KR20050101767A - Digital tv equipped in time-shifted recording function and working method there of - Google Patents

Abstract

In accordance with another aspect of the present invention, there is provided a method of operating a digital television, the method including: receiving a digital broadcast signal through a digital tuner; Decoding and displaying the digital broadcast signal in real time and storing the reconstructed broadcast signal in a RAM used as a main storage device for storing data for a long time; And extracting and displaying the reconstructed broadcast signal stored in the RAM when a trick play request is made by a user.

The method includes receiving an analog broadcast signal through an analog tuner; Simultaneously displaying the analog broadcast signal and converting the analog broadcast signal into a digital broadcast signal by the analog / digital converter unit and storing the reconstructed broadcast signal in a RAM.

Description

Digital TV equipped in Time-Shifted Recording function and working method there of}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to digital television, and more particularly to digital television and a method of operation capable of time shift implementation.

Recently, with the spread of a personal video recorder (PVR) using a hard disk drive (HDD), digital and analog broadcast signals received through a TV or the like are recorded on the storage medium as a storage device. And playback has brought a boom in new broadcast viewing.

Unlike conventional VCRs that store video signals on magnetic tape, the PVR is a new concept of digital recorder that records and reproduces information on a hard disk.The PVR is a fixed time depending on the capacity without a VCR through a HDD built into a set-top box or TV body. It is the next generation recording device that can record a volume of broadcast programs.

The basic function of the PVR is that there is no significant difference from the existing VCR in that the program stored in the broadcasting station is stored and viewed. The difference is that a memory chip containing a CPU), an operating system and playback software, and an HDD are provided.

That is, it consists of a television tuner, storage and playback software, a hard disk drive, and the like, and combines a hard drive used in a computer to convert TV programs into digital signals for storage and playback on a hard disk.

Here, the meaning of storing the digital broadcast data in the hard disk may be considered to be divided into two types of buffering and recording.

Buffering is the automatic storage of the A / V stream type, which is the video signal of the channel being played while not recognized by the user, on the storage media. It says to save.

Here, the video signal A / V stream stored for buffering is data that is automatically deleted from a storage medium, that is, a hard disk when a predetermined time elapses, and the video signal A / V stream for recording is recognized by a user. It is not deleted until it is deleted.

That is, the video signal A / V stream for buffering is stored in a circular file of a hard disk, because it is used to create a file of a certain size and continue to rotate circularly without getting larger than that. The file is automatically deleted from the old one, and the newly buffered A / V stream is stored in the supported location. The video signal A / V stream for recording is stored in the linear file of the hard disk. For example, like a normal recording file, this refers to a file that is not deleted until the user deletes it.

In a PVR, a circular file is generally used as a file for time shifted recording (TSR).

Here, TSR is one of the main functions of the PVR that transforms the pattern of conventional TV viewing by storing and recording the currently broadcasted program on the HDD while watching analog broadcast or digital broadcast on the main screen. The time shift key may indicate the start and end of the time shift operation.

That is, one of the main functions of the digital TV, which changes the pattern of the conventional TV viewing by storing and recording the currently broadcast program in a storage unit while watching an analog broadcast or a digital broadcast on the main screen. It can indicate the start and end of time-shift operation, and it can play various trick play functions such as slow motion, fast motion, reverse motion, replay, etc. can do.

However, as described above, in the conventional case, in order to implement the PVR and TSR functions, there is a limitation that an HDD is essentially provided.

Accordingly, in order to input / output data and control signals between the control unit (MICOM) in the digital TV or the set-top box and the HDD, an interface such as PCI or E-IDE should be provided. There is a problem that a system error may occur due to heat generation.

In addition, a separate preliminary operating time (loading time) occurs for the HDD loading (loading) takes a loading time of about 5 ~ 10 seconds when the user is powered on, in the case of a panel-type digital TV, the weight of the HDD itself Due to the stability may be threatened, there is a disadvantage that the noise caused by the use of the HDD causes the viewer to reject.

