KR100988560B1 - Ac-dc converter using controlling phase angle - Google Patents

Abstract

PURPOSE: An AC-DC converter using phase angel control is provided to simplify a feedback circuit by using a fixed drop down regulator. CONSTITUTION: A transformer(210) of A power input terminal transforms input AC power into other AC level. A switching unit(220) controls a phase angle of the AC power inputted from the transformer of the power input terminal. A rectifier(230) changes the AC power inputted from the switching unit to DC power. A fixed drop down regulator(240) drops the DC power with a preset voltage level. The fixed drop down regulator includes a fixed drop down driver. The fixed drop down driver compares the output voltage of the rectifier with a reference voltage.

Description

AC-DC converter using controlling phase angle

The present invention relates to an AC-DC converter using phase angle control.

More specifically, the present invention relates to an AC-DC converter using a phase angle control that allows a fixed feedback regulator to form a feedback circuit, which has been previously dual, into a single feedback circuit.

The conventional linear supply device is a device that receives a commercial AC power supply of 220V so that a constant voltage is always supplied to an electronic device as a load.

In general, the linear power supply is composed of an input power supply for receiving commercial AC power of 220V, a transformer connected to the input power supply, an AC-DC converter consisting of a bridge diode, and a DC smoothing part composed of capacitance. When AC power is applied through the input power unit, the AC power is transformed into a voltage in the transformer consisting of the primary coil and the secondary coil, and the DC power is smoothed through the DC smoothing unit made of bridge diodes. It is supplied to an electronic device to operate the electronic device.

1 prevents overvoltage from being supplied to an electronic device by controlling a phase angle in a general linear power supply.

That is, the linear power supply of FIG. 1 is connected to an input power supply unit 110 receiving AC power and a phase angle control signal input from a phase angle control unit 150 to be described later connected to an output terminal of the input power supply unit 110. A switching means 120 that is turned on or off, a rectifier 130 connected to the switching means 120 to convert an AC voltage input through the switching means 120 into a DC power source, and the rectifier 130 of the It is connected to the rear end of the regulator 140 for converting the DC power output through the rectifier 130 into a predetermined voltage and connected to the rear end to supply the driving power of the electronic device, and to the output terminal of the rectifier 130 The input terminal is connected, receives the output of the rectifier 130 and compares it with the phase angle signal set as a reference, and generates a phase angle control signal using the comparison result, A phase angle control unit 150 for outputting the generated phase angle control signal to the switching means 120 to control the phase angle by controlling the on or off of the switching means 120 and to the output terminal of the regulator 140. The input terminal is connected, and the voltage controller 160 controls the output voltage of the regulator 140 to be constant at all times by comparing the output of the regulator 140 with a reference output voltage.

Referring to the operation of the linear feed device configured as described above are as follows.

First, the AC commercial power input through the input power supply unit 110 is supplied to the rectifier 130 through the switching means 120.

The rectifier 130 converts the input AC voltage into a DC power supply and outputs it to the regulator 140. The regulator 140 converts the input DC power to a predetermined voltage and is connected to a rear end. Supply to the driving power of.

In this case, the output of the rectifier 130 is fed back to the phase angle controller 150 having an input connected to the output terminal, and the phase angle controller 150 is a phase set based on the output of the rectifier 130 fed back. Each signal is compared and a phase angle control signal is generated using the result of the comparison.

The phase angle controller 150 outputs the phase angle control signal thus generated to the switching means 120, and the switching means 120 is turned on or off in response to the phase angle control signal. The voltage is input to the rectifier 130.

In addition, the output of the regulator 140 is fed back to the voltage controller 160 having an input connected to the output terminal, the voltage controller 160 compares the reference output voltage and the feedback voltage, and uses the comparison result to determine the regulator 140. By compensating for the output voltage of the) to ensure that a constant voltage is always output from the regulator (140).

However, the conventional linear power supply has a problem that the configuration is complicated by constituting a feedback circuit in a double, and there is a problem that the cost increases due to the increase of circuit components.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to provide a phase angle control to configure a feedback circuit that was previously made of a dual feedback circuit using a fixed download regulator The present invention provides an AC-DC converter.

