KR100430483B1 - Device for transfer infrared rays a remote controller of using power line communication - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for transmitting an infrared signal of a remote controller for remotely controlling household appliances (e.g., TV, VCR, audio, etc.) using a power line.

According to the present invention, a communication format of an infrared signal generated from a remote controller is converted into a power line communication format, and the infrared signal is transmitted to an infrared signal receiver provided in a home appliance through a power line. Remote control signal of infrared rays transmitted from the remote controller can be received by home appliances without being influenced by the power line regardless of the installation space of home appliances as well as obstacles so that the remote control of household appliances can be easily performed And an infrared signal transmission device for a remote controller using power line communication.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an infrared signal transmission device for a remote control using power line communication,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for transmitting an infrared signal of a remote controller for remotely controlling a home appliance (e.g., TV, VCR, audio, etc.) And transmits the infrared signal to the infrared signal receiving unit of the home appliance through the power line and converts the received signal into the infrared signal of the remote controller to remotely control the home appliance. ≪ / RTI >

Generally, household appliances have a function of being controlled from a remote control signal of an infrared ray outputted from a remote controller.

That is, most home appliances are provided with a remote control for generating an infrared remote control signal so that the operation panel is provided on the main body and can be remotely controlled at a predetermined distance. At this time, And an infrared ray receiving unit for receiving a remote control signal of infrared ray generated from the infrared ray receiving unit.

However, the infrared remote control signal generated by the conventional remote controller has a disadvantage in that the infrared receiver of the home appliance can not properly receive the infrared signal of the remote controller when there is an obstacle ahead of the remote control signal.

In addition, since the infrared signal of the conventional remote controller only has a linearity, even when the infrared signal of the remote controller is generated on the side of the home appliance, the infrared receiver located on the front panel of the home appliance can not properly receive the signal, The remote control of the remote controller is restricted according to the position of the remote controller.

Conventionally, a system for remotely controlling a plurality of household appliances through a single integrated remote controller has been provided. However, the same problems as described above are also present, and a plurality of household appliances are arranged in different spaces It has been inconvenient for the user to move to the front of the household appliances disposed in different spaces in order to transmit infrared remote control signals to the infrared receiving units of the respective appliances.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is therefore an object of the present invention to provide a remote control device capable of converting a communication format of an infrared signal generated by a remote controller into a power line communication format, The remote control signal of the infrared rays transmitted from the remote controller is affected by the power line regardless of the installation space of the home appliance as well as the obstacle. The present invention provides an infrared signal transmission apparatus for a remote controller using a power line communication, which enables easy remote control of household appliances by allowing household appliances to receive the infrared signal.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall schematic diagram of a remote control infrared signal transmission apparatus using power line communication according to an embodiment of the present invention; FIG.

2 is a detailed block diagram of a remote control infrared signal transmission device using power line communication according to an embodiment of the present invention.

FIG. 3 is a diagram illustrating a conversion state between a power line communication format and an infrared signal format of a remote controller according to an embodiment of the present invention; FIG.

4A to 4C are waveform diagrams of a communication protocol according to the transmission of a remote control infrared signal using power line communication according to an embodiment of the present invention.

5 is an overall schematic diagram of an infrared signal multiplexing transmission apparatus of a remote controller using power line communication according to another embodiment of the present invention.

Description of the Related Art [0002]

10; Remote controller 20; Transmitting terminal

21; An infrared signal receiving unit 22; Transmission microcomputer

23; A power line communication transmitting unit 30; Receiving terminal

31; A power line communication receiver 32; Receiving microcomputer

33; An infrared signal generator 100; Power line

200; Home Appliances

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an overall schematic diagram of a remote control infrared ray signal transmission apparatus using power line communication according to an embodiment of the present invention, and FIG. 2 is a detailed block diagram of a remote control infrared ray signal transmission apparatus using power line communication according to an embodiment of the present invention.

FIG. 3 is a diagram illustrating a state in which the power line communication format and the infrared signal format of the remote controller are mutually converted according to an embodiment of the present invention. Fig. 8 is a waveform diagram of a communication protocol.

