KR100267225B1 - digital broadcasting receivable digital recording/reproducing device - Google Patents

Abstract

The present invention relates to a device that enables recording and reproducing of digital broadcast data directly to a digital VR. In particular, a digital broadcast receiver and a digital VCR are integrally formed in one housing, and the digital broadcast received by the digital broadcast receiver is parallel. By recording and reproducing digitally as it is, it is possible to reduce the cost and to record and reproduce in high quality. Also, the error flag information generated by the digital broadcasting receiver can be recorded on the digital VCR and used for error correction during reproduction. During display, the weights of I, P, and B pictures are differently decoded according to the error flag information for each frame, and the error flag information generated during the recording / reproducing process of the digital VCR is displayed on the display device to inform the user. Error correction and data Product performance can be improved by reducing coding and user dissatisfaction, and by performing data input / output between the digital broadcast receiver and the digital VCR in parallel, a separate interface device is not required and the cost can be reduced.

Description

Digital broadcasting receivable digital recording / reproducing device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital recording / reproducing apparatus capable of digital broadcast reception, which enables recording and reproducing of digital broadcast data to a direct digital video cassette recorder (VCR).

Since the launch of NTSC-style color TV in the United States in 54, TV has played a pivotal role as the most intimate source of information and entertainment for people. In addition, from the technical point of view, the TV was a series of studies to provide the best picture quality on the largest screen. Digital TV was introduced by this process. In other words, as household color TVs are getting bigger and bigger, the home appliance industry faces some technical limitations, and it is difficult to realize clear screens on ultra-large TVs larger than 40 inches by existing broadcasting and receiver standards. Is not appropriate is the background of the emergence of digital TV. To overcome these limitations, High Definition (HD) TV development project started in the 60s under the leadership of the global consumer electronics and broadcasting industries.

Since then, the broadcasting and telecommunications of Korea and other countries have been continually seeking to focus on digitalization. In other words, digital broadcasting, which uses digital compression technology to digitally transmit broadcast programs, is commercially available or will be commercialized in Korea, the United States, Europe, and Asia through satellite broadcasting, cable broadcasting, and terrestrial broadcasting. The benefits of these digital broadcasts, where they are competing, are complex. HDTV is considered as the most perfect product in the age of multimedia because of its advantages such as being able to provide various and clear communication services as well as better quality and sound quality than TVs like NTSC.

In other words, the advantages of digital broadcasting are clear picture quality and sound quality. This is because the video and audio data are put on the radio wave and displayed again, that is, all the processes such as modulation and demodulation are performed digitally, and thus there is no room for miscellaneous signals. In addition, the digital noise resistance means that the broadcasting service can be provided with a transmission power of about one hundredth of that of the analog method from the broadcasting station.

The second advantage of digital broadcasting is multichannelization. In the analog broadcasting method, only one program can be transmitted in a 6 MHz bandwidth, but digital broadcasting can send four programs in the same bandwidth. Digital broadcasting can guarantee this many channels because it adopts MPEG2 technology (eg, the United States) that can compress and restore video and audio at high density. In other words, according to digital broadcasting, one broadcasting channel can be increased up to four to ten, and thus fixed frequency resources can be used more efficiently.

In addition, depending on the interference between channels, even channels not used in analog broadcasting can be used in digital broadcasting, and multiple programs can be transmitted simultaneously on one channel, thereby increasing frequency efficiency. In addition, digital broadcasting is expected to affect various other industries derived from information and communication, and the effects on the computer, film, and software sectors are expected to be large, and the problem of astigmatism is easily solved. .

Accordingly, viewers can not only receive high quality, multi-channel broadcasting services but also use new additional services such as data broadcasting. Broadcasters will also have the opportunity to develop into a multi-media company by enabling multi-dimensional use of specialized paid broadcasting, interactive services, and broadcasting software. On the industrial side, new demand can be created in the digital TV receiver and transmitter market, which can be expected to activate the ICT and video industry. Nationally, the efficiency of frequency use is greatly improved, which can solve the shortage of broadcasting channels.

The standard of digital broadcasting generally has three flows, and the United States, Europe, and Japan each have their own broadcasting methods and standards to promote standardization. Advanced Television Systems Committe (ATSC), a US standard, uses single carrier 8-VSB (Vestigial Side Bands) transmission, SDTV / HDTV combined MPEG 2 standard for video compression, and audio compression. It is based on the Dolby AC-3 standard. In Korea, digital satellite broadcasting is based on DVB-S (Satellite), while the digital terrestrial broadcasting standard follows the American method described above.

