JP5706302B2 - Receiver - Google Patents

Description

  The present invention relates to a receiving apparatus that receives radio broadcasts and television broadcasts, and more particularly, to a receiving apparatus that enables favorable viewing of the broadcasts even in buildings such as apartments and detached houses.

  Normally, the radio becomes an important information transmission medium in the event of an emergency disaster. However, there is a problem that the reception status of the radio for mid-wave reception currently on the market deteriorates depending on the location. For example, in condominiums and detached houses, radio waves are shielded (attenuation of radio waves) due to concrete walls and structures, making it difficult to receive broadcasts indoors even in areas that are relatively close to radio transmission stations. There is a case. Even if an antenna is installed outdoors, it is not easy to transmit received radio waves indoors. Furthermore, recently, various home appliances placed indoors have been digitized, and since radio waves are constantly emitted, there is a problem that noise is likely to be mixed and good listening is not possible.

As a technique for solving such a problem, for example, Patent Document 1 discloses a medium-wave radio receiver that can satisfactorily receive medium-wave broadcasting even in a reinforced concrete house or the like.
The medium-wave radio receiver disclosed in this patent document includes a loop antenna element, a receiver circuit unit that demodulates radio waves captured by the loop antenna element, and amplitude or frequency modulation of demodulated sound from the receiver circuit unit. A first part having an infrared modulator / emitter that emits as infrared rays to be a carrier wave, and a second part that can be heard by a speaker, an earphone or the like by voice-modulating the infrared rays emitted from the first part And the first part is attached to the window glass, the medium antenna is received by the loop antenna element, and the infrared light emitted therefrom is received by the second part installed indoors. And can be listened to.

JP 10-313256 A

  The above-described medium-wave radio receiving apparatus disclosed in Patent Document 1 has a method of receiving a medium wave by attaching a first part having a loop antenna that receives the medium wave to a window of a house or an apartment. Therefore, it may not be used in all rooms in the building. For example, some rooms have no windows in the building, and there are buildings that are adjacent to the window. For example, in a room with poor radio wave reception, the first part with a loop antenna is attached to the window. However, it may not be received well.

  In addition, since the AM broadcast received by the first part is modulated to emit infrared rays, and this is transmitted to the second part and demodulated and reproduced, if there is an obstacle between them, the second It becomes impossible to receive in part. In addition, a dedicated device composed of the first part and the second part is required, and usually a commercially available portable terminal (radio, various terminals capable of receiving one-segment broadcasting, etc.) owned by the general public is required. It cannot be used.

  The present invention has been made by paying attention to the above-described problems, and allows radio broadcasts and television broadcasts to be satisfactorily viewed using a general mobile terminal without causing radio wave interference in an apartment or a detached house. An object of the present invention is to provide a receiving device.

The present invention pays attention to a general television coordinating cable and a 100VAC line of a light line installed in a condominium or a detached house as an antenna for receiving a medium-wave radio, and using these effectively to receive signals. It is characterized by improving the radio wave conditions.
That is, the receiving device according to the present invention has one end connected to the outer conductor of a cable for TV listening through a TV terminal installed in the building, and the other end connected to a 100 VAC line installed in the building. A receiver connected to the cold side of the antenna, and an antenna device connected to the receiver and capable of radiating the signal in a specific frequency band output from the receiver into a weak radio wave to the mobile terminal. And the receiver extracts and outputs a medium-frequency radio wave as a signal in the specific frequency band among radio waves induced between the outer conductor of the cable for TV common use and the cold side of the 100VAC line. A medium wave radio signal output unit that transmits the medium wave radio signal output from the medium wave radio signal output unit to the antenna device.

  The receiver having the above configuration includes a receiver and an antenna device that is connected to the receiver and radiates an AM wave signal that is a radio broadcast. One end of the receiver is a common coaxial cable. A 100VAC line cold connected to the outer conductor of a cable for TV listening through the TV terminal installed in the building through the power supply and the other end installed in the building through the power connector (outlet) It is designed to be connected to the side. In this case, since the outer conductor is in a GND connection state, a radio wave is induced in the outer conductor, and the medium wave signal output unit among the induced radio waves generates a medium wave. A radio wave (AM radio wave) is taken out as a signal in a specific frequency band and transmitted to the antenna device. In the antenna device, a signal in a specific frequency band taken out by the receiver is radiated as a weak radio wave, so that it is possible to listen to AM radio broadcasting by placing a portable terminal such as a radio in the vicinity thereof.

