JP2009296485A - Antenna device and plug device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To configure an antenna device by effectively utilizing a cable for transmitting an audio signal to an earphone, and to appropriately eliminate a high-frequency component superimposed on an audio signal line. <P>SOLUTION: A resin sealed portion of a multi-pole plug at a terminal of an earphone antenna cable includes a high-frequency component-eliminating part containing ferrite equally of or more than a predetermined ratio and a high-frequency component non-eliminating part not containing ferrite. The high-frequency component-eliminating part containing ferrite eliminates a high-frequency component superimposed on a passing signal line by high-frequency absorption characteristics of ferrite. The high-frequency component-eliminating part constituted of a ferrite-containing resin can pass an audio signal without passing it since the DC resistance of the high-frequency component-eliminating part in a low frequency domain is low. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an antenna device and a plug device for receiving a broadcast wave, and more particularly to an antenna device and a plug device for receiving a broadcast signal such as terrestrial digital broadcasting in a portable device used by being worn on a human body.

  More particularly, the present invention relates to an antenna device and a plug device configured by utilizing a cable for transmitting an audio signal to an earphone, for example, an antenna device that simultaneously satisfies good antenna characteristics in both the VHF band and the UHF band. And a plug device.

  From December 1, 2003, terrestrial digital broadcasting services using the terrestrial UHF band (470 MHz to 890 MHz) were started in the three large areas of Kanto, Kinki, and Chukyo. Also, terrestrial digital broadcasting is a broadcasting system that transmits a 6 megahertz band divided into 13 segments, but with only one segment in the middle, video, audio, A one-segment partial reception service for distributing data, that is, “One Seg” has been started on Saturday, April 1, 2006.

  In addition, terrestrial digital radio broadcasting has been started on October 10, 2003. One of the distribution methods of terrestrial digital radio broadcasting is 3-segment compatible digital broadcasting, in which the current VHF band 7 channels (188 MHz to 200 MHz) are divided into 8 segments, and 3 channels constitute 1 channel. . According to this system, various services such as voice, simple moving image, and data broadcasting are possible.

  At present, a wide variety of receiving terminals such as mobile phones, car navigation systems, personal computers, and dedicated portable TVs are appearing in order to use broadcasting services such as 1Seg and digital radio outdoors or on the go. When terrestrial digital broadcasting for portable devices becomes widespread, it is necessary to flexibly support various viewing modes and ensure high-sensitivity reception performance. In particular, when a portable device is equipped with multiple tuners having different required frequency bands, such as FM radio broadcasting using the VHF band and terrestrial digital TV broadcasting using the UHF band, the configuration method of the receiving antenna is 1. We believe that this is one important technical issue.

  It is known in the industry to use an earphone cable as a wire antenna for a portable wireless device by coupling the earphone cable with an antenna circuit. According to this type of earphone antenna, a broadcast receiving antenna with high portability can be realized with a relatively simple configuration, and it does not obstruct the requirements of light weight, small size, portability, and is inconspicuous An antenna can be mounted.

  For example, when the cord that connects the earphone / microphone and the mobile phone is composed of a parallel two-core cable consisting of a pair of an acoustic signal line and a ground line, the entire earphone cable can be used as an antenna by using the ground line as an antenna. The proposed earphone / microphone has been proposed (for example, see Patent Document 1).

  Further, an earphone antenna that functions as a dipole antenna and can obtain a high gain over a wide band has been proposed (for example, see Patent Document 2). This earphone antenna is composed of a shielded cable having one end connected to the radio main body via a multipolar connector and an earphone cable connected to the other end of the shielded cable via a connection block. The earphone cable is composed of two signal lines with insulation coating that supply audio signals to the earphone. In addition, the shielded cable is insulated on the outer side of the coaxial signal line that covers the center conductor that passes the high-frequency signal with an insulator and then with the shield line, and the signal line and the ground line that are covered with the insulation. It has a structure covered with a shield wire through a material. The signal line for the audio signal and the ground line are connected to the earphone cable via a high-frequency choke that has a low impedance in the frequency domain of the audio signal and a high impedance in the frequency domain of the high-frequency signal. It is formed. On the other hand, as an earphone antenna, an earphone cable and a shielded cable covering the shielded cable are connected to a coaxial line via a balun, and the earphone cable and the shielded cable are used as an aerial line, and the line length resonates. Each of the lengths is adjusted so as to receive 100 MHz in the VHF band.

