Sensor assembly

What is claimed is: 1. A seismic marine streamer comprising: a multiple axis sensor assembly having an enclosure; encapsulated microelectromechanical system (MEMS) sensors, the encapsulated sensors being disposed inside the enclosure and mounted in different orientations corresponding to different axes of the sensor assembly; and a controller disposed in the enclosure and electrically coupled to the MEMS sensors. 2. The streamer of claim 1 , wherein the MEMS sensors are identical. 3. The streamer of claim 1 , wherein a first MEMS sensor of the MEMS sensors comprises a face having electrical connection terminals, a second MEMS sensor of the MEMS sensors comprises a face having electrical connection terminals, the face of the first MEMS sensor is mounted to the enclosure, and a face other than the face of the second MEMS sensor is mounted to the enclosure. 4. The streamer of claim 3 , further comprising a right angle connector to electrically couple the second MEMS sensor to the controller. 5. The streamer of claim 1 , wherein the enclosure comprises at least one conductive layer, further comprising wire bonding to electrically couple the MEMS sensors to the at least one conductive layer. 6. The streamer of claim 1 , wherein the enclosure comprises a tray comprising an opening to receive the MEMS sensors and a lid to close the opening. 7. The streamer of claim 6 , wherein the lid is hermetically sealed to the tray, the assembly further comprising a gas charge disposed inside the enclosure. 8. The streamer of claim 1 , wherein the MEMS sensors are two axis. 9. The streamer of claim 1 , wherein the MEMS sensors are three axis. 10. A method of seismic surveying, comprising: towing a seismic streamer from a vessel, actuating a source to produce an acoustic signal that travels down through water and into strata and reflects back through the water to the streamer, and detecting the reflected acoustic signals with a plurality of seismic sensors that are integrated with the streamer; each of the plurality of seismic sensors comprising a multiple axis sensor assembly that comprises an enclosure having therein encapsulated microelectromechanical system (MEMS) sensors that are mounted in different orientations corresponding to different axes of the sensor assembly; and a controller disposed in the enclosure and electrically coupled to the MEMS sensors. 11. The method of claim 10 , wherein the MEMS sensors are identical. 12. The method of claim 10 , wherein a first MEMS sensor of the MEMS sensors comprises a face having electrical connection terminals, a second MEMS sensor of the MEMS sensors comprises a face having electrical connection terminals, the face of the first MEMS sensor is mounted to the enclosure, and a face other than the face of the second MEMS sensor is mounted to the enclosure. 13. The method of claim 12 , further comprising a right angle connector to electrically couple the second MEMS sensor to the controller. 14. The method of claim 10 , wherein the enclosure comprises at least one conductive layer, further comprising wire bonding to electrically couple the MEMS sensors to the at least one conductive layer. 15. The streamer of claim 10 , wherein the enclosure comprises a tray comprising an opening to receive the MEMS sensors and a lid to close the opening. 16. The streamer of claim 15 , wherein the lid is hermetically sealed to the tray, the assembly further comprising a gas charge disposed inside the enclosure. 17. The streamer of claim 10 , wherein the MEMS sensors are two axis. 18. The streamer of claim 10 , wherein the MEMS sensors are three axis.