Reduced Complexity On-chip IQ-Imbalance Self-Calibration

2012 IEEE Workshop on Signal Processing Systems Pub Date : 2012-10-17 DOI:10.1109/SiPS.2012.39

Chunshu Li, Min Li, S. Pollin, B. Debaillie, M. Verhelst, L. Perre, R. Lauwereins

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引用次数: 9

Abstract

The architectural simplicity of the direct-conversion scheme makes it an appealing architecture for low cost and low power transceivers. This architecture however demonstrates increased sensitivity to analog front-end impairments, such as gain and phase imbalance in the transceiver's in-phase and quadrature (IQ) paths. Especially when used in flexible software-defined radios, very fast, but low cost IQ-imbalance estimation and correction methods are required, to cope with the dynamically varying IQ imbalance due to environmental effect and frequency shifts. The main goal of this paper is to present an on-chip, off-line, extremely fast and low complexity self-calibration of IQ imbalance and carrier feed through for both the transmitter and receiver. Custom-designed training symbols allow to reduce the computational complexity, such that the calibration method can be performed at any user defined instance in negligible time. The reported complexity analysis shows that the whole calibration process takes up less than 4000 processor cycles, or 16us, when running on an OPENRISC 1200 core.

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降低芯片上智商不平衡自校准的复杂性

直接转换方案的架构简单性使其成为低成本和低功耗收发器的一个有吸引力的架构。然而，这种架构对模拟前端缺陷(例如收发器的同相和正交(IQ)路径中的增益和相位不平衡)的灵敏度更高。特别是在灵活的软件无线电中，需要快速、低成本的IQ不平衡估计和校正方法，以应对由环境影响和频移引起的动态变化的IQ不平衡。本文的主要目标是提出一种片上的、离线的、极快的、低复杂度的、用于发送和接收的IQ不平衡和载波馈通的自校准方法。定制设计的训练符号允许降低计算复杂度，使得校准方法可以在任何用户定义的实例中在可忽略不计的时间内执行。报告的复杂性分析表明，当在OPENRISC 1200内核上运行时，整个校准过程占用的处理器周期少于4000个，即16us。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE Workshop on Signal Processing Systems

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