JP4123800B2 - Antenna built-in headphones and portable television receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a headphone with a built-in antenna having a function of receiving a radio signal, and Portable television receiver In particular, a headphone with a built-in antenna for improving the reception situation and Portable television receiver About.
[0002]
[Prior art]
In general, headphones are connected to a receiving device that receives a radio signal, a portable audio device, or a communication device that is used under noise, and cannot emit sound under the noise or outside such as a bus and a train. It is used to listen to sound or music in such situations.
[0003]
Conventionally, depending on the device used, there is a headphone having a wireless signal receiving function. In this case, the headphones need a receiving antenna. However, if an antenna is provided outside, an installation location is required. Therefore, it is difficult to provide the antenna because it is a device used outside such as a portable device. In some cases, a cord of a headphone connected to the portable device or the like is used as a reception antenna, or the portable device or the like is provided with a small antenna.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional technology, since the antenna is installed outside, the antenna length cannot be made ideal, and the antenna installation location is restricted, so that the reception sensitivity of the radio signal is reduced. There is a problem. In addition, when the cord connecting the device and headphones is used as an antenna, the polarization method is mainly in the vertical direction, the reception sensitivity of horizontal polarization is poor, and the code position is also affected by slight movement of the user or wind etc. Since it changes, there is also a problem that the reception situation always changes and the reception accuracy is poor.
[0005]
The present invention has been proposed in view of such a conventional situation, and has a built-in antenna that enables stable and good reception without changing the reception state of a radio signal depending on the movement and position of the user. Headphones and Portable television receiver The purpose is to provide.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the antenna-embedded headphones according to the present invention are: A headphone with a built-in antenna connected to a portable television receiver, wherein a right acoustic unit and a left acoustic unit to which an audio signal is supplied, and a band unit that connects the right acoustic unit and the left acoustic unit, The antenna for television reception built in the band unit is made of a wire whose length is adjusted to 1 / N (N is a natural number) of the wavelength of the center frequency of the receiving frequency band. Multiple of antenna An acoustic cord connected to each of the right acoustic unit and the left acoustic unit, an antenna coaxial cable connected to each of the plurality of antennas, and a tube member that combines the acoustic cord and the coaxial cable. And a plug portion provided at an end portion of the cord portion, for connecting the acoustic cord and the antenna coaxial cable to a predetermined functional portion of the portable television receiver. It is characterized by that.
[0007]
In the present invention, since a plurality of antennas having different lengths are incorporated, the reception sensitivity characteristics of the radio signals of the respective antennas are different, so that radio waves of a wide range of frequencies can be stably received, and the user's slight movements and The reception state does not change due to wind or the like.
[0008]
According to the present invention Portable television receiver Is A right acoustic unit and a left acoustic unit to which an audio signal is supplied, a band unit connecting the right acoustic unit and the left acoustic unit, and a television receiving antenna built in the band unit for receiving. A plurality of antennas made of wire materials adjusted to a length of 1 / N (N is a natural number) of the wavelength of the center frequency of the frequency band, and an acoustic cord connected to the right acoustic unit and the left acoustic unit, The antenna coaxial cable connected to each of the plurality of antennas, a cord portion composed of a tube member that collects the acoustic cord and the coaxial cable, and provided at an end of the cord portion, the acoustic cord and the Antenna built-in headphones having a plug portion for connecting a coaxial cable for antenna to a predetermined functional portion, and a plurality of the antennas A selecting means for selecting one of them, a receiving means for outputting a video signal from a radio signal received by the antenna selected by the selecting means, and an antenna having the highest electric field strength connected to the selecting means. Level detecting means, and control means for controlling the selecting means so as to select the antenna detected by the level detecting means. It is characterized by that.
[0009]
In the present invention, since antennas having different lengths have different reception sensitivity characteristics depending on the frequency, a radio signal in a wide frequency band can be received, and an antenna having the highest electric field strength is provided in an external device and a selection unit. Since the radio signal is received by being detected and selected by the means, the reception sensitivity characteristics of the respective antennas can be complemented, the reception sensitivity of the reception device can be extremely high, and the reception state can be stabilized.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, specific embodiments to which the present invention is applied will be described in detail with reference to the drawings. FIG. 1 is a schematic diagram showing a headphone with a built-in antenna according to an embodiment of the present invention.
