JP3892557B2 - Satellite signal distributor and joint reception system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a satellite signal distributor suitable for distributing received signals from a satellite receiving antenna that receives radio waves composed of two types of polarized waves transmitted from a communication satellite for each polarization to a plurality of terminals. And a joint reception system using the distributor.
[0002]
[Prior art and problems to be solved by the invention]
Conventionally, communication satellites that simultaneously transmit radio waves composed of two types of polarized waves that are orthogonal or intersecting each other, such as vertically polarized waves and horizontally polarized waves, or right-handed circularly polarized waves and left-handed circularly polarized waves, are known. Yes. A satellite receiving antenna (so-called CS antenna) that receives radio waves transmitted from this type of communication satellite generally receives radio waves of each polarization individually, and transmits each polarization signal to a predetermined frequency band. Is converted into a received signal and output.
[0003]
In addition, when transmitting a reception signal from this type of CS antenna to the terminal side, one signal is transmitted to each polarization signal output terminal provided in the CS antenna reception unit for transmission of the reception signal. The two cables were connected to the terminal side. In addition, when a received signal from one CS antenna is used on a plurality of terminals, a distributor is provided in the middle of the two cables drawn from the CS antenna, and two types of bias distributed by each distributor are provided. Each of the wave signals is transmitted to the terminal side via a cable.
[0004]
For this reason, conventionally, in order to use a satellite signal received using this type of CS antenna (that is, to enjoy broadcasting using a communication satellite), two cables for each polarization must be wired. In addition, it is necessary to install two terminals for taking out received signals in each room on the terminal side, and indoor wiring work is extremely troublesome.
[0005]
In addition, for example, when the CS antenna receives radio waves of two orthogonal polarizations composed of vertical polarization and horizontal polarization, a tuner provided on the terminal side (so-called CS tuner) can receive a vertically polarized signal by using a cable. When a DC voltage signal (generally 11 V) for receiving a vertically polarized wave is output from the input terminal to which the received signal from the antenna is input via the antenna to the antenna side and a horizontally polarized signal is received, the antenna is similarly connected from the input terminal to the antenna. On the side, it is configured to output a DC voltage signal for horizontal polarization reception (generally 15 V), but the reception signal of each polarization is directly input to the CS tuner and the reception signal is selected on the CS tuner side. Therefore, the terminal side receives the polarization switching signal (11V or 15V) from the CS tuner and inputs the vertical polarization signal to the CS tuner or the horizontal polarization. There is also a problem must separately provided switching device for switching whether to input a signal.
[0006]
Furthermore, on each terminal side where the CS tuner is installed, in addition to broadcasting by a reception signal from the CS antenna (CS broadcasting), a television broadcasting (VHF broadcasting, UHF broadcasting) from a ground station or a broadcasting satellite is used. It is common to install a television receiver with a built-in (or external) tuner corresponding to these television broadcasts so that television broadcasts (BS broadcasts) can be received. Conventionally, such television receivers are installed. When transmitting a reception signal from a reception antenna (VHF antenna, UHF antenna, BS antenna, etc.) that receives television broadcasts other than CS broadcast to the device, a cable that is different from the cable that transmits the reception signal from the CS antenna It was necessary to provide separately. For this reason, in a joint reception system in which a CS antenna and other broadcast receiving antennas (VHF antenna, UHF antenna, BS antenna) are installed, in order to transmit received signals from these antennas to the terminal side There is also a problem that wiring work is extremely troublesome because it is necessary to route three or more cables such as two for CS antennas and at least one for other antennas. .
[0007]
The present invention has been made in view of these problems. A reception signal from a CS antenna that receives radio waves having two types of polarized waves and a reception antenna other than the CS antenna (VHF antenna, UHF antenna, BS antenna, etc.). It is an object of the present invention to provide a satellite signal distributor and a joint reception system that can transmit received signals from a plurality of terminals to each of a plurality of terminals using a single cable.
[0008]
[Means for Solving the Problems and Effects of the Invention]
  In order to achieve this object, the invention according to claim 1 receives radio waves composed of two types of polarized waves transmitted from a communication satellite for each polarization, and transmits each polarization signal to a predetermined frequency band. A satellite signal distributor that is connected to a satellite receiving antenna having a receiving unit that converts the received signal into a received signal and distributes the received signal from the receiving unit to a plurality of terminals and transmits the received signal to a terminal side. A pair of input terminals for inputting the first polarization signal and the second polarization signal from the pair, and a pair of distribution circuits for distributing each of the polarization signals input to the pair of input terminals into a plurality of each A plurality of output terminals corresponding to the number of signal distributions of the distribution circuit, and a first polarization signal and a second polarization signal provided for each output terminal and distributed by the distribution circuits, respectively. Of these two types of polarization signals, the terminal side inputs the signal to the output terminal. A switching circuit for selecting a polarization signal corresponding to the polarization switching signal, and outputting the selected first polarization signal or second polarization signal from the output terminal to the terminal side; and a terminal at least one of the output terminals Receiving unit feeding means for generating a power supply signal to the receiving unit of the satellite receiving antenna from the polarization switching signal input from the side and outputting the signal to the receiving unit side from each input terminal; and the satellite receiving antenna A second input terminal for inputting a second received signal from a second receiving antenna different from the first received signal, and a second received signal input to the second input terminal, the first polarized signal and the second polarized wave A second reception signal mixing means for mixing the signal and outputting the signal from the output terminals to the terminal side together with the first polarization signal or the second polarization signal; and a power supply from the second input terminal to the second reception antenna side device. The second power supply signal for supplying It takes a power receiving terminal for the second power supply signal input to the power receiving terminalAnd selecting any one of the power supply signals generated by the receiver supply means,Output from the second input terminal to the second receiving antennaforAnd a manual changeover switch.
