KR200453323Y1 - The led module assembly apparatus - Google Patents

Abstract

The present invention is a light emitting that serves as a power on / off index (Power ON / OFF Index) and an infrared receiver (IR receiver) for displaying the infrared reception status as a power display function of various video media equipment including electronics (TV) and electronic products Device Modules An assembly device, comprising a power ON / OFF index and a minimum light emitting device (LED) and a microcontroller unit (MCU). In the role of the IR receiver, it controls the blinking order of a plurality of LEDs to realize the effect of moving the LED light as water flows. The visual effect of the color tone change according to the LED moving of left and right arranged light emitting device (LED) for recognizing ON / OFF state. There is to maximize the characteristics.

In addition, in order to lower the power consumption of the TV SET and to prevent the eyes of the viewer by compensating the voltage and current value of the backlight unit (BLU) of the image media device display screen, the conventional illumination sensor module and RGB sensor Instead of using a TV color correction module using a low-cost and simply sense the brightness of the external environment using an L sensor (Light Sensor) is characterized in that it is implemented.

In addition, the present invention is connected to an indium-tin oxide (ITO) film to detect a change in the capacitance of a capacitor (CAPACITOR), which is a kind of capacitive passive device that utilizes the charge phenomenon of the circuit. By using the ITO to recognize the ON / OFF of the transparent touch switch module (TOUCH SWITCH MODULE) like glass can be provided.

LED Module, Assembly, Dimming Circuit, ITO (Indium-Tin Oxide), Power ON / OFF Index, Backlight ), A light guide plate (LGP).

Description

Light emitting device module assembly device {THE LED MODULE ASSEMBLY APPARATUS}

The present invention provides a circular light guide plate (LGP) designed to provide a gradation effect through LEDs for visual identification of video media power ON / OFF operation through a touch pad type soft type button. Touch switch function using transparent ITO (Indium-Tin Oxide) film, and Power ON / OFF Index and Infrared receiver using Micro Controller Unit (MCU) The present invention relates to a light emitting device module assembly device (THE LED MODULE ASSEMBLY APPARATUS) that implements an LED MOVING function for controlling a plurality of light emitting device (LED) lights to continuously and continuously blink in a continuous manner.

Conventional power supply operation module that includes a light emitting device that displays the operation status of the power supply according to a control signal by a conventional remote control, etc., and removes flickering due to the time interval of color (luminance) conversion of the light emitting device to smooth the color conversion The on-screen media device is controlled by soft flashing and flicker control that can automatically adjust the brightness of the display screen by providing effects and sending data to the microcomputer in response to external illuminance by the COLOR SENSOR. A touch pad type illuminant blink control module capable of controlling / off has been disclosed.

In addition, the power display device of the ON / OFF operation module of a power source mounted in a conventional video media device emits monochromatic light by colored light emitting elements (LEDs) arranged in a plurality of configurations, and thus the standby mode and the on-display mode of the display screen according to luminance or color. It is implemented so that the on / off state can be recognized.

The flashing control module that controls the brightness of the display screen by transmitting externally sensitive data by the RGB sensor (COLOR SENSOR) to the microcomputer has a complicated structure of an expensive RGB sensor and a microcomputer for color processing of input data. There is a difficulty in raising the unit price of the module and enhancing competitiveness.

In addition, the display unit can display the power on / off index and the infrared reception state as a conventional power display function in which the standby mode on the display screen and the on / off state are recognized according to the brightness or the color by the above-mentioned monochromatic light emission. The light emitting device module assembly device serving as an IR receiver is not only visually inconvenient to users, but also cannot be easily identified with respect to a current state.

The present invention was devised to solve the above problems, and instead of transmitting externally sensitive data by an expensive RGB sensor (COLOR SENSOR) to the microcomputer, an L-sensor that simply senses the brightness of an external environment at low cost ( The purpose is to implement this using the Light Sensor.

In addition, the present invention is a pulse width in the light emitting device (LED) of the light emitting device module assembly device that serves as an infrared receiver (IR Receiver) for displaying the power ON / OFF index (Power ON / OFF Index) and the infrared reception state, Pulse Width Modulation (PWM) control and Microcontroller Unit (MCU) control the flashing order of LEDs arranged in a plurality, so that the LED lights move like water flows. And the purpose is to implement a visual effect by the change in color tone according to the light emitting device (LED Moving).

