KR101165807B1 - Power line communication apparatus for reduction of standby power - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power line communication device that performs synchronous communication using zero crosspoint with minimal communication noise and signal attenuation, and discloses a power line communication device for reducing standby power for minimizing the consumption of standby power.
According to an embodiment of the present invention, a power supply circuit unit for supplying external power through a transformer, a coupling circuit unit for receiving communication data by separating a power frequency (60 Hz) and a communication frequency (carrier), and communication noise (Noise) And a ZCP (zero cross point) circuit unit for detecting a point at which attenuation of communication signals is minimal, and a communication module for transmitting and receiving data signals through the coupling circuit unit and the ZCP circuit unit. The circuit part is connected to the secondary side of the transformer, and the ZCP circuit part is connected to the communication module when a low voltage is applied from the photocoupler operating at a zero cross point point of an AC power source and the photocoupler. It is a summary that a bipolar transistor including a pulse signal is included.
In this way, the present invention is connected to the ZCP circuit portion on the secondary side of the transformer for reducing the external power source. Therefore, since the resistance connected to the input terminal of the ZCP circuit portion can be removed or changed to a relatively low resistance, it is possible to minimize standby power by minimizing power consumption by the resistance.

Description

Power line communication device for reducing standby power {POWER LINE COMMUNICATION APPARATUS FOR REDUCTION OF STANDBY POWER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power line communication apparatus, and more particularly, to a power line communication apparatus for performing synchronous communication using a zero cross point having a minimum of communication noise and attenuation of a communication signal.

In general, power line communication (PLC) is a method of communicating data through a power line using a commercial AC signal as a transmission medium, and is configured to communicate with a center frequency (carrier) on a sinusoidal wave of 60 Hz, which is a commercial AC power source. The power line in an office or factory is used as a communication line.

That is, power line communication (PLC) is widely used to remotely control a large number of devices or devices provided in a home, an office, or a factory because there is an advantage of establishing a communication network without installing a separate communication line.

By using the above power line communication, the meter may measure the amount of energy used in the home or company, for example, electricity, water, hot water, or gas, or the meter (or meter) without having to visit the meter directly. The management company can read the data.

Hereinafter, a conventional power line communication apparatus will be described with reference to the accompanying drawings.

1 is a block diagram and a circuit diagram showing a conventional general power line communication device.

Referring to FIG. 1, a conventional power line communication apparatus includes a power supply circuit unit 20 for supplying external power, and a coupling circuit unit 40 for receiving communication data by separating a power frequency (60 Hz) and a communication frequency (carrier). ), A ZCP (zero cross point) circuit unit 60 for detecting a point where communication noise and attenuation of communication signal is minimal, and a data signal through the coupling circuit unit 40 and the ZCP circuit unit 60. It is configured to include a communication module 80 for transmitting and receiving and converting.

Such a conventional power line communication device detects a zero cross point through the coupling circuit unit 40 and the ZCP circuit unit 60 by using a 220V 60Hz component of an AC power source to prevent an arc generated during relay control.

However, in the conventional power line communication apparatus as described above, since the ZCP circuit unit 60 is connected to the primary side of the power supply transformer as shown, when the external power source is 220V, the 56 k resistor 62 is used in the ZCP circuit unit 60. There is a problem in that high standby power is consumed by driving the light emitting diode of the photocoupler.

That is, since the ZCP circuit unit 60 is connected to the wires through which 220V is not stepped down, in order for the ZCP circuit unit 60 to operate normally, the voltage and current of 220V must be limited by a certain size, in which case a relatively large size 56k resistor 62 is used, resulting in wasted power by the size of the resistor.

An object of the present invention for solving the above problems is to provide a power line communication device that can reduce the standby power by minimizing the power consumed by the resistor connected between the power supply transformer and the ZCP circuit portion.

According to an aspect of the present invention, there is provided a power supply circuit unit for supplying external power through a transformer, a coupling circuit unit for receiving communication data by separating a power frequency (60 Hz) and a communication frequency (carrier); A power line communication device including a ZCP (zero cross point) circuit unit for detecting a point where communication noise and communication signal attenuation is minimal, and a communication module for transmitting and receiving data signals through the coupling circuit unit and the ZCP circuit unit. The ZCP circuit part is connected to the secondary side of the transformer, and the ZCP circuit part is operated at a zero cross point point of an AC power supply, and a low voltage is applied from the photo coupler. And a bipolar transistor for transmitting a pulse signal to the communication module.

According to a preferred embodiment, the input terminal of the ZCP circuit portion further includes a predetermined resistance according to the output voltage of the secondary side of the transformer, the resistance to operate the photocoupler by limiting the output voltage of the secondary side of the transformer. It is done.

In the present invention configured as described above, the ZCP circuit portion is connected to the secondary side of the transformer in which the external AC power is reduced. Therefore, the existing resistor can be removed or changed to a resistor having a relatively lower size than the existing resistor, thereby minimizing unnecessary power consumption by the resistor, thereby reducing power consumption. In addition, it is possible to reinforce reliability against external noise and surge according to the insulation strength of the transformer.

1 is a block diagram and a circuit diagram showing a conventional general power line communication device.
2 is a block diagram and a circuit diagram illustrating a power line communication device for reducing standby power according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in more detail. The features and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiment.

Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

In addition, it will be apparent to those skilled in the art that the present invention may be practiced without specific details such as specific components in the following description. Therefore, a detailed description of the general configuration for the governor well known in the art will be omitted.

2 is a block diagram and a circuit diagram illustrating a power line communication device for reducing standby power according to an embodiment of the present invention.

Referring to the accompanying drawings, the power line communication apparatus for reducing the standby power of the present invention, the power supply circuit unit 200 for supplying external power through the transformer 100, the power frequency (60Hz) and the communication frequency (carrier) A coupling circuit unit 400 for receiving communication data by separating a signal, a ZCP (zero cross point) circuit unit 600 for detecting a point where communication noise and attenuation of a communication signal is minimal, and the coupling circuit unit ( 400) and a communication module 800 for transmitting and receiving and converting data signals through the ZCP circuit unit 600 is configured.

Since the power supply circuit unit 200 and the communication module 800 correspond to a general configuration in the related art, detailed description thereof will be omitted, and the coupling circuit unit 400 and the ZCP circuit unit 600 will be omitted herein with reference to the accompanying drawings. ) In more detail.

First, the coupling circuit unit 400 will be described.

The coupling circuit unit 400 serves to separate a power supply frequency and a communication frequency, thereby enabling transmission and reception of a communication signal through a power line.

The coupling circuit unit 100 is connected in parallel with a transformer for impedance matching, a capacitor for signal transmission, a resistor for discharging, and the transformer to isolate an internal circuit from surge noise of an external power line. It consists of a diode for clamping.

Next, the ZCP circuit unit 600 will be described.

The ZCP circuit unit 600 receives a voltage signal of an external power source from a photocoupler and detects a point where communication noise and attenuation of a communication signal are minimal, that is, a zero cross point (ZCP) point.

Here, the ZCP circuit unit 600 is preferably connected to the secondary side of the transformer 100, the ZCP circuit unit 600 is a photocoupler operating at a zero cross point of the AC power source, and When a low voltage is applied from the photocoupler is configured to include a bipolar transistor for transmitting a pulse signal to the communication module.

That is, the ZCP circuit unit 600 operates the light emitting diode of the photocoupler at the zero cross point to apply a low voltage to the base of the bipolar transistor to form a zero cross point time in the form of a 5V pulse at the collector.

The ZCP circuit unit 600 is connected to the secondary side of the transformer 100, so that the reduced voltage is input through the transformer 100, so that the photocoupler can be operated without a separate resistor. Therefore, it is possible to reduce power consumption by minimizing unnecessary consumption of standby power by resistance.

Although not shown, in another embodiment, the input terminal of the ZCP circuit unit 600 may further include a predetermined resistance according to the secondary output voltage of the transformer 100, wherein the resistance is applied to the secondary output voltage of the transformer. Accordingly, the photocoupler is operated by limiting voltage and current.

In other words, since the step-down may vary depending on the primary and secondary winding ratios of the transformer 100, in order to match the operating voltage of the photocoupler, a predetermined voltage may be adjusted to constantly adjust the voltage output from the secondary side of the transformer 100. Will need resistance.

Of course, in this case as well, the resistance is connected to the input terminal of the ZCP circuit unit 600, but the output voltage of the secondary side already stepped down by the transformer 100 is input to the input terminal of the ZCP circuit unit 600, thereby limiting the existing 220V. A relatively large resistor, such as 56k, does not need to be connected.

Therefore, in order to limit the voltage stepped down through the transformer 100, a resistor having a smaller size than that of the conventional 56k resistor is connected to the input terminal of the ZCP 600 circuit part, and thus the size of the resistor that is smaller than that of the existing resistor is reduced. As a result, standby power consumption can be reduced.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims that follow may be better understood. It should be appreciated by those skilled in the art that the above-described concepts and specific embodiments of the present invention can be used immediately as a basis for designing or modifying other shapes for carrying out similar objects to the present invention.

In addition, the above-described embodiment is only one embodiment according to the present invention, and various modifications and changes may be made by those skilled in the art within the scope of the technical idea of the present invention. These various modifications and changes are also within the scope of the technical idea of the present invention, and will be included in the claims of the present invention described below.

10: transformer 20: power supply circuit
40: coupling circuit part 60: ZCP circuit part
62: resistance 80: communication module
100: transformer 200: power supply circuit
400: coupling circuit portion 600: ZCP circuit portion
800: communication module

Claims (2)

A power supply circuit unit for supplying external power through a transformer, a coupling circuit unit for receiving communication data by separating a power frequency (60 Hz) and a communication frequency (carrier), and attenuation of communication noise and communication signals is minimal. A power line communication apparatus including a ZCP (zero cross point) circuit unit for detecting a point, and a communication module for transmitting and receiving data signals through the coupling circuit unit and the ZCP circuit unit,
The ZCP circuit portion is connected to the secondary side of the transformer,
The ZCP circuit unit,
A photocoupler operating at the zero cross point of the AC power supply,
When a low voltage is applied from the photocoupler is configured to include a bipolar transistor for transmitting a pulse signal to the communication module,
The input terminal of the ZCP circuit portion further includes a predetermined resistance according to the output voltage of the secondary side of the transformer,
The resistance to limit the secondary output voltage of the transformer to operate the photocoupler
Power line communication device for reducing standby power characterized in that. delete

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