KR100968122B1 - Constant voltage circuit - Google Patents

Abstract

The present invention relates to a circuit for outputting a reference voltage that can be varied at a constant voltage. The present invention measures the error of the input reference voltage and compensates the error of the measured reference voltage with the input correction voltage. At this time, by setting and adjusting the input compensation voltage, a constant voltage circuit for correcting and outputting the reference voltage is provided. do. According to the present invention, since the correction voltage is set to measure the error of the input reference voltage and output the constant voltage, it is possible to provide a stable voltage according to each region.

Constant voltage, reference voltage, compensation voltage, variable resistor

Description

Constant voltage circuit {CONSTANT VOLTAGE CIRCUIT}

The present invention relates to a circuit for outputting a reference voltage that can be varied at a constant voltage.

In addition to owning a fairly expensive audio system or for audiophiles, there are electronic devices that need to be supplied with a stable power source. In particular, the power supply of the audio system is an important part that has the greatest impact on the safety and sound quality of the device, and is important for supplying a stable voltage and a constant frequency current and supplying power without distortion or noise.

Electricity supplied to domestic households in Korea has a frequency of 60Hz and fluctuates within 0.5%, so there is almost no need for special calibration equipment or facilities. However, although voltage is 100V or 220V as a reference value, there are many regions where fluctuation ranges around 10%, and there are cases where voltage varies with time in the same region.

Thus, in most equipment without a power supply, a correction device capable of supplying a stable voltage is required. In general, audio equipment provides a safety value that allows a 10% error in the rated voltage by design.However, even if the change is 5%, there is a difference in sound quality. Changes occur.

Therefore, a lot of research on a constant voltage device that can provide a stable voltage, and the present invention also relates to a device that can provide a stable voltage.

SUMMARY OF THE INVENTION An object of the present invention is to provide a constant voltage circuit capable of providing a stable voltage to an electronic device.

In order to achieve the above object, the present invention, the reference voltage input unit is a reference voltage input; A correction voltage input unit to input a correction voltage; A reference voltage error measuring unit measuring an error of a reference voltage input from the reference voltage input unit; A correction voltage setting unit configured to set a voltage of the correction voltage input from the correction voltage input unit to correct an error of the reference voltage measured by the reference voltage error measurement unit; A correction voltage adjusting unit controlling a voltage of the correction voltage set by the correction voltage setting unit; And a constant voltage output unit for correcting and outputting the reference voltage input from the reference voltage input unit to a correction voltage adjusted by the correction voltage adjusting unit. It provides a constant voltage circuit comprising a.

In this case, the reference voltage error measurement unit provides a constant voltage circuit, characterized in that it comprises a first transistor for outputting a signal for the error of the reference voltage input from the reference voltage input unit to the correction voltage control unit.

The correction voltage setting unit provides a constant voltage circuit comprising a variable resistor for setting a voltage of the correction voltage input from the correction voltage input unit.

The constant voltage output unit may include: a FET for compensating the reference voltage input from the reference voltage input unit with a correction voltage adjusted by the correction voltage adjusting unit; And a second transistor for controlling on / off of the FET. It provides a constant voltage circuit comprising a.

As described above, according to the present invention, since the correction voltage is set to measure the error of the input reference voltage and output the constant voltage, it is possible to provide a stable voltage in each region, and the response for the correction is fast. It works.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram of a constant voltage circuit of the present invention, and FIG. 2 is a circuit diagram showing an all-voltage circuit of the present invention.

The constant voltage circuit of the present invention includes a reference voltage input unit 110, a correction voltage input unit 120, a reference voltage error measurement unit 130, a correction voltage setting unit 140, and a correction voltage adjusting unit 150.

The reference voltage input unit 110 receives a set reference voltage. The set reference voltage may be inputted as a reference voltage by boosting / depressing 110V or 220V coming into a home or the like with a transformer.

The correction voltage input unit 120 is a voltage for correcting the error of the reference voltage is input, it is preferable that a voltage larger than the error range of the reference voltage is input. That is, if 350V is input as the reference voltage as an example, it is preferable that 50V is input as the correction voltage at this time.

