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IQ imbalance compensation method and device in transmitter

A technology of balance compensation and compensation method, applied in the direction of multi-frequency code system, etc., can solve the problems that I/Q modulator is difficult to ensure I/Q balance degree, receiver unbalance, image interference and other problems, and achieve practicability and reliability Strong transplantability, many applicable occasions, and the effect of eliminating interference

Active Publication Date: 2015-06-17
SOUTHEAST UNIV
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Problems solved by technology

[0005] However, zero-IF receivers are very sensitive to I / Q imbalance, and it is difficult to ensure good I / Q balance with discrete I / Q modulators.
The existence of IQ imbalance will impose an image component on the original signal, resulting in image interference, and causing the error performance of the system to decline, while the indicators of error vector magnitude (EVM) and bit error rate (BER) will also decrease. For OFDM systems, IQ imbalance can also cause non-orthogonality between subcarriers
At the same time, the new generation of wireless communication systems tend to use high-order modulation and high-frequency carrier to increase the data transmission rate, and the introduction of high-order modulation and high-frequency carrier makes the wireless communication system more sensitive to IQ imbalance. Even an extremely small IQ imbalance may cause a significant decrease in the performance of the entire communication system
At present, there are already many IQ imbalance compensation methods. The traditional IQ imbalance compensation method is to feed back the IQ imbalance parameters estimated by the receiver to the transmitter, and then perform corresponding compensation, which inevitably brings Certain system overhead and time delay
In addition, most of the existing algorithms study the IQ imbalance of the receiver, and the research work on the IQ imbalance introduced by the transmitter is almost blank. In fact, the IQ imbalance of the transmitter is also a very important radio frequency index

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Embodiment Construction

[0029] The technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings. Well-known functions and constructions will not be described in detail in the following description since this will avoid unnecessary redundancy.

[0030] The example of the present invention provides a compensation method and device for IQ imbalance in the transmitter, which estimates and compensates the difference between the I channel and the Q channel generated by the IQ imbalance through the long training sequence and the short training sequence received by the OFDM transmitter. Phase difference and amplitude difference.

[0031] figure 1 It is a flow chart of the method for estimating IQ imbalance parameters in the OFDM transmitter of the present invention. First receive the OFDM signal through the test instrument, then down-convert to the baseband complex signal, and then perform synchronization and frequency offset estimation on the ...

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Abstract

The invention provides an IQ imbalance compensation method and device in a transmitter. A long training sequence and a short training sequence which are received by the OFDM transmitter are used for estimating and compensating the phase difference and the amplitude difference between a channel I and a channel Q which are generated by IQ imbalance. According to the IQ imbalance compensation method and device, the channels are allowed to have frequency selectivity, and the method and device are suitable for the condition where the channel environment is poor. With the increasing of signal bandwidths, the frequency selectivity of the channels is gradually embodied. According to the method and device, the advantage of joint estimation of the frequency domain multi-tap channels and the IQ imbalance is more and more obvious. In addition, the IQ imbalance compensation method and device are high in both practicability and transferability.

Description

technical field [0001] The present invention relates to an IQ imbalance compensation method and device in an OFDM transmitter, in particular to an IQ imbalance compensation method and device using a preamble sequence. Background technique [0002] Many wireless communication terminals use analog superheterodyne transmission and reception schemes to down-convert RF (radio frequency) signals into baseband signals or low intermediate frequency signals through multiple mixers and IF (intermediate frequency) stages. [0003] The superheterodyne system generally improves its performance by increasing the size and cost of the radio frequency selection filter. The performance of the filter determines the intermediate frequency that the system can achieve. In some systems, it is necessary to use multiple intermediate frequencies to amplify and selectively distribute To multiple intermediate frequencies, this will undoubtedly affect the performance and price of the product, so its str...

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Application Information

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IPC IPC(8): H04L27/26
Inventor 裴文江赵芬夏亦犁
Owner SOUTHEAST UNIV
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