JP2703929B2 - Input circuit for BS tuner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention relates to an input circuit for a BS tuner in which a front end of a BS tuner section of a satellite broadcast receiving system is improved.

(Prior Art) As shown in FIG. 3, a satellite broadcast receiving system includes an outdoor unit 10 including a parabolic antenna and a first frequency converter.
And the indoor unit 20 having the second frequency converter, and the outdoor unit 10 converts the frequency of the 12 GHz band into a signal of the first intermediate frequency of the 1 to 1.3 GHz band (hereinafter referred to as a BS-IF signal). Is done. The BS-IF signal is introduced to the indoor unit 20 via a cable. The second frequency converter of the indoor unit 20 converts the BS-IF signal into a signal of the second intermediate frequency (130 MHz band), and at the same time performs channel selection. The signal of the second intermediate frequency is subjected to FM detection and supplied to a video signal processing circuit and an audio signal processing circuit.

By the way, in a recent satellite broadcast receiving system, a BS-IF signal from the outdoor unit 10 is introduced into a cable of an existing VHF or UHF receiving system, and one cable is used in common. . Such use is performed particularly in an area where a common listening facility such as an apartment is provided. When this co-listening facility is adopted, as shown in FIG. 4, the BS-IF signal from the outdoor unit 10 is guided to the cable 30, and a coupler 14 is required on the way. In FIG. 4, 11 is a VHF antenna, 12 is a UHF antenna, 13 is VHF, UH
This is a combiner that combines the F signals. The coupler 14 is a BS-IF
The signal and the signal from the coupler 13 are combined and led out to the cable 30.

On the other hand, on the indoor side, it is necessary to first split the BS-IF signal and the VHF and UHF signals through the splitter 21 to guide the BS-IF signal to the BS tuner. The VHF signal and the VHF signal are split by the splitter 22 and guided to the respective tuners.

However, according to the above-mentioned equipment, the BS-IF signal is in the 1 GHz band, and the duplexer 21 is more complex and expensive than the VHF and UHF splitters to accurately split the BS-IF signal.

If an inexpensive duplexer similar to the duplexer 22 is to be used as the duplexer 21, the following problem occurs.

Generally, the voltage level of the UHF and VHF signals is set to about 80 to 90 dBμv, while the standard level of the BS-IF is about 70 dBμv, and the input level of the UHF and VHF signals is high. This is because in the case of satellite broadcasting, there is no obstacle in the course of radio wave transmission, and transmission is performed with low power from the viewpoint of saving the power used by the satellite itself.

On the other hand, the input circuit in the second frequency converter of the BS tuner uses a non-tuned broadband amplifier 24 as shown in FIG. Here, UHF, VHF
If a mixed signal is input, mixing may occur when the BS-IF signal is received. Therefore, in order to prevent such interference, a band-pass filter 23 for the BS-IF signal band is provided before the wide band amplifier 24. But 1G
In order to manufacture the band pass filter 23 in the Hz band, advanced technology is required, and complicated adjustment is required by connecting multi-stage filter units.

(Problems to be Solved by the Invention) As described above, in a receiving facility that guides an indoor unit with a BS-IF signal, a VHF, UHF signal, and one cable, a duplexer becomes expensive and complicated. Alternatively, a complicated and expensive bandpass filter is provided as an input circuit of the BS tuner.

Therefore, an object of the present invention is to provide an input circuit for a BS tuner that can prevent unnecessary signals from being input to the BS tuner by simple circuit means and that enables satellite broadcast reception without interference. .

[Configuration of the Invention] (Means for Solving the Problems) The present invention provides a first unit including a first frequency converter for receiving a satellite broadcast signal and converting it into a signal of a first intermediate frequency; A first intermediate frequency signal from a first unit, introduced via a cable, comprising a second frequency converter for converting the first intermediate frequency signal to a second intermediate frequency signal; A satellite broadcast receiver having a tuner, wherein the BS tuner receives a signal from the cable via an input signal line, amplifies and outputs a signal of a first intermediate frequency, and outputs the second frequency. A broadband amplifier to be supplied to the converter, and a series resonance coupled to the input signal line, having a resonance point at a frequency of about 1/2 of the first intermediate frequency, and attenuating a frequency component near the resonance point. With the circuit It is a feature.

(Operation) With the above-described means, a component that causes distortion among the mixed input of the VHF and UHF signals is removed by the trap circuit, so that no interference occurs even when the BS-IF signal is received.

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

FIG. 1 shows an embodiment of the present invention, in which a BS-IF signal and VHF, UH signals are input to an input terminal 40 from an outdoor unit via a cable.
An F signal is introduced. The VHF and UHF signals are guided to a demultiplexer (not shown), demultiplexed, and introduced into VHF and UHF tuners, respectively. The input terminal 40 is connected to an LC series resonance circuit 41 as a trap circuit. The resonance frequency of this circuit is around 600 to 700 MHz, about 1/2 of the BS-IF signal frequency band.
Frequency. In this embodiment, the coil L is 15 nH and the capacitor C is 4 pF. As the actual operation, the above-mentioned frequency (600 to 700 MHz) together with the series capacitors C ₁ and C ₂
Works as a high-pass filter with a pole nearby. The actually measured frequency characteristic is a characteristic curve 51 shown in FIG. If the series resonance circuit 41 is not provided, the next-stage broadband amplifier 42
The frequency characteristic at the input end is as shown by a characteristic curve 52.

When a mixed signal of UHF and VHF is input to the input terminal of the wideband amplifier 42, if the signal level is high, distortion occurs in the amplification transistor section of the wideband amplifier 42, and the distortion component is
Appears near half the frequency of the BS-IF signal band. This distortion component is a component of the UHF band harmonic distortion component that is very close to the reception frequency in the BS-IF band, and causes interference in the reception of the BS-IF signal. This is because the level of the BS-IF signal is lower than the UHF and VHF signal levels. Therefore, by attenuating the above-described components in the vicinity of 500 to 700 MHz by the trap, it is possible to provide a sufficient margin for interference. Conventionally, when a color bar is input as a BS-IF signal and a UHF signal is input at 90 dBμV, a beat appears on the screen.
It was confirmed that there was no problem even if μV was input.

[Effects of the Invention] As described above, according to the present invention, even if the UHF, VHF and BS-IF signals are introduced into the indoor unit via one cable only by adding a simple circuit, ordinary low cost If the signal is distributed by an appropriate duplexer, satellite broadcast reception without interference can be achieved.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, FIG. 2 is a frequency characteristic diagram for explaining the effect of the present invention, FIG. 3 is an explanatory diagram of a satellite broadcast receiving system, and FIG. FIG. 5 is an explanatory diagram of a signal coupling and demultiplexing system of the receiving system. FIG. 5 is a diagram showing a conventional BS tuner input circuit. 41 ... Series resonance circuit, 42 ... Broadband amplifier.

Claims (1)

(57) [Claims] An outdoor unit including a first frequency converter for receiving a satellite broadcast signal and converting the signal into a first intermediate frequency signal, and wherein the first intermediate frequency signal from the outdoor unit is connected to a cable. And a BS tuner including a second frequency converter for converting the signal of the first intermediate frequency into a signal of the second intermediate frequency, wherein the BS tuner comprises: To the second frequency converter, an input signal line connected to the cable, and coupled to the input signal line, wherein the input signal line
It has a resonance point at half the frequency, a series resonance circuit for attenuating frequency components near the resonance point, and a signal of the first intermediate frequency passing through the series resonance circuit is input. An input circuit for a BS tuner, comprising: a broadband amplifier that amplifies and outputs the amplified signal and supplies the amplified signal to the second frequency converter.