KR960002190Y1 - Oscillator for tuner - Google Patents

Abstract

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Description

Oscillator circuit of tuner

1 is a conventional circuit diagram

2 is an improved circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: mixed oscillation part C ₁ ~ C ₆ : condenser

DS ₁ , DS ₂ : switching diode R ₁ ~ R ₅ : resistance

DV ₁ , DV ₂ : varistor diode L ₁ , L ₂ : coil

V _T : Tuning Voltage

The present invention relates to an oscillator circuit of a tuner, and more particularly, to an oscillator circuit that excludes the influence of each band during the oscillation operation of the VHF low high by using a plurality of switching diodes in the VHF band of the tuner.

Conventionally, as shown in FIG. 1, coupling capacitors C ₁ and C ₂ are respectively connected to two terminals of the mixing oscillator 10 in which a mixer and an oscillator are mixed, and to the coupling capacitor C ₁ . It is connected to the tuning voltage terminal (V _T ) through a varactor diode (D ₁ ), a resistor (R ₄ ) and a capacitor (C ₅ ), and the capacitor (C ₂ ) is an oscillating inductor (L ₁ ) (L ₂ ). And resistors (R ₁ ~ R ₂ ), capacitor (C ₃ ) (C ₄ ) and diode (D ₂ ) were connected.

And said diode (D ₂₎ anode terminal is self-propelled (R ₃₎ a high voltage terminal the low voltage terminal (B ⁺ L) connected to the (B ⁺ H) and the cathode end is via a resistor (R ₂₎ through the the Connected.

In the above configuration, the tuning voltage terminal (V _T ) is supplied with the tuning voltage of the channel tuned in the TV set, and when the tuning voltage is selected as high, the high voltage is input through the high voltage terminal (B ⁺ H). The diode (D ₂ ) is turned on by the (R ₃ ) and the resistor (R ₁ ) so that the high voltage induced in the coin (L ₁ ) (L ₂ ) is the varistor diode (D ₁ ) and the capacitor (C ₃ ) (C ₅ ) the circuit is operated.

At this time, the coil (L ₁ ) is an inductor having a considerably large value, which has a somewhat bad effect on the high frequency band.

On the other hand, when the tuning voltage is selected as low, since a voltage is input through the low voltage terminal B ⁺ L, a reverse voltage is applied to the diode D ₂ , and the circuit configuration at this time is a diode D ₁ and a coin L. ₁ ) and the condenser (C ₅ ) is operated to the oscillation operation, the coil (L ₂ ) and the capacitor (C ₃ ) does not affect the oscillation operation much.

In such a prior art diode in (D ₂₎ VHF high and low is selected, but the coin (L ₁₎ (L ₂₎ and a capacitor (C ₃₎ and a diode (D ₂₎ oscillating operation by each of the integer values by As it affects, accurate oscillation operation is not performed.

That is, when the tuning voltage is selected as low, the frequency of several tens of KHz to hundreds of KHz is changed by the coin (L ₂ ) and the capacitor (C ₃ ), and the frequency by the coil (L ₁ ) when the tuning voltage is selected as high. There is a problem that the oscillation characteristics of the oscillator is very unstable.

Therefore, the present invention has been devised to solve the above-mentioned conventional problems, and an object of the present invention is to configure a VHF low voltage switching diode and a VHF high voltage switching diode at the oscillation stage of the VHF band of the tuner, and the low band. And a tuner oscillation circuit to obtain stable oscillation characteristics by not affecting the two bands when selecting a high band.

The technical configuration for achieving the above object of the present invention, the first switching diode and the second switching diode connected to each other through the coupling capacitor at one end and the other end of the mixing oscillator incorporating the mixer and the oscillator of the tuner, A VHF low voltage input terminal (B ⁺ L) and a VHF high voltage input terminal (B ⁺ H) connected to operate each of the first and second switching diodes in a forward direction, and block the DC low voltage of the VHF low and high voltage A DC blocking capacitor, an oscillation coil for varying an oscillation frequency during operation of the first and second switching diodes, first and second varactor diodes and an oscillation range adjustment capacitor, and the first and second varactor diodes; It is characterized by consisting of a resistor connected between the tuning voltage terminal (V _T ) to apply the reverse voltage of the first and second varistor diode.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an improved circuit diagram of the present invention, in which a first coupling capacitor C ₁ is connected to one end of a mixed oscillation unit 10 including a mixer and an oscillator, and a second coupling capacitor C ₂ at the other end thereof. Connect it.

The first and second coupling capacitors C ₁ and C ₂ are connected in common to ground through a bias resistor R ₁ , and at the same time, the first switching diode DS ₁ and the second are connected to each capacitor. Connect the switching diode (DS ₂ ).

