基于CORDIC算法的25hz相敏轨道电路信号研究

2013 IEEE International Conference on Intelligent Rail Transportation Proceedings Pub Date : 2013-08-01 DOI:10.1109/ICIRT.2013.6696286

Yao Rui, Dai Shenghua, Li Zhengjiao

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引用次数: 0

摘要

通过理论分析、仿真和实现，提出了CORDIC算法可以产生25Hz相敏轨道电路信号，解决了逆变器体积大、噪声大、精度差的问题。从理论上证明了基于Matlab的CORDIC算法仿真用于产生25Hz相敏轨道电路信号是可行的。通过设计基于ARM处理器的实验平台，我们从实验输出的25Hz正弦波信号中产生了相位相差90度的两个不同相位的信号。通过对浮点数和定点数运算速度的分析和比较，对CORDIC算法进行了改进。理论分析与计算相结合表明，改进的CORDIC算法可以实现输出信号的最大频率。实验波形和实验数据表明，基于CORDIC算法的25Hz相敏轨道电路具有驱动二进制双轨道继电器的能力。最后，本文证明了改进CORDIC算法产生25Hz正弦信号是可行的。

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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Research of 25 Hz phase sensitive track circuit signal based on CORDIC algorithm

This paper presents that the CORDIC algorithm can produce 25Hz phase sensitive track circuit signal by theoretical analysis, simulation and implementation to solve big volume, noisy and poor precision of the inverter. It theoretically proves that the CORDIC algorithm simulation based on Matlab which applies to produce 25Hz phase sensitive track circuit signal is feasible. By designing experimental platform based on the ARM processor, we produce two different phases of 25Hz sine wave signals outputting from the experiment which phases differ by 90 degrees. It provides the improvement of CORDIC algorithm by analyzing and comparing the arithmetic speeds of floating-point number and fixed-point number. Combining theoretical analysis and calculation, it shows that the improved CORDIC algorithm can achieve the maximum frequency of output signal. Experimental waveforms and experimental data show that the voltage of 25Hz phase sensitive track circuit based on the CORDIC algorithm has the ability of driving binary two track relay. In the end, this paper proves that the improvement of CORDIC algorithm is feasible to produce 25Hz sine signal.

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2013 IEEE International Conference on Intelligent Rail Transportation Proceedings

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