KR20050095281A - A power line communication apparatus - Google Patents

Abstract

The present invention relates to an apparatus for communicating through a three-phase four-wire power line, and simultaneously loads and transmits one signal to R, T, S, and three phases at the same time. The invention relates to a power line communication device that ensures a low signal is transmitted.

Description

Power line communication apparatus

The present invention relates to a power line communication device.

According to the prior art, since the power line of each household is single phase, it is not easy to transfer the signal to the terminal using the other phase even when a signal is transmitted on it. That is, in the power supply system, power that is sent to three phases is divided before being supplied to a home, and each home is supplied with one of three phases. Of course, the power consumption of each phase must be similar to each other to maintain the load balance, so the power supplied through the three R, T, and S phases is appropriately divided and supplied to the home.

For example, in the case of group dwellings such as apartments, there is one distribution board for each building, which is divided into households and supplied with electricity. Therefore, each home is powered by one of three phases: R, T, and S.

Therefore, even if data is transmitted to the power line in the home using the R phase, a problem arises that it is not easy to receive it in the home using the T phase.

The present invention aims to overcome the drawbacks of the prior art, overcoming the limitations in powerline communication due to the use of one phase of power in each home.

The present invention relates to an apparatus for communicating through a three-phase four-wire power line, and simultaneously loads and transmits one signal to R, T, S, and three phases at the same time. It is an object of the present invention to effectively perform power line communication by ensuring that a low-frequency signal is transmitted.

In the collective housing form of apartment complexes, the power line is supplied with three phases up to the distribution box, where the power lines are distributed to each home, and each home is supplied with one of the three phases. Therefore, having a communication device connected to the three-phase power before the distribution in the distribution box, it is possible to transmit and receive signals in three phases at the same time. It is an object of the present invention to provide an effective apparatus for communicating using three-phase four-wire power lines without limiting the phase as described above.

The present invention relates to a communication apparatus through a three-phase four-wire power system, a microprocessor for transmitting and receiving data to and from the three-phase four-wire power line through three transceivers corresponding to three phases of the power system, and connected to the microprocessor. A data input / output line, a transmission / reception buffer connected between the data input / output line and the microprocessor to buffer transmission / reception data, and a phase detection unit detecting a voltage phase of one of the power lines and transmitting an interrupt signal to the microprocessor. When the microprocessor receives the interrupt signal, the microprocessor transmits the transmission data of the transmission / reception buffer to the three transmission / reception units so that the transmission data is carried on all three phases. The communication device through the system .

Meanwhile, in the present invention, it is preferable that the phase detector detects a point in time at which the voltage phase of one of the three phases is -30 ° from the zero crossing point and transmits an interrupt signal to the microprocessor, and the phase of any one of the three phases is 180 °. The three transceivers rotate in each of three phase regions divided by three regions to transmit the same data.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a device configuration of the present invention. Briefly, the apparatus of FIG. 1 will be described. The microprocessor unit 100 is connected to three transceivers 102 to control the transceiver to transmit and receive signals through the power line. As shown, the three transceivers 102 are connected to different phases, respectively. That is, R, T, and S three phase lines and the neutral line N are connected to each phase line of the three-phase four-wire power line. The microprocessor unit 100 is connected to a data input / output line, and an input / output buffer 104 for buffering input / output data is connected between the data input / output line and the microprocessor unit 100. On the other hand, the power supply unit 106, which is supplied with power from any phase of R, T, and S, adjusts the output of each transceiver 102 and supplies power to the microprocessor of the communication apparatus. On the other hand, the phase detector 108 is connected to the secondary of the power transformer connected to the power line of any of the three phases to detect the phase. The phase detection unit preferably generates an interrupt signal and transmits the interrupt signal to the microprocessor unit 100 when the voltage phase of the merchant line to be detected is minus 30 ° from the zero crossing point. Meanwhile, the address setting unit 110 may be connected to the microprocessor unit to set a address for identifying each communication device.

