KR940004783B1 - Low noise frequency transformer - Google Patents

Abstract

The low noise frequency converter for receiving multipolarization community broadcasting comprises a first polarized frequency converter having a first LNA (Low Noise Amplifier) for low noise amplifying a first polarized signal of a satellite antenna, a first mixer for generating a first polarized IF (Intermediate Frequency) signal, and a first distributor; a second polarized frequency converter having a second LNA for low noise amplifying a second polarized signal, a second mixer for generating a second polarized IF signal, and a second distributor; and a polarized switching cirucit having first and second switches for selectively connecting the outputs of the first and second distributors to first and second BS tuners. The converter easily constructs a community satellite broadcasting system.

Description

Low-Noise Frequency Converter for Multi-polarized Cavity Reception

1 is a conventional satellite broadcasting joint reception system diagram.

2 is a circuit diagram of the low noise frequency conversion stage of FIG.

3 is a schematic diagram of a multi-polarization satellite broadcast joint reception system of the present invention.

4 is a circuit diagram of a low noise frequency converter of the present invention.

* Explanation of symbols for main parts of the drawings

10: satellite antenna 100: first polarization frequency converter

200: second polarization frequency conversion unit 300: polarization switching unit

400: low noise frequency converter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a satellite broadcasting joint reception system for multiple generations to jointly receive satellite broadcasts with one satellite antenna and a low noise frequency converter. In particular, a single low noise frequency converter can selectively receive different polarized broadcasts for each generation. And a low noise frequency converter for multi-polarization joint reception.

Satellite broadcasting receives the signals from the high frequency band (12GH ₂ ) emitted by the satellite with a satellite antenna, converts them to a low-noise frequency converter, converts them into intermediate frequencies of 1GH ₂ and then sends them to the TV set through the BS tuner.

In the case of apartments, such satellite broadcasting reception systems are currently installed in a single antenna and a low noise converter so that they can be shared in multiple households.

FIG. 1 shows an example of constructing a joint satellite broadcasting system described above.

As referred to herein, the satellite broadcast signal 1 focused on the parabolic satellite 10 is converted to a primary intermediate frequency while passing through the low noise frequency converter 20, and is input to the amplifier 30 via the cable 2. do. The satellite broadcast signal amplified by the amplifier 30 is again input to the splitter 40 through the cable 3, the BS tuner 1 (50) and BS tuner 2, which is a satellite broadcast tuner for each generation, in the splitter (40). 60 will be supplied.

In such a system, as shown in FIG. 2, the low noise frequency converter 20 amplifies _two 12GH satellite signals at low noise in the LNA stage 11 and then enters the mixer stage 13 through the filter 12. And mixing the RF input signal with the oscillation frequency of the local oscillation stage 14 in the mixer 13 so that 1 GH ₂ primary conversion frequencies are generated, and the primary conversion frequency is IF amplifier stage 15. It is configured to output through.

The amplifier 30 is configured to receive the first conversion frequency coming from the cable 2, filter it with the filter 32, and then amplify the IF amplifier stage 35. The IF amplifier stage 35 amplifies the output of the low noise frequency converter 20 by the amount of attenuation in the cable (2).

On the other hand, the primary conversion satellite broadcast signal of the amplifier 30 is input to the splitter 40 via the cable 3 is supplied to the BS tuner 1 (50) and BS tuner 2 (60) of each home. However, in the conventional satellite joint reception method of such a system, it is necessary to supplement the signal strength in the process of distributing the first-converted frequency signal converted by the low-noise frequency converter to multi-family to compensate for the signal loss in the signal transmission cable. As the first conversion frequency signal amplifier is required, the maintenance is difficult and the quality satellite broadcasting cannot be received.

In particular, since satellite broadcasting has two polarizations (vertical and horizontal polarization or left polarization and priority polarization), it is necessary to additionally install the same reception system as a conventional satellite satellite reception system to cover both polarization broadcasts.

An object of the present invention is to provide a low noise frequency converter for multi-polarization joint reception, which facilitates the construction of a satellite broadcasting joint reception system and enables polarization selection of satellite broadcasting for each household.

The present invention is characterized by selectively outputting the first and second polarization frequency converters and the first and second polarization frequency converters for low noise frequency conversion of horizontal and vertical or left and first polarization, respectively, in one low-noise frequency converter. It includes a polarization switching unit for selectively supplying the BS tuner.

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

3 is a schematic diagram of a satellite broadcasting joint reception system using the low noise frequency converter of the present invention, wherein the satellite broadcast signal 1 focused at the satellite antenna 19 passes through the low noise frequency converter 400 to BS tuner 1 110 of each household. ) And tuner 2 (12). Here, only two households are taken as an example, but three or more households may use one satellite antenna 10 and a low-frequency converter 400 in common.

4 shows a detailed circuit configuration of the low noise frequency converter 400 of the present invention.

