JP5603020B2 - Antenna device - Google Patents

Description

  The present invention relates to an antenna device built in a small wireless device, and more particularly to an antenna device having a parasitic element for antenna impedance adjustment.

  In recent years, various communication devices represented by mobile phones have provided services that use different communication systems such as GSM and UMTS in a single device. Therefore, an antenna corresponding to each communication system is required. In this case, since the antenna space in the device is limited, it is desirable to have a plurality of resonances so that one antenna can support several communication systems.

  Therefore, Patent Documents 1 and 2 disclose inventions related to an antenna to which a parasitic element is added as an antenna structure having a plurality of resonances.

  In the antenna of Patent Document 1, a feeding element and a parasitic element are installed in parallel on the same side of the same substrate, and both open ends of the feeding element and the parasitic element are directed in the same direction.

  As shown in FIG. 12, the antenna of Patent Document 2 is provided with an antenna element 21 and a parasitic element 22 on a device substrate 10, and the open ends thereof are close to each other. FIG. 12 is a structural diagram of an antenna corresponding to the related art disclosed in Patent Document 2.

  Here, in a multi-resonance antenna device, for example, in an antenna device to which a parasitic element as shown in Patent Documents 1 and 2 is added, a lumped constant is used to set a plurality of resonance frequencies to a target frequency. An example of adjustment is given. This is because the current flowing into the antenna element and the parasitic element can be controlled by the lumped constant.

JP 09-055621 A JP 2006-033798 A

  However, in the antenna devices disclosed in Patent Documents 1 and 2, the antenna element and the parasitic element are attributed to the respective resonances, and a lumped constant cannot be simply loaded. That is, since only one element does not operate as an antenna, for example, when two resonances are to be realized, the other resonance frequency also fluctuates.

  For this reason, in order to adjust one frequency, simply considering only one resonance frequency and loading a lumped constant circuit on the feeding element side, the other resonance formed by the antenna element and the parasitic element is thereby obtained. The frequency will fluctuate.

  In order to solve such a problem, it is inevitable that the lumped constant circuit is complicated. In addition, the operation of solder connection or the like is complicated to load the lumped constant circuit, and the lumped constant itself has a loss. There was also a problem.

  The present invention has been made in view of the above, and relates to an antenna device capable of frequency adjustment by a parasitic element, and particularly to provide an antenna device capable of frequency adjustment by simple means for each of a plurality of resonances. And

