KR800000551B1 - Television tuner - Google Patents

Abstract

A television tuner comprises a radio frequency amplifier(1), a mixer(2), a local oscillator(3), a voltage generating circuit(4), and a DC amplifier(5). the intermediate frequency amplification and processing stages are connected to a mixer, and a mixer has means for separating a frequency component of the IF television signal. This tuner has means for controlling the output of a local oscillator in accordance with the first voltage to stabilzed the oscillation frequency.

Description

Television tuner

1 is a block diagram showing the circuit configuration of the VHF tuner of the present invention.

2 is a partial circuit diagram of an embodiment of the present invention,

3 is an integrated circuit diagram for generating an AFT voltage;

4 to 6 show one example of characteristics in the VHF tuner of the present invention.

7 is a circuit diagram showing a part of another embodiment of the present invention;

8 shows an example of characteristics in the VHF tuner of the present invention.

9 is a block diagram showing another embodiment of the present invention.

The television tuner of the present invention relates to a voltage generator circuit for automatic oscillator frequency tuning (hereinafter abbreviated as AFT) and automatic gain control (hereinafter abbreviated as AGC) in a VHF tuner. The present invention relates to a television tuner with an AFT function and an AGC function that can be supplied internally and obtain stable operation even for a UHF tuner.

Referring to the block diagram of the configuration of the present invention in FIG. 1, the VHF TV signal from the antenna terminal 6 is amplified by the high frequency amplification circuit 1, and the oscillation obtained from the oscillation circuit 3 equipped with an AFT circuit. It is injected into the mixing circuit 2 together with the injection voltage, and the intermediate frequency signal converted in the mixing circuit 2 is connected from the intermediate frequency output terminal 7 to the next intermediate frequency amplifier (not shown).

On the other hand, the image intermediate frequency signal is taken out from the mixing circuit 2 separately, amplified, and then disturbed oscillation by extracting the AFT voltage by the AFT voltage generating circuit 4 and returning it to the oscillating circuit 3. A stable and accurate oscillation frequency is obtained against fluctuations of external factors. In addition, the switch 50 for deflecting the AFT effect shown in FIG. 2 is turned OFF when adjusting the tuning circuit, fine tuning, or channel switching, for example, to stop the AFT function. It is attached to the tuner.

The AGC voltage generated in the AFT voltage generating circuit 4 is directly amplified by the DC amplifier 5 to supply the voltage to the high frequency amplifying circuit 1 and to provide the AGC effect corresponding to the magnitude of the input signal inside the tuner. As a result, the distortion of the output is reduced, and the detection diode of the AFT voltage generating circuit 4 is also adjusted for the level change of the image intermediate frequency signal to minimize the change in the tuning frequency.

Next, this operation will be described in more detail with reference to the drawings. FIG. 2 shows a detailed electrical circuit of each block diagram shown in FIG. 1 described above, and the TV signal introduced at the antenna terminal 6 is a turret type. Alternatively, by channel switching means such as a switch type, each switching channel is amplified and amplified and supplied to the base of the mixing shear transistor 9. On the other hand, the oscillation voltage obtained by the oscillation circuit 3 is also injected into the base of the transistor 9 through the injection capacitor 39 to perform the conversion operation. A capacitor 12 is connected between the collector of the mixing front end transistor 9 and the ground, and the emitters of the transistors 10 and 11 in the next stage for mixing are also connected to the collector of the front end transistor 9. This connection is a so-called differential configuration, but the mixing operation is a cascode configuration, and the capacitor 12 acts as a bypass capacitor for the local oscillation frequency and the rear end transistor 10 for the converted intermediate frequency signal. Since the input admittance is flexible to the base ground, it acts as a resonant capacitor for the intermediate frequency, and its capacitance is usually selected to be about 10PF.

In addition, the TV signal of the intermediate frequency is resonated by a tuning circuit (filter) 13 which becomes part of stagger tuning and is coupled from the terminal 7 to the intermediate frequency amplifier stage.

