Electro-optic displays, and components for use therein

The invention claimed is: 1. A method for forming filter elements on at least two display substrates using a digital imaging system operable to selectively deposit filter material at a plurality of deposition locations, said deposition locations comprising first deposition locations generally aligned along a first axis of the display substrates and second deposition locations generally aligned along a second axis of the display substrates, the at least two display substrates being disposed in succession along said second axis, the method comprising: receiving orientation information defining a disposition of a plurality of pixels associated with each of said display substrates with respect to the first and second axes; identifying pixels in said plurality of pixels that are to receive filter material for forming a filter element on the pixel; selecting deposition locations within each of said identified pixels in accordance with said orientation information to meet an alignment criterion associated with placement of the filter element within said pixel; computing an offset associated with said plurality of pixels in a direction of the first axis for at least one of said display substrates; determining a residual portion of said offset that cannot be compensated by said selection of said deposition locations; controlling the digital imaging system to cause deposition of the filter material at said selected deposition locations by: causing respective relative displacements between the display substrates and the digital imaging system in a first pass in a first direction aligned with the second axis and a second pass in a second direction opposite to said first direction; causing deposition of filter material on alternate ones of said at least two display substrates during said first pass and causing deposition of filter material on remaining ones of said at least two display substrates on said second pass; and causing the digital imaging system to be repositioned relative to said display substrates by said residual portion of said offset while disposed between at least one of said alternate ones of said display substrates in said first pass or said remaining ones of said display substrates during said second pass. 2. A digital imaging system for forming filter elements on at least two display substrates by selectively depositing filter material at a plurality of deposition locations, said deposition locations comprising first deposition locations generally aligned along a first axis of the display substrates and second deposition locations generally aligned along a second axis of the display substrates, the least two display substrates being disposed in succession along said second axis, the digital imaging system comprising a controller operably configured to: receive orientation information defining a disposition of a plurality of pixels associated with each of said display substrates with respect to the first and second axes; identify pixels in said plurality of pixels that are to receive filter material for forming a filter element on the pixel; select deposition locations within each of said identified pixels in accordance with said orientation information to meet an alignment criterion associated with placement of the filter element within said pixel; compute an offset associated with said plurality of pixels in a direction of the first axis for at least one of said display substrates; determine a residual portion of said offset that cannot be compensated by said selection of said deposition locations; control the digital imaging system to cause deposition of the filter material at said selected deposition locations by: causing respective relative displacements between the display substrates and the digital imaging system in a first pass in a first direction aligned with the second axis and a second pass in a second direction opposite to said first direction; causing deposition of filter material on alternate ones of said at least two display substrates during said first pass and causing deposition of filter material on remaining ones of said at least two display substrates on said second pass; and causing the digital imaging system to be repositioned relative to said display substrates by said residual portion of said offset while disposed between at least one of said alternate ones of said display substrates in said first pass or said remaining ones of said display substrates during said second pass.