KR102451458B1 - White balance control system and method for LED display screen - Google Patents

Abstract

The present invention relates to a white balance control system and a method for an LED display screen, which solve the problem of color defects of the LED display screen caused by the problem of temperature difference and driving voltage difference between LED modules. The white balance control system for the LED display screen includes an LED module, a cooling unit, a control terminal, a temperature detection unit, a voltage monitoring circuit unit, a main control unit, a controlled unit, and a white balance compensator.

Description

White balance control system and method for LED display screen

The present invention relates to a white balance control system and method for an LED display screen.

In general, an electronic device includes a display panel that provides a visual image to a user of the electronic device. Such a display panel may emit a non-uniform temperature in various areas of the display panel. For example, in a display panel using light emitting diodes (LEDs), the display temperature may be higher in areas close to the LEDs than in areas further away from the LEDs. In addition, heating components such as drivers close to the display screen can also contribute to temperature variations on the display.

Temperature variations in display panels can create color malady, such as making them bluer in hotter regions and more yellow in cooler regions. Therefore, understanding the temperature variations of display panels can help counter these color imperfections in manufacturing.

On the other hand, it is known that the light emitting intensity of a semiconductor light emitting device such as a conventional light emitting diode changes with the passage of time or a change in temperature. For example, with the passage of time, it is known that the light emitting output decreases with the deterioration of the semiconductor light emitting device. It rises with deterioration, and the lifespan becomes short. In addition, when the temperature increases, the threshold current increases in semiconductor laser diodes (LD), etc., and at the same time, more driving current or driving voltage is required to obtain the same light emission output. In other words, it is known that the light emission output decreases in constant current driving and the like, and, conversely, when the temperature is low, a larger light emission output can be obtained even at the same current value.

If there is a change or change in light emission output accompanying a change in elapsed time or temperature change of such a semiconductor light emitting device, it becomes difficult to construct an accurate measurement system of an optical fiber communication system or to build a highly reliable communication facility, etc. In the case of a display or lighting, light intensity or color irregularity may occur. Accordingly, in order to solve the problem of light intensity or color unevenness, it is required to develop a white balance control system for making the light output constant.

Registered Patent Publication No. 10-1356516 (Registered on Jan. 22, 2014)

An object of the present invention is to provide a white balance control system and method for an LED display screen.

A white balance control system for an LED display screen according to the present invention for achieving the above object includes: an LED module including a data processing unit, at least one digital potentiometer, and red, green, and blue LED elements; a cooling unit for cooling the heat generated by the LED module; a control terminal generating a driving command and driving data by calculating a resistance value of the digital potentiometer corresponding to the driving chip of the red, green, and blue LED elements; a temperature detection unit electrically connected to the data processing unit, collecting the temperature of the LED module or an LED box body covering the LED module, and transmitting the collected temperature to the data processing unit; a voltage monitoring circuit unit electrically connected to the data processing unit, collecting the driving voltage of the LED module and transmitting it to the data processing unit; a main control unit for receiving a driving command and driving data transmitted from the control terminal; a control unit to acquire and execute the driving command and driving data transmitted from the control terminal, transmit it to a lower level, and integrate the temperature value and the voltage value obtained through the data processing unit; and a white balance compensator configured to generate a white balance compensation command and data of the main control unit and the control unit according to the integrated temperature and voltage values through the control unit.

In addition, the data processing unit may be configured to generate a control signal corresponding to the driving command transmitted from the control terminal and output it to each of the digital potentiometers to be adjusted to a target value corresponding to the resistance of each of the digital potentiometers.

In addition, one end of the digital potentiometer may be electrically connected to a driving IC current control pin of the LED device having the same color, and the other end may be electrically connected to the data processing unit.

In addition, the data processing unit determines whether the temperature value collected by the temperature detector exceeds a preset normal range, and when the temperature value exceeds a preset normal range, the white balance compensator determines that the temperature value is Evaluate the effect on white balance, calculate a target resistance value to be adjusted in the digital potentiometer corresponding to the driving chip of the red, green, and blue LED elements to remove the effect, and the data processing unit calculates the white balance Compensation for white balance may be completed by forming a control signal according to the target resistance value of the balance compensator and outputting it to the digital potentiometer to complete resistance adjustment.

