KR101654541B1 - Edge-lit led light apparatus capable of wireless control and method for controlling adjustable color temperature and dimming - Google Patents

Abstract

The present invention relates to an edge emitting type light emitting diode (LED) lighting device remotely controllable and a method of controlling variable color temperatures and dimming. The edge emitting type LED lighting device can selectively control the color temperatures of LEDs and dimming through wireless communication. The edge emitting type LED lighting device comprises: edge emitting type LED modules where a plurality of white and dayglow color LEDs are arranged repeatedly in a row; and a control circuit unit for individually or integrally controlling the diming and color temperature variations of the LEDs. Also, the present invention remotely controls the diming, color temperature variations, and flickering of the LEDs through wireless communication by using a remote controller or a mobile terminal. According to the disclosed specification, by using a remote controller or a mobile terminal, power supplies and power down, color temperature variations, and diming can be controlled, while controlling multiple LEDs individually or integrally in their power supply, power down, color temperature variations, and diming, thereby providing an optimal lighting environment.

Description

TECHNICAL FIELD [0001] The present invention relates to an edge-type light emitting diode lighting device capable of being controlled in a wireless manner, and a method of controlling the color temperature variation and dimming thereof. BACKGROUND OF THE INVENTION [0002]

More particularly, the present invention relates to an edge-type light emitting diode lighting apparatus capable of being controlled wirelessly using a remote controller, a portable terminal, and the like, and a method of controlling color temperature variation and dimming of the light emitting diode .

As the residential environment develops, interior lighting is being advanced in interior lighting by expressing the color of interior, that is, color temperature, variously in a white light by a conventional fluorescent lamp or a halogen lamp. The most typical illumination device of such interior illumination is an illumination device using a light emitting diode (LED) as a light source, and development and application of the technology are applied in various fields.

Also, the light emitting diode illumination device performs a dimming control function to adjust the illuminance or brightness according to the applied disturbance. Such dimming control is effective in reducing the power consumption of the light emitting diode. Particularly, the heat generated due to the continuous light emission operation in the light emitting diode lowers the quality of the lighting operation.

However, the conventional light emitting diode lighting device merely adjusts the color temperature and dimming, and the optimal color temperature and brightness are not adjusted according to the indoor use environment.

A light emitting diode lighting apparatus according to the prior art is disclosed in Korean Patent Laid-Open Publication No. 10-2015-0014268 (published on June 20, 2015). This technology relates to a cool and warm color variable multi-LED lighting control device through a smart LED package module for a cool and a worm. In a single package module, the temperature, humidity, and brightness It can be widely applied to various fields because it can emit light with a combination of various colors such as a warm light and a cool light and can drive the light according to the ambient temperature, humidity and brightness, thereby improving the learning ability . In addition, this technology provides cool and warm color variable type lighting control device through smart LED package module which can shorten manufacturing time and can install a large number of LEDs on one metal printed circuit board in rows and columns.

The conventional light emitting diode lighting apparatus includes a control circuit of a Zigbee communication type in which LEDs are changed into a warm light and a cool light, and a plurality of LEDs are installed in rows and columns on a single metal printed circuit board.

However, the above-described conventional LED lighting apparatuses can not control the color temperature variation and dimming for the white, daylight-colored LEDs and can not control the LEDs individually or in combination, Is exposed to the outside, and the appearance of the lighting apparatus is not so good.

Korean Patent Laid-Open Publication No. 10-2015-0014268 (published Feb. 06, 2015) Korean Patent Registration No. 10-0985474 (Published on September 29, 2010) Korean Patent Publication No. 10-2014-0143653 (published on December 17, 2014) Korean Patent Publication No. 10-2014-0134182 (published on November 21, 2014)

It is an object of the present invention to provide an edge type light emitting diode lighting device capable of being controlled wirelessly using a remote controller and a portable terminal, and a method of controlling color temperature variation and dimming thereof.