  The antenna device having the above-described configuration may be configured to have a medium-wave spiral antenna element that is wound a predetermined number of times in the same plane and can be magnetically coupled to the internal antenna of the mobile terminal.

  In the antenna device having such a configuration, since the antenna element is wound in a spiral shape in the same plane, the antenna device itself can be made compact.

  Further, the receiver having the above-described configuration is connected to the core wire of the cable for TV common listening, can acquire a VHF / UHF radio signal, and outputs a medium wave radio wave output from the medium wave radio signal output unit. A synthesizer that synthesizes the signal and the VHF / UHF radio signal, and the antenna device further includes a VHF / UHF antenna element and the medium so that the mixed wave synthesized by the synthesizer can be radiated. A wave spiral antenna element may be connected in series in the same plane.

  In this way, by connecting the receiver to the core wire of the cable for TV common use, in addition to the medium wave signal (AM radio signal) acquired from the outer conductor of the cable for TV common use, FM broadcast and It is possible to acquire radio signals (VHF / UHF signals) for television broadcasting. In this case, the medium wave radio signal and the VHF / UHF signal are combined by a combiner and transmitted to the antenna device. In the antenna device, the spiral antenna element for medium wave and the antenna element for VHF / UHF are connected in series in the same plane, so that the mixed wave synthesized by the combiner is radiated in the antenna device. In addition to AM radio broadcasting, FM broadcasting and television broadcasting (one-segment broadcasting) can be viewed.

  In the above configuration, the antenna element for VHF / UHF is formed in a spiral shape and connected so as to be inside the spiral antenna element for medium wave, and further, the antenna element for VHF / UHF Is provided with a terminating resistor, and the medium-wave spiral antenna element is disposed upstream of the terminating resistor, with the VHF / UHF choke coil interposed therebetween, and the VHF / UHF antenna element. May be connected in series.

  Thus, it is possible to make the antenna device compact by forming the VHF / UHF antenna elements in a spiral shape and connecting them in series so as to be inside the spiral antenna elements for the medium wave. Become. In addition, the VHF / UHF antenna element is provided with a terminating resistor and subjected to termination processing, so that the propagated VHF / UHF radio signal is absorbed at the end side (power is consumed by the terminating resistor). It is not reflected and can function as a traveling wave antenna that radiates broadband radio waves. Further, the spiral antenna element for medium wave is connected in series with the antenna element for VHF / UHF upstream from the termination resistor, and a medium wave blocking capacitor is inserted in series with the termination resistor. In addition, the propagated medium wave signal is not absorbed by the terminating resistor, and the VHF / UHF choke coil is interposed, so that the VHF / UHF signal does not flow through the medium wave spiral antenna element. . Thereby, it becomes possible to make the antenna device excellent in directivity and radiation characteristics in a wide band from a medium wave band to a VHF band to a UHF band.

  In the configuration described above, the spiral antenna element for medium wave and the antenna element for VHF / UHF may be formed on a printed board by etching.

  According to such a configuration, it is possible to efficiently downsize and manufacture an antenna device that radiates medium-wave radio waves and VHF / UHF radio waves.

  In the above-described configuration, it is preferable that a medium wave blocking capacitor be disposed between the core wire of the television common listening cable and the receiver output unit.

  According to such a configuration, it is possible to prevent the medium wave radio wave extracted by the medium wave radio wave signal output unit from flowing into the core wire of the cable for TV common use.

  In the above-described configuration, it is preferable that a coil for blocking VHF / UHF waves is disposed between the medium wave signal output unit and the receiver output unit.

  According to such a configuration, it is possible to prevent a VHF / UHF signal from flowing to the medium wave signal output unit side.

  In the above configuration, it is preferable that a low-frequency blocking capacitor is disposed between the medium-wave radio signal output unit and the cold-side line connected to the 100 VAC line.

  In such a configuration, when the receiver is mistakenly connected to the hot side of the 100 VAC line, the 100 V AC power supply is prevented from acting on the outer conductor of the cable for TV listening.

