KR102101564B1 - Method and apparatus for controlling temperature in LED electronic displayl - Google Patents

Abstract

The present invention relates to a method for controlling the temperature of an LED display panel, and the method for controlling the temperature of an LED display panel comprises a main frame having a lattice structure and a plurality of LED panel parts comprising a plurality of LED modules installed in front of the main frame and the main frame. In a method for controlling the temperature of the LED display board in the LED display board having an outer case mounted on the periphery and supporting the LED panel unit, measuring the temperature inside the LED display board using a thermistor; If the measured temperature inside the scoreboard is greater than or equal to a first threshold, dimming by adjusting only the brightness of the LED modules without changing the saturation and color of the LED module of the LED panel of the scoreboard; Adjusting the brightness of the LED modules of the LED panel unit if the temperature inside the LED display board is higher than the second threshold value even after adjusting the brightness; And after adjusting the brightness of the LED module of the LED panel portion, if the temperature inside the LED display continues to rise and exceeds the third threshold, forcibly turning off the LED modules of the LED panel portion (OFF).
According to the present invention, it is possible to prevent the deterioration of the LED display board by extending the temperature inside the LED display board appropriately, and to prolong the life of the LED display board. Can be secured.

Description

Method and apparatus for controlling temperature in LED electronic displayl

The present invention relates to a signboard, and more particularly, to a method and apparatus for controlling the temperature of an LED signboard.

Display boards are used in stores, restaurants, companies, and various sales offices to display advertising phrases or information such as trade names, sales products, and business items, and are installed in places that can attract people's attention, such as exterior walls of buildings. In general, the display panel is made of a structure in which a lighting device is provided inside a rectangular frame and a display panel on which characters, figures, symbols, images, etc. are displayed is disposed on the front of the frame.

Recently, the demand for LED display boards using LEDs has increased significantly. LEDs have the advantages of being stable and reliable compared to other light emitting devices, small power consumption, and long life. The LED display board expresses characters using M × N LED module matrixes, and can display various characters or graphics that are different from the static display boards. It is used for various purposes such as media.

The LED display panel is composed of a plurality of LED panel units coupled to the front of the grid-shaped main frame, and a separate external case is mounted around the outer periphery of the main frame to protect the LED panel and electric devices. A plurality of LED modules are arranged in each LED panel unit to express various characters or graphics through ON / OFF of each LED module.

1 is a perspective view schematically showing an example of a general LED display board. Referring to Figure 1 in detail with reference to the conventional LED display panel, the conventional LED display panel 10 is a main frame 11 having a lattice structure, and a plurality of LED panel units coupled through fastening means on the front of the main frame 11 It is formed with (12, 13, 14, 15) and an outer case (16) mounted on the outer periphery of the main frame (11) and supporting the LED panel portions (12, 13, 14, 15). A power source (not shown) and a driving control unit (not shown) for driving control of the LED panel units 12, 13, 14 and 15 are provided inside the outer case 16. The driving control unit controls the LED panel units 12, 13, 14, and 15 to control on / off driving of M × N LED modules disposed in each of the LED panel units 12, 13, 14, and 15. To display text or images.

Each LED module is a combination of LED modules driven by the drive control unit based on the characteristics of a conventional LED display that operates as a unit pixel constituting a character or image to form a specific character or image, and is driven ON The lighting of the LED module is directly irradiated to the person and recognized as a text or image to be advertised to the person.

When a conventional LED display board has a plurality of LED elements and is operated and operated without special control due to the connecting wires connecting the plurality of LED elements and the control unit and the power supply units, the internal temperature rises due to the LED elements. Particularly in summer when the daytime is long, a lot of heat occurs. This causes deterioration of the LED display board, shortens life, and increases the risk of fire.

And the LED display board is installed not only indoors and outdoors, but also outdoors. In indoor, it can be easily recognized even if the LED of the scoreboard maintains a little brightness, but when installed outdoors or outdoors, the LED must be made very bright in order to recognize the letters or images of the scoreboard due to the external brightness during the day. In particular, in the summer, the length of the day is long, so it is necessary to maintain the brightness of the LED for a long time, so the LED element generates a lot of heat and the external temperature is also high, so it is necessary to control the temperature inside the LED display.

