Abstract: An accelerometer includes a measurement mass, a top cap silicon wafer and a bottom cap silicon wafer, both of which are coupled with the measurement mass. The measurement mass includes a support frame, a mass, and a plurality of resilient beams. The mass and the resilient beams are located within the support frame. The mass and the support frame are connected by several sets of the resilient beams, and each set comprises two resilient folding beams. The resilient folding beams are symmetrically provided with respect to the midline of the mass. A connection beam is provided in between each set of the resilient folding beams to connect the resilient folding beams together. Silicon wafers with electrodes are bonded on the top and bottom surfaces of the measurement mass, and form a capacitor with the measurement mass. The accelerometer has a large mode isolation ratio and is symmetrical in high order vibrational modes, which further decreases the noise of a MEMS chip.

Abstract: An accelerometer has E-shaped resilient beams to isolate stress and reduce deformation. A top cap silicon wafer and a bottom cap silicon wafer are both coupled with a measurement mass to form a capacitor. The measurement mass has a mass, range-of-motion stops, and resilient beams located within a support frame. The range-of-motion stops are coupled to the support frame by connection beams, and the mass is coupled with the range-of-motion stops by groups of E-shaped resilient beams. The ends of each resilient beam are connected to the range-of-motion stops, and the middle of each resilient beam is connected to the mass.

Abstract: An accelerometer includes a measurement mass, a top cap silicon wafer and a bottom cap silicon wafer, both of which are coupled with the measurement mass. The measurement mass includes a support frame, a mass, and a plurality of resilient beams. The mass and the resilient beams are located within the support frame. The mass and the support frame are connected by several sets of the resilient beams, and each set comprises two resilient folding beams. The resilient folding beams are symmetrically provided with respect to the midline of the mass. A connection beam is provided in between each set of the resilient folding beams to connect the resilient folding beams together. Silicon wafers with electrodes are bonded on the top and bottom surfaces of the measurement mass, and form a capacitor with the measurement mass. The accelerometer has a large mode isolation ratio and is symmetrical in high order vibrational modes, which further decreases the noise of a MEMS chip.

Abstract: An accelerometer, comprises, a measurement mass, a top cap silicon wafer and a bottom cap silicon wafer, which both are coupled with the said measurement mass; the measurement mass comprises a support frame, a mass, and a plurality of resilient beams; the mass and the resilient beams are located within the support frame; the mass and the support frame are connected by several sets of the resilient beams, and each set comprises two resilient folding beams; the resilient folding beams are symmetrically provided with respect to the midline of the mass; a connection beam is provided in between each set of the resilient folding beams to connect the resilient folding beams together. Silicon wafers with electrodes are bonded on the top and bottom surfaces of the measurement mass; and forms a capacitor with the measurement mass. The accelerometer in the present invention has a large mode isolation ratio, and it is symmetrical in high order vibrational modes , which further decreases the noise of the MEMS chip.

Abstract: An accelerometer has E-shaped resilient beams to isolate stress and reduce deformation. A top cap silicon wafer and a bottom cap silicon wafer are both coupled with a measurement mass to form a capacitor. The measurement mass has a mass, range-of-motion stops, and resilient beams located within a support frame. The range-of-motion stops are coupled to the support frame by connection beams, and the mass is coupled with the range-of-motion stops by groups of E-shaped resilient beams. The ends of each resilient beam are connected to the range-of-motion stops, and the middle of each resilient beam is connected to the mass.

Abstract: An accelerometer has E-shaped resilient beams to isolate stress and reduce deformation. A top cap silicon wafer and a bottom cap silicon wafer are both coupled with a measurement mass to form a capacitor. The measurement mass has a mass, range-of-motion stops, and resilient beams located within a support frame. The range-of-motion stops are coupled to the support frame by connection beams, and the mass is coupled with the range-of-motion stops by groups of E-shaped resilient beams. The ends of each resilient beam are connected to the range-of-motion stops, and the middle of each resilient beam is connected to the mass.

Abstract: An accelerometer has E-shaped resilient beams to isolate stress and reduce deformation. A top cap silicon wafer and a bottom cap silicon wafer are both coupled with a measurement mass to form a capacitor. The measurement mass has a mass, range-of-motion stops, and resilient beams located within a support frame. The range-of-motion stops are coupled to the support frame by connection beams, and the mass is coupled with the range-of-motion stops by groups of E-shaped resilient beams. The ends of each resilient beam are connected to the range-of-motion stops, and the middle of each resilient beam is connected to the mass.

Abstract: An accelerometer, comprises, a measurement mass, a top cap silicon wafer and a bottom cap silicon wafer, which both are coupled with the said measurement mass; the measurement mass comprises a support frame, a mass, and a plurality of resilient beams; the mass and the resilient beams are located within the support frame; the mass and the support frame are connected by several sets of the resilient beams, and each set comprises two resilient folding beams; the resilient folding beams are symmetrically provided with respect to the midline of the mass; a connection beam is provided in between each set of the resilient folding beams to connect the resilient folding beams together. Silicon wafers with electrodes are bonded on the top and bottom surfaces of the measurement mass; and forms a capacitor with the measurement mass. The accelerometer in the present invention has a large mode isolation ratio, and it is symmetrical in high order vibrational modes , which further decreases the noise of the MEMS chip.