A 12V VHF low voltage input terminal B ⁺ L is connected to the first switching diode DS ₁ through a bias resistor R ₂ , and an oscillation inductor L ₁ is connected through a DC blocking capacitor C ₃ . Ground and connect the _first varistor diode (DV ₁ ).

A 12V VHF high voltage input terminal B ⁺ H is connected to the second switching diode DS ₂ through a bias resistor R ₃ , and an oscillation inductor L ₂ is connected through a DC blocking capacitor C ₄ . Ground and connect the _second varistor diode (DV ₂ ).

The first varistor diode DV ₁ is grounded through an oscillation range adjusting capacitor C _{5 and} connected to a reverse bias resistor R _4. The second varactor diode DV _{2 is} connected to an oscillation range. Grounding through the control capacitor (C ₆ ) and at the same time connect the reverse bias resistor (R ₅ ), the two resistors (R ₄ ) (R ₅ ) are commonly connected to the tuning voltage terminal (V _T ).

The operation and effect of these will be described below.

When a channel is tuned in a TV set, the tuning voltage of the channel tuned through the tuning voltage input terminal V _T is supplied.

When the voltage is supplied through the VHF high voltage input terminal (B ⁺ H) while the tuning voltage is supplied, the high voltage is applied to the second switching diode (DS ₂ ) OH node through the bias resistor (R ₃ ). The second switching diode DS ₂ is turned on.

Then, the second output of the mixed oscillator 10 supplied through the turned on second switching diode DS ₂ is an oscillation inductor L ₂ , a second varistor diode DV ₂ , and a capacitor C ₆ . Since the oscillation frequency is variable, it is supplied to the tuning voltage terminal (V _T ).

In this case, the capacitor C ₄ connected between the second switching diode DS ₂ and the second varistor diode DV ₂ has a voltage of B ⁺ H, which is a VHF high voltage, to the second varactor diode DV ₂ . The capacitor cuts the DC voltage so that it is not applied, and the resistor R ₅ connected between the second varactor diode DV ₂ and the tuning voltage terminal V _T is the inverse of the _second varactor diode DV ₂ . It is a resistor for voltage.

Meanwhile, when the voltage is supplied through the VHF low voltage input terminal B ⁺ L while the tuning voltage is supplied, the low voltage is applied to the first switching diode DS ₁ anode terminal through the bias resistor R ₂ . The first switching diode DS ₁ is turned on.

Then, the first output of the mixed oscillator 10 supplied through the turned on first switching diode DS ₁ is the oscillation inductor L ₁ , the first varistor diode DV1, and the capacitor C ₆ . Since the oscillation frequency is variable, it is supplied to the tuning voltage terminal (V _T ).

In this case, the capacitor C ₃ connected between the first switching diode DS ₁ and the first varistor DV ₁ is applied with a B ⁺ L voltage, which is a VHF low voltage, to the first varistor diode DV ₁ . The capacitor prevents the DC voltage from being prevented, and the resistor R ₄ connected between the first varactor diode DV ₁ and the tuning voltage terminal V _T is a reverse voltage of the _first varactor diode DV ₁ . Is resistance.

As described in detail above, in the prior art, when the VHF high or low voltage is operated, due to the simple switching operation, each circuit affects the mutual characteristics of each band, which makes the oscillation frequency characteristics of the oscillation stage unstable. In VHF, the switching diode and the varactor diode are used for each of the VHF high and low, thereby eliminating the mutual influence between the bands, thereby improving the stability, level, noise, and other characteristics of the oscillation stage.

Claims (1)

A first switching diode DS ₁ and a second switching diode DS ₂ connected to one end and the other end of the mixing oscillator 10 having the mixer and the oscillator of the tuner together through respective coupling capacitors; A VHF low voltage input terminal (B ⁺ L) and a VHF high voltage input terminal (B ⁺ H) connected to operate each of the second switching diodes in the forward direction, and a DC blocking capacitor for blocking the DC voltages of the VHF low and high voltages. (C ₃ ) (C ₄ ), the oscillation coins L ₁ (L ₂ ) and the first and second varactor diodes DV ₁ for varying the oscillation frequency during the operation of the first and second switching diodes. DV ₂ ) and the oscillation range adjusting capacitor (C ₅ ) (C ₆ ) and the first and second varactor diodes and the tuning voltage terminal (V _T ) are connected to the reverse of the first and second varactor diodes. An oscillator circuit of a tuner, comprising a resistor (R ₄ ) (R ₅ ) that applies a voltage.