Acoustic transmission device and process for tracking selected hosts

What is claimed is: 1. An acoustic transmission (tag) device, comprising: a power source; a tag circuit; a piezoelectric transducer; a housing configured to be associated with a host to be tracked and wherein the housing is coupled with the power source, the tag circuit and the piezoelectric transducer; and wherein the power source delivers a power source voltage to power the tag circuit, and the tag circuit delivers a selected voltage to the piezoelectric transducer that transmits an acoustic transmission signal at a selected signal intensity between about 159 dB and about 163 dB. 2. The acoustic device of claim 1 , wherein the tag is configured to provide a tag lifetime of at least about 365 days at a pulse rate interval of about 15 seconds and a signal intensity of 161 dB. 3. The acoustic device of claim 1 , wherein the tag circuit includes a dual boost converter sub-circuit that couples to two analog switches that deliver the selected voltage to the piezoelectric transducer. 4. The acoustic device of claim 1 , wherein the tag circuit includes a dual boost converter sub-circuit that generates voltage potentials that alternate between about −3 volts and about +7 volts. 5. The acoustic device of claim 1 , wherein the tag circuit delivers a selected voltage delivered to the piezoelectric transducer that is at least about 20 volts (peak-to-peak). 6. The acoustic device of claim 1 , wherein the power source delivers a selectable power source voltage between about 1.8 V to about 3.0 V. 7. The acoustic device of claim 1 , wherein the tag circuit expends an energy for transmission of the acoustic signal from the piezoelectric transducer of less than or equal to about 283 μJ per transmission at a signal intensity of 161 dB. 8. The acoustic device of claim 1 , wherein the tag circuit expends an energy for transmission of the acoustic signal from the piezoelectric transducer of less than or equal to about 385 μJ per transmission at a signal intensity of 163 dB. 9. The acoustic device of claim 1 , wherein the piezoelectric transducer delivers the acoustic signal over a transmission range up to at least about 500 meters at full intensity. 10. A method for tracking a selected host, comprising the steps of: associating an acoustic transmission (tag) device with a selected host to be tracked; while the acoustic transmission (tag) device is associated with the host, delivering a selected voltage from a tag circuit powered by a power source to a piezoelectric transducer in the acoustic transmission (tag) device to generate an acoustic transmission signal therein; while the acoustic transmission (tag) device is associated with the host, transmitting the acoustic transmission signal from the piezoelectric transducer at a selected signal intensity between about 159 dB and about 163 dB to track the selected host; and while the acoustic transmission (tag) device is associated with the host, transmitting the acoustic transmission signal externally of the host. 11. The method of claim 10 , wherein transmitting the acoustic transmission signal includes a tag lifetime of at least about 365 days at a pulse rate interval of about 15 seconds at a signal intensity of 161 dB. 12. The method of claim 10 , wherein delivering the selected voltage from the tag circuit includes generating the voltage in a dual boost converter sub-circuit that couples to two analog switches within the tag circuit. 13. The method of claim 10 , wherein delivering the selected voltage from the tag circuit includes generating voltage potentials in a dual boost converter sub-circuit that alternates between about −3 volts and about +7 volts. 14. The method of claim 10 , wherein delivering the selected voltage from the tag circuit includes a voltage of at least about 20 volts (peak-to-peak). 15. The method of claim 10 , wherein delivering the selected voltage from the tag circuit includes delivering a power source voltage from the power source selected between about 1.8 V to about 3.0 V. 16. The method of claim 10 , wherein transmitting the acoustic signal includes an energy expenditure by the tag circuit of less than or equal to about 283 μJ per transmission at a signal intensity of 161 dB. 17. The method of claim 10 , wherein transmitting the acoustic signal includes an energy expenditure by the tag circuit of less than or equal to about 385 uJ per transmission at a signal intensity of 163 dB. 18. An acoustic transmission (tag) device, comprising: a tag circuit comprising components that deliver a selectable voltage to a piezoelectric transducer that drives transmission of an acoustic transmission signal therefrom at a selected acoustic signal intensity; and a power source coupled to the tag circuit and which is configured to deliver a selectable power source voltage that powers the components of the tag circuit over a selectable tag lifetime of at least about 98 days at a pulse rate interval of about 5 seconds at an acoustic signal intensity of 163 dB. 19. The acoustic device of claim 1 , wherein the tag is configured to provide a selectable tag lifetime at the selected signal intensity of at least about 98 days at a pulse rate interval of about 5 seconds. 20. The method of claim 10 , wherein transmitting the acoustic transmission signal includes a tag lifetime of at least about 98 days at a pulse rate interval of about 5 seconds. 21. The acoustic device of claim 1 , wherein the tag has a volume of about 429 mm 3 or less. 22. The acoustic device of claim 1 , wherein the tag has a mass of about 720 mg or less in air. 23. The acoustic device of claim 1 , wherein the tag circuit comprises: a dual boost converter configured to generate a negative output voltage and a positive output voltage; and an inductor configured to increase the voltage which is delivered to the piezoelectric transducer. 24. The acoustic device of claim 23 , further comprising: a first switch coupled with the dual boost converter and a terminal of the piezoelectric transducer; and a second switch coupled with the dual boost converter and the inductor. 25. The acoustic device of claim 1 , wherein the housing is configured to be received within the host to be tracked. 26. The acoustic device of claim 1 , wherein the tag circuit comprises: a dual boost converter configured to generate a negative output voltage and a positive output voltage; and an inductor between the dual boost converter and the piezoelectric transducer. 27. The acoustic device of claim 26 , further comprising: a first switch coupled with the dual boost converter and a terminal of the piezoelectric transducer; and a second switch coupled with the dual boost converter and the inductor.