[0011]
As shown in FIG. 1, a headphone 1 with a built-in antenna according to the present embodiment includes a right-ear acoustic unit 13a, one end connected to the acoustic unit 13a, for example, a band unit 14 made of an insulator, and the band unit. The headphone comprising the left ear acoustic unit 13b connected to the other end of the antenna 14 includes antennas 15a, 15b and 15c having different lengths. A cord 12 is connected to the acoustic unit 13a, and the cord 12 is connected to the antennas 15a, 15b, and 15c. The code 12 transmits an audio signal to each of the acoustic units 13a and 13b, and individually transmits a radio signal received by each antenna 15a, 15b, and 15c to an external device such as a portable device. The part is provided with a connection plug 11 for connection to a portable device (not shown).
[0012]
In the cord 12, each acoustic cord for transmitting an audio signal to the left and right acoustic units and three antenna members connected to the respective antennas 15a, 15b, and 15c built in the band unit 14 are combined into one. It is a thing. That is, as shown in FIG. 2A, the cord 12 includes three cords connected to the acoustic cords 16a and 16b and the antennas 15a, 15b and 15c for transmitting audio signals from the external device to the acoustic units 13a and 13b. A total of five cords of antenna members 17 a to 17 c made of coaxial cables are collected by one tube 18. The acoustic cords 16a and 16b are extended from the cord 12 to the acoustic units 13a and 13b, respectively, and supply acoustic signals.
[0013]
In each coaxial cable, as shown in FIG. 2B, the center conductor 121 is insulated by an intermediate insulator 122 such as polyethylene, the outer conductor 123 is formed by a braid of a conductive wire, and the outside is made of polyvinyl or the like (not shown). The central conductor 121 exposed from the intermediate insulator 122 and the external conductor 123 is built in the band portion 14, and the length L of the exposed portion of the central conductor 121 is actually the antenna. Effective antenna length acting as
[0014]
Radio signals received by the antennas 15a, 15b, and 15c are individually supplied to external devices via the antenna members 17a to 17c and the plug 11. In the external device, one wireless signal is selected from the wireless signals individually supplied by a wireless signal receiving circuit, which will be described later, is processed, a video signal is generated, and a TV image or the like is provided in the external device. Is displayed.
[0015]
Further, as the antenna members 17a to 17c, shield wires or the like can be used instead of the coaxial cables. Furthermore, the acoustic cords 16a and 16b may be made unnecessary by multiplexing the acoustic signal on any of the antenna members 17a to 17c. Thereby, the code | cord | chord 12 can be made thin and is still more convenient for carrying etc.
[0016]
In the present embodiment, there are three antennas, and each of the antennas 15a, 15b, and 15c has an L-VHF (very high frequency) band of 90 to 110 MHz, for example, an H-VHF band of 170 to 220 MHz, and 470, for example. The antenna length is adjusted to each frequency band of the UHF (ultrahigh frequency) band of 770 MHz to be able to receive frequency bands corresponding to TV waves of 1 to 3, 4 to 12 and 13 to 62 channels, respectively. It has become. That is, the wavelength of the center frequency of the UHF band is λ ₁ , The wavelength of the center frequency of the H-VHF band is λ ₂ , And the wavelength of the center frequency of the L-VHF band is λ ₃ When the antenna length of each antenna 15a, 15b, 15c is, for example, λ ₁ / 2, λ ₂ / 2, λ ₃ / 2.
[0017]
Thus, the optimum antenna length Ln is calculated from the frequency band desired to be received, and the built-in antenna length L is set to Ln. Here, the optimum antenna length Ln can be calculated as, for example, the length of 1 / N (for example, 1/2 or 1/4) of the wavelength at the center frequency of the frequency band for reception. Here, N is a natural number.
[0018]
Next, a radio wave reception method in an external device to which the above-described antenna built-in headphones is connected will be described. Radio signals received by the antennas 15a, 15b, and 15c are individually transmitted to external devices via the antenna members 17a to 17c, and are individually supplied to radio signal receiving circuits in the external devices.
