KR100843398B1 - Dual hybrid tv tuner - Google Patents

Abstract

A dual hybrid TV receiver is provided to realize a dual analog tuner for the PIP(Picture In Picture) of analog TV broadcasting and a dual digital tuner for the PIP of digital TV broadcasting in a package, thereby performing analog PIP and digital PIP in a TV receiver. A divider(100) divides an RF(Radio Frequency) signal from an antenna(ANT) into a first RF signal and a second RF signal. A first RF circuit unit(310) converts the first RF signal from the divider into a first IF(Intermediate Frequency) signal. A second RF circuit unit(320) converts the second RF signal from the divider into a second IF signal. A first analog demodulator(410) is operated to demodulate the first IF signal according to a first analog TV demodulation method when analog TV broadcasting is selected. A second analog demodulator(420) is operated to demodulate the second IF signal according to a second analog TV demodulation method when analog TV broadcasting is selected. A digital FEC(Forward Error Correction) decoder(500) is operated to decode the first IF signal into a first TS(Transport Stream) signal according to a preset first digital TV decoding method and to decode the second IF signal into a second TS signal according to a preset second digital TV decoding method when digital TF broadcasting is selected.

Description

Dual Hybrid TV Receiver {DUAL HYBRID TV TUNER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dual hybrid TV receiver, in particular, a dual hybrid tuner for dual analog tuner for PIP of analog TV broadcasting and dual digital tuner for PIP for digital TV broadcasting in one package (aka ONE CAN). It relates to a TV receiving device.

In general, in order to implement a picture in picture (PIP), an analog receiver should be designed to include two analog tuners to receive analog broadcasts, and the digital receiver includes two digital tuners to receive digital broadcasts. It must be designed.

In addition, when the digital receiver includes two digital tuners, one digital tuner may be used for a PVR set-top box. A conventional PIP TV tuner will be described with reference to FIGS. 1 and 2.

1 is a block diagram of a conventional analog dual TV tuner.

Referring to FIG. 1, a conventional analog dual TV tuner includes a splitter 11 for distributing an RF signal from an antenna ANT1 into first and second RF signals, and a first RF signal from the splitter 11. A first analog tuner unit 12 for selecting an included channel and a second analog tuner unit 13 for selecting a channel included in a second RF signal from the distributor 11 are included.

The first analog tuner unit 12 converts the first RF signal from the divider 11 into a first IF signal according to channel selection, thereby converting one of a plurality of channels included in the first RF signal. A first RF circuit unit for selecting a channel and a first analog demodulator for demodulating a first IF signal from the first RF circuit unit and outputting first video and audio signals SV1 and SA1.

In addition, the second analog tuner unit 22 converts the second RF signal from the distributor 11 into a second IF signal according to channel selection, and selects one of the plurality of channels included in the second RF signal. And a second analog demodulator for demodulating a second IF signal from the second RF circuit and outputting second video and audio signals SV2 and SA2.

2 is a block diagram of a conventional digital dual TV tuner.

Referring to FIG. 2, a conventional digital dual TV tuner includes a splitter 21 for distributing an RF signal from an antenna ANT2 into first and second RF signals, and a first RF signal from the splitter 21. The first digital tuner unit 22 converts the first IF signal into a first transport stream (TS) signal and converts the second RF signal from the distributor 21 into a second IF signal. The second digital tuner unit 23 restores the TS signal.

The first digital tuner unit 22 includes a first RF circuit unit for converting a first RF signal from the divider 21 into a first IF signal, and a first IF signal from the first RF circuit unit. And a first digital forward error correction (FEC) decoder that reconstructs the TS signal.

The second digital tuner unit 22 further includes a second RF circuit unit for converting the second RF signal from the divider 21 into a second IF signal, and a second IF signal from the second RF circuit unit. And a second digital FEC decoder that reconstructs the second TS signal.

However, the conventional analog dual TV tuner shown in FIG. 1 and the conventional digital dual TV tuner shown in FIG. 2 have problems that analog broadcast and digital broadcast cannot be received in the city.

Therefore, in an environment where analog broadcasting and digital broadcasting coexist, a receiver for each broadcasting method must be purchased separately in order to receive each broadcasting, thereby increasing the burden on the user.

The present invention has been proposed to solve the above problems of the prior art, and an object thereof is to provide a dual analog tuner for PIP of analog TV broadcasting and a dual digital tuner for PIP of digital TV broadcasting in one package (aka, ONE CAN) is to provide a dual hybrid TV receiver.

