Low-complexity VLSI design and implementation of FFT-based multi-carrier direct sequence spread spectrum transceiver

1998 IEEE Workshop on Signal Processing Systems. SIPS 98. Design and Implementation (Cat. No.98TH8374) Pub Date : 1998-10-08 DOI:10.1109/SIPS.1998.715796

S. Hong, J. Yi, W. Stark

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Abstract

A design and implementation of an all-digital VLSI multi-carrier direct-sequence spread-spectrum IF/baseband transceiver architecture is presented. The paper describes a low-complexity VLSI architecture incorporating the fast Fourier transform for multi-carrier modulation and demodulation. The architecture supports variable data rate and variable quality of service (QoS) transmission where both rate and reliability are controlled by the length of pseudo-random noise spreading sequence. Nyquist windowing is utilized to reduce the sensitivity to spurious sine waves and to frequency deviations in the receiver. A two-dimensional simple sliding correlation technique is incorporated for efficient data frame and spreading sequence synchronization. The architecture is capable of handling various data rates up to 1.024 Mbit/s through 64 equally spaced carrier frequencies covering 65.536 MHz bandwidth. The entire transceiver is implemented with 0.6-/spl mu/m CMOS technology standard cells.

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基于fft的多载波直接序列扩频收发器的低复杂度VLSI设计与实现

提出了一种全数字VLSI多载波直接序列扩频中频/基带收发器结构的设计与实现。本文介绍了一种采用快速傅立叶变换实现多载波调制解调的低复杂度VLSI结构。该体系结构支持可变数据速率和可变服务质量(QoS)传输，速率和可靠性由伪随机噪声传播序列的长度控制。奈奎斯特窗被用来降低对杂散正弦波和接收机频率偏差的灵敏度。采用二维简单滑动相关技术实现了高效的数据帧和扩频序列同步。该架构能够通过64个等间隔载波频率处理高达1.024 Mbit/s的各种数据速率，覆盖65.536 MHz带宽。整个收发器采用0.6-/spl mu/m CMOS技术标准单元实现。

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来源期刊

1998 IEEE Workshop on Signal Processing Systems. SIPS 98. Design and Implementation (Cat. No.98TH8374)

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