In addition, the data processing unit determines whether the voltage value collected by the voltage monitoring circuit unit exceeds a predetermined normal range, and when the voltage value exceeds a predetermined normal range, the white balance compensator unit determines the voltage value The effect on the white balance is evaluated, and a resistance target value to be adjusted in the digital potentiometer corresponding to the driving chip of the red, green, and blue LED elements is calculated in order to remove the effect, and the data processing unit includes the Compensation for white balance may be completed by forming a control signal according to the target resistance value of the white balance compensator and outputting it to the digital potentiometer to complete resistance adjustment.

In addition, a transmitting module for transmitting the driving command and driving data generated from the control terminal to the main control unit, and electrically connected to the main control unit for receiving the driving command and driving data transmitted through the transmitting module It may further include a receiving module, wherein the control terminal is provided as a PC, the transmitting module is provided as a transmitting card, and the receiving module is provided as a receiving card.

In addition, the control terminal further includes a white balance program component, and the white balance program component includes a target luminance of an LED module including the red, green, and blue LED elements, a luminance ratio for three colors of the LED element, A driving command and driving data may be generated by calculating a resistance value of the digital potentiometer corresponding to the driving chip of the red, green, and blue LED device according to one or more parameters selected from among the fixed resistance values of the driving chip.

In addition, a transmitting module for transmitting the driving command and driving data generated from the control terminal to the main control unit, and electrically connected to the main control unit for receiving the driving command and driving data transmitted through the transmitting module It may further include a receiving module, wherein the control terminal is provided as an optical measuring device having an optical sensing module, the transmitting module is provided as a wireless transmitting module, and the receiving module is provided as a wireless receiving module.

In addition, the wireless transmission module and the wireless reception module may be provided as a Bluetooth or RFID module.

In addition, the white balance program component may calculate a resistance value to be additionally adjusted in the digital potentiometer by obtaining the luminance value of the LED module in real time from the light sensing module and calculating a deviation from the target luminance value.

In addition, the cooling unit is formed as a cooling fan, and may be driven when a temperature value measured by the temperature detection unit exceeds a preset normal range.

The white balance control method for an LED display screen according to the present invention is a target luminance of an LED module including red, green, and blue LED elements using a control terminal, a luminance ratio for three colors of the LED element, and a value of the driving chip. generating a driving command and driving data by calculating a resistance value of a digital potentiometer corresponding to a driving chip of the red, green, and blue LED device according to at least one parameter selected from among fixed resistance values; obtaining temperature and voltage values of the LED module using a data processing unit provided in the LED module; By using a white balance compensator provided in the LED module to execute a drive command transmitted from the control terminal, generate a control signal corresponding to the drive command and output to each digital potentiometer, the resistance of each digital potentiometer is adjusting to a corresponding target value to complete the initial configuration of the white balance of the LED module; monitoring the temperature and voltage values obtained from the data processing unit using the white balance compensator, and evaluating an effect of the temperature and voltage values on white balance according to the monitoring result; In order to remove the effect of white balance depending on the temperature and voltage values, the white balance compensator is used to calculate a target resistance value to be adjusted by a digital potentiometer corresponding to the driving chip of the red, green, and blue LED devices. step; and forming a control signal according to the target resistance value of the white balance compensator using the data processing unit and outputting it to a digital potentiometer to complete the resistance adjustment, thereby completing compensation for the white balance.

In addition, the control terminal is provided as a light measuring device having a photo sensing module, and includes a white balance program constructing unit, wherein the white balance program constructing unit uses the light sensing module of the light measuring device to display the current luminance value of the LED module. By calculating the deviation from the target luminance value by obtaining It may further include the step of completing the correction.