In order to achieve the above object of the present invention, the dual hybrid TV receiving apparatus of the present invention comprises: a divider for distributing an RF signal from an antenna into a first RF signal and a second RF signal, respectively; A first RF circuit unit for converting the first RF signal from the splitter into a first IF signal; A second RF circuit unit for converting a second RF signal from the divider into a second IF signal; A first analog demodulation unit operable at the time of selecting an analog TV broadcast to demodulate a first IF signal from the first RF circuit unit according to a preset first analog TV demodulation scheme; A second analog demodulation unit operable at the time of selecting an analog TV broadcast to demodulate a second IF signal from the second RF circuit unit according to a preset second analog TV demodulation scheme; It operates when the digital TV broadcast is selected, decodes a first IF signal from the first RF circuit unit into a first TS signal according to a preset first digital TV decoding scheme, and a second IF signal from the second RF circuit unit. The digital FEC decoder for decoding the second TS signal according to the second digital TV decoding scheme.

The dual hybrid TV receiving apparatus may include: a first input circuit unit configured to block an unnecessary wave signal included in a first RF signal from the splitter, and to output a TV broadcast signal included in the first RF signal to the first RF circuit unit. ; And a second input circuit unit which blocks the unwanted signal included in the second RF signal from the splitter and outputs the TV broadcast signal included in the second RF signal to the second RF circuit unit. .

The first input circuit unit may include a first filter configured to pass a TV broadcast signal included in a first RF signal from the distributor and to block unwanted waves; And a first amplifier for amplifying the signal from the first filter to a predetermined magnitude and outputting the amplified signal to the first RF circuit.

The second input circuit unit may include a second filter configured to pass a TV broadcast signal included in a second RF signal from the splitter and block unwanted waves; And a second amplifier amplifying the signal from the second filter to a predetermined magnitude and outputting the amplified signal to the second RF circuit.

The first IF signal may be set to a frequency different from that of the second IF signal.

The first analog TV demodulation method is the same as the second analog TV demodulation method.

The first and second analog TV demodulation schemes may be demodulation schemes according to one of the NTSC scheme, the PAL scheme, and the SECOM scheme.

The first digital TV decoding method is the same as the second digital TV decoding method.

The first digital TV decoding method is a decoding method according to one of the DVB-T, DMB-T, DVB-S and DMB-S methods.

According to the present invention, by implementing a dual analog tuner for PIP of analog TV broadcasting and a dual digital tuner for PIP of digital TV broadcasting in one package (aka ONE CAN), the analog PIP as one TV receiver And digital PIP.

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

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

3 is a block diagram of a dual hybrid TV receiver according to the present invention.

Referring to FIG. 3, a dual hybrid TV receiver according to the present invention includes a splitter for distributing an RF signal RF from an antenna ANT1 into a first RF signal RF1 and a second RF signal RF2, respectively. 100, a first RF circuit unit 310 for converting the first RF signal RF1 from the divider 100 into a first IF signal IF1, and a second RF signal from the divider 100 ( The second RF circuit unit 320 for converting the RF2 into the second IF signal IF2 and an operation of selecting an analog TV broadcast to receive the first IF signal IF1 from the first RF circuit unit 310. A first analog demodulation unit 410 for demodulating according to the set first analog TV demodulation scheme and an operation of selecting an analog TV broadcast to preset a second IF signal IF2 from the second RF circuit unit 320; A second analog demodulation unit 420 that demodulates according to a second analog TV demodulation scheme, and operates at the time of selecting digital TV broadcasting, so that a first IF signal from the first RF circuit unit 310 Decodes the call IF1 into the first TS signal TS1 according to the preset first digital TV decoding method, and decodes the second IF signal IF2 from the second RF circuit unit 320 in the second digital TV decoding method. A digital FEC decoder 500 for decoding into a second TS signal TS2 according to the present invention.

The dual hybrid TV receiving apparatus cuts an unnecessary wave signal included in the first RF signal RF1 from the splitter 100 and transmits the TV broadcast signal included in the first RF signal RF1 to the first signal. The first input circuit unit 210 outputs to the RF circuit unit 310 and the unwanted wave signal included in the second RF signal RF2 from the divider 100 are blocked, and the second RF signal RF2 is blocked. A second input circuit unit 220 for outputting the included TV broadcast signal to the second RF circuit unit 320 may be included.