In order to control the temperature of the LED display board, the LED display board is ventilated, and a cooler can be installed, but the ventilation is not waterproof when it rains, and the cooler needs additional cost and space to secure the temperature control of the LED display board. Therefore, it is not easy to control when the electric sign is sealed.

The problem to be solved by the present invention was created to solve the above-mentioned difficulties of controlling the temperature of the LED display board, prevents deterioration of the LED display board, prolongs the life, and prevents failure or damage of the LED device due to temperature rise. And it is to provide a method and apparatus for controlling the temperature of the LED display board, which can ensure stability.

Method for controlling the temperature of the LED display according to the present invention for achieving the above technical problem is a plurality of LED panel unit and the main frame consisting of a main frame having a grid structure and a plurality of LED modules installed on the front of the main frame. A method of controlling the temperature of the LED display board in the LED display board having an outer case mounted on the periphery and supporting the LED panel unit, the method comprising: measuring a temperature inside the LED display board using a thermistor; If the measured temperature inside the scoreboard is greater than or equal to a first threshold, dimming by adjusting only the brightness of the LED modules without changing the saturation and color of the LED module of the LED panel of the scoreboard; Adjusting the brightness of the LED modules of the LED panel unit if the temperature inside the LED display board rises above a second threshold value even after adjusting the brightness; And even after adjusting the brightness of the LED modules of the LED panel, if the temperature inside the LED display continues to rise and exceeds a third threshold, forcibly turning off the LED modules of the LED panel.

The brightness of the LED modules in the LED panel is controlled according to an adjustment factor that is a ratio of a time when the LED module is turned on and off in an operating duty cycle of the LED display board.

Preferably, in the present invention, the brightness of the LED modules is controlled by controlling the R, G, and B activation times of the LED modules according to the set brightness to correspond to an adjustment factor.

In the method for controlling the temperature of the LED display according to the present invention, after the LED modules of the LED panel unit are forcibly turned off, when the temperature of the display decreases to reach the third threshold, the LED modules are turned on. Adjusting the brightness of the LED modules of the panel unit; Adjusting the brightness of the LED modules of the LED panel unit if the temperature of the LED panel continues to drop by adjusting the brightness of the LED modules of the LED panel unit to reach the second threshold value; When the temperature of the electronic display continues to drop by adjusting the brightness of the electronic display, reaching the first threshold value, the electronic display may further include a step of operating normally.

The temperature control device of the LED display according to the present invention for achieving the above technical problem, the main frame having a grid structure; A plurality of LED panel units composed of MxN LED modules installed on the front side of the main frame; An apparatus for controlling an internal temperature of an LED display board having an outer case mounted on a periphery of the main frame and supporting an LED panel unit, the apparatus comprising: a thermistor whose resistance value varies according to an internal temperature of the LED display board; A comparator for comparing a voltage according to the resistance value of the thermistor and a plurality of preset threshold voltages; And when the measured temperature inside the electronic display panel is equal to or greater than the first threshold voltage, the saturation and color of the LED modules of the LED panel unit are adjusted without changing the saturation and color. If the temperature inside the scoreboard rises and is above the second threshold voltage, the brightness of the LED modules of the LED panel unit is adjusted, and even after the brightness is adjusted, the temperature inside the scoreboard continues to rise to exceed the third threshold voltage, and the LED of the scoreboard And a control unit forcibly turning off the LED modules of the panel unit.

After the LED modules of the LED panel are forcibly turned off, the control unit turns on the LED modules of the LED panel and turns on the brightness of the LED modules of the LED panel when the temperature of the electronic board reaches a third threshold. Adjust the brightness of the LED panel unit, and the temperature of the LED panel continues to drop by adjusting the brightness of the LED modules to adjust the brightness of the LED panel unit and adjust the brightness of the LED modules of the LED panel unit. When the temperature of the scoreboard continues to drop and reaches the first threshold value, the scoreboard is operated normally.

The control unit includes a constant current element that generates a constant current from a commercial power supply, and a time when the LED module is turned on in an operation duty cycle of the LED signboard when the temperature inside the signboard rises to be greater than or equal to a second threshold and less than or equal to a third threshold. A pulse for adjusting the R, G, and B activation time of the LED module according to the brightness or combination color set according to the determined adjustment factor value, and an adjustment factor determination unit for determining an adjustment factor that is a ratio of the time to be turned off. It characterized in that it comprises a pulse control unit for generating a control signal.