It is another object of the present invention to provide an edge type light emitting diode lighting device that uses wireless communication to selectively control color temperature variation and dimming of light emitting diodes, and a method of controlling color temperature variation and dimming thereof.

It is still another object of the present invention to provide a wirelessly controllable edge-type light emitting diode illumination device having peripheral devices not exposed to the outside, and a method of controlling color temperature variation and dimming thereof.

In order to achieve the above-mentioned objects, the edge type LED lighting apparatus of the present invention is characterized by selectively controlling the color temperature variation and dimming of light emitting diodes using wireless communication. Such an edge type light emitting diode lighting device can supply and cut off power, change color temperature and dimming control using a remote controller and a portable terminal, and can control power supply and cutoff of a plurality of light emitting diodes individually or in combination, It is possible to provide an optimal illumination environment.

According to an aspect of the present invention, there is provided an edge type light emitting diode lighting apparatus comprising: at least one edge type light emitting diode module having a plurality of white and date light emitting diodes; A power supply unit for supplying constant current and constant voltage to the light emitting diode module; A wireless signal receiving module for receiving a wireless signal from outside; And a controller for controlling the variable temperature and the dimming of the selected light emitting diodes according to pulse width modulation by receiving power from the power supply unit when the wireless signal is received from the wireless signal receiving module And a control circuit.

In one embodiment of this aspect, the light emitting diode illumination device comprises: And a base plate stacked on a rear surface of the reflection plate, wherein the reflection plate is disposed on a rear surface of the diffusion plate, and the base plate is stacked on the rear surface of the reflection plate. A body; And a protection member disposed on a rear surface of the base plate and provided on an upper portion of the frame and having an inner space in which a power supply unit, the wireless reception module, and the control circuit unit are accommodated and installed.

In another embodiment, the light emitting diode module includes first and second light emitting diode modules disposed on both sides of the diffusion plate, the reflection plate, and the base plate stacked inside the frame; Wherein each of the first and second light emitting diode modules has a structure in which a plurality of white and green light emitting diodes are repeatedly arranged in a row and a plurality of white light emitting diodes are arranged on a printed circuit board 1 light emitting diodes and a second circuit pattern in which a plurality of second light emitting diodes for collimating are formed, and the first and second circuit patterns are formed on the second light emitting diode for cool light And are electrically connected to each other through the through-hole terminal portions formed between the respective terminals.

In another embodiment, the wireless signal receiving module comprises: An infrared ray receiving module for receiving an infrared ray signal from a remote controller for remotely controlling the color temperature variation and dimming control of the light emitting diodes and a Bluetooth wireless communication module for remotely controlling the color temperature variation and dimming control of the LEDs, And a Bluetooth receiving module for receiving the Bluetooth receiving module.

In still another embodiment, the control circuit unit includes: An input unit for receiving power from the power supply unit; An infrared controller for receiving power from the input unit and controlling power on / off control, color temperature variation and dimming of the selected light emitting diodes when an infrared signal is received by the infrared receiving module; A bluetooth controller for receiving power from the input unit when the bluetooth radio signal is received by the bluetooth receiving module and controlling the power on / off control, the color temperature variable and the dimming of the selected light emitting diodes to be controlled; A first PWM controller for controlling the variable and dimming of the color temperature of the first and second light emitting diodes under the control of the infrared controller to form a channel by a pulse width modulation scheme; A second PWM controller controlling the variable and dimming of the color temperature of the first and second LEDs under the control of the Bluetooth controller to form a channel using a pulse width modulation scheme; And an output unit that receives power from the input unit and supplies power to the light emitting diodes and receives a pulse width modulation signal from the first PWM or the second PWM controller and outputs the pulse width modulation signal to the first and second light emitting diodes do.

In another embodiment, the wireless signal receiving module comprises: And is positioned behind the projection formed on the base plate and is capable of wireless communication through the projection formed on the base plate under the control of the control circuit portion.

According to another aspect of the present invention, there is provided a color temperature variable and dimming control method of an edge-type light emitting diode lighting device including at least one light emitting diode module having a plurality of light emitting diodes.

