KR100391920B1 - Satellite radio tuner with improved function of antenna leakage - Google Patents

Abstract

The present invention relates to a satellite radio tuner, and the present invention provides a satellite radio tuner comprising: a band pass filter (21) for band-passing an RF signal from an antenna (ANT); An RF amplifier 23 for amplifying the signal through the band pass filter 21 to a set gain; A high pass filter 24 which passes a set high frequency band among the output signals of the RF amplifier 23 and blocks a low frequency band including an oscillation frequency; An oscillator 25 providing an oscillation frequency; And a mixer 27 for mixing the output signal of the high pass filter 24 and the oscillation frequency of the oscillator 25. According to the present invention, an oscillation frequency (fosc) comes out of the antenna connector. By improving the leakage (antenna), the performance of the product can be improved.

Description

SATELLITE RADIO TUNER WITH IMPROVED FUNCTION OF ANTENNA LEAKAGE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a satellite radio tuner, and more particularly to an antenna leaky that allows an oscillation frequency (fosc) to improve antenna leakage from the antenna connector, thereby improving product performance. To improve the satellite radio tuner.

In general, a satellite radio tuner is included in a satellite radio receiver for receiving a radio broadcast broadcast through a satellite, and the sound quality of the radio broadcast by the satellite radio broadcast is, for example, CD sound quality. It is known for its high sound quality.

1 is a schematic diagram of a conventional satellite radio tuner. Referring to FIG. 1, a conventional satellite radio tuner includes a band pass filter 11 for band-passing an RF signal SRF through an antenna ANT, and the band pass. An RF amplifier 13 for amplifying the output signal of the filter 11 with a set gain, an oscillator 15 providing an oscillation frequency, an output signal of the RF amplifier 13, and an oscillation frequency of the oscillator 15 And a mixer 17 for mixing and outputting the intermediate frequency signal SIF.

FIG. 2 is an RF band characteristic diagram of the satellite radio tuner of FIG. 1. Referring to FIG. 2, in the conventional satellite radio tuner, the frequency range of the RF signal is approximately 1440 MHz to 1490 MHz, and the bandwidth (RF-BW) is 50 MHz. The oscillation frequency fosc is 115.244 MHz below the frequency of the RF signal, and is in the range of about 1324.756 MHz to 1374.756 MHz.

In such a conventional satellite radio tuner, there is a problem of antenna leakage characteristics, which are characteristics of the oscillation frequency coming out of the connector (A-CON) of the antenna. As shown in FIG. 2, when the level is high on the side of the RF signal band, the oscillation frequency level is increased by that level, which causes a problem of worsening antenna package characteristics.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and therefore, an object of the present invention is to improve the performance of the product by allowing the oscillation frequency (fosc) to improve antenna leakage coming out of the antenna connector. It is to provide a satellite radio tuner with an improved antenna package.

1 is a schematic diagram of a conventional satellite radio tuner.

2 is a RF band characteristic diagram of the satellite radio tuner of FIG. 1.

3 is a circuit block diagram of a satellite radio tuner according to the present invention.

4 is a RF band characteristic diagram of the satellite radio tuner of FIG.

Explanation of symbols on the main parts of the drawings

21 band pass filter 23 RF amplifier

24: high pass filter 25: oscillator

27: mixer

As a technical means for achieving the above object of the present invention, the satellite radio tuner of the present invention comprises a bandpass filter for bandpass the RF signal from the antenna; An RF amplifier for amplifying the signal through the band pass filter with a set gain; A high pass filter configured to pass a set high frequency band among the output signals of the RF amplifier and cut off a low frequency band including an oscillation frequency; An oscillator providing an oscillation frequency; And a mixer for mixing the output signal of the high pass filter and the oscillation frequency of the oscillator.

Hereinafter, a satellite radio tuner with an improved antenna package according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit block diagram of a satellite radio tuner according to the present invention. Referring to FIG. 3, the satellite radio tuner according to the present invention includes a band pass filter 21 for band-passing an RF signal from an antenna ANT; An RF amplifier 23 that amplifies the signal through the band pass filter 21 with a set gain, and a high pass filter that passes a high frequency set among the output signals of the RF amplifier 23 and cuts a low range including an oscillation frequency. (24), an oscillator (25) providing an oscillation frequency, and a mixer (27) for mixing the oscillation frequency of the oscillator (25) with the output signal of the high pass filter (24).

