JP2005006186A - Radio transmission system and receiver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a radio transmission system capable of preventing communication quality from deteriorating even though the backoff of an amplifier of a transmitter is made small. <P>SOLUTION: When a voltage amplitude value of a transmission signal amplified by an amplifier 17 for transmission is larger than a regulated voltage amplitude value, a transmitting waveform forming circuit 15 for making the voltage amplitude value of the transmission signal small is mounted on the transmitter 1, and a receiving waveform forming circuit 23 for making the voltage amplitude value of the transmission signal large is mounted on a receiver 2. This can enhance the power efficiency of the amplifier 17 for transmission. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless transmission system that transmits and receives a transmission signal and a reception device that receives a transmission signal radiated from a transmission device.
[0002]
[Prior art]
In a wireless transmission system that wirelessly transmits information by superimposing information on the amplitude and phase of a carrier wave, communication quality deteriorates due to distortion of a transmission signal.
Therefore, in order to prevent the transmission signal from being distorted, the amplifier mounted on the transmitter of the wireless transmission system has a sufficient back-off for the maximum power that can be transmitted so that the amplifier does not become a nonlinear region. (= (Maximum amplitude of the transmission signal in the linear region) ² / average power of the transmission signal) is secured. In particular, a very large back-off is required in a wireless transmission system using a multi-carrier scheme that performs broadband transmission using a plurality of carrier waves.
[0003]
A conventional wireless transmission system using a multicarrier system is applied to, for example, an OFDM system in digital television broadcasting or an MC-CDMA system in a mobile phone.
Specifically, the transmission device mixes an OFDM baseband signal with a local oscillation signal to generate a transmission signal, amplifies the transmission signal, and the transmission antenna radiates the amplified transmission signal to space.
On the other hand, when the reception device receives the transmission signal radiated from the transmission device, the reception device amplifies the transmission signal, and mixes the local oscillation signal with the amplified transmission signal to reproduce the baseband signal.
[0004]
In the case of the conventional wireless transmission system, sufficient back-off is ensured so that the amplifier of the transmission device does not become a non-linear region.
Therefore, it is possible to prevent deterioration in communication quality due to nonlinearity of the amplifier of the transmission apparatus (see, for example, Non-Patent Document 1).
[0005]
[Non-Patent Document 1]
“OFDM Modulation Technology” March 6, 2000, published by Trikeps, Inc. 37-51, P.I. 90-93
[0006]
[Problems to be solved by the invention]
Since the conventional wireless transmission system is configured as described above, it is possible to prevent deterioration of communication quality due to nonlinearity of the amplifier of the transmission device, but the back-off of the amplifier is sufficiently ensured. There was a problem that the power efficiency of the amplifier deteriorated.
[0007]
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a wireless transmission system that can prevent deterioration in communication quality even when back-off of an amplifier of a transmission apparatus is reduced. To do.
[0008]
[Means for Solving the Problems]
In the wireless transmission system according to the present invention, when the voltage amplitude value of the transmission signal amplified by the transmission amplifier is larger than the specified voltage amplitude value, a transmission waveform forming circuit for reducing the voltage amplitude value of the transmission signal is mounted on the transmission device In addition, a receiving waveform forming circuit for increasing the voltage amplitude value of the transmission signal is mounted on the receiving device.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a radio transmission system according to Embodiment 1 of the present invention. In the figure, a baseband signal generator 11 of a transmitting apparatus 1 generates a baseband modulation signal according to transmission information transmitted to a receiving side. The D / A converter 12 converts the digital baseband modulation signal generated by the baseband signal generator 11 into an analog signal. The local oscillator 13 oscillates a carrier wave (local oscillation signal), and the mixer 14 mixes the carrier wave with the baseband modulation signal output from the D / A converter 12 to generate a transmission signal. The baseband signal generator 11, the D / A converter 12, the local oscillator 13, and the mixer 14 constitute a transmission signal generator.
[0010]
When the voltage value corresponding to the average signal power of the transmission signal is set to the specified voltage amplitude value and the voltage amplitude value of the transmission signal becomes larger than the specified voltage amplitude value, the transmission waveform forming circuit 15 sets the voltage amplitude value of the transmission signal. If the voltage amplitude value of the transmission signal output from the mixer 14 is larger than the specified voltage amplitude value, the voltage amplitude value of the transmission signal is reduced and output.