According to the present invention, by realizing the white balance compensation of the LED display screen, it is possible to solve the problem of color defects of the LED display screen caused by the problem of the temperature difference and the driving voltage difference between the LED modules.

1 is a block diagram of a white balance control system for an LED display screen according to an embodiment of the present invention.
2 is a block diagram of a white balance control system for an LED display screen according to an embodiment of the present invention.
3 is one of the implementation examples of the white balance control system of the LED display screen according to an embodiment of the present invention.
4 is one of the implementation examples of the white balance control system of the LED display screen according to another embodiment of the present invention.
5 is a flowchart of a white balance control method for an LED display screen according to an embodiment of the present invention.

Hereinafter, a white balance control system and method for an LED display screen according to a preferred embodiment will be described in detail with reference to the accompanying drawings. Here, the same reference numerals are used for the same components, and repeated descriptions and detailed descriptions of well-known functions and configurations that may unnecessarily obscure the gist of the present invention will be omitted. The embodiments of the invention are provided in order to more completely explain the invention to those of ordinary skill in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer description.

1 is a block diagram of a white balance control system for an LED display screen according to an embodiment of the present invention.

Referring to FIG. 1 , a white balance control system 100 for an LED display screen includes an LED module 110 , a cooling unit 120 , a control terminal 130 , a temperature detection unit 140 , and a voltage monitoring circuit unit ( 150 , a main controller 160 , a to-be-controlled 170 , and a white balance compensator 180 may be included.

The LED module 110 may include a data processing unit 111 , at least one digital potentiometer 112 , and red, green, and blue LED elements 113 . For example, in the LED module 110 , a data processing unit 111 made of a microprocessor, at least one digital potentiometer 112 capable of arbitrarily adjusting a resistance value, and red, green, and blue LED elements 113 . may be provided, and one end of the digital potentiometer 112 may be electrically connected to the driving IC current control pin of the LED element 113 having the same color, and the other end may be electrically connected to the data processing unit 111 . That is, when three red, green, and blue LED elements 113 are provided, three digital potentiometers 112 may also be provided, and one digital potentiometer 112 includes a red LED element 113 . , a green LED element 113 and a blue LED element 113 may be connected to the remaining digital potentiometer 112 , respectively.

The cooling unit 120 is for cooling the heat generated by the LED module 110, and may be formed as a cooling fan. The cooling unit 120 may be provided to be driven when the temperature value measured by the temperature detection unit 140, which will be described later, exceeds a preset normal range. As such, the reason for installing the cooling unit 120 is that when the display screen is driven, the temperature of a portion close to the LED module 110 may be higher than the temperature of a portion farther from the LED module 110, and such a temperature deviation This is because color defects may occur. That is, by installing the cooling unit 120 in a part far from the LED module 110 and driving the cooling unit 120 when the measured temperature value exceeds a preset range, white balance can be implemented more quickly. do.

The control terminal 130 may generate a driving command and driving data by calculating the resistance value of the digital potentiometer 112 corresponding to the driving chip of the red, green, and blue LED elements 113 . The driving command and driving data generated in this way are transmitted to the data processing unit 111 to execute the driving command, and generate a control signal corresponding to the driving command and output it to each digital potentiometer 112 , so that the It may be formed to be adjusted to a target value corresponding to the resistance.

The temperature detection unit 140 is electrically connected to the data processing unit 111 , and collects the temperature of the LED module 110 or the LED box body covering the LED module 110 and transmits it to the data processing unit 111 .

The voltage monitoring circuit unit 150 is electrically connected to the data processing unit 111 , and may collect the driving voltage of the LED module 110 and transmit it to the data processing unit 111 . In this case, the LED module 110 may include a serial port cascade module, and the voltage monitoring circuit unit 150 may collect the cascaded driving voltage from the LED module 110 and transmit it to the data processing unit 111 .

The main control unit 160 may receive a driving command and driving data transmitted from the control terminal 130 . At this time, in order to transmit and receive the driving command and driving data, the white balance control system 100 for the LED display screen transmits the driving command and driving data generated from the control terminal 130 to the main controller 160 ( 191 ) and a receiving module 192 electrically connected to the main control unit 160 to receive the driving command and driving data transmitted through the transmitting module 191 .