According to another aspect of the present invention, there is provided a control method of an edge-type light emitting diode lighting apparatus, comprising the steps of: when an infrared or Bluetooth radio signal is received from a remote controller for generating an infrared signal or a portable terminal for generating a Bluetooth radio signal, Determining whether the received infrared ray or the Bluetooth radio signal is a signal for turning on / off the power supply of the light emitting diodes, a signal for changing the color temperature, or a signal for dimming control; As a result of the determination, if the power on / off signal is received, the control circuit unit selects the light emitting diodes individually or in a mixed manner, and supplies or cuts off the power of the selected light emitting diodes. As a result of the discrimination, if the color temperature is a variable signal, the control circuit unit may select the light emitting diodes individually or in combination to adjust the color tone; As a result of the discrimination, if the dimming control signal is received, the control circuit unit may select the light emitting diodes individually or in combination to adjust the brightness.

In one embodiment of this aspect, generating the infrared signal comprises: Wherein the remote controller includes a plurality of buttons for individually or mixedly selecting the light emitting diodes and controlling power supply and cutoff, varying color temperature, and dimming, and being generated by each of the buttons; Generating the Bluetooth radio signal comprises: The light emitting diodes are individually or mixedly selected in the portable terminal, and are generated by using an application for power supply and cutoff, variable color temperature, and dimming control.

In another embodiment, the remote control generates the infrared signal for one of the edge-type light-emitting diode illuminators, and the portable terminal generates the Bluetooth radio signal for at least one of the edge-type light-emitting diode illuminators .

As described above, the edge type light emitting diode lighting apparatus of the present invention can select a plurality of light emitting diodes individually or in a mixed manner to control power on / off, color temperature variation and dimming control.

In addition, the edge type LED lighting apparatus of the present invention can remotely control the color temperature of LEDs and dimming control using wireless communication.

Further, the edge type LED lighting apparatus of the present invention can protect the peripheral devices by installing the power supply unit and the control circuit unit in the interior by using the protection member and installing the IR receiving module and the BT receiving module so that they are not exposed to the outside. , The appearance is beautiful.

FIG. 1 is a perspective view showing a schematic configuration of a wirelessly controllable edge-type LED lighting apparatus according to the present invention; FIG.
2 is an exploded perspective view of the edge-type light emitting diode illumination device shown in FIG. 1;
FIG. 3A is a front view of the edge-type light emitting diode illumination device shown in FIG. 1; FIG.
FIG. 3B is a side view of the edge-type light emitting diode illumination device shown in FIG. 1; FIG.
FIG. 4 is a block diagram showing a configuration for color temperature variation and dimming control of the edge-type LED lighting apparatus shown in FIG. 1; FIG.
5 is a block diagram showing the configuration of the control circuit shown in FIG. 4;
6 is a view showing a part of the circuit board of the light emitting diode module shown in FIG. 4;
FIG. 7 is a circuit diagram of the light emitting diode module shown in FIG. 4; FIG.
8 is a diagram showing a button configuration of the remote controller shown in FIG. 4; And
9 is a flowchart showing a processing procedure for color temperature variation and dimming control in a wirelessly controllable edge type light emitting diode illumination apparatus according to the present invention.

The embodiments of the present invention can be modified into various forms and the scope of the present invention should not be interpreted as being limited by the embodiments described below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the components in the drawings are exaggerated in order to emphasize a clearer explanation.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 9 attached hereto.

FIG. 1 is a perspective view showing a schematic configuration of a wirelessly controllable edge-type light-emitting diode lighting device according to the present invention, FIG. 2 is an exploded perspective view of the edge- And FIG. 3B is a side view of the edge-type light-emitting diode lighting device shown in FIG. 1. FIG. 3B is a side view of the edge-type light-emitting diode lighting device shown in FIG.