[0019]
FIG. 3 is a block diagram showing a radio signal receiving circuit in the external device of the present embodiment. FIG. 3 shows a receiving circuit capable of connecting four antennas. As shown in FIG. 3, the radio signal receiving circuit 20 includes antenna connection units 21 to 24, and a selection unit (selection unit) 25 that selects any one of radio signals received by a plurality of antennas. The TV tuner 27, which is a receiving means for outputting a video signal from the radio signal selected by the selection section 25, and a level detection means (not shown) for detecting a video signal from an antenna connected to the TV tuner 27 and having the highest electric field strength. And a control circuit 26 which is a control means for controlling the selection unit 25 so as to select a radio signal from which the video signal detected by the level detection means is obtained.
[0020]
The operation of this radio signal receiving circuit will be described below. Antenna members 21 to 24 of the selection unit 25 are connected to antenna members such as coaxial cables connected to the respective antennas built in the headphone with built-in antenna, and radio signals received by the respective antennas are transmitted from the antenna members to the antenna members. It is supplied individually via the connecting parts 21 to 24. In the present embodiment, since there are three antennas built in, only three of the antenna connection portions 21 to 24 are used. The selection unit 25 is supplied with an antenna selection signal 28 from the control circuit 26 together with a plurality of radio signals, and one radio signal is selected from the plurality of radio signals. The selected radio signal (RF (radio frequency) signal) 29 is input to the TV tuner 27.
[0021]
The TV tuner 27 generates a video signal (NTSC (National TV System Committee) signal) 30 from the RF signal 29 and outputs the video signal 30 to the video signal processing unit 31. The video signal processing unit 31 generates a color signal, a luminance signal, and the like and outputs them to, for example, a display unit (not shown) provided in an external device to display a video.
[0022]
First, the control circuit 26 sequentially receives video signals generated by receiving the radio signal RF 29 from the selection unit 25 by the TV tuner 27. Each video signal supplied to the control circuit 26 is temporarily stored in a memory (not shown) of the control circuit 26, and the detection means detects the video signal having the highest reception intensity among the stored video signals. Then, information on the antenna connection unit to which a radio signal capable of generating the video signal is input is acquired. Based on this information, an antenna selection signal 28 for selecting a radio signal capable of obtaining an optimal video signal is generated. In this way, the control circuit 26 can periodically generate the antenna selection signal 28.
[0023]
FIG. 4 is a circuit diagram showing a modification of the radio signal receiving circuit shown in FIG. In the modified example shown in FIG. 4, the same components as those of the antenna built-in headphone shown in FIG. 1 and the wireless signal receiving circuit shown in FIG.
[0024]
As shown in FIG. 4, the wireless signal receiving circuit 32 includes a selection unit 25 and a video signal processing unit 31 as in FIG. 4. Here, in the radio signal receiving circuit 32 shown in FIG. 4, the RF signal 29 selected by the selection unit 25 is supplied, and a TV tuner 33 having detection means (not shown) for detecting the sensitivity of the RF signal 29 is provided. And a control circuit 34 connected to the detecting means of the TV tuner 33 is provided. The TV tuner 33 supplies a level detection output 35 from the detection means to the control circuit 34.
[0025]
Hereinafter, the configuration and operation of the modification shown in FIG. 4 will be described in more detail. Also in the radio signal receiving circuit 32, the antenna members 17a, 17b, and 17c of the plug 11 and the antenna connection portions 22 to 24 provided in the selection portion 25 are connected. Radio signals received by the antennas 15a, 15b, and 15c having different lengths are input to the antenna connection units 22 to 24. As will be described later, each radio signal has a different antenna length, so that the signal strength varies depending on the frequency. The selection unit 25 includes a switching unit 25a, sequentially switches the antenna connection units 22 to 24, and supplies the radio signal RF29 input from each antenna connection unit 22 to 24 to the TV tuner 33.
[0026]
The TV tuner 33 has a memory (not shown) and stores three types of wireless signals supplied from the selection unit 25. The level detection means provided in the TV tuner 33 detects the radio signal having the highest signal strength from the radio signals stored in the memory. Then, the information of the antenna connection portion or antenna member that outputs the radio signal having the highest signal strength is supplied to the control circuit 34 as the level detection output 35.
