MUT fingerprint ID system

The invention claimed is: 1. A MEMS ultrasound fingerprint ID system configured to detect both epidermis and dermis fingerprint patterns in three dimensions, the system comprising: a micromachined ultrasonic transducer (MUT) transmitter-receiver array comprising two or more MUT elements that apply an acoustic signal to a finger; and a data processor that receives and processes a signal from the array to produce an image of a fingerprint, wherein the system is configured to drive MUT elements in the MUT transmitter-receiver array in groups and scan the acoustic signal by switching excitation of the MUT elements from group to group in sequence, wherein a focus diameter of the acoustic signal is determined by a pitch between the MUT elements in the group and a frequency of the MUTs in the group, and wherein one or more of the MUT elements are periodically activated to detect whether the finger is present. 2. MEMS ultrasound fingerprint ID system of claim 1 , wherein one MUT element is periodically activated to detect whether the finger is present. 3. The MEMS ultrasound fingerprint ID system of claim 1 , wherein the system is configured to activate the one or more MUT elements about ten times per second. 4. The MEMS ultrasound fingerprint ID system of claim 1 , wherein the system is configured to activate the MUT transmitter-receiver array upon detection of the finger by the one or more MUT elements. 5. A personal electric device comprising the MEMs ultrasound fingerprint ID system of claim 1 . 6. The personal electric device of claim 5 , wherein the MEMs ultrasound fingerprint ID system of claim 1 comprises an on switch for the device. 7. An internet enabled object comprising the MEMs ultrasound fingerprint ID system of claim 1 . 8. The internet enabled object of claim 7 , wherein the MEMs ultrasound fingerprint ID system comprises an on switch for the object. 9. An entry enablement device comprising the MEMs ultrasound fingerprint ID system of claim 1 . 10. The entry enablement device of claim 9 , wherein the MEMs ultrasound fingerprint ID system comprises an on switch for the device. 11. A MEMS ultrasound fingerprint ID system configured to detect both epidermis and dermis fingerprint patterns in three dimensions, the system comprising: a micromachined ultrasonic transducer (MUT) transmitter-receiver array comprising two or more MUT elements that apply an acoustic signal to a finger; and a data processor that receives and processes a signal from the array to produce an image of a fingerprint, wherein the system is configured to drive MUT elements in the MUT transmitter-receiver array in groups and scan the acoustic signal by switching excitation of the MUT elements from group to group in sequence, wherein a focus diameter of the acoustic signal is determined by a pitch between the MUT elements in the group and a frequency of the MUT elements in the group, wherein the data processor processes the signal from the array based on a time of flight of an echo from the applied acoustic signal, and wherein the data processor uses time gating to identify echoes from the array. 12. The MEMS ultrasound fingerprint ID system of claim 11 , wherein the data processor uses time gating to identify echoes corresponding to the epidermis. 13. The MEMS ultrasound fingerprint ID system of claim 11 , wherein the data processor uses time gating to identify echoes corresponding to the dermis. 14. The MEMS ultrasound fingerprint ID system of claim 11 , wherein the data processor produces an image of a fingerprint by fusing an image of the epidermis with an image of the dermis.