In order to solve the above-described problem, an antenna device according to the present invention includes a feeding point where power is supplied on one side of a rectangular ground plane, and an L-shaped antenna element installed on the one side at the feeding point. And an antenna device having an L-shaped parasitic element placed on the one side so that the open ends of the antenna element are opposed to each other, the antenna element being close to the antenna element on the one side And a separate parasitic element arranged parallel to the outside of the antenna element, and the length of the side of the ground plane perpendicular to the one side is a quarter wavelength or more of the operating frequency. Yes, the element length, which is the length of the L-shaped portion of the antenna element, is one-fifth wavelength of the operating frequency, and the spacing between the antenna element and the parasitic element on the one side is Separate from antenna element A wide antenna device than the spacing between said mounting portion on one side of the parasitic element, the discrete passive element is a L-shaped, the length of the side parallel portion and the antenna element It is longer than the space | interval between the installation parts on the said one side with the said separate parasitic element, It is characterized by the above-mentioned.
Further, an antenna device according to the present invention includes a feeding point where power is supplied on one side of a rectangular ground plane, an L-shaped antenna element installed on the one side at the feeding point, and the antenna element. Is an antenna device having an L-shaped parasitic element installed on the one side so that the open ends are close to each other, and on the one side so as to be close to the antenna element, and A separate parasitic element arranged parallel to the outside of the antenna element, the length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the operating frequency, The element length, which is the length of the L-shaped portion, is one-fifth wavelength of the operating frequency, and the distance between the antenna element and the parasitic element on the one side is the distance between the antenna element and the separate element. Said with parasitic element The antenna device is wider than the interval between the installed parts on the side, and the separate parasitic element is L-shaped, and the length of the part parallel to the one side is the antenna element and the separate parasitic element. It is shorter than the interval between the installation parts on the one side.
Furthermore, an antenna device according to the present invention includes a feeding point where power is supplied on one side of a rectangular ground plane, an L-shaped antenna element installed on the one side at the feeding point, and the antenna element. Is an antenna device having an L-shaped parasitic element installed on the one side so that the open ends are close to each other, and on the one side so as to be close to the antenna element, and Comprising an L-shaped separate parasitic element arranged parallel to the inside of the antenna element, and the length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the operating frequency, The element length, which is the length of the L-shaped portion of the antenna element, is one-fifth wavelength of the operating frequency, and the interval between the antenna element and the parasitic element on the one side is the antenna element. And the separate parasitic element A of the wide antenna device than the spacing between mounting portion on one side, the discrete passive element is a L-shaped, the length of the side parallel portion the antenna element and the separate free It is characterized by being longer than the interval between the installation parts on the one side with the feeding element .
Further, the antenna device according to the present invention, on one side of the rectangular base plate, a feeding point to which electric power is supplied, the L-shaped antenna element to be placed on the one side by the power feed point, the antenna elements And an L-shaped parasitic element installed on the one side so that the respective open ends are close to each other, and on the one side so as to be close to the antenna element, and Provided with an L-shaped separate parasitic element arranged parallel to the inside of the antenna element, and the length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the operating frequency. The element length, which is the length of the L-shaped portion of the antenna element, is one-fifth wavelength of the operating frequency, and the distance between the antenna element and the parasitic element on the one side is the antenna length. Element and said separate parasitic element A of the wide antenna device than the spacing between mounting portion on one side, the discrete passive element is a L-shaped, the length of the side parallel portion the antenna element and the separate free It is shorter than the space | interval between the installation parts on the said one side with a feed element .

  ADVANTAGE OF THE INVENTION According to this invention, the antenna apparatus which can adjust a frequency by a simple means especially with respect to several resonance with a separate parasitic element can be provided.

It is a schematic diagram of the antenna device in the 1st Embodiment of this invention. It is a figure which shows the change of the resonant frequency of the antenna apparatus in the 1st Embodiment of this invention. It is a figure which shows the change of the resonant frequency of the antenna apparatus in the 1st Embodiment of this invention. It is a schematic diagram of the antenna apparatus in the 2nd Embodiment of this invention. It is a schematic diagram which shows the state which installed two or more antenna conduction | electrical_connection changeover switches on the 2nd parasitic element. It is a schematic diagram of the antenna device in the 3rd-1 embodiment of the present invention. It is a schematic diagram of the antenna device in the 3-2 embodiment of the present invention. It is a schematic diagram of the antenna apparatus in the 4th Embodiment of this invention. It is a schematic diagram of the antenna apparatus in the 5th Embodiment of this invention. It is a schematic diagram of the antenna apparatus in the 6th Embodiment of this invention. It is a schematic diagram of the antenna apparatus in the 7th Embodiment of this invention. It is a structural diagram of an antenna corresponding to related technology.

[First Embodiment]
The first embodiment of the present invention will be described below with reference to the drawings. In the present embodiment, a foldable communication terminal device will be described as an example of a wireless terminal.

  FIG. 1 is a schematic diagram of an antenna device according to a first embodiment of the present invention. According to FIG. 1, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, and a second parasitic power. And an element 41.

  A linear L-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 41 are attached to one side of the ground plane 1.

  The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. In addition, the second parasitic element 41 is connected to the end portion outside the antenna element 3 without a parasitic power.

  It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so that the L-type faces each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3. Further, the second parasitic element 41 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3.

In this case, the element length L2 is a length of the L-shaped portion of the antenna element 3 is a lambda / 5 usable frequency, the length L1 of the sides edges and Cartesian contacting the element of the base plate 1 is lambda / 4 or more In addition, the connection point distance D2 between the antenna element 3 and the first parasitic element 40 is preferably larger than the distance D1 between the antenna element 3 and the second parasitic element 41. With this configuration, the frequency can be adjusted by changing the length L3 of the upper side of the second parasitic element 41.

