KR830001120B1 - Television receiver with synchronous detection and automatic fine tuning - Google Patents

Abstract

The detecting signal of a phase detector(7) is applied to two low pass filters(11, 12), where the output voltage of the first LPF(11) controls the variable frequency generator(5), and that of the second LPE(12) applied to the tuner(2) through the AFT swith(10) controls the freguency of the local generator. This system composed of PLL(A) for the control of the phase detector, and PLL(B) for the AFT.

Description

Television receiver

1 is a schematic diagram of an example of a conventional television receiver.

2 is a schematic diagram of a television receiver according to the present invention.

3 through 5 show examples of the characteristics of the first low pass filter.

* Explanation of symbols for main parts of the drawings

(2): Tuner (3): Intermediate Frequency Amplifier

(4): Image detector (5): Voltage controlled variable frequency oscillator

(6): Ideal phase (7): Phase detector

(11): first low pass filter 12: second low pass filter

It has been proposed to perform video detection by synchronously detecting a video intermediate frequency signal as a signal from an oscillator in a television receiver, and to perform auto-tuning and so-called AFT with a simple configuration using the signal of the oscillator. .

의 이상량(移相量)을 갖는 이상기(移相器)(6)를 통해서 영상검파기(4)에 공급되며, 동기검파에 의하여 영상신호가 검파된다. 영상중간 주파증폭기(3)로 증폭된 영상중간 주파신호는 또 위상검파기(7)에 공급되어서 발진기(5)로부터의 영상중간 주파수의신호로 위상 검파된다. 그리고, 이 위상검파기(7)의 검파신호는 하이패스필터(8)에 공급되어, 하이패스필터(8)의 출력전압으로 가변주파수 발진기(5)가 제어되고, 다시 위상검파기(7)의 검파신호는 로우패스필터(9)에 공급되어, 로우패스필터(9)의 출력전압이 AFT 스위치(10)를 통해서 튜우너(2)내의 국부 발진기에 공급되어서 국부발진 주파수가 제어된다.FIG. 1 is one example, in particular, to increase the capture distance. That is, the high frequency signal received from the antenna 1 is supplied to the tuner 2 to obtain an image intermediate frequency signal, which is amplified by the image intermediate frequency amplifier 3 and supplied to the image detector 4 made of a synchronous detector. On the other hand, a voltage controlled variable frequency oscillator 5 is provided, whereby a signal having a video intermediate frequency is obtained.

The image detector 4 is supplied to an image detector 4 through an ideal phase 6 having an ideal amount of. The image signal is detected by synchronous detection. The image intermediate frequency signal amplified by the image intermediate frequency amplifier 3 is also supplied to the phase detector 7 and phase detected by a signal of the image intermediate frequency from the oscillator 5. The detection signal of the phase detector 7 is supplied to the high pass filter 8, and the variable frequency oscillator 5 is controlled by the output voltage of the high pass filter 8, and the detection of the phase detector 7 is again performed. The signal is supplied to the low pass filter 9, and the output voltage of the low pass filter 9 is supplied to the local oscillator in the tuner 2 via the AFT switch 10 so that the local oscillation frequency is controlled.

가 어긋나도록 제어되며, 따라서 영상검파기(4)에 있어서는 영상중간 주파신호가 그 반송파의 위상과 같은 위상의 신호로 동기검파되어 정상적인 영상검파출력이 얻어진다.According to this configuration, the AFT consists of a phase synchronization circuit including a phase detector 7 and a low pass filter 9, so-called PLL (B), as indicated by the arrow, so that the AFT switch 10 is "on". In this case, the PLL (B) allows the carrier of the video intermediate frequency signal obtained by the video intermediate frequency amplifier 3, that is, the phase of the video intermediate carrier, to match the phase of the signal from the oscillator 5.

Is controlled so as to deviate. Therefore, in the image detector 4, the intermediate frequency signal of the image is synchronously detected by a signal having a phase equal to that of the carrier wave, thereby obtaining a normal image detection output.

However, in this configuration, since the oscillator 5 is controlled by the output voltage of the high pass filter 8, when the AFT switch 10 is turned "off", the PLL (B) is cut off, and thus the intermediate video amplifier ( The phase of the carrier of the image intermediate frequency signal obtained in 3) and the phase of the signal from the oscillator 5 do not have a constant relationship as described above. Therefore, a normal image detection output cannot be obtained from the image detector 4. It becomes.

