The purpose of this study is to develop a cyclic alternating pattern (CAP) detection algorithm based on EEG signal and to improve the classification accuracy of the A-phase subtypes. In the past study, sleep-related researches have been a lot, in which there is a large part of the analysis on the quality of sleep. But most of researches are applied for macrostructure analysis of sleep stage. Sleep medical literature has demonstrated that microstructure such as CAP and A-phase subtypes can be used in the analysis of quality of sleep. However, because of CAP has been noticed for sleep quality analysis in recent years and its intensive labor requirement, there are very few studies for the microstructure of CAP. Our study has inherited advantages of previous methods. It employed the descriptor of power spectrum, because the descriptor of power spectrum can provide a normalized measure. It also made use of the improved variable length template to detect the most suitable A-phase length of CAP detection algorithm. In order to decide A-phases’ length and existence, our method made use of descriptor to compare with threshold. After the detection of A-phase, it is used for determining CAP cycle and CAP sequence by CAP scoring rule. In the classification of A-phase subtypes, our method has attempted to enhance classification accuracy by using Navona classification method, fractal dimension, and k-NN classifier. In our experiment, we applied sleep EEG features of two insomnia subject's brain waves as the testing data. The accuracy of the proposed method is 65% in the CAP detection and 70.30% in A1, 24.4% in A2, and 65.4% in A3 in the classification of A-phase of subtypes. The proposed method combines variable length template method and EXIST/LENGTH thresholds method. Compared to Barcaro method, the proposed method is superior because of its usage of variable length template. We also used sleep EEG of 147 obstructive sleep apnea syndrome (OSAS) subjects and 41 non-OSAS subjects as the testing data. The CAP rates of 188 OSAS patients obtained by the proposed method are higher than those of non-OSAS subjects, which is consistent to the literature. For the severe OSAS subjects, the CAP detection results show increased values of CAP rates.