Thanks to this trend, the home appliance industry is actively promoting the development of a digital video cassette recorder (VCR) that records and plays digital broadcast programs digitally. All of these devices receive images from digital broadcasts or the Internet. When the camera enters the video, the analog video is converted back to digital recording. In addition, an interface means is required for data transmission with an external digital TV in the digital VCR.

However, in the related art, the digital receiver and the digital VCR for receiving the digital broadcast are configured as separate devices, respectively, so that the cost is increased and the two systems must be controlled by separate remote control or key input. There is a problem.

In addition, since a digital broadcast receiver and a digital VCR are configured as serial interfaces, an expensive interface device such as an IEEE 1394 interface is required. Also, since error information is not exchanged between the digital broadcast receiver and the digital VCR, information on display is insufficient. There is a problem that the data can not be restored properly.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to upgrade an interface for transmitting a signal between a digital broadcast receiving device and a digital VCR to convert a digital image received by the digital broadcast receiving device into a digital direct VCR. Disclosed is a digital recording / reproducing apparatus capable of receiving a digital broadcast.

Another object of the present invention is to provide a digital recording / reproducing apparatus capable of receiving a low cost and controlling digital broadcast by integrating the digital broadcasting receiver and the digital VCR apparatus.

It is still another object of the present invention to provide a digital recording / reproducing apparatus capable of receiving digital broadcasting, which records error information of digital broadcasting reception data in a digital VCR and utilizes the same in reproduction.

It is still another object of the present invention to provide a digital recording / reproducing apparatus capable of receiving digital broadcasts for displaying error information generated during recording / reproducing in a digital VCR.

It is still another object of the present invention to provide a digital broadcast receiving / receiving digital recording / reproducing apparatus which simplifies packet information and error information for converting into a digital broadcast receiving device and a digital VCR data format into a complex interface format.

1 is a block diagram of a digital recording / playback apparatus capable of receiving digital broadcasting according to the present invention;

FIG. 2 is a detailed block diagram of a receiver of the digital broadcast receiver of FIG. 1. FIG.

3 is a detailed block diagram of an ECC unit of the digital VCR of FIG.

4A to 4D are operation timing diagrams of the parts of FIG. 2.

5A is a structural diagram of a data area recorded in one track of a tape

FIG. 5B is a block diagram of a main data sync block of a main code area of the data area of FIG. 5A; FIG.

5C is a main data sync block structure diagram in MPEG 2 mode;

Explanation of symbols for main parts of the drawings

10: digital broadcast receiving device 11: receiving unit

12: multiplexer 13: transport demultiplexer

14: Micom 15: Video Decoder

16: Audio Decoder 20: Digital VCR

21: ECC unit 22: formatter / deformatter

23: modulation / demodulation section 24: recording / playback amplifier

31: VSB demodulator

32: packet synchronization detection and data valid signal generator

33: ECC

According to a first embodiment of a digital broadcasting / recording / reproducing apparatus according to the present invention for achieving the above object, when a digital broadcasting signal is received through an antenna, tuning and demodulation are performed to output one channel data in parallel. At the same time, it detects a packet synchronization indicating the start of a packet and selects one of a receiver generating a data valid signal that distinguishes pure data using the packet synchronization, and a program multiplexed on a channel tuned by the receiver. A digital broadcast receiver comprising a transport demultiplexer for separating video and audio signals, a decoder for decoding a video and audio signal of a program selected by the transport demultiplexer, respectively, and outputting the decoded video and audio signals to a display device and a speaker; Output data from Received by the signal de input the parallel data in packets is characterized by consisting of a digital storage / playback apparatus for recording on a recording medium and then adding a parity code, the synchronization signal / ID and playback in the reverse process of the recording.

The digital broadcast receiving device and the digital storage / reproducing device may be integrated into one housing.

And a selector configured to selectively output the output data of the receiver when viewing the digital broadcast received between the receiver and the transport demultiplexer, and the playback data of the digital storage / reproducing apparatus when the recorded signal is to be reproduced. It is done.

