JP2000091943A - Radio communication device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a radio communication device which sends/receives plural carriers at the same time and prevents a spurious component generated in a receiver from being emitted from an antenna system in a transmission operation. SOLUTION: The radio communication device comprises a transmitter 1 which transmits two carriers or over at the same time, at least one system of a receiver 2, an antenna system 5, an antenna duplexer means (circulator 31) that uses the antenna system 5 in common by the transmitter 1 and the receiver 2, and each receiver 2 and the antenna multicouplex means are connected to each other via an isolator 6.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication device, and more particularly to a wireless communication device for transmitting and receiving a plurality of carriers simultaneously to communicate with a plurality of partners.

[0002]

FIG. 13 shows an example of a conventional radio communication apparatus. The transmission output signal of the transmission device 1 is used to remove a harmonic component generated in the circulator 31 which is one of antenna sharing means for sharing the antenna device 5 for a plurality of transmission / reception and a power amplifier 101 inside the transmission device. Are radiated as radio waves from the antenna device 5 that is used for both transmission and reception via the low-pass filter 4. On the other hand, the high-frequency signal received by the antenna device 5 is input to the receiving device 2 via the low-pass filter 4 and the circulator 31.

As typical antenna sharing means, there are a duplexer, a changeover switch and the like in addition to the circulator shown in FIG. Among these antenna sharing means, the duplexer is applied to a system having different transmission / reception frequencies. The circulator and the changeover switch are mainly applied to a system having the same transmission / reception frequency. As for the changeover switch, simplex communication and TDMA (Time Division) are used.
Multiple Access) / TDD communication, etc.
This is applied to a system that does not perform simultaneous transmission and reception.

Since these antenna sharing means generally have an isolation level between transmission and reception of about 30 to 50 dB, when the output power of the transmission device increases, the leakage power to the reception device 2 increases. Therefore, a harmonic distortion component may be generated due to saturation or rectification in the low-noise amplifier 202. The harmonic distortion component generated by the low-noise amplifier 202 is blocked by the respective actions of the band-pass filter 201, the circulator 31, and the low-pass filter 4, thereby preventing the antenna device 5 from radiating as a spurious radio wave.

[0005]

In a radio communication apparatus, such as a base station apparatus of a mobile communication system, which communicates with a plurality of partners by simultaneously transmitting and receiving a plurality of carriers, a plurality of signals are simultaneously transmitted. Leaks to the receiving device 2, an intermodulation distortion component is generated in addition to the harmonic distortion component of each carrier. Generally, the intermodulation distortion spectrum occurs in the transmission frequency band,
A band pass filter 201 mounted on the receiving device 2,
It cannot be blocked by the low-pass filter 4 connected to the antenna device 5. For this reason, there is a problem that the reverse isolation between the receiving device 2 and the antenna device 5 is insufficient and the antenna device 5 radiates high-level unnecessary radiation.

In order to solve such a problem, a method of releasing a receiving device from antenna sharing means at the time of transmission has been adopted. However, since the low-noise amplifier of the receiving apparatus generally has high voltage sensitivity, when the input is opened, the influence of the spatial coupling is strongly affected, and there is a case where it cannot always be an effective countermeasure. Also, when a circulator is used as the antenna sharing means, the reverse connection characteristic between the transmitting device and the antenna device is degraded by opening the receiving device connection terminal, and the transmitting device is disconnected when the antenna device fails. There is also a problem that the protection ability is deteriorated. Furthermore, the method using a circulator as the antenna sharing means has a drawback that it cannot be applied to a device that performs transmission and reception at the same time.

[0007] In some wireless communication systems, separate antenna devices for transmission and reception are provided. Also in this case, the strong reception signal from the nearby transmitting antenna
Harmonic spurs as well as intermodulation spurs occur. The harmonic spurious can be blocked by the band-pass filter of the receiver, but the intermodulation spurious cannot be blocked.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is an object of the present invention to realize a wireless communication apparatus capable of preventing spurious radiation in a wireless communication apparatus that transmits and receives a plurality of carriers simultaneously. Aim.