[0027]
Based on the level detection output 35, the control circuit 34 generates an antenna selection signal 28 for selecting any one of the antenna connection units 22 to 24 by the switching unit 25 a and supplies the antenna selection signal 28 to the selection unit 25. The selection unit 25 selects an antenna connection unit that supplies a radio signal having the highest signal strength among the antenna connection units 22 to 24 based on the antenna selection signal 28, and is supplied from an antenna member connected to the antenna connection unit. The radio signal RF29 is output to the TV tuner 33.
[0028]
The TV tuner 33 generates a video signal (NTSC (National TV System Committee) signal) 30 from the RF signal 29 and outputs the video signal 30 to the video signal processing unit 31. The video signal processing unit 31 generates a color signal, a luminance signal, and the like, and outputs them to, for example, a display unit (not shown) to display a video. Note that the detection timing of such a radio signal may be automatically detected at regular intervals, not only when the external device is turned on.
[0029]
In this way, all the wireless signals from the selection unit 25 are temporarily stored in the memory, the video signal or the wireless signal having the best reception state is detected, and the video signal is generated by selecting the wireless signal having the best reception state. As a result, the radio signal receiving circuit can stably output the video signal.
[0030]
Next, the effect of the present invention will be described in more detail. FIG. 5 is a graph schematically showing sensitivity characteristics of antennas having different lengths, where the horizontal axis represents frequency and the vertical axis represents reception sensitivity. In order to receive a desired frequency band, each antenna is assumed to be incorporated in the headphones with a length of ½ wavelength at the center frequency of the frequency band, for example.
[0031]
As shown in FIG. 5, the antennas 41 to 43 have different sensitivity characteristics with respect to frequency because the antenna length (element length) is different. When it is desired to receive a radio wave of a certain frequency, generally, the reception sensitivity becomes the highest when the antenna length is set to ½ of the wavelength of the frequency. For example, the antenna 41 has the highest reception sensitivity at the frequency A compared to the other antennas 42 and 43, but the reception sensitivity of the antenna 41 does not decrease unilaterally around the frequency A. For example, the frequencies B and C The reception sensitivity becomes slightly high.
[0032]
In the present invention, a plurality of antennas having different reception sensitivity characteristics are prepared using the reception sensitivity characteristics of such antennas, and the reception sensitivity of each other is increased by using the antenna having the highest reception sensitivity at a certain frequency. Complement each other. That is, for example, when the antenna 41 is provided with a length of ½ wavelength of the frequency A in order to optimally receive the frequency band 44, the antenna 42 is also used in a frequency band other than the frequency band 44. , 43, the reception sensitivity is higher, for example, when there is a frequency such as frequency B, reception is performed by the antenna 41. In this way, by combining the antennas so that the reception sensitivity characteristics of the antennas having different lengths and different reception sensitivity characteristics can be complemented well, it is possible to stabilize reception by selecting an antenna having high reception sensitivity and high received signal strength. be able to.
[0033]
Conventionally, each antenna has been provided with an optimal length according to the frequency band to be received, and the antenna has been switched according to the frequency band to be received. However, in the present invention, a plurality of antennas having different lengths are provided and received. Instead of switching antennas depending on the frequency band to be used, switching between antennas depending on signal strength makes it possible to make good use of and complement each other's reception sensitivity characteristics to stabilize radio wave reception.
[0034]
Also in the L-VHF band antenna described above, radio waves in the H-VHF band or the UHF band can be satisfactorily received depending on the frequency. Conversely, the H-VHF band antenna or the UHF band antenna may receive the L-VHF band radio wave better than the L-VHF band antenna. In this way, the length of each antenna is adjusted so that radio waves in a predetermined frequency band can be received, but if the reception state is good not only in the predetermined frequency band but also at frequencies other than the predetermined frequency, Use that antenna.
[0035]
In the radio signal receiving circuit shown in FIG. 3 and FIG. 4, it is possible to provide a detecting means in the selection unit 25 to detect the reception state of the antenna and detect a signal from the antenna having the highest electric field strength. It is. Also in this case, the detection means is connected to the control circuit, and the control circuit supplies the selection unit 25 with the antenna selection signal 28 for selecting the antenna so that the signal having the best reception state is supplied to the TV tuner. Note that any number of antenna connection portions of the selection unit 25 may be provided as long as they are two or more.