The control unit 170 may acquire and execute the driving command and driving data transmitted from the control terminal 130 , and transmit it to a lower level, and may integrate the temperature value and the voltage value acquired through the data processing unit 111 . For example, the control unit 170 may integrate the temperature value and the voltage value obtained through the data processing unit 111 into the data processing unit 111 using the serial port cascade module.

The white balance compensator 180 may generate a white balance compensation command and data from the main control unit 160 and the control unit 170 according to the temperature and voltage values integrated through the control unit 170 . For example, the data processing unit 111 determines whether the temperature value collected by the temperature detection unit 140 exceeds a preset normal range, and when the temperature value exceeds the preset normal range, the white balance compensator Reference numeral 180 evaluates the effect of the temperature value on the white balance, and in order to remove the effect, the resistance target to be adjusted in the digital potentiometer 112 corresponding to the driving chip of the red, green, and blue LED elements 113 . value can be calculated. Then, the data processing unit 111 forms a control signal according to the target resistance value of the white balance compensator 180 and outputs it to the digital potentiometer 112 to complete the resistance adjustment, thereby completing compensation for the white balance. have.

In addition, the data processing unit 111 determines whether the voltage value collected by the voltage monitoring circuit unit 150 exceeds a preset normal range, and when the voltage value exceeds the preset normal range, the white balance compensator ( 180 evaluates the effect of the voltage value on the white balance, and in order to remove the effect, the resistance target value to be adjusted in the digital potentiometer 112 corresponding to the driving chip of the red, green, and blue LED elements 113 can be calculated. Then, the data processing unit 111 forms a control signal according to the target resistance value of the white balance compensator 180 and outputs it to the digital potentiometer 112 to complete the resistance adjustment, thereby completing compensation for the white balance. have.

2 is a block diagram of a white balance control system for an LED display screen according to an embodiment of the present invention.

A pixel of the LED module 110 may be composed of red, green, and blue LED elements 113 . The red, green, and blue LED elements 113 may be individually installed on the backlight board or packaged together and installed. In addition, a data processing unit 111 and a plurality of digital potentiometers 112 may be installed in the LED module 110 . The number of digital potentiometers 112 may be determined according to actual needs, and preferably three may be provided. For example, one end of the digital potentiometer 112 may be electrically connected to a driving IC current control pin of a lamp of the same color, and the other end may be electrically connected to the data processing unit 111 . And, if necessary, a fixed resistor may be provided between the digital potentiometer 112 and the driving IC current control pin.

The data processing unit 111 may be electrically connected to the receiving module 192 , and the temperature detection unit 140 and the voltage monitoring circuit unit 150 may be respectively connected to the data processing unit 111 . The control terminal 130 may be electrically connected to the transmitting module 191 , and may transmit a driving command and driving data to the receiving module 192 through the transmitting module 191 . In this case, the control terminal 130 may include a hardware circuit structure and a software program.

In this embodiment, the control terminal 130 calculates the resistance value of the digital potentiometer 112 corresponding to the driving chip of the red, green, and blue LED elements 113 to generate a driving command and driving data, and then transmits the module. It can be transmitted to the receiving module 192 via (191). In this case, the control terminal 130 may include a white balance program configuration unit 131 having a white balance setting program embedded therein. The white balance setting program built into the white balance program configuration unit 131 can be implemented in various programming languages, and the target luminance of the LED module 110 including the red, green, and blue LED elements 113, the LED elements The resistance value of the digital potentiometer 112 corresponding to the driving chip of the red, green, and blue LED element 113 according to one or more parameters selected among the luminance ratio for the three colors of 113 and the fixed resistance value of the driving chip. can be calculated to generate a driving command and driving data.

