隨著電力系統中非線性負載使用量逐漸增加，使得各項電力品質問題日趨嚴重，電壓閃爍是電力品質的重要指標之一。由於電力系統中具有快速變動的負載造成了電壓變動，而電壓變動不但會造成電子儀器設備功能失常，更會影響照明燈具輸出的穩定度，燈光閃爍會造成視覺干擾、視覺疲?甚至傷害視?。準確的量測為改善電力品質問題的首要工作，因此該如何建立有效且正確的數據分析是相當重要的。IEC 61000-4-15電壓閃爍量測方法係以模擬視覺對光線變化之反應，評估閃爍的嚴重程度，其設計涵蓋了多項功能方塊以模擬人眼對燈光閃爍以及產生之腦部響應，並且以統計方式計算電壓閃爍之短期與長期閃爍指標。目前為最多國家所採用的標準。本論文提出一套以同步擠壓轉換為基礎之分析方法來計算出閃爍汙染問題的嚴重度，利用IEC 61000-4-15規範中所制定的閃爍分析儀量測功能方塊圖做為基本架構，並針對其中解調出電壓包絡線的方塊加以改良。本論文提出之方法以希爾伯特轉換擷取電壓變動之包絡線，再以同步擠壓轉換與均值移動聚類法分析電壓變動源之閃爍頻率成份，透過帶通濾波器組求得精確之閃爍頻率之振幅，模擬與量測之結果皆顯示提出之方法在電壓閃爍的量測相當正確且有效。 With the widespread existence of nonlinear loads in the power system, the power quality disturbances are increasingly present. Flicker is one of the major power quality event. The impacts of flicker disturbance have been commonly seen in the power distribution networks nowadays. Voltage fluctuations caused by rapid reactive power consumption of loads and photovoltaic or wind generator output variations may produce flickers and cause undesired effects on electric power components and human eyes. IEC 61000-4-15 is the most popular flickermeter standard providing basic information for the design based on human eye-brain perception intended to indicate the correct flicker perception level for all practical voltage fluctuation waveforms, furthermore, performing an on-line statistical analysis of the flicker level.This dissertation presents a hybrid approach for voltage flicker assessment by using synchrosqueezing transform-based algorithm. The approach is an improved demodulation method to extract the voltage envelope which can replace the squaring demodulation suggested by IEC 61000-4-15. The proposed method firstly gives characterization of voltage fluctuations through accurate extraction of the measured voltage envelope by Hilbert transform. The synchrosqueezing transform and an unsupervised clustering method called mean shift, are then applied to determine the number of frequency components and corresponding frequencies. It is followed by the implementation of the bandpass filters to accurately detect the magnitude of each flicker component. The proposed hybrid method is tested by both simulations and field measurements validation. Results compared with other commonly seen methods show that the proposed method provides a more accurate flicker assessment.