KR100764778B1 - Communication apparatus and method in using electrodeless lighting system - Google Patents

Abstract

The present invention relates to a communication apparatus and method using an electrodeless lamp system, and mixes the network information data input through an external network with the power of microwaves leaked from the lamp of the electrodeless lamp system and transmits it to an arbitrary terminal. I did it. To this end, the present invention is a magnetron for generating a microwave; A network connection unit for receiving information data through a network; A communication server for selecting the transmission path of the information data according to a control signal and relaying the information data in the transmission path based on the selection result; A mixer for mixing the information data output from the communication server with the microwave; A resonator for extracting microwaves from the mixed signal output from the mixer and resonating the extracted microwaves; A lamp that converts and outputs energy of microwaves output from the resonator into plasma light and transmits information data mixed in the microwaves; And a control unit for outputting a control signal for controlling the path of the received information data according to whether the lamp is lit.

Description

COMMUNICATION APPARATUS AND METHOD IN USING ELECTRODELESS LIGHTING SYSTEM}

1 is a block diagram showing the configuration of a typical electrodeless lamp system.

2 is a block diagram showing a configuration of a communication apparatus using an electrodeless lamp system according to an embodiment of the present invention.

3 is a flowchart illustrating a communication method using an electrodeless lamp system according to an embodiment of the present invention.

***** Description of the symbols for the main parts of the drawings *****

10: high pressure generating unit 20: magnetron

30: resonator 40: lamp

100: control unit 200: mixer

300: network connection unit 400: communication server

500: communication unit

The present invention relates to an electrodeless lamp system, in particular to transmit the communication data of the wireless LAN to the power of the microwave leaked from the electrodeless lamp system to operate the electrodeless lamp system as an access point of the wireless LAN. A communication apparatus and method using an electrodeless lamp system.

Recently, a lighting device having an electrodeless light bulb using microwaves has been developed, and the electrodeless lighting device has been gradually used because of its long lifespan and good luminous efficiency or characteristics. It will be described with reference to the accompanying drawings.

1 is a block diagram showing a configuration of a conventional electrodeless lighting device, as shown therein a magnetron 10 for generating a microwave; A resonator having a lamp 20 inside and resonating the microwave supplied from the magnetron 10, and converting the microwave energy into light in the bulb to discharge the converted light to the outside as much as possible. 30); A wave guide (40) for guiding the microwaves generated by the magnetron (10) to the resonator (30); A high pressure generator 50 for boosting an external power to a high pressure to supply the magnetron 10; A cooling unit 70 cooling the magnetron 10 and the high pressure generating unit 50 to prevent overheating by heat generated by the magnetron 10 and the high pressure generating unit 50; A controller 60 for controlling the high pressure generator 50 for applying high pressure to the magnetron 10 and controlling the operation of the cooling unit 70; The operation of the conventional apparatus configured as described above is constituted by a cooling completion memory unit 80 which stores whether or not the cooling is completed.

First, the high pressure generating unit 50 receives the driving signal output from the control unit 60 and accordingly boosts AC power from the outside, and supplies the boosted high pressure to the magnetron 10.

Then, the magnetron 10 oscillates by the high pressure output from the high pressure generator 50 to concentrate the microwave having a very high frequency to the lamp 20 in the resonator 30 through the wave guide 40. .

Accordingly, the lamp 20 absorbs microwave energy to generate light.

In this case, the controller 60 drives the cooling unit 70 to prevent overheating by the self-heating of the high pressure generator 50 and the magnetron 10 when the high pressure generator 50 is driven. The high pressure generating unit 50, the magnetron 10 and the electrodeless bulb 20 are cooled.

If the lamp 20 needs to be sufficiently cooled in order to turn it on again after turning off the lamp 20, re-emission is possible. The controller 60 turns off the lamp 20, and then the cooling unit 70. Operate for a period of time to sufficiently cool the lamp 20.

Next, when the cooling of the lamp 20 is completed, the control unit 60 records the cooling completion state in the cooling completion storage unit 80, and then stops driving the cooling unit 70.