The data processing unit 111 executes a drive command transmitted from the control terminal 130 , generates a control signal corresponding to the drive command, and outputs it to each digital potentiometer 112 , thereby corresponding to the resistance of each digital potentiometer 112 . By adjusting to the target value, the initial configuration of the white balance of the LED module 110 can be completed. For example, the data processing unit 111 may be provided as an ARM processor, a single-chip microcomputer, a field programmable logic device (FPGA), a complex programmable logic device (CPLD), or the like.

The temperature detection unit 140 may collect the temperature of the LED module 110 or the LED box covering the LED module 110 and transmit it to the data processing unit 111 . Here, the temperature detection unit 140 is formed as a temperature sensor and can measure the temperature of the LED module 110 in real time, and control the driving of a cooling fan for cooling the LED module 110 according to the measured temperature. can For example, the LED module 110 may be installed on one side of the LED display screen, and at least one cooling fan may be provided on the other side of the LED display screen spaced apart from the LED module 110 .

The voltage monitoring circuit unit 150 may collect the driving voltage of the LED module 110 and input it to the data processing unit 111 . For example, the temperature detection unit 140 and the voltage monitoring circuit unit 150 may be provided together in the LED module 110 , and if necessary, only the temperature detection unit 140 or the voltage monitoring circuit unit 150 may be provided. . However, it is preferable that both the temperature detection unit 140 and the voltage monitoring circuit unit 150 are provided to compensate for the effect of the white balance according to the temperature and voltage values.

3 is one of the implementation examples of the white balance control system of the LED display screen according to an embodiment of the present invention.

Referring to FIG. 3 , the control terminal 130 may be provided as a PC, the transmission module 191 may be provided as a transmission card, and the reception module 192 may be provided as a reception card. These transmitting and receiving cards can be used as communication means for transmitting and receiving data.

According to the present embodiment, when the white balance control system 100 for the LED display screen is being driven, the user can configure the necessary basic parameters through the white balance program configuration unit 131 or the software of the PC. For example, the red, green, and blue LED elements 113 according to one or more parameters selected from the target luminance of the LED module 110, the luminance ratio of the three colors of the LED element 113, and the fixed resistance value of the driving chip. ), a driving command and driving data may be generated by calculating a resistance value of the digital potentiometer 112 corresponding to the driving chip. Here, the generated driving command and driving data may be transmitted to the receiving card through the sending card.

The data processing unit 111 of the LED module 110 obtains a driving command and driving data from the receiving card and executes it, generates a control signal corresponding to the driving command and outputs it to each digital potentiometer 112, and then each digital potentiometer ( 112) can be adjusted to the corresponding target value. This allows the digital potentiometer 112 to run quickly, thereby improving the efficiency and accuracy of the specification. Then, the temperature detection unit 140 periodically or aperiodically collects the temperature of the LED module 110 or the LED box and inputs it to the data processing unit 111 , and the voltage monitoring circuit unit 150 is the driving voltage of the LED module 110 . may be collected and input to the data processing unit 111 .

The data processing unit 111 determines whether the temperature and voltage values of the LED module 110 are out of the normal ranges, and when the values are out of the range, the white balance compensator 180 is configured through the white balance program configuration unit 131 . program can be run.

The white white balance compensator 180 evaluates the effect of the temperature value and the voltage value on the white balance, and may achieve a specific evaluation process through program modeling and a corresponding algorithm based on existing research results. For example, the white balance compensator 180 evaluates the effects of temperature and voltage values on the white balance, and in order to remove the effects, digital corresponding to the driving chips of the red, green, and blue LED elements 113 . The potentiometer 112 may calculate a resistance target value to be adjusted. In actual implementation, the white balance compensator 180 may individually or collectively evaluate the effects of temperature and voltage on white balance. Finally, the data processing unit 111 forms a control signal according to the target resistance value of the white balance compensator 180 and outputs it to the digital potentiometer 112 to complete the resistance adjustment, thereby completing the compensation for the white balance. can

By completing the compensation for the white balance in this way, it is possible to solve the problem of causing color defects in the display screen due to the temperature difference and the driving voltage difference in the LED display screen. In addition, by implementing dynamic white balance compensation, the current for driving the driving IC and the LED module 110 changes frequently by changing the thermistor resistance value, so that the white balance cannot be properly compensated, or the normal display of the LED display screen is affected. problems affecting the

4 is one of the implementation examples of the white balance control system of the LED display screen according to another embodiment of the present invention. In this embodiment, differences from the previous embodiment will be mainly described.

