Planarized electrode for improved performance in bulk acoustic resonators

The invention claimed is: 1. A bulk acoustic wave (BAW) resonator, comprising: a cavity disposed in a substrate; a first electrode disposed over the cavity; a planarization layer disposed adjacent to but not over the first electrode, an edge of the planarization layer abutting an edge of the first electrode, the cavity having an edge and the planarization layer extending over the edge of the cavity and abutting a termination edge of the first electrode, and the first electrode terminating before the edge of the cavity at a distance equal to an odd integer multiple of one-quarter wavelength (λ/4) of a complex thickness-extensional eigenmode that exists outside an active region of the BAW resonator, wherein an upper surface of the planarization layer and an upper surface of the first electrode are substantially flush, and the termination edge is disposed at an angle relative to a surface of the substrate and the planarization layer has a termination edge disposed at a supplementary angle to the angle; a piezoelectric layer disposed over the first electrode and the planarization layer; and a second electrode disposed over the piezoelectric layer. 2. A BAW resonator as claimed in claim 1 , wherein the planarization layer comprises non-etchable borosilicate glass (NEBSG). 3. A bulk acoustic wave (BAW) resonator, comprising: a cavity disposed in a substrate; a first electrode disposed over the cavity, the cavity having cavity edge and the first electrode extends over the edge of the cavity and onto a surface of the substrate, wherein the first electrode extends a distance over the substrate; a planarization layer disposed adjacent to the first electrode; a piezoelectric layer disposed over the first electrode; and a second electrode disposed over the piezoelectric layer, wherein the distance is equal to or smaller than a quarter wavelength of a first propagating eigenmode in an active region of the BAW resonator. 4. A BAW resonator as claimed in claim 3 , wherein the first electrode has a termination edge that is disposed at an angle relative to the surface of the substrate and the planarization layer has a termination edge disposed at a supplementary angle to the angle. 5. A bulk acoustic wave (BAW) resonator, comprising: a cavity disposed in a substrate; a first electrode disposed over the cavity, the first electrode terminating at a distance before the edge of the cavity, wherein the distance is equal to an odd integer multiple of one-quarter wavelength (λ/4) of a complex thickness-extensional eigenmode that exists outside an active region the BAW resonator; a planarization layer disposed adjacent to but not over the first electrode, an edge of the planarization layer abutting an edge of the first electrode; a piezoelectric layer disposed over the first electrode and the planarization layer; and a second electrode disposed over the piezoelectric layer, wherein the cavity has an edge and the planarization layer extends over the edge of the cavity and abuts a termination edge of the first electrode. 6. A BAW resonator as claimed in claim 5 , wherein the planarization layer comprises non-etchable borosilicate glass (NEBSG). 7. A BAW resonator as claimed in claim 6 , wherein the termination edge is disposed at an angle relative to a surface of the substrate, and the planarization layer has a termination edge disposed at a supplementary angle to the angle. 8. A bulk acoustic wave (BAW) resonator, comprising: a cavity disposed in a substrate; a first electrode disposed over the cavity; a first planarization layer disposed adjacent to the first electrode, an edge of the first planarization layer abutting an edge of the first electrode; a first piezoelectric layer disposed over the first electrode; a second electrode disposed over the first piezoelectric layer; a second planarization layer disposed adjacent to the second electrode; a second piezoelectric layer disposed over the second electrode; and a third electrode disposed over the second piezoelectric layer. 9. A BAW resonator as claimed in claim 8 , wherein the cavity has an edge and the first planarization layer extends over the edge of the cavity and abuts a termination edge of the first electrode. 10. A BAW resonator as claimed in claim 9 , wherein the termination edge of the first electrode is disposed at an angle relative to a surface of the substrate and the first planarization layer has a termination edge disposed at a supplementary angle to the angle. 11. A BAW resonator as claimed in claim 9 , wherein the first electrode terminates at a distance before the edge of the cavity. 12. A BAW resonator as claimed in claim 11 , wherein the distance is equal to an odd integer multiple of one-quarter wavelength of a fundamental thickness-extensional complex eigenmode in the acoustic stack comprising a distance region of a BAW resonator. 13. A BAW resonator as claimed in claim 11 , further comprising: an acoustic coupling layer disposed between the second electrode and the second piezoelectric layer; a third planarization layer adjacent to the coupling layer; a fourth electrode disposed above the acoustic coupling layer and beneath the second piezoelectric layer; and a fourth planarization layer adjacent to the fourth electrode. 14. A BAW resonator as claimed in claim 8 , wherein the planarization layer comprises non-etchable borosilicate glass (NEBSG). 15. A BAW resonator as claimed in claim 8 , wherein the cavity has a cavity edge and the first electrode extends over the edge of the cavity and onto a surface of the substrate. 16. A BAW resonator as claimed in claim 8 , wherein the second planarization layer is disposed between the first piezoelectric layer and the second piezoelectric layer, and abuts a termination edge of the second electrode.