Therefore, upon restarting, the control unit 60 reads the contents of the cooling completion storage unit 80 and restarts immediately when the cooling is completed. Otherwise, the control unit 60 drives the cooling unit 70 for a predetermined time, The electrode lamp 20 is restarted.

Here, in the above-described electrodeless lamp system, when generating the plasma light, a small amount of microwave power is leaked.

The leaked power of the microwave has the same 2.45GHZ band as the wireless LAN. Accordingly, the leaked power of the microwave causes interference with the communication signal of the wireless LAN, thereby preventing the communication by the wireless LAN.

The present invention has been made to solve the above problems, it is to mix the network information data input through the external network to the power of the microwave leaked from the lamp of the electrodeless lamp system to transmit to any terminal It is an object of the present invention to provide a communication apparatus and method using an electrodeless lamp system.

The apparatus according to an embodiment of the present invention to achieve the above object,

A magnetron for generating microwaves;

A network connection unit for receiving information data through a network;

A communication server for selecting the transmission path of the information data according to a control signal and relaying the information data in the transmission path based on the selection result;

A mixer for mixing the information data output from the communication server with the microwave;

A resonator for extracting microwaves from the mixed signal output from the mixer and resonating the extracted microwaves;

A lamp for converting and outputting energy of microwaves output from the resonator into plasma light, and transmitting information data mixed with the microwaves;

And a control unit for outputting a control signal for controlling the path of the received information data according to whether the lamp is lit.

Method according to an embodiment of the present invention for achieving the above object,
Receiving information data through a network;
Selecting a transmission path of the information data according to whether a lamp is lit;
Performing a process of transmitting the information data on a carrier through the selected transmission path to an arbitrary terminal,
The process of selecting the transmission path of the information data,
If the lamp is on, mixing the information data with a microwave used as a carrier;
Converting energy of the microwaves into plasma light;

And transmitting the information data mixed in the microwaves.

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Hereinafter, operations and effects of the communication apparatus and method using the electrodeless lamp system according to the present invention will be described in detail with reference to the accompanying drawings.

Here, the present invention is focused on the fact that the power of the microwave leaked from the electrodeless lamp is the same as the frequency band of the wireless LAN, by transmitting the information communication data of the wireless LAN to the leakage microwave power of the electrodeless lamp It is to be noted that to operate as an access point (Access Point) of the WLAN.

2 is a block diagram showing the configuration of a communication apparatus using an electrodeless lamp system according to an embodiment of the present invention.

As shown in FIG. 2, the high pressure generating unit 10, the magnetron 20, the resonator 30, the lamp 40, the control unit 100, the mixer 200, the network connection unit 300, and a communication server 400, a communication unit 5 00 is configured.

The high pressure generating unit 10 boosts an AC voltage by the control signal of the control unit 100 and applies the boosted high voltage to the magnetron 20.

The magnetron 20 oscillates by a high voltage output from the high voltage generating unit 10, and applies microwaves generated by the high voltage to the resonator 30.

The resonator 30 resonates the microwaves generated by the magnetron 20, and the lamp 40 generates plasma light by the microwaves resonated by the resonator 30. According to the present invention, the lamp 40 loads network information data on a leaked microwave and transmits it to an arbitrary terminal.

The network connection unit 300 receives network information data through a network.

The network connection unit 300 may receive network information data wirelessly from a mobile communication network.

The communication server 400 selects a transmission path of network information data output from the network connection unit 300 by a control signal, and outputs the network information data to a transmission path based on the selection result.

The communication unit 500 converts network information data applied from the communication server 400 into radio information data, and transmits the converted radio information data to an arbitrary terminal.

The mixer 200 mixes network information data output from the communication server 400 with the microwaves. That is, the mixer 200 loads the network information data on the microwave and up-converts it.

The mixer 200 and the communication server 400 are provided with a first switch SW1, and the first switch SW1 is switched by a control signal to output network information data output from the communication server 400. It is applied to the mixer 200.

A second switch SW2 is provided between the communication server 400 and the communication unit 500, and the second switch SW2 is switched by a control signal, and the network information output from the communication server 400. The data is applied to the communication unit 500.

The control unit 100 detects the presence or absence of network information data received by the network connection unit 300, and controls the switching of the first and second switches (SW1, SW2) based on the detection result. Output a control signal.