Referring to FIG. 4 , the control terminal 130 is provided as an optical measuring device having an optical sensing module, the transmitting module 191 is provided as a wireless transmitting module, and the receiving module 192 is provided as a wireless receiving module. can For example, the wireless transmission module 191 and the wireless reception module 192 may be provided as Bluetooth or RFID modules.

According to the present embodiment, after integrating the temperature value and voltage value obtained through the data processing unit 111 using the serial port cascade module, the temperature integrated through the control unit 170 of the white balance compensator 180 And according to the voltage value, it is possible to generate a white balance compensation command and data suitable for the main controller 160 and the to-be-controlled 170 .

Thereafter, the data processing unit 111 forms a control signal according to the target resistance value of the white balance compensator 180 and outputs it to the digital potentiometer 112 to complete the resistance adjustment, thereby completing compensation for the white balance. . At this time, the white balance program configuration unit 131 obtains the luminance value of the LED module 110 in real time from the light sensing module and calculates a deviation from the target luminance value, thereby a resistance that needs to be additionally adjusted in the digital potentiometer 112 . value can be calculated. As the resistance value of the digital potentiometer 112 is adjusted according to the calculated resistance value, compensation for the white balance may be completed.

5 is a flowchart of a white balance control method for an LED display screen according to an embodiment of the present invention.

Referring to FIG. 5 , the white balance control method for an LED display screen ( S100 ) includes generating a driving command and driving data ( S110 ), obtaining temperature and voltage values of the LED module ( S120 ), and the LED module Completing the initial configuration of the white balance of (S130), evaluating the effect of temperature and voltage values on the white balance (S140), and calculating the resistance target value to be adjusted by the digital potentiometer (S150) , and completing compensation for white balance ( S160 ).

In the step (S110) of generating the driving command and driving data, the target luminance of the LED module 110 including the red, green, and blue LED elements 113 using the control terminal 130, By calculating the resistance value of the digital potentiometer 112 corresponding to the driving chip of the red, green, and blue LED element 113 according to one or more parameters selected among the luminance ratio for the three colors and the fixed resistance value of the driving chip, the driving Command and drive data can be generated. Here, the control terminal 130 may be provided as a light measuring device having a light sensing module, and may include a white balance program configuration unit 131 .

In the step of obtaining the temperature and voltage values of the LED module ( S120 ), the temperature and voltage values of the LED module 110 may be obtained using the data processing unit 111 provided in the LED module 110 . For example, the data processing unit 111 receives the temperature value from the LED module 110 or the temperature detection unit 140 for detecting the temperature of the LED box covering the LED module 110, and driving the LED module 110. The temperature and voltage values of the LED module 110 may be obtained by receiving the driving voltage of the LED module 110 from the voltage monitoring circuit unit 150 that collects the voltage.

In the step of completing the initial configuration of the white balance of the LED module ( S130 ), the driving command transmitted from the control terminal 130 is executed using the white balance compensator 180 provided in the LED module 110 , and the driving command is executed. By generating a control signal corresponding to and outputting it to each digital potentiometer 112, the initial configuration of the white balance of the LED module 110 can be completed by adjusting it to a target value corresponding to the resistance of each digital potentiometer 112. .

In the step of evaluating the effect of the temperature and voltage values on the white balance ( S140 ), the temperature and voltage values obtained from the data processing unit 111 are monitored using the white balance compensator 180 , and the temperature and voltage values are monitored according to the monitoring result. The influence of the voltage value on the white balance can be evaluated.