  The length of L3 is defined by 0 <L3 <D1 or D1 <L3. In the former case, the resonance frequency of the high frequency band can be adjusted, and in the latter case, the resonance frequency of the low frequency band can be adjusted.

  In the figure, the connection side of the antenna element is the short side of the ground plane. If the length of L1 is λ / 4, the element may be connected to the long side. Furthermore, although the second parasitic element 41 is arranged along the outside of the antenna element 3, it may be connected inside the end portion and arranged inside. Further, although linear elements are used here for the antenna element 3, the first parasitic element 40, and the second parasitic element 41, a plate-like element having a narrow width may be used.

[Description of Operation of First Embodiment]
2 and 3 show changes in the resonance frequency of the antenna device according to the present embodiment. As an example, when D1 is 6 mm, D2 is 28 mm, L1 is 80 mm, and L2 is 23 mm (height 9 + width 14) with respect to a 40 mm × 80 mm ground plane, the second parasitic element length is changed.

  FIG. 2 shows a case where the horizontal axis represents frequency, the vertical axis represents reflection loss, and the length L3 of the upper side of the second parasitic element 41 is shorter than the distance D1 between the antenna element 3 and the second parasitic element 41. The calculation results of the reflection characteristics are shown. As a result of the calculation, the length of the second parasitic element 41 is 13 mm (L3 = 0 mm) and 18 mm (L3 = 5 mm), respectively. For comparison, the characteristics of the state before adjusting the resonance frequency without adding the second parasitic element are also shown.

  As shown in FIG. 2, when the second parasitic element 41 is not added and there are two resonances, and the second parasitic element 41 is added and the length of L3 is shorter than D1, However, the resonance frequency on the high frequency side fluctuates greatly. Therefore, when the length of L3 of the second parasitic element is shorter than D1, the high-band resonance frequency can be adjusted.

  In FIG. 3, the horizontal axis represents the frequency, the vertical axis represents the reflection loss, and the reflection characteristic is calculated when the upper portion L3 of the second parasitic element 41 is longer than the distance D1 between the antenna element 3 and the second parasitic element 41. Results are shown. As a result of the calculation, the length of the second parasitic element 41 is 24 mm (L3 = 11 mm) and 32 mm (L3 = 19 mm).

  Further, as in FIG. 2, the characteristics in the state where the second parasitic element is not added are also shown for comparison. As shown in the figure, when L3 is longer than D1 and the second parasitic element length is changed, the resonance frequency on the low frequency side fluctuates while the high frequency is hardly changed. Therefore, when the length of L3 of the second parasitic element is longer than D1, the low-band resonance frequency can be adjusted.

  That is, by adjusting the position of the open end of the second parasitic element 40, the high frequency range and low frequency range of the resonance frequency can be adjusted.

[Second Embodiment]
Hereinafter, a second embodiment will be described with reference to FIG. FIG. 4 is a schematic diagram of an antenna device according to the second embodiment of the present invention.

  According to FIG. 4, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, and a second parasitic element. An element 41 and an antenna conduction switch 5 are provided.

  A linear L-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 41 are attached to one side of the ground plane 1.

  The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. In addition, the second parasitic element 41 is connected to the end portion outside the antenna element 3 without a parasitic power.

  It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3. The second parasitic element 41 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3.

  In addition, the antenna conduction changeover switch is provided at a position (L4 = D1) of the length D1 from the bent portion of the second parasitic element 41, that is, a position just above the feeding point 2. An example of the antenna conduction switching switch is a diode switch.

Device length is the length of the L-shaped portion of the antenna element 3 is a lambda / 5 usable frequency, the length of the side sides the Cartesian contacting the element of the base plate 1 is a lambda / 4 or more, and, The connection point interval between the antenna element 3 and the first parasitic element 40 is preferably wider than the interval between the antenna element 3 and the second parasitic element 41.

  That is, the electrical length of the second parasitic element can be switched by this conduction switch, and thereby the resonance frequency can be changed.

