KR20150078572A - Method for protecting DC stress using MIPI video mode - Google Patents

Abstract

The present invention relates to a method for protecting a DC stress using an MIPI video mode to protect the generation of deterioration in liquid crystal by supplying a DC voltage for a period of time or more. When a display driver IC does not analyze a PAC outputted from a host, clock signals and data are periodically changed in to LP-11 states, or when the display driver IC does not receive a video signal, all crystal liquid display driving signals (Gate, Vcom, data) are outputted to a GND. Thereby, A DC voltage is not generated so that the generation of deterioration of crystal liquid due to a DC voltage stress can be prevented.

Description

[0001] The present invention relates to a DC stress prevention method using a MIPI video mode,

The present invention relates to a liquid crystal display (LCD), and more particularly, to a liquid crystal display device using a MIPI video mode capable of preventing direct current (DC) stress of a liquid crystal display device using a mobile industry processor interface (MIPI) video mode ≪ / RTI >

In general, mobile devices such as mobile phones have been equipped with various functions according to the trend of advanced. Especially, with the multimedia function such as the MP3 player and the digital camera function being mounted in accordance with the trend of high-level and high-function, display devices such as LCD and OLED are increasingly higher in resolution for representation of multimedia data than simple text transmission. And a high resolution of the display device, the data transmission between the central control device and these devices is required to have a considerably high transmission speed.

In order to transmit the above-described data at a high speed, a mobile device uses a parallel interface method. However, since the mobile device is miniaturized by its characteristics, a parallel interface method that occupies a large area has a problem that it is difficult to apply to a mobile device.

In addition, as image resolution increases, data traffic between a mobile application processor and a display driver IC (IC) is rapidly increasing. Accordingly, the power consumed by the mobile application processor and / or the display driver IC is also steadily increasing.

BACKGROUND OF THE INVENTION [0002] Conventional mobile telephones centering on voice calls are rapidly replacing multimedia telephones with smart phones. The display driver IC implemented in the smartphone frequently operates to display the multimedia data on the display, such as a still image signal or a moving image signal. Therefore, the battery duration of the smartphone is reduced. The battery duration refers to a battery usage time that can be continuously used once. Accordingly, there is a need for a method for increasing the battery duration of a mobile communication device such as a smart phone that processes a still image signal and a moving image signal.

In order to solve these problems, a Mobile Display Processor Interface (hereinafter referred to as 'MIPI') and a Mobile Display Digital Interface (hereinafter referred to as 'MDDI') for a high-speed serial transmission ) Method has been proposed.

In order to transfer data at a high speed, a clock must be transmitted together with data. In order to transfer data at high speed, the MDDI method uses an exclusive OR (XOR) method to transfer data and a clock And increases the validity of the clock transmitted by encoding with the strobe signal. In the MIPI scheme, the clock is transmitted together with the data, but the data is transmitted with a small common mode and a small swing width.

The MIPI video signal processing system will now be described.

FIG. 1 is a block diagram of a conventional MIPI type video signal processing system.

The MIPI type video signal processing system includes a mobile phone, a smart phone, a tablet personal computer, a PDA (personal digital assistant), a personal digital assistant A handheld device, or a handheld computer, such as a portable multimedia player (PMP), or the like.

1, the MIPI system video signal processing system includes an application host processor (hereinafter, referred to as a host) 100, a display driver IC 200A, and a display 300. [

The host 100 includes a mode switching command for indicating whether a video signal to be displayed on the display 300 is a still image signal or a moving image signal according to whether a codec implemented in the host 100 is executed And transmits the packet PAC to the display driver IC 200A in accordance with the clock signal CLK. Here, the packet PAC includes a data stream packet DS and a command packet CP including a vertical synchronization packet VS, a horizontal synchronization packet HS, and a video signal to be displayed, A command mode for processing a video signal, and a video mode for processing a video signal.

The display driver IC 200 restores the vertical synchronization signal and the horizontal synchronization signal from the vertical synchronization packet VS and the horizontal synchronization packet HS and processes or restores the vertical synchronization signal and the horizontal synchronization signal into a data stream packet, (DDATA) to the display 300 in response to the converted command.

