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引用次数: 1
摘要
传统的DS-CDMA发射机模型在传播码复杂的情况下效率不高,因为传播时需要进行复杂的乘法运算,会消耗更多的功率、占用更大的实现面积和产生更大的延迟。提出了一种新的DS-CDMA/CI发射机结构,利用CORDIC算法生成载波,载波的相位偏移由载波干涉码控制。该体系结构基于两个指数的乘积本质上是一个指数,其角度等于乘积分量的角度之和。此外,该体系结构是可重构的,即在传输过程中可以动态分配扩展码,因此可以用于设计认知无线电应用的通信系统。对给定型号的SPARTAN 3E FPGA进行时序分析,得到最大工作频率为22 MHz。
CORDIC based reconfigurable architecture for DS-CDMA/CI transmitter
The traditional model of DS-CDMA transmitter is not efficient when spreading codes are complex since complex multiplications needed for spreading would consume more power, require more area for implementation and incur more delays. In this paper, a novel architecture for DS-CDMA/CI transmitter is proposed which uses CORDIC algorithm to generate carrier whose phase offset is controlled by Carrier Interferometry (CI) codes. The architecture is based on the principle that product of two exponential is essentially an exponential with angle equal to sum of angle of product components. Furthermore, the architecture is reconfigurable in the sense that the spreading codes can be dynamically assigned during transmission and therefore can be used for designing communication systems for cognitive radio applications. The maximum frequency of operation was found to be 22 MHz from timing analysis results for given model for SPARTAN 3E FPGA.
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