MEMS sensors

The invention claimed is: 1. A MEMS sensor comprising: a vibrating sensing structure formed from a semiconductor substrate layer, the semiconductor substrate layer being mounted on a pedestal comprising an electrically insulating substrate layer bonded to the semiconductor substrate to form a rectangular sensor chip; and the pedestal further comprising at least one electrically insulating spacer layer for mounting the sensor chip to a housing, wherein the electrically insulating spacer layer is octagonal; wherein the sensor is a vibrating structure gyroscope and the vibrating sensing structure comprises: a substantially planar annular resonator; and a plurality of flexible support members arranged to support the annular resonator spaced from the semiconductor substrate and to allow the annular resonator to oscillate in one or more in-plane resonance modes. 2. The MEMS sensor of claim 1 , wherein the octagonal spacer layer is thicker than the electrically insulating substrate layer that directly mounts the semiconductor substrate layer. 3. The MEMS sensor of claim 1 , wherein the octagonal spacer layer is formed with voids before it is mounted to the electrically insulating substrate layer and the substrate layers are cut to form the pedestal. 4. The MEMS sensor of claim 1 , wherein the octagonal spacer layer is formed separately and then mounted to the rectangular sensor chip. 5. The MEMS sensor of claim 1 , wherein the octagonal spacer layer has an irregular octagonal shape. 6. The MEMS sensor of claim 1 comprising: a sensing transducer to detect oscillation of the annular resonator resulting from an orthogonal secondary in-plane resonance mode generated in response to an angular velocity applied around an axis substantially perpendicular to the plane of the annular resonator. 7. A method of making the MEMS sensor of claim 1 , the method comprising: forming a vibrating sensing structure on a semiconductor substrate layer; mounting the semiconductor substrate layer to an electrically insulating substrate layer so that rectangular sensor dies can be defined by orthogonal x and y cutting lines in the plane of the substrate layers; mounting the electrically insulating substrate layer to a spacer layer that has voids formed at at least some junctions of the x and y cutting lines; dicing the layers to form sensor dies comprising a rectangular sensor chip mounted on an octagonal spacer layer; and selecting one of the sensor dies and bonding the spacer layer to a housing to form the MEMS sensor of claim 1 . 8. The method of claim 7 , comprising: forming voids in the spacer layers at each junction of the x and y cutting lines; and dicing the layers along the x and y cutting lines to form sensor dies comprising a rectangular sensor chip mounted on the octagonal spacer layer. 9. The method of any of claim 7 , wherein the octagonal spacer layer is thicker than an electrically insulating substrate layer that directly mounts the semiconductor substrate layer. 10. The method of any of claim 7 , wherein the vibrating sensing structure is a substantially planar annular resonator for a vibrating structure gyroscope. 11. The MEMS sensor of claim 1 , wherein the semiconductor substrate layer is formed of silicon. 12. The MEMS sensor of claim 1 , wherein the electrically insulating substrate layer(s) is/are formed of glass.