KR20150018085A - Method for correction of error code included in control signal of hdmi/mhl - Google Patents

Abstract

The present invention relates to a method for recovering a transmission error of a control signal in an HDMI/MHL receiver. The present invention provides a technology for checking whether an error occurs only in a bit when characters inputted during a predetermined cycle are compared with a synchronization character and, when it is checked that only one bit error occurs, recovering the bit error and extracting a synchronization signal. Serious deterioration of video or audio may be prevented by recovering a transmission error of a synchronization character, which inevitably occurs during transmission of an HDMI or MHL signal inputted through an HDMI/MHL input terminal.

Description

{METHOD FOR CORRECTION OF ERROR CODE INCLUDED IN CONTROL SIGNAL OF HDMI / MHL}

The present invention relates to a control signal transmission error recovery method in an HDMI / MIC receiver, and more particularly, to a method and apparatus for recovering a control signal transmission error from an HDMI / MHL signal received from an HDMI / / M < / RTI >

As various multimedia environments are developed, a wide variety of high-quality video and audio formats are being used.

Conventional monitors and digital televisions often have terminals such as HDMI (High Definition Multimedia Interface) as a video interface in order to receive a large amount of digital data from other devices such as a computer or a DVD player.

HDMI terminals operate at high frequencies and are standardized for personal computers and these devices are defined in situations where there is little concern about power consumption and thus are usually not suitable for portable terminals that require a lot of power and require low power driving . In order to overcome this problem, a mobile high-definition link (MHL) is used as an interface of a portable terminal for use in transmitting data for realizing high-resolution video to a device having an HDMI terminal such as an external computer monitor or a high- The interface has been developed.

Personal computers and digital televisions need to receive not only data input from an HDMI source but also data input from an MHL source. As shown in FIG. 1, the HDMI signal and the MHL signal have different data formats. In the HDMI signal (FIG. 1 (a)), data and a pixel clock are input through four channels, while an MHL signal (FIG. 1 (b)) is input together with data and a clock through one channel. When the data converted into the parallel data through the PHY is compared according to the clock, the HDMI signal is converted into the blue (B), green (G), and red (R) are input along four signal lines while the MHL signal is synchronized with a clock three times faster than the pixel clock as shown in FIG. 1 (d), so that the data on the blue, . ≪ / RTI >

2 is an explanatory view for explaining the HDMI transmission method between the HDMI source and the HDMI sink. An electronic apparatus having an HDMI output terminal is referred to as an HDMI source, an electronic apparatus having an HDMI input terminal is referred to as an HDMI sink, and a connection cable between the HDMI source and the HDMI sink is referred to as an HDMI TMDS (Transition Minimized Differential Signaling) link. A device that generates and transmits a high-quality multimedia signal using an HDMI output terminal and then transmits the serialized signal is called an HDMI transmitter. An HDMI input terminal decodes data received from the HDMI transmitter and restores the output stream Is called an HDMI receiver. The HDMI TMDS link consists of three data channels (channel 0 to channel 2) and one clock channel. (Hereinafter referred to as 'B'), H, V SYNC and ancillary data (packet header) are transmitted through the channel 0 and the pixel component G (hereinafter referred to as 'G'), CTL0, CTL1 And auxiliary data (audio) are transmitted, and pixel components R (hereinafter, referred to as 'R'), CTL0, CTL1, and auxiliary data (audio) are transmitted through the channel 2. A 10-bit character is transmitted over each data channel per pixel clock and is sometimes referred to as a 10-bit word.

3 is a view for explaining the TMDS section and the encoding method shown in the HDMI specification 1.4a. As shown in FIG. 3, HSYNC and VSYNC are transmitted during a control signal transmission period (CTL Period) through a channel 0, and a preamble signal (a preamble signal) is transmitted during a control signal transmission period Is transmitted. Is a control signal for determining whether the data to be transmitted next is a video data or a data island data (audio data or auxiliary data) by a combination of preamble signals transmitted through channel 1 and channel 2.

