JP2003133982A - Antenna system for multiple frequency bands - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a broad frequency band to be used with a small number of antenna elements. SOLUTION: A matching circuit for FM 5 and a matching circuit for TV 6 are switched by a switching circuit 7 to enable an antenna element 2 to receive either FM broadcast and TV broadcast. The matching circuit for FM 5 matches impedance between the input side of an amplifier for FM and the antenna element 2 in a relatively low frequency band in a VHF band. The matching circuit for TV 6 matches impedance between the antenna element 2 and the input side of an amplifier for TV 4 in a frequency band higher than the a frequency band for FM broadcast in the VHF band. Both FM broadcast and TV broadcast can be received by one antenna element 2 with a high sensitivity.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-frequency band antenna system capable of receiving radio broadcasts, television broadcasts, etc. by switching to frequency bands to which the respective broadcasts are assigned.

[0002]

2. Description of the Related Art Conventionally, in vehicles such as automobiles, AM radio broadcasting in the medium wave (LF, MF) band, ultra-high frequency (VH)
In order to receive FM radio broadcasts and television broadcasts in the F) band, and television broadcasts in the ultra-high frequency (UHF, SHF) band, individual antenna elements adapted for each reception frequency band are used. Further, since a vehicle receives various broadcasts while traveling and moving, a diversity system in which a plurality of antenna elements are switched and reception is performed even in the same frequency band may be used.

Japanese Unexamined Patent Publication No. 60-136433 discloses a prior art in which a pair of antenna patterns arranged on a window glass of a vehicle are switched to receive a broadcast in a diversity system. Japanese Patent Application Laid-Open No. 7-283767 discloses a prior art in which a plurality of antennas are formed on a rear window glass of an automobile, diversity systems are switched, and a received signal is amplified by one antenna amplifier.

Japanese Utility Model Laid-Open No. 5-68146 and Japanese Unexamined Patent Application Publication No. Hei 10
In Japanese Patent No. 242730, two antennas for receiving FM broadcasting are used, and a diversity system is realized by switching to either antenna at the time of receiving FM radio broadcasting, and received signals of both antennas are combined at the time of receiving AM radio broadcasting. Prior art is disclosed. Japanese Patent Laid-Open No. 10-242730
The FM receiving antenna of the publication is provided on each of two window glasses of an automobile. Japanese Patent Laid-Open No. 2000-5912
No. 4 publication discloses an AM having a pattern mainly for FM reception on the rear glass of a vehicle and having a characteristic of AM reception.
There is disclosed a prior art in which an AM / FM combined antenna conductor and an AM antenna conductor having a pattern capable of ensuring AM reception characteristics are provided and two antenna conductors are coupled via a low-pass filter to perform AM reception. Further, JP-A-7-
7319 gazette, on a flexible film substrate,
There is disclosed a prior art in which two antenna element patterns having different shapes are arranged and affixed to the glass surface of the window from the inside of the vehicle and a plurality of flexible film substrates are used to enable a diversity system.

As an antenna formed on the glass of an automobile or the like, Japanese Utility Model Laid-Open No. 7-42205 discloses a prior art in which an indoor antenna and an outdoor antenna are joined via a dielectric member. . In addition, JP-A-7-12
In Japanese Patent No. 2921, a horizontally long ground pattern and a vertically long radiation pattern are arranged adjacent to an insulating film,
There is disclosed a prior art in which one surface of an insulating film is covered with an insulating member such as rubber and the other surface is attached to an automobile window glass.

[0006]

In recent years, automobiles are often equipped with display indicators for navigation devices. Therefore, it is possible to receive television broadcasts using the display indicators. Is becoming. In the navigation device, VICS
It is also necessary to receive road traffic information transmitted using FM multiplex broadcasting, such as (Vehicle Information and Communication System). Furthermore, it is necessary to receive AM radio broadcasts and FM radio broadcasts by conventional car radios and car audios. These have different frequency bands, and conventionally, individual antenna elements adapted for each reception frequency band are used, and one antenna element is selected and used for each frequency band.
In automobiles and the like, the space in which an antenna element can be mounted is limited like window glass, and when the number of antenna elements increases, the mounting space becomes insufficient and the system cannot be established.