The display 300 may be implemented as a liquid crystal display, an LED (light emitting diode) display, an OLED (Organic LED) display, or an AMOLED (active-matrix OLED) display.

There are three modes of the MIPI video mode.

2A to 2C illustrate a conventional three-way MIPI video mode.

2B shows a non-burst mode with Sync events, FIG. 2C shows a burst mode with Burst Mode, FIG. ).

The non-burst mode with Sync pulses is a method of transmitting data in synchronization with a synchronization pulse, and a Non-Burst Mode with Sync events having a synchronization event requires a synchronization pulse to be generated again. Burst Mode requires a line buffer or other memory in such a way that the data package is transferred at a high rate and then switched to a low power mode to reduce power consumption.

However, in order to prevent the liquid crystal display from being deteriorated when a DC voltage is applied to the liquid crystal, it is necessary to use a line inversion, a dot inversion, a column inversion, (frame inversion), and the like.

However, when a liquid crystal display is used as a display in a conventional MIPI-based video signal processing system, there are the following problems.

3A illustrates a case where the display driver IC can not interpret a packet (PAC) output from the host by an external environment (ESD, PIN short, video off) in a conventional MIPI image signal processing system. FIG. 3B is an explanatory diagram for explaining a case where a video signal is not received by the display driver IC by the external environment in a conventional MIPI-type video signal processing system.

FIG. 4 is a diagram illustrating a phenomenon occurring in a conventional MIPI image signal processing system when the case of FIGS. 3A and 3B continues for three or more frames.

In the conventional MIPI image signal processing system, when the display driver IC can not interpret the packet (PAC) output from the host by the external environment (ESD, PIN short, video off) A video signal may not be received in the display driver IC.

That is, the display driver IC receives the packet (PAC) from the host, restores the vertical synchronization signal and the horizontal synchronization signal, and displays the image data in an inversion manner in synchronization with the restored vertical and horizontal synchronization signals. However, if the display driver IC misses a packet (PAC) from the host due to an external environment (ESD, PIN short, video off), the display driver IC does not recognize the synchronization signal All of the liquid crystal display signals are output to the DC voltage (3 frames or less in FIG. 3A).

 Also, when no video signal is received in the display driver IC, all the liquid crystal display signals are output as a DC voltage (three frames or less in FIG. 3B), as shown in FIG. 3B.

 If such a case occurs and the DC voltage is continuously outputted for more than three frames, deterioration of the liquid crystal occurs as shown in FIG. 4, and abnormal driving such as a phenomenon in which the screen is shaken as a whole and a specific line is vibrated .

SUMMARY OF THE INVENTION The present invention has been conceived to solve such a problem, and it is an object of the present invention to provide a method and apparatus for periodically making an LP-11 state of a clock signal and data when the display driver IC can not interpret a packet (PAC) A MIPI video mode that prevents all LCD display drive signals (Gate, Vcom, and data) from being output to GND to prevent DC voltage from being generated, thereby preventing LCD deterioration due to DC voltage stress when a video signal is not received in the display driver IC The present invention provides a DC stress prevention method using the DC stress.

According to an aspect of the present invention, there is provided a DC stress prevention method using a MIPI video mode, the method comprising: receiving a packet (PAC) including a mode switching command according to a video signal to be displayed on a liquid crystal display And a display driver IC for receiving the packet and the clock signal and restoring the vertical synchronization signal, the horizontal synchronization signal, and data from the packet and transmitting the restored vertical synchronization signal, the horizontal synchronization signal, and data to the liquid crystal display device, In a case where the clock signal is applied in the MIPI video mode, the display driver IC intercepts all signals supplied to the liquid crystal display device when the data signal is held for a predetermined time by the LP-11 or LP-00, .

According to another aspect of the present invention, there is provided a DC stress prevention method using a MIPI video mode, the method comprising: receiving a packet (PAC) including a mode switching command according to a video signal to be displayed on a liquid crystal display And a display driver IC for receiving the packet and the clock signal and for restoring the vertical synchronization signal, the horizontal synchronization signal and data from the packet and transmitting the same to the liquid crystal display device, The host periodically outputs the clock signal to the LP-11 to initialize the MIPI block in the display driver IC.

