Electrode layout for touch screens

The invention claimed is: 1. A touchscreen device comprising: a plurality of drive electrodes extending generally in a first direction, each of the drive electrodes comprising: a plurality of diamond-shaped first portions, each diamond-shaped first portion connected to an adjacent diamond-shaped first portion in the first direction by at least one second portion extending from at least one end of each diamond-shaped first portion, wherein each of the plurality of diamond-shaped first portions comprises a first plurality of projections, each projection of the first plurality of projections extending orthogonally from a respective side of a respective one of the diamond-shaped first portions; and a plurality of receive electrodes extending generally in a second direction transverse to the first direction, each of the receive electrodes comprising: a bar extending generally in the second direction, the bar crossing over one second portion of each of the plurality of drive electrodes that connects adjacent diamond-shaped first portions in the first direction to form a uniform grid of diamond-shaped first portions of the plurality of drive electrodes, wherein the bar comprises a plurality of cross bars extending at regular intervals in opposite directions away from the bar in the first direction such that each of the plurality of cross bars is disposed above a diamond-shaped first portion of one of the plurality of drive electrodes, below a diamond-shaped first portion of one of the plurality of drive electrodes, or between diamond-shaped first portions of two of the plurality of drive electrodes; and a second plurality of projections, each of the second plurality of projections extending from the bar and from each of the plurality of cross bars, wherein the bar, the plurality of cross bars, and the plurality of second projections form a snowflake pattern in the uniform grid of diamond-shaped first portions of the plurality of drive electrodes, wherein the second plurality of projections comprises a plurality of first pairs of projections, each of the first pairs of projections extending from a first side of the bar at regular intervals, a plurality of second pairs of projections, each of the second pairs of projections extending from a second side of the bar at regular intervals, a plurality of third pairs of projections, each of the third pairs of projections extending from opposite sides of each of a first plurality of the plurality of cross bars, and a plurality of fourth pairs of projections, each of the fourth pairs of projections extending from opposite sides of each of a second plurality of the plurality of cross bars, such that the first, second, third, and fourth pairs of projections are respectively disposed above respective diamond-shaped first portions of one of the plurality of drive electrodes, below respective diamond-shaped first portions of one of the plurality of drive electrodes, or between respective diamond-shaped first portions of two of the plurality of drive electrodes, and each projection of the first plurality of projections of each of the plurality of diamond-shaped first portions is interleaved between two projections of the second plurality of projections. 2. The device of claim 1 wherein, in plan view, the plurality of drive electrodes and the plurality of receive electrodes are substantially non-overlapping. 3. The device of claim 1 and further comprising a plurality of fill areas, a first fill area respectively separating, in plan view, the first plurality of projections of each of the drive electrodes and the second plurality of projections of each of the plurality of receive electrodes. 4. The device of claim 3 wherein the plurality of fill areas are electrically isolated from each other and from the plurality of drive electrodes and the plurality of receive electrodes. 5. The device of claim 4 wherein the plurality of fill areas, drive electrodes and receive electrodes are formed of the same material. 6. The device of claim 1 wherein, in plan view, the first plurality of projections and the second plurality of projections provide an increased adjacent perimeter between a first drive electrode and a first receive electrode. 7. The device of claim 1 wherein the plurality of drive electrodes and the plurality of receive electrodes are formed of indium tin oxide. 8. The device of claim 1 wherein the plurality of drive electrodes includes at least one resistively interpolated drive electrode. 9. The device of claim 1 wherein the plurality of drive electrodes are disposed in a drive electrode layer and the plurality of receive electrodes are disposed in a receive electrode layer, and further comprising an intermediate dielectric layer disposed between the drive electrode layer and the receive electrode layer. 10. A touchscreen device comprising: a plurality of drive electrodes extending generally in a first direction, each of the drive electrodes comprising: a plurality of diamond-shaped first portions, each diamond-shaped first portion connected to an adjacent diamond-shaped first portion in the first direction by at least one second portion extending from at least one end of each diamond-shaped first portion, wherein each of the plurality of diamond-shaped first portions comprises a first plurality of projections, each projection of the first plurality of projections extending orthogonally from a respective side of a respective one of the diamond-shaped first portions; and a plurality of receive electrodes extending generally in a second direction transverse to the first direction, each of the receive electrodes comprising: a bar extending generally in the second direction, the bar crossing over one second portion of each of the plurality of drive electrodes that connects adjacent diamond-shaped first portions in the first direction to form a uniform grid of diamond-shaped first portions of the plurality of drive electrodes, wherein the bar comprises a plurality of cross bars extending at regular intervals in opposite directions away from the bar in the first direction such that each of the plurality of cross bars is disposed above a diamond-shaped first portion of one of the plurality of drive electrodes, below a diamond-shaped first portion of one of the plurality of drive electrodes, or between diamond-shaped first portions of two of the plurality of drive electrodes; and a second plurality of projections, each of the second plurality of projections extending from the bar and from each of the plurality of cross bars, wherein the bar, the plurality of cross bars, and the plurality of second projections form a snowflake pattern in the uniform grid of diamond-shaped first portions of the plurality of drive electrodes, wherein the second plurality of projections comprises a plurality of first pairs of projections, each of the first pairs of projections extending from a first side of the bar at regular intervals, a plurality of second pairs of projections, each of the second pairs of projections extending from a second side of the bar at regular intervals, a plurality of third pairs of projections, each of the third pairs of projections extending from opposite sides of each of a first plurality of the plurality of cross bars, and a plurality of fourth pairs of projections, each of the fourth pairs of projections extending from opposite sides of each of a second plurality of the plurality of cross bars, such that the first, second, third, and fourth pairs of projections are respectively disposed above respective diamond-shaped first portions of one of the plurality of drive electrodes, below respective diamond-shaped first portions of one of the plurality of drive electrodes, or