Title :
System Design of Second-Order Sigma-Delta Micromachined Accelerometer
Author :
Xiao, Dingbang ; Wu, Xuezhong ; Li, Shengyi
Author_Institution :
Lab. of Micro Electro Mech. Syst., Nat. Univ. of Defense Technol., Changsha
Abstract :
Previous researches indicate that a first-order sigma-delta micromachined accelerometer can hardly achieve a high dynamic rang at an acceptable oversampling rate. We have designed a second-order sigma-delta modulator, which includes two integrators and three gains, for micromachined accelerometers. By simulation in Matlab, we have found that the system gain of the second-order sigma-delta micromachined accelerometer is determined by the electrostatic force-feedback loop gain. Moreover we have found methods to regulate the climbing time of the step response of the second-order sigma-delta micromachined accelerometer. Noise simulations show that the dynamic rang of the second-order sigma-delta accelerometer is 35.4dB higher than that of the first-order one at the same oversampling rate
Keywords :
accelerometers; micromachining; micromechanical devices; sigma-delta modulation; MEMS; Matlab simulation; climbing time; electrostatic force-feedback loop gain; noise simulation; oversampling rate; second-order sigma-delta micromachined accelerometer; second-order sigma-delta modulator; step response; system gain; Acceleration; Accelerometers; Delta-sigma modulation; Dynamic range; Electrostatics; Mathematical model; Micromechanical devices; Q factor; Resonant frequency; Springs; Acceleromter; MEMS; Oversampling; Second-Order;
Conference_Titel :
Nano/Micro Engineered and Molecular Systems, 2006. NEMS '06. 1st IEEE International Conference on
Conference_Location :
Zhuhai
Print_ISBN :
1-4244-0139-9
Electronic_ISBN :
1-4244-0140-2
DOI :
10.1109/NEMS.2006.334727
