KR20130127846A - Receiver having two-input one-output - Google Patents

Abstract

The present invention relates to a two-input and one-output receiver. The two-input and one-output receiver comprises: a first tuner for tuning a radio frequency signal by converting a first radio frequency signal into a first analogue signal and a first transport stream; a second tuner for turning a radio frequency signal by converting a second radio frequency signal into a second analogue signal and a second transport stream; a switching unit for switching output in order to output either the first analogue signal or the second analogue signal according to switching control signals; an output unit for outputting an analogue signal which is selected by the switching unit; and a control unit for generating a switching control signal which directs either the first analogue signal or the second analogue signal to be outputted to the output unit. The method is capable of selecting one signal between two input signals and outputting the selected signal, thereby reducing the number of output pins and improving the performance of a receiver by preventing crosstalk and interference between two signals.. [Reference numerals] (10) First tuner;(20) Second tuner;(30) Switching unit;(40) Decoder unit;(50) Output unit;(60) Control unit;(AA) First RF;(BB) Second RF;(CC) D1 or D2;(DD) CVBS1 or CVBS2

Description

Receiver having Two-input One-output}

The present invention relates to a two input one output receiver.

It has a DVR (Digital Video Recorder) function to receive a television broadcast signal and store it on a hard disk or a picture in picture (PIP) function that inserts another television broadcast signal into one television broadcast signal and displays it on a screen. The broadcast signal receiver provided with is provided with two tuners.

That is, a broadcast signal receiver having a DVR function includes two tuners so that a user can watch a television broadcast signal received by one tuner and record the television broadcast signal received by the other tuner to the hard disk. Doing.

However, such a broadcast signal receiver having two conventional tuners requires two output pins for outputting a CVBS signal, which results in a complicated configuration and a high cost.

In addition, such a conventional broadcast signal receiver having two tuners has been combined with the RF IC and the analog demodulation IC due to the recent development of the IC function. Outputs the CVBS signal.

In this case, two CVBS signals output from the single RF / analog demodulation IC may interfere or interfere with each other, resulting in a problem of degrading overall receiver performance.

The present invention has been made to solve the above problems, and to provide a two-input one-output receiver for selecting and outputting one of the two inputs using a switching unit.

A two-input one-output receiver according to an embodiment of the present invention comprises: a first tuner for converting and tuning a first high frequency signal into a first analog signal and a first transport stream; A second tuner for converting and tuning a second high frequency signal into a second analog signal and a second transport stream; A switching unit for switching one of the first analog signal and the second analog signal to be output according to a switching control signal; An output unit for outputting a corresponding analog signal switched from the switching unit; And a controller configured to generate the switching control signal and to control one of the first and second analog signals to be output to the output unit.

In this case, the first and second analog signals are CVBS (Composite Video Blanking Synchronous) signals.

In addition, the two-input one-output receiver according to an embodiment of the present invention, characterized in that it further comprises a decoder for receiving the first and the second transport stream to decode and output the first and second digital signals, respectively. .

The output unit may output any one of the first digital signal and the second digital signal decoded from the decoder unit.

The first tuner may include: a first high frequency processor configured to receive the first high frequency signal and convert the first high frequency signal into a first intermediate frequency signal; A first baseband processor configured to receive the first intermediate frequency signal and convert the first intermediate frequency signal into a first baseband signal; And a first demodulator that receives the first baseband signal and demodulates the first analog signal into a first transport stream, wherein the first demodulator is an analog / digital complex demodulator.

The second tuner may further include a second high frequency processor configured to receive the second high frequency signal and convert the second high frequency signal into a second intermediate frequency signal; A second baseband processor for receiving the second intermediate frequency signal and converting the signal into a second baseband signal; And a second demodulator configured to receive the second baseband signal and demodulate the second analog signal into a second transport stream, wherein the second demodulator is an analog / digital complex demodulator.

The switching unit may include: a first switch connecting the first tuner and the output unit to output the first analog signal to the output unit according to a switching control signal of the controller; And a second switch connecting the second tuner and the output unit to output the second analog signal to the output unit according to a switching control signal of the controller.