According to the temperature control device and method of the LED display according to the present invention, by properly maintaining the temperature inside the LED display, it is possible to prevent the deterioration of the LED display, extend its life, and in particular, failure of the LED element due to temperature rise Stability can be secured by preventing damage and preventing fire.

1 is a perspective view schematically showing an example of a general LED display board.
2 is a block diagram showing an embodiment of a temperature control device for an LED display according to the present invention.
Figure 3 shows an embodiment of the configuration of the control unit for adjusting the brightness of the LED module in the temperature control device of the LED display according to the present invention.
Figure 4 shows an example of the time the LED module is turned on and off according to the adjustment factor in the present invention.
5 is a view for explaining an example of a pulse control signal generated according to the adjustment factor.
6 is a flowchart showing an embodiment of a method for controlling temperature of an LED display panel according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configurations shown in the embodiments and drawings described in this specification are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application It should be understood that there may be and variations.

2 is a block diagram showing an embodiment of a temperature control device for an LED display according to the present invention. One embodiment of the temperature control device of the LED display according to the present invention comprises a thermistor 210, a comparison unit 220 and a control unit 230.

The LED display board to which the present invention can be applied is a plurality of LEDs composed of a main frame 11 having a lattice structure and MxN LED modules 21 installed on the front side of the main frame 11 as shown in FIG. 1. Panel parts 12, 13, 14 and 15 may be provided with an outer case 16 mounted around the main frame 11 to support the LED panel parts 12, 13, 14 and 15.

The thermistor 210 has a different resistance value according to the internal temperature of the LED display board, and operates as a temperature sensor for measuring the internal temperature of the LED display board. The present invention uses the thermistor 210 as a temperature sensor, but is not limited to the thermistor 210 as a temperature sensor, and a conventional temperature sensor may be used.

The comparator 220 compares the voltage according to the resistance value of the thermistor 210 and the threshold voltages as a plurality of preset thresholds. The first comparator 222, the second comparator 224, and the third comparator 226.

The first comparator 222 compares the voltage according to the resistance value of the thermistor 210 with a first preset threshold. If the voltage according to the resistance value of the thermistor 210 measured as a result of comparison of the first comparison unit 222 is equal to or greater than the first threshold value, the control unit 230 displays the LED modules of the LED panel units 12, 13, 14, 15 The saturation and color of (21) are not changed, but only the brightness is adjusted to blur.

The second comparator 224 compares the voltage according to the resistance value of the thermistor 210 with a preset second threshold. Even after adjusting the brightness of the LED modules 21 of the LED panel units 12, 13, 14, and 15, if the temperature inside the electronic display rises and the voltage according to the resistance value of the thermistor 210 is greater than or equal to the second threshold, the control unit 230 adjusts the brightness of the LED modules 21 of the LED panel units 12, 13, 14 and 15.

The third comparator 226 compares the voltage according to the resistance value of the thermistor 210 with a preset third threshold. Even after adjusting the brightness of the LED modules 21 of the LED panel parts 12, 13, 14, and 15, if the temperature inside the scoreboard continues to rise and the voltage according to the resistance value of the thermistor 210 is greater than or equal to the third threshold, The control unit 230 forcibly turns off the LED modules 21 of the LED panel units 12, 13, 14, and 15.

On the other hand, the control unit 230 is the LED panel unit (12, 13, 14, 15) when the voltage of the resistance value of the thermistor 210 reaches the third threshold value after the display board is forcibly turned off (OFF). ) Turns on the LED modules 21 of () to adjust the brightness of the LED modules 21 of the LED panel units 12, 13, 14 and 15. In addition, the control unit 230 is the LED panel unit 12, 13, 14, 15 by adjusting the brightness of the LED modules 21, the temperature of the electric sign continues to drop, the voltage according to the resistance value of the thermistor 210 is the second When the threshold value is reached, only the brightness of the LED modules 21 of the LED panel sections 12, 13, 14 and 15 is adjusted. In addition, the control unit 230 is the LED panel unit 12, 13, 14, 15 by adjusting the brightness of the LED modules 21, the temperature of the electronic display board continues to drop, the voltage according to the resistance value of the thermistor 210 is the first When the threshold value is reached, the display is controlled to operate normally.