[0036]
For example, a diversity IC (Integrated Circuit) is used as a control circuit for selecting the antenna having the highest reception sensitivity. For example, the field strength of each antenna is measured during the vertical blanking period, and the antenna having the highest field strength is selected. You can choose. Further, in this embodiment, three antennas having different lengths are incorporated, but in addition to a plurality of antennas having different lengths, an antenna having the same length is incorporated, and antennas having different lengths are provided. It is possible to complement each reception sensitivity characteristic well and add a diversity function.
[0037]
In the above embodiment, the radio signal is a TV radio wave, but a cable TV broadcast wave, FM / AM broadcast wave, video signal, FM multiple character data, satellite navigation system data, and VICS (Road Traffic Information Foundation). It is also possible to receive various radio signals such as communication system data.
[0038]
According to the present embodiment, since a plurality of antennas having different lengths are incorporated in the headphones, the reception sensitivity characteristics of each antenna are different, and the reception sensitivity characteristics of each antenna can be complemented. Radio waves can be received with a high antenna, which is convenient for carrying and stable reception sensitivity. A plurality of antennas having different lengths can receive radio waves in a wide frequency band. Furthermore, since the headphones are mounted on the user's head, the antenna can be provided at a higher position than the antenna is installed in an external device such as a portable device, and reception sensitivity is further improved. Furthermore, since a control circuit having a diversity function can be provided to select and receive an antenna with the best reception state, it is possible to reduce a decrease in reception sensitivity due to an obstacle or the like.
[0039]
Further, by incorporating the antennas 15a, 15b, and 15c in the band portion 14 as wires, it is possible to deal with horizontal radio waves. Furthermore, it is possible to prevent the sensitivity of radio wave reception from decreasing by increasing the radius of the band unit 14 and separating the distance from the user's head. Furthermore, even when the user removes the band portion, the material of the band portion is an insulator, and the antenna is housed therein, so that the reception state is prevented from deteriorating due to the human body directly contacting the antenna 15. can do.
[0040]
Further, the present invention is not limited to the shape shown in FIG. 1 in which one band portion for connecting the left and right acoustic units is provided as in the above-described embodiment. The length of the antenna can be adjusted as appropriate, and an antenna corresponding to radio waves having various directivities of horizontal and vertical polarization can be incorporated by changing the shape of the band portion 14. Furthermore, although the number of antennas is three in the above-described embodiment, in the present invention, two or more antennas having different lengths can be provided as necessary.
[0041]
6 to 12 show modifications of the above embodiment. When the optimum antenna length Ln calculated for receiving a desired frequency band is longer than the band unit 14, a plurality of antennas 115 having different lengths are looped into the band unit 14 as shown in FIG. Can be built in. Note that only one antenna 115 in FIG. 6 is illustrated.
[0042]
Further, when the optimum antenna length Ln is longer than that of the band portion 14 or when the antenna length Ln is not reached even if it is looped, the antenna can be extended into the cord 12 and incorporated in the cord 12. is there. The antenna member can be extended in the band portion 14 to shorten the length of the antenna.
[0043]
As a result, depending on the frequency band to be received, the antenna can be made into a desired length by, for example, incorporating the antenna in a loop shape in the band section 14 or extending the antenna into the cord 12. For example, a good radio wave can be received even in a low frequency band, and a decrease in sensitivity can be prevented as compared with a case where a short antenna is incorporated.
[0044]
Moreover, as shown in FIG. 7, the number of band parts is not limited to one, and the headphone 50 with a built-in antenna connects the left and right acoustic units 53a and 53b, and a band part 54a that passes through the user's head, The left and right acoustic units 53a and 53b are connected to each other, and a band portion 54b that passes through the back of the user's head is provided. The band part 54a and the band part 54b attached in this way have an angle of approximately 90 °. By incorporating antennas 55a and 55b having different lengths in the band portions 54a and 54b, it is possible to stably receive radio waves in a wide frequency band, and to handle both horizontal and vertical polarized waves. Can be possible. Each band unit 54a and 54b may include not only one antenna but also a plurality of antennas having different lengths.
