JP2001274652A - Impedance matching circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that a conventional impedance matching circuit reads to increase the circuit scale resulting in causing a difficulty of its application to a small-sized electric communication unit because a driver 4 or the like mechanically controlling a moving coil 5 is to be mounted although the circuit constant of a mobile phone can be changed in response to a change in the impedance of an antenna 6. SOLUTION: A mode changeover device 13 sets the circuit constant of the mobile phone according to a set mode.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an impedance matching circuit used for a telecommunication device such as a mobile phone.

[0002]

2. Description of the Related Art FIG.
187 to 191, a configuration diagram showing a conventional impedance matching circuit published in May, 1986, wherein 1 is a transmitter of a mobile phone, 2 is an impedance sensor for measuring the impedance of an antenna 6, and 3 is an impedance sensor. The arithmetic processing unit 4 that determines the circuit constant of the mobile phone based on the impedance measured by the impedance sensor 2 mechanically controls the movable coil 5, and the circuit constant of the mobile phone is determined by the arithmetic processing unit 3. A driving device adapted to the circuit constant, 5 is a movable coil, and 6 is an antenna of a mobile phone.

Next, the operation will be described. The impedance of the antenna 6 of a small telecommunication device such as a mobile phone changes depending on the surrounding environment. Therefore, if the circuit constant of the mobile phone is not changed according to the change in impedance, when the transmitter 1 transmits a radio wave, the antenna 6 receives a reflected wave and causes a reflection loss.

Therefore, conventionally, the impedance sensor 2
Measures the impedance of the antenna 6,
Determines the circuit constant of the mobile phone based on the impedance of the antenna 6. As an operation to determine the circuit constant,
For example, there is an optimal matching operation using the phase and amplitude of the impedance as input conditions.

When the arithmetic processing unit 3 determines the circuit constant of the mobile phone, the drive unit 4 mechanically controls the movable coil 5 in accordance with the determination result, and calculates the circuit constant of the mobile phone. Is performed to match the circuit constant determined by the above.

[0006]

Since the conventional impedance matching circuit is configured as described above, when the impedance of the antenna 6 changes, the circuit constant of the portable telephone can be changed according to the impedance. In addition, since it is necessary to mount the driving device 4 for mechanically controlling the movable coil 5, the circuit scale becomes large, and there is a problem that it is difficult to use the small-sized telecommunication device. In addition, in order to determine the circuit constants of a mobile phone, it is generally necessary to perform an optimal matching operation or the like that complicates the operation, so that it takes a long time to complete impedance matching. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an impedance matching circuit which can reduce the circuit scale and increase the response speed of impedance matching. Aim.

[0008]

An impedance matching circuit according to the present invention sets circuit constants of a telecommunication device according to a mode set by mode setting means.

In the impedance matching circuit according to the present invention, the mode is set according to the on / off state of the switch.

An impedance matching circuit according to the present invention detects a reflected wave when a transmitter transmits a radio wave, and sets a mode in accordance with a result of the detection.

In the impedance matching circuit according to the present invention, the mode is set according to the observation result of a sensor for observing the surrounding environment.

An impedance matching circuit according to the present invention searches for a mode in which the reception power of a receiver is maximized.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below. Embodiment 1 FIG. FIG. 1 is a configuration diagram showing an impedance matching circuit according to Embodiment 1 of the present invention. In the figure, reference numeral 11 denotes a preamplifier of a transmitter of a mobile phone as a telecommunication device, and 12 denotes a preamplifier which is turned on when a user starts a call. On the other hand, a call switch which is turned off when the call is ended, and 13 is a mode switch for setting a mode in accordance with the on / off state of the call switch 12. Note that a mode setting means is constituted by the call switch 12 and the mode switch 13.

14 is a DA converter that outputs an analog voltage corresponding to the mode set by the mode switch 13; 15 is a constant variable matching circuit that sets a circuit constant of the mobile phone according to the analog voltage output by the DA converter 14; Reference numeral 16 denotes a mobile phone antenna. In addition, DA
The converter 14 and the variable constant matching circuit 15 constitute matching means.

Next, the operation will be described. The impedance of the antenna 16 of a small telecommunication device such as a mobile phone changes depending on the surrounding environment. Therefore, unless the circuit constant of the mobile phone is changed in accordance with the change in impedance, when the transmitter transmits radio waves, the antenna 16 receives a reflected wave and causes reflection loss.

Therefore, in the first embodiment, when the call switch 12 is on, the mobile phone recognizes that the mobile phone is close to the human body, while when the call switch 12 is off, the mobile phone turns off the human body. , And recognizes that it exists in free space, and gives a circuit constant corresponding to the recognition result.

That is, the circuit constants when the call switch 12 is on and the circuit constants when the call switch 12 is off are set by calculating or measuring in advance, and the mode switch 13 sets the on / off state of the call switch 12. Detect and turn on
Set the mode according to the off state. When the DA converter 14 outputs an analog voltage corresponding to the mode set by the mode switch 13, the constant variable matching circuit 15 sets the circuit constant of the mobile phone according to the analog voltage output from the DA converter 14. In this example, since there are two modes, two circuit constants of the mobile phone are prepared in advance.

