KR20110012972A - Circuit for detecting phase, and apparatus using for multi-phase - Google Patents

Abstract

PURPOSE: A phase detecting device and an apparatus using multi phase are provided to previously prevent a breakdown. CONSTITUTION: An input unit(110) receives an electric signal through at least two input terminals according to a preset phase difference. A signal sensing unit(130) senses electric signals inputted to the input unit. An electric separation unit(120) electrically separates the input unit from the signal sensing unit. A phase state determining unit(140) determines whether the phase difference between the sensed electric signals is maintained or not.

Description

Circuit for detecting phase, and apparatus using for multi-phase

The present invention relates to a device using a phase sensing circuit and a polyphase power source. More particularly, the present invention relates to a phase sensing circuit for sensing a phase sequence of a polyphase power supply and an apparatus for preventing a fault due to reverse phase through the circuit.

Most countries use multiphase power instead of single phase power. The reason for this is that the pulsation of the multiphase power supply is smaller than that of the single phase power supply, and the power supply is easy.

The most commonly used power among the polyphase power supplies is a three-phase power supply. A three-phase power source has the same amplitude and frequency of the three sinusoidal voltages and only differs in phase by 120 degrees.

In the case of a device using a three-phase power source, such as a system air conditioner or an air conditioner used as a cooling and heating system, a reverse phase occurs in the voltage supplied from the power supply, causing a failure, resulting in a shortening of its life. Therefore, the phase sensing circuit must be provided.

However, the conventional phase sensing circuit senses the phase sequence by using the same reference potential of the input power and the sensing circuit, and thus does not operate normally when the input power and the sensing circuit have different potentials.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a device using a phase sensing circuit and a polyphase power supply that electrically isolate an input power supply and a sensing circuit from each other.

The present invention has been made to achieve the above object, an input unit for receiving an electrical signal through at least two input terminals according to a predetermined phase difference; A signal detector for sensing electrical signals input to the input unit; An electrical separation unit for electrically separating the input unit and the signal detection unit; A phase state discriminating unit which determines whether the phase difference between the sensed electrical signals is maintained; And an output unit configured to output the electrical signal when the phase difference between the sensed electrical signals is maintained.

Preferably, the electrical separation unit converts the electrical signal received from the input unit into a light signal and converts the converted light signal into an electrical signal and transmits the signal to the signal detection unit, or is located a predetermined distance apart And a second isolator having a first coil and a second coil and transmitting an electrical signal received from the input unit to the second coil connected to the signal sensing unit through the first coil. More preferably, the electrical separation unit further includes a circuit protection unit for bypassing the electrical signal to ground when the electrical signal received from the input unit is greater than a predetermined voltage.

Preferably, the phase detection circuit further includes an abnormal situation notification unit for notifying the fact that an abnormality has occurred in the power supply when the phase difference between the detected electrical signals is not maintained. More preferably, the phase sensing circuit further includes a power cut-off unit that controls the electrical disconnecting unit to block the electrical signal transmitted from the input unit to the signal sensing unit upon receiving the notified fact.

Preferably, the input unit has three input terminals, and further includes an input terminal connected to the neutral wire.

The present invention also provides an input unit for receiving an electrical signal through at least two input terminals according to a predetermined phase difference, a signal detector for detecting electrical signals input to the input unit, and electrical separation for electrically separating the input unit and the signal detector. A phase detection unit configured to determine whether the phase difference is maintained between the detected electrical signals, and an output unit configured to output the electrical signal when the phase difference is maintained between the detected electrical signals. It includes a circuit, and provides a device using a multi-phase power source, characterized in that it is driven by a motor.

According to the present invention, the phase can be sensed even if the reference potential is different by electrically separating the input power supply and the sensing circuit. In addition, according to the above it is possible to quickly cut off the power whenever a reverse phase occurs, it is possible to prevent the occurrence of failure in advance, and to extend the life of the device using a multi-phase power supply.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components 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. In addition, the following will describe a preferred embodiment of the present invention, but the technical idea of the present invention is not limited thereto and may be variously modified and modified by those skilled in the art.

1 is a block diagram schematically illustrating a phase sensing circuit according to a preferred embodiment of the present invention. The phase detection circuit 100 according to the present embodiment includes an input unit 110, an electrical separation unit 120, a signal detection unit 130, a phase state determination unit 140, an abnormal situation notification unit 150, and a power cutoff unit. 160 and an output unit 170.