Further, since an antenna amplifier is provided for each antenna element in order to enhance the signal received by the antenna element, if the number of antenna elements increases, a lot of man-hours are required to connect the antenna elements and the antenna amplifier. This is an obstacle to cost reduction. Japanese Utility Model Laid-Open No. 7-42205 and Japanese Patent Laid-Open No. 7-1229.
An antenna of the type disclosed in Japanese Patent No. 21 is
In AM radio broadcasting and FM radio broadcasting, the frequency band is too low to be used.

An object of the present invention is to provide an antenna system for a plurality of frequency bands which can use a large number of frequency bands with a small number of antenna elements.

[0009]

DISCLOSURE OF THE INVENTION The present invention is an antenna system for a plurality of frequency bands which can be used by switching a plurality of frequency bands. The antenna system is provided for each frequency band and is received by the antenna element. A plurality of signal processing circuits capable of processing a signal, and a plurality of matching circuits that are provided for each frequency band and perform impedance matching between the antenna element and the signal processing circuit in each frequency band; An antenna system for a plurality of frequency bands, comprising: a switching circuit that switches between the plurality of matching circuits according to a frequency band between an element and a signal processing circuit.

According to the present invention, the antenna system for a plurality of frequency bands can be used by switching a plurality of frequency bands, and the antenna element, the signal processing circuit, the matching circuit having the number of frequency bands, and the matching circuit. And a switching circuit for performing impedance matching between the antenna element and the signal processing circuit. Since the antenna elements are used in multiple frequency bands by switching the matching circuit, the number of frequency bands can be increased compared to the number of antenna elements, and many frequency bands can be used by a small number of antenna elements. You can Since the number of antenna elements decreases,
It can be installed in a small space and the cost can be reduced by reducing the number of parts and man-hours required for installation.

Further, the present invention is an antenna system for a plurality of frequency bands which can be used by switching a plurality of frequency bands, wherein the plurality of antenna elements are provided for each frequency band, and are provided for each frequency band, The plurality of signal processing circuits capable of processing a signal received by the antenna element and the plurality of signal processing circuits provided for each frequency band and performing impedance matching between the antenna element and the signal processing circuit in each frequency band. A matching circuit and a switching circuit for switching the plurality of matching circuits according to the frequency band between the antenna element and the signal processing circuit are included, and the matching circuit continuously performs impedance matching according to the signal frequency. For multiple frequency bands, characterized by having a function of varying It is a stem.

According to the present invention, a plurality of antenna elements, a matching circuit and a signal processing circuit can be switched according to a frequency band and used in a plurality of frequency bands. Since there is a matching circuit that has a function of continuously varying the impedance matching state according to the signal frequency, impedance matching can be performed in a wide band in that frequency band, and a wide range of frequencies can be used. Can be received with sensitivity. Since the antenna elements can be used in a wide band, the number can be reduced, the antenna can be installed in a small space, and the cost can be reduced by reducing the number of parts and man-hours required for installation.

Further, in the present invention, the antenna element has a plurality of antennas having different frequency bands to be used by resonating, and the plurality of antenna elements are arranged at a frequency lower than any resonance frequency of the plurality of antenna elements. The present invention is characterized by further including a coupling / separation circuit that couples the antenna elements to each other and separates the plurality of antenna elements in a frequency band in which the antennas resonate.

According to the present invention, the antenna elements used for different frequency bands can be coupled to each other by the coupling / separating circuit at a frequency lower than each resonance frequency to enhance the receiving sensitivity. In the frequency band where each antenna element is used by resonating, it can be separated and used by the coupling / separating circuit.

Further, in the present invention, the coupling / separation circuit has a low impedance at a frequency lower than a resonance frequency of any of the plurality of antenna elements, and has a high impedance at a frequency band in which each antenna element is used for resonance. It is characterized in that the coupling and the separation are performed by an inductor.