As shown in FIGS. 1 to 4, a remote controller 10 for transmitting an 8-bit infrared signal to remotely control the appliance 200;

The remote control 10 converts the remote control infrared signal into the communication format of the power line 100 and transmits the converted communication format signal to the power line 100 of the low frequency (50/60 Hz) A transmission terminal 20 for transmitting the signal in the form of a frequency band of? KHz;

And converts the communication format signal of the high frequency type, which is transmitted through the power line 100, from the transmitting terminal 20 into the infrared format of the digital form, A reception terminal 30 for converting the infrared signal into an infrared signal; .

The remote control signal transmission format of the remote controller 10 includes a reader code, a custom code indicating the manufacturer of the appliance 200 as well as a type of the appliance 200, a data code for remotely controlling each function of the appliance, (30) constructs an inverted custom code and an inverted data code having the same length as the custom code and the data code so as to reduce the reception error rate by a logical operation (XOR) upon receiving an infrared signal through the power line Respectively.

The transmitting terminal 20 includes an infrared signal receiver 21 for converting an infrared signal transmitted from the remote controller 10 into an electrical digital signal;

The digital signal converted from the infrared signal receiver 21 is analyzed to determine whether it is in the correct infrared transmission format, the converted digital signal is converted into the transmission format of the power line 100, and the receiving terminal 20, A transmitting microcomputer 22 for adding an address of the transmitting microcomputer 22;

A power line communication transmitting unit 23 for converting a digital power line transmission format signal having an address from the transmitting microcomputer 22 into a high frequency signal and transmitting it on a low frequency power line 100; .

The receiving terminal 30 includes a power line communication receiving unit 31 for filtering a high frequency signal transmitted together with a low frequency of the power line 100 from the transmitting terminal 20 and extracting only a digital signal;

A receiving microcomputer 32 for analyzing a digital signal extracted from the power line communication receiver 31 to identify a reception address and converting a digital signal into an infrared transmission format of the remote controller 10;

An infrared signal generator (not shown) for converting a signal of the infrared transmission format converted from the receiving microcomputer 32 into an original infrared signal for remote control of the household appliance 200 to control the home appliance 200 33); .

Here, the address added from the transmitting microcomputer 22 can control 256 receiving terminals 30 in an 8-bit format and perform 256 functions in an 8-bit data format.

The operation of the embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

First, the home appliance 200 having the power supply cord and the receiving terminal 30 built therein is installed in a predetermined place, and then the power cord of the household appliance 200 is plugged into the outlet connected to the power line 100.

The user transmits an infrared signal of 8 bits from the remote controller 10 so as to remotely control the operation state of the household appliance 200 as well as each function.

Then, the 8-bit infrared signal transmitted from the remote controller 10 is received by the transmitting terminal 20 wired with the power line 100,

The transmitting terminal 20 converts the remote control infrared signal into the communication format of the power line 100 and transmits the converted communication format signal to the power line 100 of the low frequency (50/60 Hz) And transmits it to the household appliance 200 having the receiving terminal 30.

More specifically, the transmission format of the 8-bit infrared signal transmitted from the remote controller 10 includes a reader code, a custom code indicating a manufacturer, as well as the type of the household appliance 200, (XOR) when the receiving terminal 30 receives the infrared signal through the power line 100, as well as the inverted custom code having the same length as the custom code and the data code And an inverted data code,

When the transmission format of the 8-bit infrared signal transmitted from the remote controller 10 is transmitted to the transmitting terminal 20, the infrared signal receiving unit 21 included in the transmitting terminal 20 transmits the infrared signal to the transmitting terminal 20 in an electrically And converts it into a digital signal form.

At this time, the electric digital signal converted from the infrared signal receiving unit 21 is outputted again to the transmission microcomputer 22, and the transmission microcomputer 22 analyzes the input digital signal and checks whether the digital signal is a proper infrared transmission format Converts the digital signal after the conversion into the transmission format of the power line 100, adds the address of the receiving terminal 20 to be transmitted to the converted transmission format, and transmits it to the power line communication transmitting unit 23.