The input unit 110 is configured as a three-phase four-wire type so as to detect an abnormality of the three-phase AC power. The reason why the input unit 110 is a three-phase four-wire type is that it includes a neutral line (N).

The electrical separation unit 120 performs a function of electrically separating the input unit 110 and the signal detection unit 130. In this embodiment, the input unit 110 receives a signal from an input power source. The signal detector 130 detects a phase of an input signal. Therefore, the electrical separation unit 120 electrically separates the input unit 110 and the signal detection unit 130 so that the phase detection circuit 100 can perform the phase detection function regardless of whether the reference potential is the same. .

If an electric shock is delivered to the system due to problems such as power supply and grounding, the entire system may fail. In this case, one communication port may cause the whole system to stop. The electrical separation unit 120 is to solve such a problem and may protect the internal system in case of emergency, and may be solved even if a disturbance occurs in the signal distortion or communication line impedance matching.

The electrical separator 120 may be implemented as an isolator. The isolator is inserted as an appropriate shock absorber between the input and the output and serves to electrically isolate the input and output. These isolators are used to resolve various conflicts caused by small amounts of surge, noise, grounding problems, and power problems.

Isolation is required for a signal part for transmitting a communication signal for communication or for a power part for delivering a power signal through a line. In this embodiment, the electrical separator 120 is implemented as an optical isolator, in particular, an opto coupler. Optocouplers are parts that convert electrical signals into light signals and deliver them, and then regenerate light signals into electrical signals. Therefore, if the electrical separation unit 120 is implemented as an optocoupler, it is possible to realize electrical separation between the communication line and the communication device. 2 is an exemplary view of a phase sensing circuit according to the present embodiment. As shown in FIG. 2, the electrical separator 120 may be provided between the input unit 110 and the signal detector 130 as an optocoupler.

Meanwhile, the electrical separation unit 120 may be implemented as a transformer isolator corresponding to the power supply unit. In this case, the transformer isolator may have a configuration including a coil.

On the other hand, in the case of problems such as signal distortion, power supply collision, and impedance, an isolator is preferable for troubleshooting. However, it can also happen that the circuit of the equipment is frequently broken. Therefore, in the present embodiment, it is preferable that the electrical separation unit 120 further includes a surge protector. Surge protector is a device that protects the equipment from electric shock by maintaining the equipotential by bypassing the signal to the ground when impulse, noise, surge, etc. that the equipment cannot tolerate comes in through the communication line. To prevent breakage.

The signal detector 130 detects an AC power applied from the input unit 110 for each phase. The signal detector 130 includes at least one resistor, a diode, a capacitor, a gate circuit, and the like. Preferably, the signal detector 130 further includes at least one photo-coupler. If the signal detector 130 further includes a photo coupler, it may also detect out-of-phase imaging. The photo coupler 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 the light emitting signal of the light emitting diode. The photo coupler may use TLP421, for example.

The phase state determination unit 140 performs a function of determining the phase state of the detected signal. The phase state determination unit 140 may be implemented including a microcomputer. Hereinafter, the performance of the phase state determination unit 140 will be described with reference to FIG. 3.

(a) shows the voltage waveform of each phase, and (b) to (d) show the signals of each phase input to the phase state determination unit 140. In (a), it can be seen that the voltages of the phases are sinusoids having the same amplitude and frequency, and have the same phase difference (ie, 120 degrees). Hereinafter, for convenience, the three phases are divided into A phase, B phase, and C phase, respectively.

As shown in (b), the monitoring result of the A-phase voltage is input to the A-phase input. When a positive-phase A-phase voltage is applied, a low-level signal is input to the A-phase input, and a negative-phase A-phase voltage is input. When is applied, a high level signal is input to the A phase input. On the other hand, (c) and (d) are the monitoring results of the B-phase voltage and the C-phase voltage, respectively, and similarly to the case of (b), the phase depends on whether the applied B-phase voltage and C-phase voltage are positive or negative components. The level of the signal input to the state determination unit 140 is different.

The waveforms shown in (a) to (d) are waveforms when three-phase power is normally applied. If one or more phases of the three-phase power supply are not wired, the waveform of the unwired phase is maintained at the high level without changing to the high level and the low level as shown in (b) to (d). In addition, when one or more phases of the three-phase power source are miswired with the N phase which is the neutral line, the waveform having the same shape as shown in (b) to (d) is not input to the phase state determination unit 140. This is true even when there is some other fault in the three-phase supply.

Therefore, the phase state determination unit 140 may check whether the three-phase power supply is abnormal by comparing the input signal with the signal when the signal is normal.