Figure 3 shows an embodiment of the configuration of the control unit 230 for adjusting the brightness of the LED modules in the temperature control device of the LED display according to the present invention. The control unit 230, the constant current element 310, the adjustment factor determination unit 330 and the pulse adjustment unit 350 to adjust the brightness of the LED modules 21 of the LED panel unit 12, 13, 14, 15 It can be made including.

The constant current element 310 generates a constant current from a commercial power supply.

The adjustment factor determining unit 330 when the temperature inside the electronic display board rises and the voltage according to the resistance value of the thermistor 210 is greater than or equal to the second threshold value and less than or equal to the third threshold value, that is, in the case of adjusting the brightness of the LED modules In the operation duty cycle of the LED display panel, an adjustment factor for adjusting the time when the LED module is turned on and off is determined.

Here, the duty cycle refers to a cycle in which all LED pixels of the LED panel are driven. When an LED module composed of 16 × 16 LED pixels is operated with a 1/4 duty cycle, a group of LED pixels from rows 1 to 4 is firstly generated. Pixel group, 5th to 8th LED pixel groups, 2nd pixel group, 9th to 12th LED pixel groups, 3rd pixel group, and 13th to 16th row LED pixels. When the group is divided into a fourth pixel group, LED pixels located in each row of the pixel group row are sequentially driven by each driving chip four times using four driving chips to drive the entire LED pixels. Even when the LED pixels of each row are sequentially driven with a time difference, all human pixels of the LED module are recognized as an image generated by human eyes.

Figure 4 shows an example of the time the LED module is turned on and off according to the adjustment factor in the present invention.

As illustrated in FIG. 4, when the voltage according to the resistance value of the thermistor 210 is greater than or equal to the second threshold and less than or equal to the third threshold at the temperature inside the electronic display board, the adjustment factor when the temperature inside the electronic display board is the first section If is set to 80%, as shown in Figure 4 (a), in the operating duty cycle, the LED module is controlled to 80% on and off to 20%. If the voltage according to the resistance value of the thermistor 210 is higher than the second threshold and lower than the third threshold at the temperature inside the scoreboard, if the temperature inside the scoreboard further rises and the adjustment factor is set to 65% in the second section, , As shown in Fig. 4 (b), the LED module is controlled to 65% on and off to 35% in the operating duty cycle. If the voltage according to the resistance value of the thermistor 210 is higher than the second threshold and lower than the third threshold at the temperature inside the scoreboard, if the temperature inside the scoreboard continues to rise and set the adjustment factor to 40% in the third section As shown in Fig. 4 (c), in the operation duty cycle, the LED module is controlled to 40% on and off to 60%. When the voltage according to the resistance value of the thermistor 210 is higher than the second threshold and lower than the third threshold at the temperature inside the scoreboard, if the temperature inside the scoreboard continues to rise and set the adjustment factor to 15% in the fourth section , As shown in Fig. 4 (d), the LED module is controlled at 15% on and off at 85% in the operating duty cycle.

According to the field to which the present invention is applied, in a state in which the voltage according to the resistance value of the thermistor 210 at the internal temperature of the LED display board is greater than or equal to the second threshold and less than or equal to the third threshold, various sections for adjusting the brightness of the LED modules are varied. It can be classified or variously set the adjustment factor value, which falls within the scope of the present invention.

Referring back to FIG. 3, the pulse adjusting unit 350 generates a pulse control signal for adjusting the R, G, and B activation time of the LED module according to the brightness set according to the determined adjustment factor value. That is, the activation time of the LED module may be different for each of the R (red) LED module, G (green) LED module, and B (blue) LED module according to the set brightness or combination color, depending on the determined adjustment factor value. In the duty cycle, a pulse control signal is generated to control the activation time of the R, G, and B LED modules according to the brightness at which the LED module is turned on or according to the combination color. For example, if the adjustment factor is 40% and the LED module is turned on in the duty cycle is determined to be 40%, the brightness or combination color of the LED module is 40% when the R, G, and B LED modules are turned on. Generates a pulse control signal that evenly controls the preset on-time of the R, G, and B LED modules to 40%.

The constant current output from the constant current device is divided into on / off times according to the pulse control signal to supply power to the LED module.

5 shows an example of a pulse control signal for controlling the on time of the LED module.