In order to perform the power on / off index and IR receiver of various electronic products including image media device, it is a simple electronic device using single or two colors to control the blinking of LED which displays the operation status. Power On / Off device's limit of expression to enhance the functional convenience and aesthetics of video media devices, eliminating visual rejection caused by flickering or sudden color change of LEDs When the light is on or off, the moving effect like water flows can be realized to provide a device that can expect a sense of mental stability.

That is, the light emitting device (LED) arranged based on the centers of the plurality of light emitting devices (LEDs) through the PWM control receives the I2C communication signal given from the light emitting device module assembly device, and sequentially moves as if light spreads to both sides. By gathering, the color changes according to the state of the movement, which can inspire visual aesthetics.

Such a light emitting device (LED) can be arranged in a circular shape as well as a horizontal shape, and can be realized by providing a light guide plate (LGP) designed to be optimized for a circular shape, and transparent ITO (Indium-) on the implemented light guide plate. The touch switch function using a tin oxide film can be doubled.

1 is an overall configuration diagram of a light emitting device module assembly device according to the present invention, as shown in the present invention is a module assembly device for controlling the light emitting device (LED) to blink continuously and naturally without interruption, Infrared signal or It consists of a key board 12 and an infrared board 14 that receive key signals and generate interrupts to the main board of the video device to enable communication with a microcontroller unit (MCU) and I ² C (Inter-Integrated Circuit). An input unit 10; According to the input signal from the infrared board 14 through the PWM control unit 25 for controlling the output having a width of the high (on time) and Low (off time) value of the digital method, and through the PWM control unit 25 A control unit 20 configured of a micro control unit 21 in which a light emitting device (LED) is controlled by a dimming circuit so that a plurality of light emitting devices are moved from the center to the left and right, and the light flashes naturally; The controller 20 recognizes a flashing LED module 31 that flows from side to side and a power on (or Stand By LED On) signal to adjust the brightness of the screen 33 according to the amount of ambient light. It is characterized by consisting of the configured output unit 30.

In addition, the microcontroller 21 in the control unit 20 is connected to the sound memory 23 in which the sound source data is stored so as to audibly recognize the power on (power on / off index) state, and the power on / off index signal. And a sound integrated circuit 22 for selectively calling data of the sound memory 23 according to the applied state value, and the sound source 23 is output to the output unit 30 by the sound memory 23 and the sound integrated circuit 22. The output sound source driver 32 is provided, and connected to the ITO One Key 11 formed of a phosphorus-tin oxide film on the input unit 10 and the ITO One Key 11 to charge the phenomenon of charge. A touch sensor 13 for recognizing a change in capacitance value of a capacitor, which is a type of passive passive element used, to recognize power ON / OFF is provided, and the output unit 30 is connected to the output unit 30 through the microcontroller 21. LED module to blink the LED 31) is characterized by being doubled.

In addition, a light guide plate (LGT) for performing the brightness and uniform illumination function of the backlight unit (BLU) so that the LED module 31 provided in the output unit 30 flashes in a circle, as shown in FIGS. 5A and 5B. Designed in a circular shape as described above, the L-light sensor 15 for sensing only the brightness of the external environment so that the brightness adjustment screen 33 of the output unit 30 can be adjusted according to the amount of ambient light (illuminance), and the L The illuminance correction unit 24 controlled by the microcontroller 21 of the control unit 20 is provided to correct the illuminance according to the luminous intensity collected by the sensor 15.

2 is a block diagram illustrating an embodiment of a light emitting device module assembly device. When a soft touch is performed on the ITO One Key 11, a signal generated by the Touch Sensor 13 is transferred to the microcontroller 21 so as to be touched. The sensor interrupt is output to the main board 40 and the power or warm signal is checked in to turn on / off the LED module 31 'and the sound IC 22 for driving the sound source.

In addition, when an interrupt is generated in the main board 40 by the IR B / D 14 or the key B / D, a serial synchronous I ² C communication is performed between the microcontroller 21 and the main board. When is input, the sound source is changed through the sound IC 22, and when the power control signal is input, the sound source stored in the sound memory 23 is output through the sound IC 22 to the sound source driver 32-shown in FIG. 1. .

FIG. 3 is a block diagram showing an embodiment of a light emitting device module assembly device. As shown in the drawing, an I ² C (Inter-Integrated) between the L-Sensor 15, which is an illuminance sensor, and the microcontroller (MCU) 21 is illustrated. In order to allow communication, the initial IR B / D 14 receives a signal from a remote controller with an IR receiver function and transmits the received data to a TV set (mainboard-shown in FIG. 2) 40 to the main board. Between the MCU 21 and the SCL pin that sends a clock signal and the SDA pin that sends and receives data, the serial type synchronous communication is performed.

