JPH09186621A - Portable radio information terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To automatically set a mode and to improve operability by obtaining impedance matching with a communication part even in a state where an antenna is folded to prevent the deterioration of a transmission and reception characteristic and permitting the operation mode of a terminal such as a commu nication mode to be linked with the attitude the antenna in a portable radio information terminal. SOLUTION: The terminal is provided with the antenna 10 with folding possible configuration against the terminal, an impedance matching part 12 obtaining matching with the antenna 10, a radio communication part 13, an information processing part 14 having an input/output part and a detecting means 15 detecting the folding state of the antenna 10. Even if the antenna 10 becomes the folded state and the characteristic impedance of the antenna 10 is changed, the reactance value of the impedance matching means 12 is controlled by the output signal of the detecting means 15 and the state is made to be the optimum transmission and reception state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to this portable wireless information terminal, and more particularly to improvement of a transmission / reception state with respect to a change in antenna characteristic of the terminal and switching of operation modes such as communication.

[0002]

2. Description of the Related Art In recent years, along with the development of mobile communication such as car telephones, portable wireless information terminals having a wireless communication function for communicating voice, data and the like are becoming popular. In general,
This portable wireless information terminal has, as applications, both communication modes of a wireless voice call function and a data transmission function of e-mail or the like. A ½ wavelength or ¼ wavelength whip antenna, a helical antenna, or the like is adopted in this portable wireless information terminal. FIG. 5 is a schematic view showing the appearance of this terminal in the related art and the different states of the antennas provided therein. Normally, when a voice call mode is selected and a call is made, this terminal is held by a hand like a mobile phone to input and output voice to make a call. Therefore, as shown in FIG. Although it is used in a stretched state, in the e-mail mode, since the terminal is used by placing it on a desk or the like, the antenna is bent and used as shown in FIG. 5B.

Generally, although the characteristic impedance of the antenna is different between the straight extended state shown in FIG. 5A and the bent state shown in FIG. 5B, the radio communication section and the antenna are different. The adjustment by the impedance matching unit provided between the antennas is usually such that the antenna and the wireless communication unit can be matched with the antenna extended. On the other hand, when selecting the e-mail mode and communicating, the antenna will be used with the antenna bent. Therefore, in this usage state, impedance matching with the wireless communication part cannot be obtained and the reception input level drops. Moreover, since the transmission output level radiated from the antenna is also lowered, the communicable area becomes smaller than that in the voice call mode. In addition, since the posture of the antenna and the communication mode are not linked, the setting / switching of the communication mode such as voice call mode or e-mail mode is performed manually in parallel with the manual work of extending and bending the antenna. It has to be used and the operability is not good.

[0004]

DISCLOSURE OF THE INVENTION In the prior art, the present invention is to deteriorate the transmission / reception characteristics due to impedance matching mismatch caused by the change of the antenna characteristic impedance when the antenna is bent, and to change the attitude of the antenna. It was made in view of the above-mentioned problem that the operability and the switching of the communication modes have to be manually performed individually, and the operability is not good. To provide a terminal in which the impedance matching is achieved, the transmission / reception characteristics are prevented from being deteriorated, and the operation mode of the terminal such as the communication mode is linked with the attitude of the antenna, and the mode is automatically set to improve the operability. It is in.

[0005]

According to a first aspect of the present invention, there is provided a portable radio having an antenna, an impedance matching means for matching the antenna, a communication signal processing means, and an information processing means having an input / output section. In the information terminal, the antenna has a structure capable of being bent with respect to the terminal, and a detecting means for detecting a bent state is provided, and the reactance value of the impedance matching means is controlled by an output signal of the detecting means, Even if the characteristic impedance changes due to bending, matching with the antenna is achieved, and it is possible to prevent deterioration of the transmission / reception characteristics.

According to a second aspect of the present invention, in the portable wireless information terminal having an antenna, an impedance matching means for matching the antenna, a communication signal processing means, and an information processing means having an input / output unit, the antenna is provided. And a detection means for detecting a bending state, and an operation mode of at least one of the communication signal processing means and the information processing means is controlled by an output signal of the detection means. In this way, even if the operation mode such as the communication mode changes due to the bending of the antenna, the mode can be automatically set.

According to a third aspect of the present invention, in the above-described first or second aspect of the invention, the detecting means detects many different bending states and performs the control operation according to the output of the detecting means. Therefore, it is possible to obtain better conditions for further transmission and reception or use.

[0008]

DETAILED DESCRIPTION OF THE INVENTION An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a block diagram showing the outline of the configuration of the portable wireless information terminal of the present invention.
In FIG. 1, 10 is a transmitting / receiving antenna having a bendable structure, 11 is an antenna bending detection unit for detecting a posture when the antenna 10 is bent, and 12
Is an impedance matching unit that achieves impedance matching with the antenna, 13 is a wireless communication unit including various transmission / reception circuits, and 14 is an information processing unit that has an input / output unit and performs various signal processing.

FIG. 2 shows the input reflection coefficient of the antenna 10, that is, the return loss. The figure (A) shows the return loss when the antenna 10 is extended, and the figure (B) shows the antenna 10. 5 is a graph showing an example of a return loss at the time of bending. Normally, the antenna 10 is shown in FIG.
As shown in (A), the impedance matching unit 12 is adjusted so as to minimize the return loss at the desired frequency f ₀ in the stretched state, that is, to match the wireless communication unit 13. However, as shown in FIG. 5B, when the antenna is bent 90 degrees, the characteristic impedance of the antenna changes, so that this matching state collapses, and FIG.
As shown in (B), the resonance frequency of the antenna 10 deviates from f ₀ to f ₀ ′, the return loss at the desired frequency f ₀ increases, and the reception characteristics deteriorate. Therefore, in order to achieve matching when the antenna is bent, it is necessary to newly adjust the impedance matching section 12.

