Microwave circulator having discontinuous ferrimagnetic array

The invention claimed is: 1. A circulator, comprising: a single layer substrate, wherein a plurality of vias exist in the single layer substrate, and some or all of the plurality of vias comprises a ferrimagnetic material disposed therein; a first port, a second port and a third port disposed over the single layer substrate; and a magnet disposed over the vias, wherein a preferred magnetic dipole alignment is generated within the ferrimagnetic material having a first direction that substantially prevents an electromagnetic signal from propagating in a second direction opposite the first direction. 2. The circulator of claim 1 , wherein the single layer substrate comprises an upper planar surface and the magnet generates a magnetic field substantially perpendicular to the upper planar surface. 3. The circulator of claim 2 , wherein the ferrimagnetic material has a magnetic dipole, and the magnetic field causes the magnetic dipoles to align around an axis of the magnetic field. 4. The circulator of claim 3 , wherein upon application of an electromagnetic signal, the magnetic dipoles precess around the axis of the magnetic field. 5. The circulator of claim 4 , wherein the precession of magnetic dipoles is in the first direction. 6. The circulator of claim 4 , wherein the electromagnetic signal is a radio frequency (RF) electromagnetic signal. 7. The circulator of claim 1 , wherein the single layer substrate comprises a ceramic material adapted for operation across a microwave frequency range. 8. The circulator of claim 7 , wherein the ceramic material comprises alumina (Al 2 O 3 ) aluminum nitride, sapphire, quartz, or zirconium. 9. The circulator of claim 7 , wherein the substrate is a single layer thick film substrate. 10. The circulator of claim 1 , wherein an overlap of the magnet and the plurality of vias comprises an area, and the plurality of vias are disposed from a middle of the area to an edge of the area. 11. The circulator of claim 10 , wherein the area comprises a circle and the plurality of vias are disposed in concentric circles from a center of the circle to an outer diameter of the circle. 12. The circulator of claim 11 , wherein one or more of the concentric circles is randomly offset from its adjacent concentric circles. 13. The circulator of claim 12 , wherein a return loss is better than approximately −15 dB and an insertion loss is better than approximately 3 dB over a frequency range from comparatively low microwave frequencies to millimeter wave frequencies. 14. The circulator of claim 11 , wherein one of the plurality of vias comprising the ferrimagnetic material is located at the center of the circle. 15. The circulator of claim 10 , wherein the area comprises a triangle and the plurality of vias are disposed in a center of the triangle to outer sides of the triangle. 16. The circulator of claim 15 , wherein the first port, the second port and the third port are separated by approximately 120°. 17. The circulator of claim 1 , wherein the first port, the second port and the third port are separated from each other by approximately 120°. 18. The circulator of claim 1 , wherein an electromagnetic wave propagates in the first direction, and an isolation of the first port to the third port is substantially greater than an insertion loss from the first port to the second port.