The DC stress prevention method using the MIPI video mode according to the present invention has the following effects.

That is, when the display driver IC can not interpret the packet (PAC) output from the host or when the video signal is not received in the display driver IC, all the liquid crystal display driving signals (Gate, Vcom, data) Since the display driver IC is initialized at time intervals, DC voltage is not generated in the liquid crystal display device, and DC voltage stress can be prevented.

1 is a block diagram of a conventional MIPI system video signal processing system
2A to 2C illustrate a conventional three-way MIPI video mode.
3A illustrates a case where the display driver IC can not interpret a packet (PAC) output from the host by an external environment (ESD, PIN short, video off) in a conventional MIPI image signal processing system. Explanatory diagram
3B is an explanatory diagram for explaining a case where a video signal is not received in the display driver IC by the external environment in the conventional MIPI type video signal processing system
FIG. 4 is a diagram illustrating a phenomenon that occurs in a conventional MIPI-type video signal processing system when the case of FIGS. 3A and 3B continues for three or more frames
5 is a view for explaining a method of preventing DC stress in a case where a display driver IC can not interpret a packet (PAC) output from a host among the DC stress prevention methods using the MIPI video mode according to the present invention
6 is a view for explaining a method for preventing DC stress when a video signal is not received in a display driver IC among DC stress prevention methods using a MIPI video mode according to the present invention

The DC stress prevention method using the MIPI video mode according to the present invention having the above features will now be described in more detail with reference to the accompanying drawings.

FIG. 5 is an explanatory view for explaining a method for preventing DC stress when a display driver IC can not analyze a packet (PAC) output from a host among DC stress prevention methods using a MIPI video mode according to the present invention.

That is, in the MIPI video mode, the data signal is output to the LP-11 or LP-00 for a certain period of time (one horizontal clock signal) in the state where the clock CLK is applied (in the horizontal synchronous signal Or one horizontal clock signal or more), the signal supplied to all the liquid crystal display devices is cut off.

That is, when the host described in FIG. 1 is in the horizontal synchronous packet (HS) mode and the data output is maintained for a predetermined time (one horizontal period or two horizontal periods or more) with LP-11 or LP-00, If the data output is maintained for LP-11 or LP-00 for a period of time (one horizontal period or two horizontal periods or more) despite all power in packet (HS) mode, it is not a normal LP-11 mode . Accordingly, when such a case occurs, the display driver IC automatically shuts down all the outputs supplied to the liquid crystal display device.

FIG. 6 is an explanatory diagram illustrating a method of preventing DC stress when a video signal is not received in a display driver IC among DC stress prevention methods using a MIPI video mode according to the present invention.

That is, the host sends the clock signal periodically (frame or line) to the LP-11 to initialize the display driver IC internal MIPI block.

When the clock signal is thus initialized, the display driver IC can receive the video signal.

In this manner, when the display driver IC can not interpret the packet (PAC) output from the host or when the video signal is not received in the display driver IC, all the liquid crystal display driving signals Gate, Vcom, data are blocked , The display driver IC is initialized at predetermined time intervals, so that the DC voltage is not generated in the liquid crystal display device and the DC voltage stress can be prevented.

The foregoing description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of equivalents should be construed as being included in the scope of the present invention.

Claims (2)

A host for transmitting a packet (PAC) including a mode switching command in accordance with a video signal to be displayed on a liquid crystal display device in accordance with a clock signal (CLK); and a controller for receiving the packet and the clock signal, And a display driver IC for restoring signals and data to be transmitted to a liquid crystal display device, the system comprising:
The display driver IC interrupts all signals supplied to the liquid crystal display device when the data signal is held for a predetermined time by the LP-11 or LP-00 under the condition that the clock signal is applied in the MIPI video mode A DC stress prevention method using a MIPI video mode. A host for transmitting a packet (PAC) including a mode switching command in accordance with a video signal to be displayed on a liquid crystal display device in accordance with a clock signal (CLK); and a controller for receiving the packet and the clock signal, And a display driver IC for restoring signals and data to be transmitted to a liquid crystal display device, the system comprising:
Wherein the host periodically outputs the clock signal to the LP-11 to initialize the MIPI block in the display driver IC.

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