  A plurality of antenna conduction changeover switches may be provided. FIG. 5 is a schematic diagram showing a state in which a plurality of antenna conduction changeover switches are installed on the second parasitic element. Thus, by providing the plurality of antenna conduction changeover switches 5 on the second parasitic element 41, the length of the element can be electrically varied, and the frequency can be adjusted more precisely.

  Here, linear elements are used for the antenna element 3, the first parasitic element 40, and the second parasitic element 41, but a plate-like element having a narrow width may be used.

[Third embodiment]
Below, the 3rd-1 example of an embodiment is demonstrated using FIG. FIG. 6 is a schematic diagram of an antenna device according to the 3-1 embodiment of the present invention.

  According to FIG. 6, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, and a second parasitic element 41. .

  A linear L-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 41 are attached to one side of the ground plane 1.

  The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. In addition, the second parasitic element 41 is connected to the end portion outside the antenna element 3 without a parasitic power.

  It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3. Further, the second parasitic element 41 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3. The process up to this point is the same as in the first embodiment.

  In the present embodiment, the antenna element 3, the parasitic element 40, and the parasitic element 41 are arranged in the same plane with respect to the horizontal plane of the ground plane 1. With this configuration, the antenna device attached to the housing does not increase in thickness and leads to a reduction in thickness.

[Third Embodiment]
Hereinafter, a third to second exemplary embodiment will be described with reference to FIG. FIG. 7 is a schematic diagram of an antenna device according to the third to second embodiments of the present invention.

  According to FIG. 7, the antenna device of the present embodiment includes a ground plane 1, a feeding point 2, an antenna element 3, a first parasitic element 40, and a second parasitic element 41.

  A linear L-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 41 are attached to one side of the ground plane 1. The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. In addition, the second parasitic element 41 is connected to the end portion outside the antenna element 3 without a parasitic power.

  It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3. The second parasitic element 41 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3. The process up to this point is the same as in the first embodiment.

  In the present embodiment, the antenna element 3, the first parasitic element 40, and the second parasitic element 41 are installed with an inclination with respect to the horizontal plane of the ground plane 1. With this configuration, when the distance in the height direction of the antenna is limited, the element length can be increased by inclining, and the adaptive range to a low frequency can be widened.

[Fourth Embodiment]
Next, a fourth embodiment of the present invention will be described with reference to FIG. FIG. 8 is a schematic diagram of an antenna device according to the fourth embodiment of the present invention.

  According to FIG. 8, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, and a second parasitic element 41. .

  The antenna element 3 has a configuration of an F-shaped antenna that is rolled over by the main signal element 31 and the ground plane 1 and the short-circuit element 32 connected to the signal element 31.

  In this configuration, an overturned F-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 41 are attached to one side of the ground plane 1. The signal element 31 is fed to the end of the ground plane 1 at the feeding point 2, and the short-circuit element 32 short-circuits the signal element 31 and the ground plane 1.

  The first parasitic element 40 is preferably connected to the ground plate 1 with one end connected to the ground and the other end as an open end, and the open end faces the open end of the antenna element 3. At this time, the open end side of the first parasitic element 40 may have a shape extending to the vicinity of the second parasitic element 41.

  The first parasitic element 40 is connected to the end opposite to the end of the antenna element 3 without any parasitic. In addition, the second parasitic element 41 is connected to the end portion outside the antenna element 3 without a parasitic power. It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3. The second parasitic element 41 is arranged so as to be close to the antenna element 3 and parallel to the inside of the antenna element 3.

  As a result, since the main antenna element has an inverted F shape, one resonance frequency is added, leading to a wider band.

[Fifth Embodiment]
Next, a fifth embodiment of the present invention will be described with reference to FIG. FIG. 9 is a schematic diagram of an antenna device according to the fifth embodiment of the present invention.

  According to FIG. 9, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, and a second parasitic element 44. . In this configuration, a linear L-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 44 are attached to one side of the ground plane 1.

  The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. Further, the second parasitic element 44 is connected to the end portion outside the antenna element 3 without a parasitic power.

  It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3. Further, the second parasitic element 44 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3, and the structure of the second parasitic element 44. Can also be a meander structure meandering in a zigzag manner. In addition to the meander structure, it may be wound many times in a helical shape.