[0009]

According to the present invention, there is provided a radio communication apparatus comprising: a transmitting device for outputting a transmitting signal; a receiving device for inputting a receiving signal from an input terminal; and an antenna for radiating the transmitting signal output by the transmitting device. An apparatus and a wireless communication apparatus having an antenna sharing means for sharing the antenna apparatus between the transmitting apparatus and the receiving apparatus, wherein a signal is transmitted in one direction between the receiving apparatus and the antenna sharing means. The receiving device and the antenna sharing device are connected so that a signal is transmitted in one direction from the antenna sharing device to the receiving device via the isolator.

[0010] The wireless communication apparatus further includes a non-reflection terminator, and a reception input switching means which can be connected to any one of the non-reflection termination and the antenna sharing means and an input terminal of the reception apparatus. The reception input switching means switches connection of an input terminal of the reception device from the antenna sharing device to the non-reflection terminator during a period in which the transmission device outputs the transmission signal.

[0011] A wireless communication device according to the present invention includes a transmitting device that outputs a transmission signal, a receiving device that inputs a reception signal from an input terminal, an antenna device that radiates a transmission signal output by the transmission device, and an antenna device that emits the transmission signal. In the wireless communication device comprising an antenna sharing means for sharing the transmitting device and the receiving device, the wireless communication device is a non-reflective terminator, the non-reflective terminator and the antenna sharing means A receiving input switching unit that can be connected to any one of the input terminals of the receiving device by switching the input terminal of the receiving device, during which the transmitting device outputs the transmission signal, The antenna sharing device is switched to the non-reflection terminator.

A wireless communication device according to the present invention includes a transmitting device for outputting a transmitting signal, a receiving device for inputting a receiving signal from an input terminal, an antenna device for radiating the transmitting signal output from the transmitting device, and the antenna device. In the wireless communication device provided with first antenna sharing means for sharing the antenna device between the transmitting device and the receiving device, the wireless communication device shares the antenna device between the transmitting device and the receiving device When the wavelength of a signal is λ, the first antenna sharing means and the second antenna sharing means have an electrical distance of approximately λ from each other.
/ 4, and the transmitting device and the receiving device are each connected to a second antenna sharing means.

A wireless communication device according to the present invention includes a transmitting device for outputting a transmission signal, a receiving device for inputting a reception signal from an input terminal, an antenna device for radiating the transmission signal output from the transmission device, and the antenna device. In a wireless communication apparatus provided with antenna sharing means for sharing the transmitting apparatus and the receiving apparatus, when the wavelength of the signal is λ, the input signal input to the receiving apparatus and the output from the transmitting apparatus The output signals to be output are electrically coupled from the antenna sharing means at positions separated by a distance of approximately λ / 4.

[0014] In a wireless communication apparatus comprising a transmitting device for outputting a transmission signal, a receiving device for inputting a reception signal from an input terminal, and an antenna device for radiating the transmission signal output from the transmission device, The receiver is connected to the receiving device via an isolator that transmits a signal in one direction from the antenna device to the receiving device.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 Embodiment 1 FIG. FIG. 1 is a configuration diagram of a wireless communication apparatus according to a first embodiment of the present invention. In the figure, 1 is a transmitting device, 2
Is a receiving device, 31 is a circulator as antenna sharing means, 4 is a low-pass filter, 5 is an antenna device, and 6 is an isolator having a reverse blocking characteristic for transmitting a signal in one direction. Further, 101 is a power amplifier of the transmission device 1, 201 is an input band-pass filter of the reception device 2,
Reference numeral 202 denotes a low noise amplifier of the receiving device 2. Transmission device 1
Is transmitted through the circulator 31 and is passed through the low-pass filter 4 to the power amplifier 101 inside the transmission device 1.
After the harmonic components generated in the above are removed, they are radiated as radio waves from the antenna device 5 that is used for both transmission and reception. On the other hand, the high-frequency signal received by the antenna device 5 passes through the low-pass filter 4, is branched by the circulator 31 toward the receiving device 2, and is input to the receiving device 2 via the isolator 6.

The receiving device 2 generates a harmonic spurious and an intermodulation spurious by the saturation or rectification operation of the low noise amplifier 202 due to the transmission signal leaking from the circulator 31.