FIG. 5 (a) shows a pulse control signal for controlling an on time of a preset RGB LED module, and FIG. 5 (b) shows a pulse control signal for controlling an on time of the RGB module according to a 40% adjustment factor. An example of is shown.

On the other hand, the LED device has a light-emitting characteristic changes with temperature, and the light-emitting characteristic may be different for each RGB LED device. In addition, since the LED module generates a lot of heat in the process of operation, it may not be illuminated with the brightness required in the process of operation, and due to the different luminescence characteristics according to the temperature of each of the RGB LED elements, a predetermined color such as white light may be generated. It may not appear. Accordingly, the control unit 230 may adjust the brightness of the LED modules 240 of the LED panel unit by adjusting the forward current value considering the brightness characteristics of the RGB device according to the current change of the LED modules 240 of the LED panel unit.

According to an embodiment of the present invention, the LED module may include at least one LED RGB element, and LED elements of different colors may form different LED element units. And different LED device units can be controlled according to different output conditions. Specifically, the output of the LED R element unit of the LED R element unit is controlled by the same forward current value, and may have a different forward current value from the LED G element unit or LED element of the LED B element unit. The output control by these different current values can be determined according to the color or brightness to be expressed. The output control of the LED module can be made by increasing or decreasing the forward current value, and can be performed on a chip-by-chip basis or for each LED RGB device unit. In addition, output control may be performed according to a predetermined output characteristic.

6 is a flowchart illustrating an embodiment of a method for controlling temperature of an LED display panel according to the present invention. 2 to 6, the temperature inside the LED display board is measured using the thermistor 210 (step S410). The voltage according to the resistance value of the thermistor 210 at the measured temperature inside the display board is the first threshold value. If it is abnormal (step S420), the saturation and color of the LED modules 240 of the LED panel unit are not changed, and only the brightness of the LED modules 240 of the LED panel unit is adjusted to blur (S430).

Even after adjusting the brightness of the LED modules 240 of the LED panel unit, if the temperature inside the LED display board rises and the voltage according to the resistance value of the thermistor 210 is greater than or equal to the second threshold value (step S440), the LED of the LED panel unit Adjusts the brightness of the modules 240 (step S450). The brightness of the LED modules 240 can be controlled by controlling the pulse width of the constant current power output from the constant current element 310 and applied to the LED module. Adjust the brightness of the LED module by differently adjusting the adjustment factor, which is the ratio of the time the LED module is turned on and off in the duty cycle of. In addition, the brightness of the LED modules 240 of the LED panel unit may be adjusted by the forward current value in consideration of the brightness characteristics of the RGB device according to the current change of the LED modules 240 of the LED panel unit.

Even after adjusting the brightness of the LED modules 240 of the LED panel unit, if the temperature of the LED display board continues to rise and the voltage according to the resistance value of the thermistor 210 exceeds the third threshold value (step S460), the LED of the LED panel unit The modules 240 are forcibly turned off (step S470).

Meanwhile, after the LED module of the scoreboard is forcibly turned off, when the temperature of the scoreboard decreases and the voltage according to the resistance value of the thermistor 210 reaches the third threshold, the LED modules 240 of the LED panel unit are turned on (ON). ) To adjust the brightness of the LED modules 240 of the LED panel unit (step S450).

If the temperature of the display board continues to drop by adjusting the brightness of the LED modules 240 of the LED panel unit, and the voltage according to the resistance value of the thermistor 210 is less than the second threshold value (step S440), the LED modules of the LED panel unit Adjust only the brightness of (240). (Step S430) By controlling the brightness of the LED modules 240 of the LED panel unit, the temperature of the electronic display continues to drop, so that the voltage according to the resistance value of the thermistor 210 is applied to the first threshold value. As soon as possible (step S420), the LED modules 240 of the LED panel unit operate normally and measure the internal temperature of the LED display board (step S410).

