KR20060068339A - Method for demodulating radio frequency audio by using one carrier - Google Patents

Abstract

The present invention outputs an audio R + L signal using a main voice carrier inside the tuner, and outputs an audio RL signal, an R signal, or an L signal signal using an internal voice carrier within the voice signal demodulation circuit. Demodulating and outputting a stereo signal through a combination of signals output through a carrier wave, the action of the first step is to convert the high-frequency signal induced by the antenna to an intermediate frequency signal of the audio R + L signal, and a high frequency A second process of converting a signal into an audio RL signal or an intermediate frequency signal of an R signal or an L signal by using one carrier; an intermediate frequency of the converted audio R + L signal and an audio RL or R signal or an L signal A third process of filtering only a signal corresponding to any one band of signals, and a fourth process of demodulating and outputting the filtered intermediate frequency signal into a mixed signal do. Therefore, there is an effect that can solve the problem of increasing the circuit design cost and the cost of the product caused by overlapping the circuit for tuning the audio R + L signal to the existing tuner and voice signal demodulation circuit.

Description

RF voice demodulation method using one carrier {METHOD FOR DEMODULATING RADIO FREQUENCY AUDIO BY USING ONE CARRIER}

1 is a block diagram for a voice signal demodulation circuit of a conventional tuner,

2 is a block diagram for performing an RF speech demodulation method using one carrier according to the present invention.

3 is a detailed flowchart of an RF speech demodulation method using one carrier according to the present invention.

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

100 tuner unit 101 high frequency input unit

103: high frequency amplification unit 105: mixing unit

107: local oscillator 200: intermediate frequency amplifier

300: band call filter 400: voice signal demodulator

500: low frequency amplifier

The present invention relates to an RF voice demodulation method using a single carrier, and in more detail, a main voice is output using a main voice carrier inside the tuner, and a sub voice can be output using a separate voice multiple circuit. RF voice demodulation method that can be.

As is well known, the tuner selects a desired high frequency signal from among a plurality of high frequency signals derived from an antenna and converts it to an intermediate frequency. In this case, a demodulation circuit including a tuner that performs a function of converting a plurality of high frequency signals induced from an antenna to an intermediate frequency will be described with reference to FIG. 1.

1 is a block diagram showing a voice signal demodulation circuit of a conventional tuner.

Referring to FIG. 1, a tuner unit 10 and a tuner unit 10 for converting a desired high frequency signal from a plurality of high frequency signals derived from an antenna ANT into an intermediate frequency signal of audio R + L using one carrier wave. Audio in the 4.5MHz or 5.5MHz, 6.0MHz, 6.5MHz band in the intermediate frequency amplification unit 20 and the intermediate frequency signal amplified by the intermediate frequency amplifier 20 to amplify the intermediate frequency signal output through A low pass amplifier 50 demodulates a band pass filter unit 30 for passing only a signal corresponding to any one of the R + L signals, and an audio R + L signal filtered by the band pass filter unit 30. And converting the desired high frequency signal selected by the tuner unit 10 into an intermediate frequency signal of audio R + L using one carrier and providing the audio RL using one carrier. , Or R signal, or After converting the signal into an intermediate frequency signal, which is an L signal, it is passed through the band pass filter unit 30 and provided only through the corresponding signal, and then converted into a stereo signal through a combination of intermediate frequency signals converted through each of the two carriers. The audio signal demodulator 40 demodulates and provides the low frequency amplifier 50 to the low frequency amplifier 50. The low frequency amplifier 50 amplifies and outputs an audio R + L signal or a stereo signal demodulated by the audio signal demodulator 40. ).

At this time, the tuner unit 10 includes a high frequency input unit 11 for removing a signal other than a desired channel from a plurality of high frequency signals induced from a feed line of the antenna ANT and selecting only a predetermined desired high frequency signal, and a high frequency input unit ( 11) a high frequency amplifying unit 12 for amplifying a high frequency signal of a desired channel output from the desired channel, a high frequency signal output from the high frequency amplifying unit 12 and an oscillation signal of the local oscillating unit 14 are mixed and converted into an intermediate frequency signal. The mixing section 13 is provided, and the bandpass filter section 30 is provided with a resistor R1 and an LC filter.

First, when a plurality of high frequency signals are induced from the feed line of the antenna ANT, the high frequency input unit 11 selects only the high frequency signals of the desired channel and supplies them to the high frequency amplifier 12.

At this time, the high frequency amplifying unit 12 amplifies the desired high frequency signal applied from the high frequency input unit 11 to the maximum, and then supplies the mixing unit 13 to mix with the oscillation signal of the local oscillating unit 14.

The mixing unit 13 mixes the high frequency signal of the high frequency amplifying unit 12 and the oscillation signal of the local oscillating unit 14 and outputs the intermediate frequency signal, which is an audio R + L signal by one carrier, and outputs the intermediate frequency signal. Is amplified again by the intermediate frequency amplification unit 20 and then applied to the band pass filter unit 30 at the rear stage.