[0009]
In the satellite signal distributor of the present invention configured as described above, first, if two types of polarization signals output from the receiving unit of the satellite receiving antenna are respectively input to the corresponding input terminals, the first polarization is obtained. The wave signal and the second polarization signal are divided into a plurality by a distribution circuit connected to each input terminal, and the plurality of distributed first polarization signals and second polarization signals are received signal distribution of the distribution circuit. Each is input to a plurality of switching circuits provided corresponding to the number.
[0010]
Then, the switching circuit selects a polarization signal corresponding to the polarization switching signal input from the terminal side to the corresponding output terminal from the two types of input polarization signals, and selects the selected first signal. A polarization signal or a second polarization signal is output from the output terminal to the terminal side.
As a result, according to the satellite signal distributor of the present invention, if a polarization switching signal from the terminal device (such as the above-described CS tuner) connected to each output terminal is input to a plurality of output terminals, From each output terminal, a reception signal of the first polarization or the second polarization corresponding to the polarization switching signal is output, and each terminal device side individually broadcasts a desired polarization channel. I can enjoy it.
[0011]
In the satellite signal distributor of the present invention, the receiving unit power supply means generates a power supply signal to the receiving unit of the satellite receiving antenna from the polarization switching signal input from the terminal side to at least one of the output terminals. Then, the signal is output from the pair of input terminals corresponding to each receiving unit to the receiving unit side. In other words, the receiving unit of the satellite receiving antenna is normally configured to operate by receiving power from the terminal side to the output terminal that outputs the received signal. In order to supply power, a receiving unit power supply means is provided. For this reason, according to the present invention, it is possible not only to output the received signal of the polarization requested by the terminal side from each output terminal, but also to easily supply power to the satellite receiving antenna.
[0012]
In the satellite signal distributor of the present invention, the second input terminal receives a received signal (second signal) from a second receiving antenna (for example, the aforementioned VHF antenna, UHF antenna, BS antenna, etc.) different from the satellite receiving antenna. If the received signal is input, the second received signal mixing means mixes the second received signal with the first polarized signal and the second polarized signal, and outputs the first polarized signal or the first polarized signal from each output terminal. Output to the terminal side together with the two polarized signals. Therefore, according to the present invention, for the terminal device connected to the output terminal, the received signal from the first polarized wave or the second polarized wave corresponding to the request from the terminal side and the reception from the second receiving antenna. Signals can be transmitted simultaneously via a single cable.
[0013]
  Furthermore, in the satellite signal distributor of the present invention, a second power supply signal for supplying power to the second receiving antenna side device is input to the power receiving terminal.Then, if the manual changeover switch is switched to the power receiving terminal side, the second power supply signal isOutput from the second input terminal to the second receiving antennaIs done. Further, if the manual changeover switch is switched to the power receiving unit supply means side, the power supply signal generated by the power receiving unit supply means is output from the second input terminal to the second receiving antenna side.
Therefore, according to the satellite signal distributor of the present invention,The signal path connecting the second input terminal and the second receiving antenna is provided with an amplifier for amplifying the received signal, or the second receiving antenna is operated by receiving power supply from the terminal side. Even if you haveBy connecting the power supply device to the power receiving terminal and switching the manual changeover switch to the power receiving terminal side, or by switching the manual changeover switch to the power receiving unit supply means side,It is also possible to supply power to the second receiving antenna side device very easily.
[0014]
  As described above, according to the satellite signal distributor of the present invention, the terminal connected to each output terminal from the first polarization signal and the second polarization signal output from the receiving unit of the satellite receiving antenna. The received signal of the polarization corresponding to the request from the side (polarization switching signal) can be selected and transmitted to each terminal side, and the received signal from the second receiving antenna can be transmitted to each terminal side at the same time. Since the power supply to the receiving unit of the satellite receiving antenna and the power supply to the second receiving antenna side device can be easily performed, when constructing the joint receiving system, as described in claim 2, The receiver of the satellite receiving antenna is connected to the pair of input terminals for polarization signal input of the satellite signal distributor.Each output terminal ofConnect the second receiving antenna to the second input terminal of the satellite signal distributor via the amplification device for receiving signal amplification.DoWhat should I do?
[0015]
That is, if the joint reception system is configured as described in claim 2, the broadcast radio wave from the communication satellite and the broadcast radio wave from the ground station or the broadcast satellite are respectively received by the dedicated receiving antenna, The received signal can be transmitted favorably to a plurality of terminal devices. According to this joint reception system, since the satellite signal distributor and each terminal device need only be connected by one cable, the wiring work is extremely simplified.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
  Embodiments of the present invention will be described below with reference to the drawings.
