KR970004657Y1 - Receiver for satellite broadcasting system - Google Patents

Abstract

None.

Description

Satellite broadcasting reception system

1 is a block diagram of a conventional satellite broadcasting reception system

2 is a block diagram of a satellite broadcasting receiving system of the present invention

* Explanation of symbols for main parts of the drawings

10: RF Amplifier 10 ': RF AGC Amplifier

11: first tuning filter 12: mixer

13: local oscillator 14: first IF amplifier

15: second tuning filter 16: lF AGC amplifier

17: second IF amplifier 18: third IF amplifier

19: demodulation unit 20: AGC detection unit

The present invention relates to a satellite broadcasting (BS) system, and more particularly to a satellite broadcasting system capable of stable operation in a strong electric field or a weak electric field.

In general, SHF satellite broadcasting transmits radio waves of 10.95 GHz to 12,95 GHz in a stationary satellite over the equator, and the broadcast signal of the SHF band transmitted from the broadcasting satellite is received by an outdoor parablade antenna, and the received broadcast The signal is converted to a signal of the UHF band (950 MHz to 2050 MHz) in a low noise block down converter (LNB) attached to a parablade antenna, and the converted signal is supplied to an indoor satellite broadcast tuner through a coaxial cable.

The satellite ride tuner converts a high frequency signal of a UHF band into an intermediate frequency, and the intermediate frequency is output as a baseband signal through an FM demodulator.

FIG. 1 is a block diagram of a satellite broadcast receiving system including a conventional satellite tuner and an FM demodulator.

The high frequency (RF) input signal of the 950 MHz to 2050 MHz UHF band converted by the LNB is amplified by the high frequency amplifier 10, and the amplified high frequency signal is input tuned by the first tuning filter 11 and the input tuned high frequency signal is a mixer. In 12, the oscillation wave of the local oscillator 13 is mixed to output an intermediate frequency (IF) signal. The mixed and output IF signal is amplified by the first IF amplifier 14 and the amplified IF signal is tuned through the second tuning filter 15. The tuned IF signal is applied to an IF AGC amplifier 16 which attenuates and amplifies according to the automatic gain control signal, and then attenuates and amplifies.

The demodulator 19 outputs the audio and video signals of the base band through the second and third IF amplifiers 17 and 18. The IF signals output through the second and third IF amplifiers 17 and 18 are detected by the AGC detector 20, and the AGC detector 20 transmits a gain control signal according to the detected IF signals. The amplifier 16 is provided. As a result, the gain is automatically controlled according to the electric field strength of the high frequency input signal to keep the IF input signal level applied to the demodulator constant.

As described above, in the conventional satellite broadcasting receiver system, the automatic gain control signal is provided only to the IF AGC amplifier. Therefore, when a strong electric field having a large field strength of the high frequency signal inputted from the LNB is inputted, it appears on the bit noise screen according to the saturation phenomenon. There were problems that collapsed as a whole.

In addition, when trying to reinforce the above-described strong electric field, the AGC range (35 dB) is narrow and may not be satisfied in the weak electric field region.

Accordingly, an object of the present invention is to provide a satellite broadcasting reception system capable of maintaining a constant level of RF input intensity in not only a strong field but also a weak field.

2 is a block diagram of a satellite broadcasting receiving system of the present invention. As shown in the figure, the present invention is a satellite broadcasting reception system for maintaining a constant IF input signal level applied to the demodulator 19 by automatically controlling the gain according to the electric field strength of the high frequency input signal, An RF AGC amplifier 10 'that attenuates and amplifies according to the automatic gain control signal to variably control an amplitude level;

A first tuning filter 11 connected to an output terminal of the RF AGC amplifier 10 'and tuned to an attenuated and amplified signal and mixed with the tuned high frequency signal connected to an output terminal of the input tuning filter 11; A local oscillator 13 for outputting an oscillation frequency, a mixer 12 for mixing an oscillation frequency and a high frequency signal tuned to output an IF signal,

A first IF amplifier 14 connected to the output terminal of the mixer 12 to amplify the IF signal and a second tuning filter 15 connected to the output terminal of the IF amplifier 14 to tune the amplified IF signal; An IF AGC amplifier 16 configured to variably control an amplitude level of the IF signal to attenuate and amplify according to the automatic gain control signal;

Second and low 13 IF amplifiers 17 and 18 connected to an output terminal of the IF AGC amplifier 16 to amplify the attenuated and amplified signals;

A demodulator 19 connected to an output terminal of the third IF amplifier 18 and outputting an associative and audio signal of a base band; and an IF signal connected to an output terminal of the third IF amplifier 18 to a predetermined level. The AGC detector 20 detects an AGC signal to be input to the demodulator 19 and provides the gain control signal to the RF AGC amplifier 10 'and the IF AGC amplifier 16 as a gain control signal.