  The center conductor of the coaxial cable in the shielded cable is connected to one signal line of the earphone cable, and the earphone is connected via a capacitor that has a high impedance in the frequency domain of the audio signal and a low impedance in the frequency domain of the high frequency signal. • Connect to the other signal line of the cable. The signal line for the audio signal on the shielded cable side is connected to the two signal lines on the earphone cable side via a high frequency choke that has a low impedance in the frequency domain of the audio signal and a high impedance in the frequency domain of the high frequency signal. Thus, a transmission path for the audio signal is formed. On the other hand, a sleeve antenna structure that resonates with the length of the line by connecting the coaxial cable in the shielded cable and the shielded cable that covers the outside of the audio signal line to the ground, and using the earphone cable and shielded cable as an aerial line Each of the lengths is adjusted so that 100 MHz in the VHF band can be received (see, for example, Patent Document 3).

  FIG. 6 shows an operation example of the earphone antenna constituting the monopole antenna. The monopole antenna is a basic antenna configuration that looks like an antenna conductor standing vertically on a conductor plate. In this case, the receiving operation is performed by an electric field formed by a monopole antenna constituted by an antenna element cable and a receiving terminal body.

  FIG. 7 shows an operation example of the earphone antenna constituting the sleeve antenna. The sleeve antenna has a structure in which a monopole antenna is covered with a cylindrical sleeve. In this case, the receiving operation is performed by an electric field formed by the sleeve antenna constituted by the earphone cable and the antenna element cable and the receiving terminal body.

  In any of FIGS. 6 and 7, since the high-frequency digital broadcast signal received as an antenna is superimposed on the audio signal line connected to the receiving terminal main body in addition to the audio signal, In general, an inductor such as a ferrite bead (FB) is loaded on each signal line in order to cut off the components. However, as shown in FIG. 8, when a high frequency cutoff inductor is loaded on the audio signal line in the receiving terminal body, as shown in FIG. 9, the inductor that cuts the high frequency from the connector for connecting the antenna cable is used. Depending on the wiring arrangement up to this point, a coupling action may occur due to parasitic capacitance with the high frequency ground, which may lead to deterioration of the high frequency characteristics. For example, when the pattern from the audio signal line to cut the high frequency component is wired using the inner layer pattern of the receiving terminal body, or the inductor used for cutting the high frequency component is arranged away from the connector of the receiving terminal body In such a case, the pattern is combined with the high-frequency ground, causing transmission loss or impedance mismatch, and degrading the antenna characteristics of the earphone antenna. In addition, the antenna characteristics vary greatly because the arrangement of components for blocking high-frequency components changes each time the design of the receiving terminal main body changes.

  In addition, an inductor for cutting off high frequency such as ferrite beads acts as a direct current resistance in a low frequency range through which the audio signal passes, and thus may deteriorate the audio signal due to attenuation. That is, by sharing the earphone cable with the hole hand dish, the original performance of the earphone is hindered.

  For example, by placing chip beads for high-frequency cutoff on a printed circuit board built in a plug for mounting an antenna cable to a jack on the receiving terminal side (see, for example, Patent Document 4) Since the high-frequency component is removed from the audio signal before the terminal, the problem of high-frequency ground coupling in the receiving terminal is solved. However, since the chip beads loaded on the audio signal line act as a direct current resistance in a low frequency region where the audio signal passes, there is still a possibility that the audio signal is deteriorated due to attenuation.

JP 2005-354275 A JP 2005-333613 A JP 2005-348252 A JP 2007-188723 A

  An object of the present invention is to provide an excellent antenna device and a plug device that are preferably configured using a cable for transmitting an audio signal to an earphone.

  A further object of the present invention is to provide an excellent antenna device and plug device that is configured by utilizing a cable that transmits an audio signal to an earphone and that can suitably remove a high-frequency component superimposed on the audio signal line. It is to provide.

