JP3738550B2 - Wireless communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless communication apparatus configured to be able to store an IC card inside a casing.
[0002]
[Problems to be solved by the invention]
In recent years, with the progress of telecommunications technology, wireless communication devices have become widespread, and as one of them, a mobile phone using an IC card is considered. This adopts a SIM (Subscriber Identity Module) card in which a subscriber number (ID code) or the like is stored as an IC card, and inserts the SIM card into the casing of the mobile phone, thereby Calls (communications) can be made using the subscriber number.
[0003]
On the other hand, in a mobile phone, a configuration is considered in which diversity reception is performed using a plurality of antennas by adopting a known technique. Specifically, a diversity reception is performed by a whip antenna for both transmission and reception provided so as to protrude from the housing and a reception antenna dedicated for reception provided inside the housing, for example. According to this, by performing diversity reception using the whip antenna and the receiving antenna, a high-quality audio signal can be generated when the radio signal is converted into the audio signal.
[0004]
By the way, in general, mobile phones are required to be miniaturized due to the nature of being carried and used, and accordingly, miniaturization of the housing is attempted. Therefore, the mobile phone using a SIM card is used. In this case, it is considered that the SIM card is inserted in a state of being very close to the receiving antenna.
[0005]
Therefore, depending on whether or not the SIM card is inserted, it is considered that impedance matching between the receiving antenna and the transmitting / receiving unit that transmits and receives a radio wave signal (high frequency signal) may change. In the state where the SIM card is inserted, even if the reception characteristic of the reception antenna is good, there is a problem that the reception characteristic of the reception antenna is deteriorated when the SIM card is not inserted. Of course, contrary to this case, when the SIM card is not inserted, even if the reception characteristics of the reception antenna are good, the reception characteristics of the reception antenna are reduced when the SIM card is inserted. The problem that it ends up is also assumed.
[0006]
The present invention has been made in view of the above circumstances, and an object of the present invention is to transmit and receive a high-frequency signal connected to the first antenna provided in a housing capable of storing an IC card. What is claimed is: 1. A wireless communication apparatus comprising: a high-frequency signal transmitting / receiving means capable of improving the reception characteristics of a first antenna regardless of whether an IC card is housed in a housing; It is to provide.
[0007]
[Means for Solving the Problems]
According to the first aspect of the present invention, when the detecting means detects that the IC card is housed in the housing by the detecting means, the controlling means sets the switching means to the first connection state and sets the auxiliary switching means to the first state. In other words, the first antenna and the high-frequency signal transmitting / receiving means are electrically connected via the first impedance matching means, and the second antenna and the high-frequency signal transmitting / receiving means are third impedance matched. And the first impedance matching means matches the impedance between the first antenna and the high-frequency signal transmitting / receiving means, and the third impedance matching means matches the second antenna. And impedance of the high-frequency signal transmitting / receiving means are matched.
[0008]
On the other hand, when the control means detects that the IC card is not housed in the housing, the control means causes the switching means to be in the second connection state and the auxiliary switching means to be in the second connection state. In other words, the first antenna and the high-frequency signal transmitting / receiving means are electrically connected via the second impedance matching means, and the second antenna and the high-frequency signal transmitting / receiving means are connected via the fourth impedance matching means. Electrically connected , the second impedance matching means matches the impedance between the first antenna and the high frequency signal transmitting / receiving means, and the fourth impedance matching means matches the second antenna with the second antenna. Match the impedance between the means.
[0009]
That is, according to this, depending on whether or not the IC card is housed in the housing, the first antenna matching means and the second impedance matching means can be used by the first antenna. The impedance between the second antenna and the high-frequency signal transmitting / receiving means is adjusted by any one of the third impedance matching means and the fourth impedance matching means. Since the matching is configured, the first impedance matching means and the second impedance matching means are set to appropriate impedance matching values, respectively, so that whether or not the IC card is housed in the housing. not, it is possible to improve the reception characteristics of the first antenna, the third in By setting the impedance matching means and the fourth impedance matching means to appropriate impedance matching values, the reception characteristics of the second antenna are good regardless of whether or not the IC card is housed in the housing. Can be. This also makes it possible to satisfactorily receive diversity reception by the first antenna and the second antenna, and to generate a higher quality audio signal when converting a radio signal to an audio signal.
