KR100286259B1 - Hybrid digital broadcast receiver - Google Patents

Abstract

PURPOSE: A hybrid digital broadcast receiver is provided to selectively receive broadcasting signals transmitted in radio or wired through one digital broadcast receiver to display the selected signal on a screen. CONSTITUTION: A hybrid digital broadcast receiver includes a diplexer(207) for removing mutual interference of a video signal and an audio signal of a carrier signal received by a sky wave tuner(206), a filter(208) for extracting only a digital video band from the carrier signal, and an A/D converter(209) for converting the extracted video/audio signals into digital signals. The receiver further includes a quadrature amplitude modulator(210) for quadrature-amplitude-modulating the digital video/audio data, and the first switch(211) for selecting a satellite broadcasting digital video/audio signals and the quadrature-amplitude-modulated digital video/audio signals to provide the signals to an MPEG audio/video processor. The receiver also has a demodulator(213) for restoring the video and audio signals of the diplexer to the original signals, a multiplexer(215) for multiplexing the audio signal of the demodulator, and the second switch(217) for selecting the multiplexed audio signal and the digital audio data from the MPEG audio/video processor to output the signals through a radio-frequency modulator. The receiver further has a descrambler(214) for descrambling the video signal from the demodulator, and the third switch(220) for selecting and outputting the descrambled video signal and the digital video data from the MPEG audio/video processor.

Description

Hybrid Digital Broadcast Receiver

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hybrid digital broadcast receiver, and more particularly, to a digital broadcast signal received by wire or wireless in a digital transmission method such as a high definition television according to a viewer's preference. The present invention relates to a hybrid digital broadcast receiver for receiving.

Recently, due to the rapid development of information media, information (data) has been shifted from a method of transmitting in an analog form to a method of transmitting in a digital form.

At this time, in response to a request to transmit more information within the same time, data is compressed and transmitted according to a data compression rule called "MPGE".

MPEG stands for Moving Picture Experts Group (International Standard for Media Integrated Video Compression), which is a digital video encoding (compression), sound coding, and multiple separation method for common use in communications, broadcasting, storage media, and computers. It is a coding method standardized by ISO (International Organization for Standardization).

This MPEG compresses and transmits audio visual, that is, audio signals, moving images, and still images at a high compression rate, thereby achieving multi-channel and high-quality transmission effects in broadcasting, and reducing storage volume and low cost in storage media. It is possible to obtain the effect of recording the multimedia information in the storage media of the media, and in the communication media can be obtained the advantage of being able to perform the multimedia communication at a low price, has recently become a core technology of the multimedia era.

On the other hand, general televisions are standardized to process analog broadcasting signals. As satellite broadcasting and other digital broadcasting methods are spreading, compression and transmission are performed according to MPEG regulations so that users can watch digital broadcasting signals through analog televisions. In order to process the converted digital broadcast signal and convert it into an analog broadcast signal, a separate conversion device called a digital set top box is provided, that is, a digital broadcast receiver.

The digital broadcast receiver is a program provider or a service provider, that is, a broadcast capable of signal processing to a television by converting a digital video signal such as each broadcasting station or a cable broadcasting station such as cable television and satellite broadcasting into an analog video signal. Background Art A device for converting a system has been rapidly spreading in recent years due to the desire of consumers to watch digital broadcast signals.

Therefore, each broadcasting station or cable broadcasting station, as is well known, converts the program analog signal of the service into a digital signal and provides it.

This converted data is compressed by a predetermined compression method to convey a lot of information, and then transmitted to the subscriber side through the communication network.

The subscriber side is provided with the above digital broadcast receiver (digital set tub box) to receive the transmitted digital data and convert it into an analog signal and then display it on a monitor.

As such, a receiving apparatus as shown in FIG. 1 is a device for processing a digital signal compressed and transmitted by each broadcasting station or a cable broadcasting station and displaying the same on an monitor.

The apparatus shown in FIG. 1 will be described as an example of a conventional digital broadcast receiver.

