JP6876106B2 - BS right-handed / left-handed-IF signal transmission system - Google Patents

Description

The present invention relates to a BS right-handed / left-handed-IF signal transmission system that transmits a BS right-handed / left-handed-IF signal in a transmission line of an existing facility.

Conventionally, a joint reception facility for BS broadcasting has enabled reception of BS broadcasting by using a transmission line having a narrow transmittable frequency band by converting the frequency of a BS-IF signal into a low frequency band.

In Patent Document 1 (Japanese Unexamined Patent Publication No. 2002-354473), a down converter with an extension terminal specifies a signal corresponding to BS-5 to 11ch among BS-IF signals input to an input terminal in a converter unit. In a system that converts to a frequency band and sends it out on a transmission line, a part of the input BS-IF signal is output to the outside via a brancher and a branch output terminal, and other BS-1, 3, 13, 15 channels. Is frequency-converted by an existing down converter, and the converted signal is taken into the mixer via the mixing input terminal and output together with the signal from the converter section, which is efficient for digitizing the current analog BS broadcasting expected in the future. The system that can be dealt with is described.

In Patent Document 2 (Japanese Unexamined Patent Publication No. 2007-5925), a first reference signal of 1466.98 MHz is input to the first mixer, and a second reference signal of 1620.42 MHz is input to the second mixer. The mixer 1 uses the first reference signal to frequency-convert the BS reception signals of channels 1, 3, 5, 7, and 9 minutes, and the second mixer uses the second reference signal to convert the BS of channels 13 and 15 minutes. The received signal is frequency-converted, channels 1, 3, 9 and channels 13 and 15 are selectively extracted from the frequency-converted signal to form a continuous channel arrangement with different frequencies from each other, and the BS corresponding to each channel. It is described that the channel intermediate frequency signals are mixed and output as a BS intermediate frequency signal.

Patent Document 3 (Japanese Patent No. 5560471) includes first and second down-conversion stages, first and second analog-digital converters, digital switching and signal processors, and the first down-conversion stage has a plurality of first down-conversion stages. A first downconverter circuit having an input for receiving a first RF input signal including one channel is provided, and the first downconverter circuit frequency-downs the first RF input signal to a first IF signal including a plurality of first channels. After conversion, the first analog-to-digital converter converts the first IF signal into the first digital IF signal, and the second downconverter stage has an input for receiving a second RF input signal including a plurality of second channels. A channel stack system including a two-down converter circuit is disclosed, in which the second down-converter circuit frequency-down-converts a second RF input signal into a second IF signal including a plurality of second channels.

Japanese Unexamined Patent Publication No. 2002-354473 JP-A-2007-5925 Japanese Patent No. 5560471

From December 2018, the main broadcasting of 4K8K satellite broadcasting has started using a part of BS right-handed polarization and BS left-handed polarization. However, in common reception facilities such as condominiums, there are many existing facilities whose transmission lines can only transmit up to BS right-handed-IF frequency (maximum 1489 MHz) or up to 1 GHz. In order to transmit BS left-handed-IF signals in these existing facilities, large-scale renovation is required, which involves construction for each room.

The down converter with an extension terminal described in Patent Document 1 is provided with one down converter, and shifts all the frequencies of signals corresponding to BS-5 to 11ch to a fixed amount in the low frequency range, and signals of other broadcasting channels. It is equipped with an extension terminal for converting to another frequency using an external down converter. Therefore, by using a plurality of converters, it is possible to change the frequency arrangement of each broadcast channel after the downconverter from the original frequency arrangement, but the configuration of the downconverter becomes complicated. Further, in the down converter with an extension terminal described in Patent Document 1, BS left-handed broadcasting is not considered.

The down converter described in Patent Document 2 is provided with two mixers and two reference signals, and the frequency arrangement after the down converter can be adjusted. Specifically, BS-1, 3, 9, 13, and 15 channels. It is described that can be down-converted to a band from 250 MHz to 432 MHz, but the down converter described in Patent Document 2 cannot down-convert all channels of BS right-handed radio waves. Further, in the down converter described in Patent Document 2, BS left-handed broadcasting is not considered.

