In this thesis, an inductive sensing accelerometer was fabricated by CMOS MEMS process. This accelerometer use this spring as the oscillator inductors and MIM capacitors with the formation of an LC oscillator. The inductance value is changed due to the spring mass displacement and force causing by external acceleration. With changing in inductance value, LC oscillator frequency will also change. The change in the oscillator frequency will be proportional to the acceleration. It is capable for detecting acceleration by detecting different output frequencies. A 4/1000 change for inductance value is expected under 1g acceleration corresponding to oscillator frequency change of 3.3MHz. In this thesis, two device were designed and fabricated. Sample 1 was fabricated by 1P6M 0.18um process, and Sample 2 was 1P5M 0.18um process. Due to limited time and maintenance of facilities, post processes were not finished for Sample 2. Only part of the measurement for circuit have been done for Sample 2. For Sample 2, the circuit was working and an oscillator frequency of 2.7GHz was measured. The mixer output of Sample 2 was 33MHz. The mechanical properties measurement on Sample 1 has been done, the mechanical resonance frequency of 2.4kHz was measured. However, the circuit for Sample 1 was not working. A re-simulation for Sample 1 in later chapters has been done for discussing the failed reason.