KR101028854B1 - Phase Discriminating Circuit and Its Operating Method - Google Patents

Abstract

The present invention relates to a reverse phase detection circuit for protecting a device by detecting a reverse phase or phase loss of power by receiving three phases of an AC power source, and a three-phase three-wire type to supply a three-phase AC power input from the outside to a compressor. Detects a phase of the AC power and the phase of the phase power by detecting a power level detection unit for detecting each phase signal of the three-phase AC power applied from the input unit and the detected phase signal detected by the input unit consisting of It is configured to include a control unit to display, easy to emergency control due to abnormal input power of the device using a three-phase three-wire AC power supply, and to prevent damage and malfunction of the device due to reversed or missing phase, using three-phase power There is an effect to greatly improve the stability of the home appliances.

Reverse phase, phase loss, reverse phase detection circuit, air conditioner

Description

Reverse Phase Detection Circuit and Its Operation Method {Phase Discriminating Circuit and Its Operating Method}             

1 shows a general air conditioner,

2 is a circuit diagram illustrating a reverse phase detection circuit according to the related art;

3 is a graph illustrating a signal detection method of a reverse phase detection circuit according to the related art;

4 is a block diagram showing the configuration of a reverse phase detection circuit according to the present invention;

5 is a circuit diagram showing the configuration of a reverse phase detection circuit according to the present invention;

6 is a graph illustrating a signal detection method of a reverse phase detection circuit according to the present invention;

7 is a flowchart illustrating a method of operating a reverse phase detection circuit according to the present invention.

<Explanation of symbols on main parts of the drawings>

100: input unit 200: power detection unit

300: control unit 310: signal detection unit

320: detection control unit 330: error flag generation unit

340: error count unit

The present invention relates to a reverse phase detection circuit and a method of operating the same. In particular, a reverse phase detection circuit for detecting a reverse phase or a phase loss of an input power source by detecting a three phase of a power source by receiving a three-phase three-wire AC power source from the outside and its It relates to a method of operation.

In general, an air conditioner is installed for the purpose of cooling or heating the room or purifying the air with a heater, an air conditioner, an air purifier, etc., to create a more comfortable indoor environment for humans.

The air conditioner is separated and controlled by an indoor unit composed of a heat exchanger and an outdoor unit composed of a compressor and a heat exchanger, and the operation of the multi-type air conditioner composed of a plurality of indoor units and outdoor units is controlled by a central controller.

In addition, as a multi-air conditioner system including one outdoor unit and a plurality of indoor units sharing the outdoor unit is installed in a floor or a building, a multi-air conditioner system that saves installation resources and improves energy efficiency has been installed. .

1 is a view showing a general air conditioner.

As shown in FIG. 1, the air conditioner includes an indoor unit and an outdoor unit, and when a heating operation is performed, a refrigerant having a high temperature and high pressure flows through the indoor heat exchanger, and the refrigerant emits heat to air circulating through the indoor heat exchanger. Warm air is discharged to the indoor side, and during cooling operation, a low-temperature, high-pressure refrigerant flows to the indoor heat exchanger, and the cool air is discharged to the indoor side by absorbing heat contained in the air circulating in the indoor heat exchanger.

The air conditioner controls the operation of the compressor according to the operating frequency, that is, the carrier frequency determined by the magnitude of the alternating voltage supplied into the product, the room temperature, and the set temperature.

In this case, the power applied to the compressor is generally composed of three phase signals and a middle line of R phase, S phase and T phase, and when one or more of the signals are disconnected and operated in an abnormal or single phase, The compressor does not continue to rotate due to lack of rotational torque and stops, and excessive current generated at this time damages the compressor.

In addition, when the reverse phase of the three-phase power source does not match the reverse phase occurs, the compressor malfunctions.

Therefore, in the case of a home appliance using a three-phase power source, for example, the compressor, a circuit for detecting a reverse phase or phase loss is installed to prevent the home appliance from malfunctioning or being damaged due to the reverse phase or phase loss phenomenon. .