In the channel stack system described in Patent Document 3, since broadcast channel extraction and frequency conversion are performed by digital signals, there is a possibility that the frequency arrangement of each broadcast channel after down-conversion can be freely set, but BS right in Japan. It does not describe what frequency arrangement each broadcast channel of the rotation / left rotation-IF radio wave is down-converted to, and what kind of configuration is used when down-converting to a predetermined frequency arrangement.

A main object of the present invention is terrestrial digital broadcasting and terrestrial digital broadcasting in an existing facility having a transmission line capable of transmitting only up to BS right-handed-IF frequency (up to 1489 MHz) or an existing facility having a transmission line capable of transmitting only up to 1 GHz. The purpose of the present invention is to provide a BS right-handed / left-handed-IF signal transmission system having a frequency arrangement for each broadcast channel on a transmission path for transmitting a BS right-handed / left-handed-IF signal while coexisting with FM broadcasting. ..
A second object of the present invention is to provide a BS right-handed / left-handed-IF signal transmission system having a down-converter and an up-converter configuration for realizing a frequency arrangement for each broadcast channel on a transmission line. is there.

(1)
The BS right-handed / left-handed-IF signal transmission system according to one aspect includes a down converter, a 1 GHz compatible CATV booster, a transmission line, and an up converter, and the down converter is BS left-handed 2, 4, 6, 8, The IF signals of channels 10, 12, 14, and 16 are down-converted to the band from 118 MHz to 424 MHz, and the IF signals of BS left-handed 18, 20, and 22 channels are down-converted to the band from 730 MHz to 845 MHz, and 1 GHz. The corresponding CATV booster amplifies the CATV band signal up to 1 GHz including the down-converted BS left-handed-IF signal, terrestrial digital broadcast signal, and FM broadcast signal, and the BS / CS right-handed-IF signal, and transmits the transmission path. Transmits signals in the CATV band up to 1 GHz and BS / CS right-handed-IF signals, and the up-converter is BS left-handed 2, 4, 6, 8, 10, 12, 14 down-converted by the down converter. , 16, 18, 20, and 22 channels of IF signals are up-converted to the frequencies before down-conversion, respectively, and up-converted BS left-handed-IF signals, BS right-handed-IF signals, terrestrial digital broadcasting signals, And FM broadcast signals are sent to the television and / or FM tuner.

In this case, the 1 GHz compatible CATV booster amplifies and the maximum frequency of the signal transmitted by the transmission line is 1489 MHz of the BS right-handed-IF signal. Therefore, in the existing BS right-handed-IF compatible facility, BS right-handed and BS It can transmit signals from all channels of left-handed broadcasting.

(2)
The BS right-handed / left-handed-IF signal transmission system according to the second invention includes a down converter, a 1 GHz compatible CATV booster, a transmission line, and an up converter. The IF signals of channels 5, 7, 9, 11, 13, and 15 are down-converted to the band from 118 MHz to 424 MHz, and the IF signals of BS right-handed 17, 19, 21, and 23 channels and BS left-handed 8, 12 are used. , And 14 channels of IF signals are down-converted to the band from 730MHz to 1000MHz, and the 1GHz compatible CATV booster is a 1GHz including down-converted BS right-handed / left-handed-IF signals, terrestrial digital broadcasting signals, and FM broadcasting signals. The signal of the CATV band up to 1 GHz is amplified, the transmission line transmits the signal of the CATV band up to 1 GHz, and the upconverter is down-converted, BS right-handed 1, 3, 5, 7, 9, 11, 13 , 15, 17, 19, 21, and 23 channels and BS left-handed 8, 12, and 14 channels IF signals are up-converted to the frequencies before down-conversion, respectively, and the up-converted BS. Right-handed / left-handed-IF signals, terrestrial digital broadcast signals, and FM broadcast signals are sent to the television and / or FM tuner.

In this case, the 1 GHz compatible CATV booster amplifies and the maximum frequency of the signal transmitted by the transmission line is 1 GHz. Therefore, in the existing 1 GHz compatible facility, all channels of BS right-handed broadcasting and BS left-handed broadcasting 8, 12, And 14 channels of signals can be transmitted.
As of February 2019, only channels 8, 12, and 14 are BS left-handed broadcasts that are currently being broadcast and are scheduled to be broadcast.