[0010]
According to the invention of claim 2, since the first antenna is constituted by an antenna that is located outside the IC card when the IC card is housed in the housing, the first antenna is a radio wave. It can be set as the structure which is easy to receive a signal.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a mobile phone capable of storing an IC card as a wireless communication apparatus, and in that case, a SIM (Subscriber Identity Module) card is applied as an IC card will be described with reference to the drawings.
[0017]
First, in FIG. 2, the casing 2 of the mobile phone 1 is constituted by a plastic case 3 having a substantially rectangular shape. On the front side of the housing 2, a key operation unit 4 is provided with various keys such as a “start” key, an “end” key, numeric keys “0” to “9”, and a “scroll” key. A display 5 for displaying an incoming message and a telephone number, a microphone (transmitter) 6 and a speaker (receiver) 7 are provided. Further, an antenna case portion 8 having a substantially cylindrical shape is provided integrally with the case 3 at a corner of the upper surface of the housing 2, and a whip antenna 9 as a second antenna for both transmission and reception is provided therein. It is arranged.
[0018]
As shown in FIG. 3, a slit-like opening 10 extending in the width direction (left-right direction in FIG. 3) is formed in a predetermined portion on the back side of the housing 2, and the SIM card 11 By being inserted into the opening 10, the housing 2 is accommodated. The lid portion 12 is configured to be in a state of opening or closing the opening 10 by rotating. In addition, a reception-side plate-like inverted F antenna 13 serving as a first antenna is provided on the back side of the housing 2. In the mobile phone 1, the whip antenna 9 and the plate-like inverted F antenna 13 are provided. Thus, the radio wave signal (high frequency signal) transmitted from the base station is diversity-received.
[0019]
The plate-like inverted F antenna 13 is composed of a flat plate portion 13a, a feed line portion (not shown) bent at a substantially right angle to the flat plate portion 13a, and a short-circuit portion (not shown). The flat plate portion 13 a is attached to the inside of the case 3 by being attached to the inside of the case 3. In this case, the flat plate portion 13a of the plate-like inverted F antenna 13 has a rectangular shape and an approximately 1/2 wavelength of the radio wave signal in consideration of electrical characteristics.
[0020]
In the mobile phone 1 configured as described above, the casing 2 is formed relatively thin as a whole in consideration of portability, which is a basic advantage of the mobile phone, and the SIM card 11 is provided in the casing. When the SIM card 11 is extremely close to the plate-shaped inverted F antenna 13 with the flat plate portion 13a of the plate-shaped inverted F antenna 13 being outside the SIM card 11 when housed in the body 2. It is supposed to be.
[0021]
Next, the electrical configuration of the mobile phone 1 will be described with reference to FIG.
The control circuit 14 as the control means is configured mainly with a microcomputer, and the control circuit 14 is connected to a transmission / reception unit 15, a data conversion unit 16, and an audio processing unit 17 as high-frequency signal transmission / reception means. In addition, the key operation unit 4 and the display 5 described above are connected. The audio processing unit 17 is connected to the microphone 6 and the speaker 7 described above, and is also connected to the data conversion unit 16, and the data conversion unit 16 is connected to the transmission / reception unit 15.
[0022]
The transmission / reception unit 15 includes the above-described plate-shaped inverted F antenna 13 including switching units 18 and 19 as switching units, an impedance matching unit 20 as first impedance matching units, and impedance matching as second impedance matching units. The whip antenna 9 described above is connected via any one of the units 21 and the switching units 22 and 23 as auxiliary switching means and the impedance matching unit as third impedance matching means. 24 and any one of the impedance matching sections 25 as the fourth impedance matching means.
[0023]
The impedance matching unit 20 is adapted to match the impedance between the plate-like inverted F antenna 13 and the transmission / reception unit 15 when the SIM card 11 is inserted into the housing 2. The impedance matching unit 21 matches the impedance between the plate-like inverted F antenna 13 and the transmission / reception unit 15 when the SIM card 11 is not inserted into the housing 2.