1 to 3, an edge-type LED lighting apparatus 100 according to the present invention includes a plurality of light-emitting diodes (LEDs) 100 for selecting light-emitting diodes and remotely controlling power on / off, color temperature variation, So that it can be wirelessly controlled using the remote controller 200 and the portable terminal 300. [

To this end, the edge type LED lighting apparatus 100 of the present invention includes edge type LED modules 160 and 162 in which a plurality of white and date light emitting diodes are repeatedly arranged in a row, And a control circuit unit 150 for selectively controlling the temperature variable and the dimming individually or in a mixed manner. The control circuit unit 150 controls the flashing of the light emitting diodes through wireless communication using a remote controller (200 in FIG. 4) or a portable terminal (300 in FIG. 4) Remote control of color temperature variable and dimming control.

Specifically, the edge type LED lighting apparatus 100 of the present invention includes a frame 110, a protection member 120 installed at the center of the upper end of the frame 110, a diffusion plate 190 A reflection plate 180 stacked on the rear surface of the diffusion plate 190 and a base plate 170 stacked on the rear surface of the reflection plate 180. At this time, the frame 110 and the protection member 120 are composed of the body of the edge-type LED lighting apparatus 100. [

In addition, the edge type LED lighting apparatus 100 of the present invention includes a power supply unit 130, an IR receiving module 140, a Bluetooth (BT) receiving module 142, at least one light emitting diode module 160 , 162).

The frame 110 is opened in an upper surface and a lower surface in a rectangular shape. The frame 110 supports the edge of the diffusion plate 190 accommodated in the inner space 124 of the lower surface and the reflection plate 180 and the base plate 170 are sequentially stacked on the diffusion plate 190. In addition, light emitting diode modules 160 and 162 are accommodated and installed on both inner sides of the frame 110, respectively.

The light emitting diode modules 160 and 162 are edge-lit and are provided with a printed circuit board (164 of FIG. 6) on which a plurality of white and green light emitting diodes are mounted, do. A diffusion plate 190, a reflection plate 180, and a base plate 170 are disposed between the light emitting diode modules 160 and 162.

The protection member 120 has a thin thickness and is installed on the rear surface of the base plate 170 so as to be inserted below the top of the frame 110 across the center of both sides. The protection member 120 is provided with an internal space 124 in which a power supply unit 130 and a control circuit unit 150 are accommodated and a cover 122 whose upper portion is openable and closable from the outside. The protection member 120 is installed so that the IR receiving module 140 and the BT receiving module 142 are not exposed to the outside in the inner space 124.
Corner members 125 are disposed at corners of the upper surface of the rectangular frame 110, respectively.

The power supply unit 130 is installed in the inner space 124 of the protection member 120. The power supply unit 130 is, for example, an SMPS (Switching Mode Power Supply) unit, and supplies AC power to the light emitting diode modules 160 and 162 through the control circuit unit 150.

The control circuit part 150 is installed in the inner space 124 of the protective member 120. At this time, the control circuit unit 150 is arranged in parallel with the power supply unit 130. [ The control circuit 150 controls white and green light emitting diodes of the light emitting diode modules 160 and 162 individually or in a mixed manner to control the color temperature and dimming. The control circuit unit 150 will be described in detail with reference to FIGS. 4 and 5. FIG.

The IR receiving module 140 is installed in an unexposed form in the inner space 124 of the protection member 120. In this embodiment, the IR receiving module 140 is mounted in the control circuit part 150 through a slot, a socket, or the like. At this time, the IR receiving module 140 is positioned behind the projection (not shown) formed on the base plate 170. The IR receiving module 140 is controlled by the control circuit unit 150 and performs infrared (IR) wireless communication with the remote controller 200 through a projection (not shown) formed in the base plate 170 to change the color temperature of the light emitting diodes And a wireless signal to process dimming control.

Accordingly, the edge-type LED lighting apparatus 100 of the present invention can remotely control the color temperature and LED dimming of light emitting diodes using wireless communication, and the IR receiving module 140 and / The BT receiving module 142 is installed so as not to be exposed, and the appearance is simple and beautiful.

