601 research outputs found
Implementation of a Combined OFDM-Demodulation and WCDMA-Equalization Module
For a dual-mode baseband receiver for the OFDMWireless LAN andWCDMA standards, integration of the demodulation and equalization tasks on a dedicated hardware module has been investigated. For OFDM demodulation, an FFT algorithm based on cascaded twiddle factor decomposition has been selected. This type of algorithm combines high spatial and temporal regularity in the FFT data-flow graphs with a minimal number of computations. A frequency-domain algorithm based on a circulant channel approximation has been selected for WCDMA equalization. It has good performance, low hardware complexity and a low number of computations. Its main advantage is the reuse of the FFT kernel, which contributes to the integration of both tasks. The demodulation and equalization module has been described at the register transfer level with the in-house developed Arx language. The core of the module is a pipelined radix-23 butterfly combined with a complex multiplier and complex divider. The module has an area of 0.447 mm2 in 0.18 Āæm technology and a power consumption of 10.6 mW. The proposed module compares favorably with solutions reported in literature
Practical Non-Uniform Channelization for Multistandard Base Stations
A Multistandard software-defined radio base station must perform non-uniform channelization of multiplexed frequency bands. Non-uniform
channelization accounts for a significant portion of the digital signal processing workload in the base station receiver and can be difficult to realize in a physical
implementation. In non-uniform channelization methods based on generalized DFT filter banks, large prototype filter orders are a significant issue for
implementation. In this paper, a multistage filter design is applied to two different non-uniform generalized DFT-based channelizers in order to reduce their filter
orders. To evaluate the approach, a TETRA and TEDS base station is used. Experimental results show that the new multistage design reduces both the number
of coefficients and operations and leads to a more feasible design and practical physical implementation
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