KR950001598Y1 - Tuning circuit - Google Patents

Abstract

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Description

Tuning holding circuit at the moment of broadcasting stop

1 is a conventional tuning circuit diagram of an instantaneous broadcasting stop.

2 is a tuning maintenance circuit diagram of an instantaneous broadcasting stop of the present invention.

3 is a waveform diagram (a) to (h) according to the present invention.

* Explanation of symbols for main parts of the drawings

1, 2: comparator 3: differential circuit

4: integrating circuit 5: microcomputer

6: comparison output unit 7: switching circuit unit

8: Comparative output input control unit Q ₁ ~ Q ₆ : Transistor

R ₁ to R ₆ : Drive part C ₁ to C ₄ : Condenser

The present invention relates to tuning, and more particularly, to a tuning maintenance circuit at an instantaneous stop of broadcasting to maintain a local oscillation frequency for a predetermined period when a broadcast reception state is not detected momentarily.

In the conventional broadcast instant stop tuning circuit, a comparator for comparing and receiving a reference voltage of 2 and 1 at one input terminal and an AFT (Automatic Fine Tuning) output voltage at another input terminal as shown in FIG. A comparison output section 6 for outputting the AFT + and AFT- voltages that are varied in the output voltage and the resistor R1 and R2 of (2), and the AFT + and AFT- voltages output from the comparison output section 6; And a microcomputer 5 for outputting the PLL data according to the tuner.

Looking at the conventional technology configured as described above are as follows.

When the broadcast disappears instantaneously, since the AFT output voltage changes immediately, the output voltages AFT + and AFT- of the comparators 1 and 2 receiving the AFT output voltages and the reference voltages 2 and 1 respectively change. Therefore, the microcomputer 5 which received this conversion output outputs the PLL data value changed by the tuner.

However, in this conventional technique, when the local oscillation frequency (f _osc ) is changed and the broadcast is returned to its original state, the AFT output value is changed again to undergo a retuning process, and an instantaneous detuning (unstable) state is caused. There was a disadvantage.

Accordingly, in order to solve the above-mentioned disadvantages, the present invention devised a tuning circuit for stopping at the moment of broadcasting to maintain a stable state for a predetermined time without an unstable local oscillation frequency. When described in detail with reference to as follows.

2 is a tuning sustain circuit diagram of the instantaneous broadcasting of the present invention. As shown in FIG. 1, the comparator (1) and (2) receive the reference voltages 2 and 1 through their (+) (-) input terminals, and the other (- ) A comparison output unit 6 that receives and compares the AFT output voltages to the (+) input terminal and outputs the corresponding voltage, and outputs a PLL data value according to the comparison output of the comparison output unit 6 to the tuner. The microcomputer 5 to keep the local oscillation frequency constant, and the comparison output input control unit 8 to prevent the output voltage of the comparison output unit from being input to the microcomputer 5 for a predetermined time when a broadcast signal is not detected. ).

Referring to the operation and effects of the present invention configured as described above in detail.

In the state of the first broadcast, as detected by the non-shown sync signal extracting unit, the low level sync signal SYNC is differentiated through the differential circuit 3 from the sync signal detecting unit as shown in FIG. When the signal is integrated through the integrating circuit 4 and input to the switching circuit section 7, the transistor Q ₁ (Q ₄ ) of the switching circuit section 7 is turned off so that a current flows in the base of the transistor Q ₂ . Does not flow, so the transistor Q ₂ is also turned off, as shown in FIG. As the transistor Q ₄ is turned off, the potential of the point A on the emitter side of the transistor Q ₄ also becomes a low potential state as shown in FIG.

As a result, as the transistors Q ₁ , Q ₂ , and Q ₄ are turned off, the transistor Q ₅ is also turned off so that there is no charge voltage of the capacitor C ₁ through the resistor R ₆ . ₃ ) (Q ₆ ) is off. The output signal of the comparison output section 6 is applied to the microcomputer 5 as it is.

Therefore, when the comparison output (AFT-) (AFT-) of the comparison output section 6 is input, the microcomputer 5 counts after the AFT + signal is input and counts when the AFT- signal is input. After finishing, set the point where the counted value is 1/2 as the forward tuning point, and output the PLL data to the tuner by using the tuner to keep the tuner's local oscillation frequency constant.

At this time, if the broadcast disappears instantaneously due to the situation of the broadcasting station, the synchronization signal becomes “high” state, so that the transistor Q ₁ is changed by the time constants of the resistor R7 and the capacitor C2 as shown in FIG. The moment that it is turned on for t ₁ (t ₁ = R ₇ C ₂ ) time, the transistor Q ₂ is turned on as in (c) of FIG.

On the other hand, since the sync signal SYNC goes high, the transistor Q ₄ is also turned on, so that a low signal is applied to the base of the transistor Q ₅ , so that the power supply voltage Vcc supplies the transistor Q ₂ (Q ₅ ). therefore it applied through the base of the transistor (Q ₃₎ (Q ₆₎ the transistor (Q ₃₎ (Q ₆₎ is turned on. At this time, the potential at the emitter side of the transistor Q ₄ gradually decreases as shown in (e) in FIG. 3, and the potential at the point A is as shown in (d) in FIG. do. The collector potential of the transistor Q ₅ and the potential at the point B are the same as in Fig. 3B.

Then, since the transistors Q ₃ and Q ₆ are turned on, the AFT + and AFT− signals changed in the comparison output section 6 are not input to the microcomputer 5, but are bypassed through the transistors Q ₃ and Q ₆ . Since the microcomputer 5 has no input, the microcomputer 5 keeps its local oscillation frequency constant as it is.

That is, since the local oscillation frequency is kept constant for a certain period of time, it is not necessary to go through the retuning process, so that even if the broadcast is revived, the instantaneous screen non-tuning state is not shown.

However, for example, when the control unit does not control the comparison output input control unit 8, AFT + and AFT- change, and the local oscillation frequency changes, thereby causing retuning.

In addition, if the instantaneous power failure as described above does not have a broadcast signal but a state in which there is no broadcast signal continues to be maintained, i.e., the synchronization signal is continuously " high ", the transistor Q as shown in (d) of FIG. ₄₎ a higher a point potential, so that Vcc as in the third degree (F) transistor by (Q ₅₎ is "off" and the transistor (Q ₅₎ is when the "off" third-degree (g) and (h by) begins to discharge the capacitor (C _1), as in the transistor (Q _3, Q ₆₎ it becomes "off".

Therefore, the output (AFT +) (AFT-) value of the comparison output unit 6 is supplied to the microcomputer, so that if there is no broadcast after a certain period of time, the process of retuning is performed.

Therefore, if the time without broadcast is long, the original retuning process is performed.

Therefore, the present invention has the effect of maintaining a stable tuning state by suppressing frequent tuning.

Claims (1)

A comparison output unit 6 which outputs a voltage corresponding to an upper limit frequency and a lower limit frequency of an automatic fine tuning (AFT) generated by an automatic tuning signal and comparing the reference voltage with a reference voltage, and the tuning frequency data according to the comparison output of the comparison output unit If the microcomputer 5 outputting to the tuner and the broadcast signal passing through the frequency band are not detected, the output voltage of the comparison output section 6 is not input to the microcomputer for a predetermined time so that the previous local oscillation frequency is adjusted. And a comparison output input control section (8) for controlling to maintain the tuning.