FIG. 4 is a block diagram showing a configuration for controlling the color temperature and dimming of the edge-type LED lighting apparatus shown in FIG. 1, and FIG. 5 is a block diagram showing the configuration of the control circuit shown in FIG.

4 and 5, an edge-type LED lighting apparatus 100 according to the present invention includes a power supply unit 130 that receives a DC power and outputs a constant-current and a constant-voltage power, a power supply unit 130 that receives a constant current, A control circuit 150 for controlling the color temperature of the light emitting diodes and controlling the dimming of the light emitting diodes by receiving a constant voltage power, an edge type light emitting diode module 160, 162 in which a plurality of white and green light emitting diodes are repeatedly arranged in a row, An IR receiving module 140 for receiving an infrared signal for remotely controlling the color temperature of the light emitting diodes from the remote controller 200 and controlling dimming of the color temperature of the light emitting diodes from the portable terminal 300, A BT receiving module 142 for receiving a Bluetooth radio signal for controlling the color temperature of the light emitting diodes, And a remote controller 200, and an application (not shown), the mobile terminal 300 that is installed to the remote control the variable color temperature and dimming of light emitting diodes having a.

The power supply unit 130 receives a 220 V AC power, for example, and outputs a 42 V constant current and constant voltage power to the control circuit unit 150. Since the power supply unit 130 has a configuration and function of a typical SMPS apparatus, a detailed description thereof will be omitted.

5, the control circuit unit 150 includes an input unit 151, an IR controller 152, a BT controller 153, a first PWM controller 154, a second PWM controller 155, (156).

The input unit 151 receives the constant current and the constant voltage from the power supply unit 130 and supplies it to the IR controller 152 and the BT controller 153. The input unit 151 also supplies power to the output unit 156 to supply power to the first and second light emitting diode modules 160 and 162.

The IR controller 152 controls the first PWM controller 154 so that the power of the first and second light emitting diode modules 160 and 162 is turned on when the infrared signal is received from the remote controller 200 to the IR receiving module 140 / Off, color temperature variable and dimming control.

The BT controller 153 controls the second PWM controller 155 to receive power from the first and second LED modules 160 and 162 when the Bluetooth signal is received from the portable terminal 300 to the BT receiving module 142. [ On / off, color temperature variable, and dimming.

The first PWM controller 154 regulates the color temperature variation and dimming of the light emitting diodes of the first and second light emitting diode modules 160 and 162 by forming a channel by a pulse width modulation method.

The second PWM controller 155 adjusts the color temperature variation and dimming of the light emitting diodes of the first and second light emitting diode modules 160 and 162 by a pulse width modulation method.

The output unit 156 forms channels for the light emitting diodes for the worm and the cool light of the first and second light emitting diode modules 160 and 162 from the first and second PWM controllers 154 and 155 And outputs a pulse width modulation signal.

Referring to FIG. 4 again, the IR receiving module 140 receives the infrared signal controlling the variable color temperature and dimming from the remote controller 200 under the control of the IR controller 152 of the control circuit unit 150.

The BT receiving module 142 is controlled by the BT controller 153 of the control circuit unit 150 and receives a Bluetooth radio signal for controlling the color temperature variation and dimming from the portable terminal 300.

The portable terminal 300 is, for example, a smart phone or a tablet PC. The portable terminal 300 remotely controls power on / off control, color temperature variation, and dimming control using an application.

The edge type LED lighting apparatus 100 according to the present invention can remotely control the color temperature variation and dimming control of the white and green light emitting diodes using the remote controller 200 and the portable terminal 300.

FIG. 6 is a view showing a part of the circuit board of the light emitting diode module shown in FIG. 4, and FIG. 7 is a circuit diagram of the light emitting diode module shown in FIG.