As mentioned above, the intermodulation spur is:
Since it occurs in the pass band of the band-pass filter 201 and the low-pass filter 4, attenuation by these filters cannot be expected. However, in this embodiment, since the isolator 6 is arranged on the receiving device 2 side in addition to the circulator 31, the signal is sufficiently attenuated by the reverse blocking characteristic of the isolator 6, and is not radiated from the antenna device 5.

Since the harmonic spurious components are sufficiently attenuated by the out-of-band blocking characteristics of the band-pass filter 201 and the low-pass filter 4 and the reverse blocking characteristics of the isolator 6 and the circulator 31, they are not radiated from the antenna device 5.

As described above, according to the wireless communication apparatus shown in FIG. 1, there is an effect that both the intermodulation spurious and the harmonic spurious are sufficiently attenuated and are not radiated from the antenna apparatus 5.

Embodiment 2 FIG. FIG. 2 is a configuration diagram of a wireless communication apparatus according to a second embodiment of the present invention. In this example,
As the antenna sharing means, a transmission / reception switch 33 is used instead of the circulator 31. The transmission / reception switch 33 is a switch that is switched to the receiving device 2 at the time of reception, and is switched to the transmission device 1 at the time of transmission. However, the leaked transmission signal is input to the receiving device 2 due to the blocking characteristic of the switch, and harmonic spurious and intermodulation spurious are generated for the same reason as in the first embodiment. These harmonic spurious components and intermodulation spurious components are arranged in the isolator 6 as shown in FIG.
The operation of sufficiently attenuating up to is the same as in the first embodiment. Thereby, the same effect as in the first embodiment is obtained.

Embodiment 3 FIG. Third Embodiment FIG. 3 is a configuration diagram of a wireless communication apparatus according to a third embodiment of the present invention. In this example,
As the antenna sharing means, a duplexer 35 is used instead of the circulator 31. Also in this case, the principle of spurious generation and the operation of sufficiently attenuating these spurious components before reaching the antenna device 5 are the same as those in the first and second embodiments. Thereby, the same effects as those of the first and second embodiments can be obtained.

As described above, this embodiment (Example 1)
In 3) to 3), the transmitting apparatus transmits two or more carriers at the same time, at least one system of receiving apparatus, an antenna apparatus, and an antenna sharing unit for sharing the antenna apparatus with the transmitting / receiving apparatus. The wireless communication apparatus characterized by connecting the antenna sharing means via the isolator has been described.

In this embodiment, since the antenna sharing means and each receiving device are connected via the isolator, the reverse blocking characteristic of the antenna sharing means and the reverse of the isolator inserted between the antenna sharing means and the receiving device. Due to the direction rejection characteristic, the intermodulation spurious generated in the receiving device is sufficiently attenuated, and there is an effect that high-level radiation from the antenna device is prevented.

Embodiment 2 FIG. Next, another embodiment of the present invention will be described. Embodiment 4. FIG. FIG. 4 is a configuration diagram of a wireless communication apparatus according to a fourth embodiment of the present invention. In FIG. 4, reference numeral 7 denotes a reception input switch for switching the input terminal of the reception device from the antenna sharing means to the non-reflection terminator 8. The reception input changeover switch 7 is linked with the transmission and reception changeover switch 33.

Next, the operation will be described. Transmission device 1
Is transmitted through the transmission / reception changeover switch 33, and is transmitted to the power amplifier 101 inside the transmission device by the low-pass filter 4.
After the harmonic components generated in the above are removed, they are radiated as radio waves from the antenna device 5 that is used for both transmission and reception. At this time, the reception input changeover switch 7 interlocked with the transmission / reception changeover switch 33
Has fallen to the side of the non-reflection terminator 8, and the leakage of the transmission signal to the receiver 2 is sufficiently attenuated. At the same time, since the input of the low-noise amplifier 202 is kept in a matched state by the non-reflection terminator 8, it is possible to prevent the occurrence of spurious due to the spatial coupling of the transmission signal.

As described above, in the fourth embodiment, the wireless communication apparatus capable of attenuating the leakage of the transmission signal to the receiving apparatus 2 at the time of transmission and preventing the generation of spurious due to the spatial coupling of the transmission signal has been described.