[0045]
Further, as shown in FIG. 8A, a plurality of rod-shaped antennas 65 having different lengths may be incorporated in the right, left, or left and right acoustic units 63. Further, as shown in FIG. 8B, a plurality of antennas 75 having different lengths can be incorporated in the right, left, or left and right acoustic units 73 in a coil shape. Further, the antenna 75 may be extended and built in the band portion 74. Thereby, the antenna length of the antenna 75 can be lengthened, and when the antenna is short and the reception sensitivity is lowered, the sensitivity reduction can be prevented. As described above, by incorporating the antenna in the acoustic unit, it is possible to cope with a headphone such as a so-called inner ear type which is a headphone having no band portion. That is, as shown in FIGS. 9A and 9B, a loop-shaped antenna 85 may be incorporated in the acoustic unit 83 of the inner-ear type headphone.
[0046]
Furthermore, as shown in FIG. 10, the acoustic unit 93 may be provided with a rod-like protrusion 96, and a plurality of antennas having different lengths may be incorporated in the protrusion 96. At this time, the housing portion 97 of the acoustic unit 93 in which the protruding portion 96 is formed is configured to be rotatable, so that the protruding portion 96 is directed to a position where the reception condition is the best, and reception sensitivity can be improved. In the present invention, a plurality of antennas having different lengths are provided, but only one antenna is shown in FIGS.
[0047]
In addition, as shown in FIG. 11, the sound unit 103 may be provided with protruding portions 106 having an angle of approximately 90 ° with each other. The projecting portion 106 includes a projecting portion 106a extending in the horizontal direction and a projecting portion 106b extending in the vertical direction. By incorporating an antenna in the projecting portions 106a and 106b, it is possible to cope with both vertical and horizontal polarized waves. it can. In this way, a plurality of protrusions can be provided for the left and right acoustic units as needed, and antennas are built in these protrusions, and the antenna having the highest reception sensitivity is selected depending on the reception state of these antennas. be able to. Also, in the headphones shown in FIGS. 10 and 11, it is possible to adjust the antenna length by, for example, incorporating the antenna into a sound unit in a loop shape or by further extending the antenna into the band portion. .
[0048]
Furthermore, when the projecting portion is also provided as shown in FIGS. 10 and 11, when the projecting portion with the built-in antenna becomes obstructive or unnecessary, such as when carrying, the housing 117 of the acoustic unit 113 is used as shown in FIG. And a connecting portion 118 for connecting each antenna 115 built in the protruding portion 116, and radio waves received by each antenna via this connecting portion 118 are transmitted to an external device. It is good also as a structure which can be attached or detached.
[0049]
Note that a control circuit or the like that switches the antenna depending on the reception state may not be provided in the external device to which the headphones are connected, but may be incorporated in, for example, an acoustic unit of the headphones.
[0050]
If a rod antenna is used, the antenna length can be optimized for the frequency used by the user and the sensitivity can be improved.
[0051]
【The invention's effect】
As described above in detail, the antenna-equipped headphone according to the present invention is connected to an external device having a radio signal reception function or a transmission function, and has a plurality of different lengths used for radio wave reception. Since each antenna has a built-in antenna, each antenna has different reception sensitivity characteristics, can receive radio waves of a wide range of frequencies, and can complement each other's reception sensitivity characteristics. The reception state does not change due to slight movement and wind, and the reception state is extremely stable.
[0052]
In addition, a signal receiving device according to the present invention includes an external device having a radio signal receiving function or a transmitting function, and a headphone with a built-in antenna in which a plurality of antennas having different lengths used for radio wave reception are incorporated. The external device includes a selection unit that selects any one of the plurality of antennas, a reception unit that outputs a video signal from a radio signal received by the antenna selected by the selection unit, and the selection A plurality of level detection means connected to the means for detecting the antenna having the highest electric field strength and a control section for controlling the selection means so as to select the antenna detected by the level detection means. Detects the radio signal with the best reception state according to the frequency among the radio signals received by each antenna, and complements the reception sensitivity characteristics of each antenna. Ukoto can, can be extremely stably receive the radio signal.