The present invention has been made in consideration of the above problems,
An antenna cable comprising a plurality of signal lines including a signal line for transmitting an audio signal, and a signal line fed with a high-frequency signal and acting as an antenna;
At one end of the antenna cable, a multipolar jack that receives a multipolar plug on the earphone side and assigns the audio signal to each pin of the multipolar plug;
At the other end of the antenna cable, it is received by a multi-pole jack on the receiving terminal body side, each signal line included in the antenna cable is connected to a corresponding plug pin, and a ferromagnetic material such as ferrite is predetermined. High-frequency component removal part that is sealed with a resin that contains more than a ratio and removes high-frequency components from transmission signals, and a high-frequency component non-removal part that is sealed with a resin that does not contain a ferromagnetic material such as ferrite and does not remove high-frequency components A multi-pole plug with
An antenna device comprising:

  When terrestrial digital broadcasting for portable devices becomes widespread, it is necessary to flexibly support various viewing modes and ensure high-sensitivity reception performance, and a configuration method of a reception antenna becomes one important technical problem. In the industry, an earphone antenna is known in which an earphone cable is combined with an antenna circuit and the earphone cable is used as a wire antenna of a portable wireless device. The earphone antenna is configured as, for example, a monopole antenna or a sleeve antenna, but in any case, it is necessary to block the high-frequency digital broadcast reception signal superimposed on the audio signal line connected to the receiving terminal body. is there.

  In contrast, the antenna device according to the present invention is configured as an earphone antenna cable, and the multipolar plug at the end of the cable includes a high-frequency component removing unit that removes a high-frequency component from a transmission signal, and a high-frequency component. It is composed of a high-frequency component non-removal portion that is not removed.

  In general, a multipolar plug is sealed with a resin such as polypropylene in order to fix a connected signal line and maintain reliability against mechanical loads such as pulling and bending. In the antenna device according to the present invention, the resin-encapsulated portion of the multipolar plug includes a high-frequency component removing portion that contains ferrite in a predetermined ratio or more and a high-frequency component non-removing portion that does not contain ferrite.

  Here, the high frequency component removing unit containing ferrite can remove the high frequency component superimposed on the signal line passing therethrough due to the high frequency absorption characteristics of the ferrite. Therefore, the audio signal line in the signal line group included in the antenna cable is connected to each plug pin through the high-frequency component removing unit of the multipolar plug. On the other hand, since the high-frequency component non-removal part does not contain ferrite, the signal line on which the antenna reception signal is superimposed (the high-frequency signal is fed) passes through the high-frequency component non-removal part to the corresponding plug pin. By connecting, it is possible to supply to the tuner circuit on the receiving terminal side without being attenuated.

  The high frequency component removing portion made of a resin containing ferrite has a low DC resistance in a low frequency region as compared with an inductor component such as a ferrite bead. Therefore, the sound signal can be passed without being attenuated, and even if the sound signal is shared with the antenna, the original performance of the earphone is not hindered. In addition, since there is no mounting process for chip parts such as ferrite beads when manufacturing multipolar plugs, it can contribute to cost reduction in terms of mounting cost, quality cost, reduction of mounting parts, mounting space, etc. .

  In addition, the arrangement of the high-frequency component removing portion in the multipolar plug also serves as a molding of the plug. Therefore, the air gap is eliminated, and the design is expected to improve along with the performance improvement. Such a configuration method of the high-frequency component removing unit is not easily affected by the circuit pattern on the receiving terminal body side, so that variations in characteristics of each terminal product can be reduced and characteristics of a high-frequency region such as a UHF pair can be reduced. Will improve. Further, when applied to a sleeve antenna, it is resistant to set noise.

  ADVANTAGE OF THE INVENTION According to this invention, the outstanding antenna apparatus and plug apparatus suitably comprised using the cable which transmits an audio | voice signal to an earphone can be provided.

  In addition, according to the present invention, an excellent antenna device and plug device that are configured using a cable that transmits an audio signal to an earphone and that can suitably remove a high-frequency component superimposed on the audio signal line. Can be provided.

