In-air ultrasonic rangefinding and angle estimation

What is claimed is: 1. An apparatus for determining location of a moveable object in relation to an input device, the apparatus comprising: two or more piezoelectric micromachined ultrasonic transducer (pMUT) elements, the two or more pMUT elements comprising one or more transmitters and two or more receivers; and a processor configured to determine a location of a moveable object in relation to an input device using sound waves that are emitted from the one or more transmitters, reflected from the moveable object, and received by the two or more receivers; and wherein each of the two or more receivers is coupled to two or more receive amplifiers, each of the two or more receive amplifiers configured to generate a received analog signal; wherein two or more analog to digital converters coupled to the two or more amplifiers respectively, each of the two or more analog to digital converters configured to convert the received analog signal and generate a digital signal; and wherein each of the one or more transmitters is coupled to one or more transmitter circuits configured to excite the one or more transmitters with a voltage signal near a resonance of the one or more transmitters; and wherein the one or more transmitters have an emission pattern that is substantially isotropic so that the transmitted sound covers a wide range of angles; wherein the signals received from the one or more receive amplifiers are down-converted from a transmit frequency to a baseband frequency using a quadrature demodulator; and wherein the baseband signals are subsequently processed to determine a time of arrival of second sound signals received by the two or more receivers. 2. The apparatus of claim 1 , wherein the processor is configured to determine a range R and direction of the moveable object from a speed of sound, the time of arrival of the second sound signals received by the two or more receivers, and a distance between the two or more receivers and the one or more transmitters. 3. The apparatus of claim 1 , wherein one or more of the pMUT elements functions as both a transmitter and a receiver. 4. The apparatus of claim 3 , wherein each of the one or more pMUT elements is coupled to a transmitter circuit through a first switch and is coupled to a receive amplifier through a second switch. 5. An apparatus for determining location of a moveable object in relation to an input device, the apparatus comprising: two or more piezoelectric micromachined ultrasonic transducer (pMUT) elements, the two or more pMUT elements comprising one or more transmitters and two or more receivers; and a processor configured to determine a location of a moveable object in relation to an input device using sound waves that are emitted from the one or more transmitters, reflected from the moveable object, and received by the two or more receivers; and wherein each of the two or more receivers is coupled to two or more receive amplifiers, each of the two or more receive amplifiers configured to generate a received analog signal; wherein two or more analog to digital converters coupled to the two or more amplifiers respectively, each of the two or more analog to digital converters configured to convert the received analog signal and generate a digital signal; and wherein each of the one or more transmitters is coupled to one or more transmitter circuits configured to excite the one or more transmitters with a voltage signal near a resonance of the one or more transmitters; and wherein the one or more transmitters have an emission pattern that is substantially isotropic so that the transmitted sound covers a wide range of angles; wherein the signals received from the one or more receive amplifiers are down-converted from a transmit frequency to a baseband frequency using a quadrature demodulator; wherein the baseband signals from the one or more receivers are subsequently phase shifted using one or more phase shifters configured to delay each of the baseband signals by a plurality of different amounts according to a delay vector; and wherein one or more adders coupled to the one or more phase shifters respectively are configured to add delayed digital signals from the one or more phase shifters, the resulting output of each of the one or more adders comprising an intensity vs. range measurement (“A-scan”) corresponding to a specific view angle. 6. The apparatus of claim 5 , wherein the baseband signals are subsequently processed to determine a time of arrival of second sound signals received by the two or more receivers. 7. The apparatus of claim 6 , wherein the processor is configured to determine a range R and direction of the moveable object from a speed of sound, the time of arrival of the second sound signals received by the two or more receivers, and a distance between the two or more receivers and the one or more transmitters. 8. The apparatus of claim 5 , wherein the range R and direction of the moveable object in relation to an input device are determined by processing the A-scan signals.