The output unit may include an audio output unit configured to output audio data included in the first or second analog signal switched from the switching unit and the first or second digital signal decoded from the decoder unit; And a video output unit configured to output video data and text data included in the first or second analog signal switched from the switching unit and the first or second digital signal decoded from the decoder unit.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

According to the present invention, by selecting and outputting one of the two inputs using the switching unit, the number of output pins can be reduced, thereby preventing the interference and interference of the two signals to improve the receiver performance.

1 is a block diagram of a two input one output receiver according to an embodiment of the present invention.
FIG. 2 is a detailed block diagram of the first tuner shown in FIG. 1.
3 is a detailed block diagram of the second tuner shown in FIG. 1.
4 is a detailed circuit diagram of the switching unit illustrated in FIG. 1.
5 is a detailed block diagram of an output unit illustrated in FIG. 1.

BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. It will be further understood that terms such as " first, "" second," " one side, "" other," and the like are used to distinguish one element from another, no. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, detailed description of related arts which may unnecessarily obscure the gist of the present invention will be omitted.

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

1 is a block diagram of a two input one output receiver according to an embodiment of the present invention, FIG. 2 is a detailed block diagram of the first tuner shown in FIG. 1, and FIG. 3 is a block diagram of the second tuner shown in FIG. 4 is a detailed circuit diagram of the switching unit illustrated in FIG. 1, and FIG. 5 is a detailed block diagram of the output unit illustrated in FIG. 1.

Referring to FIG. 1, a two-input one-output receiver according to an embodiment of the present invention may include a first tuner 10, a second tuner 20, a switching unit 30, a decoder unit 40, and an output unit 50. ) And the control unit 60.

The first tuner 10 receives and tunes a first radio frequency (RF) signal, and as shown in FIG. 2, a first high frequency processor (RF) 12 and a first baseband processor (BB). 14) and the first demodulation unit (16).

The first RF unit 12 receives the first high frequency (RF) signal, converts it into a first intermediate frequency (IF) signal, and outputs the converted signal.

The first BB unit 14 receives the first intermediate frequency IF signal output from the first RF unit 12 and converts the first BB signal into a first baseband BB signal.

The first demodulator 16 receives a first baseband (BB) signal output from the first BB unit 14 and receives a first analog signal (eg, a composite video blanking synchronous signal (CVBS) signal CVBS1). And a first transport stream (TS) TS1.

For example, the first demodulator 16 may, for example, demodulate the first baseband BB signal into a first analog signal CVBS1 and a first baseband BB signal. An analog / digital complex demodulator is used, which consists of a digital demodulator that demodulates into a transport stream TS1.

Similarly, the second tuner 20 receives and tunes a second high frequency (RF) signal. As shown in FIG. 3, a second high frequency processor (RF) 22 and a second baseband processor ( BB part) 24 and the 2nd demodulation part 26 are comprised.

The second RF unit 22 receives the second high frequency (RF) signal, converts it into a second intermediate frequency (IF) signal, and outputs the converted signal.

The second BB unit 24 receives the second intermediate frequency IF signal output from the second RF unit 22 and converts the signal into a second baseband BB signal.

The second demodulator 26 receives the second baseband BB signal output from the second BB unit 24 and demodulates the second analog signal CVBS2 and the second transport stream TS2.

Here, the second demodulator 26 may, for example, demodulate the second baseband signal BB into a second analog signal CVBS2 and a second baseband signal BB. An analog / digital complex demodulator is used, which consists of a digital demodulator that demodulates into a transport stream TS1.

As illustrated in FIG. 4, the switching unit 30 is a first analog signal CVBS1 or the second tuner tuned from the first tuner 10 according to a switching control signal of the controller 60 to be described later. Switched to select and output any one of the tuned second analog signals CVBS2 from 20.

The switching unit 30 switches the first switch S1 and the second tuner 20 and the output to connect the first tuner 10 and the output unit 50 according to the switching control signal. It consists of a second switch (S2) for switching to connect the unit (50).