2 is a diagram illustrating an AC waveform and an interrupt signal. 2 illustrates an example of detecting a phase of an R phase in a phase detector. When the phase of R detected by the phase detector is -30 ° from the zero crossing point, an interrupt signal is generated and transmitted to the microprocessor unit. When the interrupt signal is transmitted, the microprocessor unit transmits the signal to the transceiver unit, and the transceiver unit loads the transmitted signal on the generated carrier and transmits it through the power line. As shown in the figure, an interrupt is generated at -30 ° zero crossing point, and the R and T phase and the S phase division are possible by dividing the interrupt and interrupt into three equal parts by 60 °. In this way, phase division is performed so that the same information can be simultaneously transmitted to the R, T, and S phases.

3 is a diagram illustrating a data area. This figure also illustrates the case where an interrupt signal is generated at a time point of −30 ° from the zero crossing with respect to the R phase. That is, the phase detector generates an interrupt signal every 180 ° such as -30 °, 150 °, 330 ° based on the R phase, and transmits the interrupt signal to the microprocessor unit. The same information can be transmitted in each phase by dividing the interrupt and the interrupt by 60 ° in three parts. According to this method, since all signals transmitted and received through each phase transmit data near the zero crossing point, the influence of noise can be reduced. However, as shown in FIG. 3, in order to stabilize data transmission, it is preferable not to load data in the front 10 ° portion and the rear 10 ° portion of each upper region.

On the other hand, it is preferable to enable the switching of the channel of the data communication to prevent interference with the surrounding line and to adjust the output level of the signal transmitted from the transceiver to create an optimal state.

The apparatus of the present invention relates to a power line communication apparatus, which transmits data using all three phases rather than transmitting data in a single phase. Therefore, it is possible to receive data from other terminals connected only to a single phase by transmitting data to each of R, T, and S. On the other hand, since the signal is received by all three transceivers connected to each phase at the time of reception, it is possible to receive the data even if any of the three phases are transmitted. On the other hand, in order to load and transmit data on each phase, the interrupt signal is used to detect -30 ° of any of the three phases, and the area is divided by 60 ° based on the data. Send it. In this way, each image transmits a signal near the zero crossing point. That is, the microprocessor receives data from the input / output buffer and transmits it to three transceivers, but transmits the same signal to each transceiver with a predetermined phase difference based on the interrupt signal transmitted from the phase detector. It is possible to transmit data redundantly through the two phases.

The present invention relates to an apparatus for communicating through a three-phase four-wire power line, and simultaneously loads and transmits one signal to R, T, S, and three phases at the same time. It is possible to ensure that the low signal is transmitted, thereby effectively performing power line communication.

In particular, in the form of collective housing such as apartment complexes, the power line is supplied with three phases up to the distribution box, where the power lines are distributed to each home, and the power line is supplied with one of the three phases to each home. When connected to the three-phase power and the communication connection to the device of the present invention in each home, the device of the present invention functions as a kind of information relay device to enable network communication through the power line, and to perform single-phase power line communication of each home to three-phase power line communication. You can easily change it.

The present invention has the effect that it is possible to communicate with the outside using a three-phase four-wire power line without limiting the phase in this way.

1 is a block diagram of an embodiment of the present invention.

2 and 3 are signal diagrams for one embodiment of the present invention.

Claims (3)

In a communication device through a three-phase four-wire power system, A microprocessor for transmitting and receiving data to and from a three-phase four-wire power line through three transceivers corresponding to three phases of the power system; A data input / output line connected to the microprocessor, A transmission / reception buffer connected between the data input / output line and the microprocessor to buffer transmission / reception data; A phase detector configured to detect a voltage phase of one of the power lines and transmit an interrupt signal to the microprocessor, When the microprocessor receives the interrupt signal, the microprocessor transmits the transmission data of the transmission / reception buffer to the three transmission / reception units so that the transmission data is carried on all three phases. Communication device via 3-phase 4-wire power system. The method of claim 1, The phase detector detects a time point at which a voltage phase of one of three phases is -30 ° from a zero crossing point, and transmits an interrupt signal to the microprocessor. Communication device via 3-phase 4-wire power system. The method according to claim 1 or 2, The three transceivers rotate in three phase regions divided into three equal parts by dividing a phase 180 ° region of one of three phases to transmit the same data. Communication device via 3-phase 4-wire power system.