According to the present invention, in the coupling / separating circuit, the antenna elements used in different frequency bands are coupled by using the inductance with low impedance in the frequency bands lower than the respective resonance frequencies, and are high in the frequencies at which they resonate. It can be separated as an impedance.

The present invention further includes a synthetic resin film on which the antenna element is mounted as a conductive pattern, and a circuit board on which the signal processing circuit is mounted, at least a part of the synthetic resin film being on the circuit board. It is characterized in that the synthetic resin film and the circuit board are connected and integrated.

According to the present invention, an antenna element that can be used in a plurality of frequency bands is mounted on a synthetic resin film as a conductive pattern, and is integrated with a circuit board on which a signal processing circuit is mounted. The work can be simplified and the cost can be reduced.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a basic electrical configuration of a multi-frequency band antenna system 1 which can be used by switching a plurality of frequency bands as a first embodiment of the present invention. The antenna system 1 for multiple frequency bands of the present embodiment can receive FM broadcasts such as FM radio broadcasts and FM multiplex broadcasts and television broadcasts with the antenna element 2 for both FM / TV. FM broadcasting uses a relatively low frequency band in the VHF band, such as 76 MHz to 90 MHz. Television broadcasting uses the VHF band and the UHF band of a frequency band higher than FM broadcasting, such as 90 MHz to 770 MHz.

The FM amplifier 3 and the TV amplifier 4 are
It is possible to perform signal processing that amplifies weak signals received by FM broadcasting and television broadcasting. The antenna element 2 is provided for each frequency band on the input side of the FM amplifier 3 and the TV amplifier 4 as a signal processing circuit provided for each frequency band, and the antenna element 2 is provided for each frequency band. An FM matching circuit 5 and a TV matching circuit 6 that perform impedance matching between the two are provided. The switching circuit 7 switches between the antenna element 2 and the FM matching circuit 5 and the TV matching circuit 6 in accordance with the frequency band. The switching circuit 7 can be configured using a semiconductor switching element such as a silicon (Si) PIN diode or a gallium arsenide (GaAs) FET. F
The M amplifier 3, the TV amplifier 4, the FM matching circuit 5, the TV matching circuit 6, and the switching circuit 7 are integrally formed on the circuit board 8 and arranged in proximity to the antenna element 2.

FIG. 2 shows equivalent configurations of the FM matching circuit 5 and the TV matching circuit 6 of FIG. 1 by (a) and (b), respectively. As shown in FIG. 2 (a),
The FM matching circuit 5 can be composed of only the inductor 11. Inductance L of inductor 11
Is 0.4 μH, for example. As shown in FIG. 2B, the TV matching circuit 6 can be configured by a parallel circuit including the inductor 12 and the capacitor 13, and a parallel circuit including the inductor 14 and the capacitor 15. The inductance L of the inductors 12 and 14 is, for example, 0.1 μH and 0.001 μH, and the capacitance C of the capacitors 13 and 15 is, for example, 15 p.
F and 10 pF.

FIG. 3 shows the FM of FIG. 2 in (a) and (b).
The effects of using the matching circuit 5 for TV and the matching circuit 6 for TV are shown respectively, and (c) shows a case where the antenna element 2 is shared without using the matching circuit for comparison. Antenna element 2 has a total length of 500
mm linear antenna pattern is used, for example, 130 MH under the High side of the VHF band for television broadcasting.
Tune to a frequency around z. As shown in FIG. 3A, by using the FM matching circuit 5, the sensitivity of about 7 dB can be improved in the frequency band of 76 MHz to 90 MHz as compared with FIG. 3C. As shown in FIG. 3B, the TV matching circuit 6
By using 3d on the low side of the VHF band
On the High side of the B and VHF bands, sensitivity of about 2 dB can be improved. In the UHF band, it is 0 dB,
Although there is no substantial improvement in sensitivity, there is no reduction in sensitivity.