At this time, the intermediate frequency signal of the tuner unit 10 amplified by the intermediate frequency amplifying unit 20 is a 5.5 MHz audio signal in the case of B / G method of PAL, a 6.0 MHz audio signal in case of I method, D In case of the / K method, it is divided into a 6.5MHz voice signal, and in the NTSC M method, it is divided into a 4.5MHz voice signal. The bandpass filter unit corresponding to the divided voice signals of each frequency band is divided. A separate 30 is provided so as to filter the intermediate frequency signal of the tuner 10 so that it can be supplied to the voice signal demodulator 40.

Thereafter, the voice signal demodulator 40 demodulates the audio R + L signal filtered by the band pass filter 30 and provides the demodulated signal to the low frequency amplifier 50.

In addition, the voice signal demodulator 40 includes two carriers, and converts a desired high frequency signal selected by the tuner 10 into an intermediate frequency signal of audio R + L using one carrier, and the other one. After converting to an intermediate frequency signal that is an audio RL, R signal, or L signal by using a carrier wave, it is passed through the band pass filter unit 30 to provide only the corresponding signal, and then through each of the two carriers. A demodulated signal is provided to the low frequency amplifier 50 by combining the converted intermediate frequency signal.

Then, the low frequency amplifier 50 amplifies and outputs the audio R + L signal or the stereo signal demodulated by the voice signal demodulator 40.

As described above, among the voice signal demodulation circuit of the conventional tuner, a function of tuning an audio R + L signal using one carrier basically built into the tuner unit 10, demodulating and outputting the audio R + L signal, and a voice signal By using two carriers basically built in the demodulator 40, the audio R + L signal and the audio RL, R signal, or L signal signal may be tuned, demodulated, and output.

However, a circuit built in the tuner unit 10 and a circuit for tuning the audio R + L signal in the audio signal demodulator 40 are unnecessaryly designed to tune the audio R + L signal for mono broadcasting. It is. As a result, the circuit design cost is increased, and parts for unnecessary circuit configuration are added to increase the cost of the product.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to output the audio R + L signal using the main voice carrier inside the tuner, audio using the voice carrier demodulation circuit internal audio carrier The present invention provides an RF voice demodulation method using one carrier that can output an RL signal, an R signal, or an L signal, and can demodulate and output a stereo signal through a combination of signals output through the two carriers.

RF voice demodulation method using a single carrier in the present invention for achieving the above object is a first step of converting the high-frequency signal of the audio R + L signal from the high-frequency signal induced by the antenna, and a high-frequency signal Any one of a second process of converting an audio RL signal, or an R signal or an L signal into an intermediate frequency signal using a carrier wave; and one of the converted audio R + L signal and an audio RL, or an R signal or an intermediate frequency signal that is an L signal And a fourth process of filtering only a signal corresponding to a band and a fourth process of demodulating the filtered intermediate frequency signal into a mixed signal.

Hereinafter, a plurality of embodiments of the present invention may exist, and a preferred embodiment will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate the objects, features and advantages of the present invention through this embodiment.

FIG. 2 is a block diagram for performing an RF voice demodulation method using one carrier according to the present invention, wherein a desired high frequency signal is selected from a plurality of high frequency signals derived from an antenna ANT using one carrier and audio R + A tuner unit 100 for converting an L signal into an intermediate frequency signal, an intermediate frequency amplifier 200 for amplifying an intermediate frequency signal output through the tuner unit 100 and providing the band pass filter unit 300; In the intermediate frequency signal amplified by the intermediate frequency amplification unit 200, only the signal corresponding to any one of the bands of the audio R + L signals in the 4.5 MHz, 5.5 MHz, 6.0 MHz, and 6.5 MHz bands is passed. The bandpass filter unit 300 and the tuner unit 100 which pass only a signal corresponding to any one band of an audio RL signal, an R signal, or an L frequency signal converted by the grandfather 400. Circle selected by Converts a high frequency signal into an audio RL signal, an R signal, or an intermediate frequency signal, which is an L signal, and provides the high frequency signal to the band pass filter unit 300 and is filtered by the band pass filter unit 300. The audio signal demodulator 400 demodulates the audio R + L signal, the audio RL signal, or the R signal, or the L signal into a stereo signal through a mixer combination, and provides the audio signal to the low frequency amplifier 500. And a low frequency amplifier 500 for amplifying and outputting the stereo signal demodulated by the signal demodulator 400.

Here, in the tuner unit 100, a high frequency input unit 101 which removes signals other than a desired channel from a plurality of high frequency signals derived from a feed line of the antenna ANT and selects only a predetermined desired high frequency signal, and a high frequency input unit ( A high frequency amplifying unit 103 for amplifying a high frequency signal of a desired channel output from 101 and a high frequency signal output from the high frequency amplifying unit 103 and an oscillation signal of the local oscillating unit 107 are mixed and converted into an intermediate frequency signal. The mixing section 105 is provided, and the bandpass filter section 300 includes a resistor R1 and an LC filter.

