KR970001892Y1 - A circuit for detecting sound intermediate frequency - Google Patents

Abstract

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Description

Voice Intermediate Frequency Detection Circuit

1 is a conventional voice intermediate frequency detection circuit diagram.

2 is a voice intermediate frequency detection circuit diagram of the present invention.

3 is a table of oscillation and mixed frequencies according to each broadcasting scheme.

* Explanation of symbols for main parts of the drawings

1: video amplifier 5: control signal generator

7: High pass filter for PAL 8: High pass filter for NTSC

14 Mixer 15 PAL Oscillator

16: NYSC oscillator 18: 6.0 MHz bandpass filter

19: FM detector 20: discrimination circuit

SW1: first selection switch SW2: second selection switch

The present invention relates to a voice intermediate frequency detection circuit of a multi-system, and in particular, even if any broadcast type is received, an FM detection input is performed using a mixer and two oscillators. The present invention relates to a voice intermediate frequency detection circuit for inputting a single voice intermediate frequency (hereinafter, referred to as SIF) to be detected by one discriminator to obtain audio having good characteristics.

Conventionally, as shown in FIG. 1, a high pass filter 2 for filtering to obtain an SIF component among video signal components passed through the video amplifying unit 1, and each of the signals passed through the high pass filter 2, respectively. A bandpass filter (3) for filtering with different bandpass characteristics (B / G: 5.5MHz, I: 6.0MHz, D / K: 6.5MHz) according to the reception method, and the bandpass filter (3) An amplifier 4 for amplifying the signal, an oscillator 5 for outputting an oscillation signal for making the amplified signal of the amplifier 4 amplified to 6.0 MHz, an amplified signal and an oscillator of the amplifier 4 ( A mixer 6 for mixing the oscillation frequency of 5), a band pass filter 7 for passing only a signal necessary for FM detection among the output signals of the mixer 6, and a SIF component through the high pass filter 2; 4.5MHz band which passes the signal which passed the high pass filter 8 which once again filters the FM detection is performed on the signal filtered through the pass filter 9, the band pass filter 7 and 9, and the FM detection unit 10 which outputs an audio signal when detected is finally determined. And a discriminating circuit 11 for outputting audio.

The conventional speech intermediate frequency detection circuit configured as described above operates as follows.

The video signal amplified by the video amplifying unit 1 is input from the high pass filter 2 and 8 to perform high pass filtering to remove unnecessary video components and to extract a SIF signal. In this way, the extracted SIF signal is obtained through a band pass filter having a characteristic corresponding to each broadcasting method.

For example, when the broadcasting method is the PAL method, the amplification unit 4 receives the amplification unit 4 through the bandpass filter 3 of 5.5M, 6.0M, and 6.5MHz, and delivers the amplification unit to the mixer 6. Then, the mixer 6 mixes the oscillation signal to make 6.0M in the oscillator 5 and passes the 6.0 MHz band pass filter 7 to remove unnecessary signals generated when the two signals are mixed to remove the FM detector ( 10), this signal is determined to be 6.0MHz or 4.5MHz to output audio, where it is determined to be 6.0MHz. The signal through the high pass filter (NTSC) of the NTSC method is again sent through the high pass filter (8) and then directly to the FM detector (10) via the 4.5 MHz band pass filter (9). Lose.

Therefore, in the FM detector 10, it is determined by the FM discrimination circuit 11 at 4.5 MHz, and audio is output to the final output terminal.

However, in the conventional technology operating as described above, in order to output desired audio components when receiving NTSC and PAL methods, each broadcasting method (B / G, I, D / K) is used. However, there is a problem that the audio output of the same characteristic cannot be obtained due to the influence of mutual interference and inconsistent time constant.

In view of this, the present invention uses NTSC oscillator and NTSC oscillator to transmit signals through different SIF input circuits when receiving NTSC and PAL. An intermediate frequency detection circuit designed to reduce the effect of SIF mutual interference of the PAL) method and obtain better audio quality using the same discrimination circuit is described in detail with reference to the accompanying drawings.

SIF trap section (2) for trapping the SIF signal of the video signal through the video amplification section (1), a video equalizer (3) and the video equalizer to compensate for deterioration such as frequency characteristics generated during signal passing In accordance with the vertical synchronous signal detection unit 4 for detecting only the vertical synchronous signal V-SYNC from the video signal through (3) and the received synchronous signal V-SYNC output from the vertical synchronous signal detection unit 4. A control signal generator 5 for generating an NTSC control switching signal or a PAL control switching signal and a control switching signal of the control signal generator 5 are selected to select a system. A first pass switch (SW1) for switching to pass through; and a high pass filter (7) (8) for PAL and NTSC for passing a band corresponding to the received broadcast method according to the selection of the first selector switch (SW1); Through the high pass filter (7), (8) arm (PAL) method In the case of 5.5M, 6.5M, and 6.0MHz, NTSC (band pass filter (9, 10, 12) 11 for filtering by passing the 4.5MHz band in the case of the method), and the bandpass filter ( 9, 10, 11, 12, and amplification unit 13 (17) for amplifying a predetermined level with respect to the signal filtered through the mixer 14, and the control switching signal of the control signal generator (5) Accordingly, the second selection switch SW2 for selectively outputting the oscillation signals of the PAL or NTSC oscillators 15 and 16 to the mixer 14, and the signal and mixer 14 amplified by the amplifier 17 And a 6.0 MHz band pass filter 18 for filtering the mixed signal through the 6.0 MHz band, and detecting the signal of the filter 18, and finally detecting the signal through the discrimination circuit 20, and then performing an FM output for audio output. It consists of a part 19.