As described above, in the multi-frequency band antenna system 1 of this embodiment, the switching circuit 7 includes the FM.
Since the matching circuit 5 for TV and the matching circuit 6 for TV are switched and used in a plurality of frequency bands, the number of frequency bands can be increased compared to the number of antenna elements 2, and a large number of frequency bands can be reduced. The antenna element 2 can be used. Since the number of antenna elements 2 is reduced, the antenna element 2 can be installed in a small space, and the number of parts and man-hours required for installation can be reduced to reduce the cost.

FIG. 4 shows a schematic electrical configuration of a multiple frequency band antenna system 19 according to a second embodiment of the present invention. The multi-frequency band antenna system 19 of the present embodiment has a plurality of glass antenna patterns 21, on a film substrate 20 attached to a window glass of an automobile or the like.
22, 23, and 24 are formed, and impedance matching is performed through the variable matching circuits 31, 32, 33, and 34 of the amplifier module 30 and switched by the selector 35. The selector 35 is an electronic switch that uses a semiconductor switching element such as a PIN diode or FET, and switches according to a selection signal from the decoder 36. The signal selectively switched by the selector 35 is input to the booster amplifier 38 via the AGC circuit 37. The AGC circuit 37 attenuates the signal when an excessive input signal exists at the target signal frequency or its adjacent frequency, and prevents the intermodulation characteristic and the like from being deteriorated. The booster amplifier 38 amplifies the received signal. Selector 3
The instruction for switching at 5 is given by a switching signal for the diversity system given to the decoder through the connector 39.

A receiver 40 is installed in a vehicle such as an automobile, and is provided with connectors 41 and 42. Connector 41
A control cable 42 is connected to the connector 39 of the amplifier module 30. Connector 42
The antenna output from the booster amplifier 38 of the amplifier module 30 is input to the signal input via the signal cable 46.

The variable matching circuits 31, 3 of this embodiment
2, 33 and 34 have a function of continuously varying the impedance matching state according to the signal frequency. Each of the variable matching circuits 31, 32, 33, 34 includes, for example, the FM matching circuit 5 and the TV matching circuit 6 of the embodiment shown in FIG. 1 and is switched by an electronic switch such as a PIN diode. By using a variable capacitance diode or the like in the portion corresponding to the capacitors 13 and 15 in the configuration corresponding to 6, the capacitance can be changed and the frequency range in which impedance matching can be performed can be widened. Thereby, for example, FM band, VHF-Low band, VHF-High band, UH
The F-Low band and the UHF-High band can be covered. Glass antenna 2 with selector 35
1, 22, 23, 24 and the variable matching circuit 31,
By switching between 32, 33 and 34, diversity system reception can be performed.

FIG. 5 shows a state in which the antenna system 19 for multiple frequency bands of this embodiment is mounted on a vehicle 50 such as an automobile. The film substrate 20 is attached to the rear glass 51 from the vehicle interior side. The amplifier module 30 is installed on the roof 52 near the upper edge of the rear glass 51. The amplifier module 30 can be equipped with a communication antenna such as GPS, VICS, ETC, or a mobile phone.

The variable matching circuits 31, 3 of this embodiment
Since 2, 33, and 34 have a function of continuously changing the impedance matching state according to the signal frequency, impedance matching can be performed in a wide band, and a wide range of frequencies can be received with high sensitivity. . Therefore, installing multiple antenna elements,
It is also possible to improve reception sensitivity by the diversity method in a wide band.

As described above, the antenna elements that can be used in a plurality of frequency bands are mounted as a conductive pattern on the film substrate 20 such as a synthetic resin film, and are integrated with the circuit board on which the signal processing circuit such as the amplifier module 30 is mounted. To simplify the work such as installing the antenna,
The cost can be reduced.