  In the above-described configuration, it is preferable that a detection element for detecting energization is disposed between the outer conductor of the cable for TV common use and the hot-side line connected to the 100VAC line.

  In such a configuration, when the power input section (outlet) of the receiver is connected to the hot side of the 100 VAC line, the detection element notifies this, and therefore the outer conductor of the cable for TV common use is installed in the building. It is possible to grasp that the connection is made to the cold side of the 100 VAC line (GND connection).

  ADVANTAGE OF THE INVENTION According to this invention, the receiver which makes it possible to watch radio broadcasting and television broadcasting satisfactorily using a general portable terminal without causing radio wave interference in an apartment or a detached house can be obtained.

The block diagram which shows schematic structure of the whole system which enables viewing and listening to radio broadcasting and television broadcasting using the receiver which concerns on this invention. The block diagram which shows the whole structure of a receiver. The figure which shows schematic structure of an antenna apparatus. The figure which shows one structural example which actualized the antenna apparatus shown in FIG.

Hereinafter, an embodiment of a receiving apparatus according to the present invention will be specifically described with reference to the accompanying drawings.
FIG. 1 is a block diagram showing a schematic configuration of an overall system that enables radio broadcasts and television broadcasts to be viewed using the receiving device constituting this embodiment, and FIG. 2 shows the overall configuration of the receiving device. FIG.

  In condominiums and detached houses, there is an in-house hearing facility 80 that distributes radio waves received by the terrestrial digital UHF antenna 81 to each room so that TV broadcasts can be viewed in each room. It has been. The in-house hearing facility 80 includes a mixer, an amplifier, a distributor, a demultiplexer, a block converter, and the like in addition to the UHF antenna 81, and is a television co-ordinating cable ( Hereinafter, it is connected to a television terminal (TV terminal BOX) 85 for a coaxial cable disposed in each room via a common cable 83). In addition to the UHF antenna 81 for terrestrial digital broadcasting, a VHF antenna 82 and a cable TV (CATV) line capable of receiving FM broadcasts may be connected to the in-house hearing facility 80.

  The receiving apparatus 1 according to the present invention is provided with the TV terminal 85 connected to a terrestrial digital TV 87 and a power outlet 88 for a 100 VAC line for supplying power to various electric devices in an apartment or a detached house. The receiving device 1 has one end connected to the outer conductor of the common cable 83 via the TV terminal 85 and the other end connected to the power outlet 88 of the 100 VAC line. A receiver 10 connected to the cold side (GND side) of the antenna, and an antenna that is connected to the receiver 10 and that can radiate a signal in a specific frequency band output from the receiver 10 to a portable terminal using a weak radio wave And a device 21.

  The receiver 10 constituting the receiver 1 has one end connected to the outer conductor 83 a of the common cable 83 via a connection line (coaxial cable) 12 and the other end connected to the power connector 13. By connecting to the cold side (GND side) of the 100VAC line, the outer conductor 83a of the common cable 83 functions as a receiving antenna. That is, by connecting the outer conductor 83a of the common cable 83 with the GND, the outer conductor 83a functions as a conductor with one end connected to the GND, and in the area exposed to the outside, the radio broadcast (AM which is a medium wave radio wave). Radio waves of various bands including waves; 526.5 KHz to 1606.5 KHz) are induced.

  The receiver 10 uses, as a signal in a specific frequency band, a medium-frequency radio wave (AM wave) that can be heard as a radio broadcast among radio waves induced between the outer conductor 83a and the cold side of the 100VAC line. A medium wave signal output unit 15 for taking out and outputting is provided. Further, the receiver 10 of the present embodiment can also acquire VHF / UHF radio signals corresponding to FM radio broadcasting and digital terrestrial digital broadcasting by connecting the connection line 12 to the core wire 83b of the common cable 83. It is configured as follows. Therefore, the receiver 10 synthesizes the medium wave radio signal output from the medium wave radio signal output unit 15 and the VHF / UHF radio signal acquired from the core wire 83b of the common cable 83 to obtain a mixed signal of each radio wave. Is provided to the antenna device 21 via the output unit 20.

