Biostimulator having patch antenna

What is claimed is: 1. A patch antenna, comprising: a cylindrical wall having a cylindrical outer surface, wherein the cylindrical wall is a ground plane of the patch antenna, wherein the cylindrical wall includes a cavity having a shape of a cylindrical arc section between the cylindrical outer surface and a recess surface, and a recess perimeter wall laterally surrounding the cavity between the recess surface and the cylindrical outer surface; a dielectric layer having the shape of the cylindrical arc section and mounted on the recess surface within the cavity such that the recess perimeter wall laterally surrounds a lateral perimeter edge of the dielectric layer, wherein the lateral perimeter edge laterally surrounds an exterior surface of the dielectric layer, and wherein the dielectric layer fills the cavity and the exterior surface of the dielectric layer is flush with the cylindrical outer surface of the cylindrical wall along the recess perimeter wall; a metal layer embedded within the dielectric layer, wherein the metal layer is a conductor of the patch antenna and includes a trace having an undulating pattern, wherein the trace extends from a first end through a turnback having a first longitudinal segment interconnected to a second longitudinal segment by a circumferential segment; a feedthrough via to feed a signal to the metal layer, wherein the feedthrough via is connected to the first longitudinal segment between the first end and the circumferential segment; and a ground via connected to the first longitudinal segment between the first end and the feedthrough via, wherein the ground via electrically connects the first longitudinal segment to the cylindrical wall. 2. The patch antenna of claim 1 , wherein the cylindrical outer surface of the cylindrical wall is at least a portion of a circular cylinder extending around a longitudinal axis, and wherein the dielectric layer has an inner surface conforming to the recess surface. 3. The patch antenna of claim 2 , wherein the trace extends over a length between the first end and a second end, and wherein the undulating pattern includes a plurality of turnbacks. 4. The patch antenna of claim 3 , wherein the feedthrough via extends from the trace through the dielectric layer to a feedthrough contact on the inner surface of the dielectric layer. 5. The patch antenna of claim 4 , wherein the ground via extends from the trace through the dielectric layer to a ground contact on the inner surface of the dielectric layer. 6. The patch antenna of claim 5 , wherein the patch antenna has a resonant frequency at a predetermined signal wavelength, and wherein the length of the trace from the feedthrough via to the second end is one-quarter of the predetermined signal wavelength. 7. The patch antenna of claim 6 further comprising an electrical feedthrough passing through the cylindrical wall from the cavity, wherein the feedthrough contact is electrically connected to the electrical feedthrough and the ground contact is electrically connected to the cylindrical wall. 8. The patch antenna of claim 7 , wherein the recess surface is recessed below the cylindrical outer surface, and wherein the exterior surface of the dielectric layer is at a same radial distance from the longitudinal axis as the cylindrical outer surface. 9. The patch antenna of claim 7 , wherein the cavity includes a hole in the cylindrical wall, and wherein the dielectric layer fills the hole. 10. The patch antenna of claim 1 , wherein the cylindrical wall is thicker than the dielectric layer. 11. A housing for a biostimulator, comprising: a cylindrical wall having a cylindrical outer surface, wherein the cylindrical wall is a ground plane of a patch antenna, wherein the cylindrical wall includes a cavity having a shape of a cylindrical arc section between the cylindrical outer surface and a recess surface, and a recess perimeter wall laterally surrounding the cavity between the recess surface and the cylindrical outer surface; a dielectric layer having the shape of the cylindrical arc section and mounted on the recess surface within the cavity such that the recess perimeter wall laterally surrounds a lateral perimeter edge the dielectric layer, wherein the lateral perimeter edge laterally surrounds an exterior surface of the dielectric layer, and wherein the dielectric layer fills the cavity and the exterior surface of the dielectric layer is flush with the cylindrical outer surface of the cylindrical wall along the recess perimeter wall; and a metal layer embedded within the dielectric layer, wherein the metal layer is a conductor of the patch antenna and includes a trace having an undulating pattern, wherein the trace extends from a first end through a turnback having a first longitudinal segment interconnected to a second longitudinal segment by a circumferential segment, a feedthrough via to feed a signal to the metal layer, wherein the feedthrough via is connected to the first longitudinal segment between the first end and the circumferential segment, and a ground via connected to the first longitudinal segment between the first end and the feedthrough via, wherein the ground via electrically connects the first longitudinal segment to the cylindrical wall. 12. The housing of claim 11 , wherein the cylindrical outer surface of the cylindrical wall is at least a portion of a circular cylinder, and wherein the dielectric layer has an inner surface conforming to the recess surface. 13. The housing of claim 12 , wherein the trace extends over a length between the first end and a second end, and wherein the undulating pattern includes a plurality of turnbacks. 14. The housing of claim 13 , wherein the feedthrough via extends from the trace through the dielectric layer to a feedthrough contact on the inner surface of the dielectric layer, and wherein the ground via extends from the trace through the dielectric layer to a ground contact on the inner surface of the dielectric layer. 15. The housing of claim 14 further comprising an electrical feedthrough passing through the cylindrical wall from the cavity, wherein the feedthrough contact is electrically connected to the electrical feedthrough and the ground contact is electrically connected to the cylindrical wall. 16. A biostimulator, comprising: a housing including a cylindrical wall extending around an electronics compartment, wherein the cylindrical wall has a cylindrical outer surface, wherein the cylindrical wall is a ground plane of a patch antenna, wherein the cylindrical wall includes a cavity having a shape of a cylindrical arc section between the cylindrical outer surface and a recess surface, and a recess perimeter wall laterally surrounding the cavity between the recess surface and the cylindrical outer surface, a dielectric layer having the shape of the cylindrical arc section and mounted on the recess surface within the cavity such that the recess perimeter wall laterally surrounds a lateral perimeter edge of the dielectric layer, wherein the lateral perimeter edge laterally surrounds an exterior surface of the dielectric layer, and wherein the dielectric layer fills the cavity and the exterior surface of the dielectric layer is flush with the cylindrical outer surface of the cylindrical wall along the recess perimeter wall, and a metal layer embedded within the dielectric layer, wherein the metal layer is a conductor of the patch antenna and includes a trace having an undulating pattern, wherein the trace extends from a first end through a turnback having a first longitudinal segment interconnected to a second longitudinal segment