KR101544999B1 - Method for Compensating Distortion of signal from Control Board to Display Panel, and Mobile Terminal and Control Board employing the same - Google Patents

Abstract

Disclosed is a method for controlling communications between a control board and a display panel in a mobile terminal employing a mobile industry processor interface (MIPI) method. When an output signal outputted from an output unit in the control board is transmitted to the display panel, a reception unit provided in the display panel transmits the received output signal to a recovery unit provided in the control board as a carrier signal. The recovery unit compares the carrier signal with the output signal outputted from the output unit, generates a correction signal to correct the output signal based on the comparison results, and transmits the correction signal to the output unit. As a distortion generated on a transmission line is compensated when the output signal outputted from the control board reaches the display panel, an image outputted from the display panel can be outputted with optimized image quality.

Description

[0001] The present invention relates to a method for compensating for signal distortion between a control board and a display panel, and a mobile terminal and a control board employing the method,

The present invention relates to a signal distortion compensation method between a control board and a display panel in a mobile terminal employing a Mobile Industry Processor Interface (MIPI) method, and a mobile terminal and a control board employing such a method.

The Mobile Industry Processor Interface (MIPI) is a protocol established to define the interface between the respective components constituting the mobile terminal. 1 shows a control board 10 and a display panel 20 of a mobile terminal employing MIPI. The control board 10 is provided with various chips for operating the mobile terminal, and the display panel 20 receives an output signal from the control board 10 and displays it on a screen. The control board 10 and the display panel 20 are connected by a connection line 30 so that an output signal outputted from the control board 10 is transmitted to the display panel 20. [

Even if a signal output from the control board 10 is output as an optimized signal due to signal distortion in the connection line 30 between the control board 10 and the display panel 20 in the mobile terminal, It is received as an unoptimized signal. 1, the output signal waveform on the receiving side of the display panel 20 is different in magnitude and frequency from the output signal waveform on the output side of the control board 10. This causes quality deterioration such as distortion and sharpness of the screen displayed on the display panel 20. [

Generally, since the mobile terminal is manufactured in a miniaturized size that can be carried by a user, the length of the connection line 30 is usually as short as 1 cm or less, but in reality, even in such a short connection line 30, The signal is not transmitted to the display panel 20, and depending on the model of the product, the connecting line 30 becomes longer than this, so that the signal distortion is becoming a serious problem.

- Korean Patent Laid-Open Publication No. 1997-18425 (Apr. 30, 1997) The display device disclosed in this prior art includes a control unit for receiving a data signal and a clock signal transmitted from the system, and a display panel for displaying an image using the data signal and the clock signal received by the control unit. The control unit includes a phase comparator that compares the phase of the data signal and the clock signal transmitted from the system, and a phase retarder that corrects the phase difference between the data signal and the clock signal according to the specification of the display panel according to a result of the comparison of the phase comparator. . Comparing the phase difference between the data signal and the clock signal and compensating the phase through the phase retarder when the phase difference exceeds the allowable range, compensates for the distortion of the signal transmitted from the system to the display at the MIPI.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a mobile terminal employing MIPI, in which an output signal transmitted from a control board to a display panel can be transmitted as an optimized signal to a display panel It is to provide a plan.

According to an aspect of the present invention, there is provided a method of controlling communication between a control board and a display panel of a mobile terminal employing a Mobile Industry Processor Interface (MIPI), the method comprising the steps of: a) Transmitting to a display panel; b) transmitting the output signal received at a receiving unit provided on the display panel to a recovery unit provided in the control board as a carrier signal; c) the recovery section comparing the carrier signal with the output signal output from the output section; And d) generating a correction signal for correcting the output signal according to a result of the comparison and transmitting the correction signal to the output unit. do.

The correction signal may be a signal for correcting at least one of magnitude and frequency with respect to the output signal.

Preferably, the recovery unit receives a set value for the correction signal, and the recovery unit changes the correction signal according to the set value and outputs the modified signal.

According to another aspect of the present invention, there is provided a mobile terminal performing the above-described method, and a control board for such a mobile terminal.

According to the present invention, in a mobile terminal employing MIPI, an output signal transmitted from a control board to a display panel is transmitted as an optimized signal to a display panel.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a conventional MIPI mobile terminal; FIG.
FIG. 2 schematically illustrates a configuration of a MIPI mobile terminal according to the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In the description of the present invention, the constituent parts corresponding to the constituent parts shown in Fig. 1 are denoted by the same reference numerals for the sake of convenience and description.

The mobile terminal has a control board 10 and a display panel 20 and performs communication between the control board 10 and the display panel 20 according to a Mobile Industry Processor Interface (MIPI) scheme.

The control board 10 includes an output unit 17, a recovery unit 15 and an input unit 13. The display panel 20 includes a receiving unit 27. [

The output section 17 of the control board 10 outputs an output signal provided to the display panel 20. The receiving unit 27 of the display panel 20 is connected to the output unit 17 by a connection line 30 and receives an output signal transmitted from the output unit 17. [

The output signal received by the receiving unit 30 is transmitted to the recovery unit 15 of the control board 10 as a carrier signal. To this end, the receiver 30 and the recovery unit 15 are connected by a carrier line 40. The carrier line 40 may be configured as a line branched from the adjacent point on the side of the reception unit 30 of the connection line 30 through which the output signal is transmitted and connected to the recovery unit 15 side.