  The medium wave radio signal output unit 15 in the present embodiment is constituted by a high frequency transformer 15A. The high-frequency transformer 15A is formed of a material (ferromagnetic material) that is most likely to transmit medium-frequency radio waves (AM waves) among radio waves induced by the outer conductor 83a, and is wound with a primary coil and a secondary coil. It has a toroidal core. That is, a wide-band radio signal input to the primary side induced by the outer conductor 83a is taken out on the secondary side by the toroidal core and output to the combiner 18 side. The medium wave radio signal output unit 15 is not limited as long as it can extract a frequency (AM wave) in a predetermined band, and may be constituted by, for example, a band pass filter in addition to the above-described high frequency transformer.

  As shown in FIG. 2, the synthesizer 18 receives a medium-frequency radio signal extracted by the high-frequency transformer 15A and a VHF / UHF radio signal acquired from the core wire 83b. In such a configuration, it is preferable that a medium wave blocking capacitor C <b> 1 is disposed on the connection line connecting the core wire 83 b of the common cable 83 and the output unit 20. Furthermore, it is preferable to arrange a choke coil L1 for blocking VHF / UHF radio wave signals between the outer conductor 83a and a line connected to the core wire 83b. As a result, the VHF / UHF radio signal acquired from the core wire 83b is propagated to the output unit 20, and the medium-frequency radio signal taken out by the high-frequency transformer 15A is prevented from flowing into the core wire 83b of the common cable 83b. For example, it is possible to prevent the television broadcast viewed in another room from being affected.

  In the configuration of the synthesizer 20 described above, it is preferable that a coil L2 for blocking a VHF / UHF radio wave signal is disposed between the high-frequency transformer 15A and the output unit 20. This prevents the VHF / UHF radio signal from flowing to the high-frequency transformer 15A side. A VHF / UHF radio signal path capacitor C2 is disposed between the high-frequency transformer side conductor of the coil L2 and the outer conductor 83a, so that the VHF / UHF radio signal that has passed through the coil L2 can be reduced. It is possible to flow to the outer conductor 83a side.

  In the configuration described above, the low-frequency blocking capacitor C3 is disposed between the high-frequency transformer 15A and the cold-side line connected to the 100VAC line. As a result, even if the cold side of the power connector 13 is mistakenly connected to the hot side of the power outlet 88, it is possible to reliably prevent the 100V AC power source from acting on the outer conductor 83a of the common cable 83. It becomes.

  In the above-described configuration, a detection element (for example, a current detection element) that detects energization between the outer conductor 83a of the common cable 83 and a hot-side line (hot side of the power connector 13) connected to the 100VAC line. It is preferable to provide a display lamp 19 that is turned on when energized. In such a configuration, when the hot side of the power connector 13 of the receiver 10 is connected to the hot side of the power outlet 88, the display lamp 19 as a detection element is lit, so that the outer conductor 83a of the common cable 83 is It becomes possible to grasp that it is connected (GND connection) to the cold side of the 100 VAC line installed inside.

  The antenna device 21 is installed in the same room as the receiver 10 configured as described above, and is connected to an output terminal (the output part 20) of the receiver 10 via a connection cable. This antenna device 21 is a signal in a specific frequency band output from the receiver 10 (in this embodiment, a medium-frequency radio signal from the high-frequency transformer 15A and a VHF / UHF radio signal from the core wire 83b of the common cable 83). Is configured to be capable of radiating to a mobile terminal (for example, a general AM radio 90 or a mobile phone 91 capable of receiving one-segment broadcasting). In this case, the antenna device 21 is only required to be able to watch AM radio broadcasts and one-segment TV broadcasts with these mobile terminals in the same room. Specifically, the AM radio wave is 500 μV at a distance of 3 m from the antenna device 21. / M or less, UHF television (one seg) wave may be configured to have an electric field strength of 35 μV / m or less.

FIG. 3 is a diagram illustrating a schematic configuration of the antenna device 21.
As shown in this figure, the antenna device 21 includes an input unit 22 to which a connection line from the output unit 20 of the receiver 10 is connected, and an antenna element is connected from the input unit. In this case, the antenna element 23 for VHF / UHF and the antenna element 25 for medium wave are connected in series so that the antenna element can radiate the mixed wave synthesized by the combiner 18 without resonating. It is configured to be a traveling wave type.