Embodiment 5 FIG. FIG. 5 is a configuration diagram of a wireless communication apparatus according to a fifth embodiment of the present invention. In FIG. 5, 3
1 is a circulator which is a common antenna means,
Reference numerals 7 and 8 denote a reception input changeover switch and a non-reflection terminator, which are the same as in the fourth embodiment shown in FIG.

Next, the operation will be described. Transmission device 1
The transmission output signal passes through the circulator 31 and is radiated as a radio wave from the antenna device 5 that is used for both transmission and reception after removing the harmonic components generated in the power amplifier 101 inside the transmission device by the low-pass filter 4. At this time, the reception input changeover switch 7 is tilted to the non-reflection terminator 8 side,
The leakage of the transmission signal to the receiving device 2 is sufficiently attenuated. At the same time, since the input of the low-noise amplifier 202 is maintained in a matched state by the non-reflection terminator 8, it is possible to prevent the generation of spurious due to the spatial coupling of the transmission signal. As described above, in the fifth embodiment, the wireless communication device capable of attenuating the leakage of the transmission signal to the reception device 2 at the time of transmission and preventing the generation of spurious due to the spatial coupling of the transmission signal has been described.

As described above, in the second embodiment (Examples 4 and 5), a transmitting apparatus for transmitting two or more carriers at the same time, a receiving apparatus of at least one system, an antenna apparatus, and an antenna apparatus An antenna sharing means for sharing with a transmission / reception apparatus, and a reception input switching means for switching an input terminal of the reception apparatus from the antenna sharing means to a non-reflection terminator, wherein each reception is performed during a period when the transmission apparatus emits a radio wave. The wireless communication device characterized in that the input terminal of the device is switched from the shared antenna device to the non-reflection terminator has been described.

In this embodiment, there is provided a receiving input switching means for switching the input terminal of the receiving apparatus from the antenna sharing means to the non-reflection terminator, and the input of each receiving apparatus during the period when the transmitting apparatus emits a radio wave. Switch the terminal from the antenna sharing device to the non-reflection terminator. As described above, by switching the input of the receiving device from the antenna sharing means to the non-reflection terminator at the time of transmission, the input of the receiving device becomes high impedance, and there is an effect of preventing generation of intermodulation spurious due to spatial coupling.

Embodiment 3 Next, another embodiment of the present invention will be described. Embodiment 6 FIG. FIG. 6 is a configuration diagram of a wireless communication apparatus according to a sixth embodiment of the present invention. The configuration shown in FIG. 6 is such that the isolator 6 is arranged between the circulator 31 having the configuration shown in FIG. 5 and the reception input changeover switch.

Next, the operation will be described. Transmission device 1
The transmission output signal passes through the circulator 31, passes through the low-pass filter 4, removes harmonic components generated in the power amplifier 101 inside the transmission device, and is radiated as radio waves from the antenna device 5 that is used for both transmission and reception. At this time, the reception input changeover switch 7 is tilted to the non-reflection terminator 8 side,
The leakage of the transmission signal to the receiving device 2 is sufficiently attenuated. At the same time, since the input of the low-noise amplifier 202 is kept in a matched state by the non-reflection terminator 8, it is possible to prevent the occurrence of spurious due to the spatial coupling of the transmission signal. Further, the isolator 6 inserted between the reception input changeover switch 7 and the circulator 31 reinforces the blocking characteristic of the reception input changeover switch 7 against spurious components generated in the reception device 2 and at the same time, the circulator 31
To prevent the reverse blocking characteristic between the transmitting device 1 and the antenna device 5 from deteriorating.

As described above, in the third embodiment (Embodiment 6), the antenna sharing means is connected to each receiving device via the isolator, and the input terminal of the receiving device is connected from the antenna sharing means to the non-reflection terminal. Comprising a receiving input switching means for switching to the receiver, during the period when the transmitting device emits radio waves, the input terminal of each receiving device from the antenna sharing device,
The wireless communication device characterized by switching to the reflectionless terminator has been described.

