JP2008035413A - Receiving apparatus and receiving method - Google Patents

Abstract

An EVM of a received signal is improved by appropriately setting a pass bandwidth of a band limiting filter that extracts a signal of a desired channel from the received signal according to a reception situation.
A receiving device includes an adjacent channel use presence / absence detecting unit that detects whether or not an adjacent channel other than a desired channel is used, and a pass bandwidth of a band limiting filter when an adjacent channel is not used. And a pass bandwidth setting unit 20 that is set wider than when the adjacent channel is used.
[Selection] Figure 2

Description

  The present invention relates to a receiving apparatus and a receiving method used in a wireless communication system. More specifically, the present invention relates to a technique for improving error vector amplitude (EVM) characteristics of a received signal.

FIG. 1 is a schematic configuration diagram of a conventional quadrature modulated wave receiving apparatus. The receiving apparatus 1 includes an antenna 2 that receives a radio signal, a frequency conversion unit 3 that converts a high-frequency radio frequency signal received by the antenna 2 into a predetermined carrier frequency signal that can be handled by a demodulator 4 at a later stage, And a demodulator 4 for converting the received signal converted into the carrier frequency signal into an orthogonal baseband signal (IQ signal).
The converted orthogonal baseband signal includes the signal of the adjacent channel in addition to the signal of the desired channel that the receiving apparatus 1 is to receive. The signal of the adjacent channel becomes an interference wave in the subsequent signal processing and causes a deterioration in the S / N (signal to interference wave ratio) of the signal processing stage. Therefore, it is desirable to remove the interference wave as much as possible. For this reason, the receiving apparatus 1 is provided with a band limiting filter such as a low pass filter (LPF) 5 for removing the interference wave and extracting the signal of the desired channel. The orthogonal baseband signal from which the interference wave is removed by the low-pass filter 5 is demodulated into the original signal by the baseband processing unit 6 at the subsequent stage.

In Japanese Patent Laid-Open No. 04-179320 (Patent Document 1 below), the interference level is estimated by comparing the difference between the reception input levels of the desired channel and the adjacent channel, and the transmission power of the desired channel is controlled to thereby detect the adjacent channel. To reduce the degradation of communication quality due to interference.
In Japanese Patent Laid-Open No. 5-218940 (Patent Document 2 below), the cutoff frequency of the low-pass filter unit is changed according to the output of the bit error rate measurement unit of the demodulated digital signal, and an error occurs in the wireless transmission path. Reduce call noise.

JP-A-4-179320 JP-A-5-218940 JP 2004-274453 A

In a QPSK (Quadrature Phase Shift Keying) modulation method mainly used in digital communication typified by WCDMA, error vector amplitude (EVM) is used as an index for evaluating reception characteristics.
This error vector amplitude tends to worsen as the out-of-band attenuation of the low-pass filter 5 provided to remove the adjacent channel signal, that is, the interference wave, increases. This is because the amount of change in the group delay characteristic is large in the vicinity of the cutoff frequency, and thus the amount of phase rotation of the received signal is large, which adversely affects the error vector amplitude.

On the other hand, in the conventional receiving apparatus 1, in order to eliminate the influence from the adjacent channel and improve the signal-to-noise ratio (S / N), the cutoff frequency of the low-pass filter 5 can be sufficiently attenuated. To be determined. Once the optimum cut-off frequency is set, the cut-off frequency is used as it is.
For this reason, depending on the reception conditions, even when the interference wave is small and it is not necessary to increase the attenuation amount of the out-of-band signal, the same cutoff frequency as that when the interference wave is large is used, and the error vector amplitude is adversely affected. .

  In view of the above problems, an object of the present invention is to improve the EVM of a received signal by appropriately setting the pass bandwidth of a band limiting filter that extracts a signal of a desired channel from the received signal according to the reception status. And

  In order to achieve the above object, in the present invention, it is determined whether or not an adjacent channel other than the desired channel is used, and when the adjacent channel is not used, a band for extracting the signal of the desired channel from the received signal. Set the limited passband width wider than when adjacent channels are used.