Referring to the flowchart of FIG. 3, the RF voice demodulation method using one carrier according to the present invention will be described in more detail.

First, when a plurality of high frequency signals are induced from the feed line of the antenna ANT, the high frequency input unit 101 selects only the high frequency signals of the desired channel and supplies them to the high frequency amplifier 103 (step 301).

At this time, the high frequency amplifying unit 103 amplifies the desired high frequency signal applied from the high frequency input unit 101 to the maximum, and then supplies the mixing unit 105 to mix with the oscillation signal of the local oscillating unit 107 (step 302). .

The mixing unit 105 mixes the high frequency signal of the high frequency amplifying unit 103 and the oscillation signal of the local oscillating unit 107, converts the high frequency signal into an intermediate frequency signal, which is an audio R + L signal by one carrier, and then converts the intermediate frequency amplifying unit 200 into an intermediate frequency signal. In step 303, the high frequency signal amplified by the high frequency amplifier 103 is provided to the voice signal demodulator 400 (step 304).

The intermediate frequency amplifier 200 amplifies the intermediate frequency signal output through the tuner unit 100 and provides the amplified frequency signal to the band pass filter unit 300 (step 305).

At this time, the voice signal demodulator 400 converts the high frequency signal amplified by the tuner unit 100 into an intermediate frequency signal, which is an audio RL signal, an R signal, or an L signal, using one carrier wave band filter. To the unit 300 (step 306).

The bandpass filter unit 300 corresponds to any one band of an audio R + L signal of 4.5 MHz, 5.5 MHz, 6.0 MHz, and 6.5 MHz bands in the intermediate frequency signal amplified by the intermediate frequency amplifier 200. Pass only the received signal (step 307), and pass only the signal corresponding to any one of the audio RL signal, the R signal, or the intermediate frequency signal, which is converted by the voice signal demodulator 400, to the voice signal. To the demodulator 400 (step 308).

The audio signal demodulator 400 converts the audio R + L signal filtered by the band pass filter unit 300, and the audio RL signal, or the R signal, or the L signal into a mixer combination, that is, the audio R + L signal. Mix the R signal so that only the L signal comes out, and at the same time, demodulate the low signal by demodulating it into a stereo signal (L (Left) signal, R (Right) signal) that mixes the R signal with the R + L signal so that only the R signal comes out. Provided to the amplifier 500 (step 309).

The low frequency amplifier 500 amplifies and outputs the stereo signal demodulated by the voice signal demodulator 400 (step 310).                     

Therefore, the audio R + L signal is output using the main voice carrier inside the tuner unit 100, and the audio RL signal, the R signal, or the L signal signal is output using the voice carrier within the voice signal demodulator 400. And a circuit design for duplication of a circuit for tuning an audio R + L signal to a conventional tuner unit and a voice signal demodulator unit by demodulating and outputting a stereo signal through a combination of signals output through these two carriers. This can solve the problem of increased cost and the resulting cost of the product.

In addition, since the present invention is disclosed as a right within the spirit and claims of the present invention, the present invention may include any modification, use and / or adaptation using general principles, and the present invention as a matter deviating from the description of the present specification. It includes all matter falling within the scope of known or customary practice in the art to which it belongs and falling within the scope of the appended claims.

As described above, the audio R + L signal is output using the main voice carrier inside the tuner, and the audio RL signal, R signal, or L signal is output using the voice carrier within the voice signal demodulation circuit. By demodulating and outputting a stereo signal through a combination of signals output through these two carriers, the circuit design cost is increased due to the overlapping circuit for tuning the audio R + L signal to the existing tuner and voice signal demodulation circuit. As a result, there is an effect that can solve the problem of increasing the unit price of the product.

Claims (3)

A first step of converting the high frequency signal induced by the antenna into an intermediate frequency signal of the audio R + L signal; A second process of converting the high frequency signal into an audio R-L signal or an intermediate frequency signal of an R signal and an L signal using one carrier; A third process of filtering only a signal corresponding to any one band among the converted audio R + L signal and the audio R-L, or an intermediate frequency signal which is an R signal or an L signal; A fourth process of demodulating and outputting the filtered intermediate frequency signal into a mixed signal RF speech demodulation method using one carrier comprising a. The method of claim 1, The combined signal is extracted by mixing the R signal with the audio R + L signal so that only the L signal comes out, and mixing the L signal with the R + L signal so that only the R signal comes out. RF voice demodulation method. The method of claim 1, The RF frequency demodulation method using one carrier, wherein the intermediate frequency signal of the first process is converted by a tuner unit, and the intermediate frequency signal of the second process is converted by a voice signal demodulator.

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