(3)
The BS right-handed / left-handed-IF signal transmission system according to the third invention is one aspect, or in the BS right-handed / left-handed-IF signal transmission system according to the second invention, the down converter and the up converter digitalize the input signal. An analog-digital converter that converts signals, a channel extractor that extracts signals of multiple broadcast channels from the digital signals converted by the analog-digital converter, and signals of multiple broadcast channels extracted by the channel extractor, respectively. A channel frequency converter that converts the signal into a signal in a predetermined frequency range, a channel synthesizer that synthesizes each of the signals of a plurality of broadcast channels converted into a signal in a predetermined frequency range into one signal, and a channel synthesizer. It may include a digital-analog converter that converts the output signal of the above into an analog signal.

In this case, since the broadcasting channels are extracted and the frequency conversion for each broadcasting channel is performed by the digital signal processing LSI, the down converter can be downsized. Further, in digital signal processing, it is possible to respond to flexible specification changes such as changing a predetermined frequency arrangement, and it is possible to enhance the functionality of the down converter.

It is a figure which shows the structure of the whole BS right-handed / left-handed-IF signal transmission system. It is a figure which shows the frequency arrangement of the input signal to a BS right-handed / left-handed-IF signal transmission system. It is a figure which shows the frequency arrangement of the signal in the transmission line between the down converter and the up converter of the BS right-handed / left-handed-IF signal transmission system in 1st Embodiment. It is a figure which shows the structure of the down converter of the BS right-handed / left-handed-IF signal transmission system in 1st Embodiment. It is a figure which shows the frequency arrangement of the channel converter input of the down converter of the BS right-handed / left-handed-IF signal transmission system in 1st Embodiment. It is a figure which shows the frequency arrangement of the channel converter output of the down converter of the BS right-handed / left-handed-IF signal transmission system in 1st Embodiment. It is a figure which shows the structure of the upconverter of the BS right-handed / left-handed-IF signal transmission system in 1st Embodiment. It is a figure which shows the frequency arrangement of the signal in the transmission line between the down converter and the up converter of the BS right-handed / left-handed-IF signal transmission system in 2nd Embodiment. It is a figure which shows the structure of the down converter of the BS right-handed / left-handed-IF signal transmission system in 2nd Embodiment. It is a figure which shows the structure of the upconverter of the BS right-handed / left-handed-IF signal transmission system in 2nd Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Moreover, in the case of the same code, their names and functions are also the same. Therefore, the detailed description of them will not be repeated.

[BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment]
FIG. 1 is a diagram showing the overall configuration of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment, and FIG. 2 is a diagram of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment. It is a figure which shows the frequency arrangement of the input signal.
FIG. 3 is a diagram showing a frequency arrangement of signals in the transmission line 260 between the down converter 200 and the up converter 210 of the BS right-handed / left-handed-IF signal transmission system 300 in the first embodiment.

As shown in FIG. 1, the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment is composed of a down converter 200, a 1 GHz compatible CATV booster 250, a transmission line 260, and an up converter 210. The down converter 200 of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment is connected to the BS antenna 220, the terrestrial digital broadcasting antenna 230, and the FM broadcasting antenna 240. The upconverter 210 is connected to a 4K8K compatible TV 270 and an FM tuner 280.

The BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment includes an FM broadcast signal from 76 MHz to 108 MHz, a terrestrial digital broadcast signal from 470 MHz to 730 MHz, a BS right-handed-IF signal from 1032 MHz to 1489 MHz, and from 2224 MHz. A 2681 MHz BS left-handed-IF signal is input.

The BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment is an existing facility capable of transmitting a BS right-handed-IF signal from 1032 MHz to 1489 MHz, and all of the BS left-handed-IF signals from 2224 MHz to 2681 MHz. The purpose is to transmit the channel of. For this purpose, among the BS left-handed-IF signals, the signals for a total of 8 channels from BS left-handed 2 channels to 16 channels are down-converted to the band of 118 MHz to 424 MHz between FM broadcasting and terrestrial digital broadcasting, and BS. A total of 3 channels of left-handed 18 to 22 channels are down-converted to the 730 MHz to 845 MHz band between the terrestrial digital broadcast and the BS right-handed-IF signal.