2 is a circuit diagram illustrating a reverse phase detection circuit according to the related art, and FIG. 3 is a graph illustrating a method of operating the reverse phase detection circuit according to the related art.

As shown in FIG. 2, the reverse phase detection circuit according to the related art includes a connection terminal receiving a three-phase AC power, a plurality of capacitors, and a photocoupler, and each of the three-phase signals and the center line input as described above. (N) is connected to form a three-phase four-wire system to determine whether the input power supply is abnormal.

As shown in FIG. 3, the signal detection method of the reverse phase detection circuit detects the level of the R phase of the power supply at a predetermined time interval (P ₁ ) so that a signal of a high level is not detected. ERROR).

Next, the phase of the S phase is detected (P ₂ ) after a phase change of 120 ° from when the high level signal of the R phase is detected (P ₂ ). If an abnormal high level signal is not detected, it is treated as an error once.

In addition, after the high level signal of the S phase is detected (P ₂ ), the phase of the T phase is detected after a phase change of 120 ° (P ₃ ), and the T phase signal is detected four times in units of 250 Hz. If a high level signal is not detected more than three times, it is treated as an error.

When the error occurs more than a predetermined number of consecutive times, it is determined that there is an error in the input power supply and the operation of the home appliance is stopped.

However, since the conventional reverse phase detection circuit detects three phases by receiving four wires in a general three phase four wire type, it is impossible to detect a reverse phase or a phase loss in a three phase three wire type, and thus burn out and malfunction of the three phase power supply device. There is a problem that occurs.

The present invention has been made to solve the above-mentioned problems of the prior art, in a home appliance to which a three-phase AC power is applied, to protect the device by sensing in detail the reverse phase or the phase that causes the malfunction or damage of the home appliance; It is an object of the present invention to provide a reverse phase detection circuit.

Reverse phase detection circuit and its operation method according to the present invention for solving the above problems is composed of a three-phase three-wire type, the input unit for supplying a three-phase AC power input from the outside; A power detector detecting each phase signal of the three-phase AC power at predetermined time intervals; And detecting a level of each phase signal detected by the power detector, determining an error in response to the detected time and the number of detections, and increasing the error count according to the occurrence of the error, when the error count is greater than or equal to a predetermined value. The controller may be configured to stop the operation of the device by determining that the power is in phase or phase loss, and to control whether the AC power is reversed or missing.

The method may further include detecting an R phase at a predetermined time interval from a three-phase AC power supply and increasing the error count once by determining that the R phase signal is an error when the R phase signal is not high. Repeatedly detecting the S phase when the R phase is high; Repeatedly detecting a T phase when the R phase is high; If the S phase or the T phase is not detected as high for a predetermined number of times, determining an error and increasing the error count once; And determining that there is an abnormality in the AC power when the error count is greater than or equal to a predetermined value, stopping the operation of the device and displaying the abnormality of the AC power externally.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. 4 is a block diagram showing a configuration of a reverse phase detection circuit according to the present invention, FIG. 5 is a circuit diagram showing a reverse phase detection circuit according to the present invention, and FIG. 5 is a signal of the reverse phase detection circuit according to the present invention. 6 is a graph illustrating a detection method, and FIG. 6 is a flowchart illustrating a method of operating a reverse phase detection circuit according to the present invention.

As shown in FIG. 4, the reverse phase detection circuit according to the present invention includes an input unit 100 configured as a three-phase three-wire type to supply a three-phase AC power input from the outside to the compressor, and from the input unit 100. Determining whether the AC power source is reversed or missing by detecting a power supply unit 200 for sensing each phase signal of the applied 3-phase AC power and the level of the phase signal detected by the power sensor 200. And an output unit 400 for outputting the power determined by the controller 300 to display it to the outside.

The input unit 100 is a three-phase four-wire type that is generally used to detect an abnormality of three-phase (R phase, S phase, T phase) AC power supply, and is a three-phase three-wire type in which the neutral wire (N) is removed. Is configured, it is possible to determine whether the reverse phase or the phase of the AC power input through the input unit.