In the HDMI or MHL specifications, transmission error recovery for island data is specified, but there is no provision for error recovery for control signals and video data. However, when a transmission error occurs in the video data, since an error occurs only in one pixel, there is no big problem because the user can not easily grasp it. On the other hand, if a transmission error occurs in the control signal, Or an error occurs in the audio packet, thereby causing serious degradation of quality of video / audio.

Patent Document 1: Korean Patent Publication No. 2002-0077342 (October 11, 2002)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for transmitting or receiving an HDMI or MHL signal, which is generated in a process of serializing or de- An object of the present invention is to provide a method of decoding a synchronous signal of video, audio, or information without loss by restoring an error of character synchronization occurring in transmission of a control signal during an error, And a method for recovering a control signal transmission error.

The above object of the present invention is achieved by an HDMI / MHL receiver having an HDMI / MHL input terminal and decoding an input stream received from the HDMI transmitter through the HDMI input terminal and restoring the input stream into an output stream, The method comprising: a first step of determining whether only one error bit is generated among all the bits when a character input during a predetermined cycle is compared with a synchronization character; A second step of correcting an error bit, and a third step of extracting a synchronization signal using the characters. The control signal transmission error recovery method in the H.I.

The transmission error of the synchronization character which is inevitably generated during transmission of the HDMI or MHL signal input through the HDMI / MHL input terminal in the HDMI receiver by the control signal transmission error recovery method in the H.264 / H.264 / AVCHD receiver according to the present invention The restoration can prevent serious video or audio quality deterioration.

1 is an explanatory view for explaining a transmission method of an HDMI signal and an MHL signal;
FIG. 2 is an explanatory view for explaining an HDMI transmission method between an HDMI source and an HDMI sink;
FIG. 3 is a view for explaining a TMDS section and an encoding method shown in the HDMI specification 1.4a. FIG.
4 is a flowchart illustrating a flow of restoring a control signal error that may occur in HDMI and MHL;

In the following, preferred embodiments, advantages and features of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the HDMI and MHL have different data transmission schemes, but have many common features, and operate in a manner of processing both signals together using one component. For example, in FIG. 1, although the HDMI Rx PHY and the MHL Rx PHY are described as separate components, they are actually used as an HDMI / MHL Rx PHY capable of handling both functions. Therefore, the present invention will be described based on the HDMI signal processing, but it should be construed to be applied to the MHL signal processing, and not only to the MHL signal processing.

The HDMI sink must decode the serialized input data stream encoded in TMDS format. Therefore, the HDMI sink needs to determine the position of the character boundary in the serial data stream. Once the carry boundary is determined for all data channels, the HDMI sync is defined to be synchronized to the serial stream and the TMDS character can be recovered from the data channel. The TMDS character used in the video data section and the data island section has a transition of 5 or less, while the TMDS character used in the control signal section is used to have 7 or more transitions. The characters having such high transition characteristics transmitted during the control signal interval are used as a reference for synchronizing in the decoder. However, TMDS characters used in the control signal interval can not be defined in various ways, such as character synchronization having a transition of 7 or more times. For example, the synchronization character of the preamble among the HDMI control signals is 10'h0ab (denoted by 0ab in hexadecimal notation, '00 1010 1011 'in binary number) in channel 1 and 10' h0ab or 10'h354, and the same values should be maintained during the 8 cycle interval. In the present invention, when an error occurs in only one bit of 160 bits (channel 1 80 bits, channel 2 80 bits), it is possible to correct an error of a control signal generated during HDMI and MHL transmission . Since the TMDS character error rate is defined as 10 ^-9 or more in the HDMI and MHL specifications, transmission errors of 2 bits or more do not occur within one control signal interval. Therefore, Can be applied.