In the first embodiment, the BS right-handed-IF signal, the FM broadcast signal, and the terrestrial digital broadcast signal are transmitted without frequency conversion.
The down-converted BS left-handed-IF signal, BS right-handed-IF signal, FM broadcast signal, and terrestrial digital broadcast signal are mixed and transmitted along the same transmission line 260 at the entrance of the upconverter 210. Again, the down-converted BS left-handed-IF signal, BS right-handed-IF signal, FM broadcast signal, and terrestrial digital broadcast signal are separated.

The down-converted BS left-handed-IF signal is converted into the frequency arrangement of the original 2224 MHz to 2681 MHz BS left-handed-IF signal for each broadcasting channel and transmitted to a 4K8K compatible television.
The BS right-handed-IF signal and the terrestrial digital broadcasting signal are transmitted to the 4K8K compatible television 270 without frequency conversion. The FM broadcast signal is transmitted to the FM tuner 280 without frequency conversion.

[Structure of BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment]
FIG. 4 shows the configuration of the down converter 200 of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment. FIG. 5 shows the frequency arrangement of the input signal of the channel frequency converter 50, and FIG. 6 shows the frequency arrangement of the output signal of the channel frequency converter 50. Further, FIG. 7 shows the configuration of the upconverter 210 of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment.

In the down converter 200 of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment, the BS left-handed-IF signal is sent to the input terminal 10a, the BS right-handed-IF signal is sent to the input terminal 10b, and the BS right-handed-IF signal is sent to the input terminal 10c. FM broadcast and terrestrial digital broadcast signals are input to, and the BS right-handed-IF signal and FM broadcast and terrestrial digital broadcast are amplified by the amplifier 110b and the amplifier 110c, respectively, mixed by the mixer 120, and output. It is output from the terminal 90.

The BS left-handed-IF signal is determined via a band-passing filter 20, an analog-to-digital converter 30, a channel extractor 40, a channel frequency converter 50, a channel synthesizer 60, a digital-to-analog converter 70, and a band-passing filter 80. It is down-converted to a frequency sequence, then amplified by the amplifier 110a, mixed with FM broadcasting and terrestrial digital broadcasting and a BS right-handed-IF signal by the mixer 120, and output from the output terminal 90.
The analog-to-digital converter 30, the channel extractor 40, the channel frequency converter 50, the channel synthesizer 60, and the digital-to-analog converter 70 are down of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment. Although the converter 200 is built in one digital signal processing LSI 100, these blocks can be configured by a plurality of LSIs.

The BS left-handed-IF signal is input to the analog-to-digital converter 30 via the bandpass filter 20 and converted into a digital signal. A low-pass filter may be used instead of the band-pass filter 20.

The BS left-handed-IF signal converted into a digital signal is separated into signals of a plurality of broadcasting channels by the channel extractor 40. The output of the channel extractor 40 is divided for each broadcast channel, and the frequency arrangement of one of the outputs is shown by a solid line in FIG. Each of the other frequency sequences shown by the dotted lines in FIG. 5 is also the output of the channel extractor 40, and therefore the output of the channel extractor 40 is 11, which is the same as the number of BS left-handed broadcasting channels. However, since the BS left-handed broadcasting currently being broadcast and scheduled to be broadcast as of February 2019 is only channels 8, 12, and 14, the output of the channel extractor 40 is, for example, only channels 8, 12, and 14. It is also possible.

The output signal for each broadcast channel of the channel extractor 40 is converted into a signal in a predetermined frequency range by the channel frequency converter 50. For example, the BS left-handed two-channel signal in the range of about 2224 MHz to 2265 MHz shown by the solid line in FIG. 5 is converted into a signal in the range of about 118 MHz to 156 MHz also shown by the solid line in FIG.
Further, for example, the signal of the BS left-handed 22 channel in the range of about 2640 MHz to 2681 MHz shown by the dotted line in FIG. 5 is converted into the signal in the range of about 807 MHz to 845 MHz also shown by the dotted line in FIG.