In the step of calculating the target resistance value to be adjusted by the digital potentiometer ( S150 ), the red, green, and blue LED elements using the white balance compensator 180 to remove the effect of the white balance depending on the temperature and voltage values. A target resistance value to be adjusted by the digital potentiometer 112 corresponding to the driving chip at 113 may be calculated.

In the step (S160) of completing the compensation for the white balance, a control signal is formed according to the target resistance value of the white balance compensation unit 180 using the data processing unit 111 and output to the digital potentiometer 112 to adjust the resistance. By completing it, it is possible to complete the compensation for the white balance.

Meanwhile, the white balance control method for an LED display screen ( S100 ) may further include a step ( S170 ) of completing the correction of the initial configuration for the white balance.

In the step of completing the correction of the initial configuration for the white balance ( S170 ), the white balance program configuration unit 131 obtains the current luminance value of the LED module 110 using the light sensing module of the optical measuring device to obtain the target luminance value. By calculating the deviation from the red, green, and blue LED elements 113, the digital potentiometer 112 corresponding to the driving chip calculates the resistance value that needs to be additionally adjusted, thereby correcting the initial configuration for the white balance. can be completed

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. will be able Accordingly, the true protection scope of the present invention should be defined only by the appended claims.

110: LED module
120: cooling unit
130: control terminal
140: temperature detection unit
150: voltage monitoring circuitry
160: main control
170: blood control
180: white balance compensation unit
191: sending module
192: receiving module

Claims (13)

