KR101549924B1 - Ac-dc converter - Google Patents

Abstract

An AC-DC converter according to the present invention includes an AC voltage input unit; A rectifying part for half-wave rectifying the input AC voltage; A voltage controller for smoothing the half-wave rectified voltage; And an output unit for outputting a voltage controlled by the voltage control unit, wherein the voltage control unit includes a switching device connected between the rectifying unit and the output unit and providing a switching pulse at an inflection point of the half-wave rectified voltage A smoother direct current voltage can be obtained by limiting the large input AC voltage and compensating the low voltage range of the half-wave rectified voltage.

Description

AC-DC converter {AC-DC CONVERTER}

The present invention relates to an AC-DC converter that stably outputs small power.

Generally, in an electric-electronic apparatus, an AC-DC converter is used which converts a commercial AC power to a DC power for supplying a necessary voltage. The AC-DC converter needs to limit the voltage input to the converter because the voltage range of the input commercial AC voltage is large. A conventional AC-DC converter uses a capacitor connected to an input terminal to limit an input voltage. FIG. 1 is a schematic diagram of a conventional AC-DC converter for limiting an input voltage by connecting a capacitor to an input terminal. Referring to FIG. 1, a conventional AC-DC converter 10 converts a high AC input voltage through a capacitor C connected to an input terminal into a half-wave rectified AC voltage through a rectifier 11. The converted voltage is controlled smoothly through a regulator IC (Regulator IC), and the final DC voltage is output through the output terminal. However, the AC-DC converter that limits the input voltage with the conventional capacitor has a problem that the input voltage range is narrow. In order to increase the input voltage range, the size of the capacitor must be further increased, have. It is conceivable to use a resistor instead of a capacitor in a conventional converter, but this is not suitable because it causes a lot of power loss.

[Prior Art] Korean Patent Registration No. 10-1163186

It is an object of the present invention to provide an AC-DC converter capable of obtaining a stable DC voltage even when a capacitor connected to an AC voltage input of a conventional AC-DC converter is removed.

To this end, the AC-DC converter according to one aspect of the present invention includes an AC voltage input unit; A rectifying part for half-wave rectifying the input AC voltage; A voltage controller for smoothing the half-wave rectified voltage; And an output unit for outputting a voltage controlled by the voltage control unit, wherein the voltage control unit includes a switching device connected between the rectifying unit and the output unit and providing a switching pulse at an inflection point of the half-wave rectified voltage .

Here, the switching device is an FET device. When the input voltage is equal to or higher than a predetermined voltage, the gate is turned off to prevent the voltage from being transferred to the output unit. When the voltage is lower than a predetermined voltage, (ON) and provides a switching pulse to the output unit.

According to another aspect of the present invention, the switching device is characterized in that a switch is turned on or off with a voltage output through the comparison circuit as an input voltage. In this case, The DC converter further includes a comparison circuit connected between the switching device and the rectifying part and outputting a difference between a voltage output through the rectifying part and a reference voltage.

Here, the reference voltage may be separately generated through the auxiliary power source.

In addition, the AC-DC converter of the present invention further includes a feedback circuit for detecting an output voltage of the output unit and controlling a reference voltage of the comparison circuit, thereby outputting a more stable DC voltage.

In this case, the feedback circuit preferably uses a photo coupler.

The output unit may further include an inductor element to more precisely control the output DC voltage.

According to the AC-DC converter of the present invention, it is possible to miniaturize the device by not using a capacitor at the AC voltage input terminal, and it is possible to operate at a wide input range, thereby increasing the capacity.

1 schematically shows a conventional AC-DC converter,
FIG. 2 is a conceptual circuit diagram for explaining features of an AC-DC converter according to an embodiment of the present invention;
3 is a waveform chart for explaining a method of controlling a voltage,
4 is a detailed circuit diagram of an AC-DC converter according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

2 is a conceptual circuit diagram illustrating the characteristics of an AC-DC converter according to an embodiment of the present invention. 2, the AC-DC converter 20 includes an AC voltage input unit 21, a rectification unit 22, a voltage control unit 23, and an output unit 24.

The AC voltage input unit 21 receives a commercial AC voltage from the outside. The rectifying unit 22 rectifies the inputted commercial AC voltage to generate a half-wave rectified voltage. The rectifying unit 22 may be configured using a reverse bias prevention diode.

The half-wave rectified voltage output through the rectifying unit 22 is smoothly controlled through the voltage control unit 23. The voltage controller 23 provides a switching pulse at the inflection point of the half-wave rectified voltage to control the half-wave rectified voltage more smoothly. The voltage control unit 23 may include a switching device 231. The switching device 231 may be a FET device 231 having a rated voltage that effectively operates under a predetermined voltage. The half-wave rectified voltage in the rectifying unit 22 is input to the FET device 231. When the input voltage is equal to or higher than a predetermined voltage, that is, the rated voltage of the FET device 231, the gate is turned off The voltage transmission to the output unit 24 is prevented, and as a result, the effect of limiting the voltage higher than necessary, which is input to the AC voltage input unit 21, is obtained. On the other hand, when the voltage input to the FET device 231 is a constant voltage, that is, in a low voltage range near the inflection point of the half-wave rectified voltage, the gate is turned on, And as a result, the low voltage in the vicinity of the inflection point is compensated, so that the output section 24 can output a smoothed DC voltage.

