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引用次数: 19
摘要
在本文中,我们讨论了用于助听器应用的抽取滤波器的设计和实现。我们使用标准有符号数字(CSD)表示实现抽取过滤器。利用Matlab对每个数字滤波器结构进行仿真,并利用DSP Blockset和Simulink对其完整结构进行捕获。该滤波器已在Xilinx FPGA上采用Virtex-2技术实现。与传统抽取滤波器相比,由此产生的架构硬件效率高,功耗更低。与梳子- fir - fir结构相比,所设计的抽取滤波器结构节省了69%的硬件;此外,它还降低了83%的功耗。
Design and implementation of a decimation filter for hearing aid applications
In this paper we deal with the design and implementation of a decimation filter used for hearing aid applications. We implement the decimation filter using the canonic signed digit (CSD) representation. Each digital filter structure is simulated using Matlab, and its complete architecture is captured using DSP Blockset and Simulink. The filter has been implemented on Xilinx FPGA using Virtex-2 technology. The resulting architecture is hardware efficient and consumes less power compared to conventional decimation filters. Compared to the comb-FIR-FIR architecture, the designed decimation filter architecture contributes to a hardware saving of 69%; in addition, it reduces the power dissipation by 83%, respectively.
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