As is clear from the above, the first embodiment
According to the configuration, the circuit constant of the mobile phone is set according to the mode set by the mode switch 13, so that the circuit constant of the mobile phone can be set without performing complicated calculations. This has the effect of increasing the response speed of impedance matching. Further, since a mechanical driving device is not required, there is an effect that the circuit size can be reduced.

Embodiment 2 FIG. 2 is a configuration diagram showing an impedance matching circuit according to a second embodiment of the present invention. In the figure, the same reference numerals as those in FIG. 21 is a reflected wave detection circuit for detecting a reflected wave when the transmitter transmits a radio wave, 22 is an AD converter for converting the detection result of the reflected wave detection circuit 21 from analog to digital, and 23 is a detection result of the reflected wave detection circuit 21 Processing unit that specifies the impedance of the antenna 16 (the plot position on the Smith chart) based on
Reference numeral 4 denotes a mode switch for setting a mode in accordance with the impedance of the antenna 16 specified by the arithmetic processing unit 23. The reflected wave detection circuit 21 and the AD converter 2
2. The mode setting means is composed of the arithmetic processing unit 23 and the mode switch 24.

Next, the operation will be described. In the first embodiment, the mode is set according to the ON / OFF state of the call switch 12.
Impedance (plot position on Smith chart)
May be specified, and the mode may be set according to the impedance of the antenna 16.

That is, when the reflected wave detection circuit 21 detects a reflected wave received from the antenna 16 when the transmitter transmits a radio wave, the AD converter 22 detects the reflected wave (phase and amplitude of the reflected wave) by the reflected wave detection circuit 21. Is converted from analog to digital and output to the arithmetic processing unit 23.

When the arithmetic processing unit 23 receives the detection result of the reflected wave detection circuit 21 from the AD converter 22,
The detection result is plotted on a Smith chart. At this time, when the impedance of the mobile phone is matched, the reflected wave detection circuit 21 is set within the range A in FIG.
Is plotted, but the detection result of the reflected wave detection circuit 21 is plotted outside the range of A in a state where the impedance matching of the mobile phone is not taken. Also, B to G indicate ranges that can be drawn into the range of A by changing the circuit constant of the mobile phone.

When the arithmetic processing unit 23 plots the detection result of the reflected wave detection circuit 21 on the Smith chart, the mode switch 24 sets the mode according to the plot position. For example, if the plot position is within the range of B, the mode corresponding to the range of B is set to a new mode, and if the plot position is within the range of C, the mode corresponding to the range of C is set to a new mode. Set to.

When the DA converter 14 outputs an analog voltage corresponding to the mode set by the mode switch 24, the constant variable matching circuit 15 sets the circuit constant of the mobile phone according to the analog voltage output from the DA converter 14. I do. In this example, since there are seven modes corresponding to the range of A to G, seven circuit constants of the mobile phone are prepared in advance.

As is clear from the above, the second embodiment
According to the configuration described above, since the transmitter detects a reflected wave when transmitting a radio wave and sets the mode according to the detection result, the circuit size can be reduced as in the first embodiment. Thus, there is an effect that the response speed of impedance matching can be increased.

Embodiment 3 FIG. FIG. 4 is a configuration diagram showing an impedance matching circuit according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG. 1 denote the same or corresponding parts, and a description thereof will be omitted. Reference numerals 31 to 33 denote sensors for observing the surrounding environment, and reference numeral 34 denotes a mode switch for setting a mode according to the observation results of the sensors 31 to 33. The sensors 31 to 33 and the mode switch 34 constitute a mode setting means.

Next, the operation will be described. In the first embodiment, the mode is set according to the ON / OFF state of the call switch 12, but the sensors 31 to 31 are set.
The mode may be set according to the observation result of 33. Examples of the types of the sensors 31 to 33 include an infrared sensor, an optical sensor, and a gas sensor.
By setting the mode by combining the observation results of ~ 33, it is possible to set a mode such as a mode when the mobile phone is close to the human body or a mode when the mobile phone is left on a metal desk etc. Can be set.

Embodiment 4 FIG. 5 is a configuration diagram showing an impedance matching circuit according to Embodiment 4 of the present invention. In the figure, the same reference numerals as those in FIG. 1 denote the same or corresponding parts, and a description thereof will be omitted. Reference numeral 41 denotes a detection circuit that detects a radio wave received by the antenna 16 and detects the reception power of the reception circuit 45, reference numeral 42 denotes an AD converter that converts the detection result of the detection circuit 41 from analog to digital, and reference numeral 43 denotes a mode switch 44. When a plurality of modes are sequentially switched to search for a mode in which the reception power of the reception circuit 45 is maximized, an arithmetic processing unit 44 for comparing the reception power in each mode sequentially switches a plurality of modes to set the reception circuit 45 A mode switch for searching for a mode in which the received power is maximized, and 45 is a receiving circuit (receiver) of the mobile phone. The detection circuit 4
1. Mode setting means is composed of the AD converter 42, the arithmetic processing unit 43, and the mode switch 44.