FIG. 6 shows a schematic electrical configuration of a multiple frequency band antenna system 59 according to a third embodiment of the present invention. In the present embodiment, an AM antenna element 60 is provided for receiving AM radio broadcasts, and two ATs are provided for performing analog television reception by a diversity system.
V antenna elements 61 and 62 are provided. Received signals from the AM antenna element 60 and the ATV antenna elements 61 and 62 are taken out via antenna output lines 63, 64 and 65, respectively.

The AM antenna element 60 has a lower frequency band than the ATV antenna elements 61 and 62 in the frequency band used by resonating. However, since the resonance frequency suitable for medium waves is quite low, A
The M antenna element 60 operates as a minute antenna in a frequency band lower than the resonance frequency. Therefore, the antenna gain becomes relatively small in the AM broadcast band. The decrease in antenna gain in the AM broadcast band is compensated by coupling the ATV antenna elements 61 and 62 with the AM antenna element 60 via the inductors 66 and 67, respectively. The inductors 66 and 67 are A
A frequency that is lower than the resonance frequency of either the M antenna element 60 or the ATV antenna elements 61 and 62 is coupled to each other, and as a coupling / separation circuit that separates the antenna elements in the frequency band in which each antenna element is used for resonance. Function. Inductors 66 and 6
By using 7, the antenna elements can be coupled with low impedance in the frequency band lower than the resonance frequency of each antenna element, and can be separated with high impedance at the frequencies at which they resonate.

FIG. 7 shows a fourth embodiment of the present invention.
The structure of the antenna system 69 for multiple frequency bands including the first and third embodiments is shown. In the present embodiment, parts corresponding to those of the first and third embodiments are designated by the same reference numerals, and overlapping description will be omitted. Digital television broadcasting has two antenna elements 71,
Received at 72. For analog television reception, the antenna element 73, 74 and the ATV antenna element 61, 62 are switched by the selector 75,
Realize a diversity system. The ATV antenna elements 61 and 62 are also used for FM broadcast reception, and perform impedance matching using the TV matching circuits 6a and 6b. For FM broadcast reception, impedance matching is performed using the FM matching circuits 5a and 5b.
Switching between FM and TV is performed by switching circuits 7a and 7b. The AM / FM signal processing circuit 76 is a group of components such as an amplifier related to the reception of AM broadcasts and FM broadcasts. The configuration of the amplifier and the like related to TV reception is summarized as a TV signal processing circuit 77. Detailed description of the AM / FM signal processing circuit 76 and the TV signal processing circuit 77 will be omitted.

[0033]

As described above, according to the present invention, since the antenna elements are used in a plurality of frequency bands by switching the matching circuits, the number of usable frequency bands is larger than the number of antenna elements. can do. Even if the number of frequency bands increases, the number of antenna elements can be reduced, so that the antenna can be installed in a small space, and the number of parts and man-hours can be reduced to reduce cost.

Further, according to the present invention, among the matching circuits, those having a function of continuously changing the impedance matching state according to the signal frequency can widen the frequency band and can increase the frequency in a wide range. Can be received with sensitivity.

Further, according to the present invention, the antenna elements used for different frequency bands are coupled to each other at a frequency lower than each resonance frequency to enhance the receiving sensitivity, and each antenna element is used by resonating. In the frequency band to be used, since it can be used separately, it can be used in a number of frequency bands larger than the number of antenna elements.

According to the present invention, the inductance is used to couple the antenna elements used in different frequency bands with low impedance in the frequency bands lower than the respective resonance frequencies, and with high impedance in the frequency bands in which they resonate. Can be separated.

Further, according to the present invention, the antenna element which can be used in a plurality of frequency bands and the signal processing circuit are integrated, the work such as installation of the antenna is simplified, and the cost can be reduced.

[Brief description of drawings]

FIG. 1 is a block diagram showing a basic electrical configuration of a multiple frequency band antenna system 1 according to a first embodiment of the present invention.

FIG. 2 is an equivalent circuit diagram of the FM matching circuit 5 and the TV matching circuit 6 of FIG.

