KR960004406Y1 - Satellite receiver - Google Patents

Abstract

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Description

Low Frequency Rejection Circuit for Satellite Receiver

1 is a waveform diagram of a low frequency signal used for satellite broadcast transmission.

2 is a waveform diagram of an image signal carried in a low frequency signal.

3 is a low frequency cancellation circuit diagram for a satellite broadcasting receiver of the present invention.

4 is an output waveform diagram of an image signal according to the present invention.

* Explanation of symbols for main parts of the drawings

A ₁ : first video signal amplifier C ₁ : first capacitor

A ₂ : second video signal amplifier C ₂ : second capacitor

R ₁ : first resistor R ₂ : second resistor

R ₃ : third resistor R ₄ : fourth resistor

R ₅ : fifth resistor Q ₁ : first NPN transistor

Q ₂ : Second NPN transistor Q ₃ : Third NPN transistor

Q ₄ : PNP transistor

The present invention improves the transmission efficiency at the time of satellite signal transmission but ensures that the average voltage of energy is lowered, and satellite broadcasting to remove low frequency such as 15Hz, 30Hz used to minimize the interference with general communication band. A low frequency cancellation circuit for a receiver.

As is well known, the radio wave of the satellite signal reception band tends to interfere with the general communication band, so that the average voltage is lowered while the transmission efficiency of the satellite broadcast transmission is increased, and the low frequency frequency can be reduced. A method of loading an image signal on a sawtooth wave and transmitting it is widely used.

Since the signal transmitted in this state is received by the satellite receiver and reproduced as it is, noise is generated that causes the screen to shake due to the influence of the sawtooth component included in the image signal, thereby preventing a good screen from being obtained.

The present invention uses an input / output buffer and a feedback circuit to solve the problem of screen instability caused by sawtooth waves, so that a pure image signal obtained by removing the low frequency sawtooth wave from the image signals input to the satellite receiver can be obtained. It is an object of the present invention to provide a low frequency elimination circuit for a satellite receiver to enable reproduction.

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

As shown in FIG. 3, the present invention provides the first and second resistors R ₁ and R ₂ connected to the emitter between the first and second video signal amplifiers A ₁ and A ₂ . between, and interconnects the emitter and the base of the first and 2NPN transistor (Q ₁₎ (Q ₂₎ which functions as a buffer, the first and 2NPN transistor (Q ₁₎ (Q ₂₎ a first capacitor (C ₁₎ is plugged in, and the collector of the emitter and the PNP transistor (Q ₄₎ of the 3NPN transistor (Q ₃₎ connected to the base is of the first 2NPN transistor (Q _2), wherein the 3NPN transistor (Q ₃₎ The third and fourth resistors R ₃ and R ₄ and the second capacitor C ₂ for supplying independent bias voltages are connected to the base of the third resistor, and the fifth resistor is connected to the collector of the _third NPN transistor Q ₃ . R ₅ is connected, and the base of the PNP transistor Q ₄ is connected to the collector of the third NPN transistor Q ₃ .

According to the present invention, the radio wave transmitted from the satellite is received by the satellite broadcasting receiver, amplified by the internal first image signal amplifier A ₁ , and then applied to the base of the _first NPN transistor Q ₁ .

As shown in FIG. 2, the low-frequency sawtooth wave is mixed with the video signal, and is buffered by the _first NPN transistor Q ₁ and then input to the first resistor R ₁ . .

Next, the image signal is applied to the base of the _second NPN transistor Q ₂ via the first capacitor C ₁ and buffered, and then the second resistor R ₂ and the second image signal amplifier A _{2 are applied} . Is applied to.

These moments, assuming that the A segment of the waveform of a video signal showing a video signal being If the input to the second degree, the potential at the base of the 2NPN transistor (Q ₂₎ to increase the third and fourth resistors (R ₃ Since the potential of the collector of the _third NPN transistor Q ₃ in the active region is increased by a constant bias of R ₄ , the potential of the base of the PNP transistor Q ₄ connected thereto is raised. As a result, the impedance between the emitter and the collector of the PNP transistor Q ₄ increases, resulting in a drop in the base voltage of the _second NPN transistor Q ₂ . Therefore, since the base voltage of the _second NPN transistor Q ₂ is decreased in the PNP transistor Q ₄ by the increase of the low frequency signal and is always constant, the output waveform becomes as in the A 'section of FIG.

In addition, assuming that the input video signal is in section B of the video signal waveform shown in FIG. ₂ , the potential of the base of the second NPN transistor Q ₂ is dropped, so that the potential of the collector of the _third NPN transistor Q ₃ is decreased. Because of the drop, the potential of the base of the PNP transistor Q ₄ also drops.

Therefore, since the impedance between the collector and the emitter of the PNP transistor Q ₄ is reduced, the base voltage of the _second NPN transistor Q ₂ is increased in the PNP transistor Q ₄ by the decrease of the low frequency signal and is always constant. The output waveform is the same as the section B 'in FIG.

In this manner, the waveform of the video signal in the state shown in FIG. 2 is a state in which the sawtooth wave, which is low frequency, is completely removed as shown in FIG. 4 by the present invention. After being amplified through the signal amplifier A ₂ , it is processed to obtain a good picture without shaking the screen.

The present invention, which is designed as described above, can completely eliminate the low-frequency sawtooth which is used in the satellite broadcasting receiver, so that not only a good screen can be obtained but also its structure is very simple and consists of only low-cost parts. It is an effect that can be widely spread due to the slight burden of additional manufacturing costs.

Claims (1)

First and second video signal amplifier (A ₁₎ (A ₂₎ to which the first and second resistors (R ₁₎ (R ₂₎ is connected to the emitter, between the first and 2NPN transistor which functions as a buffer and interconnecting the emitter and the base of the (Q ₁₎ (Q _2), the first and 2NPN transistor (Q ₁₎ (Q ₂₎ between is provided with a first capacitor (C ₁₎ connected to said first 2NPN transistor base of the (Q _2), the first for supplying a separate bias voltage to the base is of the 3NPN transistor (Q ₃₎ emitter and the PNP transistor (Q ₄₎ of, and the collector is connected, wherein the 3NPN transistor (Q ₃₎ of the 3 And a fourth resistor (R ₃ ) (R ₄ ) and a second capacitor (C ₂ ) are connected, a fifth resistor (R ₅ ) is connected to the collector of the _third NPN transistor (Q ₃ ), and the PNP transistor ( Q ₄ ) is a base of the low frequency rejection circuit for a satellite receiver connected to the collector of the third NPN transistor (Q ₃ ).