[0024]
The impedance matching unit 24 is adapted to match the impedance between the whip antenna 9 and the transmission / reception unit 15 when the SIM card 11 is inserted into the housing 2. The impedance matching unit 25 matches the impedance between the whip antenna 9 and the transmission / reception unit 15 when the SIM card 11 is not inserted into the housing 2.
[0025]
In addition, a switching control unit 26 is connected to the control circuit 14, and the switching units 18, 19, 22, and 23 are controlled to be switched by the switching control unit 26.
[0026]
Further, a storage unit 27 and a SIM card detection unit 28 as a detection means are connected to the control circuit 14, and the SIM card detection unit 28 of them includes the SIM card 11 stored inside the housing 2. A detection signal for identifying whether or not is output to the control circuit 14.
[0027]
Thus, in this configuration, when the control circuit 14 receives a detection signal for identifying that the SIM card 11 is housed in the housing 2 from the SIM card detection unit 28, the SIM card 11 is mounted on the housing. 2 is detected, the switching control unit 26 switches each switching unit 18, 19, 22 and 23 to the first connection state (connection state shown by a solid line in FIG. 1), The inverted inverted F antenna 13 and the transmission / reception unit 15 are connected via the impedance matching unit 20, and the whip antenna 9 and the transmission / reception unit 15 are connected via the impedance matching unit 24.
[0028]
On the other hand, when the detection signal for identifying that the SIM card 11 is not stored in the housing 2 is given from the SIM card detection unit 28, the control circuit 14 detects that the SIM card 11 is in the housing 2. The switching control unit 26 switches the switching units 18, 19, 22 and 23 to the second connection state (connection state indicated by a broken line in FIG. 1), and the plate-like inverse F is detected. The antenna 13 and the transmission / reception unit 15 are connected via the impedance matching unit 21, and the whip antenna 9 and the transmission / reception unit 15 are connected via the impedance matching unit 25.
[0029]
Next, the operation of the above configuration will be described.
First, when the SIM card 11 is housed in the housing 2, the switching units 18, 19, 22, and 23 are in the first connection state (the connection indicated by the solid line in FIG. 1) as described above. State).
[0030]
At this time, when the radio signal transmitted from the base station is captured by the plate-like inverted F antenna 13 or the whip antenna 9, the switching units 18 and 19 Since it is in the first connection state, it is given to the transmission / reception unit 15 via the impedance matching unit 20. Further, the radio wave signal captured by the whip antenna 9 is provided to the transmission / reception unit 15 via the impedance matching unit 24 because the switching units 22 and 23 are in the first connection state.
[0031]
Each radio signal given to the transmission / reception unit 15 is demodulated by diversity reception and converted into a communication signal, and the communication signal is output to the data conversion unit 16. Then, the communication signal given to the data conversion unit 16 is converted into a voice signal and output to the voice processing unit 17, and the voice signal given to the voice processing unit 17 is decoded and output from the speaker 7. It becomes like this.
[0032]
On the other hand, when the SIM card 11 is not housed in the housing 2, the switching units 18, 19, 22, and 23 are in the second connection state (indicated by the broken line in FIG. 1) as described above. Therefore, the radio wave signal captured by the plate-like inverted F antenna 13 is given to the transmission / reception unit 15 via the impedance matching unit 21, and the radio signal captured by the whip antenna 9. Is provided to the transmission / reception unit 15 via the impedance matching unit 25, and is converted into an audio signal by diversity reception by the same processing as described above, and is output from the speaker 7.
[0033]
As described above, according to the present embodiment, depending on whether the SIM card 11 is housed in the housing 2, either the impedance matching unit 20 or the impedance matching unit 21 causes the plate-like inverted F. Since the impedance between the antenna 13 and the transmission / reception unit 15 is configured to match, the SIM card 11 can be connected to the housing 2 by setting the impedance matching unit 20 and the impedance matching unit 21 to appropriate impedance matching values. Regardless of whether or not it is housed inside, the reception characteristics of the plate-like inverted F antenna 13 can be improved.
