KR100781681B1 - Method for detecting a lcd whitening and apparatus therefor - Google Patents

Abstract

The present invention relates to a method and apparatus for detecting LCD whitening caused by static electricity of an LCD module. In the related art, there is a problem in that the timing of occurrence of LCD whitening cannot be accurately detected. In view of the above problems, the present invention compares the LCD driving data transmitted from the CPU with the LCD driving data stored in the memory of the LCD module to provide a method and apparatus for detecting the LCD whitening phenomenon, thereby accurately identifying the time when the LCD whitening occurs. It is possible to detect, and accordingly there is an effect that the initialization of the LCD module can be performed at an appropriate time.

Description

METHOD FOR DETECTING A LCD WHITENING AND APPARATUS THEREFOR}

1 is a flow chart of the LCD whitening detection of the present invention.

2 is a block diagram of LCD whitening detection of the present invention.

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

S1 to S5: LCD whitening phenomenon detection steps of the present invention

The present invention relates to driving an LCD module, and more particularly, to a method and apparatus for detecting an LCD whitening phenomenon caused by static electricity of an LCD module.

An LCD (liquid crystal display) is an electronic device that changes electrical information into visual information by using a change in transmittance of a liquid crystal according to an applied voltage. Unlike LCD, a liquid crystal display (LCD) has no self-luminescence and requires a backlight, but consumes low operating voltage. It is a kind of flat panel display that is widely used in watches and computers because it has low power and can be used as a portable device.

Such an LCD element is largely an LCD module including an LCD panel, an LCD driver, and an LCD backlight unit, and is applied to an actual use environment.

The thin film transistor liquid crystal display (TFT-LCD), which is widely used today, is filled with a thin film transistor and a bottom plate on which pixel electrodes are arranged, a top plate composed of a color filter and a common electrode for displaying colors, and a gap between the two glass substrates. It consists of a liquid crystal, and both sides of the two glass substrates have a structure attached to each polarizing plate for linearly polarizing visible light (natural light).

The TFT-LCD module is composed of a TFT, which is a switching element, a charger and an auxiliary charger formed by liquid crystal between the upper and lower electrodes, a gate electrode and an image signal electrode that manage the on / off of the TFT. It is.

The voltage is applied to the gate of the TFT forming the pixel by an external LCD driving circuit so that the transistor is turned on so that the image voltage can be input to the liquid crystal, and then the image voltage is applied. After the image information is stored in the liquid crystal, the transistor is turned off, so that the charge stored in the liquid crystal charger and the auxiliary charger is preserved, thereby displaying the image image for a predetermined time.

When voltage is applied to the liquid crystal, the arrangement of the liquid crystal changes. When light passes through the liquid crystal in this state, diffraction occurs. The light is transmitted through the polarizer to obtain a desired image.

As such, the LCD module requires a switching voltage, a liquid crystal applied voltage, an image voltage, and the like of an LCD switching element (for example, a gate of a transistor) for driving, and when such voltage is applied, static electricity is generated in the LCD module and is removed from the LCD panel. LCD whitening may occur in which only white light is emitted. In addition, the whitening of the LCD module may be caused by the static electricity generated naturally.

When the LCD whitening occurs, all data stored in the chipset in the LCD module or the like is erased or only dummy data exists, and the LCD module can be operated normally only after resetting the LCD module.

Conventionally, measures have been used in terms of hardware and software in preparation for the whitening of LCD modules.

The countermeasure in terms of hardware is to enhance the electrostatic durability of the LCD module and its components. That is, a shield for blocking static electricity is installed in the LCD module, and internal elements and circuits are disposed to be less affected by static electricity.

However, in terms of hardware, there are limitations in terms of technology and cost in preventing LCD whitening due to static electricity. However, to some extent, the occurrence of whitening may not be prevented.

The software countermeasure is to initialize the LCD module as soon as possible when whitening occurs in the LCD module. In the past, the chipset in the LCD module is periodically programmed by programming a point at which the LCD driving circuit is likely to generate static electricity. Reset

However, in the prior art as described above, there is a problem in that the timing of occurrence of LCD whitening cannot be accurately detected.

That is, in the related art, the probability of occurrence of the occurrence of LCD whitening is calculated based only on the experimental value or the chipset structure in the LCD module, and the LCD module is initialized periodically when the occurrence probability increases. There is a problem that the result of initializing the module does not become an efficient driving method of the LCD module.

Accordingly, the present invention has been made in view of the above problems, and compares the LCD driving data transmitted from the CPU with the LCD driving data stored in the memory in the LCD module to detect the LCD whitening phenomenon due to static electricity, thereby causing the LCD whitening phenomenon. It is an object of the present invention to provide a method and apparatus for detecting an LCD whitening phenomenon which can accurately detect a time point at which this occurs.

LCD whitening detection method of the present invention for achieving the above object comprises the steps of transmitting the LCD drive data to a memory in the LCD module to be recorded in the memory; Reading LCD drive data from the memory; And comparing the transmitted data with the read data, and determining that the LCD whitening has occurred when a difference of more than a predetermined ratio is detected in both data.

One embodiment of the present invention further includes the step of detecting the generation of static electricity in the LCD module, the detection of static electricity is generated in the LCD module in the detection of static electricity generation and the step of comparing both data When a difference of more than a predetermined ratio of both data is detected, it is determined that the LCD whitening has occurred.

