Neurostimulator

We claim: 1. An implantable neurostimulator comprising: a first electrode electrically coupled to a first piezoelectric material; a second electrode electrically coupled to the first piezoelectric material; a third electrode electrically coupled to a second piezoelectric material; a fourth electrode electrically coupled to the second piezoelectric material; where the first piezoelectric material is configured to provide an electrical potential to biological tissue through the first and second electrodes in response to an ultrasound signal; where the second piezoelectric material is configured to provide an electrical potential to biological tissue through the third and fourth electrodes in response to an ultrasound signal; where the first and second piezoelectric materials have different resonant frequencies; and where the first piezoelectric material is a polymer. 2. The implantable neurostimulator of claim 1 , where the polymer is polyvinylidene fluoride (PVDF). 3. The implantable neurostimulator of claim 1 , wherein the first and second piezoelectric materials are physically configured to facilitate insertion of the implantable neurostimulator into biological tissue. 4. The implantable neurostimulator of claim 3 , where the implantable neurostimulator is capable of being inserted into biological tissue using a 16 gauge needle. 5. The implantable neurostimulator of claim 1 , where the first and second piezoelectric materials are mechanically coupled. 6. The implantable neurostimulator of claim 1 , where the first piezoelectric material is made of a different composition than the second piezoelectric material. 7. The implantable neurostimulator of claim 1 , where the first and second piezoelectric materials have resonant frequencies that are sufficiently dissimilar such that when the implantable neurostimulator is subjected to an ultrasound signal having a frequency equal to the resonant frequency of the first piezoelectric material, the second piezoelectric material does not create a significant electrical potential. 8. The implantable neurostimulator of claim 7 , further comprising a third piezoelectric material having a resonant frequency different from the first and second piezoelectric materials. 9. The implantable neurostimulator of claim 1 , further comprising a third piezoelectric material electrically connected in series with the first piezoelectric material, where the third piezoelectric material has a resonant frequency having substantially the same as the resonant frequency as the first piezoelectric material. 10. The implantable neurostimulator of claim 9 , further comprising a fourth piezoelectric material electrically connected in series with the second piezoelectric material, where the fourth piezoelectric material has a resonant frequency substantially the same as the resonant frequency of the second piezoelectric material. 11. The implantable neurostimulator of claim 1 , where the second piezoelectric material is a ceramic. 12. The implantable neurostimulator of claim 11 , where the ceramic is lead zirconate titanate (PZT). 13. The implantable neurostimulator of claim 11 , where the ceramic is lithium nobate. 14. The implantable neurostimulator of claim 11 , where the ceramic is lead metaniobate. 15. The implantable neurostimulator of claim 11 , where the ceramic is lead titanate. 16. The implantable neurostimulator of claim 1 , where the second piezoelectric material is a crystal. 17. The implantable neurostimulator of claim 16 , where the crystal is quartz. 18. The implantable neurostimulator of claim 16 , where the crystal is tourmaline.