According to a second embodiment of a digital recording / reproducing apparatus capable of receiving digital broadcasting according to the present invention, when a digital broadcasting signal is received through an antenna, tuning and demodulation are performed to output one channel data in parallel and to start one packet. A receiver for detecting packet synchronization to be notified, a transport demultiplexer for selecting one of the programs multiplexed on the channel tuned by the receiver, and separating the video and audio signals, and a video and audio signal of a program selected by the transport demultiplexer, respectively. A digital broadcast receiver including a decoding unit for decoding and a data broadcast signal for distinguishing pure data using packet synchronization output from the digital broadcast receiver and a digital broadcast receiver using the generated data valid signal. Per packet from Receiving the data is characterized by consisting of a digital storage / playback apparatus for recording on a recording medium and then adding a parity code, the synchronization signal / ID and playback in the reverse process of the recording.

A third embodiment of a digital recording / reproducing apparatus capable of receiving digital broadcasting according to the present invention comprises: a receiving unit for parallelly outputting data of one channel by performing tuning and demodulation when a digital broadcasting signal is received through an antenna; A transport demultiplexer for selecting one of the programs multiplexed in the tuned channel and separating the video and audio signals, and a decoding unit for decoding the video and audio signals of the program selected by the transport demultiplexer and outputting the decoded video and audio signals to the display device and the speaker, respectively. A digital broadcast receiver, a recorder for receiving parallel data in packet units from the digital broadcast receiver, adding a parity code and a sync signal / ID, and recording the same on a recording medium; Detect added sync signal / ID Performing error correction of the raw data, and then causing the error flag, the error flag information with a corrected reproduced data characterized by consisting of a digital storage and / or reproducing apparatus comprising reproducing to step for outputting to the digital broadcast receiver.

Selecting and outputting the output data of the receiver when viewing the digital broadcast received between the receiver and the transport demultiplexer, and the playback data and error flag information of the digital storage / reproducing apparatus when the recorded signal is to be played back. An additional feature is provided.

The decoding unit may display error flag information output from the digital storage / reproducing apparatus on a display apparatus.

According to a fourth embodiment of a digital recording / reproducing apparatus for receiving digital broadcasting according to the present invention, when a digital broadcasting signal is received through an antenna, tuning, demodulation, and error correction are performed to generate an error flag and then perform an error flag information. A receiver for outputting the correction data of the channel in parallel, a transport demultiplexer for selecting one of the programs multiplexed on the channel tuned by the receiver and separating the video and audio signals into video and audio of the program selected by the transport demultiplexer; A digital broadcast receiving device including a decoding unit for decoding a signal and outputting the signal to a display device and a speaker, and receiving parallel data and error flag information in packet units from the digital broadcast receiving device. The parallel data includes a parity code and a synchronization signal / ID. Add an error The flag information is stored in a specific area of data and then recorded on a recording medium, and a sync signal / ID added during recording is detected from the data reproduced through the recording medium, and error correction of the reproduced data is performed to generate an error flag. And at the same time, a digital recording / reproducing apparatus comprising a reproducing system which detects error flag information inserted into a specific area of data during recording and outputs the generated and detected error flag information to the digital broadcast receiving apparatus together with corrected reproduction data. Characterized in that consisting of.

The digital storage / reproducing apparatus adds a parity code to the parallel data input at the time of recording, and at the time of recording, performs an error correction of the reproduced data by using the parity code added at the time of recording and generates error flag information. An error information insertion and detection unit for inserting error flag information output from the digital broadcast receiving apparatus into a specific portion of data and detecting the same during playback, and an error flag or error information generated and generated by the ECC during playback. And a logic unit for logically combining the error flag information and outputting the logic flag information to the digital broadcasting receiver.

The ECC is characterized in that the error flag information detected by the error information insertion and detection unit is used as a control signal for error correction of reproduction data.

When viewing the digital broadcast received between the receiver and the transport demultiplexer, the parallel data and the error flag information of the selected channel output from the receiver are output, and the digital storage / reproduction device is output when the recorded signal is desired. And a selection unit for selectively outputting reproduction data and error flag information.

The decoding unit may use error flag information generated by the digital broadcast receiving apparatus to decode the video signal.

The decoding unit may display error flag information generated in the process of storing and reproducing the digital storage / reproducing apparatus on a display apparatus.

The receiving unit of the digital broadcasting receiver generates a logic signal only at the beginning of the packet if the number of errors generated in the received digital broadcasting data is within the correcting capability. The error flag and the packet synchronization are output simultaneously on the line.

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

FIG. 1 is a block diagram of a digital recording / reproducing apparatus capable of receiving digital broadcasting according to the present invention, and records data received by the digital broadcasting receiving apparatus 10 and the digital broadcasting receiving apparatus 10 as they are. The digital VCR 20 is integrated into one system.