As described above, when the input of the receiving apparatus is switched from the antenna sharing means to the non-reflection terminator at the time of transmission, the input of the receiving apparatus becomes high impedance, and the occurrence of intermodulation spurious due to spatial coupling is prevented. At the same time, connected to the receiving device side of the antenna sharing means,
The effect of the isolator is effective in preventing the reverse blocking characteristic between the transmitting device and the antenna device of the antenna sharing means from deteriorating.

Embodiment 4 FIG. Next, another embodiment of the present invention will be described. Embodiment 7 FIG. FIG. 7 is a configuration diagram of a wireless communication apparatus according to a seventh embodiment of the present invention. In the figure, 32 is a circulator as a second antenna sharing means, and 91 and 92 are transmission lines for phase adjustment.

Next, the operation will be described. Transmission device 1
Is passed through the second circulator 32 and the first circulator 31, and the low-pass filter 4 removes the harmonic components generated in the power amplifier 101 inside the transmission device. Radiated as

Transmission signals leaking from the first and second circulators 31 and 32 to the receiver 2 are combined at a point A in FIG. At this time, the transmission leakage signal paths l ₁ and l ₂
By setting the electrical lengths of the two signals so as to satisfy the relationship shown in (1), it is possible to prevent the transmission signals from leaking into the receiving device by canceling the two. Note that this relationship holds when the transmission lines 91 and 92 each have a transmission frequency and the electrical length is set to λ / 4. l ₂ = l ₁ + λ / 2 (1)

Most of the received signal reaches the point A via the circulator 31 due to the general characteristics of the circulator. At this time, when the condition (1) is satisfied, the signal on the circulator 31 side and the circulator 3
Since the signals on the two sides have the same phase relationship, the leakage of the circulator 31 causes the reception signal reaching the point A via the circulator 32 to adversely affect the reception signal reaching the point A via the circulator 31. Has no effect.

At point A, since two circulators are inserted in parallel, for example, when the input / output impedance is 5
If the circuit is designed with 0Ω, the impedance at this point looks like 25Ω. Therefore, the received signal is 25Ω → 50Ω
Is input to the receiving apparatus 2 through the matching circuit 10 of FIG.

Embodiment 8 FIG. FIG. 8 is a configuration diagram of a wireless communication apparatus according to an eighth embodiment of the present invention. In the figure, 34
Is a transmission / reception changeover switch as a second antenna sharing means interlocked with the transmission / reception changeover switch 33, and 91 and 92 are transmission lines for phase adjustment.

Next, the operation will be described. Transmission device 1
Is passed through a second transmission / reception changeover switch 34 and a first transmission / reception changeover switch 33, and the low-pass filter 4 removes harmonic components generated in the power amplifier 101 inside the transmission device. It is radiated from the device 5 as radio waves.

First and second transmission / reception selector switches 33, 3
4, transmission signals leaking to the receiving device 2 are combined at a point A in the figure. At this time, at point A, the operation of canceling the transmission leakage signal and synthesizing the received signal in phase is the same as in the previous embodiment. The point A and the receiving device 2 are connected via a matching circuit 10.

Embodiment 9 FIG. FIG. 9 is a configuration diagram of a wireless communication apparatus according to a ninth embodiment of the present invention. Second of this embodiment
The transmission / reception changeover switch 34 is always inclined to the transmission side and does not interlock with the transmission / reception changeover switch 33. Except that the transmission / reception changeover switch 34 is inserted only for the purpose of supplying the leak component of the transmission signal to the point A, it is the same as the previous embodiment, and the detailed description is omitted.

As described above, in Embodiment 4 (Examples 7 to 9), a transmitting apparatus for transmitting two or more carriers simultaneously, at least one system of receiving apparatus, an antenna apparatus, and an antenna apparatus The first antenna sharing means and the second antenna sharing means for common use by the transmitting / receiving device are continuously arranged in such a manner that the first antenna sharing means and the second antenna sharing means have an electrical distance of approximately λ / 4. The wireless communication apparatus has been described in which the transmission apparatus and the reception apparatus are connected to each other and connected to the second antenna sharing unit.

