JP2008244547A - Antenna and radio device using it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an antenna for which antenna characteristics at a plurality of frequencies are improved, and a radio device using it. <P>SOLUTION: In the case that there are a plurality of transmission/reception antenna elements corresponding to a plurality of bands, a plurality of feed points are provided and reactance components are loaded on the feed point on a non-selection side (terminating end on the side not in use). Thus, the influence of the antenna elements on each other is reduced and the degradation of the antenna characteristics is prevented. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an antenna and a radio using the antenna.

Multi-band mobile radios are advancing. For this reason, antennas that cover a plurality of frequency bands have been developed, and radio devices and antenna switching circuits using the antennas have also been developed (see, for example, Patent Documents 1 and 2).
JP-A-7-202774 JP 2000-216716 A

By the way, multiband multiport antennas with feeding points for each frequency are being studied, but the antenna characteristics deteriorate due to the influence of each other's antenna elements or feeding points. There is a need to reduce.
Therefore, an object of the present invention is to provide an antenna with improved antenna characteristics at a plurality of frequencies and a radio using the antenna.

  In order to solve the above-mentioned problem, the invention described in claim 1 is characterized in that it corresponds to a plurality of different bands, has a plurality of feeding points, and loads a reactance component to a feeding point on the non-selection side. To do.

  According to the first aspect of the present invention, the reactance component is loaded on the non-selection-side feeding point corresponding to different bands and having a plurality of feeding points. This can be reduced and deterioration of antenna characteristics can be prevented.

  The invention according to claim 2 is connected to each of the antenna elements respectively corresponding to a plurality of different bands, the plurality of changeover switches whose common contact is connected to the feeder of each antenna element, and one contact of each of the changeover switches. A reactance element and a feeding point connected to the other contact of each of the changeover switches.

  According to the second aspect of the present invention, the antenna elements respectively corresponding to a plurality of different bands, the plurality of change-over switches whose common contacts are connected to the feeders of the respective antenna elements, and one contact of each of the change-over switches, By including the connected reactance element and the feed point connected to the other contact of each changeover switch, the influence between the antenna elements can be reduced, and the deterioration of the antenna characteristics can be prevented.

  A third aspect of the invention is characterized in that, in the first or second aspect of the invention, a plurality of antenna elements and feeding points are integrally formed in one molded product.

  According to the invention described in claim 3, a compact antenna with improved antenna characteristics can be obtained by integrally forming a plurality of antenna elements and feeding points in one molded product.

  According to a fourth aspect of the present invention, there is provided a wireless device including the antenna according to any one of the first to third aspects.

  According to a fifth aspect of the present invention, in the fourth aspect of the invention, the display unit side body and the operation unit side body are of a folding type that can be opened and closed via a hinge.

  According to the fifth aspect of the present invention, a compact wireless device with improved antenna characteristics can be obtained because the display unit side case and the operation unit side case are foldable that can be opened and closed via hinges. It is done.

  According to a sixth aspect of the invention, in the fourth aspect of the invention, the display unit side housing and the operation unit side housing are slidable.

  According to the sixth aspect of the present invention, a compact wireless device with improved antenna characteristics can be obtained because the display unit side case and the operation unit side case are slidable.

  According to the present invention, when there are a plurality of transmission / reception antenna elements corresponding to a plurality of different bands, a reactance component is loaded on a non-selection-side power supply point (a terminal on an unused side) having a plurality of power supply points. By doing so, the influence between antenna elements can be reduced, and deterioration of antenna characteristics can be prevented.

  An embodiment of the antenna according to the present invention is characterized in that it corresponds to a plurality of different bands, has a plurality of feeding points, and loads a reactance component to a feeding point on the non-selection side.

According to the above configuration, the influence of the antenna elements can be reduced by supporting a plurality of different bands, having a plurality of feeding points, and loading a reactance component at the feeding point on the non-selection side. It is possible to prevent deterioration of antenna characteristics.
Here, the reactance component is a reactance obtained by various capacitors or coils or a combination thereof, and includes a capacitive reactance and an inductive reactance.
Examples of the antenna element include various antenna elements such as a whip type, an inverted L type, an inverted F type, a monopole type, a meander type (zigzag type), a helical type, and a slot antenna type obtained by punching a part of a sheet metal.