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: LED display board 11: Main frame
12, 13, 14, 15: LED panel unit 21: MxN LED modules
16: Outer case 210: Thermistor
220: comparison section 222: first comparison section
224: second comparison section 226: third comparison section
230: control unit 240: LED modules of the LED panel unit
310: constant current element 320: resistor
330: resistance selector

Claims (8)

In the LED display panel having a main frame having a grid structure and a plurality of LED panel parts composed of a plurality of LED modules installed on the front of the main frame and an outer case mounted around the main frame to support the LED panel part In the method for controlling the temperature of the LED display board
Measuring the temperature inside the LED display board using a thermistor;
If the measured temperature inside the scoreboard is greater than or equal to a first threshold, dimming by adjusting only the brightness of the LED modules without changing the saturation and color of the LED module of the LED panel of the scoreboard;
Adjusting the brightness of the LED modules of the LED panel unit if the temperature inside the LED display board rises above a second threshold value even after adjusting the brightness;
LED display panel temperature including the step of forcibly turning off the LED modules of the LED panel unit if the temperature inside the LED display panel continues to rise and exceeds a third threshold value even after adjusting the brightness of the LED modules of the LED panel unit Control method. According to claim 1, The brightness of the LED modules
In the operation duty cycle of the LED display panel, the LED display board temperature control method characterized in that it is controlled according to a control factor that is the ratio of the time that the LED module is on and off. According to claim 2, The brightness of the LED modules
A method for controlling the temperature of an LED display panel, wherein the activation time of the LED module according to the set brightness is controlled by controlling the activation time corresponding to the adjustment factor. According to claim 1,
Adjusting the brightness of the LED modules of the LED panel by turning on the LED modules when the temperature of the electronic display board reaches the third threshold after the LED modules of the LED panel are forcibly turned off;
Adjusting the brightness of the LED modules of the LED panel unit if the temperature of the LED panel continues to drop by adjusting the brightness of the LED modules of the LED panel unit to reach the second threshold value;
The temperature control method of the LED display panel further comprising the step of allowing the display panel to operate normally when the temperature of the display panel continues to drop by adjusting the brightness of the display panel to reach the first threshold value. A main frame having a lattice structure; A plurality of LED panel units composed of MxN LED modules installed on the front side of the main frame; In the apparatus for controlling the internal temperature of the LED display panel having an outer case mounted on the periphery of the main frame to support the LED panel,
A thermistor whose resistance value varies according to the internal temperature of the LED display board;
A comparator for comparing a voltage according to the resistance value of the thermistor and a plurality of preset threshold voltages; And
When the voltage according to the resistance value of the thermistor is greater than or equal to the first threshold voltage at the internal temperature of the display board, the saturation and color of the LED modules of the LED panel unit are not changed and the brightness is adjusted by dimming and the brightness is adjusted. Even after the temperature inside the electronic display rises and the voltage according to the resistance value of the thermistor is greater than or equal to the second threshold voltage, the brightness of the LED modules of the LED panel is adjusted, and the temperature inside the electronic display continues to rise after adjusting the brightness. When the voltage according to the resistance value of the thermistor exceeds the third threshold voltage, characterized in that it comprises a control unit forcibly off (OFF) the LED modules of the LED panel portion of the LED display, LED display panel temperature control device. The method of claim 5, wherein the control unit
After the LED modules of the LED panel unit are forcibly turned off, when the temperature of the electronic board decreases and the voltage according to the resistance value of the thermistor reaches the third threshold voltage, the LED modules of the LED panel unit turn on and turn on the LED panel. When the brightness of the negative LED modules is adjusted, and the temperature of the electronic display board continues to decrease by adjusting the brightness of the LED modules of the LED panel unit, when the voltage according to the resistance value of the thermistor reaches the second threshold voltage, only the brightness of the electronic display board is reached. LED by adjusting the brightness of the LED modules of the LED panel unit, and when the temperature of the electronic display continues to drop, so that the voltage according to the resistance value of the thermistor reaches the first threshold voltage, the LED operates normally. Display board temperature control device. The method of claim 5, wherein the control unit
A constant current element generating a constant current from a commercial power supply;
When the temperature inside the scoreboard rises and the voltage according to the resistance value of the thermistor is greater than or equal to the second threshold voltage and less than or equal to the third threshold voltage, the LED module is turned on and off in the operating duty cycle of the LED scoreboard. A control factor determination unit for determining a control factor that is a ratio of time being; And
LED control panel temperature control device characterized in that it comprises a pulse control unit for generating a pulse control signal for adjusting the R, G, B activation time of the LED module according to the brightness or combination color set according to the determined adjustment factor value. According to claim 5, The control unit
LED panel temperature control device characterized in that to adjust the brightness of the LED module by adjusting the forward current value considering the brightness characteristics or brightness characteristics of the RGB device according to the current change of the LED module of the LED panel.

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