In this embodiment, the first antenna sharing means and the second antenna sharing means for sharing the antenna device with the transmission / reception device are continuously arranged so that the electrical interval between them is approximately λ / 4. By connecting the transmitting device and the receiving device to the second antenna sharing device, respectively, at the receiving device side terminal of the second antenna switching device, the transmission leakage wave is canceled out in reverse, and the received signal is in-phase added. This prevents the transmission signal from leaking into the receiving device. As a result, there is an effect that generation of intermodulation spurious in the receiving device is prevented.

Embodiment 5 FIG. Next, another embodiment of the present invention will be described. Embodiment 10 FIG. FIG. 10 is a configuration diagram of a wireless communication apparatus according to a tenth embodiment of the present invention. In the figure, reference numeral 11 denotes a coupler for coupling the transmitting device 1 and the receiving device 2.

Next, the operation will be described. Transmission device 1
Output of the transmission device through the coupler 11 and the circulator 31 and the low-pass filter 4
After the harmonic components generated in the above are removed, they are radiated as radio waves from the antenna device 5 that is used for both transmission and reception.

The transmission signal is transmitted to the receiving device 2 via the coupler 11.
Receiving device via the path l ₁ and circulator 31 leading to 2
By setting such a relationship that electrical length of the path l ₂ is shown in (1) leading to, in the reception device 2 side terminals of the coupler 11, with respect to both offset the receiving apparatus, the transmission signal Can be prevented from leaking. Note that this relationship holds when the transmission lines 91 and 92 have their electrical lengths set to approximately λ / 4 at the transmission frequency.

Most of the received signal reaches the receiver 2 via the circulator 31 due to the general characteristics of the circulator. At this time, when the condition (1) described above is satisfied, the signal received via the coupler 11 and the received signal received via the circulator 31 have the same phase relationship. There is no adverse effect on the received signal due to the insertion of the coupler.

Embodiment 11 FIG. FIG. 11 is a configuration diagram of a wireless communication apparatus according to an eleventh embodiment of the present invention. In the figure, reference numeral 11 denotes a coupler for coupling the transmitting device 1 and the receiving device 2.

Next, the operation will be described. Transmission device 1
Output passes through the coupler 11 and the transmission / reception changeover switch 33,
The power amplifier 10 inside the transmission device by the low-pass filter 4
After the harmonic components generated in 1 are removed, the signal is radiated as radio waves from the antenna device 5 that is used for both transmission and reception.

The transmission signal is transmitted to the receiving device 2 via the coupler 11.
By setting the electrical length of the path l ₁ to the receiver ₁₁ and the path l ₂ to the receiver 2 via the transmission / reception changeover switch 33 so as to satisfy the relationship shown in the above (1), the reception of the coupler 11 is performed. At the device 2 side terminal, both cancel each other out and it is possible to prevent the transmission signal from leaking into the receiving device.
Note that this relationship holds when the transmission lines 91 and 92 have their electrical lengths set to approximately λ / 4 at the transmission frequency.

When the condition (1) is satisfied, the signal received via the coupler 11 and the received signal received via the transmission / reception switch 33 have the same phase relationship. There is no adverse effect on the received signal due to the insertion of the coupler.

As described above, in the fifth embodiment (embodiments 10 and 11), a transmitting apparatus for transmitting two or more carriers at the same time, a receiving apparatus of at least one system, an antenna apparatus, and an antenna apparatus An antenna sharing means for common use by a transmitting / receiving apparatus, wherein an input signal of a receiving apparatus and an output signal of a transmitting apparatus are coupled at a position electrically separated from the antenna sharing means by a distance of approximately λ / 4. Has been described.

In this embodiment, the input signal of the receiving apparatus and the output signal of the transmitting apparatus are equal to the isolation level of the antenna sharing means at positions electrically separated from the antenna sharing means by approximately λ / 4, respectively. The binding is performed with the binding amount.

As described above, the input signal of the receiving apparatus and the output signal of the transmitting apparatus are electrically coupled to each other from the antenna sharing means at a position approximately λ / 4 apart from each other.
At the connection point, the transmission signal has an anti-cancellation relationship and the reception signal has an in-phase synthesis relationship, thereby preventing the transmission signal from leaking into the receiving device. As a result, there is an effect that generation of intermodulation spurious in the receiving device is prevented.