The high pass filter 24 is set to a cutoff frequency that distinguishes the high and low frequencies, the cutoff frequency is set to a cutoff frequency higher than the oscillation frequency, and also a cutoff frequency lower than the lowest frequency in the RF band Is set to. For example, the cutoff frequency of the high pass filter 24 is higher than an oscillation frequency (fosc) in the range of 1324.756 MHz to 1374.756 MHz, and lower than the frequency of the RF signal in the range of 1440 MHz to 1490 MHz. It is set to either frequency.

FIG. 4 is an RF band characteristic diagram of the satellite radio tuner of FIG. 3. In FIG. The levels P1 and P2 are shown.

Operation according to the satellite radio tuner of the present invention configured as described above will be described in detail below with reference to the accompanying drawings.

Referring to FIG. 3 and FIG. 4, a satellite radio tuner according to the present invention will be described. First, an RF signal captured by an antenna ANT is input to a satellite radio tuner through an antenna connector ACON, which is 1440 MHz in the RFTLS call. An RF signal in the range of ˜1490 MHz is bandpassed by the bandpass filter 21.

The RF signal passed by the bandpass filter 21 is amplified by a gain set in advance in the RF amplifier 23, and then the signal amplified in the RF amplifier 23 is cut off set by the high pass filter 24. Only frequencies above the cutoff frequency, i.e., high frequencies, are passed.

For example, when the cutoff frequency of the high pass filter 24 is set to 1380 MHz among frequencies in the range of 1374.756 MHz to 1440 MHz, the RF signal is higher than the cutoff frequency of 1380 MHz in the high pass filter 24. That is, frequencies higher than 1440 MHz are passed.

As a result, an RF signal in the range of 1440 MHz to 1490 MHz passed through the band pass filter 21 passes, and the high pass filter 24 shows a low-pass level in the range of 1440 MHz to 1490 MHz. As will be lowered from L1 to L2.

On the other hand, in the oscillator 25, an oscillation frequency (fosc) in the range of 1324.756 MHz to 1374.756 MHz is provided to the mixer, and in the mixer 27, the oscillation frequency and the RF signal passed by the high pass filter 24 are provided. Is mixed to provide an intermediate frequency signal (SIF) of approximately 115.244 MHz.

Here, the oscillation frequency (fosc) generated in the oscillator 25 is radiated to the antenna connector side, but in the satellite radio tuner of the present invention, the level of the low frequency side in the above range of 1440MHz to 1490MHz is shown in FIG. As it is further lowered from L1 to L2, it can be seen that the level of the oscillation frequency is also lowered from P1 to P2.

As described above, in the satellite radio tuner of the present invention, the signal level on the left side (low frequency side) of the RF signal band is lowered as a whole, thereby improving the antenna ridge key characteristics, thereby improving the performance of the satellite radio tuner.

According to the present invention as described above, by having the oscillation frequency (fosc) to improve the antenna leakage (antenna leakage) coming out of the antenna connector, there is a special effect that can improve the performance of the product.

The above description is only a description of one embodiment of the present invention, the present invention is capable of various changes and modifications within the scope of the configuration.

Claims (3)

In the satellite radio tuner which improved an antenna liquid, A band pass filter 21 for band-passing the RF signal from the antenna ANT; An RF amplifier 23 for amplifying the signal through the band pass filter 21 to a set gain; A high pass filter 24 which passes a set high frequency band among the output signals of the RF amplifier 23 and blocks a low frequency band including an oscillation frequency; An oscillator 25 providing an oscillation frequency; And And a mixer (27) for mixing the output signal of the high pass filter (24) and the oscillation frequency of the oscillator (25). 2. The high pass filter of claim 1, wherein Satellite radio tuner with improved antenna package, characterized in that the cutoff frequency is set higher than the oscillation frequency. 3. The high pass filter of claim 2, wherein Satellite radio tuner with improved antenna package, characterized in that the cutoff frequency is set lower than the lowest frequency in the RF band.