Next, the operation will be described. The mode switch 44 searches for a mode in which the reception power of the reception circuit 45 is maximized in order to increase the reception sensitivity of the reception circuit 45. That is, the mode switch 44 performs an operation of sequentially switching a plurality of modes prepared in advance, and the detection circuit 41
In each mode, the radio wave received by the antenna 16 is detected, and the reception power of the reception circuit 45 is detected.

The arithmetic processing unit 43 operates in each mode.
The reception power of the reception circuit 45 detected by the detection circuit 41 is stored in a memory, and the reception power in each mode is compared.
The mode in which the received power is maximized is notified to the mode switcher 44. When the mode switch 44 receives the notification of the mode in which the received power is maximized from the arithmetic processing unit 43, the mode switch 44 sets the mode to a new mode.

When the D / A converter 14 outputs an analog voltage corresponding to the mode set by the mode switch 44, the constant variable matching circuit 15 sets the circuit constant of the mobile phone according to the analog voltage output from the D / A converter 14. I do. The mode setting operation by the mode switch 44 is periodically performed.

As is clear from the above, the fourth embodiment
According to this configuration, the mode in which the reception power of the reception circuit 45 is maximized is searched, so that the reception sensitivity of the reception circuit 45 can be improved.

[0033]

As described above, according to the present invention, the circuit constant of the telecommunication device is set according to the mode set by the mode setting means, so that the circuit size can be reduced. And the response speed of impedance matching can be increased.

According to the present invention, since the mode is set according to the on / off state of the switch, the mode can be set according to the environment of the telecommunication device.

According to the present invention, since the transmitter detects a reflected wave when transmitting a radio wave and sets the mode according to the detection result, the mode is set according to the environment of the telecommunication device. There is an effect that can be set.

According to the present invention, since the mode is set in accordance with the observation result of the sensor for observing the surrounding environment, the mode can be set in accordance with the environment of the telecommunication device.

According to the present invention, since the mode in which the reception power of the receiver is maximized is searched for, the reception sensitivity of the receiver can be improved.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an impedance matching circuit according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram showing an impedance matching circuit according to a second embodiment of the present invention.

FIG. 3 is a Smith chart showing impedance matching of a telecommunication device.

FIG. 4 is a configuration diagram showing an impedance matching circuit according to a third embodiment of the present invention.

FIG. 5 is a configuration diagram illustrating an impedance matching circuit according to a fourth embodiment of the present invention.

FIG. 6 is a configuration diagram showing a conventional impedance matching circuit.

[Explanation of symbols]

11 Preamplifier, 12 Call switch (mode setting means), 13 Mode switcher (mode setting means), 14
DA converter (matching means), 15 constant variable matching circuit (matching means), 16 antennas, 21 reflected wave detection circuit (mode setting means), 22 AD converter (mode setting means), 23 arithmetic processing section (mode setting means), 24
Mode switcher (mode setting means), 31 to 33 sensor (mode setting means), 34 mode switcher (mode setting means), 41 detection circuit (mode setting means), 42
AD converter (mode setting means), 43 arithmetic processing section (mode setting means), 44 mode switcher (mode setting means), 45 receiving circuit (receiver).

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hideaki Tokaibayashi 2-3-2 Marunouchi, Chiyoda-ku, Tokyo Mitsui Electric Co., Ltd. (72) Inventor Piio Mizusawa 7-1 Ogigaoka, Nonoichi-cho, Ishikawa-gun, Ishikawa School Inside Kanazawa Institute of Technology (72) Inventor Shinichi Separate 7-1 Ogigaoka, Nonoichi-machi, Ishikawa-gun, Ishikawa School Inside Kanazawa Institute of Technology (72) Keisuke Noguchi 7-1 Ogigaoka, Nonoichi-machi, Ishikawa-gun, Ishikawa School Kanazawa Kogyo Inside the university (72) Inventor Yuichi Yotsuyanagi 7-1 Ogigaoka, Nonoichi-cho, Ishikawa-gun, Ishikawa Prefecture F-term in Kanazawa Institute of Technology (reference) LL28 LL29 5K062 AA01 AB13 AC01 AD04 AE02 AE06 AG01 BB08 BB12 BE09

Claims (5)

[Claims] 1. An impedance matching circuit comprising: mode setting means for setting a mode according to an environment; and matching means for setting a circuit constant of a telecommunication device according to the mode set by the mode setting means. 2. The impedance matching circuit according to claim 1, wherein the mode setting means sets the mode in accordance with a switch on / off state. 3. The impedance matching circuit according to claim 1, wherein the mode setting means detects a reflected wave when the transmitter transmits a radio wave, and sets a mode according to the detection result. 4. The impedance matching circuit according to claim 1, wherein the mode setting means sets a mode according to an observation result of a sensor that observes the surrounding environment. 5. The mode setting means for searching for a mode in which the reception power of the receiver is maximized.
The impedance matching circuit as described.