Referring to FIGS. 6 and 7, the light emitting diode modules 160 and 162 have a structure in which a plurality of white, date light emitting diodes are repeatedly arranged in a row. The light emitting diode modules 160 and 162 include a first circuit pattern 166 on which the first light emitting diodes W1 to W3 for warm light are mounted on the printed circuit board 164 of the porous mounting type, The first and second circuit patterns 166 and 168 are formed between the light emitting diodes C1 to C4 for the cool light and the second circuit patterns 168 are formed on the light emitting diodes C1 to C4. And are electrically connected to each other through the through-hole terminal portions.

The light emitting diodes C1 to C4 and W1 to W3 are mounted on the first and second circuit patterns 166 and 168 at regular intervals. The light emitting diodes W1 to W3 for warm light are mounted between the light emitting diodes C1 to C4 for cool light mounted on the first circuit pattern 166 in the second circuit pattern 168. [

Accordingly, the first and second light emitting diode modules 160 and 162 have a structure in which the light emitting diodes Cn and Wn are repeatedly arranged in a row, as shown in FIG. That is, in this embodiment, a plurality of cool light emitting diodes Cn are arranged in an odd number column, and a plurality of light emitting diodes Wn are arranged in an even number column.

8 is a diagram showing a button configuration of the remote controller shown in Fig.

Referring to FIG. 8, the remote controller 200 of this embodiment includes a plurality of buttons 202 to 216 for selecting and supplying light emitting diodes individually or in combination, for power supply and cutoff, variable color temperature, and dimming control.

Each of the buttons 202 to 216 may be individually or mixedly selected as the light emitting diodes, preset for power supply and cutoff, variable color temperature and dimming control, and set for each user, and stored in a microcomputer (not shown) .

For example, in the present invention, the color temperature variable range is from 2,700 K (warm light) to 6,500 K (cool light), the first buttons 202 control the color temperature of the light emitting diodes, and the second buttons 204 The third button 206 is turned on / off, and each of the fourth to eighth buttons 208 to 216 is set to a mode for each color temperature. That is, the fourth button 208 is a color temperature optimized for reading, the fifth button 210 is a color temperature suitable for focusing 5,000K, and the sixth button 212 is a color temperature suitable for general living 4,500 K, the seventh button 214 is set to 3,500 K, which is a color temperature suitable for watching TV, and the 8 button 216 is set to 2,800 K, which is a color temperature suitable for a comfortable atmosphere.

The remote controller 200 selects light emitting diodes individually or mixedly for one light emitting diode lighting apparatus 100 to remotely control power supply and cutoff, color temperature variation, and dimming control.

However, in the case of the portable terminal 300, one can remotely control the plurality of light emitting diode illumination devices 100.

9 is a flowchart showing a processing procedure for color temperature variation and dimming control of the wirelessly controllable edge type LED lighting apparatus according to the present invention.

9, when the infrared or Bluetooth wireless signal is received from the remote controller 200 or the portable terminal 300 in step S400, the edge type LED lighting apparatus 100 according to the present invention transmits the infrared or Bluetooth radio signal to the control circuit 150 in step S402. Determines whether the received signal is a signal for turning on / off the power supply of the light emitting diode. As a result of the determination, if the power on / off signal is received, the procedure proceeds to step S404, and the control circuit unit 150 selects the light emitting diodes individually or in a mixed manner, and supplies / cuts off the power of the selected light emitting diodes.

However, if it is not a power on / off signal, the process proceeds to step S406, where the control circuit section 150 determines whether the received signal is a signal for varying the color temperature. As a result of the determination, if the signal is a variable color temperature signal, the procedure proceeds to step S408, where the control circuit unit 150 adjusts the color sensitivity by selecting the light emitting diodes individually or in a mixed manner, 150 determines whether the received signal is a signal for dimming control.

As a result of the determination, if the received signal is a dimming signal, the procedure proceeds to step S412, where the light emitting diodes are individually or mixedly selected to adjust the brightness, and the process proceeds to step S400. However, if the received signal is not a dimming signal, the procedure goes to step S400 and waits until a radio signal is received.