  The antenna device according to the present invention is configured as an earphone antenna that doubles as an earphone cable, but in a multipolar plug, a high-frequency component superimposed on an audio signal using a high-frequency component removing unit made of resin containing ferrite is used. Since it is removed, the audio signal is not attenuated, and the original performance of the earphone is not hindered. In addition, since there is no mounting process for chip parts such as ferrite beads when manufacturing multipolar plugs, it can contribute to cost reduction in terms of mounting cost, quality cost, reduction of mounting parts, mounting space, etc. .

  In addition, the arrangement of the high-frequency component removing portion in the multipolar plug also serves as a molding of the plug. Therefore, the air gap is eliminated, and the design is expected to improve along with the performance improvement. Such a configuration method of the high-frequency component removing unit is not easily affected by the circuit pattern on the receiving terminal body side, so that variations in characteristics of each terminal product can be reduced and characteristics of a high-frequency region such as a UHF pair can be reduced. Will improve. Further, when applied to a sleeve antenna, it is resistant to set noise.

  Other objects, features, and advantages of the present invention will become apparent from more detailed description based on embodiments of the present invention described later and the accompanying drawings.

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

  FIG. 1 schematically shows a basic configuration of an antenna element portion of an antenna apparatus to which the present invention is applied. The illustrated antenna part is composed of two parts, an earphone cable and an antenna element cable. The earphone has a multipolar plug at the base end, and this multipolar plug is at the tip of the antenna element cable. A relay board including a multi-pole jack for receiving the signal is disposed. Further, the base end of the antenna element cable is constituted by a multipolar plug and can be inserted into a multipolar jack of a receiving terminal (described later) equipped with a tuner.

  FIG. 2 shows an example of the antenna device shown in FIG. 1 and its peripheral circuit configuration.

  The earphone antenna cable is configured by bundling two audio signal lines for supplying audio signals to the left and right earphones and three parallel signal lines called ground lines.

  A relay board including a multipolar jack for receiving a multipolar plug of the earphone cable is disposed at the tip of the earphone antenna cable. In the relay board, the ground line and the right and left audio signal lines are assigned to pins # 1, # 2, and # 3 of the three-pole plug, respectively. In some cases, the relay board has a high-frequency signal superimposed on the left and right audio signal lines connected to the pins # 1 and # 2 of the three-pole plug and needs to be removed.

  Further, a multipolar plug that is received by a multipolar jack on the receiving terminal main body side is disposed at the end of the earphone antenna cable. The multipolar plug includes a high frequency component removing unit that removes a high frequency component from the transmission signal and a high frequency component non-removing unit that does not remove the high frequency component. In the illustrated example, the audio ground signal also serves as an antenna, and a high frequency signal is supplied. Therefore, the audio ground signal line passes through the high-frequency component non-removal portion of the multipolar plug and transmits the RF signal received by the antenna to the receiving terminal side. On the receiving terminal side, the RF signal component is separated from the audio ground signal and supplied to the tuner, and the high frequency component is removed from the original audio ground signal by an inductor such as a ferrite bead (FB) and then input to the audio processing circuit. To do. On the other hand, signal lines other than the audio ground signal pass through the high-frequency component removing unit in the multipolar plug. Therefore, since the high frequency component is removed from the audio signal before the receiving terminal, the problem of high frequency ground coupling in the receiving terminal is solved.

  FIG. 3 shows another configuration example of the earphone / antenna / cable. The illustrated earphone antenna cable is constituted by a coaxial cable in which three parallel signal lines consisting of left and right audio signals and audio ground signals are covered with an inner insulator and further covered with an outer conductor. Further, the insertion through the earphone / antenna / cable is not limited to the above-described audio signal and audio ground signal, but can include a microphone signal, a switch signal of a wired remote controller, or other DC signals. For example, a shielded cable disclosed in Japanese Patent Application Laid-Open No. 2005-122937 can be used as an earphone antenna cable body. This type of coaxial cable has a characteristic impedance of 75Ω or 50Ω with little attenuation, has a structure that does not interfere with low-frequency signals and high-frequency signals, and meets the criteria for predetermined bending characteristics. The present inventors consider that the antenna element cable is also suitable.