4 is a flowchart for explaining a flow for restoring control signal errors that may occur in HDMI and MHL. As described above, when a signal decoded in the HDMI sink is encoded on the HDMI source side, an error occurring on the HDMI link cable or a 1 bit error in the PHY of the HDMI sink may occur. In the present invention, Is possible.

When the HDMI / MHL character is input (ST 100), it is determined whether or not the character is a synchronization character (ST 110). In the case of the synchronization character, it is determined whether the same synchronization character is maintained for the remaining 7 consecutive cycles in the control period (ST 120). If it is determined that the synchronization character is maintained, the synchronization signal is extracted (ST 130). If the determination result in ST 110 does not match, it is determined whether the synchronization character is a similar synchronization character having a difference of only 1 bit from the synchronization character (ST 140). If it is judged that it is a similar synchronization character, an accurate synchronization character is input during the remaining 7 cycles of the control period, and only one bit error is generated in the synchronizing character (total 80 bits) (ST 150). As a result of the determination in ST 150, if only one bit error occurs during the entire eight cycles, the corresponding error is recovered (ST 160) and a synchronization signal is extracted (ST 130). If it is determined in ST 120 that the synchronization character is not maintained during the control period, ST 150 is performed to determine whether only one bit error occurs in the synchronization character (total 80 bits) . If ST 140 or ST 150 is not satisfied, it is determined that the character is not a synchronization character (ST 170).

The flowchart shown in FIG. 4 shows a case where a 1-bit error return on HSYNC, VSYNC, and preamble signals belonging to a control signal section having a synchronization character characteristic and a 1-bit error return on a data guard band and a video guard band Of course. The data guard band's synchronizing character is 10'h133, and the video guard band's synchronizing character is 10'h133 and 10'h2cc. At this time, the cycle in which each synchronization character is held is different for each signal. For example, the maintenance cycle of the data guard band and the video guard band is two cycles.

While the preferred embodiments of the present invention have been described and illustrated above using specific terms, such terms are used only for the purpose of clarifying the invention, and it is to be understood that the embodiments of the invention and the described terminology are intended to cover various modifications, It is obvious that various changes and changes can be made without departing from the scope of the present invention. Such modified embodiments should not be understood individually from the spirit and scope of the present invention, but should be regarded as being within the scope of the claims of the present invention.

Claims (6)

In an HDMI / MHL receiver having an HDMI / MHL input terminal and decoding an input stream received from the HDMI transmitter through the HDMI input terminal and restoring the input stream into an output stream, the signal is included in a signal having a synchronization character characteristic in the output stream As a method for recovering a transmission error,
A first step of determining whether only one error bit is generated among all the bits when the characters inputted during a predetermined cycle are compared with the synchronization character,
A second step of restoring the one error bit;
And a third step of extracting a synchronization signal using the characters. The method as claimed in claim 1,
The method according to claim 1,
Wherein the signal having the synchronization character characteristic is a control signal. ≪ RTI ID = 0.0 > [10] < / RTI >
3. The method of claim 2,
Wherein the control signal is a preamble signal. ≪ RTI ID = 0.0 > [10] < / RTI >
The method according to claim 1,
Wherein the signal having the synchronization character characteristic is a data guard band or a video guard band. ≪ RTI ID = 0.0 > 18. < / RTI >
The method according to claim 1,
The first step
A step 1-1 of determining whether or not a character input during one cycle is the same as a synchronization character,
If it is determined to be the same as the result of the step 1-1, it is determined whether or not one of the remaining characters inputted during the remaining predetermined cycles is different from the synchronization character by one bit only A method for recovering control signal transmission errors from an H.D.M.E./M.H.L. receiver.
The method according to claim 1,
The first step
A step 1-3 of judging whether or not the character inputted during one cycle is different from the synchronization character by only one bit,
If it is determined that there is a difference only by one bit in the step 1-3, it is determined whether or not remaining characters inputted during the remaining predetermined cycle are the same as the synchronization character A control signal transmission error recovery method in an H.D.

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