The recovery unit 15 compares the carrier signal transmitted through the carrier line 40 with an output signal output from the output unit 17 to generate a correction signal for correcting the output signal. The generated correction signal is transmitted to the output unit 17. Here, the correction signal is composed of a signal for correcting the magnitude and / or the frequency with respect to the output signal.

The output signal received on the display panel 20 is output as an optimized signal so that the image quality is improved by compensating for the signal distortion by comparing the output signal and the carrier signal. .

On the other hand, the input unit 13 receives a set value for the correction signal from the outside. That is, the input unit 13 receives a set value from a user or another function block of the control board 10, and the set value is input as a control signal of the recovery unit 15 to adjust the degree of distortion compensation of the recovery unit 15 It functions as a variable. Accordingly, the recovery unit 15 changes the correction signal in accordance with the set value and outputs it.

Here, the set value is a value for setting the degree of compensation for distortion. That is, when the set value is a value that increases the degree of compensation, the recovery unit 15 raises the level of the correction signal to be generated as a result of comparison between the output signal and the carrier signal. Therefore, the extent to which the output signal is deformed for compensation (degree of compensation) becomes large. On the contrary, when the set value is a value that lowers the degree of compensation, the degree of the degree of compensation (degree of compensation) of the output signal to be compensated for is reduced by lowering the level of the correction signal to be generated as a result of comparison.

In the absence of such an input section 13, the signal distortion is compensated only by the operation of the recovery section 15. Therefore, the recovery unit 15 needs to be manufactured to operate differently according to the model of the mobile terminal. Otherwise, the optimized display image quality is guaranteed due to a different distortion pattern for each product, even for the model of the mobile terminal or the same model I can not do it.

However, when the input unit 13 is present, the degree of compensation can be manually set so that the user obtains an image quality optimized for a product he / she uses in a trial-and-error manner. That is, if the user directly visually observes the display quality of his / her product, the user can obtain the set value showing the optimum image quality by changing the set value through the input unit 13 in various ways. This method provides an adaptive function that allows the user to adjust according to his or her preference even when the reference of the optimized image quality is different for each user.

The input unit 13 may be provided as a separate hardware module or as a program module. When provided as a program module, for example, a user can create a sub menu called "display optimization" in a menu for inputting a preference of a smartphone, and set values of set values of ten steps in this sub menu. The set value input value here is a value for adjusting the degree of correction of the correction signal as described above, and is a value for adjusting the degree of correction of the amplitude and frequency of the output signal based on the difference of the comparison result. At this time, the fact that the degree of adjustment of the correction signal is large does not necessarily mean that it is further optimized. Since the degree of correction signal adjustment for optimizing the image quality displayed on the model of each mobile terminal or each product may be different, And has a meaning corresponding to the selected value of the optimized value.

According to the present invention, there is an advantage that the image quality output from the display panel can be output with an optimized image quality.

Claims (9)

A communication control method between a control board and a display panel of a mobile terminal employing a Mobile Industry Processor Interface (MIPI)
a) transmitting an output signal from the output unit in the control board to the display panel;
b) transmitting the output signal received at a receiving unit provided on the display panel to a recovery unit provided in the control board as a carrier signal;
c) the recovery section comparing the carrier signal with the output signal output from the output section; And
d) generating a correction signal for correcting the output signal according to the comparison result, and transmitting the correction signal to the output unit;
/ RTI >
Wherein the recovery unit receives a set value for the correction signal from a user, changes the correction signal according to the set value, and outputs the modified signal.
The method according to claim 1,
Wherein the correction signal is a signal for correcting at least one of a magnitude and a frequency with respect to the output signal.
delete 1. A mobile terminal for communicating between a control board and a display panel according to a Mobile Industry Processor Interface (MIPI)
An output unit provided in the control board and outputting an output signal provided to the display panel;
A receiving unit provided on the display panel and receiving the output signal transmitted from the output unit;
A transferring means for transferring the output signal received at the receiving portion to the control board as a carrier signal;
And a control signal generating unit for generating a correction signal for correcting the output signal by comparing the carrier signal transmitted by the carrier unit with the output signal output from the output unit, A recovery unit for transmitting the data to the output unit; And
An input unit for receiving a set value for the correction signal input by a user from outside;
/ RTI >
Wherein the recovery unit changes and outputs the correction signal according to the set value.
5. The method of claim 4,
Wherein the correction signal is a signal for correcting at least one of a magnitude and a frequency with respect to the output signal.
delete A control board for a mobile terminal employing a Mobile Industry Processor Interface (MIPI)
An output unit for outputting an output signal provided to a display panel of the mobile terminal;
A recovery signal generating unit that generates a correction signal for correcting the output signal by comparing the carrier signal received from the receiving unit on the display panel side that receives the output signal with the output signal and transmits the generated correction signal to the output unit, part; And
An input unit for receiving a set value for the correction signal input by a user from outside;
/ RTI >
Wherein the recovery unit changes and outputs the correction signal according to the set value.
8. The method of claim 7,
Wherein the correction signal is a signal for correcting at least one of a magnitude and a frequency with respect to the output signal.
delete

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