One embodiment of the present invention proposed to solve the above technical problem, in the AC-DC converter using phase angle control,

Switching means 220 and the switching means 220 for controlling the phase angle of the AC phase by receiving the output of the transformer 210 of the power input stage and the output of the transformer 210 of the power input stage for converting the input AC power to another AC level Pre-set output is connected to the rectifier 230 and the rear end of the rectifier 230 and the rectifier 230 for receiving the controlled power to convert the phase angle to the DC power through the predetermined output The fixed drop-down regulator 240 and the fixed drop-down regulator 240 for supplying the output voltage by lowering the voltage level have the potential A divided by the first and second resistors and the output voltage of the regulator. The fixed drop-down driver 242 and the fixed drop-down regulator for controlling the semiconductor switch 241 by comparing the potential B divided by the third resistor and the fourth resistor. And a phase angle control unit 250 which receives the feedback voltage of the outputter 240 and compares the output voltage with a preset reference voltage and controls the magnitude of the generated phase angle according to the comparison result value.

The fixed drop down regulator 240 receives the output voltage of the fixed drop down regulator 240, compares a preset reference voltage, and outputs a switching control signal according to a comparison result. And a semiconductor switch 241 which is turned on or off by receiving the switching control signal of the fixed drop-down driver 242.

The output voltage output from the fixed drop down regulator 240 has a fixed voltage drop.

The switching means 220 changes the phase angle of the AC power input from the transformer 210 of the power input terminal in response to the phase angle control signal of the phase angle controller 250, and the AC power having the phase angle changed to the Characterized in that the input to the rectifier 230.

The switching means 220 is characterized in that the thyristor (SCR).

According to the present invention having the above-described configuration, operation, and preferred embodiments, the conventional dual feedback loop is configured as a single feedback loop, so that the configuration of the control unit is simplified, so that the configuration is easy.

In addition, the present invention has the effect of reducing costs due to the simplification of the circuit, eliminating double taps in the transformer, and improving efficiency by using the minimum voltage stress in the regulator switch. .

1 is a block diagram illustrating a configuration of a linear power supply apparatus according to the prior art.
2 is a view for explaining the configuration of a power converter using a phase angle control according to the present invention.
FIG. 3 is a schematic circuit diagram illustrating a configuration of a fixed drop down regulator applied to FIG. 2.
4 is a graph illustrating an output waveform of an input power supply unit and an output waveform of the switching unit applied to FIG. 2.

Hereinafter, an AC-DC converter using phase angle control according to the present invention will be described.

As shown in FIGS. 2 and 3, the AC-DC converter using the phase angle control of the present invention includes a transformer 210 of a power input stage for converting an input AC power to another AC level, and a transformer 210 of the power input stage. Switching means 220 for controlling the phase angle of the AC phase by receiving the output of the rectifier, Rectifier 230 for receiving the power controlled by the phase angle through the switching means 220 to convert into a DC power source, A fixed drop-down regulator 240 connected to a rear end of the rectifier 230 and supplying an output voltage by lowering a DC power output through the rectifier 230 by a predetermined output voltage level; and the fixed drop-down regulator In operation 240, the output voltage of the rectifier is divided by the potential A divided through the first resistor and the second resistor and the potential B divided by the third resistor and the fourth resistor. The fixed drop-down driver 242 controlling the conductor switch 241 and the output voltage of the fixed drop-down regulator 240 are fed back and compared with a preset reference voltage, and the phase generated according to the comparison result value. Phase angle control unit 250 for controlling the size of the angle.

The fixed drop down regulator 240 receives the output voltage of the fixed drop down regulator 240 and compares it with a preset reference voltage and outputs a switching control signal according to the comparison result. And a semiconductor switch 241 which is turned on or off by receiving the switching control signal of the fixed drop-down driver 242.

The output voltage output from the fixed drop down regulator 240 has a fixed voltage drop.

As illustrated in FIG. 4, the switching means 220 receives AC power inputted from the transformer 210 of the power input terminal in response to the phase angle control signal of the phase angle controller 250 (waveform of FIG. 4A). The phase angle is changed, and AC power (waveform (B) of FIG. 4) having the phase angle changed is input to the rectifier 230.

The switching means 220 is characterized in that the thyristor (SCR).

Referring to the operation of the power converter using the phase angle control configured as described above are as follows.

First, the transformer 210 of the power input terminal receives 220 V input AC power and converts it into another AC level, and outputs it to the rectifier 230 through the switching means 220. In this case, the switching means 220 receives the phase angle control signal of the phase angle control unit 250 and turns on or off to control the phase angle of the AC phase supplied to the transformer 210 of the input terminal to change the phase angle. Allow power to be output. That is, the phase angle controller 250 receives an output voltage output to the fixed drop-down regulator 240 and compares the input voltage with a preset reference voltage using the input output voltage as a comparison voltage.