The transmission filter 16 removes components outside the transmission band in the transmission signal, and the transmission amplifier 17 amplifies the transmission signal output from the transmission filter 16. The transmission antenna 18 radiates the transmission signal amplified by the transmission amplifier 17 into space.
[0011]
The reception antenna 21 of the reception device 2 receives the transmission signal radiated from the transmission device 1, and the reception amplifier 22 amplifies the transmission signal received by the reception antenna 21.
The reception waveform forming circuit 23 has a function of canceling the input / output characteristics of the transmission waveform forming circuit 15. When the voltage amplitude value of the transmission signal output from the mixer 14 becomes larger than the specified voltage amplitude value, the voltage amplitude of the transmission signal Output a larger value.
The local oscillator 24 oscillates a carrier wave (local oscillation signal), and the mixer 25 mixes the carrier wave with the transmission signal output from the reception waveform forming circuit 23 and outputs a baseband modulation signal. The A / D converter 26 converts the analog baseband modulation signal output from the mixer 25 into a digital signal. The baseband signal processor 27 reproduces transmission information from the digital baseband modulation signal output from the A / D converter 26. The local oscillator 24, the mixer 25, the A / D converter 26, and the baseband signal processor 27 constitute a signal regenerator.
[0012]
Next, the operation will be described.
The baseband signal generator 11 of the transmitter 1 generates an OFDM baseband modulated signal according to the transmission information transmitted to the receiving side, and the D / A converter 12 is generated by the baseband signal generator 11. Convert digital baseband modulation signal to analog signal.
[0013]
When receiving the baseband modulation signal from the D / A converter 12, the mixer 14 of the transmission device 1 mixes the carrier wave oscillated from the local oscillator 13 with the baseband modulation signal and generates a transmission signal.
That is, the mixer 14 up-converts the frequency of the baseband modulation signal output from the D / A converter 12 to the frequency band of the carrier wave oscillated from the local oscillator 13. The power spectrum of the transmission signal output from the mixer 14 has a plurality of carrier frequencies as shown in FIG. 2, and the time waveform of the transmission signal is an average as shown in FIG. It has a peak signal with a voltage value much larger than the voltage value corresponding to the signal power.
[0014]
As shown in FIG. 4, in the transmission waveform forming circuit 15 of the transmission apparatus 1, a voltage value corresponding to the average signal power of a transmission signal is set to a specified voltage amplitude value, and the voltage amplitude value (input voltage) of the transmission signal is When it becomes larger than the specified voltage amplitude value, it has an input / output characteristic that decreases the voltage amplitude value of the transmission signal, and when the voltage amplitude value of the transmission signal output from the mixer 14 becomes larger than the specified voltage amplitude value, The voltage amplitude value of the transmission signal is reduced and output to the transmission filter 16.
When the voltage amplitude value of the transmission signal becomes larger than the specified voltage amplitude value, the input / output characteristics for decreasing the voltage amplitude value of the transmission signal include, for example, an n-th root function characteristic (n: odd number) and a sin function characteristic ( [theta] =-[pi] / 2 to [pi] / 2).
By providing the transmission waveform forming circuit 15, an input signal voltage equal to or higher than the average signal power for the transmission amplifier 17 can be reduced, so that the back-off of the transmission amplifier 17 can be reduced.
[0015]
When receiving the transmission signal from the transmission waveform forming circuit 15, the transmission filter 16 of the transmission device 1 removes components outside the transmission band in the transmission signal.
The transmission amplifier 17 of the transmission apparatus 1 amplifies the transmission signal output from the transmission filter 16, and the transmission antenna 18 radiates the transmission signal amplified by the transmission amplifier 17 to the space.
[0016]
The reception antenna 21 of the reception device 2 receives the transmission signal radiated from the transmission device 1, and the reception amplifier 22 amplifies the transmission signal received by the reception antenna 21.
As shown in FIG. 5, the reception waveform forming circuit 23 of the receiving device 2 has input / output characteristics that cancel the input / output characteristics of the transmission waveform forming circuit 15, and the voltage amplitude value of the transmission signal output from the mixer 14 is specified. When it becomes larger than the voltage amplitude value, the voltage amplitude value of the transmission signal is increased and output to the mixer 25.
As the input / output characteristics for canceling the input / output characteristics of the transmission waveform forming circuit 15, for example, an n-th power function characteristic (n: odd number), an arcsin function characteristic (θ = −π / 2 to π / 2), and the like are conceivable. .