  According to the first aspect of the present invention, there is provided a receiving apparatus that extracts a signal of a desired channel from a received signal by performing band limitation on the received signal, and uses an adjacent channel for detecting whether or not an adjacent channel other than the desired channel is used. Provided is a receiving device including a presence / absence detection unit and a pass bandwidth setting unit that sets a pass bandwidth of band limitation wider than when an adjacent channel is used when an adjacent channel is not used. The

  According to the second aspect of the present invention, there is provided a reception method for extracting a signal of a desired channel from a received signal by performing band limitation on the received signal, and determining whether an adjacent channel other than the desired channel is used. When the adjacent channel is not used, a reception method is provided in which the band-limited pass bandwidth is set wider than when the adjacent channel is used.

Whether or not the adjacent channel is used can be detected or determined by the following.
For example, the received signal is input to a band limiting filter that passes the signal of the desired channel included in the received signal and reflects at least a part of the signal other than the desired channel. Then, by detecting the intensity of the first signal component reflected by the band limiting filter and the intensity of the second signal component passing through the band limiting filter, and comparing the intensity of these signal components, the adjacent channel Can be detected or determined.

  Further, for example, at least part of the signal of the adjacent channel included in the received signal is extracted by the band limiting filter, and it is determined whether or not the signal strength of at least part of the extracted signal of the adjacent channel exceeds a predetermined threshold value. Can also be detected.

  Further, when the receiving apparatus has a plurality of antennas for performing diversity reception, the reception signal is received by the plurality of antennas even when the diversity reception is not performed, and any one of the plurality of antennas is used. The received signal is input to the band limiting filter, and after extracting at least part of the adjacent channel signal included in the received signal, the signal strength of at least part of the extracted adjacent channel signal is detected, Whether or not the adjacent channel is used can also be detected or determined by determining whether or not the detected signal strength exceeds a predetermined threshold.

At this time, the signal of the desired channel may be extracted from the reception signal received by another antenna different from any one of the antennas receiving the reception signal from which the signal of the adjacent channel is extracted. Then, when a desired channel is extracted from a received signal received by another antenna, a band-limited pass bandwidth to be applied to the received signal is set according to the determination result of whether or not the adjacent channel is used.
In this way, the extraction source of the adjacent channel signal can be separated from the reception signal from which the desired channel signal is extracted, so that the influence on the quality of the reception signal caused by the extraction of the adjacent channel signal can be prevented.

  According to the present invention, in a situation where there is no adjacent channel signal component in the received signal and there is no need to increase the out-of-band signal attenuation for the received signal, the out-of-band signal attenuation is reduced and the error vector amplitude characteristic of the received signal is reduced. Greatly improved.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 2 is a schematic configuration diagram of a quadrature modulated wave receiving apparatus according to the first embodiment of the present invention. 2 has the same configuration as that of the receiving apparatus described above with reference to FIG. 1, and therefore has the same or similar configuration. Elements are given the same reference numbers, and descriptions of the same functions are omitted.
The receiving device 1 detects a signal of an adjacent channel included in a received signal received by an antenna (for example, the antenna 2 in the configuration example of FIG. 2) included in the receiving device 1, and detects whether or not the adjacent channel is used. An adjacent channel use presence / absence detection unit 10 and a pass bandwidth setting unit 20 that sets the pass bandwidth of the low-pass filter 5 according to the detection result are provided.

  When the adjacent channel use detection unit 10 detects that the adjacent channel is used, the pass bandwidth setting unit 20 sets the pass bandwidth of the low-pass filter 5 to the same pass bandwidth as that of the conventional receiver. To do. On the other hand, when it is detected that the adjacent channel is not used, the pass bandwidth setting unit 20 sets the pass bandwidth of the low-pass filter 5 to a wider pass bandwidth than the pass bandwidth used conventionally. .

