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Published bySteven McCoy Modified over 6 years ago
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Design and Validation of a UWB Transmitter for FPGA Implementation
G. Liang In this work, a complete Transmitter (TX) system based on Multiband-OFDM Ultra Wideband (MB-OFDM UWB) protocol has been designed. The Hardware-in-the-loop co-simulation methodology is used for validating the whole system. This architecture is based on state-of-the art proposals, but modified and optimized for our implementation. Some proposed low-power, high-performance sub-modules have been implemented and verified on a Xilinx-Virtex 5 FPGA. The final results prove that our design is suitable for UWB communications. Project sponsored by General Information & Requirements of Ultra Wideband (UWB) SMART Utilize the unlicensed 3.1~10.7 GHz frequency band Range: 4m ~ 10m (short-reach transmission system) Support data rates from 53.3~480 Mb/s Divide the spectrum into 14 bands, each with a bandwidth of 528 MHz The data is then interleaved to different band using specified TFC MB-OFDM scheme:110 sub-carriers (100 data, 10 guard), 12 pilot, 6 NULL MB-OFDM symbol: 128 OFDM symbol+37 Zero Prefix IEEE a Group Multiband Orthogonal Frequency Division Multiplexing Leading Choice for UWB system Transmitter Architecture for MB-OFDM UWB system Transmitted data format: General description: PLCP Preamble PHY Header MAC Header Header Check Sequence Frame Payload Pad bits Tail bits Structure and data format is different based on different transmitted data rate, can use re-configuration technology to change the transmission mode from one to another 4-path in parallel structure for most of the sub-modules, so as to speed up the whole system while lower the power Clock-island method is used, different sub-module performs at different clock rate---Saving Power State-of-the-art architectures are utilized Hardware-in-the-loop Co-simulation Methodology Main IDEA Virtual Communication Simulation Environment HDL Functional Simulation Download Bitstream Transmitter System (Hardware) Transmission Channel Model for UWB (MATLAB Model) Cover every step in system development Efficient in time for complex hardware architecture implementation Make hardware validation much easier Convenient to monitor the output results Ensure designers focus on the design and optimization Receiver System (Hardware)
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