1. Field of the Invention
The present invention relates to portable terminal apparatuses and, more particularly, to a portable terminal apparatus equipped with an antenna.
2. Description of the Related Art
In recent years, a mobile communications technology is quickly developed and the portable terminal or personal digital assistant equipment as represented by a cellular phone has become popular rapidly. Since the portable terminal has become connectable with the Internet, a strong demand has been made by users to enlarge a liquid crystal display device incorporated in the portable terminal apparatus. For this reason, the personal digital assistant equipment of a fold-up or flip type has become widely used. The flip type portable terminal has a body part having operational keys such as ten keys and a lid part that is connected to the body part and provided with a liquid crystal display device.
The portable terminal apparatus is required to be provided with an antenna so as to perform radio communications in connecting with the Internet, etc. Conventionally, a whip antenna has been widely used for the portable terminal apparatus, which can be extended for use and retracted during a time of standby. However, the whip antenna must protrude from the portable terminal apparatus even when the antenna is accommodated in the portable terminal apparatus, which may be a problem in portability. Additionally, the whip antenna is larger in its size than other component parts constituting the portable terminal apparatus, which prevents the portable terminal from being miniaturized. Thus, a built-in type antenna, which is incorporated inside the portable terminal apparatus, has become used (refer to Japanese Laid-Open Patent Application No. 2003-198232).
As shown in each figure, the body part 2 comprises a housing 4 and an antenna 5, a printed circuit board 6 and electronic parts 7 that are incorporated in the housing 4. The lid part (not shown in the figures) is rotatably attached to the body part 2 by a hinge part 3. Additionally, a speaker 8, electrodes for electric charge and a lid 14 for replacing a battery cell are provided on the bottom of the housing 4.
According to the above-mentioned structure, in which the antenna wiring 11 is formed on the single base member 10 and each end of the antenna wiring 11 is extended to the connector part 12, there is a part where the antenna 11 crosses itself as shown in
Naturally, the antenna wiring 11 must be insulated so that no short-circuiting occurs at the intersection part 13. For this reason, conventionally, a multilayer flexible board is used so as to form the intersecting parts of the antenna wiring 11 in different layers so as to prevent the antenna wiring from short-circuiting.
The antenna 5 having the above-mentioned structure is stuck on a bottom surface 4a of the housing 4 as shown in
In the above-mentioned conventional portable terminal apparatus 1, since the spiral antenna wiring 11 is formed on the base member 10, the intersection part 13 must be provided in the antenna 5, which requires using the multilayer flexible board as the antenna 5. However, since the multilayer flexible board is expensive, the cost of the antenna 5 is increased, which causes a problem in that the cost of the portable terminal apparatus 1 is increased.
Additionally, according to the structure in which the spiral antenna wiring 11 is formed on the single base member 10, the area of the antenna 5 is increased naturally, which causes restriction in the arranged position of the antenna 5 in the portable terminal apparatus 1. Moreover, the large area of the antenna 5 decreases a number of antenna 5 formed from a single material board is decreased, which decreases a manufacturing efficiency of the antenna 5. Thus, there is a problem in that the cost of the antenna 5 is also increased due to the decreased manufacturing efficiency.
It is a general object of the present invention to provide an improved and useful portable terminal apparatus in which the above-mentioned problems are eliminated.
A more specific object of the present invention is to provide a portable terminal apparatus which can attain a cost reduction and miniaturization.
In order to achieve the above-mentioned objects, there is provided according to the present invention a portable terminal apparatus comprising: a housing accommodating component parts therein; an antenna accommodated in the housing, the antenna including a plurality of independent antenna wiring portions formed on a flexible base; a printed-wiring board accommodated in the housing, the printed-wiring boar having a wiring pattern connected to the antenna; and an intersection part provided in the printed-wiring board where a part of the wiring pattern crosses another part of the wiring pattern so as to connect the antenna wiring portions in a loop form.
According to the above-mentioned invention, there is no need to form an intersection part where the antenna wiring portions cross each other. Thus, the antenna is manufactured easily at a low cost. Additionally, the antenna wiring portions can be connected in a loop form by providing an intersection part in the printed-wiring board. Thus, the antenna structure can be formed easily at a low cost as compared to a structure in which an intersection part is provided in the antenna.
In the above-mentioned portable terminal apparatus, the antenna may be a flat cable antenna.
Additionally, in the portable terminal apparatus, the printed-wiring board may be a multilayer printed-wiring board. Accordingly, a part of the wiring pattern can cross another part of the wiring pattern using the multilayer wiring structure of the multilayer printed-wiring board, which enables the intersection part being formed easily at a low cost.
In the above-mentioned portable terminal apparatus, the wiring pattern may form an antenna pattern on said printed-wiring board, and the antenna pattern is connected to the antenna. Accordingly, the antenna pattern formed in the printed-wiring board also serves as an antenna, thereby improving the efficiency of the antenna as a whole.
Additionally, in the portable terminal apparatus according to the present invention, the flat cable may be arranged in an upright to a plane of the printed-wiring board, and a part of the flat cable is twisted so that an end of the flat cable is parallel to the plane of said printed-wiring board in a vicinity of a connecting portion where the flat cable is connected to the printed-wiring board.
According to the above-mentioned invention, a footprint of the antenna (flat cable) is reduced when viewing the portable terminal apparatus from above, which enables attempting a miniaturization of the portable terminal apparatus. Moreover, since a portion near the end of the flat cable is twisted so as to be connected to the printed-wiring board, which results in a reliable connection between the flat cable and the printed-wiring board.
Other objects, features and advantages of the present invention will become more apparent from the following detailed description when read in conjunction with the accompanying drawings.
A description will now be given, with reference to the drawings, of a preferred embodiment according to the present invention.
As shown in each figure, the body part 22 comprises a battery 21, an antenna 25, a multiplayer printed-wiring board 26, electronic parts 27, etc. that are accommodated in the housing 24 which serves as a case. The lid part (not shown in the figures) is rotatably attached to the body part 23 by a hinge part 23. Moreover, a bottom surface 24a of the housing 24 is provided with a speaker 28 and electrodes 29 for battery charge. The battery 21 (rechargeable battery) is largest in shape among the component parts provided in the housing 24, as shown in
The multilayer printed-wiring board 26 is formed so as to avoid the position where the battery 21 is arranged. For this reason, the electronic parts 27, which are mounted on the multilayer printed-wiring board 26, are arranged with high density. Thus, conventionally, there is a limitation occurs in the position where the antenna 5 is arranged. In should be noted that the multilayer printed-wiring board 26 has a multilayer structure in which vias or the link are formed so as to provide intralayer wiring and interlayer wiring.
In the present embodiment, as shown in
Here, attention is given to the configuration of the pattern of the antenna wiring portions 31. As shown in
Thus, the antenna 25 according to the present embodiment can use the flexible printed board (hereinafter, referred to as a single-layer flexible printed board) on which the antenna wiring portions 31 are formed on one side of the base material 30. With the single-layer flexible printed board, a large cost reduction can be attempted as compared to the conventionally used multilayer flexible printed board. Consequently, a cost reduction in the potable terminal apparatus 20 can be attempted.
Furthermore, the antenna 25 having the flat cable structure is arranged so as to surround the battery 21 in a state where the antenna 25 is substantially perpendicular to the plane of the multilayer printed-wiring board 26 (this is equivalent to a state where the antenna 25 is substantially perpendicular to the bottom surface 24a of the housing 24).
According to the above-mentioned structure, there is no need to provide a large space around the battery 21 to arrange the antenna 25 when locating the antenna 25 around the battery 21. Thus, the portable terminal apparatus 25 does not become large even if the antenna 25 is arranged around the battery 21. Moreover, the enlargement of the portable terminal apparatus 20 in a direction of a width of the portable terminal apparatus 20 by setting the width W (indicated in
Since the antenna 25 is arranged within an open space naturally formed around the battery 21, the portable terminal apparatus 20 does not become larger even if the antenna 25 of such a large loop is provided in the portable terminal apparatus 25. Moreover, since the antenna 25 is flexibly deformable to follow the outer configuration of the battery 21, formation of a dead space near the antenna 25 is prevented, which contributes to the miniaturization of the portable terminal apparatus 20. It should be noted that the open space formed around the battery 21 is a space needed for attaching and detaching the battery 21 to the body art 22.
Furthermore, in the present embodiment, the housing 24 is provided with a position defining part 38, which defines the position of the antenna 25. The position defining part 38 prevents the flexible and easily deformable antenna 25 from being easily deformed in the housing 24. Thus, the antenna 25 can be maintained in a predetermined loop form, which prevents the antenna 25 from interfering with other component parts.
Accordingly, as shown in
A description will be given more specifically, with reference to
In
The terminal A1 of the connector part 32 located at an upper side in
The terminal B1 of the connector part 32 located at an upper side in
Additionally, a via 43b is formed on the other end of the intralayer wiring 41, and the via 43b is extended to the surface of the multilayer printed-wiring board 26 and is connected to the terminal B2 of the connector part 32 at a lower side in
Thus, according to the above-mentioned connection structure, the antenna 25, the wiring patterns 46 through 49 and the intralayer wirings 40 and 41 together form a helical antenna.
As mentioned above, in the present embodiment, the antenna 25 is constituted by the plurality of antenna wiring portions 31 that are separated from each other. In order to form the helical antenna by connecting the antenna wiring portions 31 in a loop form, one of the antenna wiring portions 31, the wiring patterns 46 through 49 and the intralayer wirings 40 and 44 must cross each other at one of locations of these parts.
In the present embodiment, intersection parts 33 are formed in the multilayer printed-wiring board 26. That is, in the present embodiment, the intralayer wirings 40 and 41 are formed in the multilayer printed-wiring board 26 and the wiring patterns 47, 48, 51 and 52 are formed so that the intersection parts 33 are formed where the intralayer wirings 40 and 41 cross the wiring patterns 47, 48, 51 and 52. Since the intralayer wirings 40 and 41 are formed in the multilayer printed-wiring board 26, the intralayer wirings 40 and 41 can be formed easily. Moreover, as described above, the multilayer printed-wiring board 26 is used conventionally and is inexpensive as compared to a multilayer flexible board. Therefore, compared with the structure, which forms an intersection part, a portable terminal apparatus 20 can be manufactured simply and cheaply at an antenna 25.
Here,
Accordingly, if the antenna 5 and the antenna 25 are formed from a material board 44 having the same size, three conventional antennae 5 are formed as shown in
The variation shown in
The present invention is not limited to the specifically disclosed embodiments, and variations and modifications may be made without departing from the scope of the present invention.
The present application is base on
Japanese priority application No. 2004-114601 filed Apr. 8, 2004, the entire contents of which are hereby incorporated by reference.
Number | Date | Country | Kind |
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2004-114601 | Apr 2004 | JP | national |