KR880002750Y1 - Oscillator signal control circuit - Google Patents

Abstract

No content.

Description

Outgoing call control circuit

1 is a conventional oscillation signal control circuit diagram.

2 is an oscillation signal control circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: horizontal synchronous gate 2: phase detector

3: voltage controlled oscillator 4: 1/160 divider

5: 1/4 divider 6: Reference voltage generator

TR ₁ , TR ₂ : Transistors R _1- R ₆ : Resistance

C ₁ : Capacitor A: Horizontal Sync Signal Input Terminal

V: reference output terminal

The present invention is a video recorder such as a video cassette recorder for recording and reproducing a video signal on a video tape, wherein the oscillation signal of 629 KHz is used to convert the color signal of the video signal into a low-pass signal when the video signal is recorded on the video tape. The present invention relates to an oscillation signal control circuit for generating an oscillation signal, and more particularly to an oscillation signal control circuit for clearly outputting an oscillation signal of 629HKz with or without a horizontal synchronization signal.

In general, a video recorder that records and plays back video signals on a videotape produces a 4.21MHz signal by synthesizing a 3.58MHz oscillation signal from an autophase control system with a 629KHz oscillation signal from an autofrequency control system. The 4.21 MHz signal and the 3.58 MHz color signal separated from the video signal are mixed, and the low frequency conversion of the color signal to 629 KHz is performed and recorded on the videotape.

In generating the oscillation signal of 629 KHz in the automatic frequency control system as described above, 160fH (where 1fH is the horizontal synchronization signal) output from the voltage controlled oscillator (Voltage Controlled Oscillator) 3 as shown in FIG. Frequency divider by 1/4 divider 5 to output a signal of 629 KHz, the voltage controlled oscillator 3 is controlled in accordance with the control voltage output from the phase detector (2).

That is, the horizontal synchronization signal inputted to the horizontal synchronization signal input terminal A and the horizontal synchronization signal through the horizontal synchronization gate 1 and the 160 fH signal output from the voltage controlled oscillator 3 are divided into 1/160 by the t-2 divider 4. The phase detector 2 compares the phase of the divided signal with the phase detector 2, and the voltage controlled oscillator 3 outputs an accurate 160 fH signal according to the control voltage outputted by the phase detector 2 and outputs the t-1 divider (5). ) Will output 629KHz.

However, such a conventional oscillation signal adjusting circuit has a phase comparator built in the phase detector 2 and comparing a phase of a signal obtained by dividing a horizontal synchronous signal with a signal of 160 fH at t-2. type), when the horizontal synchronization signal is normally input, the phase detector 2 outputs the correct control voltage, and the oscillation signal of 160 fH is output from the control voltage oscillator 3, and the t-1 divider 5 is 629 KHz. When the oscillation signal is outputted correctly, but there is no horizontal synchronization signal, or when it is not inputted or is tuned, the control voltage of the phase detector 2 is changed so that the voltage controlled oscillator 3 cannot output the oscillation signal of 160 fH accurately. When the color signal of the signal is converted to 629KHz by low frequency conversion, it cannot be recorded on the videotape, and even if the horizontal synchronization signal is input again, the voltage controlled oscillator (3) There was a time-consuming defects before the call is output.

The present invention, in view of such a conventional defect, detects whether the horizontal synchronous signal is input, and if the horizontal synchronous signal is not input, supplies a separate reference voltage to the voltage controlled oscillator and outputs the oscillation signal of 160 fH accurately. When described in detail with reference to the accompanying drawings of FIG. 2 as follows.

2 is an oscillation signal control circuit diagram of the present invention, in which the voltage controlled oscillator 3 outputs an oscillation signal of 160 fH, and the oscillation signal of 160 fH is represented by the t-1 divider 5 to t-1. It divides and outputs an oscillation signal of 629KHz and divides the oscillation signal of 160fH into t-1, and outputs the signal of t-2 divider (4) and the horizontal synchronous signal input terminal (A) through the horizontal synchronizing gate (1). In the oscillation signal adjusting circuit in which the phase detector 2 compares the phase of the horizontal synchronizing signal of the oscillator, and outputs the control voltage so that the voltage controlled oscillator 3 oscillates at 160 fH, R ₁ ) is connected to the capacitor C ₁ and the resistor R ₂ , and its connection point is connected to the base of the transistor TR ₁ via the resistor R ₃ , and the collector of the transistor TR ₁ is connected to the resistor ( R ₄ ) is connected to the base of the transistor TR ₂ and the connection point is connected to the resistor R ₅ . Through the emitter of the transistor TR ₂ and the reference voltage output terminal V of the reference voltage generator 6, and the collector of the transistor TR ₂ is connected to the voltage controlled oscillator 3 through a resistor R ₆ . A low potential horizontal synchronous signal is input to the horizontal synchronous signal input terminal A, and a high potential is input when the horizontal synchronous signal is not input.