Another embodiment of the antenna according to the present invention includes an antenna element corresponding to each of a plurality of different bands, a plurality of change-over switches whose common contacts are connected to a feeder of each antenna element, and one contact of each change-over switch A reactance element connected to each of the (non-selection-side feeding points) and a matching unit connected to the other contact (selection-side feeding point) of each changeover switch are provided.
Here, the reactance element refers to a capacitor, a coil, or a combination thereof.
For example, a single pole double throw type changeover switch is used as the changeover switch, depending on the type of antenna (dipole antenna, switchback dipole antenna, Yagi / Uda antenna, Lombic antenna, squarero antenna, cubic quad antenna, etc.) Alternatively, a double pole double throw type changeover switch may be used.

  According to the above configuration, the influence between antenna elements can be reduced, and antenna characteristics (SWR (Standing Wave Ratio), FB (Front Back) ratio, directivity, gain, return loss, radiation efficiency) Can be prevented.

  Another embodiment of the antenna according to the present invention is characterized in that, in addition to the above configuration, a plurality of antenna elements and feeding points are integrally formed in one molded product.

  According to the above configuration, a compact antenna can be obtained by integrally forming a plurality of antenna elements and feeding points in one molded product.

One embodiment of a wireless device according to the present invention is characterized by including an antenna having any one of the above-described configurations.
Here, examples of the wireless device include a mobile phone, a PDA (Personal Digital Assistants), and a communication game machine.

  Another embodiment of the wireless device according to the present invention is characterized in that, in addition to the above configuration, the display unit side body and the operation unit side body are foldable and openable via hinges.

  According to the above configuration, a compact wireless device with improved antenna characteristics can be obtained because the display unit side body and the operation unit side body are foldable that can be opened and closed via hinges.

  Another embodiment of the wireless device according to the present invention is characterized in that, in addition to the above configuration, the display unit side body and the operation unit side body are slidable.

  According to the above configuration, a compact wireless device with improved antenna characteristics can be obtained because the display unit side case and the operation unit side case are slidable.

  In other words, the present invention is characterized in that a reactance component is provided at a feeding point other than the selected frequency, thereby reducing the mutual influence and improving the antenna characteristics.

  The above-described embodiment shows an example of a preferred embodiment of the present invention, and the present invention is not limited thereto, and various modifications can be made without departing from the scope of the invention. is there.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing an embodiment of the periphery of an antenna according to the present invention.
The antenna shown in the figure is a multiband multiport antenna having a feeding point for each frequency. In the figure, N antenna elements 1-1 to 1-i to 1-N (N is a natural number) corresponding to a plurality of bands and N unselected feeding points 2-1a to 2-ia to 2-Na. And N selection-side feed points 2-1b to 2-ib to 2-Nb.

  That is, in FIG. 1, the feeder of the antenna element 1-1 is connected to the common contact of the single-pole double-throw changeover switch 2-1, and one contact of the single-pole double-throw changeover switch 2-1. The reactance element jX1 (3-1) is connected to the point (upper side in the figure), and the matching device MC (the lower side in this case) is connected to the matching device MC (3-1). One end (the left side of the figure) of Matching Circuit) 4-1 is connected. The other end of matching unit MC4-1 (in this case, the right side) is connected to antenna switch 5.

  The feeder of the antenna element 1-i is connected to a common contact of the single pole double throw type changeover switch 2-i, and one contact of the single pole double throw type changeover switch 2-i (non-selection side feeding point: upper side in the figure) The reactance element jXi (3-i) is connected to the other end of the single-pole double-throw type changeover switch 2-i (selection-side feeding point: in this case, the lower side), and one end of the matching device MC4-i (shown in the figure). Left side) is connected. The other end (in this case, the right side) of matching unit MC4-i is connected to antenna switch 5.

  Similarly, the feeder of the antenna element 1-N is connected to the common contact of the single pole double throw type changeover switch 2-N, and one contact of the single pole double throw type changeover switch 2-N (non-selection side feeding point: FIG. The upper side) is connected to the reactance element jXN (3-N), and one end of the matching device MC4-N is connected to the other contact of the single-pole double-throw type changeover switch 2-N (selection-side feeding point: lower side in this case). (Left side of the figure) is connected. The other end (in this case, the right side) of matching unit MC4-N is connected to antenna switch 5.

