This paper is to study wavelet analysis used to detect and analyze engine faults. The paper includes the following sections. (1) FFT (Fast Fourier Transforms). (2) Wavelet time-frequency analysis. (3) The results of wavelet analysis. As we can see from the results, wavelet analysis can present the signals in time-frequency distribution diagrams resolved in time and frequency. Wavelet analysis provides functions to correct the following faults. (1) FFT is difficult to use, to capture nonstationary signals. (2) FFT suffers from aliasing (interfering shadow, overlap shadow) if the samples are too close together. The signals used to analyze the engines characteristic values and faults are statistical standard deviations. In a garage, a technician always uses a scan tool such as a DRB II , a DRB Ill, a FLUKE 98 etc., to access vehicle control system data, which is diagnostic trouble codes. Then the technician can follow the message to maintain the vehicle. Wavelet analysis is another way to provide in formation maintain a vehicle. It is of more academic value and is a better fault diagnostic tool for vehicle maintenance.