JP2014053740A - Radio receiver and radio reception method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio receiver capable of, eliminating effects due to intermodulation waves, and receiving radio waves within a broad range of frequency, with a simple structure.SOLUTION: A radio receiver 1 capable of eliminating an intermodulation wave, an amplification level of which in an amplifier is higher than an amplification level of desired wave in an amplifier, includes: a second amplifier 31 for generating an amplified wave by amplifying a reception wave; a gain adjustment part 35 for generating a replica wave by decreasing level of an amplified wave generated by a third amplifier 32; and a subtraction part 41 for subtracting the replica wave, generated by the gain adjustment part 35, from a reception wave.

Description

  The present invention relates to a radio reception apparatus and radio reception method capable of eliminating the influence of intermodulation (IM, intermodulation) waves.

  For example, when two radio waves are received and amplified, a radio wave having a frequency that should not be emitted (which is not desired) may be output, and this phenomenon is caused by intermodulation distortion or third-order intermodulation distortion. , Called intermodulation. This intermodulation distortion is caused by, for example, output of an intermodulation wave (interference wave or unnecessary wave) at a frequency separated by the same interval as the frequency interval of two broadcast waves (desired wave), and there is a problem such as noise generation. It will occur.

  As a technique for removing such an intermodulation wave and receiving a desired wave with high accuracy and appropriateness, for example, double superheterodyne is known (see, for example, Patent Document 1). This double superheterodyne further includes a mixer (mixer) and a local oscillator after the IF (intermediate frequency) amplifier of the superheterodyne, and performs frequency conversion twice. Since the frequency is dropped in two steps, the first or second filter can be narrowed, and the adjacent channel wave and the next adjacent channel wave can be dropped with this filter. Since amplification can be performed to a level that allows demodulation processing after the first and second filters, the amplification gain can be small before passing through these filters, and there is an advantage that intermodulation distortion can be suppressed.

Japanese Patent Application Laid-Open No. 08-079121

  However, in the double superheterodyne as described above, since two sets of mixers and local oscillators must be provided, the circuit becomes large and the cost increases. In addition, since a narrow band filter is used, radio waves and signals in a wide frequency range cannot be captured.

  Accordingly, an object of the present invention is to provide a wireless reception device and a wireless reception method capable of eliminating the influence of intermodulation waves with a simple configuration and receiving radio waves in a wide frequency range.

  In order to solve the above-mentioned problem, the invention according to claim 1 is a radio receiving apparatus capable of removing intermodulation waves having a characteristic that an amplification level by an amplifier is higher than an amplification level by a desired wave amplifier. An amplified wave generating means for amplifying a received wave to generate an amplified wave; a replica wave generating means for generating a replica wave by lowering a level of the amplified wave generated by the amplified wave generating means; Subtracting means for subtracting the replica wave generated by the replica wave generating means from the received wave.

  According to the present invention, when a received wave is received, the received wave is amplified by the amplified wave generating means to generate an amplified wave. At this time, more intermodulation waves are generated than the desired wave. Next, the level of the amplified wave is lowered by the replica wave generating means, and a replica wave is generated. At this time, since the desired wave in the amplified wave has a level smaller than that of the intermodulation wave, the level of the desired wave in the replica wave is also smaller than that of the intermodulation wave. Subsequently, the replica wave is subtracted from the received wave by the subtracting means. At this time, since the level of the intermodulation wave in the replica wave is higher than that of the desired wave, the intermodulation wave is further subtracted from the reception wave.

  The invention according to claim 2 is a radio reception method capable of removing an intermodulation wave having a characteristic that an amplification level by an amplifier is higher than an amplification level of a desired wave by an amplifier. An amplified wave generating step for generating an amplified wave, a replica wave generating step for generating a replica wave by lowering the level of the amplified wave generated by the amplified wave generating step, and a replica generated by the replica wave generating step A subtracting step of subtracting a wave from the received wave.

  According to the first and second aspects of the invention, the intermodulation wave is further subtracted from the reception wave as described above. That is, the intermodulation wave is further removed from the received wave, and the desired wave remains, so that the influence of the intermodulation wave can be eliminated. In addition, it is not necessary to provide a plurality of mixers or local oscillators, and it is only necessary to amplify the received wave, lower the level, or subtract the replica wave from the received wave. It becomes possible. Furthermore, since a narrow band filter is not used, radio waves in a wide frequency range can be received.