The present invention eliminates the above drawbacks.

In the present invention, as shown in FIG. 2, the detection signal of the phase detector 7 is supplied to the two low pass filters 11 and 12, and the variable frequency is output to the output voltage of the first low pass filter 11. The oscillator 5 is controlled and the local oscillation frequency is controlled by supplying the output voltage of the second low pass filter 12 to the local oscillator in the tuner 2 via the AFT switch 10. That is, in the present invention, the PLL (A) for controlling the oscillator 5 including the phase detector 7 and the low pass filter 11, and the AFT for the phase detector 7 and the low pass filter 12. It configures two PLLs with PLL (B).

어긋나도록 제어되며, 따라서 영상검파기(4)에 있어서는 영상중간 주파신호가 그 반송파의 위상과 같은 위상의 신호로 동기검파되게 되어, AFT스위치(10)를 "오프"로 하여도 정상적인 영상검파출력이 얻어진다.According to this structure, when the AFT switch 10 is turned "off", the PLL (B) is cut off, but since the PLL (A) exists, the signal from the oscillator 5 is generated by this PLL (A). The phase of is equal to the phase of the carrier of the image intermediate frequency signal obtained from the image intermediate frequency amplifier (3).

In the image detector 4, the intermediate frequency signal is synchronously detected by a signal having the same phase as that of the carrier wave, so that the normal image detection output is achieved even when the AFT switch 10 is turned "off". Obtained.

In this case, in order to increase the first landing distance, the cutoff frequency of the low pass filter 11 of the PLL (A) may be increased to a required high frequency, for example, about 2 MHz. In this manner, the cutoff frequency of the low pass filter 12 of the PLL (B) may be sufficiently low, and may be about 5 to 6 Hz.

According to such a configuration, when the frequency of the image intermediate frequency signal obtained by the image intermediate frequency amplifier 3 varies, considering where the PLL (A) and PLL (B) are stabilized, the PLL (A) side If the loop gain of is GA and PLL (B), the loop gain of GB is GB, and the variation of the local oscillation frequency is Δf _L , and the variation of the oscillation frequency of the oscillator 5 introduced at that time is Δf _O.

……………………… (1)

… … … … … … … … … (One)

There is a relationship. Therefore, as for the variation of the local oscillation frequency, the larger the G _B / G _A , the smaller the variation of the oscillation frequency of the oscillator 5.

Therefore, in the above-described configuration, the loop gain G _A of the PLL (A) is suppressed to the extent necessary to secure the capture distance, and the loop gain G _B of the PLL (B) is reduced to the loop gain G _A of the PLL (A). On the contrary, it is made large enough either DC or AC.

In this way, the fluctuation of the oscillation frequency of the oscillator 5 becomes sufficiently small, and the oscillator 5 can be operated almost as a reference oscillator.

Further, even if the loop gain G _B of the PLL (B) is increased, the cutoff frequency of the low pass filter 12 of the PLL (B) may be sufficiently low as described above, so that the damping can be easily improved, and the special No harm to stability.

Incidentally, the first low pass filter 11 is not limited to those of ordinary characteristics as shown in FIG. 3, and may have a peaking characteristic as shown in FIG. 4. Alternatively, the first low pass filter 11 may have a trap characteristic as shown in FIG. .

According to the present invention described above, even when the AFT is turned off, the normal shape detection output can be obtained. Furthermore, the acquisition distance can be increased without compromising stability, and the variable frequency oscillator can be operated as a reference oscillator in most cases.

Claims (1)

Tuner means comprising a local oscillator for converting an AM signal into an IF signal, and phase detector means for providing a phase error signal comprising AC and DC components in response to the IF signal. And synchronizing image detector means for providing an output signal in response to the IF signal, IF signal supply means for the phase detector means and the synchronous image detector means, the phase detector means and the synchronous image detector means. a variable frequency reference oscillator means for supplying a reference signal, and a frequency in the band ranging from DC to the first cutoff frequency, connected between the phase detector means and the local oscillator of the tuner and for controlling the local oscillator. A first low pass filter and a phase detector connected to the reference oscillator means and passing through a frequency in the range from DC to the second cutoff frequency. And a second low-pass filter, and since the first cutoff frequency is sufficiently smaller than the second cutoff frequency, an automatic fine tuning for receiving the AF signal can be activated and at the same time a phase detector A television receiver having a circuit of AM signals through which both AC and DC components of a phase error signal can pass through the reference oscillator means.

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