The digital broadcasting receiver tunes a compressed hybrid carrier signal transmitted from each broadcasting station or a digital cable broadcasting station through the input terminal 100 to the frequency of a corresponding channel, and the amplitude of the tuned carrier signal. A satellite tuner 101 for varying the signal proportional to the magnitude of the phase shift modulated signal, and a diplexer 102 for removing mutual interference between the video signal and the audio signal in a carrier wave obtained by tuning through the satellite broadcast tuner 101. A filter unit 103 for filtering the carrier signal obtained from the diplexer 102 to extract only the digital signal band, an analog / digital converter 104 for converting the extracted analog signal into a digital signal and outputting the digital signal; The demodulation section 105 restores the digital data obtained from the analog / digital conversion section 104 to the original data. An automatic error correction unit 106 for correcting the carrier data format demodulated by the demodulator 105 and correcting the received error based on the surplus information, and outputting the data in units of packets; The MPEG data is processed by MPEG processing and stored in the memory unit 108, and then converted into an original composite video signal (CPSV) and an audio signal (ADS) and output to the video output terminal 111 and the audio output terminal 112, respectively. A high frequency modulator 108 for modulating the digital composite video signal (CPSV) and the audio signal (ADS) restored by the processor 107 and the MPEG processor 107 into a high frequency signal and providing the same to the television receiver through the output terminal 110. It is composed of

In the conventional digital broadcasting receiver configured as described above, when a digital video signal and an audio signal for a program are compressed and mixed in each broadcasting station or digital cable broadcasting station and input as a carrier signal through the input terminal 100, satellite broadcasting is performed. The tuner 101 tunes the compressed mixed carrier signal received through the input terminal 100 to the frequency of the corresponding channel and changes the amplitude of the tuned carrier signal in proportion to the magnitude of the phase shift signal.

Then, the amplitude-changed carrier signal is provided to the diplexer 102 through the satellite broadcast tuner 101.

The diplexer 102 removes the mutual interference between the compressed video signal and the audio signal from the carrier signal obtained by tuning through the satellite broadcast tuner 101 and provides the filter unit 103 to the filter 103.

Meanwhile, the filter unit 103 filters the carrier signal input from the diplexer 102 to detect only the digital signal band, that is, the 450 MHz to 700 MHz band.

The carrier signal of the analog component detected through the filter unit 103 is provided to the demodulator 105 after being converted into a digital signal through the analog / digital converter 104.

The demodulator 105 restores the digital data input from the analog / digital converter 104 to the original data.

Carrier data reconstructed by the demodulator 105 is corrected in the error caused by interference between adjacent channels in the automatic error correction unit 106 is provided to the MPEG processing unit 107 as original video and audio packet data.

Therefore, the MPEG processing unit 107 stores the video data and the audio data input from the automatic error correcting unit 106 in the memory unit 108 and also the MPEG as the original composite video signal (CPSV) and the audio signal (ADS). Processing is performed through the video output terminal 111 and the audio output terminal 112, and is also provided to the high frequency modulator 108.

The high frequency modulator 108 modulates the composite video signal CPSV and the audio signal ADS processed by the MPEG processor 107 into a high frequency signal and provides the same to the television receiver through the output terminal 110. Will be able to watch digital broadcasts through the Color Awards.

Then, the composite video signal and the audio signal outputted to the video output terminal 111 and the audio output terminal 112 are provided to a digital video disc player or digital VR to be recorded on the magnetic recording medium.

However, the above-mentioned conventional digital broadcast receiver, as is well known, is separately provided with a satellite broadcast receiver for receiving wirelessly and a receiver for receiving by wire.

Therefore, in the conventional digital broadcasting receiver, the satellite broadcasting wirelessly received from the satellite can be received, but the analog signal transmitted by wire in the cable broadcasting cannot be received. Inherent.

Therefore, a digital broadcast receiver is preferred which enables simultaneous reception of wired and wireless digital broadcasts equivalent to those of the prior art without the possibility of terrestrial broadcast or analog cable broadcasts.

Accordingly, the present invention excludes the reception of the terrestrial broadcast or the analog cable broadcast which the digital broadcast receiver has in the above-described conventional technology. As one aspect of the present invention, the present invention transmits wired and wirelessly to one digital broadcast receiver. It is an object of the present invention to provide a hybrid digital broadcast receiver for selectively receiving a broadcast signal and displaying the same on a screen.

1 is a schematic block diagram showing a conventional digital broadcast receiver,

2 is a block diagram showing an embodiment provided for the description of the hybrid digital broadcasting receiver according to the present invention.

