control the switching element. Power control method comprising the steps of: A commercial AC power supply, a rectifier, a voltage detector, an inductor for reducing reactive power components, a current detector for detecting an input current flowing through the inductor, a smoothing capacitor connected in series with the inductor, and connected in parallel to the capacitor A power supply comprising a load, a switching means connected in series with the inductor, and configured to form a parallel circuit with the smoothing capacitor, and a power control unit connected to the voltage detector, the current detector, and the switching means. Detecting an output voltage; Generating an error between the detected voltage and a reference voltage; Detecting a full-wave rectified voltage of the rectifier; Performing a multiplication operation on the detected rectified voltage and the error; Detecting a current flowing in the full-wave rectified inductor of the input terminal; On the basis of the calculated signal and the detected current, if the instantaneous value of the detected current coincides with the calculated signal, the switching device is turned off and synchronized with an external clock signal having a predetermined frequency. And a control step of turning on. ※ Note: The disclosure is based on the initial application.