KR20100004542A - Display apparatus and method for compensating data - Google Patents

Abstract

PURPOSE: A display device and a data compensation method for efficiently recompensing signal loss to the deviation of a connecting cable are provided to minimize signal loss phenomenon by compensating input signal in consideration of the deviation according to the length of the connecting cable. CONSTITUTION: A media interface(110) receives data transmitted through a connecting cable from outside. An impedance calculator(120) calculates an impedance of the connecting cable according to the received data. A compensation controller(130) decides the compensation of the received data. A data compensator(140) recompenses the signal loss.

Description

Display apparatus and method for compensating data thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display apparatus, and more particularly, to an algorithm for efficiently reducing an impedance difference caused by a deviation of a connecting cable.

In general, a display apparatus that receives and displays an image signal uses a connection cable to receive a signal from a signal source.

The connection cable is designed differently according to the type of the transmission signal, and its length is provided in various ways. For example, a high definition multimedia interface (HDMI) cable may have a length of 7 meters or more, or noise may occur depending on the design characteristics of each cable (eg, a star cable).

Meanwhile, the display apparatus processes and displays a signal transmitted through a connection cable, and undergoes a signal processing process to compensate for noise such as signal loss and weakening through the connection cable.

In this case, the display apparatus processes the received signal using a register value related to noise compensation.

Here, the register value related to noise processing is set by the designer at the time of mass production, and the designer sets the optical value of the cable held in development to the corresponding register value. That is, the designer can test the noise level with several cables and set the appropriate register value in the set without noise on the screen.

However, in this case, when a user uses a cable having a different characteristic from the connection cable tested by the developer, the noise may occur.

For example, considering only the length of the cable, the designer sets the resistor value using a 7-meter cable, but if the user uses a cable that is longer or shorter than 7 meters in length, there is no noise in the signal processing. It is likely to occur.

That is, if the signal compensation process is implemented as in the prior art as described above, there is a problem that can not effectively cope with various cable lengths (2m, 3m, 5m, 10m cable) currently on the market.

In other words, the line impedance is different depending on the length of the cable for signal transmission, and even if the cable is the same length, the cable impedance is different for each manufacturer of the cable, effectively reducing noise such as signal loss and weakening through the connecting cable. There is a problem that cannot be compensated.

In an exemplary embodiment of the present invention, an input signal is compensated for in consideration of a deviation in a length of a connection cable connecting an external device and a display device, thereby minimizing a signal loss caused by a cable length deviation.

According to an aspect of the present invention, a display apparatus includes a media interface configured to receive data transmitted from the outside through a connection cable; An impedance calculator configured to calculate an impedance of the connection cable according to the data received through the media interface; A compensation controller configured to determine a compensation degree of the received data based on the impedance calculated by the impedance calculator; And a data compensator for compensating for signal loss in the data transmission process according to the compensation degree of the data determined by the compensation controller.

In addition, the data compensation method of the display device according to an embodiment of the present invention comprises the steps of receiving data input through the connection cable: calculating the impedance of the connection cable based on the received data; Determining a degree of compensation of data input through the connection cable based on the calculated impedance; And compensating for the received data according to the determined compensation degree.

The display device and its data compensation method according to an embodiment of the present invention effectively compensate for the transmitted data according to the impedance deviation of the connection cable for data transmission, thereby solving a phenomenon such as signal loss due to the deviation of the connection cable. There is an effect that can provide an optimal video screen to the user.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of other inventive inventions or the scope of the present invention can be easily made by adding, changing, or deleting other elements. I can suggest.

The term used in the present invention is selected as a general term widely used as possible at present, but in certain cases there is also a term arbitrarily selected by the applicant, in which case the meaning is described in detail in the description of the invention, the name of a simple term It should be clear that the present invention is to be understood as a meaning of terms.

1 is a block diagram illustrating a configuration of a display apparatus according to an exemplary embodiment of the present invention, and FIG. 2 is a flowchart for explaining a data compensation method of the display apparatus according to an exemplary embodiment.

In general, a display system according to an exemplary embodiment of the present invention processes a connection cable 10 for transmitting data output from an external source (not shown) to a display device, and processes a signal transmitted through the connection cable 10 to display a screen. And a display device 100 displayed on the screen.

The connection cable 10 is a connector 11 for connecting to a signal output port of an external source and a media interface 110 (signal input port) of the display apparatus 100, and a signal transmission for transmitting data output from an external source. Lines (not shown).

According to an exemplary embodiment of the present invention, a display device includes a media interface 110 to which a connector 11 of a connection cable 10 is connected, and an impedance calculator for calculating impedance of data received through the media interface 110 ( 120 and a compensation controller 130 that determines a compensation degree of the received data based on the impedance calculated by the impedance calculator 120, and the data according to the compensation degree of the data determined by the compensation controller. The data compensator 140 compensates for signal loss during the transmission process, and the signal processor 150 processes data compensated for signal loss through the data compensator 140.

The media interface 110 receives the video signals corresponding to various external sources by connecting the connection cable 10.

Here, the media interface 110 includes input terminals such as Composite Video Baseband Signal (CVBS), S-video, Component, PC-signal, Digital Video / Visual Interactive (DVI), and High-Definition Multimedia Interface (HDMI). can do.

The impedance calculator 120 calculates an impedance of the connection cable according to the data received through the media interface 110.

Here, the impedance refers to the total resistance that the component provides to the flow of alternating current at a given frequency, and if it is a normal connection cable, the data swings near the center of 100 ohms. If it is out of the specification or satisfies the specification, the input / output of the normal data is impossible by shifting to the upper limit or the lower limit.

That is, in general, signal attenuation, cross-talk, and differential impedance increase and decrease of the connector are caused by deviation of the connection cable for data transmission, where the differential impedance increase and decrease of the connector is very important. It is emerging as a matter.