FIG. 3 is a flowchart of a first example of a pass bandwidth changing method according to an embodiment of the present invention.
In step S11, when a radio signal is received by an antenna (for example, antenna 2 in the configuration example of FIG. 2) included in the reception device 1, the adjacent channel use presence / absence detecting unit 10 detects the signal of the adjacent channel included in the received signal. By detecting, the presence / absence of use of the adjacent channel is detected.
In step S12, the passband width setting unit 20 that has received the detection signal from the adjacent channel use presence / absence detection unit 10 or the adjacent channel use presence / absence detection unit 10 determines whether or not the adjacent channel is used.

When it is determined in step S12 that the adjacent channel is not used, the pass bandwidth setting unit 20 compares the pass bandwidth of the low-pass filter 5 with the pass bandwidth used in the conventional receiver. And set a wide passband. On the other hand, when it is determined that the adjacent channel is used, the pass bandwidth setting unit 20 sets the pass bandwidth of the low pass filter 5 to a pass bandwidth substantially similar to the conventional one.
Hereinafter, in the second to fourth embodiments, a specific configuration of the adjacent channel use presence / absence detecting unit 10 is illustrated.

FIG. 4 is a schematic configuration diagram of a quadrature modulated wave receiving apparatus according to a second embodiment of the present invention. In the present configuration example, the signal received by the antenna 2 is converted into a signal having a predetermined carrier frequency by the frequency converter 3 and then input to the adjacent channel use presence / absence detector 10.
The adjacent channel use presence / absence detecting unit 10 includes a band limiting filter 12 that passes a signal of a desired channel included in a frequency-converted reception signal and reflects at least a part of a signal other than the desired channel. As such a band limiting filter 12, for example, a surface acoustic wave (SAW) filter that passes at least a signal in a frequency band of a desired channel can be used.
Here, if the pass frequency band of the band limiting filter 12 is too narrow, the EVM is deteriorated by the band limiting filter 12, so that the pass frequency bandwidth of the band limiting filter 12 has a margin in the frequency band of the desired desired channel. The width is

  The adjacent channel use presence / absence detecting unit 10 extracts a circulator 11 that extracts at least a part of signals other than the desired channel reflected by the band limiting filter 12 and a signal of the desired channel that has passed through the band limiting filter 12 from the demodulator 4. A coupler 13 that branches in the middle of reception, a first signal strength detector 14 that detects the signal strength Ir of the signal extracted from the circulator 11, and a signal strength It of the signal extracted from the coupler 13. The second signal strength detection unit 15 and the comparison unit 16 that compares these signal strengths Ir and It are provided. As the first and second signal intensity detectors 14 and 15, for example, a known RSSI detector may be used.

If the adjacent channel is used, the signal Ir taken out by the circulator 11 includes the adjacent channel signal, so that the intensity is increased. If the adjacent channel is not used, the intensity of the signal Ir is decreased. Therefore, the comparison unit 16 detects whether or not the adjacent channel is used by comparing the signal intensity Ir of the signal extracted by the circulator 11 with the signal intensity It of the signal of the desired channel extracted from the coupler 13. Can do.
For example, the comparison unit 16 may obtain a difference (Ir−It) between the two signals Ir and It and determine that the adjacent channel is used when the difference is larger than a predetermined threshold T. It may be determined that the adjacent channel is used when this difference is larger than a predetermined threshold.
The comparison unit 16 outputs a signal indicating the determination result to the pass bandwidth setting unit 20, and the pass bandwidth setting unit 20 sets the pass bandwidth of the low-pass filter 5 according to the determination result.

FIG. 5 is a flowchart of a first example of the adjacent channel use presence / absence detection routine S11 of the pass bandwidth changing method shown in FIG.
In step S21, the reception signal frequency-converted by the frequency converter 3 is input to the band limiting filter 12 such as a SAW filter.
In step S 22, at least a part of the signal other than the desired channel reflected by the band limiting filter 12 is extracted by the circulator 11, and the signal intensity Ir of the extracted signal is detected by the first signal intensity detector 14.
In step S23, the signal of the desired channel that has passed through the band limiting filter 12 is branched by the coupler 13 provided between the band limiting filter 12 and the demodulator 4, and the signal intensity It of the branched desired channel signal is set to a second value. Is detected by the signal intensity detection unit 15.