  A relay board including a multipolar jack for receiving a multipolar plug of the earphone cable is disposed at the tip of the earphone antenna cable. In the relay board, the ground line and the right and left audio signal lines are assigned to pins # 1, # 2, and # 3 of the three-pole plug, respectively. In some cases, the relay board has a high-frequency signal superimposed on the left and right audio signal lines connected to the pins # 1 and # 2 of the three-pole plug and needs to be removed.

  At the end of the earphone antenna cable, a multipolar plug that is received by the multipolar jack on the receiving terminal main body side is disposed. Each signal line in the earphone / antenna / cable is connected to a corresponding plug / pin on the connection board. Further, the connection substrate is configured by a resin-sealed high-frequency component removing unit that removes a high-frequency component from a transmission signal and a high-frequency component non-removing unit that does not remove the high-frequency component. In the example shown in the drawing, the outer conductor made of a braided shield also serves as an antenna and is fed with a high-frequency signal. Therefore, the high-frequency signal line connected to the outer conductor passes through the high-frequency component non-removal portion of the multipolar plug and supplies the RF signal received by the antenna to the tuner on the receiving terminal side. On the other hand, each signal line included in a coaxial cable such as an audio signal passes through the high-frequency component removing unit in the multipolar plug. Therefore, since the high frequency component is removed from the audio signal before the receiving terminal, the problem of high frequency ground coupling in the receiving terminal is solved.

  4 and 5 show a configuration method of a multipolar plug including a high-frequency component removing unit that removes a high-frequency component from a transmission signal and a high-frequency component non-removing unit that does not remove the high-frequency component.

  As shown in FIG. 4, a plurality of plug pins on the multipolar plug side appear on the surface of the connection board through through holes (not shown), and a printed circuit board is mounted thereon. In addition, a signal line from which the earphone / antenna / cable is taken out is connected by soldering or the like.

  In addition, the surface of the connection substrate is sealed with a resin such as polypropylene in order to fix the connected signal lines and maintain reliability against mechanical loads such as pulling and bending. In this embodiment, the resin-encapsulated portion of the connection board includes a high-frequency component removing portion that contains ferrite in a predetermined ratio or more and a high-frequency component non-removing portion that does not contain ferrite. The high frequency component removing unit containing ferrite removes the high frequency component superimposed on the signal line passing therethrough due to the high frequency absorption characteristics of the ferrite. On the other hand, since the high frequency component non-removal unit does not contain ferrite, the signal line on which the antenna reception signal is superimposed can be supplied to the tuner on the receiving terminal side through the high frequency component non-removal unit.

  The high frequency component removal part made of resin containing ferrite has low DC resistance in the low frequency range compared to inductor parts such as ferrite beads, so it can pass the audio signal without attenuation, and the antenna Even if it is shared with the earphone, it does not hinder the original performance of the earphone. In addition, since there is no mounting process for chip parts such as ferrite beads when manufacturing multipolar plugs, it can contribute to cost reduction in terms of mounting cost, quality cost, reduction of mounting parts, mounting space, etc. .

  In the configuration example shown in FIG. 5, the provision of the high-frequency component removing unit in the multipolar plug also serves as a plug molding. Therefore, the air gap is eliminated, and the design is expected to improve along with the performance improvement. Such a configuration method of the high-frequency component removing unit is less susceptible to the influence of the circuit pattern on the receiving terminal body side, so that variation in characteristics of each terminal product can be reduced and characteristics of a high-frequency region such as a UHF pair can be reduced. Will improve. Further, when applied to a sleeve antenna, it is resistant to set noise.

  The present invention has been described in detail above with reference to specific embodiments. However, it is obvious that those skilled in the art can make modifications and substitutions of the embodiment without departing from the gist of the present invention. That is, the present invention has been disclosed in the form of exemplification, and the contents described in the present specification should not be interpreted in a limited manner. In order to determine the gist of the present invention, the claims should be taken into consideration.