  FirstFIG. 1 shows the present invention.Reference examplesIt is a block diagram showing the structure of a joint reception system.
[0018]
  As shown in FIG.Of this reference exampleThe joint reception system includes a CS antenna 2 that receives orthogonally polarized waves (vertically polarized waves and horizontally polarized waves) transmitted from a communication satellite (CS) as a satellite receiving antenna. As receiving antennas, a VHF antenna 4 and UHF antenna 6 that receive VHF and UHF television broadcast waves transmitted from the ground station, and a BS antenna 8 that receives television broadcast waves transmitted from a broadcasting satellite (BS). Is provided.
[0019]
The CS antenna 2 includes a reflecting mirror 2a and a receiving unit 2c disposed at a focal position of the reflecting mirror 2a via a support arm 2b. This receiving unit 2c is called a two-output converter, receives and amplifies transmission radio waves collected from the communication satellites collected by the reflecting mirror 2a, selects the polarization independently of each other, and selects a predetermined frequency band ( For example, it is a well-known one having a pair of converter circuits for converting the received signal to 1572 to 2072 MHz. The receiving unit 2c is configured such that the two converter circuits independently select and output vertical polarization and horizontal polarization according to the voltage value (DC 11V or DC 15V) applied to the output terminal. The output terminals are connected to a pair of CS input terminals 22v and 22h of a satellite signal distributor (hereinafter simply referred to as a distributor) 20 via coaxial cables for receiving signal transmission. The subscripts v and h given to the CS input terminals 22v and 22h represent vertical polarization and horizontal polarization, respectively.
[0020]
On the other hand, the BS antenna 8 is composed of a reflecting mirror 8a and a receiving unit 8c arranged at the focal position of the reflecting mirror 8a via a support arm 8b, like the CS antenna 2. The receiving unit 8c receives and amplifies transmission radio waves from the broadcasting satellites collected by the reflecting mirror 8a, and has a predetermined frequency band (for example, 1035 to 1335 MHz) different from the received signal from the CS antenna 2. A converter circuit for converting into a received signal is provided, and its output terminal is an input terminal of an amplifying device (so-called booster) 10 that amplifies the received signals of VHF, UHF, and BS together with output terminals of the VHF antenna 4 and the UHF antenna 6 It is connected to the.
[0021]
The booster 10 is a well-known one that amplifies the received signals (VU / BS) from the antennas 4, 6, and 8, respectively, synthesizes the received signals after the amplification, and outputs them from the output terminal. The output terminal is connected to the VU / BS input terminal (the aforementioned second input terminal) 22i of the distributor 20 through a coaxial cable.
[0022]
  The booster 10 and the receiver 8c of the BS antenna 8 supply power to their output terminals (For example,DC 15V) is configured to operate.Reference exampleThen, the booster 10 is operated by outputting a DC 15V power supply signal (the aforementioned second power supply signal) from the VU / BS input terminal 22i of the distributor 20, and further, the booster 10 receives the power supply signal of the power supply signal. By outputting a part to the BS antenna 8 side, the receiving unit 8c of the BS antenna 8 is operated.
[0023]
Next, the distributor 20 divides the vertically polarized signal and the horizontally polarized signal from the CS antenna 2 input to the CS input terminals 22v and 22h into 4 respectively, and the 4 vertically distributed vertical polarization signal and horizontally polarized signal are distributed. This is a 4-distributor that outputs any one of the signals from the four output terminals 24a to 24d to the terminal side together with the received signals of VHF, UHF, and BS input to the VU / BS input terminal 22i. The output terminals 24a to 24d (hereinafter also collectively referred to as output terminals 24) are televisions disposed in the rooms of the facility where the joint reception system is installed via a coaxial cable for receiving signal transmission. Each is connected to a terminal device including a receiver 12 and a CS tuner 14.
[0024]
Although the terminal device is appropriately configured by the user of the system, as shown in FIG. 1, the output signal from the output terminal 24 of the distributor 20 is normally used as the received signals of VHF, UHF, and BS. (VU / BS signal) and a vertically polarized wave or horizontally polarized wave received signal (CS signal) from the CS antenna 2 and a VU / BS signal from the separator SP1 are further divided into VHF and UHF signals. A separator SP2 that divides reception signals (VU signals) and BS signals, and a tuner that restores the video / audio signals of the desired broadcast channel by receiving the VU signals and BS signals from the separator SP2 at the corresponding input terminals. A video / audio signal of a desired channel is restored from the CS signal from the television receiver 12 and the separator SP1, and input to the television receiver 12. Composed from the tuner 14. Then, the CS tuner 14 outputs a polarization switching signal of DC 11V or 15V to the output terminal 24 side of the distributor 20, thereby simultaneously switching the polarization of the CS signal and supplying power to the CS antenna 2. Has been. The CS tuner 14 configured in this way is well known in the art and will not be described in detail.
[0025]
Next, the structure of the distributor 20 which is a main part according to the present invention will be described.
As shown in FIG. 1, a coaxial cable core wire is connected to the distributor 20 at each CS input terminal 22v, 22h for vertical polarization signal and horizontal polarization signal input (V input, H input). The center terminal is provided with a pair of distribution circuits 28v and 28h connected via high-pass filters 30v and 30h for passing polarization signals.