The conventional digital TV equipped with such a PVR and TSR function takes a long time until the screen is turned on by a user's request, and also receives a real broadcast, stores it, and plays a trick by the user's request. In order to implement the A / V data fast access (access) is required, but it does not support this properly has the disadvantage.

The present invention stores digital data by applying RAM, a volatile storage medium rather than an HDD, as a storage medium in a digital TV, so that a separate interface is unnecessary for signal input / output with the control unit (MICOM). It is an object of the present invention to provide a digital television and an operation method capable of implementing a time shift capable of quick access and various trick play according to a user's request.

In order to achieve the above object, a digital television operating method capable of implementing time shift according to the present invention comprises the steps of: receiving a digital broadcast signal through a digital tuner; Decoding and displaying the digital broadcast signal in real time and storing the reconstructed broadcast signal in a RAM used as a main storage device for storing data for a long time; And extracting and displaying the reconstructed broadcast signal stored in the RAM when a trick play request is made by a user.

The method includes receiving an analog broadcast signal through an analog tuner; Simultaneously displaying the analog broadcast signal and converting the analog broadcast signal into a digital broadcast signal by the analog / digital converter unit and storing the reconstructed broadcast signal in a RAM.

In addition, the reconstructed broadcast signal is characterized in that the PS (Program Stream) or PES (Packetized Elementary Stream).

The RAM as the main storage device may store data of 20 minutes or more of the reconstructed broadcast signal.

In addition, a digital television capable of time shift implementation according to the present invention comprises: a digital tuner for receiving a digital broadcast signal; A decoding unit for decoding a broadcast signal received from the digital tuner and generating a reconstructed broadcast signal; A RAM for storing the reconstructed broadcast signal; And a control unit for controlling the tuner and the RAM.

An analog tuner for receiving an analog broadcast signal; And an analog / digital converter configured to convert the broadcast signal received from the analog tuner into digital to generate a reconstructed broadcast signal.

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

1 is a block diagram schematically showing the configuration of a digital TV according to an embodiment of the present invention.

Referring to FIG. 1, a TV according to an embodiment of the present invention includes a digital tuner 110 and an analog tuner 112 that receive a digital signal and an analog signal and output the received digital signal and an analog signal NTSC, respectively. And a demultiplexer 120 separating the digital signal input through the digital tuner 110 into an audio and video signal.

The digital voice signal and the video signal separated by the demultiplexer 120 may be processed to be transmitted to the digital storage medium 130 for storing the digital voice signal and the video signal, and the audio DAC 124 may be output. And an MPEG decoder 122 sent to the image processing apparatus 170;

In order to output an analog image signal among the analog signals input through the analog tuner 112 through the display unit 172, a video ADC (Analog-Digital Converter) unit 160 sends a digital image to the image processing unit 170. )Wow;

An analog amplifier 162 to which analog audio signals of the analog signals and digital audio signals analogized through the MPEG decoder 122 and the audio DAC 124 are inputted; A speaker 164 through which the voice signal is output through the analog amplifier 162;

An analog-to-digital converter (ADC) unit 150 for digitizing the analog signal input through the analog tuner 112;

A digital storage medium 130 for storing the digitized analog video / audio signal through the ADC unit 150 and the digital video / audio signal passed through the MPEG decoder 122;

Control unit 140 for controlling the digital storage medium 130, the analog / digital tuners 112 and 110, and the image processing device 170 is included.

Here, the demultiplexer 120 and the MPEG decoder 122 are configured to decode the broadcast signal received from the digital tuner 110 to generate a reconstructed broadcast signal, the reconstructed broadcast signal is a digital storage medium ( 130) is stored in RAM. In the case of the present invention, the RAM 130 serves as a main storage device, which can store data corresponding to a long time of the reconstructed broadcast signal.

In this case, the data corresponding to the long time means data of 20 minutes or more.

That is, the present invention is characterized in that the RAM 130 is used as a main storage device, not as a conventional simple buffer function.

In addition, the ADC unit 150 serves to generate a reconstructed broadcast signal by converting the broadcast signal received from the analog tuner 112 to digital.