The reference voltage error measurement unit 130 measures the error of the reference voltage from the voltage of the input reference voltage, and outputs the detected error signal to the correction voltage controller 150 when an error of the reference voltage is detected. At this time, the first transistor Q1 is included in the reference voltage error measurement unit 130 and is turned on / off depending on whether the reference voltage is in error.

The correction voltage setting unit 140 includes a variable resistor (R10), the user can correct the error of the reference voltage by adjusting the variable resistor (R10). Therefore, there is an advantage that can actively cope with the error of the reference voltage appearing different in each region.

The correction voltage adjusting unit 150 adjusts and outputs the correction voltage input by the variable resistor R10 of the correction voltage setting unit 140 to match the error of the reference voltage.

The constant voltage output unit 160 includes a FET Q3 that compensates the reference voltage input from the reference voltage input unit 110 with the correction voltage adjusted by the correction voltage adjusting unit 140. That is, when the voltage of the reference voltage is lower than the original set voltage, the output voltage is output as a constant constant voltage by compensating the adjusted voltage adjusted by the correction voltage controller 150 to the input reference voltage.

The constant voltage output unit 160 includes a second transistor Q2 that controls whether the input voltage is compensated by controlling the FET Q3 on / off.

That is, if a voltage of 350V having an error of + 20V is input as the reference voltage input to the reference voltage input unit 110, and a voltage of 50V is input to the correction voltage input to the correction voltage input unit 120, the reference voltage error measurement is performed. The unit 130 measures an error of + 20V from the input reference voltage and outputs a signal to the correction voltage controller 150. Accordingly, the correction voltage is adjusted to 20V by stepping down the correction voltage of 50V input using the variable resistor R10 of the correction voltage setting unit 140, and the correction voltage adjusting unit 150 outputs a voltage of 20V. .

Accordingly, since the constant voltage output unit 160 outputs a correction voltage of 20 V, the voltage difference between the output terminals output due to the reference voltage of 370 V and the compensation voltage of 20 V is output at 350 V, thereby outputting a constant voltage.

On the other hand, in order to input 350V as the reference voltage input to the reference voltage input unit 110, a voltage of 220V is generally boosted using a transformer, and 50V is input as the correction voltage input to the correction voltage input unit 120. In general, the voltage of 220V is reduced by using a transformer. Therefore, each transformer can be used to boost / decrease the reference voltage and the correction voltage, but a single transformer can simultaneously boost / decrease the voltage of 350V and the voltage of 50V.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a block diagram of a constant voltage circuit of the present invention.

2 is a circuit diagram showing an all-voltage circuit of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: reference voltage input unit 120: correction voltage input unit

130: reference voltage error measurement unit 140: correction voltage setting unit

150: correction voltage control unit 160: constant voltage output unit

Q1: first transistor Q2: second transistor

Q3: FET R10: Variable resistor

Claims (4)

A reference voltage input unit to which a reference voltage is input; A correction voltage input unit to input a correction voltage; A reference voltage error measuring unit measuring an error of a reference voltage input from the reference voltage input unit; A correction voltage setting unit configured to set a voltage of the correction voltage input from the correction voltage input unit to correct an error of the reference voltage measured by the reference voltage error measurement unit; A correction voltage adjusting unit controlling a voltage of the correction voltage set by the correction voltage setting unit; And A constant voltage output unit for correcting and outputting a reference voltage input from the reference voltage input unit by a correction voltage adjusted by the correction voltage adjusting unit; Constant voltage circuit comprising a. The method of claim 1, The reference voltage error measuring unit, And a first transistor configured to output a signal for an error of a reference voltage input from the reference voltage input unit to the correction voltage adjuster. The method of claim 1, The correction voltage setting unit, And a variable resistor for setting a voltage of the correction voltage input from the correction voltage input unit. The method of claim 1, The constant voltage output unit, A FET for compensating the reference voltage input from the reference voltage input unit with a correction voltage adjusted by the correction voltage adjusting unit; And A second transistor for controlling on / off of the FET; Constant voltage circuit comprising a.

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