In the present invention, the antenna bending detection unit 11 detects that the antenna has been bent and its posture has changed, and the reactance value of the impedance matching unit 12 is changed according to the detected output to achieve matching. I am trying. FIG. 3 exemplifies a reactance circuit generally used for impedance matching. As the impedance matching section 12, a reactance circuit such as an inductance 31 and a capacitance 32 is used as shown in FIG. Then, the reactance value of the impedance matching unit 12 can be changed by changing the bias voltage applied to the variable capacitance diode 30 which is the variable reactance element through the choke coil 33. Therefore, even for antennas having different characteristic impedances, matching between the antenna 10 and the wireless communication unit 13 can be achieved by applying an optimum bias voltage to the variable capacitance diode 30.

Incidentally, here, the impedance matching unit 1
As an example of 2, a circuit including two inductances 31, one capacitance 32, and one variable capacitance diode 30 is shown, but it is of course possible to combine a plurality of these elements to form a circuit.

The bias voltage applied through the choke coil 33 is such that the bias voltages V1 and V2 are such that the return loss at the desired frequency f ₀ is minimized when the antenna is extended and bent. 11, the bias voltage is output as the identification signal 15 in FIG. 1 so as to correspond to the attitude of the antenna. The identification signal 15 is applied to the variable capacitance diode 30 in the impedance matching unit 12, and thereby the reactance value of the impedance matching unit 12 is adjusted so that the impedance matching unit 12 is always in the matched state.

Further, the above-mentioned identification signal 15 output from the antenna bending detector 11 is used not only as a control signal for antenna impedance matching, but also in the information processor 14.
Also, by using it as a signal for switching the operation mode such as the communication mode of the wireless communication unit 13, the switching between the voice call mode in which the antenna is extended and the electronic mail mode in which the antenna is folded is interlocked with the attitude of the antenna. It is possible to do it automatically.

FIG. 4 shows an example of means for detecting a posture change due to antenna bending, which is used when the antenna bending detecting section 11 is implemented. Here, a simple contact switch 40
Is used to detect that the antenna is bent. That is, when the antenna 10 is bent around the rotating portion 41 and the element of the antenna 10 contacts the switch 40, the output signal of the switch 40 is switched and it is detected that the antenna is bent. .

In the above-described embodiment, the posture of the antenna has two values of extension / bending, that is, the bending angle of the antenna has two values of 0 degree and 90 degrees, but other embodiments of the present invention are possible. As a form, for example, an angle sensor or the like is used as the antenna bending detection unit 11 to finely detect the bending angle of the antenna, and with the method described in the present invention, with respect to the characteristic impedance of the antenna corresponding to each different angle, If impedance is finely adjusted, 0 degree and 9
This is even more effective because a better transmission / reception condition or an optimum condition may be obtained at an angle other than 0 degree.

[0016]

As is apparent from the above, according to the present invention, the antenna is always matched with the antenna regardless of the change in the characteristic impedance of the antenna which changes depending on the posture of the antenna in the straight extended state or the bent state. Since the state can be obtained, it is possible to prevent the communication area from being reduced due to the reduction of the reception input level and the transmission output level. Therefore, even if the operation mode such as the communication mode such as the voice call mode / e-mail mode is switched, communication is always performed with the best antenna characteristics, which is a great effect. Also, since the operation mode such as the communication mode is automatically switched according to the attitude of the antenna, the operation efficiency is improved and the usability is improved. Furthermore, by controlling according to the detection output of many different bending states of the antenna, the effect can be further increased in transmission / reception or in use.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an outline of a configuration of a portable wireless information terminal of the present invention.

2 shows the input reflection coefficient of the antenna 10, that is, the return loss. FIG. 2A shows the return loss when the antenna 10 is extended, and FIG. 2B shows the return loss when the antenna 10 is bent. 5 is a graph showing an example of the return loss of FIG.

FIG. 3 illustrates a reactance circuit commonly used for impedance matching.

FIG. 4 shows an example of a means for detecting a posture change due to antenna bending, which is used when the antenna bending detection unit 11 is implemented.

FIG. 5 is a schematic view showing the appearance of the terminal and the different states of the antennas provided therein in the related art.

[Explanation of symbols]

10 ... Antenna, 11 ... Antenna bending detection section, 12
... Impedance matching section, 13 ... Wireless communication section, 14 ... Information processing section, 15 ... Antenna bending identification signal, 30 ... Variable capacitance diode, 31 ... Inductance, 32 ... Capacitance, 33 ... Choke coil, 40 ... Switch,
41 ... Rotating part.

Claims (3)

[Claims] 1. A portable wireless information terminal having an antenna, an impedance matching means for matching the antenna, a communication signal processing means, and an information processing means having an input / output section, wherein the antenna is bent with respect to the terminal. A portable wireless information terminal having a possible structure, provided with detection means for detecting a bent state, and controlling the reactance value of the impedance matching means by an output signal of the detection means. 2. A portable wireless information terminal having an antenna, an impedance matching means for matching the antenna, a communication signal processing means, and an information processing means having an input / output section, wherein the antenna is bent with respect to the terminal. In addition to having a possible structure, a detection means for detecting a bending state is provided, and an operation mode in at least one of the communication signal processing means and the information processing means is controlled by an output signal of the detection means. A portable wireless information terminal characterized by: 3. The portable type according to claim 1, wherein the detecting means detects many different bending states and performs the control operation according to the output of the detecting means. Wireless information terminal.