an LED module including a data processing unit, at least one digital potentiometer, and red, green, and blue LED elements;
a cooling unit for cooling the heat generated by the LED module;
a control terminal generating a driving command and driving data by calculating a resistance value of the digital potentiometer corresponding to the driving chip of the red, green, and blue LED elements;
a temperature detection unit electrically connected to the data processing unit, collecting the temperature of the LED module or an LED box body covering the LED module, and transmitting the collected temperature to the data processing unit;
a voltage monitoring circuit unit electrically connected to the data processing unit, collecting the driving voltage of the LED module and transmitting it to the data processing unit;
a main control unit for receiving a driving command and driving data transmitted from the control terminal;
a control unit to acquire and execute the driving command and driving data transmitted from the control terminal, transmit it to a lower level, and integrate the temperature value and the voltage value obtained through the data processing unit; and
a white balance compensator for generating a white balance compensation command and data of the main control unit and the control unit according to the integrated temperature and voltage values through the control unit;
The LED module has a serial port cascade module, and the voltage monitoring circuit unit collects the cascaded driving voltage from the LED module and transmits it to the data processing unit,
The data processing unit is configured to generate a control signal corresponding to a driving command transmitted from the control terminal and output it to each of the digital potentiometers to be adjusted to a target value corresponding to the resistance of each digital potentiometer,
One end of the digital potentiometer is electrically connected to a driving IC current control pin of the LED element having the same color, and the other end is electrically connected to the data processing unit.
delete delete The method of claim 1,
The data processing unit determines whether the temperature value collected by the temperature detection unit exceeds a preset normal range,
When the temperature value exceeds a preset normal range, the white balance compensator evaluates the effect of the temperature value on the white balance, and applies the temperature value to the driving chip of the red, green, and blue LED elements to remove the effect. calculate a resistance target value to be adjusted in the corresponding digital potentiometer;
The data processing unit forms a control signal according to the target resistance value of the white balance compensator and outputs it to the digital potentiometer to complete the resistance adjustment, thereby completing compensation for white balance.
5. The method of claim 4,
The data processing unit determines whether the voltage value collected by the voltage monitoring circuit unit exceeds a preset normal range,
When the voltage value exceeds a predetermined normal range, the white balance compensator evaluates the effect of the voltage value on the white balance, and applies the voltage to the driving chip of the red, green, and blue LED elements to remove the effect. calculate a resistance target value to be adjusted in the corresponding digital potentiometer;
The data processing unit forms a control signal according to the target resistance value of the white balance compensator and outputs it to the digital potentiometer to complete the resistance adjustment, thereby completing compensation for white balance.
According to claim 1,
A transmitting module for transmitting the driving command and driving data generated from the control terminal to the main control unit, and a receiving module electrically connected to the main control unit to receive the driving command and driving data transmitted through the transmitting module further comprising,
The control terminal is provided as a PC, the transmitting module is provided as a transmitting card, and the receiving module is provided as a receiving card. A white balance control system for an LED display screen.
According to claim 1,
The control terminal further includes a white balance program configuration unit,
The white balance program configuration unit according to one or more parameters selected from the target luminance of the LED module including the red, green, and blue LED elements, the luminance ratio of the three colors of the LED element, and the fixed resistance value of the driving chip, A white balance control system for an LED display screen for generating a driving command and driving data by calculating a resistance value of the digital potentiometer corresponding to the driving chip of the red, green, and blue LED elements.
8. The method of claim 7,
A transmitting module for transmitting the driving command and driving data generated from the control terminal to the main control unit, and a receiving module electrically connected to the main control unit to receive the driving command and driving data transmitted through the transmitting module further comprising,
The control terminal is provided as a light measuring device having a light sensing module, the transmitting module is provided as a wireless transmitting module, and the receiving module is provided as a wireless receiving module.
9. The method of claim 8,
The wireless transmission module and the wireless reception module are provided as a Bluetooth or RFID module for a white balance control system for an LED display screen.
9. The method of claim 8,
The white balance program component obtains the luminance value of the LED module in real time from the light sensing module and calculates the deviation from the target luminance value, thereby calculating the resistance value to be additionally adjusted in the digital potentiometer. White balance control system.
According to claim 1,
The cooling unit is formed of a cooling fan, and is driven when the temperature value measured by the temperature detection unit exceeds a preset normal range.
The control terminal selects one of the target luminance of the LED module including the red, green, and blue LED elements, the luminance ratio of the three colors of the LED element, and the fixed resistance value of the driving chip of the red, green, and blue LED elements. generating a driving command and driving data by calculating a resistance value of a digital potentiometer corresponding to the driving chip of the red, green, and blue LED device according to the above parameters;
obtaining, by a data processing unit provided in the LED module, temperature and voltage values of the LED module;
A white balance compensator provided in the LED module executes a drive command transmitted from the control terminal, generates a control signal corresponding to the drive command and outputs it to the respective digital potentiometers, thereby corresponding to the resistance of each digital potentiometer. adjusting the target value to complete the initial configuration of the white balance of the LED module;
monitoring, by the white balance compensator, the temperature and voltage values obtained from the data processing unit, and evaluating an effect of the temperature and voltage values on the white balance according to the monitoring result;
calculating, by the white balance compensator, a target resistance value to be adjusted by a digital potentiometer corresponding to the driving chip of the red, green, and blue LED elements in order to remove the effect of the white balance according to the temperature and voltage values; and
Completing compensation for white balance by the data processing unit forming a control signal according to the target resistance value of the white balance compensator and outputting it to a digital potentiometer to complete resistance adjustment;
The LED module has a serial port cascade module, and the voltage monitoring circuit unit collects the cascaded driving voltage from the LED module and transmits it to the data processing unit,
The data processing unit is formed to generate a control signal corresponding to the driving command transmitted from the control terminal and output it to each of the digital potentiometers to be adjusted to a target value corresponding to the resistance of each digital potentiometer,
One end of the digital potentiometer is electrically connected to the driving IC current control pin of the LED element having the same color, and the other end is electrically connected to the data processing unit.
13. The method of claim 12,
The control terminal is provided as a light measuring device having a light sensing module, and includes a white balance program configuration unit,
The white balance program configuration unit obtains the current luminance value of the LED module by using the light sensing module of the optical measuring device, calculates a deviation from the target luminance value, and then applies the red, green, and blue LED elements to the driving chip. The method of controlling a white balance for an LED display screen further comprising the step of calculating a resistance value to be further adjusted in a corresponding digital potentiometer to complete the modification of the initial configuration for the white balance.

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