[0026]
Each distribution circuit 28v, 28h is for distributing the vertical polarization signal and the horizontal polarization signal input to each CS input terminal 22v, 22h, respectively, and the four distribution output terminals are respectively It is connected to switching circuits 34a to 34d through a voltage synthesis unit 36 comprising a capacitor C and a choke coil L.
[0027]
The switching circuits 34a to 34d receive the vertical polarization signal and the horizontal polarization signal distributed by the distribution circuits 28v and 28h, respectively, select one of the polarization signals, and select the selected vertical polarization signal or horizontal polarization signal. By transmitting the polarization signal to the corresponding output terminals 24a to 24d, the terminal side connected to the output terminals 24a to 24d transmits either the vertical polarization signal or the horizontal polarization signal. Yes, as shown in FIG.
[0028]
That is, as shown in FIG. 2, each switching circuit 34 (specifically 34a to 34d) includes a vertical polarization signal input terminal TIV that receives a vertical polarization signal from the distribution circuit 28v, and a horizontal polarization signal from the distribution circuit 28h. A horizontal polarization signal input terminal TIH that receives a wave signal, and an output terminal Tout that outputs a reception signal (vertical polarization signal or horizontal polarization signal) input to one of the input terminals TIV and TIH to the terminal side; A relay circuit 40 is provided for selectively connecting one of the two input terminals TIV and TIH to the output terminal Tout.
[0029]
In the signal path between the relay circuit 40 and the output terminal Tout, a power supply separation filter 44 that separates the polarization switching signal (11V or 15V) input to the output terminal Tout side, and the power supply separation filter 44 And a power supply superimposing filter 42 for bypassing the polarization switching signal separated in this way to the relay circuit 40 side via a backflow prevention diode D.
[0030]
  The relay circuit 40 is a well-known circuit composed of a relay contact 40a and a relay coil 40b.Reference exampleThen, when the relay coil 40b is not energized, the relay contact 40a is connected to the input terminal TIV and the output terminal Tout, and the vertically polarized signal is output from the output terminal Tout, and the relay coil 40b is energized. As a result, the relay contact 40a connects the input terminal TIH and the output terminal Tout, and outputs a horizontally polarized signal from the output terminal Tout.
[0031]
The power superimposing filter 42 includes a coil L1 that superimposes a DC voltage (that is, a polarization switching signal) input via the diode D on a signal path between the relay circuit 40 and the power separation filter 44, and the coil L1. And a capacitor C1 that prevents a direct current from flowing to the output terminal Tout due to a direct current voltage superimposed on the terminal, and constitutes a high-pass filter that allows a high-frequency component to pass through the signal path of the received signal. The power supply separation filter 44 passes through a coil L2 for extracting a DC voltage (polarization switching signal) supplied from the terminal side to the output terminal Tout and a signal path between the power supply superimposing filter 42 and the output terminal Tout. Thus, a capacitor C2 for preventing a direct current from flowing from the output terminal Tout to the relay circuit 40 side constitutes a high-pass filter that allows a high-frequency component to pass through the signal path of the received signal.
[0032]
Next, each switching circuit 34 includes a constant voltage circuit 46 that converts the DC voltage (polarization switching signal) separated by the power supply separation filter 44 into a constant voltage for driving an internal circuit, and an output from the constant voltage circuit. And a smoothing capacitor 48 for stabilizing the power supply, and a constant power supply voltage + Vc is generated by these operations. Each switching circuit 34 includes a determination circuit 50 that operates in response to the generated power supply voltage + Vc, and a drive circuit 52 that switches between energization and non-energization of the relay coil 40b.
[0033]
In the determination circuit 50, the voltage level of the polarization switching signal from the terminal side separated by the power supply separation filter 44 is a voltage level 11V for receiving a vertically polarized wave or a voltage level 15V for receiving a horizontally polarized wave. And resistors R1 and R2 for dividing the polarization switching signal, resistors R3 and R4 for dividing the power supply voltage + Vc and generating a reference voltage for voltage determination, The voltage value of the polarization switching signal divided by the resistors R1 and R2 is compared with the reference voltage generated by the resistors R3 and R4, and the polarization switching signal input from the terminal side is, for example, 13V. The comparator is composed of an operational amplifier OP that outputs a high level determination signal when it is above and a low level when it is less than 13V.
[0034]
The drive circuit 52 receives the power supply voltage + Vc as an emitter and the determination signal from the determination circuit 50 as a base. When the determination signal is at a low level, the drive circuit 52 is turned on to supply current from the collector to the relay coil 40b. The PNP transistor TR is made to flow and a voltage change absorbing capacitor C3 connected to the collector of the transistor TR.
[0035]
As a result, a polarization switching signal of DC 11V is output from the CS tuner 14, and when this signal is input to the switching circuits 34a to 34d via the output terminals 24a to 24d, in each switching circuit 34a to 34d, The output of the determination circuit 50 becomes high level, the transistor TR in the drive circuit 52 is turned off, the energization of the relay coil 40b is cut off, and the relay contact 40a is connected to the input terminal TIV for vertical polarization signal input. Can be switched. Conversely, when the CS tuner 14 outputs a DC 15V polarization switching signal and this signal is input to the switching circuits 34a to 34d via the output terminals 24a to 24d, the switching circuits 34a to 34d have the same. The output of the determination circuit 50 becomes low level, the transistor TR in the drive circuit 52 is turned on, the relay coil 40b is energized, and the relay contact 40a is switched to the input terminal TIH side for horizontal polarization signal input. It is done. Therefore, a vertical polarization signal or a horizontal polarization signal corresponding to the voltage level (DC 11V or 15V) of the polarization switching signal output from the CS tuner 14 is output to the CS tuner 14 connected to the output terminals 24a to 24d. Will be.
