用FPGA实现的单片可调谐外差陷波滤波器

Proceedings of the 43rd IEEE Midwest Symposium on Circuits and Systems (Cat.No.CH37144) Pub Date : 2000-08-08 DOI:10.1109/MWSCAS.2000.952890

A. Azam, D. Sasidaran, K. Nelson, G. Ford, L. Johnson, M. Soderstrand

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引用次数: 7

摘要

两种单片设计采用一种新的数字外差技术在FPGA上实现了高阶可调IIR陷波滤波器。陷波中心频率可以从直流电调到奈奎斯特频率，IIR产生的陷波滤波器的特性可以针对特定应用重新编程。第一个芯片是先前使用三个Xilinx FPGA设计的滤波器的单芯片版本。通过多路复用和流水线，可以在一个FPGA上实现所有三个芯片。第二个芯片利用了sin-cos查找表的减少来进一步减少硬件。这两种芯片都提供非常灵活的自适应陷波滤波器，具有设计能力，一个非常复杂的陷波而不使调谐过程复杂化。与早期的三芯片版本相比，这些新的单芯片版本提供了相当大的功率和成本优势。

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Single-chip tunable heterodyne notch filters implemented in FPGA's

Two single-chip designs implement in FPGA's a high-order tunable IIR notch filter using a new digital heterodyne technique. The notch center frequency can be tuned from DC to the Nyquist frequency and the characteristics of the IIR generated notch filter can be re-programmed for specific applications. The first chip is a single-chip version of a filter previously designed using three Xilinx FPGA's. Through Multiplexing and Pipelining it is possible to implement all three chips on one FPGA. The second chip makes use of a reduction in the sin-cos look-up tables to reduce the hardware even more. Both chips offer very flexible adaptive notch filters with the ability to design, a very complex notch without complicating the tuning process. These new single-chip versions offer considerable power and cost advantages over the earlier three-chip version.

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Proceedings of the 43rd IEEE Midwest Symposium on Circuits and Systems (Cat.No.CH37144)

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