In step S24, the comparison unit 16 compares these signal intensities Ir and It. In this example, a difference (Ir−It) between both signals Ir and It is obtained, and it is determined whether or not the difference exceeds a predetermined threshold T.
As a result, when the difference (Ir-It) exceeds the predetermined threshold T, the comparison unit 16 determines that the adjacent channel is used in step S25, and the difference (Ir-It) is equal to or smaller than the predetermined threshold T. If it is, it is determined that the adjacent channel is not used.

FIG. 6 is a schematic configuration diagram of a quadrature modulated wave receiving apparatus according to a third embodiment of the present invention. In this configuration example, the reception signal converted into a signal of a predetermined carrier frequency by the frequency conversion unit 3 is converted into an orthogonal baseband signal (IQ signal) by the demodulator 4 and then input to the adjacent channel use presence / absence detection unit 10. To do.
In the received signal that has passed through the demodulator 4, the signal of the adjacent channel appears as a signal component having a relatively higher frequency than the signal of the desired channel. Therefore, the adjacent channel use presence / absence detecting unit 10 is provided with a high-pass filter 17 that filters at least a part of the signal of the adjacent channel from the received signal that has passed through the demodulator 4. Then, the signal intensity detection unit 18 such as an RSSI detector detects the intensity Ih of the signal that has passed through the high-pass filter 17, and outputs the detection result to the pass bandwidth setting unit 20.

Here, if the adjacent channel is used, the intensity Ih of the signal passing through the high-pass filter 17 is increased. Conversely, if the adjacent channel is not used, the intensity Ih of the signal passing through the high-pass filter 17 is decreased. Therefore, the output signal Ih of the signal strength detection unit 18 can be used as a detection signal indicating whether or not the adjacent channel is used.
The pass bandwidth setting unit 20 determines that the adjacent channel is used when the output signal Ih of the signal strength detection unit 18 is greater than a predetermined threshold T, and sets the pass bandwidth of the low pass filter 5 to the conventional value. Set to the same pass bandwidth as the receiving device.
On the other hand, when the output signal Ih is equal to or less than a predetermined threshold T, the pass bandwidth setting unit 20 determines that the adjacent channel is not used, and uses the pass bandwidth of the low pass filter 5 that has been conventionally used. Set a wide pass bandwidth compared to the width.

FIG. 7 is a flowchart of the adjacent channel usage detection routine S11 corresponding to the configuration example of FIG.
In step S31, the reception signal frequency-converted by the frequency conversion unit 3 is demodulated by the demodulator 4 into an orthogonal baseband signal. A part of the orthogonal baseband signal is input to the low-pass filter 5, and the other is input to the high-pass filter 17 of the adjacent channel use presence / absence detection unit 10. In step S 32, the signal strength detector 18 detects the signal strength Ih of the signal of the adjacent channel that has passed through the high-pass filter 17.

In step S <b> 33, the passage area width setting unit 20 compares the signal intensity Ih of the signal of the adjacent channel detected by the signal intensity detector 18 with a predetermined threshold T.
If it is determined in step S33 that the signal intensity Ih exceeds the predetermined threshold T, the pass bandwidth setting unit 20 determines in step S34 that the adjacent channel is used. As a result, in step S14 shown in FIG. 3, the pass bandwidth of the low-pass filter 5 is set to the same pass bandwidth as that of the conventional receiver.
On the other hand, when it is determined in step S33 that the output signal Ih is equal to or less than the predetermined threshold T, in step S35, the pass bandwidth setting unit 20 determines that the adjacent channel is not used. As a result, in step S13 shown in FIG. 3, the pass bandwidth of the low-pass filter 5 is set to a wider pass bandwidth than that conventionally used.