The SCL pin for sending the clock signal and the SDA pin for sending and receiving data may be implemented through a 12-pin connector connected to the board, and is generally performed by pins 1 and 2.

Thereafter, a plurality of LED modules arranged in plurality according to an input key value (Power-on signal or Warm-signal) operate, and an operation sequence thereof will be described with reference to FIG. 4.

For reference, the Pin Descrition specifications of the 12-pin and 4-pin connectors shown in FIG. 3 are shown in [Table 1] and [Table 2].

[Table 1] 12-pin MAP

[Table 2] 4-Pin MAP

Figure 4 is an embodiment showing a flashing step of the light emitting device according to the present invention, which corresponds to the lower end of the substrate shown in Figures 6a and 6b attached to the bottom of one embodiment, from the infrared board 14 According to an input signal, a light emitting device (LED) is controlled by a dimming circuit by a control unit 20 including a PWM control unit 25 and a micro control unit 21 so that a plurality of light emitting elements are moved from the center to the left and right. In this embodiment, a naturally blinking state is implemented. In step 100, when the LED_ON signal is input from the infrared board 14 in the standby state, the red LED at the center of the arrayed LEDs is turned on, and then dimming. In step 200, the red LED flickers left and right and then returns to the central portion. Then, a dimming operation in which the blue LED sequentially flashes from the outside to the central portion is performed. I Step 300 then proceeds, the power-on state (Dimming operation end) is the blue LED, which is held in a light-on state may be entirely water heureudeut implement a light emitting device (LED) light ambience of moving.

1 is an overall configuration diagram of a light emitting device module assembly device according to the present invention.

Figure 2 is a block diagram showing an embodiment of a light emitting device module assembly device.

Figure 3 is a block diagram showing an embodiment of a light emitting device module assembly device.

Figure 4 is a flow chart showing an embodiment of the flashing step of the light emitting device according to the present invention.

Figure 5a is a reference plan view illustrating the form of the substrate front portion of the present invention according to FIG.

Figure 5b is a reference plan view illustrating the form of the substrate back portion of the present invention by FIG.

Figure 6a is a reference plan view illustrating a front surface form of the substrate of the present invention by FIG.

Figure 6b is a reference plan view illustrating the form of the substrate back portion of the present invention according to FIG.

Claims (5)

delete delete Key board (12) and infrared board (14) for receiving an IR signal or a key signal and generating an interrupt to the video device main board to enable communication with a microcontroller unit (MCU) and I ² C (Inter-Integrated Circuit). An input unit (10) consisting of; According to the input signal from the infrared board 14 through the PWM control unit 25 for controlling the output having a width of the high (on time) and Low (off time) value of the digital method, and through the PWM control unit 25 A control unit 20 configured of a micro control unit 21 in which a light emitting device (LED) is controlled by a dimming circuit so that a plurality of light emitting devices are moved from the center to the left and right and the light is blinking; An output unit including an LED module 31 flashing left and right by the controller 20 and a brightness adjustment screen 33 for recognizing a power on (or stand by LED on) signal and adjusting screen brightness according to the amount of ambient light. 30, comprising: a module assembly apparatus for controlling a light emitting device (LED) light to continuously and continuously blink; An ITO One Key 11 provided with a phosphorus-tin oxide film on the input unit 10; A touch sensor 13 connected to the ITO One Key 11 and recognizing a change in the capacitance of a capacitor, which is a kind of capacitive passive element using charge phenomena, to recognize power ON / OFF; ; Light emitting device module assembly device, characterized in that consisting of ;; LED module (31) which flashes as if drawing a circle on the output unit (30) through the microcontroller (21). The method according to claim 3; The light guide plate (LGT) for performing the brightness and uniform illumination function of the backlight unit (BLU) is designed in a circular shape so that the LED module 31 'provided in the output unit 30 blinks in a circle. Light emitting device module assembly device. The method according to claim 3; L-light sensor 15 for sensing only the brightness of the external environment so that the brightness adjustment screen 33 of the output unit 30 can be adjusted according to the amount of ambient light (illuminance), and the L-sensor 15 The light emitting device module assembly device, characterized in that the illumination intensity correction section 24 is provided to be controlled by the micro-control unit 21 of the control unit 20 to correct the illumination according to the brightness collected by the.

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