[0036]
In each of the switching circuits 34a to 34d, the polarization switching signal input to the output terminal Tout is converted into a coil L2 in the power supply separation filter 44, a diode D for backflow prevention, and a coil L1 in the power supply superimposing filter 42. Is applied to the power superimposing filter 42 side of the relay circuit 40. As a result, among the four switching circuits 34 a to 34 d, the switching circuit 34 that selects the vertical polarization signal by the 11 V polarization switching signal output from the CS tuner 14 is input via the relay circuit 40. 11V polarization switching signal is output from the terminal TIV to the distribution output terminal side of the distribution circuit 28v, and the horizontal polarization signal is selected by the 15V polarization switching signal output from the CS tuner 14. The circuit 34 outputs a 15 V polarization switching signal from the input terminal TIH to the distribution output terminal side of the distribution circuit 28h via the relay circuit 40.
[0037]
  Next, the voltage synthesizer 36 provided in the input path of the received signal from the distribution output terminals of the distribution circuits 28v and 28h to the input terminals TIV and TIH of the switching circuits 34a to 34d.IsAs shown in FIG. 1, eight choke coils L for taking out 11V and 15V polarization switching signals output from the input terminals TIV and TIH of the switching circuits 34a to 34d, respectively, And eight capacitors C that prevent current from flowing to the distribution circuits 28v and 28h.
[0038]
Of the eight choke coils L, the other ends of the choke coils L connected to the input terminals TIV of the switching circuits 34a to 34d are connected to each other, and the connection point is connected via the choke coil Lv. It is connected to a CS input terminal 22v for vertical polarization signal input (V input). Further, the other ends of the choke coils L connected to the input terminals TIH of the switching circuits 34a to 34d are also connected to each other, and the connection point is for horizontally polarized signal input (H input) via the choke coil Lh. Is connected to the CS input terminal 22h.
[0039]
Accordingly, the 11V and 15V polarization switching signals output from the input terminals TIV and TIH of the switching circuits 34a to 34d are respectively converted into a vertically polarized wave receiving converter circuit built in the receiving unit 2c of the CS antenna 2 and a horizontal polarization signal. Each of the converter circuits operates normally in response to the polarization switching signals (11V, 15V) necessary for the operation, and operates as a vertical polarization signal and a horizontal polarization signal. Will be output respectively.
[0040]
Next, in the distributor 20, in the VU / BS input terminal 22i that receives the output signal (VU / BS signal) from the booster 10, a power supply signal described later is applied to the center terminal to which the core wire of the coaxial cable is connected. A distribution circuit 28i for blocking and distributing the VU / BS signal into two is connected. The two distribution output terminals of the distribution circuit 28i are connected to the input terminals of the distribution circuits 28v and 28h via the VU / BS signal passing / CS signal blocking low-pass filters 32a and 32b.
[0041]
  As a result, the reception signals (VU / BS signals) of VHF, UHF, and BS input to the VU / BS input terminal 22i via the booster 10 are the vertical polarization signals input to the CS input terminals 22v and 22h and Along with the horizontally polarized signal, the signal is input to each of the distribution circuits 28v and 28h, and is output to each terminal device via the switching circuits 34a to 34d and the output terminals 24a to 24d. still,Reference exampleThen, the distribution circuit 28i and the low-pass filters 32a and 32b correspond to the second reception signal mixing means of the present invention.
[0042]
Furthermore, the distributor 20 is provided with a power receiving terminal 26 for connecting a power supply device 16 for generating a power supply signal (DC 15V) for supplying power to the booster 10 and the receiving unit 8c of the BS antenna 8. ing. The power receiving terminal 26 is connected to the center terminal of the VU / BS input terminal 22i through a choke coil Li.
[0043]
  As a result, the power supply signal generated by the power supply device 16 is supplied to the booster 10 and the receiver 8c of the BS antenna 8 via the power receiving terminal 26, the choke coil Li, the VU / BS input terminal, and the coaxial cable. The booster 10 and the receiving unit 8c of the BS antenna 8 operate normally in response to the supplied power supply signal, and send a VU / BS signal of a desired level to the terminal side. Be able to transmitBecome.
[0044]
  As explained above,Reference example aboveAccording to the distributor 20, the received signal (vertical polarization signal or horizontal signal) of the polarization plane corresponding to the polarization switching signal from the terminal device (specifically, the CS tuner 14) connected to each of the four output terminals 24a to 24d. Polarization signals) can be output from the output terminals 24a to 24d, and receive antennas (other than the CS antenna 2) from the output terminals 24a to 24d (Reference example aboveThen, the reception signals from the VHF antenna 4, the UHF antenna 6, and the BS antenna 8) can be output simultaneously. For this reason, each terminal device connected to the output terminals 24a to 24d uses a single coaxial cable to transmit a vertical polarization signal or a horizontal polarization signal received by the CS antenna 2 and VHF, UHF, BS. It is possible to simultaneously transmit the received signals (VU / BS signals) received by the receiving antennas 4, 6, and 8 of the receiving antennas, and in constructing the joint receiving system, the wiring for receiving signal transmission is extremely difficult. It can be done easily.