[Brief description of the drawings]
FIG. 1 is a schematic view showing a headphone with a built-in antenna according to an embodiment of the present invention.
FIGS. 2A and 2B are schematic views showing enlarged cords and coaxial cables, respectively.
FIG. 3 is a block diagram showing a signal receiving circuit of the signal receiving apparatus according to the embodiment of the present invention.
FIG. 4 is a block diagram showing a modification of the signal receiving circuit of the signal receiving apparatus in the embodiment of the present invention.
FIG. 5 is a graph schematically showing sensitivity characteristics of antennas having different lengths, with the horizontal axis representing frequency and the vertical axis representing reception sensitivity.
FIG. 6 is a schematic diagram showing a headphone that incorporates a loop-shaped antenna in a band portion.
FIG. 7 is a schematic diagram showing another example of the headphones with a built-in antenna.
FIG. 8 is a schematic diagram showing another example of a headphone with a built-in antenna.
FIG. 9 is a schematic diagram showing another example of a headphone with a built-in antenna.
FIG. 10 is a schematic diagram showing another example of a headphone with a built-in antenna.
FIG. 11 is a schematic diagram showing another example of a headphone with a built-in antenna.
FIG. 12 is a schematic diagram showing another example of a headphone with a built-in antenna.
[Explanation of symbols]
1 Headphone with built-in antenna, 11 plug, 12 cord, 13a, 13b sound unit, 14 band section, 15a, 15b, 15c antenna, 21-24 antenna connection section, 25 selection section, 26 control circuit, 27 TV tuner, 28 antenna Selection signal, 29 RF signal, 30 video signal, 31 video signal processor

Claims (5)

A headphone with a built-in antenna connected to a portable television receiver,
A right acoustic unit and a left acoustic unit to which an audio signal is supplied; and
A band portion connecting the right acoustic unit and the left acoustic unit;
A plurality of antennas comprising a wire adjusted to a length of 1 / N (N is a natural number) of a wavelength of a center frequency of a receiving frequency band, which is a television receiving antenna built in the band unit ;
A cord comprising an acoustic cord connected to each of the right acoustic unit and the left acoustic unit, an antenna coaxial cable connected to each of the plurality of antennas, and a tube member that combines the acoustic cord and the coaxial cable. And
A plug portion provided at an end of the cord portion, for connecting the acoustic cord and the antenna coaxial cable to a predetermined functional portion of the portable television receiver;
Built-in antenna headphones, characterized in that it comprises a. The portable television receiver selection means for selecting one of the radio signals received by a plurality of the antenna, outputs a video signal from a radio signal the selection means is received by the selected antenna Receiving means, level detecting means for detecting the antenna having the highest electric field strength connected to the selecting means, and control means for controlling the selecting means so as to select the antenna detected by the level detecting means. The headphone with a built-in antenna according to claim 1 . The headphone with a built-in antenna according to claim 2 , wherein the control means includes a diversity processing unit that switches the antenna by comparing the reception state of the antenna. A right acoustic unit and a left acoustic unit to which an audio signal is supplied, a band unit connecting the right acoustic unit and the left acoustic unit, and a television receiving antenna built in the band unit for receiving. A plurality of antennas made of wire materials adjusted to a length of 1 / N (N is a natural number) of the wavelength of the center frequency of the frequency band, and an acoustic cord connected to the right acoustic unit and the left acoustic unit, The antenna coaxial cable connected to each of the plurality of antennas, a cord portion composed of a tube member that collects the acoustic cord and the coaxial cable, and provided at an end of the cord portion, the acoustic cord and the A headphone with a built-in antenna having a plug portion for connecting the antenna coaxial cable to a predetermined functional portion;
Selecting means for selecting any one of the plurality of antennas;
Receiving means for outputting a video signal from a radio signal received by the antenna selected by the selecting means;
Level detection means for detecting the antenna having the highest electric field strength connected to the selection means;
Control means for controlling the selection means so as to select the antenna detected by the level detection means;
A portable television receiver, comprising: 5. The portable television receiver according to claim 4, wherein the control means includes a diversity processing unit that switches the antennas by comparing the reception states of the antennas.

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