Accelerometers

The invention claimed is: 1. An accelerometer comprising a sensing structure, the sensing structure comprising: a support and a proof mass mounted to the support by flexible legs for in-plane movement in response to an applied acceleration along a sensing direction; the proof mass comprising a plurality of moveable electrode fingers extending substantially perpendicular to the sensing direction and spaced apart in the sensing direction; and two pairs of fixed capacitor electrodes, each comprising first and second sets of fixed electrode fingers extending substantially perpendicular to the sensing direction and spaced apart in the sensing direction; the first set of fixed electrode fingers arranged to interdigitate with the moveable electrode fingers with a first offset in one direction from a median line therebetween, and the second set of fixed electrode fingers arranged to interdigitate with the moveable electrode fingers with a second offset in the opposite direction from a median line therebetween; wherein the proof mass takes the form of an outer frame surrounding the two pairs of fixed capacitor electrodes, the flexible legs extending laterally inwardly from the proof mass to a central anchor having a position along the sensing direction that is centred with respect to the two pairs of fixed capacitor electrodes; wherein the two pairs of fixed capacitor electrodes provide a first and second upper set of fixed electrode fingers on a first side of the central anchor in the sensing direction and a first and a second lower set of fixed electrode fingers on a second side of the central anchor in the sensing direction arranged to have symmetrical offsets, the first upper set of fixed electrode fingers being driven in phase with the first lower set of fixed electrode fingers and the second upper set of fixed electrode fingers being driven in phase with the second lower set of fixed electrode fingers. 2. The accelerometer according to claim 1 , comprising an even number of further pairs of fixed capacitor electrodes. 3. The accelerometer according to claim 1 , wherein the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes are anchored to the support at a central position in line with the central anchor of the proof mass. 4. The accelerometer according to claim 1 , comprising a shared electrical connection for the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes, arranged in line with a central electrical connection for the proof mass. 5. The accelerometer according to claim 1 , wherein the proof mass is connected to the central anchor by two or more separated pairs of flexible legs. 6. The accelerometer according to claim 1 , wherein the sensing structure is a MEMS. 7. The accelerometer according to claim 1 , wherein the support is made of glass. 8. The accelerometer according to claim 1 , wherein open loop electronics are arranged to drive the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes in anti-phase. 9. The accelerometer according to claim 1 , wherein closed loop electronics are arranged to drive the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes in anti-phase. 10. An accelerometer comprising a sensing structure, the sensing structure comprising: a support and a proof mass mounted to the support by flexible legs for in-plane movement in response to an applied acceleration along a sensing direction; the proof mass comprising a plurality of moveable electrode fingers extending substantially perpendicular to the sensing direction and spaced apart in the sensing direction; and two pairs of fixed capacitor electrodes, each comprising first and second sets of fixed electrode fingers extending substantially perpendicular to the sensing direction and spaced apart in the sensing direction; the first set of fixed electrode fingers arranged to interdigitate with the moveable electrode fingers with a first offset in one direction from a median line therebetween, and the second set of fixed electrode fingers arranged to interdigitate with the moveable electrode fingers with a second offset in the opposite direction from a median line therebetween; wherein the proof mass takes the form of an outer frame surrounding the two pairs of fixed capacitor electrodes, the flexible legs extending laterally inwardly from the proof mass to a central anchor having a position along the sensing direction that is centred with respect to the two pairs of fixed capacitor electrodes; wherein the two pairs of fixed capacitor electrodes provide a first and a second upper set of fixed electrode fingers on first side of the central anchor and a first and a second lower set of fixed electrode fingers on a second side of the central anchor in the sensing direction arranged to have opposite offsets, the first upper set of fixed electrode fingers being driven in phase with the second lower set of fixed electrode fingers and the second upper set of fixed electrode fingers being driven in phase with the first lower set of fixed electrode fingers. 11. The accelerometer according to claim 10 , comprising an even number of further pairs of fixed capacitor electrodes. 12. The accelerometer according to claim 10 , wherein the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes are anchored to the support at a central position in line with the central anchor of the proof mass. 13. The accelerometer according to claim 10 , comprising a shared electrical connection for the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes, arranged in line with a central electrical connection for the proof mass. 14. The accelerometer according to claim 10 , wherein the proof mass is connected to the central anchor by two or more separated pairs of flexible legs. 15. The accelerometer according to claim 10 , wherein the sensing structure is a MEMS. 16. The accelerometer according to claim 10 , wherein the support is made of glass. 17. The accelerometer according to claim 10 , wherein open loop electronics are arranged to drive the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes in anti-phase. 18. The accelerometer according to claim 10 , wherein closed loop electronics are arranged to drive the first and second sets of fixed electrode fingers of each pair of fixed capacitor electrodes in anti-phase.