<Explanation of symbols for main parts of drawing>

202: satellite tuner 203: analog / digital conversion unit

204: quadrature phase shift demodulation unit 205: forward error correction

206 tuner 207 diplexer

208: filter unit 210: square amplitude modulator

211: first switching unit 212: MPEG audio / video processing unit

213: demodulation unit 214: reverse mixing unit

215: voice multiplexer

The above object is to extract the digital band from the carrier signal received through the satellite broadcast tuner and to restore the video data and audio data from the MPEG audio / video processing means through the quadrature phase demodulation means and the forward error correction means. A digital broadcast receiver, comprising: an airwave tuner for receiving an analog broadcast signal; A diplexer for removing mutual interference between a video signal and an audio signal among carriers received by the airwave tuner; Filter means for extracting only a digital video / audio band from a carrier signal of the diplexer; Analog / digital converting means for digitizing the extracted video / audio signal; Quadrature amplitude modulation means for amplitude modulating the digital video / audio data; First switching means for selecting the satellite broadcasting digital video / audio signal obtained by the forward error correcting means and the quadrature amplitude modulated digital video / audio signal and providing the same to the MPEG audio / video processing means; Demodulation means for restoring and outputting the video signal and the audio signal of the diplexer to the original signal; Speech multiplexing means for speech multiplexing the audio signal of the demodulation means; Second switching means for the voice multiplexed audio signal and the MPEG audio / video processing means to select digital audio data and to output the digital audio data through high frequency modulation means; Demixing means for descrambling the video signal of the demodulation means; And a third switching means for selecting and outputting the descrambled video signal and the digital video data of the MPEG audio / video processing means.

Preferably, the apparatus further comprises digital / analog converting means for converting the digital audio data obtained from the MPEG audio / video processing means into an analog signal and providing the converted second audio signal to the second switching means.

Preferably, the method further comprises a video buffer means for buffering and providing the digital video data obtained from the MPEG audio / video processing means to the third switching means.

Optionally, the method further comprises a fourth switching means for selecting and outputting the audio signal selected from the second switching means and the audio signal provided from the outside.

In this way, it can be seen that both analog and digital broadcasts transmitted by wire and wireless through one digital broadcast receiver are displayed, and any one broadcast is displayed on the screen of the television receiver by the viewer's choice.

As a result, by receiving a broadcast signal transmitted by wire or wireless through one receiver, not only convenience of use is provided but also an advantage of maintaining compatibility with a television receiver.

And, there may be a plurality of embodiments of the present invention, the following will be described in detail for the most preferred embodiment.

Through this preferred embodiment, it is possible to better understand the objects, features and advantages of the present invention.

Hereinafter, exemplary embodiments of a hybrid digital broadcasting receiver according to the present invention will be described in detail with reference to the accompanying drawings.

In addition, the present invention can be applied to various receivers for receiving digital broadcasts, for example, high-definition television receivers, high-definition digital TVs with built-in tuners, and the like.

Therefore, FIG. 2 used in the description is a view focused on a broadcast receiving apparatus for selectively receiving and displaying a broadcast signal transmitted over wire or wirelessly on a screen instead of a specific digital broadcast receiver.

In the following description, an example in which a digital broadcast receiver is used for a general analog television receiver is considered.

2 is a block diagram showing an embodiment provided in the description of the hybrid digital broadcasting receiver of the present invention.