By providing the reception waveform forming circuit 23, the influence of the waveform change of the transmission signal by the transmission waveform forming circuit 15 is eliminated.
[0017]
When receiving the transmission signal from the reception waveform forming circuit 23, the mixer 25 of the receiving device 2 mixes the carrier wave oscillated from the local oscillator 24 with the transmission signal and outputs a baseband modulation signal.
That is, the mixer 25 down-converts the frequency of the transmission signal output from the reception waveform forming circuit 23 to the frequency band of the baseband (or IF band).
When the analog baseband modulation signal is received from the mixer 25, the A / D converter 26 of the receiving device 2 converts the baseband modulation signal into a digital signal, and the baseband signal processor 27 includes an A / D converter. The transmission information is reproduced from the digital baseband modulation signal output from H.26.
[0018]
As is apparent from the above, according to the first embodiment, when the voltage amplitude value of the transmission signal amplified by the transmission amplifier 17 is larger than the specified voltage amplitude value, the transmission is performed to reduce the voltage amplitude value of the transmission signal. Since the waveform forming circuit 15 is mounted on the transmission device 1 and the reception waveform forming circuit 23 for increasing the voltage amplitude value of the transmission signal is mounted on the reception device 2, the transmission amplifier 17 of the transmission device 1 Even if the back-off is reduced, the communication quality can be prevented from being deteriorated. As a result, the power efficiency of the transmission amplifier 17 can be improved.
[0019]
Embodiment 2. FIG.
In the first embodiment, the transmission waveform forming circuit 15 is inserted between the mixer 14 and the transmission filter 16, and the reception waveform forming circuit 23 is inserted between the reception amplifier 22 and the mixer 25. For example, the transmission waveform forming circuit 15 is inserted between the D / A converter 12 and the mixer 14, and the reception waveform forming circuit 23 is inserted between the mixer 25 and the A / D converter 26. You may make it insert, and there can exist an effect similar to the said Embodiment 1. FIG.
Further, the transmission waveform forming circuit 15 is inserted between the baseband signal generator 11 and the D / A converter 12, and the reception waveform forming circuit 23 is inserted between the A / D converter 26 and the baseband signal processor 27. You may make it insert, and there can exist an effect similar to the said Embodiment 1. FIG.
[0020]
Embodiment 3 FIG.
6 is a block diagram showing a wireless transmission system according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG.
The reception waveform forming circuit 28 stores correction data for removing distortion components included in the transmission signal amplified by the transmission amplifier 17, adds the correction data to the transmission signal amplified by the reception amplifier 22, and transmits the correction data. The distortion characteristic of the credit amplifier 17 is compensated.
[0021]
In the first embodiment, the reception waveform forming circuit 23 having the function of canceling the input / output characteristics of the transmission waveform forming circuit 15 is mounted on the reception device 2. However, the reception for compensating the distortion characteristics of the transmission amplifier 17 is described. The waveform forming circuit 28 may be mounted on the receiving device 2, and the same effect as in the first embodiment can be obtained. In this case, since it is not necessary to mount the transmission waveform forming circuit 15 in the transmission device 1, the configuration can be simplified.
[0022]
That is, when the transmission amplifier 17 has a distortion characteristic as shown in FIG. 7, for example, the frequency component that is not included in the transmission signal before input, that is, the distortion component is amplified by the transmission amplifier 17. Included in the transmission signal.
Therefore, the reception waveform forming circuit 28 stores in advance a plurality of correction data for removing distortion components included in the transmission signal amplified by the transmission amplifier 17, and the distortion components included in the transmission signal are stored. The detected correction data corresponding to the distortion component is selected, and the correction data is added to the transmission signal amplified by the reception amplifier 22 to compensate for the distortion characteristics of the transmission amplifier 17.
[0023]
Embodiment 4 FIG.
In the third embodiment, the reception waveform forming circuit 28 is inserted between the reception amplifier 22 and the mixer 25. However, the present invention is not limited to this. For example, the reception waveform forming circuit 28 is connected to the mixer 25 and the A / D converter 26 may be inserted, and the same effect as in the third embodiment can be obtained.
Further, the reception waveform forming circuit 28 may be inserted between the A / D converter 26 and the baseband signal processor 27, and the same effect as in the third embodiment can be obtained.
