HU196021B - Apparatus for the reception of broadcasting of artificial celestial body - Google Patents

Abstract

The arrangement according to the invention has an outdoor unit and an indoor unit that can be connected via cable. The outdoor unit comprises a first mixer (5), the first input of which is preferably via a band filter (3) and a preamplifier (4) with a primary radiator of the antenna (1), a second input through a frequency multiplier (8) with an output of a controllable oscillator (9), and its output is connected to the cable connector (7) of the outdoor unit. The control input of the controllable oscillator (9) is connected to the cable connector (7) of the outdoor unit. The indoor. the unit comprises a chamfer (26) and a second mixer (18). The first input of the second mixer (18) is connected to the cable connector (16) of the indoor unit, its second input is connected to the output of a fixed frequency oscillator (25), and its output is preferably via a band filter (19) and an amplifier (20) to the input of a demodulator (21). Between the outlet of the first mixer (5) and the first input of the second mixer (18), a narrow band amplifier (6.17) and / or a band-pass filter (6,17) is provided in the outdoor and / or indoor unit to pass a channel bandwidth. The output of the channel switch (26) is connected to the cable connector (16) of the indoor unit (Fig. 1, 2). 36 O- Ul ΗΣΗΞ «1 5 6 f X β X 40 X 44 41 4 <t 48 49 14 ZS u rh 161 2ΛΙ 163 Figure 1 Figure X X X '11 -1-

Description

The present invention relates to an arrangement for the reception of broadcasting satellites.

Satellites have been widely used for telecommunications purposes since the 1960s. The rapid development in this area has led to an increase in the power transmitted by satellites, a reduction in the size and consumption of earth stations and, consequently, their installation and maintenance costs. This made it possible to use satellite communication systems for broadcasting - television and radio broadcasting. The spread of satellite broadcasting systems is expected in the near future. This requires a reasonably priced receiver and antenna, as well as quick installation.

Individual or community terrestrial receiver systems that can be connected to a broadcast satellite include outdoor and indoor units. The outdoor unit is integrated with the antenna or antenna so that the signal from the receiving antenna is not significantly reduced due to cable damping. with the primary radiator itself. The outdoor unit shall be hermetically sealed outdoor and shall meet the climatic requirements of the outdoor area. The outdoor unit (at about 1 GHz) is connected by a coaxial cable to the indoor unit in the building.

In an outdoor unit of a known satellite receiver, the antenna output is connected via a polarization converter, a bandpass filter and a preamplifier to an internal mixer pass. The polarization changer receives signals of various polarizations, the bandpass filter suppresses any interfering signals outside the reception band, the amplifier generates the required signal level, and the mixer outputs the entire reception band (11.7 to 12.5 GHz) into the first center frequency band (e.g. 0.950-1.750 GHz). After the first center frequency amplification, it is output to the outdoor unit.

The broadband mid-frequency signal produced in the outdoor unit must be connected to the indoor unit by a coaxial cable, which can also supply power to the outdoor unit. The indoor unit converts the first center frequency signals from the coaxial cable so that they can be connected directly to a standard television or radio receiver. In the indoor unit, the first center frequency is fed to a second mixer, the second input of which is a tunable oscillator. The channel is selected using a channel selector using a tunable oscillator. The second mid frequency signal appearing at the output of the second mixer is transmitted through a bandpass filter and a limiting amplifier to an FM demodulator. The output of the FM demodulator creates a composite video signal and audio auxiliary carrier, which can be further processed in two ways: either the composite video signal to a television receiver with a video input directly through a filter changer, and the audio auxiliary carrier can also be connected After AM modulation, they can be switched to VHF / UHF channels and connected to the television's high frequency input.

The critical point for equipment operating in the 12 GHz frequency band is the first local oscillator connected to the first mixer operating at approximately 11 GHz.

- you need to produce an accurate, stable, spectrally clean microwave signal over a wide temperature range due to outdoor placement. Gunn diode oscillators tuned to cavity resonators are used for this purpose, but they are delicate and expensive, which hinders the spread of individual satellite reception.

It is an object of the present invention to provide a low-cost, mass-produced satellite reception apparatus primarily for individual reception.