When the digital broadcast signal is received through the antenna, the digital broadcast reception device 10 performs a demodulation, tuning, error correction code (ECC), synchronization detection, etc., a receiver 11 and channel data tuned by the receiver 11. Or a multiplexer 12 for selectively outputting data reproduced by the digital VCR 20, and when a program is multiplexed to a channel output through the multiplexer 12, one program is selected and a video signal of the selected program is selected. A transport demultiplexer 13 for separating audio and audio signals, an input selection of the multiplexer 12 according to a user's request, a program selection of the transport demultiplexer 13, and separation of a video / audio signal A microcomputer 14 for controlling the video decoder 15, a video decoder 15 for decoding the video signal outputted separately from the transport demultiplexer 13, and O it consists of the audio decoder 17 for decoding the signal.

In this case, the video signal decoded by the video decoder 15 is output to the display unit 30, and the audio signal decoded by the audio decoder 16 is output to the speaker 40.

The transport demultiplexer 13 selects a desired program from among a plurality of programs included in a channel tuned and output by the receiver 11 under the control of the microcomputer 14, and then selects a desired program to view the selected program. The video and audio are separated and output to the video decoder 15 and the audio decoder 16, respectively, and if desired, recording is output to the digital VCR 20 in the form of MPEG transport packets. That is, transport packets of various programs are mixed in the channel tuned by the reception unit 11, and if only one program is selected in the transport demultiplexer 13, only transport packets of one program are selected and the video decoder 15 or the digital It is output to the VCR 20.

If it is assumed that the received digital broadcast signal is MPEG data transmitted in a residual side band (VSB) method, the receiver 11 performs VSB demodulation, and the video decoder 15 performs a HDB signal. If so, MPEG 2-main profile @ high level (MPEG 2-MP @ HL) decoding is performed. And, if the SD level, MPEG 2-SP @ ML level (MPEG 2-SP @ ML) or main profile @ low level (MPEG 2-MP @ LL) decoding may be performed. On the other hand, the audio decoder 16 can decode using Dolby's AC-3 method. The AC-3 method is adopted for the ATV audio system of the US HDTV, and has a 5.1-channel compression function suitable for digitally compressing Dolby Surround of Dolby Corporation.

The video decoder 15 and the audio decoder 16 differ in the method of transmission and compression of digital broadcast signals, and the method of decoding according to the adopted standard.

Meanwhile, as shown in FIG. 2, the receiver 11 selects one channel by tuning among a plurality of channels received through an antenna, performs VSB demodulation, and outputs 8 bits of parallel data and 1 bit of clock. A clock generator 52 which generates and supplies a 27 MHz clock to the VSB demodulator 51, a packet sync (PS1) inserted into data output from the VSB decoder 51; A packet sync detection and data valid signal generator 53 for detecting and generating a data valid (DV1) signal using the packet sync PS1, and the packet sync detection and data valid signal generator It consists of an ECC unit 54 which generates an error flag signal EF1 by performing error correction on a transport packet basis using the packet synchronization PS1 and the data valid signal DV1 generated at 53. .

That is, the 8-bit parallel data output from the VSB decoder 51 is a structure of an MPEG 2 transport stream. In general, an MPEG 2 transport stream is composed of packets having a length of 188 bytes, and these packets are all 4 It has a packet header of bytes. The first 1 byte of this packet header is a sync byte and has the same value Ox47 for all packets as shown in Fig. 4C. Therefore, the packet synchronization detection and data valid signal generator 53 must find the packet synchronization PS1 that is regularly repeated every 188 bytes as shown in FIG. 4B so that the start of all input packets can be known, and the transport demultiplexer ( 13) can normally perform the demultiplexing process. In addition, the data valid signal DV1 is a signal for distinguishing only pure data portions excluding additional data such as parity signals in one packet, and may be generated by counting from the detected packet synchronization PS1 to 188. In other words, the MPEG transport stream has 188 bytes of main data plus 20 bytes of inner and outer parity codes. Parity codes are required only for ECC decoding. Code signal (DV1). The error flag signal EF1 as shown in FIG. 4D distinguishes whether or not there is an error in the packet of correction data. That is, if the number of errors generated in one packet is within the correction capability, all errors are corrected when ECC is performed, and there is no error in the output data. However, if the error is out of the correction capability range, the error remains. Therefore, even after performing ECC, if an error remains or the number of errors generated in one packet is out of the correction capability, an error flag EF1 is set and output during the packet.