  The antenna element 23 for VHF / UHF has a length (about 75 cm) corresponding to a quarter wavelength of an FM wave (100 MHz) which is a VHF wave so as to radiate a VHF wave to a UHF wave in a short distance over a wide band. The terminal resistor R is installed so that only the traveling wave is present on the antenna element and the traveling wave is not reflected at the end (so as to generate broadband radiation). And terminated. That is, by terminating the end portion of the antenna element with the termination resistor R, it is possible to prevent a reflected wave from being generated only in the traveling wave state, thereby suppressing a large fluctuation in impedance depending on the frequency, It becomes possible to radiate radio waves stably. Further, in the medium wave antenna element 25, a medium wave blocking capacitor C4 is connected in series with the terminal resistor R so that the medium wave radio signal is not absorbed by the terminal resistor R. It is branched in front and is configured as a spiral type wound a predetermined number of times in the same plane so that it can be magnetically coupled to the internal antenna (bar antenna) of the AM radio 90. In this case, the medium-wave antenna element 25 has a configuration in which the housing of the AM radio 90 is wound about 2 to 3 times (a size of about 10 cm) as a guideline. Efficient magnetic field coupling can be obtained.

  The termination resistor R may be about 300 ± 100Ω so that the VHF / UHF radio signal can be radiated in a wide band. The medium wave blocking capacitor C4 may have a value sufficiently high (for example, about 100 pF) with respect to the impedance (1.6 KΩ) and the termination resistance R (300Ω) at 1 MHz. Further, a choke coil L3 for VHF / UHF is arranged at the input end of the medium wave antenna element 25 (branch point side with the termination resistor R). , VHF / UHF radio signal is prevented from flowing.

FIG. 4 is a diagram illustrating a configuration example in which the antenna apparatus illustrated in FIG. 3 is embodied.
The antenna device 21 is configured by mounting the above-described antenna elements 23 and 25 in series on a substrate, for example, a 10 cm square rectangular film-shaped resin plate 21A. In this case, as shown in the figure, the VHF / UHF antenna element 23 is configured to be a spiral type in the same plane, and the spiral type medium wave antenna element 25 is the VHF / UHF type. The antenna element 23 for UHF is disposed so as to surround it. That is, the VHF / UHF antenna element 23 is formed in a spiral shape, and is disposed inside the spiral-type medium wave antenna element 25 so that both antenna elements 23 and 25 are in the same plane. By arranging in this way, the antenna device 21 can be made compact.

  In the antenna device 21 described above, the VHF / UHF antenna element 23 and the medium wave spiral antenna element 25 may be formed on a printed board by etching. According to such a configuration, it is possible to efficiently downsize and manufacture an antenna device that radiates medium-wave radio waves and VHF / UHF radio waves. Or about the said board | substrate, you may use nonelectroconductive members, such as cloth and wood, besides resin.

  In the antenna device 21 described above, the wavelength of the VHF / UHF radio signal is shortened by covering the antenna element 23 for VHF / UHF with, for example, a non-conductive material such as polyethylene. It becomes possible to shorten the length of the antenna element 23 for VHF / UHF having a length of about / 4 wavelength. That is, for example, the relative dielectric constant of polyethylene as a coating material is 2.3, and the wavelength shortening rate becomes about 0.66 by coating this, so the efficiency in the antenna element 23 for VHF / UHF is improved. It is possible to shorten the length of about ¼ wavelength that enables effective radiation, and the antenna device 21 can be further downsized. In this case, the material for covering the antenna element 23 can be appropriately changed, and the length of the antenna element 23 can be changed accordingly.

  In the receiving apparatus 1 configured as described above, the receiver 10 is connected to the outside of the cable 83 for common listening via a television terminal 85 installed in the building via a general coaxial cable (connection line 12). By connecting to the conductor 83a and connecting the cold side of the power connector 13 to the cold side of the power outlet 88, the outer conductor 83a, which is a conductor, is in a GND connection state and performs an antenna function. Thus, a radio wave is induced in the outer conductor 83a. Then, the induced radio wave is extracted as a signal in a specific frequency band by the high frequency transformer 15 </ b> A which is a medium wave radio signal output unit, and transmitted to the antenna device 21. Further, since the connection line 12 is also connected to the core wire 83b of the common cable 83, it is possible to acquire radio wave signals (VHF / UHF signals) for FM broadcast and television broadcast. Then, the medium wave radio signal and the VHF / UHF signal are synthesized by the synthesizer 18 and transmitted to the antenna device 21. The antenna device 21 radiates the signal from the receiver 10 as a weak radio wave. It is possible to view AM radio broadcast, FM broadcast, and television broadcast by placing mobile terminals 90 and 91 such as radios on the radio.