Embodiment 6 FIG. Here, a case will be described in which antennas are provided exclusively for transmission and reception, respectively. Embodiment 12 FIG. FIG. 12 is a configuration diagram of a wireless communication apparatus according to a twelfth embodiment of the present invention. As shown in FIG. 12, in this embodiment, the transmitting device 1 and the receiving device 2 are connected to dedicated antenna devices 51 and 52, respectively.

Next, the operation will be described. The signal received by the receiving antenna device 52 is input to the receiving device 2 via the isolator 6. Transmitting antenna device 51,
The intermodulation spurious generated in the low noise amplifier 202 of the receiving device 2 due to the transmission signal of the transmitting device 1 received via the receiving antenna device 52 reaches the receiving antenna device 52 due to the blocking characteristic of the isolator 6. It will not be radiated as radio waves.

As described above, Embodiment 6 (Example 12) is characterized in that, in a wireless communication apparatus in which an antenna apparatus is not shared by a transmitting / receiving apparatus, the antenna apparatus and the receiving apparatus are connected via the isolator. Has been described.

In this embodiment, in a radio communication device in which the antenna device is not shared by the transmitting / receiving device, the antenna device and the receiving device are connected via an isolator. As described above, in a wireless communication device in which the antenna device is not shared by the transmitting and receiving devices, by connecting the antenna device and the receiving device via the isolator, the intermodulation spurious due to the strong received signal from the nearby transmitting device is reduced. This has the effect of preventing radiation from the antenna device.

[0061]

As described above, according to the present invention, it is possible to prevent spurious emission due to intermodulation distortion generated in a receiving apparatus in a wireless communication apparatus which transmits and receives a plurality of carriers simultaneously.

According to the present invention, the intermodulation spurious generated in the receiving device can be sufficiently reduced by the reverse blocking characteristics of the antenna sharing device and the reverse blocking characteristics of the isolator inserted between the antenna sharing device and the receiving device. The antenna device can be attenuated and can be prevented from being radiated at a high level from the antenna device.

Further, according to the present invention, at the time of transmission, the input of the receiving device is switched from the antenna sharing means to the non-reflection terminator by the receiving input changeover switch, so that the input of the receiving device becomes high impedance, and spatial coupling is performed. The occurrence of intermodulation spurious can be prevented.

Further, according to the present invention, at the time of transmission, the input of the receiving device is switched from the antenna sharing means to the non-reflection terminator by the receiving input changeover switch, so that the input of the receiving device becomes high impedance, and the spatial coupling is caused. , While preventing the occurrence of intermodulation spurs,
It is also possible to prevent the reverse blocking characteristic between the transmitting device and the antenna device of the antenna sharing device from deteriorating due to the action of the isolator connected to the receiving device side of the antenna sharing device.

Further, according to the present invention, the first antenna sharing means and the second antenna sharing means are continuously connected with each other at an electrical interval of approximately λ / 4, so that the transmitting apparatus and the receiving apparatus Are connected to the second antenna sharing means, respectively, so that, at the receiving device side terminal of the second antenna switching means, the transmission leaky wave cancels out in reverse, the received signal becomes in-phase addition, and Leakage can be prevented. As a result, it is possible to prevent the occurrence of intermodulation spurious in the receiving device.

According to the present invention, the input signal of the receiving apparatus and the output signal of the transmitting apparatus are electrically coupled to each other at a position approximately λ / 4 apart from the antenna sharing means, so that the signal at the coupling point can be obtained. , The transmission signal has an anti-cancellation relationship and the reception signal has an in-phase synthesis relationship, so that it is possible to prevent the transmission signal from leaking into the receiving device. As a result, generation of intermodulation spurious in the receiving device can be prevented.

Further, according to the present invention, in a wireless communication apparatus in which the antenna apparatus is not shared by the transmitting / receiving apparatus, the antenna apparatus and the receiving apparatus are connected via the isolator, so that strong reception from the nearby transmitting apparatus can be achieved. Intermodulation spurious due to a signal can be prevented from being radiated from the antenna device.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a first embodiment of the present invention.

FIG. 2 is a configuration diagram of a second embodiment of the present invention.

FIG. 3 is a configuration diagram of a third embodiment of the present invention.