  FIG. 8 is a schematic configuration diagram of a quadrature modulated wave receiving apparatus according to a fourth embodiment of the present invention. In this configuration example, the receiving apparatus 1 is configured as a diversity receiver that combines signals obtained by demodulating received signals from a plurality of antennas to improve signal quality. Therefore, the receiving device 1 includes a plurality of antennas 2 and 52 and a demodulation path for demodulating the receiving devices of the antennas 2 and 52, respectively. The reception signal received by the first antenna 2 is demodulated into an orthogonal baseband signal by passing through a first demodulation path including the frequency converter 3, the demodulator 4 and the LPF 5, and is received by the second antenna 52. The received signal is demodulated into an orthogonal baseband signal by passing through a second demodulation path including a frequency converter 53, a demodulator 54, and an LPF 55.

Then, the orthogonal baseband signal demodulated by each demodulation path is synthesized by the signal synthesizer 60. By combining the reception signals received by the plurality of antennas in this way, the signal quality of the baseband signal input to the baseband processing unit 6 is increased and the reception quality is improved.
Although FIG. 8 shows a configuration example in which diversity reception is performed by the two antennas 2 and 52, the number of antennas and demodulation circuits used for performing diversity reception by the receiving apparatus of the present invention is limited to two. Three or more may be sufficient.

  Furthermore, in the present configuration example, the receiving apparatus 1 is configured to be able to switch whether or not to perform diversity reception according to whether reception quality is good or bad. That is, the receiving apparatus 1 performs diversity reception for combining the received signals received by the plurality of antennas 2 and 52 when the reception quality is low, while performing such signal combining when the reception quality is high. Without performing the non-diversity reception for demodulating the original signal from the reception signal received by any one of the plurality of antennas 2 and 52.

In this configuration example, at the time of non-diversity reception, only the signal demodulated by the first demodulation path connected to the antenna 2 among the plurality of demodulation paths is input to the baseband processing unit 6 and demodulated into the original signal. Therefore, in the following description, the first demodulation path is referred to as “main signal demodulation path”.
On the other hand, demodulation paths other than the main signal demodulation path among the plurality of demodulation paths are input to the baseband processing unit 6 and demodulated into the original signal only in the case of diversity reception. Therefore, in the following description, a path other than the first demodulation path is referred to as a “diversity signal demodulation path”. In the configuration example of FIG. 8, the second demodulation path connected to the antenna 52 corresponds to the diversity signal demodulation path.

The receiving apparatus 1 includes a signal quality measuring unit 61 that measures the signal quality of the orthogonal baseband signal demodulated by the main signal demodulation path in order to switch whether or not to perform diversity reception according to the quality of reception quality. .
In addition, when the reception quality does not satisfy the predetermined quality as a result of the measurement by the signal quality measuring device 61, the reception device 1 inputs the diversity signal passing through the diversity signal demodulation path to the signal combining unit 60 and receives the diversity reception. On the other hand, when the reception quality satisfies a predetermined quality, the switch SW that prevents the diversity signal from being input to the signal synthesizer 60 and implements non-diversity reception is provided.
In the configuration of FIG. 8, according to the determination result of the signal quality measuring device 61, the switch SW connects and disconnects the demodulator 54 and the low-pass filter 55 in the diversity signal demodulation path, thereby receiving diversity reception. And non-diversity reception.

At the time of non-diversity reception, the switch SW uses the adjacent channel use presence / absence detection unit 10 having the same configuration as the adjacent channel use presence / absence detection unit shown in FIG. To the filter high pass 17.
The signal intensity detection unit 18 detects the intensity Ih of the signal that has passed through the high-pass filter 17, and outputs the detection result to the pass bandwidth setting unit 20.
Similarly to the configuration example described above with reference to FIG. 6, the passband width setting unit 20 determines whether or not an adjacent channel is used based on the detection intensity Ih by the signal intensity detection unit 18, and low-passes the main signal demodulation path. The pass bandwidth of the filter 5 is set.

