標題: | 802.11a/g正交分頻多工外部接收器之設計與實現 Design and Implementation of 802.11a/g OFDM-Based Outer Receiver |
作者: | 林佳欣 Chia-Hsin Lin 溫瓌岸 電子研究所 |
關鍵字: | 無線通訊;外部接收器;outer receiver;Viterbi decoder;802.11a;802.11g |
公開日期: | 2003 |
摘要: | 本論文提出用於IEEE 802.11a/g正交分頻多工基頻外部接收器的設計與實現。所提出的外部接收器架構中,共包含了四個主要的模組分別為Demapping,Deinterleaver,Depuncture和Viterbi Decoder,而Viterbi Decoder 為外部接收器的主要模組。根據IEEE 802.11a規格,迴旋碼1/2為基本的編碼格式,加上了Puncture模組可以增加不同的資料傳輸速率,也因此Viterbi Decoder的架構也必須配合不同的資料傳輸速率而有所更改。此篇論文也探討了高精度(Soft-Decision)解析度與Viterbi decoder的追溯長度(Traceback-length)對於外部接收器效能的影響與複雜度的最佳化。本論文所完成之電路由0.18 um CMOS製程所製造,其最高操作頻率為25MHz,最大資料速率為67.5Mbps,而在1.8V狀況下的功率消耗為78.85mW。 In this thesis, an IEEE 802.11a/g OFDM-based outer receiver design and implementation is presented. This proposed outer receiver consists of four modules. They are “Demapping”, “Deinterleaver”, “Depuncture”, and “Decoder” (Viterbi decoder), respectively. Viterbi Decoder is the main function module. According to IEEE 802.11a/g, the convolutional code 1/2 is the base coding rate. Through adopting the puncture scheme, the 802.11a/g transceiver owns several data rates. Therefore, Viterbi decoder of outer receiver needs to be modified with its structure. We also discuss the soft decision resolution and traceback-length to get the optimized solution between performance and complexity. The chip is fabricated in 0.18 um CMOS process, and the maximum throughput rate can achieve 67Mbps under clock rate 25MHz. The power consumption is below 78.83mW under 1.8V. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT009111659 http://hdl.handle.net/11536/44212 |
Appears in Collections: | Thesis |
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