[0045]
In addition, a power supply signal (for supplying a polarization switching signal from a terminal device (specifically, CS tuner 14) and a vertical polarization signal and a horizontal polarization signal to the reception unit 2c of the CS antenna 2) 11V, 15V), and since the power supply signal (15V) generated by the power supply device 16 can be supplied to the booster 10 and the receiving unit 8c of the BS antenna 8, these units 2c, 10 , 8c to operate, it is not necessary to provide a separate power supply line, or to directly connect a power supply device to each of these units 2c, 10, 8c, and a joint reception system can be realized more easily. .
[0046]
  By the way, the above reference exampleThen, a power supply signal obtained by synthesizing the polarization switching signal output from the CS tuner 14 is output to the receiving unit 2c of the CS antenna 2.ButIf the power of the polarization switching signal from the CS tuner 14 is small, sufficient power may not be supplied to the CS tuner receiver 2c.like thisIn the joint reception system, a power supply device that generates a power supply signal for the reception unit 2c of the CS antenna 2 is separately provided. On the distributor side, the power supply for the reception unit 2c of the CS antenna 2 is based on the power supply signal from the power supply device. Generate supply signals (11V, 15V)You can do it.
[0047]
  The following was configured in this wayExamples of embodiments of the present inventionAbout joint reception systemTheoryLight up. FIG.ExampleIt is a block diagram showing the structure of these joint reception systems.
  As shown in FIG. 3, the joint reception system of this embodiment includes a CS antenna 2, a VHF antenna 4, a UHF antenna 6, a BS antenna 8, and a booster 10 as in the joint reception system shown in FIG. The received signal (VU / BS signal) from the booster 10 is input to the VU / BS input terminal 72i of the distributor 70 via a coaxial cable, and is received from a pair of converter circuits constituting the receiving unit 2c of the CS antenna 2. Output signals (vertical polarization signal and horizontal polarization signal) are input to the CS input terminals 72v and 72h of the distributor 70 via coaxial cables, respectively.
[0048]
Similarly to the distributor 20 shown in FIG. 1, the distributor 70 receives a power supply signal (second power supply signal) from the power supply device 16 for supplying power to the booster 10 and the BS antenna 8. 76 is provided, and four output terminals 74a to 74d are provided. A power supply that generates a voltage signal at the same level as the polarization switching signal from the terminal device (specifically, the CS tuner 14) is provided at one of the four output terminals 74a to 74d (the output terminal 74d in this embodiment). A device 60 is connected.
[0049]
The power supply device 60 includes, for example, a power transformer that transforms an AC voltage (for example, AC 100 V) from a commercial power input through an AC plug into a predetermined AC voltage (for example, AC 24 V), and a power transformer. A full-wave rectifier circuit that generates a DC power supply voltage by full-wave rectifying the AC voltage after transformation, and an output voltage from the full-wave rectifier circuit, and generates a predetermined DC constant voltage (DC 15 V in this embodiment). And a constant voltage circuit that receives a DC constant voltage of 15 V generated by the constant voltage circuit and generates a lower DC constant voltage (DC 11 V in this embodiment), and a terminal side (in detail) The voltage level of the polarization switching signal transmitted from the CS tuner 14) is determined, and the output voltage from the constant voltage circuit that generates the DC constant voltage (11V or 15V) corresponding to the voltage level is distributed to the distributor 7. Output voltage switching circuit that selectively outputs to the output side, and outputs a voltage signal of the same level as the polarization switching signal transmitted from the terminal side as a voltage signal for both polarization switching and power supply Output to 74d. Further, the power supply device 60 outputs the received signal output from the output terminal 74d of the distributor 70 as it is to the terminal side via a high-frequency coupling capacitor or the like.
[0050]
  Next, the distributor 70Reference example aboveSimilarly to the distributor 20 of FIG. 5, the VU / BS signal input to the VU / BS input terminal 72i is converted into CS signals (vertical polarization signal and horizontal polarization signal) of each polarization plane input to the CS input terminals 72v and 72h. The mixed signal is divided into four by dedicated distribution circuits 78v and 78h, and one of the four types of mixed signals distributed from the four output terminals 74a to 74d is connected to the terminal side. Output to.
[0051]
That is, in the distributor 70, the VU / BS signal input to the VU / BS input terminal 72i is first divided into two by the distribution circuit 78i. The two distributed VU / BS signals are passed through VU / BS signal passing / CS signal blocking low pass filters (LPF) 82a and 82b and DC cut / high frequency component passing capacitors CV2 and Ch2, respectively. Are input to the distribution circuits 78v and 78h. The CS signals (vertical polarization signal and horizontal polarization signal) respectively input to the CS input terminals 72v and 72h are used for amplifying each signal through capacitors Cv1 and Ch1 for passing DC cut and high frequency components, respectively. Are input to the amplifier circuits Av and Ah, and are amplified by the amplifier circuits Av and Ah, and then the high-pass filters (HPFs) 80v and 80h for CS signal passing / VU / BS signal blocking and the capacitors Cv2 and Ch2 are used. Through the distribution circuit 78v and 78h. As a result, each of the distribution circuits 78v and 78h receives a reception signal obtained by mixing the VU / BS signal and the vertical / horizontal polarization CS signal.