FIG. 4 is a configuration diagram of a fourth embodiment of the present invention.

FIG. 5 is a configuration diagram of a fifth embodiment of the present invention.

FIG. 6 is a configuration diagram of a sixth embodiment of the present invention.

FIG. 7 is a configuration diagram of a seventh embodiment of the present invention.

FIG. 8 is a configuration diagram of an eighth embodiment of the present invention.

FIG. 9 is a configuration diagram of a ninth embodiment of the present invention.

FIG. 10 is a configuration diagram of a tenth embodiment of the present invention.

FIG. 11 is a configuration diagram of an eleventh embodiment of the present invention.

FIG. 12 is a configuration diagram of a twelfth embodiment of the present invention.

FIG. 13 is an explanatory diagram of a conventional technique.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 transmitting device, 101 power amplifier, 2 receiving device, 2
01 input band-pass filter, 202 low-noise amplifier, 31, 32 circulator, 33, 34 transmission / reception switch, 35 duplexer, 4 low-pass filter, 5 antenna unit, 6 isolator, 7 receiver input switch, 8 non-reflection terminator, 91,92
Transmission line, 10 matching circuit, 11 coupler.

Claims (6)

[Claims] A transmitting device that outputs a transmitting signal; a receiving device that inputs a receiving signal from an input terminal; an antenna device that radiates a transmitting signal output by the transmitting device; In a wireless communication device having an antenna sharing means for sharing with a receiving device, an isolator for transmitting a signal in one direction is arranged between the receiving device and the antenna sharing means, and the A wireless communication device, wherein the receiving device and the antenna sharing device are connected so that a signal is transmitted in one direction from the antenna sharing device to the receiving device. 2. The wireless communication apparatus further comprises: a non-reflection terminator; and a reception input switching means switchable and connectable to one of the non-reflection termination and the antenna sharing means and an input terminal of the reception apparatus. Wherein the reception input switching means switches the connection of the input terminal of the reception device from the antenna sharing device to the non-reflection terminator during a period in which the transmission device outputs the transmission signal. The wireless communication device according to claim 1. 3. A transmitting device for outputting a transmitting signal, a receiving device for inputting a receiving signal from an input terminal, an antenna device for radiating a transmitting signal output by the transmitting device, and the transmitting device including the transmitting device and the transmitting device. In a wireless communication device including an antenna sharing means for sharing with a receiving device, the wireless communication device includes a non-reflection terminator, and one of the non-reflection terminator and the antenna sharing means and the reception device. And a reception input switching means that can be connected by switching between input terminals. The reception input switching means, during a period in which the transmission device outputs the transmission signal, changes an input terminal of the reception device from the antenna sharing device to the input terminal. A wireless communication device for switching to a non-reflection terminator. 4. A transmitting device for outputting a transmitting signal, a receiving device for inputting a receiving signal from an input terminal, an antenna device for radiating a transmitting signal output by the transmitting device, and the transmitting device comprising: In a wireless communication device provided with a first antenna sharing means for sharing with a receiving device, the wireless communication device includes a second antenna for sharing the antenna device with the transmitting device and the receiving device. When the wavelength of a signal is λ, the first antenna sharing means and the second antenna sharing means are continuously connected with each other at an electrical distance of approximately λ / 4. A wireless communication device, wherein the transmitting device and the receiving device are respectively connected to second antenna sharing means. 5. A transmitting device for outputting a transmitting signal, a receiving device for inputting a receiving signal from an input terminal, an antenna device for radiating a transmitting signal output by the transmitting device, and the transmitting device comprising: In a wireless communication apparatus provided with antenna sharing means for sharing with a receiving apparatus, when a wavelength of a signal is λ, an input signal input to the receiving apparatus and an output signal output from the transmitting apparatus are A wireless communication apparatus wherein the antennas are electrically coupled to each other at a distance of approximately λ / 4 from the antenna sharing means. 6. A radio communication apparatus comprising: a transmitting device that outputs a transmission signal; a receiving device that inputs a reception signal from an input terminal; and an antenna device that radiates a transmission signal output by the transmission device. A wireless communication device, wherein the device and the receiving device are connected via an isolator that transmits a signal in one direction from the antenna device to the receiving device.