Dual band antenna

1 . A dual band antenna, comprising: a substrate comprising a magnetodielectric material; an electrically conductive patch disposed on the substrate; wherein the patch comprises at least one in-plane cutout having an H-shape or an I-shape, as observed in a plan view of the patch. 2 . The dual band antenna of claim 1 , wherein: the at least one cutout is disposed at an oblique angle relative to a central x-y-z orthogonal reference frame of the patch. 3 . The dual band antenna of claim 1 , wherein: the substrate is a single layer of the magnetodielectric material. 4 . The dual band antenna of claim 1 , wherein a combination of the substrate and the patch provides a first layer of the dual band antenna, and further wherein: a second layer of the combination is disposed on the first layer to form a multi-layer dual band antenna. 5 . The dual band antenna of claim 1 , wherein: the at least one cutout is disposed inside of an outer periphery of the patch. 6 . The dual band antenna of claim 1 , wherein: the H-shape or I-shape of the at least one cutout has mirror-image symmetry in two planes orthogonal to a plan view plane of the patch. 7 . The dual band antenna of claim 1 , wherein: an outer periphery of the patch is smaller than and disposed within an outer periphery of the substrate. The patch size can be the same size of magnetodielectric substrate based on the design frequency. 8 . The dual band antenna of claim 1 , wherein: the outer periphery of the substrate has a plan view profile that is rectangular, or circular. 9 . The dual band antenna of claim 1 , wherein: the outer periphery of the patch has a plan view profile that is at least partially circular. 10 . The dual band antenna of claim 1 , wherein: the at least one cutout is radially offset from a central z-axis of the patch, the central z-axis extending perpendicular to a plan view of the patch. 11 . The dual band antenna of claim 1 , wherein: the at least one cutout has two elongated legs and a bridge leg that conjoins the two elongated legs, the two elongated legs being oriented at a non-zero-degree angle and a non-ninety-degree angle relative to both a centrally disposed x-axis and a centrally disposed y-axis of the patch, as observed in a plan view of the patch. 12 . The dual band antenna of claim 11 , wherein: the two elongated legs are each oriented at a forty-five-degree angle relative to both the x-axis and the y-axis of the patch. 13 . The dual band antenna of claim 11 , wherein: the bridge leg is oriented orthogonal to each of the two elongated legs. 14 . The dual band antenna of claim 11 , wherein: the bridge leg is disposed equidistant from each end of each of the two elongated legs. 15 . The dual band antenna of claim 1 , wherein: the outer periphery of the patch comprises one or more notches. 16 . The dual band antenna of claim 1 , further comprising: two signal probes, wherein each one of the two signal probes is oriented parallel to the central z-axis of the patch. 17 . The dual band antenna of claim 16 , further comprising: an electrical ground reference, wherein the substrate is disposed on the electrical ground reference. 18 : The dual band antenna of any one of claim 17 , further comprising: a signal feed network disposed in signal communication with the patch; wherein the signal feed network includes power divider circuitry electrically connected with and between a signal port connector and the two signal probes. 19 . The dual band antenna of claim 1 , wherein: the dual band antenna is operational over at least two frequency bands, and is operational with right-hand-circular-polarization or left-hand-circular-polarization. 20 . The dual band antenna of claim 1 , wherein: the dual band antenna is operational at a broad axial ratio bandwidth at 3 dB of equal to or greater than 100 MHz.