KR20060122329A - White birch appearance detection and management method for display parts of mobile communication device - Google Patents

Abstract

A method for detecting and managing efflorescence of a display part in a mobile communication terminal is provided to automatically detect whether efflorescence is generated in the display part and to remove the efflorescence by initializing the display part when the efflorescence is generated, thereby improving the convenience of a user. A method for detecting and managing the efflorescence of a display part in a mobile communication terminal comprises the following steps of: checking a state of source LSI(Large Scale Integrated circuit) and a gate LSI in a driving chip of the display part at fixed time intervals(S102); determining that efflorescence is generated in case that a certain register state of a source driving part is abnormal(S103,S106); and removing the efflorescence by initializing the display part according to the generation of the efflorescence(S107).

Description

WHITE BIRCH APPEARANCE DETECTION AND MANAGEMENT METHOD FOR DISPLAY PARTS OF MOBILE COMMUNICATION DEVICE}

1 is a block diagram showing the configuration of a typical LCD module.

2 is a flowchart illustrating a process of detecting and processing an LCD whitening phenomenon of a mobile communication terminal according to the present invention;

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

101: LCD element 102: source driver

103: gate driver 104: interface unit

105: CPI

The present invention relates to a processing technique when a whitening phenomenon occurs in a display unit of a mobile communication terminal, and in particular, it is possible to automatically detect whether a whitening phenomenon occurs in a display unit of a mobile communication terminal, and display when the whitening phenomenon occurs. The present invention relates to a method of detecting and processing whitening of a display unit of a mobile communication terminal to improve user convenience by removing whitening through sub-initialization.

In general, in the case of a device using an LCD as a display means such as a monitor or a mobile communication terminal, a whitening phenomenon (a phenomenon in which the screen is white and no data is output) occurs under the influence of static electricity (noise). have.

Therefore, in the related art, by adding a device for removing static electricity, which is one of the causes of the whitening phenomenon, the occurrence of the whitening phenomenon can be minimized. For example, noise and capacitors were added to the data line and the control signal line, or a filter (EMI Filter, EMI Casket, etc.), copper foil tape, or the like was added to shield the noise.

However, despite the countermeasures against whitening, the whitening phenomenon still occurs although the number of occurrences was reduced, and in the conventional case, since there was no method of automatically detecting the whitening phenomenon as described above, Only when the user opened the folder to use the terminal did they know that the bleaching occurred.

As a result, in order to use the terminal, the user has to turn off / on (reset) the terminal power directly to remove the phenomena, and accordingly, there is a problem that the reliability of the product is deteriorated.

Accordingly, an object of the present invention is to provide a method for automatically detecting whether a whitening phenomenon occurs in a display unit of a mobile communication terminal.

In addition, the present invention provides a method for improving the convenience of the user by automatically performing the display unit initialization to remove the whitening phenomenon when the whitening phenomenon is detected, so as not to affect the user's use of the terminal. There is another purpose.

In addition, the present invention provides a method that is easy to implement and does not require additional processing costs by allowing the display and detection of the whitening phenomenon of the terminal display unit by software without changing the hardware configuration of the terminal or adding a new device. There is another purpose.

The present invention for achieving the above object comprises the steps of checking the state of the source driver and the gate driver of the display driver chip at predetermined time intervals; Determining that a whitening phenomenon occurs when a predetermined register state of the source driver is abnormal; And initializing the display unit according to the occurrence of the whitening phenomenon to remove the whitening phenomenon.

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

In general, an LCD is composed of an LCD module including its driving chip. For example, as shown in FIG. 1, a source driver (Source LSI) 102 for driving a source electrode of the LCD element 101 and a pulse applied to a gate of the LCD element are turned on. It is composed of a gate driver (Gate LSI, 103) to make. In this case, the source driver and the gate driver may change their roles depending on the type of LCD device.

That is, the source driver 102 applies a signal voltage to the pixel through the signal line, and then turns on the LCD element in the gate driver 103 so that the pixel emits light.

In addition, the source driver 102 and the gate driver 103 of the LCD module are connected to the CPI 105 through the interface 104 to receive and display the command and data from the CPI 105. It is composed.

On the other hand, the source driver 102 is composed of a variety of status registers for controlling the operation of the LCD element 101, the status registers are typically set by a command issued from the CPI 105, the set register value The LCD element is driven by.

Therefore, the present invention is to provide a method for detecting the occurrence of the whitening phenomenon by analyzing the state register in reverse, and when the whitening phenomenon occurs, the whitening phenomenon can be removed by the initialization of the LCD.

However, according to the experiment, not all status registers of the source driver are related to the whitening phenomenon, and the display on / off register P10 and the standby state escape / entry registers Sleep OUT / IN and P11 are related to the whitening phenomenon. It can be seen that.

Therefore, in the present invention, the state of the two registers (P10, P11) is checked at intervals of a predetermined time (for example, 100ms), the display on / off register (P10) is set to off and the standby state escape / entry register (P11) If it is set to enter the standby state, it is determined that whitening has occurred and perform the operation of removing whitening.

In addition, since the whitening phenomenon occurs when the gate driver 103 is stopped even when the two registers P10 and P11 are normal, the driving voltage VCOMW generated by the gate driver 103 is checked at predetermined time intervals. Therefore, when the driving voltage is not output above the specified level, it is determined that the whitening phenomenon has occurred, and the whitening phenomenon removing operation is performed.