The output signal for each broadcast channel of the channel frequency converter 50 is combined into one signal by the channel synthesizer 60. The output signal of the channel synthesizer 60 is converted into an analog signal by the digital-to-analog converter 70.

The signal converted into an analog signal by the digital-to-analog converter 70 is output through the bandpass filter 80. A low-pass filter may be used instead of the band-pass filter 80.

FIG. 7 shows the configuration of the upconverter 210 of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment. In the upconverter 210 of the first embodiment, an input signal is input from the input terminal 10 to the distributor 130, and the output of the distributor 130 is output by the bandpass filter 140a, the bandpass filter 140b, and the bandpass filter 140c, respectively. It is separated into a down-converted BS left-handed-IF signal, a BS right-handed-IF signal, an FM broadcast signal, and a terrestrial digital broadcast signal. Then, the BS right-handed-IF signal and the terrestrial digital broadcasting signal are transmitted to the 4K8K compatible television 270 via the output terminal 90b and the output terminal 90c, respectively. The FM broadcast signal is transmitted to the FM tuner 280 via the output terminal 90c.

The down-converted BS left-handed-IF signal is transmitted through the analog-to-digital converter 30, the channel extractor 40, the channel frequency converter 50, the channel synthesizer 60, the digital-to-analog converter 70, and the bandpass filter 80. It is up-converted to a frequency array and transmitted to a 4K8K compatible TV 270. A low-pass filter may be used instead of the band-pass filter 80.
The frequency arrangement of the input signal of the upconverter 210 is shown in FIG. 3, and the frequency arrangement of the output signal is the same as the input signal of the BS right-handed / left-handed-IF signal transmission system 300, and is shown in FIG. Further, the frequency arrangement of the input signal of the channel frequency converter 50 of the upconverter 210 is the same as that of FIG. 6, and the frequency arrangement of the output signal is the same as that of FIG.
As can be seen from the frequency arrangement of the input signal of the upconverter 210 in FIG. 3, the frequency arrangements of the FM broadcast signal, the terrestrial digital broadcast signal, and the down-converted BS left-handed-IF signal are interlaced with each other and therefore have a band. The pass filter 140a and the band pass filter 140c are band pass filters that pass signals in two bands, respectively.

The operation of the analog-to-digital converter 30, the channel extractor 40, the channel frequency converter 50, the channel synthesizer 60, and the digital-to-analog converter 30 of the upconverter 210 is the analog digital of the downconverter 200, except for the frequency arrangement. The operation is the same as that of the converter 30, the channel extractor 40, the channel frequency converter 50, the channel synthesizer 60, and the digital-to-analog converter 70.
The output of the bandpass filter 80 is transmitted to the 4K8K compatible television 270 via the output terminal 90a.

[BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment]
FIG. 8 is a diagram showing a frequency arrangement of signals in the transmission line 260 between the down converter 200 and the up converter 210 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment.
In the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the overall configuration of the system and the frequency arrangement of the input signal are the same as those of the first embodiment.

The BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment has only a transmission band up to 1 GHz, and in an existing facility where BS right-handed-IF signal cannot be transmitted, the BS right-handed-IF signal is transmitted. It is intended to transmit all channels of the BS left-handed-IF signal and three channels. For this purpose, among the BS right-handed-IF signals, the signals for a total of 8 channels from BS right-handed channels 1 to 15 are down-converted to the band of 118 MHz to 424 MHz, and BS right-handed channels 17 to 23 are displayed. The signal and the BS left-handed 8-channel, 12-channel, and 14-channel signals are down-converted to the band from 730 MHz to 1000 MHz.
It should be noted that the reason why 8 channels, 12 channels, and 14 channels are selected from the BS left-handed broadcasts is that the BS left-handed broadcasts currently being broadcast and scheduled to be broadcast as of February 2019 are only the above three channels.