The digital TV having such a configuration may implement a time shifted recording (TSR) function through the digital storage medium 130 provided therein.

Here, in the case of the digital TV according to the embodiment of the present invention, since the broadcasts currently provided are not all digital broadcasts, both the digital tuner 110 and the analog tuner 112 are provided.

In addition, the digital storage medium 130 is characterized in that the RAM as a non-volatile storage medium is employed, the signal stored in the RAM is a reconstructed digital video / audio signal, and thus the analog received through the analog tuner 112 The signal is reconstructed and stored in the RAM 130 by the digital video / audio signal converted by the ADC unit 150. In this case, the ADC unit 150 may be configured as an MPEG encoder.

In the conventional case, in order to implement the TSR function, an HDD should be provided in a digital TV or a set-top box such as a PVR, and a TSR function may be implemented using a part of the HDD. However, the present invention provides an HDD in a digital TV. Instead, RAM, which is a nonvolatile storage medium, is used as the digital storage medium, thereby performing various functions of the TSR.

As described above, the TSR refers to a function of modifying a conventional TV viewing pattern by storing and recording a currently broadcast program through reconstruction while watching an analog broadcast or a digital broadcast as a main screen. It can play fast trick play functions such as slow motion, fast motion, reverse motion, and replay, by playing at normal speed and giving a change of speed within the interval.

The TSR function is one of the main functions of the conventional PVR, namely, in order to implement the TSR function in the past, a digital TV or a set-top box had to be provided with an HDD. In this case, many problems as mentioned above have been addressed.

Accordingly, the present invention uses RAM as a digital storage medium that does not include an HDD in the digital TV, occupies less storage space, and does not require an interface with a controller, thereby implementing the TSR function more efficiently.

Hereinafter, the operation of the digital TV according to an embodiment of the present invention will be described in detail.

2 is a flowchart illustrating an operation of a digital TV according to an embodiment of the present invention.

The present invention relates to a digital TV that implements a TSR function. Hereinafter, an operation of the digital TV according to an embodiment of the present invention will be described based on a process of implementing the TSR function.

The operation of the digital TV according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2 as follows.

First, a digital / analog broadcast signal is received through the digital / analog tuners 110 and 112. (ST 200)

That is, the digital broadcast signal is received through the digital tuner, and the analog broadcast signal is received through the analog tuner. As described above, since the currently provided broadcasts are not all digital broadcasts, both the digital tuner 110 and the analog tuner 112 are provided. As described above, the digital broadcasts received through the digital / analog tuners 110 and 112 are provided. Signals and analog broadcast signals are output and displayed in real time through respective processing processes and are stored in the digital storage medium 130, that is, RAM, to implement the TSR function. (ST 210)

First, a process of processing a digital broadcast signal received through the digital tuner 110 will be described. The digital signal input through the digital tuner 110 is separated into a digital audio and video signal through the demultiplexer 120. The digital audio signal and the video signal separated by the demultiplexer (Demux) 120 are processed to be implemented by the MPEG decoder 122, respectively, to store the digital audio signal and the video signal. ), And simultaneously to the audio DAC 124 and the image processing unit 170 to output it in real time.

That is, the received digital broadcast signal is divided into a digital video signal and an audio signal, and then stored in a digital storage medium (RAM) 130 to implement a TSR function for the digital video signal and the audio signal. To display in real time to the output through the display unit 172 and the speaker 164.

As a result, the digital broadcast signal is decoded and displayed in real time, and the reconstructed broadcast signal is stored in the RAM 130.

The digital video / audio signal is output to the viewer in real time, so that the digital audio signal decoded by the MPEG decoder 122 is passed through an audio amplifier (DAC) 124 through an analog amplifier 162 through a speaker ( The digital video signal output to the display unit 164 and decoded by the MPEG decoder 122 may be inputted to the image processor 170 to be output to the display unit 172 through a predetermined process. The digital video / audio signal stored in the digital storage medium 130 is finally output to the viewer through the above process even when the TSR function is selected by the user. (ST 220)

That is, when a trick play is requested by a user, the reconstructed broadcast signal stored in the RAM 130 is extracted and displayed.

