本論文提出模組設計使用在發射接收模組之整合，並分析整合通信模組，其模組包含分數N分頻合成器、連續時間Σ-Δ調變器、類比數位轉換器、電壓控制振盪器、濾波器、混頻器、放大器、鎖相迴路與整合天線設計，所提出的模組晶片設計，以優化的佈局面積、最低的功率消耗、低雜訊為目標，模擬與測量其中的基頻、射頻電路與天線設計，進行文獻效能比較，模組設計低干擾特性，加強接收信號強度指標，最後為了符合行動穿戴式裝置設計考量，針對調降幅射功率的感測方案，以符合法規要求，對於近身吸收率比進行量測，可供筆記型電腦、平板電腦或智慧型手機設計與生醫應用之參考。

This dissertation presents modules design and integration used in transceiver system. Analysis and integration of communicated modules design. The module includes a fractional-N frequency synthesizer, continuous time Σ-Δ modulator, analog to digital converters, voltage-controlled oscillator, filters, mixers, amplifiers, phase lock loop and integrated antenna design. The main purposes are optimized layout area, low power consumption, low noise on proposed module design. Simulated and measured performance comparison of proposed base band, radio frequency circuit and antenna design with previously published literatures to reduce radio frequency interference (RFI), received signal strength indicator (RSSI) and noise immunity. Finally mobile device for wearable consider, sensing solutions of reduce radiated power to meet regulatory requirements. The specific absorption rate measured results provided reference design for laptop, tablet and smart phone and biomedical application.

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