THIS PAPER PRESENTS A NEW APPROACH TO IMPROVE THE PERFORMANCE OF MEMS CAPACITIVE Accelerometer USING A METAL BLOCK IN THE PROOF MASS STRUCTURE. IN ADDITION, FOR THE DESIGN OF THE CAPACITIVE Accelerometer IS FOCUSED ON THE SPRING GEOMETRY AND IS SHOWN THAT THE LENGTH OF LONG BEAM AND THICKNESS OF THE SERPENTINE SPRING ARE CRITICAL PARAMETERS WHICH SHOULD BE OPTIMIZED TO DECREASE THE SPRING CONSTANT IN THE SENSE DIRECTION AND INCREASE IT IN OTHER DIRECTIONS. THE FINITE ELEMENT METHOD SIMULATOR, ANSYS, IS USED TO FIND OPTIMUM DIMENSIONS AND TO PREDICT SPECIFICATIONS OF THE Accelerometer. SENSITIVITY IS INCREASED FROM 42.853 TO 17.7 PF/G AND THE NOISE FLOOR IS DECREASED FROM 52.1 TO 21.9 MM/Ö`HZ BY ADDING THE CUPPER BLOCK IN THE PROOF MASS. THE RESONANCE FREQUENCY IS DROPPED FROM 36955 TO 23769 HZ, TOO.

THIS PAPER DEALS WITH DESIGN AND OPTIMIZATION OF A MICROMACHINED THERMAL CONVECTIVE Accelerometer. THE ACCELERATION INDUCED THERMAL EXCHANGE DUE TO CONVECTION BETWEEN HOT BUBBLE OF AIR AND SENSOR WILL GENERATE TEMPERATURE GRADIENT AND CONSEQUENTLY THE VOLTAGE SIGNAL IS EMERGED. IN THIS WORK A 2D FE-MODEL IS PROVIDED FOR CALCULATION OF TEMPERATURE DIFFERENCE OF DETECTORS. THE MOST EFFECTIVE PARAMETERS ON SENSOR PERFORMANCE ARE IDENTIFIED AND THE SENSOR IS OPTIMIZED CONSIDERING MULTI OBJECTS (I.E. SENSITIVITY AND NON-LINEARITY) VIA DOE FULL FACTORIAL METHOD. NOVEL PARAMETRIC DESIGN IN COMSOL ENVIRONMENT AND PROGRAMMING IN MATLAB HELPED TO PERFORM NUMEROUS SIMULATIONS NEEDED FOR FULL FACTORIAL EXPERIMENT WHICH ALLOWS TO PROFOUNDLY UNDERSTAND THE EFFECT OF EACH PARAMETER AND SPECIALLY THEIR INTEGRATION. COUPLED THERMO-ELECTRO MECHANICAL SIMULATION IS CONDUCTED IN ORDER TO ASSUME THE POWER CONSUMPTION OF ALL UNDERSTUDY CASE CONSISTENT.THE OPTIMUM DESIGNED SENSOR HAS SENSITIVITY AS HIGH AS 0.48 (DT/G), NON-LINEARITY LESS THAN %10 IN THE RANGE OF ACCELERATION OF [0-120] G WITH HEATER TEMPERATURE OF 630OK.

IN THIS PAPER, WE PROPOSE AN ULTRASENSITIVE OPTICAL MICRO-ELECTRO-MECHANICAL-SYSTEM (MEMS( Accelerometer BASED ON WAVELENGTH MODULATION, USING ONE DIMENSIONAL PHOTONIC CRYSTAL (PC). AN AIRDIELECTRIC MULTI-LAYER PHOTONIC BAND GAP (PBG) MATERIAL, A TYPICAL LASER DIODE (LD) LIGHT SOURCE, A PHOTO DIODE AND INTEGRATED OPTICAL WAVEGUIDES BUILD UP THE OPTICAL SENSING SYSTEM OF THE PROPOSED DEVICE. FUNCTIONAL CHARACTERISTICS OF THE PROPOSED Accelerometer ARE AS FOLLOWS: A MECHANICAL SENSITIVITY OF 3.18 / NM G, AN OPTICAL SENSITIVITY OF 1.17 / NM G AND A LINEAR MEASUREMENT RANGE OF -22 TO +22G .REGARDING TO THE MENTIONED CHARACTERISTICS, THE PROPOSED MOEMS Accelerometer IS SUITABLE FOR A WIDE RANGE OF APPLICATIONS SUCH AS INERTIAL NAVIGATION, CONSUMER ELECTRONICS, AUTOMOTIVE, ETC.

A NOVEL TORSIONAL SPRING Z-AXIS CAPACITIVE MICRO-Accelerometer IS PROPOSED. IT CONSISTS OF TWO INDEPENDENT TORSIONAL PLATES CROSS LINKED INTER-DIGITALLY. MOVEMENTS OF THE PLATES DUE TO ACCELERATION OR DECELERATION, RESULT IN CAPACITANCE VARIATION OF THE CAPACITORS BETWEEN THE FINGERS. …