Accordingly, the packet synchronization detection and data valid signal generator 53 outputs 8 bits of parallel data, 1 bit of clock, 1 bit of packet synchronization PS1, and 1 bit of data valid signal DV1. In the ECC unit 54, an error flag signal EF1 of 1 bit is further added to the four signals and output to the transport demultiplexer 13 through the multiplexer 12.

The transport demultiplexer 13 selects only one program selected by a user from among multiple programs multiplexed on one channel under the control of the microcomputer 14, and then the data, clock, packet synchronization signal PS1, and data valley of the program. The video signal 15 and the error flag signal EF1 to the video decoder 15 for viewing, the digital VCR 20 for recording, and the video decoder 15 for viewing and recording at the same time. ) And digital VCR 20 at the same time.

Meanwhile, the digital VCR 20 adds a parity code to main data of one packet by using the packet synchronization signal PS1 and the data valid signal DV1 output from the transport demultiplexer 13, and at the same time, ECC unit 21 for recording the error flag signal EF1 output from the digital broadcast receiving apparatus 10 into a specific portion of data, and a synchronization signal and identification (ID) to the data to which the parity code is added in the ECC unit 21. A formatter 22 which converts the output of the formatter 22 into a non-return-to form, which is converted into data having a fixed data rate suitable for recording on a tape after adding to a sync block which is a recording format. Zero, Inverted (NRZI) modulator 23 is modulated, and a recorder 24 is configured to amplify the modulated signal from the modulator 23, and then record on a tape through the head and the deck. In addition, since the playback is performed in the reverse process at the time of recording, the playback system can also use each block of the recording system. That is, the reproducing system records the reproduction amplifier 24 which amplifies the signal reproduced from the tape through the head and the deck, the demodulator 23 which INRZI demodulates the amplified signal, and the signal demodulated by the demodulator 23. De-formatter 22 which detects the added sync signal and ID and converts it to the original variable data rate, and detects error flag information generated in digital broadcast receiving apparatus 10 from the output of deformatter 22. At the same time, it consists of an ECC unit 21 for performing error correction on the output data of the deformatter 22 to generate an error flag.

As illustrated in FIG. 3, the ECC unit 21 adds a parity code to the main data of parallel during recording and generates an error flag by performing error correction of the reproduced data using the parity code added during recording. An ECC 61 to record the error flag information output from the transport demultiplexer 13 at the time of recording into a specific part of the data and to detect it at the time of reproduction; ) Is composed of a logic unit 63 which logically combines the error information generated by the error flag or the error information detected by the error information insertion and detection unit 62 and outputs the result to the multiplexer 12. It can be configured as a gate.

In other words, parallel data in the form of a transport packet, a 27 MHz clock, a packet synchronization PS1, a data valid signal DV1, and an error from the transport demultiplexer 13 are controlled by the microcomputer 14 at the time of recording. When the flag EF1 is output to the digital VCR 20, the ECC 61 of the ECC unit 21 detects only pure data using the data valid signal DV1 and adds a parity code to the formatter 22. Output The error information insertion and detection unit 62 stores the error flag EF1 information generated by the digital broadcast reception device 10 in a specific portion of the data and outputs the information to the formatter 22. For example, the error flag EF1 information may be recorded by allocating 1 bit to a specific portion or a header portion of the main data.

FIG. 5 shows a structure of data in which parity, sync signal / ID, etc. are added to pure data, and FIG. 5A shows a data area recorded in one track of a tape, which is divided into a sub code area and a main code area. There is a margin in between. Here, the sub code area includes index information, double speed information, etc. as an additional area, and the main code area is composed of a main data sync block, and contains video information constituting a screen. 5B shows a main data sync block structure of a main code area, and includes sync, ID, main data, and internal parity. One main data sync block has 99 symbols of main data and 8 symbols of internal parity, and one symbol consists of 8 bits. FIG. 5C is a main data sync block structure in MPEG 2 mode, similar to FIG. 5B except that the first two bytes of the main data in each sync block are allocated to the main header and the next 1 byte is assigned to Data-AUX.

If the data valid signal DV1 is not output from the transport demultiplexer 13 or an error occurs, the ECC 61 may generate a data valid signal using packet synchronization PS1 to distinguish only pure data. have.

Since the parity code is added by the ECC unit 21 and output, the sync signal, ID, etc., which are predefined in the formatter 22, are added and converted into a sync block, thereby increasing the data rate and digitally. Since the VCR is a device for recording / reproducing at a constant rate to stabilize the system, the formatter 22 converts data having a fixed data rate and outputs it to the modulator 23. The modulator 23 is an NRZI modulator that inverts data in a signal of '1' and performs NRZI modulation that inverts the current state when '1' is met. The signal NRZI modulated by the modulator 23 is amplified by the recording amplifier 24 and then recorded on the tape through the head and the deck.