The light emitting diode lighting apparatus 100 of the present invention selects light emitting diodes individually or in combination according to a wireless signal transmitted from the remote controller 200 or the portable terminal 300 and supplies / blocks the power of the selected light emitting diodes , You can adjust the color tones or adjust the brightness remotely.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Various changes and modifications are possible.

100: Edge type light emitting diode lighting device
110: frame
120: protective member
122: cover
130: Power supply
140: IR receiving module
142: Bluetooth receiving module
150: control circuit
160, 162: LED module
164: LED module circuit board
166: first circuit pattern
168: second circuit pattern
170: base plate
180: Reflector
190: diffuser plate
200: Remote control
300: portable terminal

Claims (10)

At least one edge type light emitting diode module having a plurality of white and green light emitting diodes; A power supply unit for supplying constant current and constant voltage to the light emitting diode module; A wireless signal receiving module for receiving a wireless signal from outside; And a controller for controlling the variable temperature and the dimming of the selected light emitting diodes according to pulse width modulation by receiving power from the power supply unit when the wireless signal is received from the wireless signal receiving module And a control circuit section,
And a base plate stacked on a rear surface of the reflection plate, wherein the reflection plate is disposed on a rear surface of the diffusion plate, and the base plate is stacked on the rear surface of the reflection plate. Further comprising a body,
Wherein the light emitting diode module includes first and second light emitting diode modules disposed on both sides of the diffusion plate, the reflection plate, and the base plate laminated inside the frame, wherein the first and second light emitting diode modules Each of which has a structure in which a plurality of white, green light emitting diodes are repeatedly arranged in a row, and wherein the first circuit pattern and the second circuit pattern each include a plurality of first light emitting diodes for warmlight, The first circuit patterns and the second circuit patterns are formed on the first circuit patterns and the second circuit patterns on which the second light emitting diodes for cool light are mounted, Electrically connected,
The wireless signal receiving module includes an infrared ray receiving module for receiving an infrared ray signal from a remote controller for remotely controlling a color temperature variation and dimming control of the LEDs, and a controller for controlling the color temperature variable and dimming control of the LEDs, And a Bluetooth receiving module for receiving a Bluetooth radio signal from the portable terminal,
The control circuit unit includes an input unit for receiving power from the power supply unit;
An infrared controller for receiving power from the input unit and controlling power on / off control, color temperature variation and dimming of the selected light emitting diodes when an infrared signal is received by the infrared receiving module; A bluetooth controller for receiving power from the input unit when the bluetooth radio signal is received by the bluetooth receiving module and controlling the power on / off control, the color temperature variable and the dimming of the selected light emitting diodes to be controlled; A first PWM controller for controlling the variable and dimming of the color temperature of the first and second light emitting diodes under the control of the infrared controller to form a channel by a pulse width modulation scheme; A second PWM controller controlling the variable and dimming of the color temperature of the first and second LEDs under the control of the Bluetooth controller to form a channel using a pulse width modulation scheme; And an output unit for receiving power from the input unit to supply power to the light emitting diodes and for receiving the pulse width modulation signal from the first PWM or the second PWM controller and outputting the pulse width modulation signal to the first and second light emitting diodes In an edge type light emitting diode illumination device,
Further comprising a protection member disposed on a rear surface of the base plate and provided on an upper portion of the frame and having an internal space in which a power supply unit, the radio signal receiving module, and the control circuit unit are accommodated and installed. Type light emitting diode lighting device.
delete delete delete delete The method according to claim 1,
The base plate is formed with a through-
Wherein the wireless signal receiving module is wirelessly communicable with the control circuit unit through the second through hole.
delete delete delete The method according to claim 6,
Wherein the remote controller wirelessly communicates with the wireless signal receiving module via the two-
A second button for adjusting dimming, a third button for turning on / off the power, a fourth button for setting the reading optimum color temperature mode, a second button for adjusting the color temperature, A sixth button for setting a general living-life color temperature mode, a seventh button for setting a TV viewing compatible color temperature mode, and an eighth button for setting a comfortable atmospheric color temperature mode Type light emitting diode.

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