The present invention is based on the discovery that the object of the invention can be achieved by providing a first signal in the outdoor unit, the frequency of which is preferably one order of magnitude less than the frequency required for mixing, and then multiplying the frequency of this signal. mixing the output signal of the receiver 15 antenna, and adjusting the frequency of the first signal from the interior space to a selected instrument channel in a reduced amount according to the amplification, limiting the bandwidth of the first center frequency produced by first mixing to a bandwidth of a channel, frequency mixing to form the second center frequency.

In the apparatus of the invention, the first oscillator is a controllable oscillator whose output is connected to a second input of a first mixer via a frequency multiplier and a control input connected to a cable connector of the outdoor unit, between the first mixer output and the first mixer input or, in the indoor unit, a narrowband amplifier and / or filter for tuning the channel bandwidth, tuned to the first center frequency 20, and a second oscillator connected to the second input of the second mixer in the indoor unit and a fixed frequency oscillator and .

The invention will now be described in more detail with reference to an embodiment and drawings. In the drawings it is

1 is a block diagram of a preferred embodiment of the outdoor unit, and FIG

Figure 2 is a block diagram of a preferred embodiment of the indoor unit.

In the preferred embodiment of the outdoor unit shown in Fig. 1, the primary radiator of the antenna 1 is connected to the first input of the first mixer 5 via the polarity reverser 2, the bandpass filter 3 and the broadband preamplifier 4.

. The output of the mixer 5 is connected via the narrowband amplifier 6 to the cable connector 7 of the outdoor unit. The second input of the mixer 5 is coupled via the frequency multiplier 8 to the output of the first oscillator 9. The cable connector 7 is connected to the memory input 15 via a remote receiving receiver 13 which also performs a power conversion and the control logic 14. The outputs of the memory 15 are connected to the control input of the polarization converter 2 and to the control input of the frequency synthesizer 12. Frequency synthesis 12 reference input to quartz oscillator 11, control input through frequency divider 10 to oscillator 9, output?

and is connected to the control input of the oscillator 9.

Figure 2 is a block diagram of a preferred embodiment of the indoor unit. The cable connector 16 of the indoor unit is connected via the narrowband amplifier 17 to the first input of the second mixer 18. Output of mixer 18 through bandpass filter 19 and amplifier 20 provided with AGC to input of demodulator 21

-2 H

196,021 connected. The second input of the mixer 18 is connected to the output of the second oscillator 25. The control input of the controllable oscillator 25 is fed back to the demodulator 21. One output of the demodulator 21 is connected to the audio-video connector 23 and the other output is connected to the input of the amplitude modulator 22. The amplitude modulator 22 has a UHF output 24. For generating the supply voltage is 26 csatomaváltó opportunities 27 remote command ^{transmitter-υ} indoor unit 16 is connected to a cable connector. The indoor unit can also be integrated in whole or in part into the television receiver.

The signal received from the satellite is received by the antenna 1 of the outdoor unit shown in Fig. 1, from which its primary jj is transmitted to a polarization converter 2 capable of receiving broadcasts transmitted by different polarizations. When setting the station to be received, a command from the 26 channel changers of the indoor unit is sent to the control input 2 of the polarizer inverter.

The bandpass filter 3 only transmits the reception band (e.g., II, 7 to 12.5 Gllz) 20 and provides the device with burst frequency suppression. The broadband 4 preamps provide a low noise factor throughout the entire band. The mixer 5 puts the microwave signals into the first center frequency band.

The narrowband amplifier 6 following the mixer 5 is tuned to the first center frequency and only transmits the bandwidth 25 of one channel. The second input of the mixer 5 receives a signal from the output of the controllable oscillator 9 via the frequency multiplier 8. The oscillator 9 is preferably a programmable «λ oscillator in a phase closed loop containing a quartz reference oscillator. The embodiment shown in FIG. 1 includes a frequency synthesizer 12 which compares the signal of the oscillator 9 divided by the frequency divider 10 to a reference obtained from the quartz oscillator 11 and controls the oscillator 9 accordingly. Λ The power to the outdoor unit 35 and the modulated channel selection commands through the cable and the cable connector 7 are received by the command receiver 13, which performs power disconnection and conversion and demodulation of the commands. The commands are stored in the memory 15 via the control logic 14. The memory 15, which stores data proportional to the frequency and polarization of the channels 40, controls the polarization converter 2 and the oscillator 9 via the frequency synthesizer 12 according to the incoming command according to the polarization and frequency of the selected channel. Due to the wideband tunable oscillator 9 and also the broadband frequency multiplier 8, the system can be operated on an external command as a superhero terodine receiver.

