KR930002608B1 - Channel modulation of tv - Google Patents

Abstract

The circuit supplies the carrier frequency of audio by indirect frequency method independantly to control the frequency completely when audio signal is not modulated. It includes a voice modulator (140) for modulating voice signal by indirect frequency method, a mixer (150) for mixing the output of the voice modulator (140) and video carrier signal, a voltage controlled oscillator (160) for generating carrier frequency and applying it to the voice modulator (140), and a divider (180) for dividing the output of the VCO (160).

Description

TV channel modulation circuit

1 is a conventional circuit diagram.

2 is a circuit diagram according to the present invention.

3 is a detailed circuit diagram of the voice modulator 140 of FIG. 2 according to the present invention.

* Explanation of symbols for main parts of the drawings

13: voice signal processor 140: voice modulator

150 mixer 160 voltage controlled oscillator

170: first phase detector 180: frequency divider

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a channel modulation circuit of a television, and more particularly, to a channel modulation circuit of a television that can be completely frequency-controlled by using an indirect frequency modulation method that independently supplies a voice carrier in modulation of a voice signal.

In general, in the television channel modulation method, each local oscillator in the intermediate frequency modulation step operates independently, and the carrier frequency of the audio signal modulated by the intercarrier method from the image carrier is also independent. The intercarrier method amplifies the audio signal in the same way as the video signal, and then uses the 4.5 MHZ, which is a beat signal of the difference between the voice carrier and the video carrier, as an intermediate frequency by the result of the image detection. Receive method.

Conventional television channel modulation scheme has already been filed in the same application as in FIG. 1 under the patent application No. 88-14508 by the same applicant. This is a loop of 14, 15, 16, 17, and 18, which controls the frequency of the voice signal intermediate frequency carrier in the scheme according to FIG. 1, wherein the voice signal is the FM modulator 14 and the second local part. The oscillator 16 performs frequency modulation on a 4.5 MHZ carrier, and this signal is frequency-mixed by the video signal carrier and the mixer 15 to output an intermediate frequency audio signal. The signal divides the first divider 18. The first phase detector 17 is compared in phase with the reference oscillation signal of the reference oscillator 11, and the output of the first phase detector 17 is input to the second local oscillator 16 so that the second local oscillator 16 Is oscillated by the predetermined input to the FM modulator 14 to perform frequency control. However, since the signal output from the mixer 15 is a frequency modulated signal, there is a limit to the complete frequency control of the carrier signal.

If the locking time is faster, only the carrier and the voice information are lost, so that the locking time should be increased enough. Frequency control cannot be performed between the locking periods, and the voice information is lost at the moment of locking. There was this.

Accordingly, an object of the present invention is to provide a circuit capable of completely frequency control in a state in which a voice signal is not modulated by supplying a voice carrier independently by an indirect frequency method in modulation of a voice signal.

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

2 is a circuit diagram according to the present invention, the present invention is the reference oscillator 11, the first divider 18, the first phase detector 17, the second local oscillator 16, the FM modulator 14 of FIG. ), The voice signal modulator 100 composed of the mixer 15 is replaced with the portion shown by reference numeral 200 in FIG.

The voice signal modulator 200 of FIG. 2 locks the voice signal input signal processed and output by the voice signal processor 13 in a state where the carrier is always united and modulates the voice signal in an indirect frequency manner. ), A mixer 150 for mixing the output of the voice modulator 140 and the locked image carrier signal, a reference oscillator 11 oscillating a reference predetermined frequency, and a first phase detector 170 to be described later. The output voltage of the voltage controlled oscillator 160 and the voltage controlled oscillator 160 are generated by dividing the output of the voltage controlled oscillator 160 by generating a carrier wave, which is a difference frequency of the video and audio carriers, by the generated control voltage. The frequency divider 180 provided to the 1-phase detector 170 and the phase of the output signal of the frequency divider 180 and the phase of the output frequency of the reference frequency oscillator 11 are compared with each other according to the comparison value. Controlled oscillator It consists of a first phase detector 170 for controlling the output according to the carrier generation of 160, the block omitted in the above description is the same as the first diagram, and the same reference numerals are used.