FIG. 9 is a flowchart of a second example of the pass bandwidth changing method according to the embodiment of the present invention corresponding to the configuration of FIG.
In step S41, the reception signal of the antenna 2 is demodulated by the frequency converter 3 and the demodulator 4 of the main signal demodulation path, and the reception signal of the antenna 52 is demodulated by the frequency converter 53 and the demodulator 54 of the diversity signal demodulation path. To do.

In step S42, the signal quality measuring device 61 measures the reception quality of the orthogonal baseband signal that has passed through the low-pass filter 5 in the main signal demodulation path.
When the reception quality does not satisfy the predetermined quality, the demodulator 54 of the diversity signal demodulation path and the low pass filter 55 are connected by the switch SW, so that the signal from the antenna 52 demodulated by the diversity signal demodulation path is transmitted. Is input to the signal combining unit 60, and diversity reception is performed by combining with the signal demodulated through the main signal demodulation path, and the process returns to step S41.

  If the reception quality satisfies the predetermined quality as a result of the determination in step S42, in step S43, the signal quality measurement unit 61 uses a switch SW between the demodulator 54 and the low-pass filter 55 in the diversity signal demodulation path. Non-diversity reception is performed by cutting. At this time, the switch SW inputs the output signal of the demodulator 54 on one of the diversity signal demodulation paths to the high-pass filter 17 of the adjacent channel use presence / absence determining unit 10.

In step S44, the signal strength detector 18 detects the signal strength Ih of the signal of the adjacent channel that has passed through the high-pass filter 17.
In step S <b> 45, the passage area width setting unit 20 compares the signal intensity Ih of the signal of the adjacent channel detected by the signal intensity detector 18 with a predetermined threshold T.
If it is determined in step S45 that the signal intensity Ih exceeds the predetermined threshold T, in step S46, the pass bandwidth setting unit 20 determines that the adjacent channel is used. As a result, the pass bandwidth setting unit 20 sets the pass bandwidth of the low-pass filter 5 to the same pass bandwidth as conventionally used in steps S48 and S50.

  On the other hand, when it is determined in step S45 that the signal intensity Ih is within the predetermined threshold T, in step S47, the pass bandwidth setting unit 20 determines that the adjacent channel is not used. As a result, the pass bandwidth setting unit 20 sets the pass bandwidth of the low-pass filter 5 to a wider pass bandwidth than the pass bandwidth conventionally used in steps S48 and S49.

  Although the present invention has been described in detail with reference to the preferred embodiments, specific embodiments of the present invention will be added below for easy understanding of the present invention.

(Appendix 1)
A receiving device that extracts a signal of a desired channel from the received signal by performing band limitation on the received signal,
An adjacent channel use presence / absence detecting unit for detecting presence / absence of use of an adjacent channel other than the desired channel;
When an adjacent channel is not used, a pass bandwidth setting unit that sets the pass bandwidth of the band limitation wider than when the adjacent channel is used; and
A receiving apparatus comprising:

(Appendix 2)
The adjacent channel use presence / absence detection unit includes:
A band limiting filter that passes a signal of a desired channel included in the received signal and reflects at least a part of a signal other than the desired channel; and
A first signal intensity detector that detects the intensity of the signal component reflected by the band limiting filter;
A second signal strength detector that detects the strength of the signal component passing through the band limiting filter;
A comparator for comparing the detection signals of the first and second signal intensity detection units to detect the use of the adjacent channel;
The receiving apparatus according to Supplementary Note 1, further comprising:
(Appendix 3)
A frequency converter that converts the received signal from a radio frequency signal to a signal of a predetermined carrier frequency;
The band limiting filter passes a signal of a desired channel included in the received signal converted into a signal of the predetermined carrier frequency, and reflects at least a part of a signal other than the desired channel;
The receiving device according to Supplementary Note 2, wherein

(Appendix 4)
The adjacent channel use presence / absence detecting unit includes a band limiting filter that passes at least a part of the signal of the adjacent channel included in the received signal, and a signal strength detecting unit that detects the intensity of a signal component that passes through the band limiting filter. And comprising
The passband width setting unit sets the passband width wider than when the signal strength exceeds the predetermined threshold when the signal strength detected by the signal strength detection unit is equal to or less than a predetermined threshold. To
The receiving device according to Supplementary Note 1, wherein

(Appendix 5)
The receiving device includes a demodulator that demodulates the received signal,
The desired channel signal is extracted from the received signal by band-limiting the received signal after demodulation by the demodulator with a low-pass filter,
The receiving apparatus according to appendix 4, wherein the band limiting filter is a high-pass filter that filters the received signal after the demodulation.