In this case, the head and the deck are arranged on the rotating drum to be used in combination with the digital head or the analog head and the digital dedicated head on the rotating drum to record / play both analog and digital signals. . In other words, the head and the deck, in addition to the wide standard mode dedicated head pair having azimuth inverse to each other, the narrow long mode dedicated head pair is disposed at right angles on the rotating drum to be responsible for recording and reproducing analog signals. The long time mode dedicated head pair may be combined for digital use so as to be responsible for recording and reproducing digital signals, or in addition to the wide standard mode dedicated head pair having azimuth in reverse, a narrow long mode dedicated head pair is rotated in a drum. A digital signal is recorded by arranging at a right angle on the digital signal head for recording and reproducing analog signals, and by arranging a digital dedicated head pair having a phase angle of a predetermined angle (for example, 60 degrees) on the same rotational surface as the standard mode dedicated head pair. And in charge of regeneration.

As described above, since the digital VCR 20 can record both video and audio signals on a magnetic tape digitally, the image quality of the digital VCR 20 changes even if recorded and played back many times, unlike the conventional analog VCR which records and reproduces electromagnetic waves as they are. There is no And because it uses digital signals, it can be used with computers and can be connected to digital high definition televisions (HDTVs) for high-definition video.

On the other hand, the reproducing process may be performed in the reverse process as described above. That is, the signal reproduced on the tape through the head and the deck is amplified by the reproduction amplifier 24, and then demodulated through the demodulator 23 to the INRZI demodulated and outputted to the deformatter 22. The formatter 22 detects the synchronization signal and ID added during recording, converts the data to the original variable data rate, and outputs the data to the ECC 61 of the ECC unit 21. The ECC 61 Error correction is performed on the reproduction data output from the formatter 22 to generate an error flag. Then, the error information inserting and detecting section 62 detects error flag information of the receiving apparatus which has recorded one bit by assigning one bit to a specific portion or header portion of the data at the time of recording. The error flag information detected by the error information insertion detector 62 may be output to the ECC 51 and used as a control signal when correcting an error. That is, since the packet is already a packet in which an error has occurred in the receiving device, if the error correction is performed on the packet, it may be miscorrected. In this case, the error correction may be skipped. In addition, the error flag information detected by the error information insertion and detection unit 62 is logically combined with the error flag information generated by the ECC 61 and the logic unit 63 and output to the multiplexer 12.

The multiplexer 12 selects the reproduction data and the error flag information output from the digital VCR 20 and outputs them to the transport demultiplexer 13 under the control of the microcomputer 14 in the case of reproduction. The transport demultiplexer 13 separates the playback data into a video and audio signal under the control of the microcomputer 14 and outputs them to the video decoder 15 and the audio decoder 16, respectively. The video decoder 15 performs MPEG 2-MPHL decoding on the video signal and outputs it to the display unit 30, and the audio decoder 16 performs Dolby AC-3 decoding and outputs the speaker 40. At this time, if the error flag information indicates that an error has occurred, the video decoder 15 may determine whether the error flag information is generated in the digital broadcast reception apparatus 10 or at the time of recording / reproducing of the digital VCR 20. Perform the action. That is, if the error flag information is error flag information generated during recording / reproducing of the digital VCR 20, the error flag information is displayed on the display unit 30 so that the user recognizes that an error has occurred in the recording / reproducing process. A / S) and the like, and if the error flag information generated in the digital broadcasting reception device 10 is different, the weights of the I, P, and B pictures of the packet may be changed to perform accurate decoding.

Meanwhile, the present invention may share the error flag signal and the packet synchronization signal PS1 to perform two roles in one line, that is, the output of the error flag and the packet synchronization signal PS1. That is, if an error does not occur in the digital broadcasting reception apparatus 10, a high signal is generated only once at the beginning of the packet like a packet synchronization signal, and if an error out of the error correction capability occurs, the state is maintained for the packet. Generate an error flag signal EF1 of high or low. At this time, if the signal input through the shared line is high only once at the beginning of the packet, the digital VCR 20 determines that part as a packet synchronization signal, and an error flag is generated if the entire packet is high or low. It is determined that the operation is performed and the corresponding operation is performed.

