KR950005512Y1 - Video amplifier circuit has wide band dynamic range - Google Patents

Abstract

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Description

Image Amplification Circuit with Wideband Dynamic Range

1 is a conventional image amplification circuit diagram.

2 is an image amplification circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

TU₁: Tuner F₁: Saw filter

Q ₁ -Q₂: Transistor L ₁ , L₂: Coil

C ₁ -C₄: Capacitor R ₁ -R ₇ : Resistance

D₁: diode

The present invention relates to an image amplification circuit having a wideband dynamic range to prevent an unstable display or noise inflow due to the variation of the IF output level of the tuner according to the electric field strength difference in each region.

In the conventional image IF signal processing circuit, as shown in FIG. ₁ , the coupling capacitor C is connected to an IF output of the tuner TU ₁ through an impedance matching circuit including a coil L ₁ and a resistor R ₁ . ₁ ) is configured to be amplified in the preamplifier through the preamplifier, and the IF signal amplified by the preamplifier is configured to be filtered and output from the saw filter (F ₁ ) through a coupling capacitor (C ₄ ). The preamplifier unit includes an amplifying transistor Q ₁ , a bias resistor R ₂ -R ₅ , a capacitor C ₂ , a picking coil L ₂ , and a capacitor C ₃ .

Therefore, the IF output signal of the tuner (TU ₁ ) passes through the impedance matching circuit and the coupling capacitor (C ₁ ) to the bias resistor (R₂-R ₅ ) and the bypass capacitor (C ₂ ) and B ⁺ voltage at the amplifying transistor (Q ₁ ). After amplified to a fixed bias value formed by the filter, the filter is output from the saw filter F ₁ via the coupling capacitor C ₄ .

However, the output level of the IF signal of the tuner TU ₁ varies depending on the input field strength difference, and the IF signal is amplified by the fixed amplifier preamplifier as it is, so that the IF level output from the preamplifier becomes unstable. do.

Therefore, when the conventional IF signal processing circuit as described above is applied to the set, in the strong electric field region, the saturation phenomenon and various bit components of the adjacent channel appear in the corresponding IF signal, so that a good screen state cannot be obtained. Due to the generation of noise, there is a limit to the improvement of the practical sensitivity.

The present invention has been devised to eliminate such deterioration in the conventional circuits, and the wideband dynamic range that widens the reception dynamic range by changing the amplification degree of the preamplifier of the video IF signal processing system under the control of the AGC signal. It is an object to provide an image amplification circuit having a.

Hereinafter, the present invention will be described based on the accompanying drawings.

2 is a circuit diagram of the present invention, in which the IF output of the tuner TU ₁ passes through an impedance matching circuit composed of a coil L ₁ and a resistor R ₁ and a coupling capacitor C ₁ , and an amplifying transistor of the preamplifier. configured to be provided in the base, and of (Q ₁₎ resistance that supplies a base bias current and the collector current to the base and collector of the amplifying transistor _{(Q 1) (R 2,} R 3) and peaking coil (L _2), and The capacitor C ₃ is configured to be provided with the voltage B ⁺ , and the emitter of the amplifying transistor Q ₁ has a bypass capacitor C ₂ connected in series with the bypass resistor R ₄ and the pin diode D ₁ . ) And the pin diode (D ₁ ) is configured to provide a voltage B ⁺ through the resistor (R ₆ ) and the AGC transistor (Q ₂ ).

A base of the AGC transistor Q ₂ is configured to provide an AGC signal through a resistor R ₇ .

Meanwhile, the collector output of the amplifying transistor Q 'of the preamplifier is configured to be filtered and output from the saw filter F ₁ via the coupling capacitor C ₄ .

Referring to the operation and effects of the present invention configured as described above are as follows.

When the IF signal is input to the amplifying transistor Q ₁ through the coupling capacitor C ₁ and the impedance matching circuit of the coil L ₁ , the resistor R ₁ to be output from the tuner TV ₁ , this signal is B ^+. voltage and the resistance (R ₂ -R ₄₎ and a bypass capacitor (C ₂₎ there is amplified in proportion to the bias constant to be determined by the value of, where by-pass current corresponding to the capacity of the bypass capacitor (C ₂₎ is a pre-amplifier This will greatly affect the amplification degree of the amplification transistor Q ₁ . However, the current flowing through the bypass capacitor C ₂ passes through the pin diode D ₁ , and the pin diode D ₁ is biased to a voltage B ⁺ through the resistor R ₆ and the transistor Q ₂ . Since the transistor Q ₂ is controlled by the AGC signal voltage, the resistance value of the pin diode D ₁ changes according to the magnitude of the AGC signal voltage.

For example, if the AGC signal voltage has a value between 1V and 9V according to the electric field strength difference for each receiving region, and the minimum AGC voltage (1V: strong electric field region) is input, the voltage applied to the pin diode D ₁ is Since it is about 0.2V, its resistance reaches about 1kΩ. That is, at this time, the flow of current through the bypass capacitor C ₂ is almost blocked, and the amplification degree of the amplifier transistor Q ₁ is reduced from about 20 dB to about 10 dB.

Therefore, it is possible to prevent the audio bit inflow due to excessive image IF level increase in the strong electric field, thereby obtaining a good picture.

On the contrary, if the maximum AGC voltage (9V: weak electric field) is input, the voltage applied to the pin diode D ₁ is about 6.5V, and thus the resistance value of the pin diode D ₁ is lowered to about 5Ω. Therefore, the current flowing through the bypass capacitor C ₂ is increased, and the amplification degree of the amplifying transistor Q ₁ is increased by about 25 dB, thereby improving the image IF signal sensitivity in the weak field region.

Therefore, the collector output of the amplifying transistor Q ₁ always outputs a constant level IF signal regardless of the strength or weakness of the electric field strength for each region. Therefore, the collector output of the amplifying transistor Q ₁ is filtered by the saw filter F ₁ through the coupling capacitor C ₄ . The sensitivity of the final image IF signal is improved by 5 to 7 dB in the conventional circuit.

As described above, the present invention can prevent the variation of the image IF signal level according to the electric field intensity difference of each region, thereby maintaining a wide dynamic range and maintaining a high-quality screen state without introducing audio bits and noise.

Claims (1)

In an image IF signal processing circuit including a preamplifier including a tuner (TU ₁ ), a bias resistor (R ₂ -R ₄ ), a capacitor (C ₂ ), and an amplifying transistor (Q ₁ ), and a saw filter (F ₁ ). The pin diode D ₁ is connected in series to the emitter bypass capacitor C ₂ of the amplifying transistor Q ₁ of the preamplifier, and the pin diode D ₁ is subjected to an AGC transistor Q ₂ . And a B ⁺ voltage, and connected to provide an AGC signal voltage to a base of the AGC transistor (Q ₂ ).