Here, the reconstructed broadcast signal is PS (Program Stream) or PES (Packetized Elementary Stream).

In this case, however, since the digital video / audio signal is stored in the digital storage medium (RAM) 130, the slow motion and the fast motion are reproduced by changing the speed and changing the speed at the normal speed in the recorded section. You will be able to quickly perform various TSR functions, such as various trick play functions such as reverse action and replay.

Next, a process of processing the digital broadcast signal received through the analog tuner 112 will be described.

 In the analog broadcast signal received through the analog tuner 112, the signal is output to the viewer in real time, the analog video signal of the analog signal digital imaging through a video analog-to-digital converter (ADC) 160 Is input to the image processing unit 170, and is output through the display unit 172, the analog voice signal is made through a process that is output to the outside through the analog amplifier 162 and the speaker 164,

In addition, the analog broadcast signal is stored to implement the TSR function, the analog-to-digital converter (Analog-Digital Converter, ADC) unit 150 for digitizing the received analog broadcast signal, the ADC unit 150 The digitized analog video / audio signal is stored in the digital storage medium (RAM) 130.

That is, the analog broadcast signal is displayed in real time, and the broadcast signal converted and reconstructed by the ADC unit 150 is stored in the RAM 130 which is the digital storage medium.

The reconstructed broadcast signal may be a PS (Program Stream) or a PES (Packetized Elementary Stream). However, the digitized analog video / audio signal stored in the digital storage medium (RAM) 130 may be When the TSR function according to the user's selection is implemented and outputted, the same process as that of the digital broadcasting signal is output.

That is, the digitized voice signal through the MPEG decoder 122 is output to the speaker 164 through an analog amplifier 162 through an audio digital analog converter (DAC) 124, and the digitized video signal is an image processor. It is implemented through a process that is input to the 170 and output to the display unit 172 through a predetermined process. (ST 220)

In this case, however, since the digital video / audio signal is stored in the digital storage medium, the slow motion, the fast motion, the reverse motion, and the replay of the video at the normal speed and the speed change in the recorded section are reproduced. Various TSR functions such as various trick play functions can be performed quickly.

According to the present invention, by storing the digital data by applying a RAM, which is a volatile storage medium instead of an HDD as a storage medium, a separate interface is unnecessary for signal input / output with the control unit MICOM, Quick access is available, enabling quick trick play according to user requests.

In addition, the system generates less heat and minimizes the error rate of the system. In the case of the panel-type digital TV, it is possible to realize a light weight, less noise, and a shorter loading time.

1 is a block diagram schematically showing the configuration of a digital TV according to an embodiment of the present invention.

2 is a flowchart illustrating the operation of a digital TV according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: digital tuner 112: analog tuner

130: digital storage medium 140: control unit

150: ADC unit

Claims (6)

Receiving a digital broadcast signal through a digital tuner; Decoding and displaying the digital broadcast signal in real time and storing the reconstructed broadcast signal in a RAM used as a main storage device for storing data for a long time; And extracting and displaying the corresponding reconstructed broadcast signal stored in the RAM when a trick play request is made by a user. The method of claim 1, Receiving an analog broadcast signal through an analog tuner; And displaying the analog broadcast signal in real time, and converting the analog broadcast signal into a digital broadcast signal by an analog / digital converter unit and storing the reconstructed broadcast signal in a RAM. Way. The method of claim 1, And the reconstructed broadcast signal is PS (Program Stream) or PES (Packetized Elementary Stream). The method of claim 1, And a RAM as the main storage device capable of storing data of 20 minutes or more of the reconstructed broadcast signal. A digital tuner for receiving a digital broadcast signal; A decoding unit for decoding a broadcast signal received from the digital tuner and generating a reconstructed broadcast signal; A RAM for storing the reconstructed broadcast signal; And a control unit for controlling the tuner and the RAM. The method of claim 5, An analog tuner for receiving an analog broadcast signal; And an analog / digital converter configured to convert the broadcast signal received from the analog tuner into digital to generate a reconstructed broadcast signal.