1 is a schematic configuration block diagram showing a radio reception apparatus according to an embodiment of the present invention. It is a figure which shows the characteristic of the amplification level by the amplifier of a desired wave and an intermodulation wave.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a schematic block diagram showing a radio receiving apparatus 1 according to an embodiment of the present invention. The radio receiving apparatus 1 is a receiver that can receive a desired wave with high accuracy and appropriateness by eliminating / removing the influence of the intermodulation wave when an intermodulation wave is generated with respect to the desired wave. .

  Here, the amplification level (amplification intensity) of the intermodulation wave amplifier is higher than the amplification level of the desired wave amplifier. For example, as shown in FIG. 2, the amplification level (input / output characteristics) L1 of the desired wave amplifier is 1 to 1 in the logarithmic value with respect to the input of the amplifier, whereas the amplifier of the intermodulation wave The amplification level L2 by the output is 1 to 3 in a logarithmic value with respect to the input of the amplifier. That is, when the desired wave and the intermodulation wave are amplified simultaneously by the amplifier, the intermodulation wave is amplified by a logarithm value three times (third power) than the desired wave. Further, a point P where the amplification level L1 of the desired wave and the amplification level L2 of the intermodulation wave intersect is referred to as an intercept point. In a region larger than the intercept point P (right side in the figure), the output level of the intermodulation wave is It becomes larger than the output level of the desired wave.

  The wireless reception device 1 obtains a reception wave having a predetermined frequency and intensity level from the reception wave received by the antenna 11 via the first bandpass filter 12, the low noise amplifier 13, and the second bandpass filter 14. . Next, this received wave is amplified by the first amplifier 21, digitally converted by the first analog / digital converter 22, and further set to a predetermined frequency by the first demodulation bandpass filter 23. Here, based on a reference signal output from a TCXO (Temperature Compensated Crystal Oscillator) 15, the output values of the first amplifier 21, the second amplifier 31 described later, and the third amplifier 32 are It is to be corrected.

  On the other hand, the received wave output from the second bandpass filter 14 is amplified by a second amplifier (amplified wave generating means) 31 to generate an amplified wave. At this time, the received wave is amplified so that the output level of the intermodulation wave is orders of magnitude greater than the output level of the desired wave. For example, as described above, the amplification level L1 of the desired wave is 1 to 1 logarithmically with respect to the input of the amplifier, and the amplification level L2 of the intermodulation wave is 1 to 3 logarithmically with respect to the input of the amplifier. Therefore, when the gain of the second amplifier 31 is set to 10 dB, the output level of the desired wave is 10 dB (10 times), whereas the output level of the intermodulation wave is 30 dB (1000 times).

  Next, the generated amplified wave is amplified by the third amplifier 32, digitally converted by the second analog / digital converter 33, and further set to a predetermined frequency by the second demodulation bandpass filter 34. Here, the gain of the third amplifier 32 is set to be the same as that of the first amplifier 21, and the saturation characteristics such as the intercept point are the same (an amplifier having the same characteristics is used). . Accordingly, an intermodulation wave is also generated in the third amplifier 32. Since the third amplifier 32 has a higher signal input level than the second amplifier 31, the intermodulation wave is almost the characteristic of the first amplifier 21 when viewed from the output of the third amplifier 32. It can be considered that the signal is generated by the same third amplifier 32.

  Subsequently, the level of the amplified wave output from the second demodulating bandpass filter 34 is lowered (reduced) by the gain adjusting unit (replica wave generating means) 35 to generate a replica wave. Here, the level of the amplified wave is lowered so that the level of the intermodulation wave in the generated replica wave is equivalent to the level of the intermodulation wave in the reception wave (original reception wave level). For example, when the gain of the second amplifier 31 is set to 10 dB as described above and the output level of the intermodulation wave in the amplified wave is 30 dB (1000 times), the gain of the gain adjustment unit 35 is set to 1/1000. To do.

  The subtractor (subtractor) 41 subtracts the replica wave generated by the gain adjuster 35 from the received wave output from the first demodulated bandpass filter 23. Thereby, the desired wave and the intermodulation wave in the replica wave are subtracted from the desired wave and the intermodulation wave in the received wave, respectively.