  For this reason, according to the receiving apparatus 1 described above, if it is indoors where the TV terminal 85 is provided, the above-described broadcasting is highly sensitive in the building regardless of the location environment of the building, the floor plan of the room, and the presence or absence of windows. In addition, it is possible to use various portable terminals (portable radio, portable TV, etc.) that are generally available on the market.

As mentioned above, although embodiment of this invention was described, this invention is not limited to above-described embodiment, It can change variously.
In the above-described embodiment, the receiving device 1 is connected to the core wire 83b of the common cable 83 and is configured to be able to view FM broadcasts and television broadcasts, but may be configured to receive only AM broadcasts. good. In this case, it is not necessary to provide the antenna element 23 of the antenna device 21 described above, and the overall configuration can be simplified. The antenna elements 23 and 25 of the antenna device 21 are formed on the same surface on a flat plate (substrate), but may be configured in a three-dimensional manner.

DESCRIPTION OF SYMBOLS 1 Receiver 10 Receiver 13 Power supply connector 15 Medium wave radio wave signal output part 15A High frequency transformer 18 Synthesizer 21 Antenna device 23 Antenna element 25 for VHF / UHF Antenna element 83 for medium wave Hearing cable 83a Outer conductor 83b Core wire

Claims (9)

A receiver having one end connected to an outer conductor of a cable for TV listening through a TV terminal installed in the building and the other end connected to the cold side of a 100 VAC line installed in the building; ,
An antenna device connected to the receiver and capable of radiating to a portable terminal with a signal of a specific frequency band output from the receiver as a weak radio wave;
A receiving device comprising:
The receiver extracts and outputs a medium-frequency radio wave as a signal in the specific frequency band among radio waves induced between the outer conductor of the cable for TV common use and the cold side of the 100VAC line. A receiving apparatus comprising: a radio wave signal output unit; and transmitting a medium wave radio signal output from the medium wave radio signal output unit to the antenna device.   The receiving apparatus according to claim 1, wherein the antenna apparatus includes a medium-wave spiral antenna element that is wound a predetermined number of times in the same plane and can be magnetically coupled to an internal antenna of the mobile terminal. The receiver is connected to the core wire of the cable for TV common listening and can acquire a VHF / UHF radio signal, and the medium wave radio signal and the VHF / UHF radio wave output from the medium wave radio signal output unit. Has a synthesizer to synthesize the signal,
The antenna device is characterized in that a VHF / UHF antenna element and the medium wave spiral antenna element are connected in series in the same plane so as to be able to radiate mixed waves synthesized by the combiner. The receiving device according to claim 2. The antenna element for VHF / UHF is formed in a spiral shape and connected so as to be inside the spiral antenna element for medium wave,
The antenna element for VHF / UHF is terminated with a terminating resistor, and the spiral antenna element for medium wave is upstream of the terminating resistor, with the choke coil for VHF / UHF interposed therebetween. 4. The receiving apparatus according to claim 3, wherein the receiving apparatus is connected in series with an antenna element for VHF / UHF.   5. The receiving apparatus according to claim 3, wherein the medium-wave spiral antenna element and the VHF / UHF antenna element are formed on a printed board by etching.   6. The receiver according to claim 3, wherein a medium wave blocking capacitor is disposed between the core wire of the cable for TV common listening and the receiver output unit. 7.   The receiving apparatus according to any one of claims 3 to 6, wherein a coil for blocking a VHF / UHF wave is disposed between the medium wave signal output unit and the receiver output unit.   8. The low-frequency blocking capacitor is disposed between the medium-wave radio signal output unit and a cold-side line connected to the 100 VAC line, according to claim 1. The receiving device described.   9. A detection element for detecting energization is arranged between an outer conductor of the cable for television hearing and a hot-side line connected to the 100VAC line. The receiving device according to Item 1.

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