KR970007041Y1 - Tuner - Google Patents

Abstract

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Description

Wide Band BS Tuner

The present invention relates to a BS (satellite broadcast) tuner for receiving satellite broadcast signals, and more particularly, to a wide band BS tuner designed to increase the number of receivable channels by extending the reception band in Astra satellite broadcasting in Europe. It is about.

Currently, in Europe, one-cable solution system, in which multiple households can simultaneously receive satellite broadcasts through one horizontal and vertical plane and a common LNB, is becoming common.

In the original cable solution system, one LNB is commonly used by several households, and a tuner connected to the LNB used as the commonization is separately installed and used for each household. It is a system that can save the cost.

In the satellite broadcasting reception, Astra satellite broadcasting in Europe is composed of three 1A, 1B, and 1C three-stations covering the RF band of 10.95-11.9GHz, which are currently provided by two broadcasting networks, 1A and 1B. To be provided.

The 1A and 1B broadcasts have 32 vertical and horizontal polarization channels, respectively. In addition, when the Astra 1C broadcast, which is to be provided in the future, is performed, 16 channels are mainly used to enable broadcasting through 48 channels.

However, since the conventional LNB and BS tuners are designed to satisfy only Astra 1A and 1B 32 channel broadcast reception, there is a problem in that even if 1C broadcast is performed in the future, 16 channels broadcast in 1C may be received.

The present invention is devised to solve the above problems.

Accordingly, an object of the present invention is to provide a wide band BS tuner capable of receiving the full band of Astra satellite broadcasting.

1 is a circuit diagram according to the present invention.

Explanation of symbols on the main parts of the drawings

10, 14: RF amplifier 12: Bandpass filter

16: mixer 18: oscillator

20, 22: IF amplifier 24: RF demodulation stage

As a technical means for achieving the above object of the present invention, the wideband BS tuner of the present invention is a wideband BS tuner for receiving a high frequency signal from a wideband LNB, the high frequency signal output from the wideband LNB Ultrashort RF amplifier for amplifying a variable bandpass filter for varying a passband of the ultrashort RF amplifier output signal in a range of 950-2600 MHz according to a tuning voltage by channel selection: Amplifying a high frequency signal passing through the variable bandpass filter RF amplifier: output oscillation frequency varying in the range of 1430-3080 MHz according to the tuning voltage by channel selection: output IF signal by mixing the high frequency signal amplified by the RF amplifier and the oscillator signal of the oscillator Mixer: a two stage IF amplifier for amplifying the IF signal output from the mixer and output to the FM demodulation stage And a gong.

Hereinafter, a preferred embodiment of a wide band BS tuner according to the present invention will be described with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

FIG. 1 shows a block diagram of a 48-channel BS tuner according to the present invention. Referring to FIG. 1, an RF input signal of 950-2600MHz coming through an antenna (not shown), specifically, IF of a 48-channel LNB An RF amplifier 10 for amplifying an output signal, a variable band pass filter 12 for varying a bandwidth of the output signal of the RF amplifier 10 according to a tuning voltage designed for a band of 950-2600 MHz, and the variable band pass filter An RF amplifier 14 for amplifying the high frequency signal passed through the 12 and a mixer for mixing the high frequency signal amplified by the RF amplifier 14 with the oscillation signal generated by the oscillator 18 and converting it into an intermediate frequency signal. (16), an oscillator (18) oscillating according to a tuning voltage in a frequency in the range of 1430-3080 MHz, and a two-stage IF amplifier (20), (22) for amplifying an intermediate frequency signal output from the mixer 16; And demodulating the IF signal output from the IF amplifier 22 to the base van. Constitute the FM demodulation stage (24) for outputting a signal.

Operation according to the BS tuner of the present invention configured as described above will be described in detail below based on the accompanying drawings.

Referring to FIG. 1, a high frequency (RF) input signal (more precisely, an IF output signal of an LNB) amplified by the first stage RF amplifier 10 is band-passed through a variable band pass filter 12 designed in a band of 950-2600 MHz. Next, it is amplified by the rear stage RF amplifier 14 and input to the mixer 16.

The variable band pass filter 12 determines a pass band for the high frequency signal amplified by the RF amplifier 10 within the 950-2600 MHz band according to a tuning voltage generated by channel selection.

Specifically, when a channel is selected, a corresponding tuning voltage is generated and provided to the variable band pass filter 12, and the variable band pass filter 12 determines a pass band by the provided tuning voltage. The band / right band cutoff frequency is determined, and the band cutoff frequency is changed by the varactor diode in the variable band pass filter 12. The varactor diode has a capacitance inversely proportional to the magnitude of the provided tuning voltage, whereby the cutoff frequency is variably determined.

The RF signal output through the rear stage RF amplifier 14 is mixed with the oscillation signal generated from the oscillator 18 by the mixer 16 and converted into an intermediate frequency (IF) signal, and the oscillator 18 is Similar to the variable band pass filter 12, an oscillation signal in the range of 1430-3080 MHz is generated according to the tuning voltage.

In detail, when the channel is selected in the oscillator 18, a tuning voltage corresponding thereto is generated and provided to the oscillator 18. The oscillator 18 has a varactor whose capacitance changes in inverse proportion to a voltage size therein. A resonant circuit using a diode is constructed, and in the resonant circuit, the resonant frequency is changed according to the tuning voltage provided, and thus the oscillation frequency is changed.

Therefore, the RF signal in the 950-2600MHz band is mixed with the oscillation signal in the range of 1430-3080MHz and converted into an IF signal of about 480MHz.

In the existing BS tuner, the bandpass filter band is designed as 950-2600MHz, which satisfies 36 channels, and the oscillator is also designed as 1430-2530MHz, so it cannot cover all of the Astra 1A-1C broadcasts. By varying the passband of the variable bandpass filter according to the tuning voltage, all channels of 1A-1C broadcast can be received.

As described above, the IF signals for all 48 channels output from the mixer 15 are amplified by the two-stage IF amplifiers 20 and 22, and then the FM demodulation stage 24 is converted into baseband signals. It is demodulated and output.

Accordingly, the BS tuner according to the present invention is designed for the variable filtering band of the band pass filter to a wide band of 950-2600 MHz, and the satellite broadcasting signal of the LNB designed to receive 48 channels by extending the variable oscillator output of the oscillator to 1430-3080 MHz. It outputs baseband signal for 48 channels.

According to the present invention as described above, in the European satellite broadcasting (Astra Broadcasting) receiving system by the one-cable solution method connected to the 48-channel common LNB to receive all satellite broadcasting bands including the Astra 1C broadcast to be carried out in the future It is an excellent effect.

Claims (1)

In a wide band BS tuner that receives a high frequency signal from a (second order correction) wide band LNB, An ultra-short RF amplifier (10) for amplifying the high frequency wave output from the wide band LNB; A variable band pass filter 12 for varying a pass band of the output signal of the first stage RF amplifier 10 in a range of 950-2600 MHz according to a tuning voltage by channel selection; A rear stage RF amplifier 14 for amplifying the high frequency signal passed through the variable band pass filter 12; An oscillator 18 for outputting an oscillation frequency varying in the range of 1430-3080 MHz according to a tuning voltage by channel selection; A mixer 16 for mixing the high frequency signal amplified by the rear stage RF amplifier 14 and the oscillation signal of the oscillator 18 to output an IF signal; And a two-stage IF amplifier (20) or (22) for amplifying the IF signal output from the mixer (16) and outputting the amplified IF signal to the FM demodulation stage (24).