According to the present exemplary embodiment, a remote controller (not shown in the drawing) or a controller (not shown in the drawing) which determines an analog broadcasting channel and a digital broadcasting channel according to selection and generates a switching control signal according to selection of a channel key provided in the set; The satellite broadcasting tuner 202 receives a digital satellite broadcast frequency down by the control signal of the controller and is input through the input terminal 200, and the analog broadcast signal input through the input terminal 201 under the control of the controller. An analog / digital converter for converting a received carrier signal into a digital signal modulated by quadrature phase shift keying (QPSK) through an airwave tuner 206 and a satellite broadcast tuner 202 ( 203, a quadrature phase shift demodulator 204 for restoring the converted digital broadcast signal to original data, and interference between adjacent channels. Forward error correction unit 205 and airwave tuner 206 for correcting the carrier data format demodulated by quadrature-phase shift demodulator 204 and correcting them based on the surplus information to output bit-by-packet to correct bit errors generated by the quadrature. A diplexer 207 for removing mutual interference between a video signal and an audio signal among carriers tuned through the carrier, and a filter unit 208 for filtering only a carrier signal obtained from the diplexer 207 to extract a digital signal band. And an orthogonal amplitude modulation for quadrature amplitude modulation of the extracted analog video / audio signal by converting the extracted analog video / audio signal into a digital signal and outputting the digital video / audio data obtained from the analog / digital converter 209. The digital video / audio data input from the forward error correction unit 205 by the modulator 210 and the control signal of the controller. The first switching unit 211 selects and outputs a digital video / audio signal input by being subjected to quadrature amplitude modulation, and the digital video data input by being quadrature amplitude modulated with the digital video / audio signal input from the first switching unit 211. An MPEG audio / video processing unit 212 for MPEG-processing the audio data and video data separately, and a digital / analog converting unit 216 for converting the MPEG audio data into an analog audio signal, and the MPEG-processed video. A video buffer 219 for buffering and outputting data, a demodulator 213 for demodulating and outputting a carrier signal input from the diplexer 207 into an original video signal and an audio signal, and the demodulated audio signal. A voice multiplexer 215 for voice multiplexing the image; and the voice multiplexed audio signal and the analogized MPEG audio signal. A second switching unit 217 that selects and outputs the control signal of the controller and a high frequency modulation unit which modulates the audio signal selected by the second switching unit 217 to provide a television receiver through the audio output terminal 222. 218 and a fourth switch for selecting an audio signal selected by the second switching unit 217 and an external audio signal input through the external input terminal 223 and providing the selected audio signal to the television receiver through the external output terminal 224. The unit 221 and the analog video signal restored by the demodulator 213 and the digital video data through the video buffer 219 are selected by the control signal of the controller and provided to the television receiver through the video output terminal 225. It is composed of a third switching unit 220.

In the hybrid digital satellite broadcasting receiver according to the present invention, the analog broadcasting and digital broadcasting through the terrestrial antenna and the parabola antenna are selectively received and viewed by the following operations.

Hereinafter, the present invention will be described in more detail with reference to FIG. 2.

First, when a user designates a remote controller or a key on a set to receive digital satellite broadcasting, the controller generates a control signal.

The control signal generated by the controller controls the satellite broadcast tuner 202 to receive the digital broadcast signal of the corresponding channel through the parabolic antenna and the input terminal 200.

The carrier signal modulated and received by the quadrature phase shift modulation (QPSK) method through the satellite broadcast tuner 202 is digitized through the analog-to-digital converter 203 and input to the quadrature phase demodulator 204.

The quadrature phase shift demodulator 204 demodulates the converted and input digital broadcast signal into original data.

The carrier data reconstructed through the quadrature phase demodulation unit 204 is input to the first switching unit 211 by correcting an error caused by interference between adjacent channels in the forward error correction unit 205.

The first switching unit 211 blocks the digital video / audio signal input from the quadrature amplitude modulator 210 to be described later by the control signal generated by the controller and the digital input from the forward error correction unit 205. The video / audio data is selected and provided to the MPEG audio / video processor 212.

The MPEG audio / video processor 21 MPEG-processes input video data and audio data, and provides MPEG audio data to the digital / analog converter 216 and MPEG video and data to the video buffer 219.

Accordingly, the video buffer 219 buffers the MPEG video data input from the MPEG audio / video processor 212 and provides the buffered video data to the third switching unit 220.

The third switching unit 220 cuts the video signal of the inverse mixing unit 214 to be described later by the control signal of the controller, selects the digital video signal input from the video buffer 219, and outputs the video as a composite image signal. The terminal 225 is provided to the television receiver.

In addition, the digital / analog converter 216 converts the digital audio data input from the MPEG audio / video processor 212 into an analog signal and provides it to the second switch 217.

The second switching unit 217 blocks the audio signal provided from the voice multiplexer 215 and selects the digital audio signal by the control signal of the controller.

The selected audio signal is modulated to the high frequency signal by the high frequency modulator 218 and then provided to the television receiver through the audio output terminal 222.

In addition, the audio signal selected by the second switching unit 217 and the audio signal input from the external input terminal 223 are selected by the fourth switching unit 221 and provided to the television receiver through the external output terminal 224. do.

On the other hand, when the analog broadcast is to be received through the digital broadcast receiver, in the same manner as described above, if the remote controller or a key on the set to specify the controller has a control signal having a different information value than when receiving the digital broadcast Will occur.

At this time, the control signal generated by the controller controls the airwave tuner 206 to tune the broadcast signal input through the input terminal 201 to the corresponding channel.