The smoothed voltage outputs the final DC voltage through the output 24. The output unit 24 may further include an inductor element 241. The final DC voltage output to the output unit 24 may be more precisely controlled by adjusting the capacity of the inductor element 241 .

FIG. 3 is a waveform chart for explaining a method of controlling a voltage using the circuit diagram shown in FIG. 2. Referring to FIG. 3, the FET device 231 is turned on near the inflection point of a half- On, the switching pulse is generated, and the switching pulse acts to compensate the low voltage range of the half-wave rectified voltage, and as a result, it is possible to generate a smoothed DC voltage.

The AC-DC converter according to an embodiment of the present invention includes a comparison circuit 41, an auxiliary power supply 42, and a feedback circuit 43, .

The comparison circuit 41 is connected between the FET device 231 and the rectification part 22 and outputs a difference between a voltage output through the rectification part 22 and a reference voltage. The reference voltage is provided through a separate auxiliary power source 42. A positive voltage is formed through a resistive voltage using a zener diode to form a positive reference voltage VB of the comparison circuit 41. [ Further, the half-wave rectified voltage output through the rectifying unit 22 forms a negative comparison voltage VA of the comparator circuit 41 through the resistor partial voltage. The positive reference voltage VB and the negative reference voltage VA output the voltage difference VC through the Op Amp comparison circuit 41 and input to the FET element 231. The FET element 231 is turned on or off with the VC as an input voltage. More specifically, when the VC is equal to or higher than the rated voltage of the FET 231, the FET 231 is turned off and the gate of the FET 231 is turned off, When the voltage range of the VC is near the inflection point of the half-wave rectified voltage, a gate is turned on to provide a switching pulse to the output section 24 to compensate for a low voltage in the vicinity of the inflection point.

The AC-DC converter according to the embodiment of the present invention includes a feedback circuit 43 for detecting the output voltage of the output unit 24 and controlling the reference voltage VB of the comparison circuit 41 . The feedback circuit 43 controls the VB according to the intensity of the current detected by the photocoupler 432 under the control of the output voltage control circuit 431. More specifically, the photocoupler 432 includes a light emitting portion and a light receiving portion, and the light emitting portion emits light in proportion to the magnitude of the current, and the light receiving portion outputs a current proportional to the light intensity. When the output voltage of the output unit 24 rises, the light emitting unit emits light in proportion thereto, and the output of the current increases in proportion to the light emitting unit. The output of the increased current causes the lowering of the reference voltage VB, which reduces the difference voltage VC between the reference voltage VB and the comparison voltage VA. Therefore, a smaller-sized switching pulse is provided to the output side in accordance with the reduced VC, and as a result, the output voltage of the outputting portion 24 is lowered. The output voltage of the output unit 24 can be kept constant through the feedback operation.

As described above, the AC-DC converter according to an embodiment of the present invention restricts a large input AC voltage through the switching action of the FET device and compensates a low voltage range of the half-wave rectified voltage, You can get

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: Conventional AC-DC converter
20: AC-DC converter of the present invention
21: AC voltage input unit 22:
23: voltage control unit 24: output unit
231: switching element (FET) 241: inductor
41: comparison circuit 42: auxiliary power source
43: feedback circuit 431: output voltage control circuit
432: Photo coupler

Claims (7)

An AC voltage input unit;
A rectifying part for half-wave rectifying the input AC voltage;
A voltage controller for smoothing the half-wave rectified voltage; And
And an output unit for outputting a voltage controlled by the voltage control unit,
Wherein the voltage control unit includes a switching element connected between the rectifying part and the output part to provide a switching pulse at an inflection point of the half-wave rectified voltage,
And a comparison circuit connected between the switching element and the rectification part for outputting a difference between a voltage output through the rectification part and a reference voltage,
Wherein the switching element turns on or off with the voltage output through the comparison circuit as an input voltage,
Wherein the switching element is an FET element and the switching pulse is provided through the FET element to prevent voltage transmission to the output section by turning off a gate when the input voltage is equal to or higher than a predetermined voltage, And the gate is turned on in a low voltage range near an inflection point of the rectified voltage to provide a switching pulse to the output section.
delete delete The method according to claim 1,
And the reference voltage is generated through an auxiliary power source. The method according to claim 1,
Further comprising a feedback circuit for detecting an output voltage of the output unit and controlling a reference voltage of the comparison circuit. 6. The method of claim 5,
Wherein the feedback circuit comprises a photo coupler. ≪ RTI ID = 0.0 > 11. < / RTI > The method according to claim 1,
Wherein the output section further comprises an inductor element for controlling an output voltage.

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