For example, the switching unit 30 may output the first analog signal CVBS1 to the output unit 50 according to the first switching control signal generated by the control unit 60. ) Is turned on.

On the contrary, the second switch S2 is turned on so that the second analog signal CVBS2 is output to the output unit 50 according to the second control signal generated by the controller 60. (on)

The decoder 40 decodes the first and second transport streams TS1 and TS2 tuned from the first and second tuners 10 and 20 into first and second digital signals D1 and D2, respectively. To print.

For example, the decoder 40 may be an MPEG decoder.

The output unit 50 may include the first or second analog signals CVBS1 and CVBS2 switched from the switching unit 30, and the first or second digital broadcast signal D1, which is decoded from the decoder unit 40. Outputs D2).

As shown in FIG. 5, the output unit 50 may include the first or second analog signals CVBS1 and CVBS2 switched from the switching unit 30, and the first or second decoding unit from the decoder 40. 2 includes an application unit 52 for receiving the digital signals (D1, D2) and output in the form of a service desired by the user.

That is, the application unit 52 may correspond to a corresponding signal (eg, the first or second analog signals CVBS1 and CVBS2) input to the output unit 50 according to a service type desired by a user, and the first or first 2 digital signals (D1, D2) are transmitted to the audio output unit 54, the video output unit 56, or both via a predetermined codec.

For example, when the user wants a voice service, the application unit 52 may input a corresponding signal (eg, the first or second analog signals CVBS1 and CVBS2) and the first input signal to the output unit 50. The first or second digital signals D1 and D2 are transmitted to the audio output unit 54 via a predetermined audio codec. Then, the audio data of the corresponding signal is output through the audio output unit 54.

In addition, when the user wants a video and subtitle service, the application unit 52 may input a corresponding signal (eg, the first or second analog signals CVBS1 and CVBS2) and the first input signal to the output unit 50. The first or second digital signals D1 and D2 are transmitted to the video output unit 56 via a predetermined video codec and a text codec. Then, video data and text data of the corresponding signal are output through the video output unit 56.

The audio output unit 54 may be a speaker, for example, and the video output unit 56 may be a display device including a television, a monitor, or the like.

The controller 60 controls the overall 2 input 1 output receiver according to an embodiment of the present invention.

First, the control unit 60 controls the first and second tuners 10 and 20 to tune the corresponding channel by receiving the first and second high frequency (RF) signals, respectively.

In detail, the controller 60 controls the first tuner 10 to convert and tune the received first radio frequency (RF) signal to the first analog signal CVBS1 and the first transport stream TS1. The second tuner 20 is controlled to tune and convert the received second high frequency RF signal into the second analog signal CVBS2 and the second transport stream TS2.

Then, the controller 60 transmits the first and second transport streams TS1 and TS2 to the decoder 40, and the first and second analog signals CVBS1 and CVBS2 are the switching units. Any one of the control units 30 is directly output to the output unit 50.

That is, the controller 60 receives the first and second transport streams TS1 and TS2 from the first and second tuners 10 and 20, and respectively, the first and second digital signals D1 and D2. The decoder 40 is controlled to decode with.

In addition, the controller 60 controls the switching unit 30 to select one of the first or second analog signals CVBS1 and CVBS2 and output the same to the output unit 50.

In this case, the controller 60 generates a switching control signal for controlling the switching unit 30 according to the channel signal input by the user or the strength of the received first and second high frequency (RF) signals.

For example, the controller 60 determines that a channel signal input by a user is a first high frequency (RF) signal or that an intensity of the first high frequency (RF) is greater than that of the second high frequency (RF) signal. When it is determined that the first analog signal CVBS1 is output to the output unit 50, a first switching control signal for connecting the first tuner 10 and the output unit 50 may be generated. have. That is, the first switching control signal is a signal that turns on the first switch S1 of the switching unit 30 and turns off the second switch S2.

Similarly, the controller 60 determines that the channel signal input by the user is a second high frequency (RF) signal or that the intensity of the second high frequency (RF) is stronger than that of the first high frequency (RF) signal. In this case, a second switching control signal for connecting the second tuner 20 and the output unit 50 may be generated such that the second analog signal CVBS2 is output to the output unit 50. That is, the second switching control signal is a signal that turns on the second switch S2 of the switching unit 30 and turns off the first switch S1.