On the other hand, the image intermediate frequency is amplified by the transistor 11 and then coupled to the AFT voltage generating IC 16 via a tuning circuit 14 (filter) and a resistor 15 for impedance matching adjustment. In general, the intermediate frequency amplifier is staggered tuning, and the center frequencies of the tuning circuits of the respective amplifier stages are different, but by the same configuration as the present invention, the resonance frequency of the tuning circuit 13 is lower than the image intermediate frequency under any conditions. No disturbance due to coupling with the circuits 13 and 14 does not occur. Next, a detailed circuit example of the AFT voltage generation IC 16 (corresponding to RCA CA 3064, MC1364 of motorola Co., Ltd.) is shown in FIG. 3, and the detailed operation will be omitted and briefly described with reference to FIG. The image intermediate frequency signal supplied to (21) is supplied to the discriminator transformer (17) from the terminal (24) after DC (or direct) amplification, and its secondary output is connected to the terminals (26, 27). Coupled to transistors 56, 59, and detected by a diode between its base emitters, and the respective signals are amplified in transistors 60, 61, and the fourth from terminals 29, 30. The voltage as shown in the figure is detected.

At this time, if the signal at the terminals 26 and 27 is large, the voltage obtained by the collector of the transistor 62 is high, and if the signal is amplified by the transistor 63, the voltage drop of the resistors 67 and 68 is increased to be a transistor. AGC effect occurs at (51), (52), (56) and (59). On the other hand, the AFT voltage from the terminals 29 and 30 is connected to the capacitive conversion diode 32 of the oscillation circuit 3 so that the change in the capacitance operates in the direction of making the change in the local oscillation frequency small. A so-called AFT function is performed in which the oscillation frequency changed by factors such as humidity is returned to a normal frequency.

In addition, the DC voltage of the terminal 28 is boosted by the zener diode 41 and the semi-fixed resistor 42 to be amplified by the transistor 40. At this time, since the emitter terminals 45 and 46 have the thermistor 44 in the collector terminal and the emitter current becomes large when the voltage of the terminal 28 decreases, The resistance value is further reduced by the Joule column, so that the DC voltage of the terminal 47 becomes a delay type AGC characteristic. This property is shown in FIG.

By supplying the voltage of the terminal 47 to the high frequency amplification 1, for example, when a bipolar transistor is used, it operates as a forward AGC and gains without deteriorating the entire NF. Since the pressure of the delimiter transformer 17 of the AFT voltage generating circuit 4 is constant, there is no doubling of the tuning frequency, so that a stable oscillation frequency can be maintained for the input level change.

As a result, a stable output is obtained at the terminal 7 with respect to the level of the input TV signal, and the gain variation between the channels is also substantially reduced. Fig. 6 shows the change of the oscillation frequency when the AFT depth switch 50 is turned off and on. In this case, stable operation is performed when the TV signal level is 50 (dB / m) or more, and even when the local oscillation frequency is changed by ± 1 MHz, it can be suppressed by the change of ± 50 MHz necessary for receiving the color signal.

7 shows another embodiment of the present invention (parts like those in FIG. 2 are denoted by the same numerals, and description thereof is omitted), the intermediate frequency amplifier between the mixing circuit 2 and the AFT voltage generating IC 16 is shown. In other words, it extends the range of use of AFT operation. In other words, the image center frequency signal is amplified by the transistor 11 and then amplified by the intermediate frequency amplifying transistor 77, and is passed to the terminal 21 of the AFT voltage generating IC 16 via the tuning circuit 78. Supplied. On the other hand, the DC amplification transistor 40 uses the AGC voltage of the terminal 28 of the AFT voltage generating IC 16 as shown in FIG. 2, and then amplifies the diodes 71, 72, resistors 73, 74 after amplification. ) And the voltages obtained by (75) and (76) are supplied from the transistor 77 and the terminal 47 to the high frequency amplifier stage 1 as a delay AGC. As a matter of course, initially performing AGC operation on the transistor 77 and then performing high frequency amplification is preferable in order not to deteriorate the NF.

As a result, a sufficiently stable performance was obtained between the TV input signal level 30 (dB / m) and 100 (dB / m). According to the present invention, various wirings are required between the conventional VHF tuner and the IF amplifier, but these are extremely simplified and the nonuniformity can be corrected according to the performance and characteristics of individual amplifiers. This uniformity also has the advantage.

In addition to the fact that the oscillation frequency is stabilized by having the AFT circuit inside the tuner, the function can be stopped by connecting the external switch 8 in parallel with the dip switch 50 as necessary. This is especially convenient when receiving in the electric field or when the adjacent channel is high power.