In the present invention, the digital broadcast may be a digital terrestrial broadcast, or may be a digital satellite broadcast, and the digital broadcast receiver 10 may receive all of the HD, SD, and terrestrial broadcast signals that are digitally broadcast.

Therefore, the present invention is attracting attention as a new AV device in the multimedia era since the digital broadcasting contents can be recorded and played back without additional hardware. That is, because the digitally broadcast video can be recorded as it is, it is possible to simultaneously record and play back in high quality without additional costs.

It goes without saying that the present invention can be applied to a disc recording / reproducing apparatus of DVCR or DVD.

As described above, according to the digital recording / reproducing apparatus capable of receiving digital broadcasting according to the present invention, the digital broadcasting receiving apparatus and the digital VCR are integrally formed in one housing, and the digital broadcasting received by the digital broadcasting receiving apparatus is digital as it is. By recording and reproducing, it is possible to reduce the cost and to perform high quality recording and reproducing. In addition, since the digital broadcast receiver and the digital VCR are integrated into one system, the digital broadcast receiver and the digital VCR can be controlled by one remote control or key input, thereby providing convenience to the user.

The error information generated from the digital broadcast reception data is recorded on the digital VCR to be used for error correction during reproduction, and the weights of the I, P, and B pictures are decoded according to the error information for each frame during display. The error information generated during the recording / reproducing process is notified to the user at the time of display, so that accurate error correction, data decoding, and user dissatisfaction can be reduced, thereby improving product performance. In addition, by performing data input / output between the digital broadcast reception device and the digital VCR in parallel, a separate interface device is not required, and the cost can be reduced.

Claims (21)