  According to the wireless reception method by the wireless reception device 1 having such a configuration, first, the reception wave is amplified by the second amplifier 31 to generate an amplified wave (amplified wave generation step). At this time, as described above, the intermodulation wave is amplified by the third amplifier 32 more greatly than the desired wave. For example, when the level of the received wave is 1 and the gain of the second amplifier 31 is 10 dB, the output level of the desired wave in the amplified wave is 10 (10 dB) and the output level of the intermodulation wave in the amplified wave is 1000 (30 dB) )

  Next, the level of the amplified wave is lowered by the gain adjusting unit 35 to generate a replica wave (replica wave generating step). At this time, since the desired wave in the amplified wave has a level smaller than that of the intermodulation wave, the level of the desired wave in the replica wave is also smaller than that of the intermodulation wave. For example, in the above case, when the gain of the gain adjusting unit 35 is 1/1000, the level of the desired wave in the replica wave is 0.01 (= 10/1000) and the level of the intermodulation wave in the replica wave is 1 ( = 1000/1000).

Subsequently, the replica wave is subtracted from the received wave by the subtracting unit 41 (subtraction step). At this time, since the level of the intermodulation wave in the replica wave is higher than the desired wave, the intermodulation wave is further subtracted from the received wave. For example, in the case described above, the following results are obtained.
Hope wave: 1-0.01 ≒ 1
Intermodulation wave: 1-1 = 0
That is, the intermodulation wave is subtracted from the received wave and removed, and only the desired wave remains.

  As described above, according to the wireless reception device 1 and the wireless reception method, the intermodulation wave is subtracted and removed from the reception wave, and only the desired wave is captured, thereby eliminating the influence of the intermodulation wave. Can do. In addition, there is no need to provide a plurality of mixers, local oscillators, and the like, and it is only necessary to provide the second amplifier 31 that amplifies the received wave, the gain adjustment unit 35 that reduces the amplitude, and the subtraction unit 41 that subtracts the signal (radio wave). It can be configured simply.

  In addition, since an analog circuit composed of normal amplifiers 21, 31, 32, and the like is used, not only the circuit is simple, but also intermodulation waves generated by a large number of interference waves can be instantaneously removed. Furthermore, since it is not converted to a low frequency and a narrow band filter is not used, radio waves in a wide frequency range can be received. That is, a wide range of frequencies can be received as it is.

  Further, since the amplified wave (replica wave) is digitally converted by the second analog / digital converter 33 and the level is adjusted, the correction level can be digitally processed, and the error adjustment is corrected. Cheap.

  The embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to these embodiments, and the design can be changed without departing from the gist of the present invention. Is included in the present invention. For example, in the above-described embodiment, the TCXO 15 is provided. However, the TCXO 15 may not be provided according to the accuracy and required accuracy of the amplifiers 21, 31, and 32. Similarly, the first amplifier according to the necessary level or the like. 21 and the third amplifier 32 may not be provided.

  The present invention can be applied to commercial radios that receive radio waves from one station.

DESCRIPTION OF SYMBOLS 1 Wireless receiver 11 Antenna 12 1st band pass filter 13 Low noise amplifier 14 2nd band pass filter 15 Temperature compensation type | mold crystal oscillator 21 1st amplifier 22 1st analog / digital converter 23 1st demodulation band pass Filter 31 Second amplifier (amplified wave generating means)
32 3rd amplifier 33 2nd analog / digital converter 34 2nd demodulation band pass filter 35 Gain adjustment part (replica wave production | generation means)
41 Subtraction unit (subtraction means)
L1 Amplification level of desired wave amplifier L2 Amplification level of intermodulation wave amplifier P Intercept point

Claims (2)

A wireless receiver capable of removing intermodulation waves having a characteristic that an amplification level by an amplifier is higher than an amplification level by a desired wave amplifier,
Amplified wave generating means for amplifying the received wave to generate an amplified wave;
A replica wave generating means for generating a replica wave by lowering the level of the amplified wave generated by the amplified wave generating means;
Subtracting means for subtracting the replica wave generated by the replica wave generating means from the received wave;
A radio receiving apparatus comprising: A wireless reception method capable of removing an intermodulation wave having a characteristic that an amplification level by an amplifier is higher than an amplification level by an amplifier of a desired wave,
An amplified wave generating step for amplifying the received wave to generate an amplified wave;
A replica wave generating step for generating a replica wave by lowering a level of the amplified wave generated by the amplified wave generating step;
A subtraction step of subtracting the replica wave generated by the replica wave generation step from the received wave;
A wireless reception method comprising: