MEMS device and process

What is claimed is: 1. A MEMS transducer comprising a flexible membrane and at least one variable vent structure, wherein the variable vent structure comprises at least two moveable portions, the at least two moveable portions being able to be deflected away from the surface of the rest of the membrane in response to a pressure differential across the membrane to expose a hole in the membrane. 2. A MEMS transducer as claimed in claim 1 , wherein the moveable portions are each defined by a channel which extends through the membrane, the channel comprising a common channel portion that defines adjacent edges of first and second moveable portions. 3. A MEMS transducer as claimed in claim 1 , wherein variable vent structure comprises two moveable portions which are able to be deflected way from the surface of the rest of the membrane to expose a single hole in the membrane. 4. A MEMS transducer as claimed in claim 3 , wherein the size of a flow path in a direction normal to the membrane is defined by a gap opened between the two moveable portions in response to a pressure differential across the membrane. 5. A MEMS transducer comprising a flexible membrane and at least one variable vent structure, wherein the variable vent structure provides a flow path having a size that varies with pressure differential across the membrane, wherein the variable vent structure comprises two moveable portions able to be deflected away from the surface of the rest of the membrane to expose a single hole in the membrane, wherein the moveable portions are each defined by at least one channel which extends through the membrane, the channel comprising a common channel portion that defines adjacent edges of first and second moveable portions. 6. A MEMS transducer as claimed in claim 1 , wherein the moveable portions are one of triangular, circular, elliptical, rectangular or trapezoidal in shape. 7. A MEMS transducer as claimed in claim 1 , wherein each of the moveable portions are connected to the rest of the membrane by a beam structure. 8. A MEMS transducer as claimed in claim 7 , wherein the moveable portions are each defined by at least one channel which extends through the membrane, the channel comprising a common channel portion that defines adjacent edges of first and second moveable portions. 9. A MEMS transducer as claimed in claim 8 , wherein the moveable portions each have substantially the same dimension from the beam structure to the common channel portion. 10. A MEMS transducer as claimed in claim 1 wherein the MEMS transducer further comprises a back-plate structure, wherein the flexible membrane is supported with respect to the back-plate structure and wherein said back-plate structure comprises a plurality of holes through the back-plate structure. 11. A MEMS transducer as claimed in claim 10 , wherein at least one of said plurality of holes through said back-plate structure comprises a vent hole in a location that corresponds to the location of the variable vent structure. 12. A MEMS transducer as claimed in claim 10 , wherein at least one of said plurality of holes through said back-plate structure overlies the vent structure in the flexible membrane. 13. A MEMS transducer as claimed in claim 12 , wherein the area of the/each hole in the backplate that overlies the vent structure extends laterally away from the area of opening of the vent structure in the flexible membrane at a position where the vent structure first opens. 14. A MEMS transducer as claimed in claim 10 , wherein: each of the moveable portions are connected to the rest of the membrane by a beam structure; the moveable portions and the respective beams structures are defined by channels running through the flexible membrane; and the location of the channels in the flexible membrane which define the beams structures do not substantially overlap with the location of any of the plurality of holes in the back-plate structure. 15. A capacitive microphone comprising a MEMS transducer as claimed in claim 1 . 16. A capacitive microphone comprising a MEMS transducer as claimed in claim 5 .