(Appendix 6)
The reception apparatus includes a plurality of antennas for diversity reception, can switch whether to perform diversity reception, and at the time of non-diversity reception, the reception signal of any one of the plurality of antennas includes the band. Configured to limit and extract the signal of the desired channel,
The adjacent channel use presence / absence detection unit includes:
A band-limiting filter to which a reception signal received by another antenna other than the one of the plurality of antennas is input during non-diversity reception;
A signal strength detector that detects the signal strength of at least a part of the signal of the adjacent channel that has passed through the band limiting filter;
With
The passband width setting unit sets the passband width wider than when the signal strength exceeds the predetermined threshold when the signal strength detected by the signal strength detection unit is equal to or less than a predetermined threshold. To
The receiving device according to Supplementary Note 1, wherein

(Appendix 7)
The receiving device includes a demodulator that demodulates each received signal of the plurality of antennas,
The signal of the desired channel is extracted by band-limiting a signal obtained by demodulating the received signal of any one of the antennas with the demodulator with a low-pass filter,
The receiving apparatus according to appendix 6, wherein the band limiting filter is a high-pass filter that filters a signal obtained by demodulating a received signal of the other antenna by the demodulator.

(Appendix 8)
A reception method for extracting a signal of a desired channel from the received signal by performing band limitation on the received signal,
It is determined whether an adjacent channel other than the desired channel is used,
When the adjacent channel is not used, the band-limited pass bandwidth is set wider than when the adjacent channel is used.
And a receiving method.
(Appendix 9)
The received signal is input to a band limiting filter that passes a signal of a desired channel included in the received signal and reflects at least a part of a signal other than the desired channel,
Detecting the intensity of the first signal component reflected by the band limiting filter;
Detecting the intensity of the second signal component passing through the band limiting filter;
Determining whether the adjacent channel is used by comparing the intensities of the first and second signal components;
The receiving method according to appendix 8, characterized by:
(Appendix 10)
Converting the received signal from a radio frequency signal to a signal of a predetermined carrier frequency;
The received signal converted into the signal of the predetermined carrier frequency is input to the band limiting filter.
The receiving method according to supplementary note 10, wherein:

(Appendix 11)
At least part of the signal of the adjacent channel included in the received signal is extracted by a band limiting filter,
Detecting the signal strength of at least part of the signal of the extracted adjacent channel;
Determining that the adjacent channel is in use when the detected signal strength exceeds a predetermined threshold;
The receiving method according to appendix 8, characterized by:

(Appendix 12)
Demodulating the received signal;
Extracting the signal of the desired channel by band-limiting the demodulated received signal with a low-pass filter,
Filtering the received signal demodulated with a high-pass filter as the band-limiting filter to extract at least a part of the signal of the adjacent channel;
The reception method according to attachment 11, wherein

(Appendix 13)
Receiving the received signal by a plurality of antennas for diversity reception;
When diversity reception is not performed using the reception signals of the plurality of antennas,
(A) A reception signal received by any one of the plurality of antennas is input to a band limiting filter, and at least a part of the signal of the adjacent channel included in the reception signal is extracted.
(B) detecting the signal strength of at least a part of the signal of the extracted adjacent channel, and determining that the adjacent channel is used when the detected signal strength exceeds a predetermined threshold;
(C) The band is limited by the pass bandwidth set according to the determination result, and the signal of the desired channel is extracted from the received signals of other antennas than the one of the plurality of antennas. ,
The receiving method according to appendix 8, characterized by:

(Appendix 14)
After demodulating the received signal of the other antenna, the desired channel signal is extracted by band limiting with a low-pass filter,
At least a part of the signal of the adjacent channel is extracted by filtering a signal obtained by demodulating the reception signal of any one of the antennas with a high-pass filter as the band limiting filter.
14. The reception method according to attachment 13, wherein the reception method is characterized.