[0024]
【The invention's effect】
As described above, according to the present invention, when the voltage amplitude value of the transmission signal amplified by the transmission amplifier becomes larger than the specified voltage amplitude value, the transmission waveform forming circuit that reduces the voltage amplitude value of the transmission signal is transmitted. In addition, the reception waveform forming circuit that increases the voltage amplitude value of the transmission signal is installed in the receiving device, so even if the back-off of the transmitting amplifier of the transmitting device is reduced, the communication quality deteriorates. As a result, it is possible to increase the power efficiency of the transmission amplifier.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a wireless transmission system according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a power spectrum of a transmission signal.
FIG. 3 is an explanatory diagram showing a time waveform of a transmission signal.
FIG. 4 is an explanatory diagram showing input / output characteristics of a transmission waveform forming circuit;
FIG. 5 is an explanatory diagram showing input / output characteristics of a reception waveform forming circuit;
FIG. 6 is a configuration diagram showing a wireless transmission system according to a third embodiment of the present invention.
FIG. 7 is an explanatory diagram illustrating compensation of distortion characteristics of a transmission amplifier.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Transmitter, 2 Receiver, 11 Baseband signal generator (transmission signal generator), 12 D / A converter (transmission signal generator), 13 Local oscillator (transmission signal generator), 14 Mixer (Transmission signal generation) 15) transmission waveform forming circuit, 16 transmission filter, 17 transmission amplifier, 18 transmission antenna, 21 reception antenna, 22 reception amplifier, 23 reception waveform forming circuit, 24 local oscillator (signal regenerator), 25 mixer ( Signal regenerator), 26 A / D converter (signal regenerator), 27 baseband signal processor (signal regenerator), 28 reception waveform forming circuit.

Claims (6)

A transmission signal generator for generating a transmission signal by mixing a local oscillation signal with a baseband signal, a transmission amplifier for amplifying the transmission signal generated by the transmission signal generator, and a transmission amplified by the transmission amplifier A transmitting device configured with a transmitting antenna that radiates a signal to space; a receiving antenna that receives a transmission signal radiated from the transmitting device; and a local oscillation signal mixed with a transmission signal received by the receiving antenna In a wireless transmission system including a receiving device composed of a signal regenerator for reproducing a baseband signal, if the voltage amplitude value of the transmission signal amplified by the transmission amplifier is larger than a specified voltage amplitude value, the transmission A transmission waveform forming circuit that reduces the voltage amplitude value of the signal is mounted on the transmitter, and the voltage amplitude value of the transmission signal is increased. Wireless transmission system, characterized by mounting a waveform forming circuit in the receiver. In the transmission waveform forming circuit, when the voltage value corresponding to the average signal power of the transmission signal is set to the specified voltage amplitude value, and the voltage amplitude value of the transmission signal becomes larger than the specified voltage amplitude value, the voltage amplitude value of the transmission signal is decreased. 2. The wireless transmission system according to claim 1, wherein the reception waveform forming circuit has an input / output characteristic that cancels the input / output characteristic of the transmission waveform forming circuit. A transmission signal generator for generating a transmission signal by mixing a local oscillation signal with a baseband signal, a transmission amplifier for amplifying the transmission signal generated by the transmission signal generator, and a transmission amplified by the transmission amplifier A transmitting device configured with a transmitting antenna that radiates a signal to space; a receiving antenna that receives a transmission signal radiated from the transmitting device; and a local oscillation signal mixed with the transmission signal received by the receiving antenna. In a wireless transmission system comprising a receiving device comprising a signal regenerator for reproducing a baseband signal, a receiving waveform forming circuit for compensating for distortion characteristics of the transmitting amplifier is mounted on the receiving device. Wireless transmission system. The reception waveform forming circuit stores correction data for removing distortion components included in the transmission signal amplified by the transmission amplifier, and adds the correction data to the transmission signal received by the reception antenna. Item 4. The wireless transmission system according to Item 3. In a receiving apparatus comprising: a receiving antenna that receives a transmission signal radiated from a transmitting apparatus; and a signal regenerator that reproduces a baseband signal by mixing a local oscillation signal with the transmission signal received by the receiving antenna. A receiving apparatus comprising a receiving waveform forming circuit for compensating for distortion characteristics of a transmitting amplifier when the transmitting apparatus includes a transmitting amplifier for amplifying a transmission signal. The reception waveform forming circuit stores correction data for removing distortion components included in the transmission signal amplified by the transmission amplifier, and adds the correction data to the transmission signal received by the reception antenna. Item 6. The receiving device according to Item 5.

Images