[0034]
In particular, in this embodiment, a plate-like inverted F antenna 13 is employed as a reception-only antenna, the plate-like inverted F antenna 13 is attached to the back surface of the case 3 of the housing 2, and the SIM card 11 is attached to the housing 2. Since the plate-like inverted F antenna 13 is arranged outside the SIM card 11 when housed inside, it can be configured to easily receive a radio signal as a receiving antenna.
[0035]
Further, since the diversity reception is performed by the plate-like inverted F antenna 13 and the whip antenna 9, a high-quality audio signal can be generated when the radio signal is converted into an audio signal.
[0036]
Further, depending on whether or not the SIM card 11 is housed in the housing 2, the impedance between the whip antenna 9 and the transmission / reception unit 15 is determined by either the impedance matching unit 24 or the impedance matching unit 25. Since the impedance matching unit 24 and the impedance matching unit 25 are set to appropriate impedance matching values, regardless of whether the SIM card 11 is housed in the housing 2 or not. The reception characteristics of the whip antenna 9 can be improved.
[0037]
As a result, diversity reception by the plate-like inverted F antenna 13 and the whip antenna 9 can be performed satisfactorily, and a higher quality audio signal can be generated when a radio signal is converted into an audio signal.
[0038]
The present invention is not limited to the above embodiment, and can be modified or expanded as follows.
The wireless communication device is not limited to a mobile phone, and may be applied to, for example, an in-vehicle phone.
The antenna case portion is integrally provided in the case, so that the whip antenna is not limited to be stretchable and the whip antenna may be stretchable or replaceable.
[Brief description of the drawings]
FIG. 1 is a block configuration diagram showing an embodiment of the present invention. FIG. 2 is an external perspective view as viewed from the front side. FIG. 3 is a view corresponding to FIG.
In the drawings, 1 is a mobile phone (wireless communication device), 2 is a case, 9 is a whip antenna (second antenna), 11 is a SIM card (IC card), and 13 is a plate-like inverted F antenna (first antenna). ), 14 is a control circuit (control means), 15 is a transmission / reception section (high frequency signal transmission / reception means), 18 and 19 are switching sections (switching means), 20 is an impedance matching section (first impedance matching means), and 21 is impedance. Matching section (second impedance matching means), 22 and 23 are switching sections (auxiliary switching means), 24 is an impedance matching section (third impedance matching means), and 25 is an impedance matching section (fourth impedance matching means). , 28 are SIM card detection units (detection means).

Claims (2)

Comprising a first antenna and a second antenna provided an IC card body capable of accommodating, and these first antenna and the second is connected to an antenna capable of transmitting and receiving high-frequency signal transmitting and receiving means the high-frequency signal In the wireless communication device configured such that the first antenna and the second antenna receive diversity reception ,
Detecting means for detecting whether or not the IC card is housed in the housing;
First impedance matching means for matching impedance between the first antenna and the high-frequency signal transmitting / receiving means when the IC card is housed in the housing;
Second impedance matching means for matching impedance between the first antenna and the high-frequency signal transmitting / receiving means when the IC card is not housed in the housing;
A first connection state in which the first antenna and the high-frequency signal transmission / reception means are electrically connected via the first impedance matching means, and the first antenna and the high-frequency signal transmission / reception means are connected to the first antenna. Switching means switchable between a second connection state electrically connected via two impedance matching means;
Third impedance matching means for matching impedance between the second antenna and the high-frequency signal transmitting / receiving means when the IC card is housed in the housing;
Fourth impedance matching means for matching impedance between the second antenna and the high-frequency signal transmitting / receiving means when the IC card is not housed in the housing;
A first connection state in which the second antenna and the high-frequency signal transmission / reception means are electrically connected via the third impedance matching means; and the second antenna and the high-frequency signal transmission / reception means. Auxiliary switching means switchable between a second connection state electrically connected via the impedance matching means of 4;
When the detection means detects that the IC card is housed in the housing, the switching means is set to the first connection state and the auxiliary switching means is set to the first connection state, Control means for setting the switching means to the second connection state and setting the auxiliary switching means to the second connection state when the detection means detects that the IC card is not housed in the housing. A wireless communication apparatus comprising:   2. The wireless communication apparatus according to claim 1, wherein the first antenna is an antenna that is located outside the IC card when the IC card is housed in the housing. .

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