Also in the second embodiment, the FM broadcast and the terrestrial digital broadcast are transmitted without frequency conversion.
The down-converted BS right-handed-IF signal and BS left-handed-IF signal, FM broadcast signal, and terrestrial digital broadcast signal are mixed, transmitted along the same transmission line 260, and again at the inlet of the upconverter 210. , The down-converted BS right-handed-IF signal and BS left-handed-IF signal, FM broadcast signal, and terrestrial digital broadcast signal are separated.
Then, the down-converted BS right-handed-IF signal is converted into the frequency arrangement of the original 1032 MHz to 1489 MHz BS right-handed-IF signal for each broadcast channel, and the down-converted BS left-handed 8 channels and 12 channels. , And the 14-channel signal is converted into the frequency arrangement of the original BS left-handed-IF signal for each broadcast channel.
The terrestrial digital broadcast signal is transmitted to the 4K8K compatible television 270 without frequency conversion. The FM broadcast signal is transmitted to the FM tuner 280 without frequency conversion.

[Structure of BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment]
The configuration of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment is basically the same as the configuration of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment.
Therefore, here, the difference from the configuration of the BS right-handed / left-handed-IF signal transmission system 300 of the first embodiment will be described.

FIG. 9 shows the configuration of the down converter 200 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment.
In the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the signals of all broadcast channels of the BS right-handed-IF signal and the signals of channels 8, 12, and 14 of the BS left-handed-IF signal are input. It is input from terminal 10a and down-converted. Therefore, the input terminal 10b for the BS right-handed-IF signal and the amplifier 110b of the first embodiment are deleted in the down converter 200 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment. There is.

In the down converter 200 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the signals of all the broadcast channels of the BS right-handed-IF signal and the BS left-handed-IF signals of channels 8, 12, and 14 The signal has a band-passing filter 20, an analog-to-digital converter 30, a channel extractor 40, a channel frequency converter 50, a channel synthesizer 60, a digital-to-analog converter 70, and a band-passing filter 80, as in the first embodiment. It is down-converted to a predetermined frequency arrangement via the above, then amplified by the amplifier 110a, mixed with the FM broadcast and terrestrial digital broadcast and the BS right-handed-IF signal by the mixer 120, and output from the output terminal 90. ..

However, in the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the frequency arrangement of the input signal of the analog-to-digital converter 30 and the output signal of the digital-to-analog converter 70 is different from that of the first embodiment. Therefore, the frequency conversion amount of each broadcast channel in the channel frequency converter 50 is also different.

FIG. 10 shows the configuration of the upconverter 210 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment.
In the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the signals of all broadcast channels of the BS right-handed-IF signal and the signals of channels 8, 12, and 14 of the BS left-handed-IF signal are down. Will be converted.
Therefore, in the upconverter 210 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the input signal is input from the input terminal 10 to the distributor 130, and the output of the distributor 130 is the band-passing filter 140a. , 140c are separated into a down-converted BS right-handed-IF signal and BS left-handed-IF signal, and an FM broadcast signal and a terrestrial digital broadcast signal, respectively. Then, the band pass filter 140b for the BS right-handed-IF signal and the output terminal 90b of the first embodiment are deleted by the up-converter 210 of the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment. Has been done.

In the second embodiment, the signals of all broadcast channels of the down-converted BS right-handed-IF signal and the signals of channels 8, 12, and 14 of the BS left-handed-IF signal are the same as in the first embodiment. 4K8K compatible TV 270 up-converted to the original frequency array via the analog-to-digital converter 30, channel extractor 40, channel frequency converter 50, channel synthesizer 60, digital-to-analog converter 70, and band-passing filter 80. Will be sent to. A low-pass filter may be used instead of the band-pass filter 80.

However, in the BS right-handed / left-handed-IF signal transmission system 300 of the second embodiment, the frequency arrangement of the input signal of the analog-to-digital converter 30 and the output signal of the digital-to-analog converter 70 is different from that of the first embodiment. Therefore, the amount of frequency conversion of each broadcast channel in the channel frequency converter 50 is also different.

In the present invention, the down converter 200 corresponds to the "down converter", the 1 GHz compatible CATV booster 250 corresponds to the "1 GHz compatible CATV booster", the transmission line 260 corresponds to the "transmission line", and the up converter 210 "ups". The FM tuner 280 corresponds to the "converter", the BS right-handed / left-handed-IF signal transmission system 300 corresponds to the "BS right-handed / left-handed-IF signal transmission system", and the analog-to-digital converter. 30 corresponds to "analog-to-digital converter", channel extractor 40 corresponds to "channel extractor", channel frequency converter 50 corresponds to "channel frequency converter", and channel synthesizer 60 corresponds to "channel synthesis". The digital-to-analog converter 70 corresponds to the "device" and corresponds to the "digital-to-analog converter".