FIG. 1 is a diagram schematically showing a basic configuration of an antenna element portion of an antenna device to which the present invention is applied. FIG. 2 is a diagram showing an example of the circuit configuration of the antenna device shown in FIG. 1 and its periphery. FIG. 3 is a diagram showing another configuration example of the earphone / antenna / cable. FIG. 4 is a diagram for explaining a configuration method of a multipolar plug including a high-frequency component removing unit that removes a high-frequency component from a transmission signal and a high-frequency component non-removing unit that does not remove a high-frequency component. FIG. 5 is a diagram for explaining a configuration method of a multipolar plug including a high-frequency component removing unit that removes a high-frequency component from a transmission signal and a high-frequency component non-removing unit that does not remove a high-frequency component. FIG. 6 is a diagram illustrating an operation example of the earphone antenna constituting the monopole antenna. FIG. 7 is a diagram illustrating an operation example of the earphone antenna constituting the sleeve antenna. FIG. 8 is a diagram showing a state in which an inductor for high-frequency cutoff is loaded on the audio signal line in the receiving terminal main body. FIG. 9 is a diagram showing a state in which an inductor for high-frequency cutoff is loaded on the audio signal line in the receiving terminal main body.

Claims (6)

An antenna cable comprising a plurality of signal lines including a signal line for transmitting an audio signal, and a signal line fed with a high-frequency signal and acting as an antenna;
At one end of the antenna cable, a multipolar jack that receives a multipolar plug on the earphone side and assigns the audio signal to each pin of the multipolar plug;
At the other end of the antenna cable, it is received by a multi-pole jack on the receiving terminal body side, each signal line included in the antenna cable is connected to a corresponding plug pin, and a ferromagnetic material such as ferrite is predetermined. High-frequency component removal part that is sealed with a resin that contains more than a ratio and removes high-frequency components from transmission signals, and a high-frequency component non-removal part that is sealed with a resin that does not contain a ferromagnetic material such as ferrite and does not remove high-frequency components A multi-pole plug with
An antenna device comprising: Corresponding to signal lines that act as antennas when high-frequency signals are fed from the antenna cable through the high-frequency component non-removal part sealed in the multipolar plug with a resin that does not contain a ferromagnetic material such as ferrite. Connected to the plug pin
Other signal lines included in the antenna cable are plugged in the multipolar plug via a high-frequency component removing portion sealed with a resin containing a ferromagnetic material such as ferrite in a predetermined ratio or more. Connect to pins,
The antenna device according to claim 1. The antenna cable is composed of a coaxial cable in which three parallel signal lines consisting of left and right audio signals and audio ground signals are covered with an inner insulator and covered with an outer conductor, and the outer conductor is a high frequency The signal is fed and the antenna is also used.
In the multipolar plug, the outer conductor is connected to a corresponding plug pin through a high-frequency component non-removal portion sealed with a resin not containing a ferromagnetic material such as ferrite,
Other signal lines included in the antenna cable are connected to the corresponding plug pins through the high-frequency component non-removal portions sealed with a resin not containing a ferromagnetic material such as ferrite in the multipolar plug. To
The antenna device according to claim 1. In addition to the audio signal and the audio ground signal, a microphone signal, a wired remote control switch signal, or other DC signal is inserted into the antenna cable.
The antenna device according to claim 3. A plurality of signal lines are connected to the corresponding plugs and pins, sealed with a resin containing a ferromagnetic material such as ferrite in a predetermined ratio or more, and a high frequency component removing unit that removes high frequency components from the transmission signal, ferrite, etc. A high-frequency component non-removal portion that is sealed with a resin that does not contain a ferromagnetic material and does not remove high-frequency components
A plug device characterized by that. A signal line that is fed with a high-frequency signal and acts as an antenna is connected to the corresponding plug pin through a high-frequency component non-removal portion sealed with a resin that does not contain a ferromagnetic material such as ferrite,
Other signal lines are connected to corresponding plug pins through high-frequency component removal sections sealed with a resin containing a ferromagnetic material such as ferrite in a predetermined ratio or more,
The plug device according to claim 4.