[0052]
  On the other hand, switching circuits 84a to 84d are connected to the output terminals 74a to 74d, respectively. The switching circuits 84a to 84d areReference example aboveSimilarly to the switching circuits 34a to 34d, the two types of received signals distributed by the distribution circuits 78v and 78h are received, and the voltage signals (biased) supplied from the terminal side to the output terminals 74a to 74d are respectively received. The received signal corresponding to the voltage level of the wave switching signal) is selected and output from the corresponding output terminals 74a to 74d to the terminal side, and one of the output signals from the distribution circuits 78v and 78h. The switches 86a to 86d that output to the corresponding output terminals 74a to 74d via the capacitors Ca to Cd for DC cut and high-frequency component passage, and the voltage that is input from the terminal side to the output terminals 74a to 74d A signal (polarization switching signal) is taken in through high-frequency component cut choke coils La to Ld, and a vertical polarization signal is obtained from the voltage level of the taken-in voltage signal. Determining whether to select one of the horizontally polarized signal, and a drive circuit 88a~88d for driving the switch 86a~86d accordance with the determination result. As a result, also in the distributor 70 of the present embodiment, a received signal having a polarization plane desired by the terminal device can be output to the terminal device such as the CS tuner 14 connected to the output terminals 74a to 74d. .
[0053]
Next, among the four output terminals 74a to 74d, the power supply circuit 90 is connected via the choke coil Ld to the output terminal 74d to which the power supply device 60 is connected. The power supply circuit 90 receives the voltage signal generated by the power supply device 60 and operates the amplifying circuits Av and Ah in the distributor 70 and the vertical polarization receiving converter circuit provided in the receiving unit 2 c of the CS antenna 2. A voltage signal (DC 15V) for operating a three-terminal regulator 92 that generates a power supply signal (DC 11V) and a horizontally polarized wave receiving converter circuit provided in the receiver 2c of the CS antenna 2 And a DC-DC converter 94 to be generated.
[0054]
The voltage signal (DC 11V) generated by the three-terminal regulator 92 is directly supplied to the amplifier circuits Av and Ah, and is supplied to the CS antenna 2 via the choke coil LV1, the CS input terminal 72v and the coaxial cable. The voltage signal (DC 15V) supplied to the converter circuit for vertical polarization reception and generated by the DC-DC converter 94 is supplied to the horizontal offset of the CS antenna 2 via the choke coil Lh1, the CS input terminal 72h and the coaxial cable. Supplied to a converter circuit for wave reception.
[0055]
In the distributor 70, a power receiving terminal 76 that receives a power supply signal for supplying power from the power supply device 16 to the booster 10 and the BS antenna 8 is connected to the manual changeover switch SW. The manual changeover switch SW supplies power to the booster 10 and the BS antenna 8 by a power supply signal from an external power supply (that is, the power supply device 16) connected to the power receiving terminal 76, or a DC-DC converter 94. It is for switching manually whether to supply power with the voltage signal (DC 15V) generated in step (1). The output side terminal of the manual changeover switch SW is connected to a connection point between the low-pass filter 82b and the capacitor Ch2 via a choke coil Li for cutting high-frequency components.
As a result, in the state where the manual changeover switch SW is switched to the power receiving terminal 76 side (the state shown in FIG. 3), the power supply signal from the power supply device 16 connected to the power receiving terminal 76 is changed to the manual changeover switch SW, choke. It is supplied to the booster 10 via the coil Li, the low-pass filter 82b, the distribution circuit 78i, the VU / BS input terminal 72i and the coaxial cable, and further supplied to the receiving unit 8c of the BS antenna 8 via this booster 10. Become.
[0056]
When the manual changeover switch SW is switched to the DC-DC converter 94 side, the booster 10 and the BS antenna 8 are driven by the output voltage from the DC-DC converter 94, and the power receiving terminal 76. The booster 10 and the BS antenna 8 can be operated without connecting the power supply device 16 to the power supply 16. However, in this case, since it is necessary to drive the booster 10 and the BS antenna with the output voltage from the power supply device 60, it is necessary to use a power supply device 60 having a large output power.
[0057]
  As shown in FIG.ExampleIn the joint reception system of FIG. 1, as in the system shown in FIG. 1, the terminal device side connected to the four output terminals 24 a to 24 d of the distributor 70 uses a single coaxial cable to request the bias required by the terminal side. It is possible to simultaneously transmit a wavefront reception signal (CS signal) and a VU / BS signal, and wiring for reception signal transmission can be performed very easily. In addition, since the power supply voltage for operation can be supplied to the CS antenna 2, the booster 10 and the BS antenna 8 via the distributor 70, it is not necessary to separately provide power supply lines to these parts. Even a joint reception system can be realized easily.