  As a result, the current path length of the second parasitic element is increased, and the change in the resonance frequency can be increased.

Incidentally, the device length is the length of the L-shaped portion of the antenna element 3 is a lambda / 5 usable frequency, the length of the side sides the Cartesian contacting the element of the base plate 1 is a lambda / 4 or more, In addition, the distance between the connection points between the antenna element 3 and the first parasitic element 40 is preferably larger than the distance between the antenna element 3 and the second parasitic element 44.

[Sixth Embodiment]
Next, a sixth embodiment of the present invention will be described with reference to FIG. FIG. 10 is a schematic diagram of an antenna device according to the sixth embodiment of the present invention.

  Referring to FIG. 10, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, a second parasitic element 41, and a hinge. A metal fitting 6 is provided. A linear L-type antenna element 3, a first parasitic element 40, and a second parasitic element 45 are attached to one side of the ground plane 1.

  The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. The second parasitic element 45 is connected to the outer end of the antenna element 3 without a parasitic power.

  It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3.

  The second parasitic element 45 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3. In addition, the second parasitic element 45 is electrically connected to a part of a hinge fitting represented by a foldable mobile terminal at the opposite end to the connection end with the ground plane.

  As shown in FIG. 10, when the parasitic element is connected to the hinge fitting 6 that is a structure in the portable terminal, the parasitic element length is increased, and another frequency band can be increased.

Incidentally, the device length is the length of the L-shaped portion of the antenna element 3 is a lambda / 5 usable frequency, the length of the side sides the Cartesian contacting the element of the base plate 1 is a lambda / 4 or more, In addition, the distance between the connection points between the antenna element 3 and the first parasitic element 40 is preferably larger than the distance between the antenna element 3 and the second parasitic element 45.

[Seventh Embodiment]
Next, a seventh embodiment of the present invention will be described with reference to FIG. FIG. 11 is a schematic diagram of an antenna device according to a sixth embodiment of the present invention.

  According to FIG. 11, the antenna device of the present embodiment includes a rectangular ground plane 1, a feeding point 2 to which power is supplied, an antenna element 3, a first parasitic element 40, and a second parasitic element. An element 41 and a short-circuit element 7 are provided. A linear L-shaped antenna element 3, a first parasitic element 40, and a second parasitic element 41 are attached to one side of the ground plane 1.

  The antenna element 3 is fed to the end portion of the ground plane 1 at a feeding point 2, and the first parasitic element 40 is connected to the opposite end portion without feeding. In addition, the second parasitic element 41 is connected to the end portion outside the antenna element 3 without a parasitic power. It is desirable that the antenna element 3 and the first parasitic element 40 are disposed so as to face each other, and the side opposite to the connection end with the ground plane is an open end and is close to the antenna element 3.

  The second parasitic element 41 is arranged so as to be close to the antenna element 3 and parallel to the outside of the antenna element 3.

  By providing the short-circuit element 6 between the first parasitic element 40 and the second parasitic element 41, there is a possibility that a current path is added and a broadband is obtained.

Incidentally, the device length is the length of the L-shaped portion of the antenna element 3 is a lambda / 5 usable frequency, the length of the side sides the Cartesian contacting the element of the base plate 1 is a lambda / 4 or more, Further, it is preferable that the connection point interval between the antenna element 3 and the first parasitic element 40 is wider than the interval between the antenna element 3 and the second parasitic element 41.

  The antenna device according to the present invention has an effect that the frequency can be adjusted by a parasitic element, and can be used particularly for mobile communication equipment applications such as cellular phones where thinning is desired.