The antenna switch 5 is a diode switch, but the present invention is not limited to this, and a relay or a rotary switch may be used.
The antenna switch 5 is synchronized with the single pole double throw type changeover switches 2-1 to 2-N. For example, if the antenna element 1-i is selected, the single pole double throw type changeover switch 2-i is The movable piece connects the common contact and the other contact, and the single-pole double-throw type switch other than the single-pole double-throw type changeover switch 2-i has the movable piece connecting the common contact and one contact. ing.
The antenna switch 5 is connected to a high frequency circuit (not shown).
Examples of the single-pole double-throw type changeover switches 2-1 to 2-j include diode switches, but the present invention is not limited to this, and relays or snap switches may be used.

The antenna elements 1-1 to 1-N may be integrally formed in one molded product (resin mold), and each single pole double throw type changeover switch 2-i to 2-N, each reactance element 3 -1 to 3-N and the matching units 4-1 to 4-N may be formed integrally.
Here, “when not selected” means when the antenna elements 1-1 to 1-N are not connected to the high-frequency circuit, and “when selected” means that the antenna elements 1-1 to 1-N and the high-frequency circuit are not connected. It means when the circuit is connected.

  For example, when a frequency band using the i-th antenna element 1-i is selected, reactance (jX: j is √−1) to other feeding points 2-1a (excluding 2-1i) ... 2-Na. ). As a result, the influence of the mutual antenna elements 1-1 to 1-N (or feeding points) can be reduced and the antenna characteristics can be improved.

[Description of Operation of Example]
Reactance components are loaded on the feed points 2-1a to 2-Na of the non-selected antenna elements of the antenna elements 1-1 to 1-N provided with feed points for each frequency (reactance elements jX1 to jXN are connected). Thus, the influence between the antenna elements 1-1 to 1-N can be reduced, and deterioration of the antenna characteristics can be prevented.

[Explanation of effects]
By loading the reactance component (jX) to the antenna at the time of non-selection, the influence of the antenna element can be reduced and the deterioration of the antenna characteristics can be prevented.

Here, examples of the wireless device include a mobile phone.
FIG. 2 is a conceptual diagram showing an example of a mobile phone as a wireless device using the antenna shown in FIG. FIG. 3 is a conceptual diagram showing another example of a mobile phone as a wireless device using the antenna shown in FIG.
As shown in FIG. 2, the mobile phone 10 may be a foldable type in which the display unit side body 10-1 and the operation unit side body 10-2 can be opened and closed via a hinge 11. A slide type in which the display unit side body 20-1 and the operation unit side body 20-2 are slidable may be used like the mobile phone 20 shown.

It is a block diagram which shows one Example of the periphery of the antenna which concerns on this invention. It is a conceptual diagram which shows an example of the mobile telephone as a radio | wireless machine using the antenna shown in FIG. It is a conceptual diagram which shows another example of the mobile telephone as a radio | wireless machine using the antenna shown in FIG.

Explanation of symbols

1-1 to 1-N antenna element 2-1 to 2-N single-pole double-throw switch 3-1 to 3-N reactance element 4-1 to 4-N matching device 5 antenna switch

Claims (6)

  An antenna that corresponds to a plurality of different bands, has a plurality of feeding points, and loads a reactance component to a feeding point on a non-selection side.   Antenna elements respectively corresponding to a plurality of different bands, a plurality of changeover switches whose common contacts are connected to the feeders of each antenna element, a reactance element connected to one contact of each changeover switch, and each of the changeovers An antenna comprising: a feeding point connected to the other contact of the switch.   3. The antenna according to claim 1, wherein a plurality of antenna elements and a feeding point are integrally formed in one molded product.   A wireless device comprising the antenna according to any one of claims 1 to 3.   5. The wireless device according to claim 4, wherein the display unit side body and the operation unit side body are of a folding type that can be opened and closed via a hinge.   The wireless device according to claim 4, wherein the display unit side body and the operation unit side body are slidable.

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