[0058]
  In the distributor 70 shown in FIG. 3, the power supply circuit 90 including the three-terminal regulator 92 and the DC-DC converter 94 corresponds to the receiving unit power supply means of the present invention.To do.
[0059]
In each distributor 20, 70 shown in FIG. 1 and FIG. 3, the mixing of the VU / BS signal input to the VU / BS input terminal and the CS signal (vertical polarization signal and horizontal polarization signal) is as follows: It has been described that the vertical polarization signal and the horizontal polarization signal are distributed through the low-pass filter as the second reception signal mixing means on the input side of each distribution circuit that distributes the vertical polarization signal and the horizontal polarization signal, respectively. Since it is only necessary to be able to output from the terminal, for example, it may be mixed with the CS signal via a low-pass filter or the like on the output side of each distribution circuit or on the path from the switching circuit to the output terminal.
[0060]
  AlsoExample aboveIn the above description, the 4-distributor that divides and outputs the received signal from the CS antenna 2 has been described. However, by appropriately setting the number of distributions of the pair of distribution circuits 28v and 28h (or 78v and 78h) provided therein, Needless to say, any number of distributors can be configured.
[0061]
  Also,Example aboveIn the above description, the CS antenna 2 is described as receiving two orthogonally polarized radio waves composed of a vertically polarized wave and a horizontally polarized wave. However, the CS antenna is an intersection composed of a right-handed circularly polarized wave and a left-handed circularly polarized wave. Needless to say, the present invention can be applied to a device that receives polarized radio waves.
[Brief description of the drawings]
[Figure 1]Reference exampleIt is a schematic block diagram showing the structure of the whole joint reception system.
FIG. 2 is an electric circuit diagram showing a configuration of a switching circuit shown in FIG.
[Fig. 3]ExampleIt is a schematic block diagram showing the structure of the whole joint reception system.
[Explanation of symbols]
  2 ... CS antenna, 2c ... receiving unit, 4 ... VHF antenna, 6 ... UHF antenna, 8 ... BS antenna, 8c ... receiving unit, 10 ... booster, 12 ... TV receiver, 14 ... CS tuner, SP1, SP2 ... separator , 16 ... power supply device, 20 ... distributor, 22v, 22h ... CS input terminal, 22i ... VU / BS input terminal, 24a-24d ... output terminal, 26 ... power receiving terminal, 28v, 28h, 28i ... distribution circuit, 34a- 34b ... switching circuit, 70 ... distributor, 72v, 72h ... CS input terminal, 72i ... VU / BS input terminal, 74a-74d ... output terminal, 76 ... power receiving terminal, 78v, 78h, 78i ... distribution circuit, 84a-84d ... Switching circuit, 90 ... Power supply circuit, 92 ... 3-terminal regulator, 94 ... DC-DC converter, SW ... Manual changeover switch, Li ... Choke coil

Claims (2)

A satellite receiving antenna having a receiving unit that receives radio waves composed of two types of polarization transmitted from a communication satellite for each polarization, converts each polarization signal into a reception signal of a predetermined frequency band, and outputs the received signal. A satellite signal distributor that is connected, distributes a plurality of received signals from the receiving unit and transmits the signals to the terminal side,
A pair of input terminals for respectively inputting the first polarization signal and the second polarization signal from the receiver;
A pair of distribution circuits for distributing each polarization signal input to the pair of input terminals into a plurality of each;
A plurality of output terminals corresponding to the number of signal distributions of the distribution circuit;
Provided for each of the output terminals, each receiving the first polarization signal and the second polarization signal distributed by the respective distribution circuits, and from the two types of polarization signals, the output terminal from the terminal side A switching circuit that selects a polarization signal corresponding to the polarization switching signal input to the terminal and outputs the selected first polarization signal or second polarization signal from the output terminal to the terminal side;
Reception for generating a power supply signal to the receiving unit of the satellite receiving antenna from the polarization switching signal input from at least one of the output terminals from the terminal side, and outputting the generated signal from each input terminal to the receiving unit side Power supply means,
A second input terminal for inputting a second received signal from a second receiving antenna different from the satellite receiving antenna;
The second reception signal input to the second input terminal is mixed with the first polarization signal and the second polarization signal, and the terminal is supplied together with the first polarization signal or the second polarization signal from each output terminal. Second reception signal mixing means for outputting to the side,
A power receiving terminal for receiving a second power supply signal for supplying power from the second input terminal to the second receiving antenna side device;
Select one of the second power supply signal input to the power receiving terminal and the power supply signal generated by the receiving unit supply means, from the second input terminal to the second receiving antenna side. A manual changeover switch for outputting,
A satellite signal distributor. A two-output type receiver that receives radio waves composed of two types of polarized waves transmitted from a communication satellite for each polarization, converts each polarization signal into a reception signal of a predetermined frequency band, and outputs it from each output terminal. A satellite reception antenna with a section,
A second receiving antenna different from the satellite receiving antenna;
An amplifying device for amplifying a received signal from the second receiving antenna;
A satellite signal distributor according to claim 1;
The provided, to a pair of input terminals for polarization signal input of the satellite signal distributor, the connecting the output terminals of the receiving unit of the satellite receiving antenna, a second input terminal of the satellite signal distributor, said A joint receiving system comprising a second receiving antenna connected through an amplifying device.

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