  The present invention can be used for a receiving apparatus and a receiving method used in a wireless communication system, and can be preferably used for controlling a cutoff frequency of a band limiting filter that extracts a desired channel from a received signal.

It is a schematic block diagram of the conventional orthogonal modulation wave receiver. 1 is a schematic configuration diagram of a quadrature modulated wave receiving apparatus according to a first embodiment of the present invention. 3 is a flowchart of a first example of a pass bandwidth changing method according to an embodiment of the present invention. It is a schematic block diagram of the orthogonal modulation wave receiver by 2nd Example of this invention. FIG. 4 is a flowchart of a first example of an adjacent channel use presence / absence detection routine of the pass bandwidth changing method shown in FIG. 3. It is a schematic block diagram of the orthogonal modulation wave receiver by 3rd Example of this invention. FIG. 4 is a flowchart of a second example of an adjacent channel use presence / absence detection routine of the pass bandwidth changing method shown in FIG. 3. It is a schematic block diagram of the orthogonal modulation wave receiver by 4th Example of this invention. 6 is a flowchart of a second example of a pass bandwidth changing method according to an embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Orthogonal modulation wave receiver 2 Antenna 3 Frequency conversion part 4 Modulator 5 Low pass filter 6 Baseband process part 10 Adjacent channel use presence / absence detection part 20 Pass bandwidth setting part

Claims (5)

A receiving device that extracts a signal of a desired channel from the received signal by performing band limitation on the received signal,
An adjacent channel use presence / absence detecting unit for detecting presence / absence of use of an adjacent channel other than the desired channel;
When an adjacent channel is not used, a pass bandwidth setting unit that sets the pass bandwidth of the band limitation wider than when the adjacent channel is used; and
A receiving apparatus comprising: The adjacent channel use presence / absence detection unit includes:
A band limiting filter that passes a signal of a desired channel included in the received signal and reflects at least a part of a signal other than the desired channel; and
A first signal intensity detector that detects the intensity of the signal component reflected by the band limiting filter;
A second signal strength detector that detects the strength of the signal component passing through the band limiting filter;
A comparator for comparing the detection signals of the first and second signal intensity detection units to detect the use of the adjacent channel;
The receiving apparatus according to claim 1, further comprising: The adjacent channel use presence / absence detecting unit includes a band limiting filter that passes at least a part of the signal of the adjacent channel included in the received signal, and a signal strength detecting unit that detects the intensity of a signal component that passes through the band limiting filter. And comprising
The passband width setting unit sets the passband width wider than when the signal strength exceeds the predetermined threshold when the signal strength detected by the signal strength detection unit is equal to or less than a predetermined threshold. To
The receiving apparatus according to claim 1. The reception apparatus includes a plurality of antennas for diversity reception, can switch whether to perform diversity reception, and at the time of non-diversity reception, the reception signal of any one of the plurality of antennas includes the band. Configured to limit and extract the signal of the desired channel,
The adjacent channel use presence / absence detection unit includes:
A band-limiting filter to which a reception signal received by another antenna other than the one of the plurality of antennas is input during non-diversity reception;
A signal strength detector that detects the signal strength of at least a part of the signal of the adjacent channel that has passed through the band limiting filter;
With
The passband width setting unit sets the passband width wider than when the signal strength exceeds the predetermined threshold when the signal strength detected by the signal strength detection unit is equal to or less than a predetermined threshold. To
The receiving apparatus according to claim 1. A reception method for extracting a signal of a desired channel from the received signal by performing band limitation on the received signal,
It is determined whether an adjacent channel other than the desired channel is used,
When the adjacent channel is not used, the band-limited pass bandwidth is set wider than when the adjacent channel is used.
And a receiving method.

Images