DESCRIPTION OF SYMBOLS 1 Ground plane 2 Feeding point 3 Antenna element 5 Antenna conduction | electrical_connection changeover switch 6 Hinge metal fitting 7 Short circuit 10 Device board 21 Antenna element 22 Parasitic element 31 Signal element 32 Short element 40 1st parasitic element 41 2nd parasitic element 44 Second parasitic element 45 Second parasitic element

Claims (9)

On one side of the square ground plane, a feeding point where power is supplied, an L-shaped antenna element installed on the one side at the feeding point, and the antenna element are relative to each other with their open ends close to each other. In the antenna device having an L-shaped parasitic element installed on the one side as described above,
On the one side, a separate parasitic element is disposed so as to be close to the antenna element and parallel to the outside of the antenna element,
The length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the use frequency, and the element length which is the length of the L-shaped portion of the antenna element is a fifth wavelength of the use frequency. There, intervals of the mounting portion on one side of said antenna element and the parasitic element, the antenna element and the separate wide ear antenna device than the spacing between said mounting portion on one side of the parasitic element Because
The separate parasitic element is L-shaped, and the length of the part parallel to the one side is longer than the distance between the antenna element and the installation part on the one side of the separate parasitic element. An antenna device . On one side of the square ground plane, a feeding point where power is supplied, an L-shaped antenna element installed on the one side at the feeding point, and the antenna element are relative to each other with their open ends close to each other. In the antenna device having an L-shaped parasitic element installed on the one side as described above,
On the one side, a separate parasitic element is disposed so as to be close to the antenna element and parallel to the outside of the antenna element,
The length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the use frequency, and the element length which is the length of the L-shaped portion of the antenna element is a fifth wavelength of the use frequency. And the distance between the antenna element and the parasitic element on the one side is an antenna device wider than the distance between the antenna element and the separate parasitic element on the one side. And
The separate parasitic element is L-shaped, and a length of a portion parallel to the one side is shorter than an interval between the installation portions on the one side of the antenna element and the separate parasitic element. An antenna device.   On one side of the square ground plane, a feeding point where power is supplied, an L-shaped antenna element installed on the one side at the feeding point, and the antenna element are relative to each other with their open ends close to each other. In the antenna device having an L-shaped parasitic element installed on the one side as described above,
  On the one side, provided with an L-shaped separate parasitic element disposed so as to be close to the antenna element and parallel to the inside of the antenna element,
  The length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the use frequency, and the element length which is the length of the L-shaped portion of the antenna element is a fifth wavelength of the use frequency. And the distance between the antenna element and the parasitic element on the one side is an antenna device wider than the distance between the antenna element and the separate parasitic element on the one side. And
  The separate parasitic element is L-shaped, and the length of the part parallel to the one side is longer than the distance between the antenna element and the installation part on the one side of the separate parasitic element. An antenna device.   On one side of the square ground plane, a feeding point where power is supplied, an L-shaped antenna element installed on the one side at the feeding point, and the antenna element are relative to each other with their open ends close to each other. In the antenna device having an L-shaped parasitic element installed on the one side as described above,
  On the one side, provided with an L-shaped separate parasitic element disposed so as to be close to the antenna element and parallel to the inside of the antenna element,
  The length of the side of the ground plane orthogonal to the one side is a quarter wavelength or more of the use frequency, and the element length which is the length of the L-shaped portion of the antenna element is a fifth wavelength of the use frequency. And the distance between the antenna element and the parasitic element on the one side is an antenna device wider than the distance between the antenna element and the separate parasitic element on the one side. And
  The separate parasitic element is L-shaped, and a length of a portion parallel to the one side is shorter than an interval between the installation portions on the one side of the antenna element and the separate parasitic element. An antenna device. The separate parasitic element is L-shaped, and a switch that can cut off the conduction of the separate parasitic element is placed on the one side of the antenna element and the separate parasitic element from the L-shaped bent portion. 5. The antenna device according to claim 1, wherein the antenna device is located at a position separated by a distance corresponding to an interval between the installation parts. The separate parasitic element is a L-shaped antenna apparatus according to any one of claims 1 to 4, characterized in that it has further a plurality of said switch. The antenna element, the antenna device according to any one of claims 1 to 4 wherein the parasitic element and the discrete passive element is being arranged in the same plane relative to the horizontal plane of the base plate . The antenna according to any one of claims 1 to 4 , wherein the antenna element, the parasitic element, and the separate parasitic element are installed with an inclination with respect to a horizontal plane of the ground plane. apparatus. Before SL antenna device which is used in a portable terminal having a hinge fitting,
5. The antenna device according to claim 1, wherein the separate parasitic element is electrically connected to the hinge fitting. 6.

Images