When digital broadcasting signal is received through an antenna, tuning and demodulation are performed to output one channel data in parallel, and to detect packet synchronization indicating the start of one packet and to identify pure data using the packet synchronization. A receiver for generating a signal, a transport demultiplexer for selecting one of the programs multiplexed on the channel tuned by the receiver, and separating the video and audio signals, and decoding the video and audio signals of the program selected by the transport demultiplexer, respectively. A digital broadcast receiving device including a display device and a decoder for outputting to a speaker; Digital storage / playback for receiving parallel data in packet units using a data valid signal outputted from the digital broadcasting receiver, adding a parity code and a sync signal / ID, recording the recording medium on a recording medium, and playing back in the reverse process of recording. Digital recording / playback apparatus capable of receiving digital broadcasts, characterized in that consisting of a device. The digital recording / reproducing apparatus as claimed in claim 1, wherein the digital broadcasting receiving apparatus and the digital storage / reproducing apparatus are integrally formed in one housing. The method of claim 1, And a selector for selecting and outputting the output data of the receiver when viewing the received digital broadcast and the playback data of the digital storage / reproducing apparatus when playing the recorded signal is further included between the receiver and the transport demultiplexer. Digital recording / playback device capable of receiving digital broadcasts. When a digital broadcast signal is received through an antenna, the receiver performs tuning and demodulation to output one channel data in parallel, and detects packet synchronization indicating the start of a packet. A digital broadcast receiver including a transport demultiplexer for selecting one into a video and audio signal, and a decoding unit for decoding the video and audio signals of the program selected by the transport demultiplexer, respectively; Generating a data valid signal for distinguishing pure data by using the packet synchronization output from the digital broadcast receiving apparatus, and receiving parallel data in packet units from the digital broadcasting receiving apparatus using the generated data valid signal, the parity code; And a digital storage / reproducing apparatus which adds a synchronous signal / ID, records on a recording medium, and reproduces in reverse process of recording. The digital recording / reproducing apparatus as claimed in claim 4, wherein the digital broadcasting receiving apparatus and the digital storage / reproducing apparatus are integrally formed in one housing. The method of claim 4, wherein And a selector for selecting and outputting the output data of the receiver when viewing the received digital broadcast and the playback data of the digital storage / reproducing apparatus when playing the recorded signal is further included between the receiver and the transport demultiplexer. Digital recording / playback device capable of receiving digital broadcasts. When a digital broadcast signal is received through an antenna, the receiver performs tuning and demodulation to output data of one channel in parallel, and a transformer that selects one of the programs multiplexed on the tuned channel and separates the video and audio signals. A digital broadcast reception device including a port demultiplexer and a decoder configured to decode video and audio signals of a program selected by the transport demultiplexer and output the decoded video and audio signals to a display device and a speaker, respectively; A parallel system receives parallel data from the digital broadcasting receiver in a unit of packet, adds a parity code, a sync signal / ID, and records the recording system on a recording medium, and a sync signal / ID added at the time of recording from the data reproduced through the recording medium. And a digital storage / playback device comprising a playback system that detects and performs error correction of the playback data to generate an error flag and then outputs error flag information to the digital broadcast receiver with the corrected playback data. Receivable digital recording / playback device. 8. The digital recording / reproducing apparatus as claimed in claim 7, wherein the digital broadcasting receiving apparatus and the digital storage / reproducing apparatus are integrally formed in one housing. The method of claim 7, wherein A selector for selecting and outputting the output data of the receiver for viewing the received digital broadcast and the playback data and error flag information of the digital storage / reproducing apparatus for reproducing the recorded signal, between the receiver and the transport demultiplexer. Digital recording / playback apparatus capable of receiving a digital broadcast, characterized in that it is further included. The method of claim 9, wherein the decoding unit And digital display receiving the error flag information output from the digital storage / playback device on a display device. When a digital broadcast signal is received through an antenna, the receiver performs tuning, demodulation, and error correction to generate an error flag, and then outputs correction data of one channel in parallel with the error flag information, and multiplexes the channel tuned by the receiver. And a transport demultiplexer for selecting one of the selected programs into video and audio signals, and a decoding unit for decoding the video and audio signals of the program selected by the transport demultiplexer, respectively, and outputting the decoded video and audio signals to a display device and a speaker. Wow; A recorder that receives parallel data and error flag information from the digital broadcasting receiver in unit of packet, adds a parity code and a sync signal / ID to the parallel data, and stores the error flag information in a specific area of the data and then records the data on a recording medium; To detect the synchronization signal / ID added during recording from the data reproduced through the recording medium, perform error correction of the reproduction data to generate an error flag, and at the same time detect error flag information inserted into a specific area of the data during recording. And a digital storage / playback device comprising a playback system for outputting the generated and detected error flag information to the digital broadcast reception device together with the corrected playback data. The digital recording / reproducing apparatus as claimed in claim 11, wherein the digital broadcasting receiving apparatus and the digital storage / reproducing apparatus are integrally formed in one housing. 12. The apparatus of claim 11, wherein the digital storage / playback device is An ECC which adds a parity code to the input parallel data at the time of recording and performs error correction of the reproduction data using the parity code added at the time of recording to generate error flag information; An error information inserting and detecting unit for inserting error flag information output from the digital broadcast receiving apparatus into a specific portion of data during recording and detecting the same during playback; At the time of reproduction, the digital recording / reproduction capable of digital broadcast reception further includes a logic unit which logically combines the error flag generated by the ECC or the error flag information detected by the error information insertion and detection unit and outputs it to the digital broadcast receiver. Device. The method of claim 13, wherein the ECC is And error flag information detected by the error information insertion and detection unit as a control signal for error correction of reproduction data. The method of claim 13, wherein the error information insertion and detection unit And storing the error flag information generated by the digital broadcasting receiver by assigning a predetermined bit to a specific portion of the main data. The method of claim 13, wherein the error information insertion and detection unit And storing the error flag information generated by the digital broadcasting receiver by assigning a predetermined bit to a specific portion of the main header. The method of claim 11, If you want to watch the received digital broadcast, select the parallel data and error flag information of the selected channel output from the receiver, and if you want to play the recorded signal, select the playback data and error flag information output from the digital storage / playback device. And an output selector further included between the receiver and the transport demultiplexer. The method of claim 11, wherein the decoding unit And error flag information generated by the digital broadcast receiving apparatus is used to decode a video signal. The method of claim 11, wherein the decoding unit Error flag information generated during the storage and playback of the digital storage / playback device is displayed on the display device, digital recording / playback device capable of receiving digital broadcasts. The method of claim 11, wherein the receiving unit of the digital broadcast receiving apparatus If the number of errors generated in the received digital broadcasting data is within the correction capability, the logic signal is generated only at the beginning of the packet. If it is out of the correction capability, the logic signal is generated during the packet. Digital recording / playback apparatus capable of receiving digital broadcasts, characterized in that simultaneously output. 21. The device of claim 20, wherein the digital storage / playback device is If the signal input through the shared line of the digital broadcast reception device is a high or low state only at the beginning of the packet, it is determined to be a packet synchronization signal. If the entire packet is high or low state, it is determined that an error flag due to an error has occurred. Digital recording / playback apparatus capable of receiving a digital broadcast, characterized in that to perform the corresponding operation.

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