Next, Table 1 shows the internal register state of the LCD drive chip when the bleaching occurs, and typically sets an internal register by receiving a command from CPI, but in the present invention, some register setting values are changed when the bleaching occurs. Based on this, the occurrence of the bleaching phenomenon is determined by checking the state of the register at predetermined time intervals.

Display status Driving chip status Source driver Gate driver Whitening phenomenon State (1) Operation stop status Status register P10 / P11 = 0/0 Operation stop status Voltage generation stop State (2) Normal operating status Status register P10 / P11 = 1/1 Operation stop status Voltage generation stop

At this time, the state of the register when the LCD display control signal (A0, Command or Data), the chip select signal (CS, Chip Select), the read signal (RD, read) is set to Active Low, the source driver Since the status information is output to the data bus, the CPU reads the status of the data bus to determine the register status.

That is, among the registers, the display on / off register P10 and the standby state escape / entry register P11 have values of P10: '1' and P11: '1' in a normal display state, but are whitened due to static electricity. If this occurs, it can be seen that P10: '0' and P11: '0' are changed.

Accordingly, by checking the register state of the source driver 102 at predetermined intervals (for example, 100 ms), it is possible to determine whether the source driver 102 is in a normal state or a stopped state, and when it is determined that the state is stopped, In order to make the LCD work normally by re-implementing the initialization process.

On the other hand, in the above it was detected whether the source driving unit is in a stationary state to determine whether the whitening phenomenon, as described above, since the LCD driving chip in addition to the source driving unit 102, the gate driving unit 103 is further configured, Even if the driving part is normal, the whitening phenomenon occurs when there is an abnormality in the gate driving part.

Therefore, in the present invention, the drive voltage VCOMW generated by the gate driver 103 is recognized to determine whether there is an abnormality in the gate driver.

That is, when the gate driver 103 is in a normal operating state, a driving voltage of about 2.7 V is output. When the LCD whitening occurs due to static electricity, a driving voltage of 0 V is output. Therefore, the voltage level is checked at predetermined time intervals through a predetermined GPIO (General Periperal IN / OUT) port of CPI, and when the driving voltage VCOMW drops to a low level of 0 V, it is determined that a whitening phenomenon has occurred. Try again to make the LCD work normally.

2 is a flowchart illustrating a process of detecting and processing an LCD whitening phenomenon of a mobile communication terminal according to the present invention, and automatically detecting the occurrence of the whitening phenomenon through a state register analysis of an LCD driving chip.

In this case, the LCD driving chip includes a source driver and a gate driver. First, the LCD data line of the CPI is changed to an input mode (S101), and a predetermined state register (display on / off register) associated with the whitening phenomenon of the source driver is selected. The set value of the standby state escape / entry register) is read (S102).

As described above, the state of the register sets the LCD display control signal A0, the chip select signal CS, and the read signal RD to Active Low to read the value of the status register output to the data bus at that time. Can be.

Therefore, when all the values of the status register are changed to an abnormal value (S103), it is determined that the whitening phenomenon has occurred and the LCD is initialized again so that the LCD operates normally (S106 and S107).

However, when all the state register values of the source driver are normal, the driving voltage generated by the gate driver is checked to determine whether the driving voltage of the normal level is output (S103 to S105).

If the drive voltage of the normal level of 2.7V is outputted, it may be determined that the LCD is in normal operation (S108), and if the drive voltage of the abnormal level of 0V is outputted, it is determined that whitening has occurred. By re-implementing the LCD initialization process, the LCD operates normally (S105 to S107).

The states of the source driver and the gate driver are continuously checked at predetermined time intervals (S109).

As described above, the present invention removes the whitening phenomenon by performing the LCD initialization by detecting whether the whitening phenomenon occurs in the LCD.

In the above, preferred embodiments of the present invention have been described with reference to the accompanying drawings. Here, the terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, but should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, which can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

As described above, the method for detecting and processing whitening of the display unit of the mobile communication terminal according to the present invention has an effect of automatically detecting whether the whitening phenomenon occurs in the display unit of the mobile communication terminal and removing the whitening phenomenon in advance.

In addition, the present invention has the effect of improving the user's convenience and the reliability of the device by detecting and processing the occurrence of the whitening phenomenon of the display unit before the user's use of the terminal.

In addition, the present invention enables the detection and processing of the whitening phenomenon in software without changing the hardware configuration of the terminal or adding a new device, it is easy to implement and there is an effect that no additional processing cost.

Claims (4)

Checking the source driver and the gate driver of the display driver chip at predetermined time intervals; Determining that a whitening phenomenon occurs when a predetermined register state of the source driver is abnormal; And detecting the whitening phenomenon of the mobile communication terminal display unit by initializing the display unit according to the occurrence of the whitening phenomenon. The method of claim 1, wherein the register for determining the occurrence of whitening phenomenon, And a display on / off register of the source driver and a standby state escape / entry register. The method of claim 1 or 2, wherein the abnormal state of the register, And the display on / off register is set to display off, and the standby exit / entry register is set to enter the standby state. The mobile communication method of claim 1, further comprising checking a level of a driving voltage generated by a gate driver when the register state is normal, and determining that whitening occurs when the driving voltage is not output. Whitening phenomenon detection and processing method of the terminal display unit.

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