According to the result of the comparison, the phase angle control signal is output to the switching means 220 so that the switching means 220 is ON only during the ON signal included in the phase angle control signal so that the AC power supply is rectifier. By supplying to 230, the magnitude of the phase angle of the AC power output through the switching means 220 is controlled.

As a result, the phase angle of the AC power input to the rectifier 230 depends on the output voltage of the fixed drop-down regulator 240. That is, as shown in FIG. 4, the AC power inputted to the switching means 220 (waveform (A) of FIG. 4) is changed in phase angle as shown in waveform (B) of FIG. 4 so that the rectifier 230 is changed. Will be displayed.

By controlling the phase angle of the AC power input to the rectifier 230, it is possible to easily change the output level of the DC power output from the rectifier 230.

Then, the rectifier 230 converts the input AC power into DC power and outputs it to the fixed drop-down regulator 240. The fixed drop-down regulator 240 outputs the voltage input from the rectifier 230 at a preset output level. It is converted into an output voltage having a and supplied to the driving power of the electronic device of the next stage. That is, the output voltage output from the fixed drop down regulator 240 has a fixed drop voltage.

In this case, the fixed drop down regulator 240 includes one semiconductor switch 241 and a fixed drop down driver 242 as shown in FIG. 3.

The fixed drop-down driver 242 outputs the output voltage of the rectifier 230 to the potential A divided by the first resistor R ₁ and the second resistor R ₂ and the output voltage of the fixed drop-down regulator 240. The semiconductor switch 241 is controlled by comparing the potential B divided by the third resistor R ₃ and the fourth resistor R ₄ . That is, the fixed drop down driver 242 corrects the input / output voltage difference of the fixed drop down regulator 240.

As described above, an output voltage having a fixed voltage drop in which the semiconductor switch 241 is turned on is outputted to the electronic device as a driving power to be driven.

As mentioned above, although preferred embodiments of the present invention have been described in detail, those of ordinary skill in the art to which the present invention pertains should realize the present invention without departing from the spirit and scope of the present invention as defined in the appended claims. Although various modifications or changes may be made, these are included in the spirit and scope of the invention as included in the appended claims.

210: transformer of power input terminal
220: switching means
230: rectifier
240: Fixed Drop-Down Regulator
241: semiconductor switch
242: fixed dropdown driver
250: phase angle control unit
R₁: first resistance
R₂: second resistance
R₃: third resistance
R₄: fourth resistor

Claims (5)

In an AC-DC converter using phase angle control,
A transformer 210 at the power input stage for converting the input AC power to another AC level;
Switching means 220 for receiving the output of the transformer 210 of the power input terminal to control the phase angle of the AC phase;
Rectifier 230 for receiving the power controlled by the phase angle through the switching means 220 to convert to a DC power source;
A fixed drop-down regulator 240 connected to a rear end of the rectifier 230 and supplying an output voltage by lowering a DC power output through the rectifier 230 by a predetermined output voltage level;
The fixed drop-down regulator 240 compares the potential A divided by the first and second resistors with the output voltage of the rectifier and the potential B divided by the third and fourth resistors with the output voltage of the regulator. A fixed drop down driver 242 for controlling the switch 241;
A phase angle controller 250 which receives the output voltage of the fixed drop-down regulator 240 and compares it with a preset reference voltage and controls the magnitude of the generated phase angle according to the comparison result value;
AC-DC converter using a phase angle control, characterized in that consisting of.
The method of claim 1,
The fixed drop down regulator 240 receives the output voltage of the fixed drop down regulator 240, compares a preset reference voltage, and outputs a switching control signal according to a comparison result. )Wow,
The semiconductor switch 241 is turned on or off by receiving the switching control signal of the fixed drop-down driver 242,
AC-DC converter using a phase angle control, characterized in that consisting of.
The method of claim 1,
The output voltage output from the fixed drop-down regulator 240 has a fixed voltage drop, AC-DC converter using a phase angle control.
The method of claim 1,
The switching means 220 changes the phase angle of the AC power input from the transformer 210 of the power input terminal in response to the phase angle control signal of the phase angle controller 250, and the AC power having the phase angle changed to the AC-DC converter using phase angle control, characterized in that the input to the rectifier 230.
The method of claim 1,
The switching means 220 is a thyristor (SCR) AC-DC converter using a phase angle control.

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