本論文參考G3-PLC規格，完成能夠實際運行於電力線的窄頻電力線通訊(PLC)系統實作。系統規格採用正交分頻多工及相位差分調變作為主要的通訊技術。本論文大致分為系統模擬及實作設計兩部分。於系統模擬中，我們整合PLC系統傳送接收演算法及電力線通道模型，以驗證演算法的系統效能，並根據模擬結果，提出一些能降低系統實作複雜度的方法。在實作設計上，我們首先量測實驗室通道環境，由量測結果將G3-PLC系統調整至更適合傳輸的頻帶，並設計實作包含類比前端電路及FPGA平台之收發機。本論文最後展示系統實際傳輸測試結果。

This thesis follows the G3-PLC standard to implement a narrow-band power line communication (PLC) system. The system adopts orthogonal frequency division multiplexing (OFDM) and differential phase shift keying (DPSK) modulation as the main communication techniques. This work contains system simulations and system implementation. In the system simulations, a complete power-line channel model is involved to verify the feasibility and performance of the designed transmission/receiving algorithms. According to the simulation results, we propose some methods to reduce the implementation complexity. In the system implementation, we first measured the power-line channel at the lab. According to the measurement, we shift the target PLC system to the proper transmission band. Then, this work designed and implemented the analog front end circuits and realized a practical narrow-band PLC transceiver.

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