The power detection unit 200 detects the AC power applied from the input unit 100 for each phase so that the control unit 300 determines whether the phase is reversed or missing, and if each phase is detected, the size of the image is maximum. It will be detected as HIGH from the time when the value is 1/2 or more of the value.

In addition, as illustrated in FIG. 5, the power detecting unit 200 includes one or more resistors R1 to R9, capacitors C1 to C3, and diodes D1 to D3, in particular, a plurality of resistors. It further comprises a photo coupler (IC1 to IC3) of the.

The photocoupler IC1 to IC3 includes a light emitting diode and a photo transistor, and when current flows through the light emitting diode, light is generated from the light emitting diode so that the photo transistor operates according to a light emitting signal of the light emitting diode.

The present invention configures the reverse phase detection circuit by using the TLP421 as an example of the photocoupler as an example, but the present invention is not limited to the scope of the present invention and can be changed by those skilled in the art.

The control unit 300 detects three phases of the AC power detected by the power detection unit 200 to determine whether an abnormality, and an error count unit for counting and storing the error of the signal ( 340 and an error flag generator 330 for generating an error flag when the number of error counts is a predetermined number or more.

In addition, the controller 300 determines whether an error is detected according to the signal detected by the signal detector 310, and stores the error in the error count unit 340. When an error flag is generated, the controller 300 displays it externally and stops the operation. It is configured to include a detection control unit 320.

The signal detector 310 detects whether the level of the signal is HIGH or LOW at predetermined time intervals in order to determine whether the signal of each phase detected by the power detector 200 is abnormal. do.

The error count unit 340 stores the number of error occurrences by increasing the error count when an error is generated from the signal detector 310 according to the result detected by the signal detector 310, and stores each error for each phase signal. Save the count.

The error flag generator 330 generates an error flag when the number of errors stored in the error count unit 340 is equal to or greater than an error reference value to indicate whether the input power is abnormal.

The detection controller 320 determines whether an error of the signal detected by the signal detector 310 is stored in the error count unit 340, and the error count of the error count unit 340 is equal to or greater than an error reference value. In this case, it is determined that the power supply is abnormal, and whether the abnormality is displayed to the outside and the compressor is stopped to prevent damage to the compressor due to the power supply failure.

In addition, when the error flag is generated, the detection controller 320 operates an external lamp, a speaker, or other display means (not shown) to allow the user to recognize an abnormal power supply.

Referring to the accompanying drawings, the flow of operation of the reverse phase detection circuit configured as described above is as follows. 6 is a graph illustrating a signal detection method of the reverse phase detection circuit according to the present invention, and FIG. 7 is a flowchart illustrating a method of operating the reverse phase detection circuit according to the present invention.

First, a three-phase AC power source is input from the outside. (S1)

When the power is input, the phase signal is detected for each phase, and the phase value is not detected as high since the phase value is greater than 0, but the magnitude of the phase value after the 30 ° phase change is approximately 1/2 or more of the maximum value. From this point of time, it is detected as high and displayed. If the size of the image is 1/2 or less of the maximum value, it is detected as low.

Next, the level of the R-phase signal is detected periodically (P ₁₁ ) according to the detected phase signal (S3). If the level of the detected R-phase signal is not high, it is treated as an error once. Increase the R phase error count (S9).

After the R phase is detected (P ₁₁ ), after about 8.25 ms has elapsed (S4), the S phase is detected (P ₁₂ ), and the signal is detected by repeating four times in 250 Hz units when detecting the S phase (S5).

When S phase is detected (P ₁₂ ) If the HIGH is not detected more than 3 times out of 4 times, the S phase error count is increased by processing as an error once (S10).

13.75 ms or later (S6) T phase is detected (P ₁₃ ) on the basis of the time P ₁₁ when the R phase HIGH is detected (P ₁₃ ), and the signal is detected by repeating four times in units of 250 Hz (S7).

When T phase is detected (P ₁₃ ) If the HIGH is not detected more than three times out of four times, the T phase error count is increased by treating it as an error once (S11).