The first input circuit unit 210 passes a TV broadcast signal included in the first RF signal RF1 from the divider 100, blocks a unwanted wave, and a signal from the first filter. It includes a first amplifier for amplifying a predetermined size to output to the first RF circuit unit (310).

In addition, the second input circuit unit 220 passes a TV broadcast signal included in the second RF signal RF2 from the splitter 100 and blocks the unwanted wave from the second filter and the second filter. And a second amplifier for amplifying the signal to a predetermined magnitude and outputting the signal to the second RF circuit unit 320.

In addition, the first IF signal IF1 may be set to the same frequency as the frequency of the second IF signal IF2, and the first IF signal IF1 may be set to the frequency of the second IF signal IF2. It may be set to a frequency different from the frequency.

The first analog TV demodulation method may be the same as the second analog TV demodulation method. For example, the first and second analog TV demodulation methods may be an NTSC method, a PAL method, or a SECOM method. It can be a demodulation method according to one of the methods.

In addition, the first digital TV decoding method may be the same as the second digital TV decoding method. For example, the first digital TV decoding method is DVB (Digital Video Broadcasting) -T (Terrestrial). It may be a decoding method according to one of the methods of Digital Multimedia Broadcasting (DMB) -T, DVB-S (Satelittle) and DMB-S.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 3, a dual hybrid TV receiver according to the present invention will be described. First, the divider 100 of the dual hybrid TV receiver according to the present invention removes the RF signal RF from the antenna ANT1. The first RF signal RF1 and the second RF signal RF2 are respectively distributed and output to the first input circuit 210 and the second input circuit 220.

Next, the first input circuit unit 210 blocks the unwanted signal included in the first RF signal RF1 from the divider 100, and the TV broadcast signal included in the first RF signal RF1. Is output to the first RF circuit unit 310.

For example, when the first input circuit unit 210 includes a first filter and a first amplifier, the first filter of the first input circuit unit 210 may include a first RF signal from the divider 100. Passes the TV broadcast signal included in the RF1 and blocks the unwanted wave. The first amplifier of the first input circuit unit 210 amplifies the signal from the first filter to a predetermined magnitude and outputs the signal to the first RF circuit unit 310.

In addition, the second input circuit unit 210 blocks the unwanted signal included in the second RF signal RF2 from the divider 100, and the TV broadcast signal included in the second RF signal RF2. Is output to the second RF circuit unit 320.

For example, the second filter of the second input circuit unit 220 passes the TV broadcast signal included in the second RF signal RF2 from the distributor 100 and blocks unwanted waves. The second amplifier of the second input circuit unit 220 amplifies the signal from the second filter to a predetermined magnitude and outputs the signal to the second RF circuit unit 320.

Next, the first RF circuit unit 310 converts the first RF signal RF1 from the divider 100 into a first IF signal IF1 to convert the first analog demodulator 410 and the digital FEC decoder ( 500).

In addition, the second RF circuit unit 320 converts the second RF signal RF2 from the divider 100 into a second IF signal IF2 to convert the second analog demodulator 420 and the digital FEC decoder ( 500).

In this case, the first IF signal IF1 may be set to the same frequency as the frequency of the second IF signal IF2, and the first IF signal IF1 may be set to the same frequency as that of the second IF signal IF2. It may be set to a frequency different from the frequency.

Next, the first analog demodulation unit 410 operates when an analog TV broadcast is selected, and according to a preset first analog TV demodulation scheme, the first IF signal IF1 from the first RF circuit unit 310 is preset. The demodulator outputs the first video and audio signals SV1 and SA1 generated in the demodulation process.

In addition, the second analog demodulation unit 420 operates when an analog TV broadcast is selected, and according to a preset second analog TV demodulation scheme, the second IF signal IF2 from the second RF circuit unit 320 is preset. The demodulator outputs the second video and audio signals SV2 and SA2 generated in the demodulation process.

As such, when the output signals of the first and second analog demodulators 410 are used, the analog PIP function can be realized.

In this case, the first analog TV demodulation method may be the same method as the second analog TV demodulation method. For example, the first and second analog TV demodulation methods may be NTSC, PAL, or SECOM methods. It can be a demodulation method according to one of the methods.

The digital FEC decoder 500 operates at the time of selecting digital TV broadcasting to perform a first IF signal IF1 from the first RF circuit unit 310 according to a preset first digital TV decoding scheme. It decodes into a TS signal TS1 and decodes a second IF signal IF2 from the second RF circuit unit 320 into a second TS signal TS2 according to a second digital TV decoding method.

