- 學位論文
超取樣三角積分調變器的設計與製作
Design and Implementation of an Oversampling Delta-Sigma Modulator
摘要
在這篇論文中,我們設計並以交換電容電路實現了一個多位元的三角積分調變器。在多位元的調變器中存在一個提供回授信號的數位類比轉換器,由於該數位類比資料轉換器是由多個單位電容所構成,這些單位電容很容易因為積體電路製程或是電路的實體佈局時產生元件不匹配的效應,此一不匹配效應所帶來的非線性失真將直接由調變器輸出,而無法經由三角積分調變器本身的雜訊整形技術獲得任何的改善。為了改善這個問題,本調變器應用了動態元件匹配(Dynamic Element Matching)技術來降低不匹配誤差。其中,資料加權平均(DWA)演算法因與其他的動態元件匹配演算法相較,具有一階雜訊整形特性,能快速降低誤差與電路易於實現的優點,所以被我們採用於設計的調變器中。 設計的調變器信號頻寬為24kHz,可以應用於音頻的領域上。整個調變器是以混合訊號模式進行設計,並以Matlab進行調變器的建模與行為模擬。最後我們以TSMC 0.18um 1P6M 3.3V製程,利用Hspice與Spectre軟體進行電路的設計、模擬驗證與佈局。
並列摘要
In this Thesis, we designed and implemented an oversampling multi-bit delta-sigma modulator. Multi-bit delta-sigma modulator uses an internal DAC to provide the feedback signal. However, elements mismatch in DAC due to process variation will results in non-linear distortion and cannot be noise shaped by the delta-sigma modulation loop, this will degrade the performance of a delta-sigma modulator very much. In order to reduce the mismatch error of DAC, many dynamic element matching (DEM) algorithms have been proposed. Compared with other algorithms, the data weighting averaging (DWA) technique is used in our design due to it has the advantage of fast error cancellation and easy circuit implementation. We use TSMC 0.18um 1P6M process and mixed-signal design methodology for our work. The designed modulator presents a 24 kHz signal bandwidth and can be used in audio application.