For example, an HDMI cable transmits a TMDS digital signal from an external source to a display device. Here, the HDMI standard transmits ancillary data using a blanking period and transmits a video signal, an audio signal, a control signal, and the like through one cable.

That is, the HDMI cable transmits clock and data through the DDC_SCL line and the DDC_SDA line.

Here, each other line through which the data is transmitted must have an impedance of 50 ohms. In other words, the specification specified in the specification should be the sum of the two lines so that the impedance is 100 ohm ± 15 ohms, that is, 85 to 115 ohms.

However, even if the value of the impedance is the same length for each manufacturer of the connection cable, slightly differs, and the screen flickers due to signal distortion or fails to HDCP (High-bandwidth Digital Content Protection) due to the deviation of the impedance I / O of normal data becomes impossible.

In addition, a separate memory area is provided in the current connection cable, and one or more of characteristic information (cable length, impedance, and capacitance) of the cable is provided to the memory along with data of an external source.

However, even if the characteristic information of the connection cable is provided together with the data, the stored characteristic information is information measured at the time of manufacture of the cable, and accordingly, the time of using the cable and the environment (temperature, Humidity, etc.).

Therefore, in the embodiment of the present invention, the impedance of the currently connected cable can be directly calculated to perform a more accurate data compensation operation according to the current use environment.

The compensation controller 130 determines the compensation degree of the data received through the media interface 110 based on the impedance calculated by the impedance calculator 120.

That is, the compensation controller 130 compares the impedance value calculated by the impedance calculator 120 with 100 ohms, which is a reference impedance, and if the comparison result is near 85 ohms, equalizer value of the corresponding data. If it is increased to 115 ohms or more, the short cable EQ pipeline is passed to reduce the equalizer value.

Here, the method of setting the equalizer value may be implemented as a register for controlling the equalizer value, so that a corresponding value is applied when a specific value is input to the source code. For example, 00 may be applied to a short cable, 01 to a middle cable, and 10 to a long cable.

In other words, the compensation controller 130 may include a register for signal compensation processing corresponding to the calculated impedance value, and accordingly, the compensation controller 130 receives the calculated impedance value of the cable, Determine the optimal register value accordingly and set it.

The compensation controller 130 controls the signal loss due to noise generated in the data transmission process based on the set register value.

The data compensator 140 compensates for the signal loss of the received data according to the data compensation degree determined by the compensation controller 130.

That is, the data compensator 140 performs an equalization process that varies compensation of signal loss, such as amplification and noise processing, based on the equalizer value set through the compensation controller 130.

Accordingly, data loss such as noise of the received data is compensated for according to the characteristics of the connection cable according to the environment currently in use. Thus, by varying the signal processing according to the characteristics of each cable, it is possible to sufficiently respond to the occurrence of noise.

As described above, the display apparatus according to the embodiment of the present invention effectively compensates the transmitted data according to the impedance deviation of the connection cable for data transmission, thereby solving the phenomenon such as signal loss due to the deviation of the connection cable, which is optimal for the user. Can provide a video screen.

In the data compensation method of the display apparatus according to the exemplary embodiment of the present invention configured as described above, as shown in FIG. 2, first, it is determined whether a cable for data transmission is connected (S10).

Subsequently, when the connection of the cable for data transmission is detected (S10), data transmitted through the cable is received (S20).

Then, the impedance of the connection cable is calculated according to the received data (S30).

Subsequently, the calculated impedance is compared with the reference impedance (S40).

In operation S50, an equalizer value for compensating for signal loss of the received data is set according to the impedance comparison result.

Subsequently, data received through the connection cable is compensated according to the set equalizer value (S60). That is, the equalization process of the received data is performed according to the set equalizer value.

The equalizer value described above means the register value described above, and the equalization process means signal compensation processing according to the set register value.

As described above, the display device and the data compensation method thereof according to the embodiment of the present invention effectively compensate for the transmitted data according to the impedance deviation of the connection cable for data transmission, such as signal loss due to the deviation of the connection cable. By solving the phenomenon, it is possible to provide an optimal video screen to the user.

As described above, although the specific connection cable is taken as an example, the present invention can be applied to other interface cables such as a DVI cable and a display device according to the present invention.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that the embodiments may be modified without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

1 is a block diagram showing the configuration of a display device according to an embodiment of the present invention.

2 is a flowchart illustrating a step-by-step data compensation method of a display apparatus according to an exemplary embodiment of the present invention.

<< Explanation of symbols for main part of drawing >>

10: connection cable 100: media interface

110: impedance calculation unit 120: compensation control unit

130: data compensation unit 140: signal processing unit

Claims (6)

A media interface for receiving data transmitted from the outside via a connection cable; An impedance calculator configured to calculate an impedance of the connection cable according to the data received through the media interface; A compensation controller configured to determine a compensation degree of the received data based on the impedance calculated by the impedance calculator; And, And a data compensator for compensating for signal loss in the data transmission process according to the compensation degree of data determined by the compensation controller. The method of claim 1, A register related to signal loss compensation in the data transmission process; And the compensation control unit determines a register value related to signal compensation according to the detected impedance. The method of claim 2, And the data compensator performs signal compensation on the received data based on the determined register value. Receiving data input via the connecting cable: Calculating an impedance of the connection cable based on the received data; Determining a degree of compensation of data input through the connection cable based on the calculated impedance; And, Compensating for the received data according to the determined degree of compensation. The method of claim 4, wherein Determining the compensation degree of the input data is Comparing the calculated impedance with a reference impedance; And setting a register value for compensating for signal loss of the data according to the comparison result. The method of claim 5, Compensating the received data And performing a signal compensation process of the received data based on the set register value.

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