A display device includes a display having an array of pixels separated by inter-pixel gaps in at least one dimension. An electrode having a length direction is formed over the display and extends across at least a portion of the array of pixels. The electrode includes a plurality of electrically co
A display device includes a display having an array of pixels separated by inter-pixel gaps in at least one dimension. An electrode having a length direction is formed over the display and extends across at least a portion of the array of pixels. The electrode includes a plurality of electrically connected micro-wires formed in a micro-pattern. The micro-pattern has a first set of parallel micro-wires oriented at a first angle non-orthogonal to the length direction and a second set of parallel micro-wires oriented at a second angle non-orthogonal to the length direction different from the first angle. The micro-wires of the first and second sets intersect to form an array of electrically connected micro-wire intersections. At least every other micro-wire intersection on the micro-wires of the first set is located between the pixels in the inter-pixel gaps.
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1. A display device, comprising: a display having an array of pixels, the pixels separated by inter-pixel gaps in at least one dimension;an electrode having a length direction formed over the display and extending across at least a portion of the array of pixels, the electrode including a plurality
1. A display device, comprising: a display having an array of pixels, the pixels separated by inter-pixel gaps in at least one dimension;an electrode having a length direction formed over the display and extending across at least a portion of the array of pixels, the electrode including a plurality of electrically connected micro-wires formed in a micro-pattern; andwherein the micro-pattern has a first set of parallel micro-wires oriented at a first angle non-orthogonal to the length direction and a second set of parallel micro-wires oriented at a second angle non-orthogonal to the length direction different from the first angle, the micro-wires of the first and second sets intersecting to form an array of electrically connected micro-wire intersections;wherein at least every other micro-wire intersection on the micro-wires of the first set is located between the pixels in the inter-pixel gaps; andwherein each pixel has a light-controlling area that is partially and equally covered by one or more micro-wires. 2. The display device of claim 1 wherein the micro-wires of the first set are regularly spaced apart or the micro-wires of the second set are regularly spaced apart. 3. The display device of claim 1 wherein every micro-wire intersection in the array is located between the pixels in the inter-pixel gaps. 4. The display device of claim 1 further including: a first pixel having a first light-controlling area that is partially covered by one or more micro-wires forming a first covered area and a first remaining area that is not covered;a second pixel having a second light-controlling area that is not partially covered by one or more micro-wires; andcircuits to control the first remaining area to emit or reflect the same amount of light as the second light-controlling area in response to a common signal provided for the first pixel and for the second pixel. 5. The display device of claim 1 further including: a first pixel having a first light-controlling area that is partially covered by one or more micro-wires forming a first covered area and a first remaining area that is not covered;a second pixel having a light-controlling area that is partially covered by one or more micro-wires forming a second covered area different from the first covered area and a second remaining area that is not covered; andcircuits to control the first remaining area to emit or reflect the same amount of light as the second light-controlling area in response to a common signal provided for the first pixel and for the second pixel. 6. The display device of claim 1, wherein the micro-wires form straight line segments. 7. The display device of claim 1, wherein the micro-pattern of micro-wires forms an array of diamond shapes. 8. The display device of claim 1, wherein the second angle is a reflection of the first angle with respect to the length direction. 9. The display device of claim 1, wherein the first angle is 30 degrees or 60 degrees. 10. The display device of claim 1, wherein the array of pixels forms a rectangular array having rows of pixels arranged in a row direction and columns of pixels arranged in a column direction orthogonal to the row direction, the rows of pixels separated by row inter-pixel gaps and the columns of pixels separated by column inter-pixel gaps and wherein either the row direction or the column direction is the length direction. 11. The display device of claim 10, wherein the micro-wire intersections are located in the column inter-pixel gaps or are located in the row inter-pixel gaps but not in both the column inter-pixel gaps and the row inter-pixel gaps. 12. The display device of claim 10, wherein the micro-wire intersections are located in the row inter-pixel gaps and the column inter-pixel gaps. 13. The display device of claim 1, wherein the array of pixels forms rows of pixels arranged in a row direction and columns of pixels formed in a column direction orthogonal to the row direction, each row spatially offset from adjacent rows, the rows of pixels separated by row inter-pixel gaps and the columns of pixels separated by column inter-pixel gaps. 14. The display device of claim 1, wherein the array of pixels forms rows of pixels arranged in a row direction and columns of pixels formed in a column direction orthogonal to the row direction, each column spatially offset from adjacent columns, the rows of pixels separated by row inter-pixel gaps and the columns of pixels separated by column inter-pixel gaps. 15. The display device of claim 1, wherein the pixels are grouped, and all of the micro-wire intersections are located between the groups of pixels in the inter-pixel gaps but not between pixels within a group in at least one dimension. 16. The display device of claim 1, further including first and second electrically separate electrodes formed over the display, the first and second electrodes having a common length direction formed over the display and extending across at least a portion of the array of pixels, the first and second electrodes each including a plurality of electrically connected micro-wires formed in the micro-pattern. 17. A display device, comprising: a display having an array of pixels, the pixels separated by inter-pixel gaps in at least one dimension;an electrode having a length direction formed over the display and extending across at least a portion of the array of pixels, the electrode including a plurality of electrically connected micro-wires formed in a micro-pattern; andwherein the micro-pattern has a first set of parallel micro-wires oriented at a first angle non-orthogonal to the length direction and a second set of parallel micro-wires oriented at a second angle non-orthogonal to the length direction different from the first angle, the micro-wires of the first and second sets intersecting to form an array of electrically connected micro-wire intersections;a first pixel having a light-controlling area that is partially covered by one or more micro-wires forming a first covered area and a first remaining area that is not covered;a second pixel having a light-controlling area that is partially covered by one or more micro-wires forming a second covered area different from the first covered area and a second remaining area that is not covered; andwherein at least every other micro-wire intersection on the micro-wires of the first set is located between the pixels in the inter-pixel gaps and the size of the first remaining area is the same as the size of the second remaining area. 18. A display device, comprising: a display having an array of pixels, the pixels separated by inter-pixel gaps in at least one dimension;an electrode having a length direction formed over the display and extending across at least a portion of the array of pixels, the electrode including a plurality of electrically connected micro-wires formed in a micro-pattern; andwherein the micro-pattern has a first set of parallel micro-wires oriented at a first angle non-orthogonal to the length direction and a second set of parallel micro-wires oriented at a second angle non-orthogonal to the length direction different from the first angle, the micro-wires of the first and second sets intersecting to form an array of electrically connected micro-wire intersections;a first pixel having a first light-controlling area that is partially covered by one or more micro-wires forming a first covered area and a first remaining area that is not covered;a second pixel having a second light-controlling area that is not partially covered by one or more micro-wires; andwherein at least every other micro-wire intersection on the micro-wires of the first set is located between the pixels in the inter-pixel gaps and the size of the first remaining area is the same as the size of the second light-controlling area. 19. The display device of claim 1, wherein at least some of the micro-wire intersections are located in either the column inter-pixel gaps or the row inter-pixel gaps but not both the column inter-pixel gaps and the row inter-pixel gaps.
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