In addition, the controller 60 controls the first or second analog signals CVBS1 and CVBS2 switched from the switching unit 30, and the first or second digital signals D1, which are decoded from the decoder unit 40. The output unit 50 is controlled to receive and output D2).

At this time, the control unit 60 is a service that a user wants the first or second analog signals CVBS1 and CVBS2 and the first or second digital signals D1 and D2 input to the output unit 50. Depending on the form, the application unit 52 is controlled to transmit to the audio output unit 54, the video output unit 56, or both via a predetermined codec.

In addition, the controller 60 controls the audio output unit 54 to output audio data of the corresponding signal transmitted through the application unit 52, and controls the audio output unit 54 of the corresponding signal transmitted through the application unit 52. The video output unit 56 is controlled to output video data and text data.

As described above, in the two-input one-output receiver according to an embodiment of the present invention, two inputs (ie, first and second high frequency (RF) signals) through two tuners 10 and 20 are predeterminedly switched. Since it is possible to output one analog signal switched by the unit 30 (that is, the first or second analog signals CVBS1 and CVBS1), the number of output pins can be reduced and the two inputs ( That is, since the first and second high frequency (RF) signals are not mixed or interference with each other is generated, receiver performance may be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification or improvement is possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: first tuner 12: first high frequency processing unit
14: first baseband processor 16: first demodulator
20: second tuner 22: second high frequency processing unit
24: second baseband processor 26: second demodulator
30: switching unit 40: decoder unit
50: output unit 52: application unit
54: audio output unit 56: video output unit
60:

Claims (10)

A first tuner for converting and tuning the first high frequency signal into a first analog signal and a first transport stream;
A second tuner for converting and tuning a second high frequency signal into a second analog signal and a second transport stream;
A switching unit for switching one of the first analog signal and the second analog signal to be output according to a switching control signal;
An output unit for outputting a corresponding analog signal switched from the switching unit; And
And a control unit generating the switching control signal and controlling one of the first and second analog signals to be output to the output unit.
The method according to claim 1,
And the first and second analog signals are Composite Video Blanking Synchronous (CVBS) signals.
The method according to claim 1,
And a decoder configured to receive the first and second transport streams, decode and output the first and second digital signals, respectively.
The method according to claim 3,
And the output unit outputs any one of the first digital signal and the second digital signal decoded from the decoder unit.
The method according to claim 1,
The first tuner is,
A first high frequency processor configured to receive the first high frequency signal and convert the first high frequency signal into a first intermediate frequency signal;
A first baseband processor configured to receive the first intermediate frequency signal and convert the first intermediate frequency signal into a first baseband signal; And
And a first demodulator for receiving the first baseband signal and demodulating the first analog signal into a first transport stream.
The method according to claim 5,
And the first demodulator is an analog / digital complex demodulator.
The method according to claim 1,
The second tuner is,
A second high frequency processor configured to receive the second high frequency signal and convert the second high frequency signal into a second intermediate frequency signal;
A second baseband processor for receiving the second intermediate frequency signal and converting the signal into a second baseband signal; And
And a second demodulator which receives the second baseband signal and demodulates the second analog signal into a second transport stream.
The method of claim 7,
And the second demodulator is an analog / digital complex demodulator.
The method according to claim 1,
The switching unit includes:
A first switch connecting the first tuner and the output unit to output the first analog signal to the output unit according to a switching control signal of the controller; And
And a second switch connecting the second tuner and the output unit to output the second analog signal to the output unit according to a switching control signal of the controller.
The method of claim 4,
The output unit includes:
An audio output unit configured to output audio data included in the first or second analog signal switched from the switching unit and the first or second digital signal decoded from the decoder unit; And
And a video output unit configured to output video data and text data included in the first or second analog signal switched from the switching unit and the first or second digital signal decoded from the decoder unit. 1 output receiver.

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