Then, the power line communication transmitting unit 23 converts a digital power line transmission format signal having an address from the transmitting microcomputer 22 into a high frequency signal, places it on the low frequency power line 100, and sends it to the receiving terminal 30 .

Meanwhile, the receiving terminal 30, which is wired with the power line 100 while being installed in the household appliance 200, transmits a communication format signal of a high frequency type, which is transmitted from the transmitting terminal 20 through the power line 100, Converts it into an infrared format, and converts it into an infrared signal that remotely controls the household appliance 200.

That is, the power line communication receiving unit 31 included in the receiving terminal 30 filters the high frequency signal transmitted with the low frequency of the power line 100 from the transmitting terminal 20, extracts only the digital signal, To the receiving microcomputer (32).

Then, the receiving microcomputer 32 analyzes the digital signal extracted from the power line communication receiving unit 31 to check the receiving address, and converts the digital signal into an infrared transmission format of the remote controller 10 However,

The infrared signal generator 33 included in the receiving terminal 30 converts the signal of the infrared transmission format converted from the receiving microcomputer 32 into an original infrared signal for remote control of the household appliance 200, The home appliance 200 can be remotely controlled by the converted infrared signal.

That is, according to the present invention, the infrared signal of the remote controller 10 is transmitted to the household appliance 200 through the power line 100, so that it is not limited to the space of the infrared ray having the directivity, and remote control is also possible.

In addition, according to the present invention, when an address added from the transmission microcomputer 22 is expanded to an 8-bit format, 256 reception terminals 30 can be controlled individually, and 256 functions can be performed in an 8-bit data format Also,

As a result, as shown in FIG. 5, the home appliances 200 scattered in all directions can be individually controlled at the same time.

As described above, according to the present invention, a communication format of an infrared signal generated from a remote controller is converted into a power line communication format, and the infrared signal is transmitted to an infrared signal receiver provided in a home appliance through a power line. Remote control signals of infrared rays transmitted from the remote controller can be remotely controlled by household appliances without being influenced by the power line regardless of the installation space of the home appliance as well as obstacles There is an effect that can be done.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Claims (4)

A remote controller for transmitting an infrared signal in units of bits to remotely control the appliance; A transmitting terminal for converting a remote control infrared signal transmitted from the remote controller into a communication format of a power line and transmitting the converted signal in a high frequency form to a low frequency power line; A receiving terminal incorporated in a home appliance for converting a communication format signal of a high frequency type into an infrared format of a digital type transmitted through a power line from the transmitting terminal and then converting the communication format signal into an infrared signal for remotely controlling the appliance; Wherein the infrared signal transmission device is a remote control device using power line communication. 2. The remote control system of claim 1, A reader code, a custom code indicating a manufacturer, a data code for remotely controlling each function of a home appliance, and a data code for receiving a infrared signal through a power line and performing a logical operation (XOR) Wherein the inverted custom code and inverted data code having the same length as the custom code and the data code are configured together to reduce the reception error rate. The mobile communication terminal of claim 1, An infrared signal receiver for converting an infrared signal transmitted from the remote controller into an electrical digital signal; A transmitter microcomputer for analyzing an electrical digital signal converted from the infrared signal receiver to check whether the digital signal is a correct infrared transmission format, converting the digital signal to a transmission format of a power line, and adding an address of a receiving terminal to which the digital signal is sent; A power line communication transmitting unit for converting a power line transmission format signal of a digital type to which an address is added from the transmitting microcomputer into a high frequency signal and transmitting the converted power signal on a low frequency power line; And an infrared signal transmission unit for transmitting infrared signals to the remote controller using power line communication. 2. The method of claim 1, A power line communication receiver for filtering a high frequency signal transmitted together with a low frequency power line from a transmitting terminal to extract only a digital signal; A receiving microcomputer for analyzing a digital signal extracted from the power line communication receiver to identify a receiving address and converting a digital signal into an infrared transmission format of the remote controller; An infrared signal generator for converting a signal of an infrared transmission format converted from the receiving microcomputer into an original infrared signal for remote control of household appliances to enable remote control of household appliances; And an infrared signal transmission unit for transmitting infrared signals to the remote controller using power line communication.