In this way, when the output signals TS1 and TS2 of the digital FEC decoder 500 are used, the digital PIP function can be realized.

In this case, the first digital TV decoding method may be the same as the second digital TV decoding method. For example, the first digital TV decoding method may be DVB-T, DMB-T, or DVB-S. And a decoding scheme according to one of the DMB-S schemes.

In the present invention as described above, by implementing a conventional tuner for analog PIP and digital PIP tuner as a single tuner, it is possible to output analog video and audio in one tuner after being distributed to two tuners after RF reception. In another tuner, digital TS output is also possible.

In addition, when the analog PIP is operated, two analog screens can be realized by receiving analog on one tuner and receiving another analog channel on the other tuner.

In addition, when operating digital PIP, two digital screens can be realized by receiving digital RF on one tuner and receiving another digital channel on another tuner.

In addition, when you want to operate digital and analog PIP, one tuner receives analog (or digital) RF signal and the other tuner receives digital (or analog) RF signal. The screen can be implemented simultaneously.

1 is a block diagram of a conventional analog dual TV tuner.

2 is a block diagram of a conventional digital dual TV tuner.

3 is a block diagram of a dual hybrid TV receiving apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

100: divider 210: first input circuit

220: second input circuit portion 310: first RF circuit portion

320: second RF circuit unit 410: first analog demodulation unit

420: second analog demodulator 500: digital FEC decoder

ANT1: Antenna RF: RF Signal

RF1: first RF signal RF2: second RF signal

IF1: first IF signal IF2: second IF signal

TS1: First TS Signal TS2: Second TS Signal

Claims (9)

A divider for distributing the RF signal from the antenna into a first RF signal and a second RF signal, respectively; A first RF circuit unit for converting a first RF signal from the divider into a first IF signal; A second RF circuit unit for converting a second RF signal from the divider into a second IF signal; A first analog demodulation unit operable at the time of selecting an analog TV broadcast to demodulate a first IF signal from the first RF circuit unit according to a preset first analog TV demodulation scheme; A second analog demodulation unit operable at the time of selecting an analog TV broadcast to demodulate a second IF signal from the second RF circuit unit according to a preset second analog TV demodulation scheme; It operates when the digital TV broadcast is selected, decodes a first IF signal from the first RF circuit unit into a first TS signal according to a preset first digital TV decoding scheme, and a second IF signal from the second RF circuit unit. FEC decoder which decodes the signal into a second TS signal according to the second digital TV decoding scheme. Dual hybrid TV receiving apparatus comprising a. The apparatus of claim 1, wherein the dual hybrid TV receiver is provided. A first input circuit unit which blocks the unwanted wave signal included in the first RF signal from the distributor and outputs the TV broadcast signal included in the first RF signal to the first RF circuit unit; And A second input circuit unit which blocks the unwanted wave signal included in the second RF signal from the distributor and outputs the TV broadcast signal included in the second RF signal to the second RF circuit unit; Dual hybrid TV receiver further comprises The method of claim 2, wherein the first input circuit unit A first filter for passing the TV broadcast signal included in the first RF signal from the distributor and blocking the unwanted wave; And A first amplifier for amplifying the signal from the first filter to a predetermined magnitude and outputting the signal to the first RF circuit unit Dual hybrid TV receiving apparatus comprising a. The method of claim 3, wherein the second input circuit unit A second filter configured to pass a TV broadcast signal included in the second RF signal from the distributor and to block unwanted waves; And A second amplifier for amplifying the signal from the second filter to a predetermined magnitude and outputting the signal to the second RF circuit unit; Dual hybrid TV receiving apparatus comprising a. The method of claim 1, wherein the first IF signal is And a frequency different from that of the second IF signal. The method of claim 1, wherein the first analog TV demodulation method, Dual hybrid TV receiver, characterized in that the same method as the second analog TV demodulation method. The method of claim 6, wherein the first and second analog TV demodulation method, A dual hybrid TV receiver, characterized in that the demodulation method according to one of the NTSC system, PAL system, SECOM system. The method of claim 1, wherein the first digital TV decoding scheme, Dual hybrid TV receiver, characterized in that the same method as the second digital TV decoding method. The method of claim 8, wherein the first digital TV decoding scheme, A dual hybrid TV receiver characterized in that the decoding method according to one of the DVB-T, DMB-T, DVB-S and DMB-S scheme.

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