The analog broadcast signal of the tuned channel, that is, the carrier signal output from the airwave tuner 206 is provided to the diplexer 207.

The diplexer 207 removes mutual interference between the compressed video signal and the audio signal among the carrier signals obtained by tuning through the airwave tuner 206 and provides the filter unit 208 and the demodulator 213.

The filter unit 208 filters the carrier signal input from the diplexer 207 to detect only the digital signal band, that is, the 450 MHz to 700 MHz band.

The carrier signal of the analog component detected by the filter unit 208 is provided to the quadrature amplitude demodulator 210 after being converted into a digital signal through the analog / digital converter 209.

The quadrature amplitude modulator 210 performs quadrature amplitude modulation on the digital data input from the analog / digital converter 209 to provide the first switch 211 and the MPEG audio / video processor 212.

The first switching unit 211 cuts the digital video / audio data of the forward error correcting unit 205 according to the control signal of the controller, selects the quadrature amplitude modulated video / audio signal, and transmits the signal to the MPEG audio / video processing unit 212. to provide.

On the other hand, the demodulator 213 restores the analog carrier signal provided from the diplexer 207 to the original audio signal and the video signal and outputs the original signal.

The analog audio signal reconstructed by the demodulator 213 is voice multiplexed through the voice multiplexer 215 and selected by the second switching unit 217 and then, via the high frequency modulator 218 and the audio output terminal 222. It is provided on a television receiver.

In addition, the analog video signal reconstructed by the demodulator 213 is descrambled by the inverse mixing unit 214 and selected by the third switching unit 220 and then provided to the television receiver through the video output terminal 225.

On the other hand, as a comparative example, unlike the conventional configuration, that is, the video signal and the audio signal of the digital broadcast through the MPEG processing unit of the digital broadcast receiver to watch the screen, the present invention is an airwave for receiving analog broadcast Since the tuner and each switching unit are used, it is possible to receive analog broadcasts transmitted from satellite or cable broadcasts transmitted by wire or wirelessly.

As a result, according to the present invention, it is understood that convenience and ease of use and compatibility with a television receiver are maintained by receiving and displaying both analog and digital broadcasts on a screen through one digital broadcast receiver according to the selection of a switching unit or the like. Can be.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

It is clear from the above description that, according to the hybrid digital broadcasting receiver according to the present invention, convenience of use is provided by receiving both satellite broadcasting or analog cable broadcasting with one digital broadcasting receiver, and the basic analog tuning function is costly. Because it can be implemented without increasing, it is economical and compatible with the television receiver.

Claims (4)

Digital band receiver extracts digital bands from carrier signal received through satellite broadcasting tuner and transmits them through quadrature phase demodulation means and forward error correction means and restores and outputs video data and audio data from MPEG audio / video processing means. In; A diplexer for removing mutual interference between a video signal and an audio signal among carriers received by an airwave tuner; Filter means for extracting only a digital video band from a carrier signal of the diplexer; Analog / digital converting means for digitizing the extracted video / audio signal; Quadrature amplitude modulation means for quadrature amplitude modulation the digital video / audio data; First switching means for selecting the satellite broadcasting digital video / audio signal obtained from the forward error correcting means and the quadrature amplitude modulated digital video / audio signal and providing the same to the MPEG audio / video processing means; Demodulation means for restoring and outputting the video signal and the audio signal of the diplexer to the original signal; Speech multiplexing means for speech multiplexing the audio signal of the demodulation means; Second switching means for selecting the voice multiplexed audio signal and digital audio data of the MPEG audio / video processing means and outputting the same through the high frequency modulation means; Demixing means for descrambling the video signal of the demodulation means; And third switching means for selecting and outputting the descrambled video signal and the digital video data of the MPEG audio / video processing means. 2. The hybrid digital broadcasting receiver as claimed in claim 1, further comprising digital / analog converting means for converting digital audio data obtained from said MPEG audio / video processing means into an analog signal and providing it to said second switching means. The hybrid digital broadcasting receiver as claimed in claim 1, further comprising a video buffer means for buffering and providing the digital video data obtained by the MPEG audio / video processing means to the third switching means. The hybrid digital broadcasting receiver as claimed in claim 1, further comprising a fourth switching means for selecting and outputting an audio signal selected from the second switching means and an audio signal provided from the outside.