Referring to the effect of the present invention configured in this way in detail as follows.

When the horizontal synchronizing signal is input to the horizontal synchronizing signal input terminal A, the input horizontal synchronizing signal is charged to the capacitor C ₁ through the resistor R ₁ , and the potential charged to the capacitor C ₁ is transferred to the resistor ( The discharge through R ₂ ) is applied to the base of the transistor TR ₁ through the resistor R ₃ .

Here, if the values of the resistors R _1- R ₃ and the capacitor C ₁ are set such that the bias voltage or less is applied to the base of the transistor TR ₁ when the horizontal synchronization signal is input, the horizontal synchronization is performed as described above. When the signal is input, the transistor TR ₁ is turned off and the base current of the transistor TR ₂ does not flow, so it is turned off, so that the reference voltage output from the reference voltage output terminal V of the reference voltage generator 5 It is not supplied to the voltage controlled oscillator 3.

The horizontal synchronous signal inputted to the horizontal synchronous signal input terminal A is input to the phase detector 2 through the horizontal synchronous gate 1, and the 160 fH oscillation signal outputted to the voltage controlled oscillator 3 is t-. Since the output signal of the divided 1/160 divider 4 is input to the phase detector 2, the phase detector 2 compares the phases of the two signals and outputs a control voltage, and controls the voltage according to the output control voltage. The oscillator 3 outputs an oscillation signal of 160 fH, and the 160 fH oscillation signal is divided by t-1 by the 1/4 divider 5 and output at 629 KHz.

On the other hand, when the horizontal synchronous signal is not input to the horizontal synchronous signal input terminal A, the high potential of the horizontal synchronous signal input terminal A is charged to the capacitor C ₁ through the resistor R ₁ and then the resistance ( Since it is applied to the base of the transistor TR ₁ through R ₃ ) and turned on, the reference voltage output from the reference voltage output terminal V of the reference voltage generator 6 is transmitted through the resistor R ₅ (R ₄ ). The low potential is applied to the base of the transistor TR ₂ while flowing to the collector of the transistor TR _1. Accordingly, since the transistor TR ₂ is turned on, the reference voltage output to the reference voltage generator 6 becomes the transistor TR. After output to the collector of ₂ ) and is input to the voltage controlled oscillator (3) through the resistor (R ₆ ).

Here, if the reference voltage output from the reference voltage generator 6 is correctly adjusted, the voltage controlled oscillator 3 outputs a clean 160fH oscillation signal without being disassembled, so that the t-1 divider 5 generates an oscillation signal of 629KHz. When the horizontal synchronous signal is input again, the voltage controlled oscillator 3 continues to output the 160 fH oscillation signal by the reference voltage output from the reference voltage generator 6 so that the horizontal synchronous signal is inputted. Immediately afterwards, the voltage controlled oscillator 3 outputs a 160 fH oscillation signal by the horizontal synchronizing signal.

As described in detail above, when the horizontal synchronous signal is not input, the present invention applies a reference voltage to the voltage controlled oscillator so that he outputs an oscillation signal of 160 fH. In addition to outputting a 160 fH oscillation signal by the signal, it is possible to convert the color signal to 629 KHz with low frequency conversion and record it on the videotape.

Claims (1)

The 1 / 1f divider (4) divides the 160fH oscillation signal output from the voltage controlled oscillator (3) by 1/4 at t-1 divider (5) and outputs 629KHz, and divides the 160fH oscillation signal at t-2. Phase detector 2 compares the phase of the horizontal synchronous signal input terminal A through the horizontal synchronous gate 1 and the phase controlled signal 2 to generate a control voltage of 160 fH. in the oscillating signal control circuit for outputting, and connected to the base terminal of the capacitor (C _1), a resistance (R ₂₎ and a transistor (TR ₁₎ to the horizontal synchronizing signal input terminal (a) via a resistor (R _1), the collector of the transistor (TR ₁₎ is connected a transistor (TR ₂₎ to connect the base side of the transistor (TR _2), the reference voltage output terminal (V) of the reference voltage generation unit (6) to the emitter of a transistor (TR ₂₎ the collector of the oscillation, characterized in that the new configuration, connected to the input terminal side of the voltage-controlled oscillator (3) Control circuitry.