In the above process, as shown in FIG. 6, the signal level detection method does not detect the signal as high immediately when the magnitude of the signal becomes 0 or more, but the size of the phase after the phase change of about 30 ° is approximately 1 of the maximum value. It is detected as high from the time point of more than / 2, and is detected as low when the size of the image is 1/2 or less of the maximum value.

At this time, as described above, the time when the size of the phase is detected as HIGH by 1/2 or more of the maximum value is about 5.5 ms, and the time is equal to the time when the 120 ° phase is changed.

Next, when the three-phase signal is normally detected, the power is output to the outside to perform a general operation of the compressor or a device using the three-phase power.

Check whether the number of the R phase error count, the S phase error count, and the T phase error count is greater than or equal to the set error reference value (S12 to S14). If the error phase value is greater than or equal to the error reference value, the three phase signals are not continuously detected. In response to the determination, an error flag is generated.

If an error flag is generated as described above, the operation is stopped to prevent damage to the compressor or the three-phase power supply device due to an abnormal power supply (S16), and the power supply fault is displayed to the outside (S17).

As described above, the reverse phase detection circuit and its operation method according to the present invention have been described with reference to the illustrated drawings. However, the present invention is not limited by the embodiments and drawings disclosed herein, and the technical idea is within the scope of protection. Can be applied.

 The reverse phase detection circuit and its operation method according to the present invention configured as described above are configured to detect reverse phase or phase loss of the input power even in a three-phase three-wire type, thereby preventing damage or malfunction of home appliances due to reverse phase or phase loss. In addition, since it is easy to emergency control due to an abnormal input power of the home appliance, there is an effect that can greatly improve the stability of the home appliance using a three-phase power source.

Claims (7)

An input unit configured of a three-phase three-wire type to supply a three-phase AC power input from the outside; A power detector detecting each phase signal of the three-phase AC power at predetermined time intervals; And And a controller configured to stop the operation of the device by determining that the AC power is reversed or missing in response to the phase signal sensed by the power detector, and to display whether the AC power is reversed or missing. The control unit includes a signal detection unit for detecting the signal level of the R phase, S phase, T phase detected by the power detection unit; An error count unit which increases and stores an error count once when determining an error; An error flag generator for generating an error flag when the number of the error count parts is greater than or equal to a predetermined value; And a detection controller configured to determine an error according to an abnormality of the signal detected by the signal detection unit, transmit the error to the error count unit, and determine that the AC power is in reverse phase or phase loss when the error flag is generated. The method of claim 1, The detection control unit periodically detects the R phase through the signal detection unit, and determines that an error when the signal level of the R phase is not high, And detecting the S phase repeatedly after the R phase is detected as high, and determining that the S phase is an error when the S phase is not detected as high for a predetermined number of times. The method of claim 2, The detection control unit detects an R phase is high and then repeatedly detects the T phase through the signal detection unit, and determines that an error is detected when the T phase is not detected as high for a predetermined number of times. Sensing circuit. Detecting the R phase at predetermined time intervals from a three-phase AC power supply and determining an error if the R phase signal is not high and increasing the error count once; Repeatedly detecting the S phase when the R phase is high; Repeatedly detecting a T phase when the R phase is high; If the S phase or the T phase is not detected as high for a predetermined number of times, determining an error and increasing the error count once; And determining that there is an abnormality in the AC power when the error count is greater than or equal to a predetermined value, stopping the operation of the device and displaying an abnormality of the AC power externally. The method of claim 4, wherein After detecting phase signals of the R, S, and T phases, the R phase is high; And determining that the AC power supply is normal when the S and T phases are detected to be high for a predetermined number of times. The method of claim 5, The R phase periodically detects a signal level in units of 25 ms, The S phase is detected after 8.25ms after the R phase is detected as high, And the T phase is detected after 13.75 ms has elapsed after the R phase is detected to be high. The method of claim 5, When the R phase is high, the S phase or the T phase is detected four times in units of 250 Hz, and when the level of the signal is not detected as high three or more times, an inverse image forming process is performed. Method of operation of the sensing circuit.

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