3 is a detailed circuit diagram of the voice modulator 140 of FIG. 2 according to the present invention, an integrator 304 for integrating a signal output from the voice signal processor 13 of FIG. 2 and input through an input terminal a; A 90 ° phase shift circuit 301 for phase shifting the carrier wave b1 output from the voltage controlled oscillator 160 to 90 °, an output of the integrator 304 and an output of the 90 ° phase shift circuit 301 Multiplying the balance modulator 302 by removing the carrier and outputting only the modulated signal AM, the modulated output of the balance modulator 302 and the carrier wave b2 of the voltage controlled oscillator 160 to synthesize the FM signal. And a synthesizer 305 for generating (C).

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3, and a voice signal is input to the voice signal processor 13 to compensate.

The output signal of the voice signal processing unit 13 is input to the voice modulator 140, and the signal corresponding to the difference frequency (4.5MHZ) of the image carrier (45.75MHZ) and the voice carrier (41.25MHZ) is voltage controlled oscillator 160 When generated in the) and input to the voice modulator 140 as the center frequency, the voice modulator 140 modulates the voice signal in an indirect frequency method.

The indirect frequency method means that the carrier wave is independently supplied by the Armstrong method so that complete frequency control is possible in an unmodulated state.

가 된다.Referring to FIG. 3, the voice signal of the output terminal a of the voice signal processor 13 of FIG. 2 is input to the integrator 304 and 4.5MHZ, which is an output carrier of the voltage controlled oscillator 160. Is input to the 90 ° phase shift circuit 301 and the synthesizer 305, and is integrated in the integrator 304 when the voice signal of the node (a) is B Sin Wmt.

Becomes

When the 4.5 MHZ (A Sin Wct) of the voltage controlled oscillator 160 is input to the 90 ° phase shift circuit 301 through the node b1, and is input to the synthesizer 305 through the node b2, the 90 ° The output of the phase shift circuit 301 is Sin (wct + 90) =-A COS Wct.

)을 평형변조기(302)의 입력하여 곱셈(-A COS Wct)×(

)]하면 캐리어는 제거되고 변조된 신호만 남는다(AM).The output [Sin (wct + 90)] of the 90 ° phase shift circuit 301 and the output of the integrator 304 (

) Into the balance modulator 302 to multiply (-A COS Wct) × (

Carrier] is removed and only the modulated signal remains (AM).

When it is input to the synthesizer 305, it is synthesized with 4.5MHZ of the voltage controlled oscillator 160 inputted through the node b2 [COS (Wc + Wm) t].

The signal is modulated by the FM output through the synthesizer 305 and mixed with the image carrier in the mixer 150.

As described above, the carrier wave generated and supplied from the voltage controlled oscillator 160 is a signal supplied by a signal generated from the reference oscillator 11 regardless of direct modulation to voice. Regardless, the carrier is always constant.

In addition, when the intercarrier carrier 4.5MHZ of the voltage controlled oscillator 160 is divided by the frequency divider 180 for 18 minutes, it becomes 0.25MHZ, and the generated signal of the 0.25MHZ and the reference oscillator 11 are compared with the first phase detector 170. The frequency control is performed since it is input to the voltage controlled oscillator 160. Therefore, since the voltage controlled oscillator 160, the first phase detector 170, the divider 180 and the reference oscillator 11 are configured as one independent phase-locked loop (PLL), they can independently supply voice carriers. It can be seen that the modulation method.

In addition, since the image carrier is once locked, the mixer 150 may obtain a desired output in which frequency control is performed in the mixer 150.

As described above, in the frequency control of the voice carrier signal, by adopting a modulation method capable of supplying the voice carrier independently, the carrier signal in an unmodulated state is configured and controlled as an independent PLL, thereby providing more complete frequency control. .

Claims (1)

Channel modulation of a television having an image intermediate frequency modulation means, a first phase detector 170, an audio signal processor 13, a mixer 150, a reference oscillator 11, a filter 3, and an RF mixer 4 In the circuit, an integrator 304 for inputting and integrating a voice signal output from the voice signal processor 13 and a carrier signal having a difference frequency of video and audio according to the output of the first phase detector 170 are generated. A voltage controlled oscillator 160, a 90 ° phase shift circuit 301 for shifting a phase of the carrier b1 output from the voltage controlled oscillator 160 by 90 °, and an output of the integrator 304 and 90 The balance modulator 302 outputs only the modulated signal AM by multiplying the output of the phase shift circuit 301 and the modulated voltage controlled oscillator 160 of the balance modulator 302. A synthesizer 305 for synthesizing a carrier b2 and providing the FM signal to the mixer 150 as the FM signal; Control oscillator 160, a frequency divider output to a first phase detector 170, frequency divider 180 to the television channel modulator characterized by a circuit configured to provide the.

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