This invention will be described with reference to FIG. 3.

First, when the lamp on signal is generated by the user, the control unit 100 applies a control signal for driving the lamp 40 to the high pressure generating unit 10 (SP1, SP4).

Accordingly, the high voltage generating unit 10 boosts the AC voltage by the control signal of the control unit 100 and applies the boosted high voltage to the magnetron 20.

The magnetron 20 oscillates by a high voltage output from the high voltage generating unit 10, and applies microwaves generated by the high voltage to the resonator 30.

The resonator 30 resonates the microwaves generated by the magnetron 20, and the lamp 40 generates plasma light by the microwaves resonated by the resonator 30 (SP5).

At this time, the control unit 100 monitors whether network information data is generated in the network connection unit 300, and when the network information data is received in the network connection unit 300 (SP6) the control unit 100 is The first switch SW1 is turned on and the second switch SW2 is turned off.

Accordingly, the communication server 400 applies the network information data received by the network connection unit 300 to the mixer 200 through the first switch SW1 by the control signal of the control unit 100. .

Accordingly, the mixer 200 mixes the network information data and the microwave output from the magnetron 20 (SP9), and applies the mixed signal to the resonator 30, and thus the resonator 30 ) Extracts microwaves from the mixed signal output from the mixer 200 and resonates the extracted microwaves.

At this time, the lamp 40 converts the energy of the microwave output from the resonator 30 into plasma light and outputs it (SP10), and transmits the information data mixed in the microwave to any terminal (SP11). ). That is, network information data is loaded on the power of microwaves leaking from the lamp 40.

If the electrodeless lamp system does not operate (SP1), when the network information data is received by the network connection unit 300 (SP2), the first switch SW1 is turned off. The second switch SW2 is turned on.

Accordingly, the communication server 400 applies the network information data output from the network connection unit 300 to the communication unit 500 through the second switch SW2, whereby the communication unit 500 is the The network information data is converted into radio information data and transmitted to an arbitrary terminal (SP3).

That is, the present invention, unlike the prior art by transmitting the communication data of the wireless LAN to the power of the microwave leaked from the electrodeless lamp system to operate the electrodeless lamp system as the access point of the wireless LAN, the conventional leaked micro It is possible to prevent a communication error due to the interference of the operation of the WLAN by the power of the wave.

Specific embodiments or examples made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the extent that they should not be construed as limited to these specific embodiments and should not be construed in consultation. Various changes can be made within the scope of.

As described in detail above, the present invention, by transmitting the communication data of the wireless LAN to the power of the microwave leaked from the electrodeless lamp system to operate the electrodeless lamp system as an access point of the wireless LAN, the electrodeless lamp Frequency collision between the wireless LAN and the wireless LAN can be prevented, and an electrodeless lamp system is used as an access point, thereby reducing the installation cost for wireless communication.

Claims (6)

A magnetron for generating microwaves; A network connection unit for receiving information data through a network; A communication server for selecting the transmission path of the information data according to a control signal and relaying the information data in the transmission path based on the selection result; A mixer for mixing the information data output from the communication server with the microwave; A resonator for extracting microwaves from the mixed signal output from the mixer and resonating the extracted microwaves; A lamp that converts and outputs energy of microwaves output from the resonator into plasma light and transmits information data mixed in the microwaves; And a control unit for outputting a control signal for controlling a path of the received information data according to whether the lamp is lit. According to claim 1, And a first switch switched by the control signal to apply information data output from the communication server to the mixer. According to claim 1, And a second switch switched by the control signal to apply information data output from the communication server to the communication unit. Receiving information data through a network; Selecting a transmission path of the information data according to whether a lamp is lit; Performing a process of transmitting the information data on a carrier through the selected transmission path to an arbitrary terminal, The process of selecting the transmission path of the information data, If the lamp is on, mixing the information data with a microwave used as a carrier; Converting energy of the microwaves into plasma light; Communication method using an electrodeless lamp system comprising the step of transmitting the information data mixed in the microwave. delete The method of claim 4, wherein the selecting of the transmission path of the information data comprises: And converting the information data into wireless data and transmitting the wireless data when the lamp is off.

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