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

A high frequency signal of 950 MHz to 2050 MHz input through the LNB is applied to the RF AGC amplifier 10 'to variably control and amplify the amplitude level of the high frequency signal. The attenuated and amplified signal is tuned through the first tuning filter 11 and then mixed with the oscillation frequency signal of the local oscillator 13 through the mixer 12 to output an IF signal. The IF signal output through the mixer 12 is applied to the IF AGC amplifier 16 through the first IF amplifier 14 and the second tuning filter 15, and the IF signal applied to the IF AGC 16 It is attenuated and amplified according to the gain control signal and applied to the demodulator 19 for outputting the baseband video and audio signals through the second and third amplifiers 17 and 18. At this time, the AGC detector 20 is provided at the output terminal of the third amplifier 18 so that the AGC detector 20 supplies an automatic read control signal to the demodulator 19 to maintain the IF input level constant. The RF AGC amplifier 10 'and the IF AGC amplifier 16 are provided.

As a result, upon inputting a weak electric field (-60 to -75 dBm), the AGC detection unit 20 applies an automatic gain control signal to the RF AGC amplifier 10 'such that the RF AGC amplifier 10' acts only as an RF amplifier without any attenuation. In the RF AGC amplifier 10 ', the RF input signal (950 to 2050 MHz) acts as an RF amplifier without attenuation, and thus the oscillation signal (470.5 MHz to 1570.5) of the local oscillator 13 through the first tuning filter 11. MHz) to the mixer 12. The IF signal 479.5 MHz mixed and output from the mixer 12 is provided to the IF AGC amplifier 16 through the first IF amplifier 14 and the second tuning filter 15. The IF AGC 16 amplifies according to the automatic control signal of the AGC detector 20 and provides a baseband IF signal of a constant level to the demodulator 19 through the second and third IF amplifiers 17 and 18. (0 to 10 MHz) video and audio signals may be output. Therefore, the IF input signal level is kept constant at the time of weak field input.

On the other hand, when a strong electric field (-20 to -35 dBm) is input, the AGC detector 20 acts to attenuate the RF input signal (950 to 2050 MHz) according to the automatic movement control signal by the RF AGC amplifier 10 '. The RF AGC amplifier 10 'provides the mixer 12 with the oscillation signal 470.5 to 1570.5 MHz of the local oscillator 13 through the first tuning filter 11 through the 10 to 15 dB attenuated RF signal.

The IF signal 470.5 MHz mixed and output from the mixer 12 is provided to the IF AGC amplifier 16 through the first 1F amplifier 14 and the second tuning filter 15.

The 1F AGC amplifier 16 is secondarily controlled according to the automatic control signal of the AGC detector 20 to provide the demodulator 19 with an IF signal having a constant level through the second and third IF amplifiers 17 and 18. To output video and audio signals of baseband (0 to 10 MHz). Therefore, the IF input signal level is kept constant even during the strong field input.

Therefore, the present invention configures the RF AGC amplifier 10 'at the front end and configures the AGC detector 20 at the output terminal of the RF AGC amplifier 16 so that the IF output signal can be output at a predetermined level. By automatically controlling the gain control signal of the RF AGC amplifier 10 'and the amplification level of the IF AGC amplifier 26, the RF AGC amplifier is provided even if the high frequency signals of the strong electric field and the weak electric field are input to the satellite tuner. Saturation is not generated, and bit noise, intermodulation, intermodulation, and characteristics caused by saturation are remarkably improved.

Claims (1)

In the satellite broadcasting receiving system which automatically maintains the gain according to the electric field strength of the high frequency input signal and keeps the IF input signal level applied to the demodulator constant. An RF AGC amplifier 10 'configured to variably control an amplitude level of a high frequency signal to attenuate and amplify according to the automatic gain control signal; A first tuning filter 11 connected to an output terminal of the RF AGC amplifier 10 'to tune the attenuated and amplified signal, and a first tuning filter 11 connected to an output terminal of the input tuning filter 11 so as to be mixed with the tuned high frequency signal; A local oscillator 13 for outputting an oscillation frequency, a mixer 12 for mixing an oscillation frequency and a high frequency signal synchronized with the oscillation frequency, and outputting an IF signal, and amplifying the IF signal by being connected to an output terminal of the mixer 12 A first tuning amplifier 15, a second tuning filter 15 connected to an output terminal of the first IF amplifier 14 to tune an amplified IF signal, and variably controlling an amplitude level of the IF signal; An IF AGC amplifier 16 attenuating and amplifying according to the automatic gain control signal, and a second amplifying signal attenuated and amplified connected to an output terminal of the IF AGC amplifier 16; A demodulator 19 connected to an output terminal of the third IF amplifier 17 and 18 and an output terminal of the third IF amplifier 18 to output a video and audio signal of a baseband; It is connected to the output terminal of the third IF amplifier 18 detects an AGC signal so that the IF signal is input to the demodulator 19 at a predetermined level, the RF AGC amplifier 10 'and IF AGC amplifier 16 Satellite broadcasting reception system, characterized in that consisting of an AGC detector for providing a gain control signal (20).