The abnormal state notification unit 150 notifies the power cut-off unit 160 of the fact that the phase state determination unit 140 determines that the three-phase power supply is abnormal.

When the power cutoff unit 160 receives the fact that the abnormality occurs from the abnormal situation notification unit 150, the power disconnecting unit 120 controls the power disconnection unit 120.

The output unit 170 outputs a power signal when the phase state determination unit 140 determines that there is no abnormality in the three-phase power source.

The phase sensing circuit 100 may be applied to a device that may cause a failure when the order of phases is changed in a device using a three-phase power source. The phase sensing circuit 100 according to the present embodiment is a circuit for detecting a phase sequence of a three-phase power source and protecting the device by cutting off the power supplied to the inside of the device when a reverse phase (phase sequence is changed) is input. Applicable when the circuits are electrically isolated from each other.

As shown in FIG. 2, the phase sensing circuit 100 rectifies the three-phase power half-wave, lowers the voltage to a resistor and a zener diode, and supplies a state signal to the logic circuit. At this time, the phase sensing circuit 100 may sense the phase even if the reference potentials are different by separating the input power supply and the sensing circuit from each other by using an electrical separation unit 120 such as an optocoupler. At this time, the electrical separation unit 120 detects the three-phase power from the primary side and transmits a signal to the secondary side.

In the present embodiment, the device using the phase sensing circuit 100 may be defined as a power device driven by a motor. Power devices driven by motors include, for example, air conditioners, air conditioners, blowers, and the like.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit 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 the embodiments and the accompanying drawings. . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

The present invention relates to a phase sensing circuit for determining an abnormality of a three-phase power supply and a device using a polyphase power supply for shutting off power in case of emergency. According to the present invention, by electrically separating the input power supply and the sensing circuit, the phase can be sensed at all times even if the reference potentials are different. This effect can prevent the device from failing and extend its life.

The phase sensing circuit according to the present invention can be applied to a power unit driven by a motor such as an air conditioner, an air conditioner, a blower, or the like. If the consumer wants to use such a device for a long time once purchased, the present invention can satisfy the needs of these consumers.

1 is a block diagram schematically illustrating a phase sensing circuit according to a preferred embodiment of the present invention.

2 is an exemplary view of a phase sensing circuit according to the present embodiment.

3 is a view for explaining a method of determining the phase state of the three-phase power supply according to the present embodiment.

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

100: phase detection circuit 110: input unit

120: electrical separation unit 130: signal detection unit

140: phase state determination unit 150: abnormal situation notification unit

160: power cut-off unit 170: output unit

Claims (7)

An input unit configured to receive an electrical signal through at least two input terminals according to a predetermined phase difference; A signal detector for sensing electrical signals input to the input unit; An electrical separation unit for electrically separating the input unit and the signal detection unit; A phase state discriminating unit which determines whether the phase difference between the sensed electrical signals is maintained; And An output unit for outputting the electrical signal when the phase difference between the sensed electrical signals is maintained Phase detection circuit comprising a. The method of claim 1, The electrical separation unit converts the electrical signal received from the input unit into a light signal and converts the converted light signal into an electrical signal and transmits the signal to the signal sensing unit, or a first coil positioned a predetermined distance away from the first isolator. And a second isolator having a second coil and transmitting an electrical signal received from the input unit to the second coil connected to the signal sensing unit through the first coil. The method of claim 2, And the electrical separation unit further includes a circuit protection unit for bypassing the electrical signal to ground when the electrical signal received from the input unit is greater than a predetermined voltage. The method of claim 1, If the phase difference between the detected electrical signals is not maintained, the abnormal situation notification unit for notifying to the outside that the abnormality in the power supply Phase detection circuit further comprising. The method of claim 4, wherein A power cut-off unit which controls the electrical separation unit to cut off an electrical signal transmitted from the input unit to the signal detection unit upon receiving the notified fact Phase detection circuit further comprising. The method of claim 1, The input unit includes three input terminals, and further includes an input terminal connected to the neutral wire. An input unit for receiving an electrical signal through at least two input terminals according to a predetermined phase difference, a signal detector for detecting electrical signals input to the input unit, an electrical separator for electrically separating the input unit and the signal detector, and the detection unit A phase detection unit for determining whether the phase difference between the electrical signals is maintained, and a phase sensing circuit including an output unit for outputting the electrical signal when the phase difference is maintained between the detected electrical signals. Including; Apparatus using a polyphase power supply, characterized in that driven by a motor.

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