In one embodiment of the present invention, the detection of the static electricity is characterized in that it is performed by a chopper stabilized (Chopper Stabilized) sensor installed adjacent to the LCD module.

In one embodiment of the present invention, recording LCD drive data into the memory, reading LCD drive data from the memory, comparing the amount of data, or a combination thereof is performed by a CPU that controls driving of the LCD module. It features.

LCD whitening phenomenon detection apparatus of the present invention comprises a memory in the LCD module; And a CPU for transmitting and recording LCD drive data to a memory in the LCD module and reading the recorded LCD drive data from the memory, wherein the amount of data is obtained by comparing the transferred LCD drive data with the read LCD drive data. If the mismatch is characterized in that the LCD is configured to include a whitening phenomenon.

An embodiment of the present invention further includes a static electricity detecting unit installed adjacent to the LCD module, wherein the CPU detects the static electricity in the LCD module by the static electricity detecting unit and the LCD driving data and the memory transmitted from the CPU. If the data recorded in the inconsistency, it is characterized by determining that the LCD whitening has occurred.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart of detecting an LCD whitening phenomenon of the present invention. As shown in FIG. 1, a step of transmitting and recording LCD driving data to a memory in the LCD module is performed by a CPU controlling the driving of the LCD module (S1). Detecting whether S has occurred (S2), when generating static electricity in the detecting step (S2), reading the LCD driving data from the memory in the LCD module at the CPU (S3), and memory in the LCD module at the CPU. Comparing the LCD drive data transmitted to the LCD drive data recorded in the memory with the step (S4), in the comparison step (S4) if both data inconsistency, the LCD whitening phenomenon occurs and initializes the LCD module It consists of (S5).

Referring to FIG. 1, in the LCD whitening detection method of the present invention, when the LCD whitening occurs due to static electricity generated in the LCD module, all data recorded in the memory in the LCD module is lost or damaged by a certain ratio or more. It uses the property that only the data remains, and it is characterized by comparing the original data transferred to the memory with the data recorded in the memory and determines that LCD whitening has occurred if both data are inconsistent by a predetermined ratio or more.

In addition, by detecting whether the static electricity is generated in the LCD module, it is characterized by detecting whether or not the occurrence of the LCD whitening caused by the static electricity more reliably.

The detection of static electricity may be performed by a chopper stabilized sensor installed adjacent to the LCD module.

It should be understood that the order of steps shown in the flowchart of FIG. 1 above is merely illustrative. For example, the present invention may consist of the remaining steps without the static electricity generation detection step S2, and the static electricity generation detection step S2 is located at the stage immediately before the LCD driving data recording step S1 or the LCD driving. It may be located at a step immediately after the data reading step S3.

2 is a block diagram of the LCD whitening detection according to the present invention. As shown in FIG. 2, an electric signal is converted into an optical signal under the control of the CPU 10 and the CPU 10 for controlling the operation of the LCD module, and then output. The LCD module 20 and the electrostatic detection unit 30 is installed adjacent to the LCD module 20 to detect the static electricity.

The LCD module 20 may include, for example, a memory 21, an LCD panel 22, and an LCD panel driver 23, and the static electricity detector 30 may be a chopper stabilization sensor. In addition, the memory 21 may be a RAM.

Referring to FIG. 2, the CPU 10 transmits and writes LCD driving data to the memory 21 in the LCD module 20 to control the LCD panel driver 23. Read the recorded LCD drive data.

The CPU 10 compares the transmitted data with the recorded data and determines that LCD whitening has occurred when both data are inconsistent over a predetermined ratio.

One embodiment of the present invention further includes an electrostatic detection unit 30 adjacent to the LCD module 20, thereby more reliably caused by the generation of static electricity from the electrostatic generation of the LCD module 20 and the recognition of damage to the LCD driving data. The occurrence of LCD whitening can be detected.

As described above, although the embodiments of the present invention have been described in detail with reference to the drawings, the spirit and scope of the present invention should not be construed as being limited to the above embodiments, but are defined by the appended claims. It will be apparent to those skilled in the art that various modifications are possible within the scope of.

As described in detail above, the present invention compares the LCD driving data transmitted from the CPU with the LCD driving data stored in the memory in the LCD module to detect the LCD whitening phenomenon due to static electricity, thereby accurately identifying the timing at which the LCD whitening occurs. There is an effect of providing a method and apparatus for detecting LCD whitening which can be detected.

By allowing the initialization of the LCD module at an appropriate time point based on the detected time point of the LCD whitening phenomenon, there is an effect of efficiently driving the LCD module.

Claims (6)

Transmitting LCD drive data to a memory in the LCD module to be written to the memory; Reading LCD drive data from the memory; Detecting static electricity in the LCD module; In the detecting of the static electricity generation, it is detected that the static electricity is generated in the LCD module, and when the difference between the transmitted data and the read data is detected as a difference of more than a predetermined ratio in both data, it is determined that the LCD whitening phenomenon has occurred. LCD whitening phenomenon detection method comprising the steps of. delete The method of claim 1, wherein the detection of static electricity is performed by a chopper stabilized sensor installed adjacent to the LCD module. delete Memory in the LCD module; A static electricity detector installed adjacent to the LCD module; Transfers and writes LCD drive data to a memory in the LCD module and reads the recorded LCD drive data from the memory, and static electricity is detected in the LCD module by the electrostatic detector, and the transferred LCD drive data and the readout And a CPU for determining that the LCD whitening has occurred when the two data are inconsistent as a result of comparing the LCD driving data. delete

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