The low noise frequency converter 400 is largely composed of a first polarization frequency converter 100, a second polarization frequency converter 200, and a polarization switching unit 300.

The first polarization frequency converter 100 performs a low noise amplification of the first polarized wave, for example, the horizontally polarized satellite broadcast signal, received through the satellite antenna 10 at the first LNA stage 101, and then uses the first RF filter stage 102. via the first connection to be input to the mixer stage 103, and the first polarized input RF signal (12GH ₂₎ of the first mixer stage (103) it is mixed and the oscillation signal of the common local to detect (104) single 1GH ₂ The first polarized IF signal, which is converted into the first IF signal and then output to the first IF filter stage 105, passes through the first IF filter stage 105 and passes through the first IF amplifier stage 106. 107) is configured to be connected to be applied.

The second polarization frequency converter 200 performs a low noise amplification of the second polarized wave, for example, the horizontal piece and the satellite broadcast signal, received through the satellite antenna 10 at the second LNA stage 201 and then the second RF filter stage 202. a via a second connection to be input to the mixer stage 203, and the second one 12GH _second input to the mixer stage 203 first and then converted to a second polarization IF signal output by the 2IF filter stage (205) to be connected, and The second IF signal passing through the second IF filter stage 205 is mixed with the oscillation signal of the common local oscillation stage 104 by the second polarized RF signal, and is distributed through the second IF amplifier stage 207 of ₂ units of 1GH. It is configured to be connected to be applied to the stage 207.

The polarization switching unit 300 is controlled by an external electrical signal and is controlled by the first and second switches 301 and 302 connected to the output terminals of the first and second distribution terminals 107 and 207. The BS tuner 1 110 and the BS tuner 2 120 ) Is configured to connect the output of the first polarization frequency converter 100 or the second polarization frequency converter 200 selectively.

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

3 and 4, the satellite broadcast signal focused at the parabolic satellite antenna 10 is input to the multi-polarization low noise frequency converter 400.

One of the 12GH ₂ polarization signals (vertical or horizontal polarization / left or preferred polarization) input to the low noise frequency converter 400 is low noise amplified by the first LNA stage 101 of the first polarization frequency converter 100, The other polarized signal is low noise amplified by the second LNA stage 201 of the second polarized frequency converter 200.

Different polarized signals amplified by the first and second LNA stages 101 and 201 are passed through the first and second RF filter stages 102 and 202, respectively, and common local oscillation stage 104 by the first and second mixer stages 103 and 203, respectively. The first polarized IF signals mixed with the local oscillation frequency signals of and converted into 1GH ₂ are respectively output as second polarized IF signals.

The first polarization IF signal from the first mixer stage 103 is distributed from the first distribution stage 107 via the first IF amplifier stage 106 for amplifying the signal of the first IF filter stage 105 to be polarized switching unit. A second polarization IF signal applied to the first switch 301 of 300 and passed through the second IF amplifier stage 206 for amplifying the second IF filter stage 205. It is distributed at the second distribution stage 207 and applied to the second switch 302 of the polarization switching unit 300.

Accordingly, the divided first and second polarization IF signals output from the first and second polarization frequency converters 100 and 200 are converted into respective BS tuners according to the switching of the first and second switches 301 and 302 of the polarization switching unit 300. The first polarized IF signal or the second polarized IF signal is selectively supplied to each of the 1110 and the BS tuner 2 120.

Thus, two or more households can arbitrarily receive a vertical or horizontal (left or right) polarized satellite signal.

The first and second switches 301 and 302 of the polarization switching unit 300 may enable the polarization selection indoors through the size of the LNB power supplied from the BS tuner side or a separate switching voltage supply line.

As described above, the present invention enables a single low-noise frequency converter to selectively receive satellite broadcasts of different polarizations in a large number of spheres, and does not require a separate distributor and amplifier. Easy to build

Claims (1)

A first polarized IF signal is obtained by mixing the first LNA stage 101 for low noise amplifying the first polarized signal of the satellite antenna 10 and the oscillation signal of the common local oscillation stage 104 by mixing the output of the first LNA stage 101. A first polarization frequency converter (100) including a first mixer stage (103) for generating a first division stage (107) for distributing the first polarized IF signal passed through the first IF amplifier stage (106); A second polarization IF by mixing the second LNA stage 201 for low noise amplifying the second polarization signal of the satellite antenna 10 with the oscillation signal of the common local oscillation stage 104; A second polarization frequency converter 200 including a second mixer stage 203 for generating a signal and a second divider stage 207 for distributing the second polarized IF signal passed through the second IF amplifier stage 206; And first and second switches 301 and 302 for selectively connecting the outputs of the first and second division ends 107 and 207 of the first and second polarization frequencies 100 and 200 to the first and second BS tuners 110 and 120 according to an external control signal. Polarization switching unit 300 comprising a; A low noise frequency converter for multi-polarization joint reception, characterized in that consisting of.