Baw resonator with improved top electrode connection

The invention claimed is: 1. A BAW resonator, comprising: a bottom electrode; a piezoelectric layer; a top electrode; a spacer arranged above the piezoelectric layer and disposed on the top electrode; a capping layer sitting on the spacer and keeping an air-filled gap to the top electrode a top electrode connection arranged above the capping layer; and an electrically conductive path connecting the top electrode and the top electrode connection. 2. The BAW resonator of claim 1 , wherein the spacer is a conductive frame sitting on a margin of an active resonator area to provide the electrically conductive path. 3. The BAW resonator of claim 1 , wherein: the capping layer is a dielectric layer with release holes; and an organic sealing layer covers the capping layer. 4. The BAW resonator of claim 1 , wherein: the spacer is a conductive frame sitting on a margin of an active resonator area; an organic sealing layer covers the capping layer; a top metal layer is arranged on top of the organic sealing layer; and an electrical contact between the spacer and the top metal layer is made by the organic sealing layer being filled with a conductive filler, or by an electrically isolating frame-like or frame-shaped through-contact through the organic sealing layer. 5. The BAW resonator of claim 4 , wherein: the piezoelectric layer, the top electrode, the spacer and the organic sealing layer are structured to have a first base area; and the bottom electrode has second base area larger than the first base area to enable use of the bottom electrode as an etch-stop layer. 6. The BAW resonator of claim 1 , wherein: a plurality of BAW resonators are arranged one besides another on a substrate; a Bragg mirror is arranged between each of the plurality of BAW resonators and the substrate; the bottom electrode and each Bragg mirror under each of the plurality of BAW resonators are structured and electrically isolated against each other; a space between adjacent BAW resonators of the plurality of BAW resonators on the substrate is filled with a filler dielectric; the filler dielectric has a planarized surface; and the top electrode connection is arranged on top of the planarized surface of the filler dielectric. 7. The BAW resonator of claim 1 , further comprising lateral structures on top of the top electrode inwardly adjacent to a conductive frame, the lateral structures having mainly a constant cross section and adapted to confine and form a main mode. 8. The BAW resonator of claim 1 , wherein the electrically conductive path comprises the spacer; and wherein the spacer is a conductive frame sitting on a margin of an active resonator area to provide the electrically conductive path connecting the top electrode and the top electrode connection via the spacer. 9. The BAW resonator of claim 1 , wherein the electrically conductive path comprises at least a portion of the spacer. 10. A BAW resonator, comprising: a bottom electrode; a piezoelectric layer; a top electrode; a spacer arranged above the piezoelectric layer on the top electrode on a margin of an active resonator area; a capping layer sitting on the spacer and keeping an air-filled gap to the top electrode a top electrode connection arranged above the capping layer; and an electrically conductive path connecting the top electrode and the top electrode connection. 11. The BAW resonator of claim 10 , wherein the spacer comprises a conductive spacer; and wherein the an electrically conductive path connects the top electrode and the top electrode connection via the conductive spacer.