Preferred embodiments of the present invention are as described above, but the present invention is not limited thereto. It will be appreciated that various embodiments are made that do not deviate from the spirit and scope of the invention. Further, in the present embodiment, the actions and effects according to the constitution of the present invention are described, but these actions and effects are examples and do not limit the present invention.

10, 10a, 10b, 10c input terminal 20 band pass filter 30 analog digital converter 40 channel extractor 50 channel frequency converter 60 channel synthesizer 70 digital analog converter 80 band pass filter 90, 90a, 90b, 90c output terminal 100 Digital signal processing LSI
110a, 110b, 110c Amplifier 120 Mixer 130 Distributor 140a, 140b, 140c Band pass filter 200 Down converter 210 Up converter 220 BS antenna 230 Terrestrial digital broadcasting antenna 240 FM broadcasting antenna 250 1GHz compatible CATV booster 260 Transmission line 270 4K8K compatible TV 280 FM Tuner 300 BS Right-handed / Left-handed-IF signal transmission system

Claims (3)

With a down converter
1GHz compatible CATV booster and
Transmission line and
Including upconverter,
The down converter down-converts the IF signals of BS left-handed 2, 4, 6, 8, 10, 12, 14, and 16 channels into the band from 118 MHz to 424 MHz, and also down-converts the BS left-handed channels 18, 20, and 22. The IF signal is down-converted to the band from 730 MHz to 845 MHz,
The 1 GHz compatible CATV booster amplifies the down-converted BS left-handed-IF signal, terrestrial digital broadcast signal, and FM broadcast signal in the CATV band up to 1 GHz, and the BS / CS right-handed-IF signal. ,
The transmission line transmits a signal in the CATV band up to 1 GHz and the BS / CS right-handed-IF signal.
The upconverter raises the down-converted BS left-handed IF signals of 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, and 22 channels to the frequencies before down-conversion, respectively. Convert and
BS right-handed / left-handed-IF signal transmission that sends the up-converted BS left-handed-IF signal, BS right-handed-IF signal, terrestrial digital broadcast signal, and FM broadcast signal to a television and / or FM tuner. system. With a down converter
1GHz compatible CATV booster and
Transmission line and
Including upconverter,
The down converter down-converts the IF signals of BS right-handed 1, 3, 5, 7, 9, 11, 13, and 15 channels to the band from 118 MHz to 424 MHz, and BS right-handed 17, 19, 21, And 23 channel IF signal and BS left-handed 8, 12, and 14 channel IF signal are down-converted to the band from 730MHz to 1000MHz.
The 1 GHz compatible CATV booster amplifies signals in the CATV band up to 1 GHz including down-converted BS right-handed / left-handed-IF signals, terrestrial digital broadcast signals, and FM broadcast signals.
The transmission line transmits a signal in the CATV band up to the 1 GHz.
The upconverter includes the down-converted BS right-handed 1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21, and 23 channel IF signals and the BS left-handed 8, 12, And the 14-channel IF signal are up-converted to the frequency before down-conversion, respectively.
A BS right-handed / left-handed-IF signal transmission system that transmits the up-converted BS right-handed / left-handed-IF signal, the terrestrial digital broadcast signal, and the FM broadcast signal to a television and / or an FM tuner. The down converter and the up converter
An analog-to-digital converter that converts an input signal to a digital signal,
A channel extractor that extracts signals of a plurality of broadcast channels from the digital signals converted by the analog-to-digital converter, and
A channel frequency converter that frequency-converts each of the signals of a plurality of broadcast channels extracted by the channel extractor into a signal in a predetermined frequency range, and
A channel synthesizer that synthesizes each of the signals of a plurality of broadcast channels converted into signals in the predetermined frequency range into one signal, and
The BS right-handed / left-handed-IF signal transmission system according to claim 1 or 2, which includes a digital-to-analog converter that converts an output signal of the channel synthesizer into an analog signal.

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