If described in detail the operation and effect on the speech intermediate frequency detection circuit of the present invention configured as described above.

The video signal amplified by the video amplifier 1 is inputted from the SIF trap unit 2 to trap the SIF signal, and the video equalizer 3 compensates for the deterioration of frequency characteristics generated when the SIF signal passes through each unit. The vertical synchronization signal detection unit 4 detects only the vertical synchronization signal and outputs it to the control signal generator 5. Therefore, the control signal generator 5 sends the control switching signal for selecting the NTSC or PAL method to the first and second selection switches SW1 and SW2, respectively, according to the input vertical synchronization signal. Output to switch.

For example, when the operating terminal of the first selection switch SW1 is switched to the PAL high pass filter 7 by the control switching signal generated from the control signal generator 5, the second selection switch SW2 is operated at the same time. The terminals are also switched to the PAL oscillator 15. Therefore, the video signal passing through the PAL high-pass filter 7 is a band pass filter (9, 10) of the corresponding frequency (B / G: 5.5MHz, I: 6.0MHz, D / K: 6.5MHz) ( After amplification, the amplification unit 13 is amplified to a predetermined level by the amplification units 13 and 17. Here, the amplified signal through the amplifier 13 is mixed with the oscillation signal applied from the PAL oscillator 15 in the mixer 14 and passes through a 6.0 MHz band pass filter 18.

In addition, the signal amplified by the amplifier 17 is directly input to the 6.0MHz bandpass filter 18 without passing through the mixer.

Similarly, when the control switching signal generated by the control signal generator 5 is NTSC, the movable terminal of the first selector switch SW1 is the NTSC high pass filter 8 and the movable terminal of the second selector switch SW2. Switches to the NTSC oscillator 16. Therefore, the signal through the NTSC high pass filter 8 is applied to the mixer 14 through the amplification unit 13 after passing through the 4.5 MHz band pass filter 11 and the oscillation applied from the NTSC oscillator 16. Mix with the signal.

Here, when the oscillation frequency is the M method, as shown in FIG. 3, the NTSC oscillator 16 is operated to oscillate 1.5 MHz and send it to the mixer 14, and when the PAL method is received, the PAL oscillator 15 operates. 500KHz is oscillated and sent to the mixer 14.

The signal (SIF + oscillation frequency) mixed by the mixer 14 passes only the signal necessary for FM detection by the band pass filter 18 having a 6.0 MHz (± 50 KHz) bandpass characteristic.

The signal passing through the 6.0 MHz band pass filter 18 is input to the FM detector 19 and finally detected by the discrimination circuit 19 to output audio.

In addition, the signal amplified by the amplifier 17 via the 6.0 MHz band pass filter 12 is directly sent to the FM detector 18 via the 6.0 MHz band pass filter 18 to output audio.

As described in detail above, the present invention reduces the effects of NTSC and PAL SIF interference by unifying the FM detection discrimination circuit using NTSC, PAL and NTSC oscillators. The effect is to use a circuit to get better audio output.

Claims (1)

The SIF trap unit 2 traps a voice intermediate frequency (SIF) signal among the video signals through the video amplification unit 1, and the frequency characteristics generated when a signal passes through the signal input from the SIF trap unit 2, and the like. A video equalizer 3 for compensating for deterioration, a vertical sync signal detector 4 for detecting only a vertical sync signal V-SYNC from a video signal through the video equalizer 3, and the vertical sync signal detector 4 A control signal generator 5 for generating a control switching signal for selecting an NTSC method or an PAL method according to the received synchronization signal V-SYNC outputted from A first selection switch SW1 for switching to select a system by switching according to the control switching signal of the unit 5 and a band corresponding to a broadcast method received according to the selection of the first selection switch SW1; High pass filter for PAL and NTSC (7) (8) A band pass filter (9, 10, 12) (11) for filtering the output signal to the frequency of the received broadcast, and the signal filtered through the band pass filter (9, 10, 11) 12 to a predetermined level The mixer 14 outputs the oscillation signal of the PAL or NTSC oscillator 15, 16 according to the control switch signal of the amplifying unit 13 and 17 and the amplifying unit 13 and 17 outputted to the mixer 14. 6.0MHz bandpass filter for filtering the second selection switch (SW2) to be selectively output to the) and the signal amplified by the amplifier 17 and the mixed signal through the mixer 14 to pass through the 6.0MHz band And an FM detector (19) which detects the signal of the band pass filter (18) and finally discriminates the signal through a discrimination circuit (20), and then outputs an audio signal.