If the VHF tuner is used as part of the intermediate frequency amplifier in conjunction with the UHF tuner, its output is connected to terminal 6-1, and the terminals 37 and 38 are connected to the AFT terminal of the UHF tuner, and then the AFT depth The same switch is used by connecting a switch such as switch 50 to the UHF tuner in parallel. In this case, if the UHF tuner has a high frequency amplification terminal and an active element such as VHF is used, the UHF tuner and the VHF tuner can both function by connecting the output of the terminal 47 to the AGC terminal of the UHF tuner. Do.

In addition, the B power supply 33 of the local oscillator 3 is not made in common with the B power supply 48 of the RF stage or the mixed stage, and can be connected to the B power supply 22 of the AFT voltage generating circuit 16 to obtain stable characteristics. have. That is, in FIG. 3, the zener diodes 64, 645, and 66 are connected and stabilized between the terminals 22 and 23, and in some cases, the same power is applied to the oscillation transistor of the UHF tuner. It is possible. In addition, in FIG. 7, when the resonance frequencies of the tuning circuits 14, 78, and 17 are adjusted to the voice intermediate frequency (for example, 54.25 MHz), the Q of the tuning circuit 14 is made as large as possible. The waveform of the output terminal 7 causes a trap shape at a voice intermediate frequency as shown in FIG.

In general, in the input circuit of the intermediate frequency amplifier stage, the audio trap is used to prevent the influence of the audio signal to the video signal. However, in the present invention, the same effect occurs in the tuner. In addition, the output of the terminal 29 or the terminal 30 has a proportional relationship between a frequency change and an output voltage of approximately ± 100 kV near the resonance point as shown in FIG. Since a TV audio signal has a maximum frequency shift of ± 25 Hz in Japan, it is sufficiently detected in the FM, and thus, the output voltage of the terminal 29 or 30 is sufficiently used as the audio output.

9 is a block diagram of another embodiment of the present invention. If the oscillation frequency of the crystal oscillator 79 is, for example, 49.75 MHz, the output of the amplifier 80 having the function of mixing with the intermediate frequency amplification becomes 4.5 MHz when the audio intermediate frequency is 54.25 MHz. Therefore, it has the same function as the integrated circuit 16 for generating AFT voltage. Since the integrated circuit 81 has a low use frequency, gain can be sufficiently obtained, which is convenient for practical use.

After the AGC voltage amplification by the DC amplifier 82, the AGC voltage is fed back to the amplifier 80 or the tuner as in the case described above. In addition, when the direct voice intermediate frequency is directly detected

의 약 10배로 되고, 예를들면, AFT동작을 ON으로 하였을때도 동조회로(17)의 공진주파수 이조에 의한 영향을 경감할수 있다. 또 제9도 쪽이 FM직선검파 범위가 넓어지므로 영상의 색(色) 전위보다도 먼저 음성이 왜곡되는 것같은 영향도 방지할수 있어 사용상 대단히 편리하다.In the case of FIG. 9 with respect to

Is approximately 10 times, and for example, even when the AFT operation is turned ON, the influence due to the resonance frequency shifting of the tuning circuit 17 can be reduced. In addition, since the FM linear detection range is wider in FIG. 9, it is possible to prevent the effect of distorting the sound before the color potential of the image, which is very convenient for use.

In addition, although the coil-switched tuner has been described for convenience of description, the same can be used for the varactor-type tuner, and the effect of the present invention can be realized without regret.

Claims (1)

A voltage generating circuit in which a video or audio intermediate frequency signal obtained by a mixing circuit of the high frequency amplifying circuit (1), the mixing circuit (2), and the local oscillating circuit (3) is generated through a FM detection circuit according to a frequency change. 4) In the television tuner in which the DC change is fed back to the local oscillation circuit 3 according to the frequency change to have an automatic frequency tuning function, the mixing circuit 2 has a signal from the high frequency amplification circuit 1. And an input voltage from the local oscillation circuit 3 as an input, the intermediate frequency signal for the rear end circuit of the television receiver and the video or audio intermediate for the voltage generation circuit 4 separate from the intermediate frequency signal. Television tuner characterized in that the frequency signal is configured to be output independently.

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