From the outdoor unit, the first narrowband first center frequency signal arrives via a coaxial cable to the cable connector 16 of the indoor unit shown in Figure 2, and then through the narrowband amplifier 17 to the mixer 18. Another fixed frequency signal for mixing is provided by the oscillator 25. From the output of the mixer 18, the second center frequency signal passes through the bandpass filter .19 and the amplifier 20 provided with AGC for cable attenuation to the frequency demodulator 55. Demodulator 21 automatically searches for loudspeakers positioned differently per channel. The oscillator 25 is preferably a voltage-controlled oscillator, the control input of which is fed back to the demodulator 21 for noise reduction. The audio and video signals generated by demodulator 21 60 can be directly removed from audio-video connector 23 or, preferably, modulated back to UHF range by amplitude modulator 22 via UHF output 24 to the antenna input of a conventional television.

The stations are set manually or via infrared remote control, which signals are detected by the infrared receiver 261. The selected channel number is displayed on the digital display 262. The channel changer 26 is also equipped with a standard digital program unit 263 and digital clock for VCRs. On the one hand, the remote commander 27 generates power and, on the other hand, modulates the information corresponding to the channel selected by the channel converter 26 to the outdoor unit, e.g. by switching the polarization inverter 2 as needed, the channel change actually takes place.

As described above, the equipment provides a wide range of services:

All channels can be selected directly on the indoor unit or via infrared remote control. The number of the selected channel is displayed on the digital display. The device is capable of programming, ie automatically switching certain channels at a specific time. The device is capable of receiving teletext, as well as picture-free radio channels, high-quality music, and can receive FM frequencies of different frequencies, as well as digitally encoded audio. it can be directly connected to a video and audio channel, but also to a standard television antenna input.

The most important advantage of the present invention is that it does not contain an expensive and delicate local oscillator, compared to known satellite receivers, but has a frequency of approx. a mass-produced, relatively inexpensive, stable oscillator operating at an order of magnitude lower frequency, the frequency of which is multiplied for mixing. Simple solution also increases system reliability. A further advantage is the use of a wide band tunable, programmable first oscillator, thereby selecting the channel at the first mixer. Thus, even the first center frequency will be narrowband, which facilitates signal derivation and improves device selectivity.

Claims (4)

PATENT CLAIMS An arrangement for receiving broadcasting satellites having an outdoor unit and a cable-connected indoor unit, the outdoor unit comprising a first mixer having a first input preferably via a bandpass filter and preamplifier receiving a primary transmitter, a second input with a first oscillator output, and the indoor unit comprises a channel changer and a second mixer, the first input of which is connected to the cable connector of the indoor unit, the second input of which is output of a second oscillator and the output is preferably via a filter and amplifier input of a demodulator. 196.021, characterized in that the first oscillator (9) is a controllable oscillator whose control input is connected to the outdoor unit cable connector (7) and its output is connected to a second input of the first mixer (5) via a frequency multiplier (8), a narrowband amplifier (16,17) and / or a bandpass filter descending the channel bandwidth of the outdoor unit and / or the indoor unit between the output of the first mixer (5) and the first input of the second mixer (18); in the indoor unit, the second oscillator (25) connected to the second input of the second mixer (18) is a fixed frequency oscillator, and the output of the channel changer (26) is connected to the cable connector (16) of the indoor unit, Arrangement according to Claim 1, characterized in that the control input of the first oscillator (9) is controlled via a frequency synthesizer (12) in connection with the cable connector (7) of the outdoor unit and the reference input 5 of the frequency synthesizer (12). a quartz oscillator (11) and a control input via a frequency divider (10) to the first oscillator (9), Arrangement according to Claim 2, characterized in that the output of the channel changer (26) is connected via a remote control transmitter (27) to the indoor unit cable connector (16) and the outdoor unit cable connector (7) via a remote control receiver (13). ), the control logic (14) and the memory (15) are connected to the control input of the frequency synthesizer (12). jg Arrangement according to claim 3, characterized in that the antenna (1) is provided with a polarization converter (2), the control input of which is connected to the memory (15).