FIG. 3 is a frequency characteristic diagram showing the effect of using the FM matching circuit 5 and the TV matching circuit 6 of FIG. 1 in comparison with the case where they are not used.

FIG. 4 is a block diagram showing a schematic electrical configuration of a multiple frequency band antenna system 19 according to a second embodiment of the present invention.

5 is a multiple frequency band antenna system 19 of FIG. 4;
FIG. 3 is a perspective view showing a state in which is mounted on a vehicle 50.

FIG. 6 is a block diagram showing a schematic electrical configuration of a multiple frequency band antenna system 59 according to a third embodiment of the present invention.

FIG. 7 is a block diagram showing a schematic electrical configuration of a multiple frequency band antenna system 69 according to a fourth embodiment of the present invention.

[Explanation of symbols]

1, 19, 59, 69 Multiple frequency band antenna system 2, 71, 72, 73, 74 Antenna element 3 FM amplifier 4 TV amplifier 5, 5a, 5b FM matching circuit 6, 6a, 6b TV matching circuit 7, 7a, 7b Switching circuit 11, 12, 14, 66, 67 Inductor 13, 15 Capacitor 20 Film substrate 21, 22, 23, 24 Glass antenna pattern 30 Amplifier module 31, 32, 33, 34 Variable matching circuit 35, 75 Selector 50 Vehicle 51 Rear glass 60 AM antenna element 61, 62 ATV antenna element

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Naoki Hisashima             1-228 Goshodori, Hyogo-ku, Kobe-shi, Hyogo               Within Fujitsu Ten Limited (72) Inventor Kazushi Ogino             1-228 Goshodori, Hyogo-ku, Kobe-shi, Hyogo               Within Fujitsu Ten Limited F-term (reference) 5J046 AA04 AB06 AB17 LA01 LA05                       LA15 LA16 TA03                 5J047 AA04 AB06 AB17 EC02                 5K062 AA05 AA06 AB10 AB11 AC01                       AE05 BA01 BB03 BF07

Claims (5)

[Claims] 1. An antenna system for a plurality of frequency bands, which can be used by switching a plurality of frequency bands, comprising: an antenna element, and a device provided for each frequency band and capable of processing a signal received by the antenna element. Between the plurality of signal processing circuits and the plurality of matching circuits provided for each frequency band and performing impedance matching between the antenna element and the signal processing circuit in each frequency band, and between the antenna element and the signal processing circuit And a switching circuit for switching the plurality of matching circuits according to the frequency band, the antenna system for a plurality of frequency bands. 2. An antenna system for a plurality of frequency bands that can be used by switching a plurality of frequency bands, wherein the plurality of antenna elements are provided for each frequency band, and the antenna element is provided for each frequency band. A plurality of signal processing circuits capable of processing received signals, and a plurality of matching circuits provided for each frequency band and performing impedance matching between the antenna element and the signal processing circuit in each frequency band; A switching circuit that switches between the plurality of matching circuits according to the frequency band between the antenna element and the signal processing circuit, and the matching circuit continuously changes the impedance matching state according to the signal frequency. An antenna system for a plurality of frequency bands, which has a function. 3. The antenna element has a plurality of antennas having different frequency bands to be used by resonating, and the plurality of antenna elements are mutually coupled at a frequency lower than a resonance frequency of any of the plurality of antenna elements. The antenna system for multiple frequency bands according to claim 1 or 2, further comprising a coupling / separation circuit that separates the plurality of antenna elements in a frequency band in which each antenna is resonated and used. 4. The inductor having a low impedance at a frequency lower than a resonance frequency of any of the plurality of antenna elements and a high impedance at a frequency band in which the antenna elements are resonated and used, The multi-frequency band antenna system according to claim 3, wherein the combining and the separating are performed. 5. A synthetic resin film on which the antenna element is mounted as a conductive pattern, and a circuit board on which the signal processing circuit is mounted, wherein at least a part of the synthetic resin film is connected to the circuit board. The multi-frequency band antenna system according to claim 1, wherein the synthetic resin film and the circuit board are integrated.