Patent ID: 8587536

Claim:
A touch panel with a micro-electrode matrix, comprising: a substrate; a first electrode layer and a second electrode layer, isolated and formed on the substrate; a plurality of scanning lines in first axis, formed on the first electrode layer, connected to a scanning voltage for the detection of capacitive variation; a plurality of scanning lines in second axis, formed on the second electrode layer, connected to a scanning voltage for the detection of capacitive variation; and a plurality of micro-electrode matrixes, formed within a block defined by the plurality of scanning lines in x-axis and the plurality of scanning lines in y-axis, each of the micro-electrode matrixes comprising: a plurality of micro-electrode chains in first axis, formed on the first electrode layer, connected to a place between adjacent ones of the plurality of scanning lines in first axis, each of the micro-electrode chains in first axis comprising: a plurality of micro-electrodes in first axis, separated and formed on the first electrode layer; and a plurality of series resistances in first axis, connected individually between the plurality of micro-electrodes in first axis and forming the micro-electrode chain in first axis, two of the series resistances in first axis forming two ends of each of the micro-electrode chains in first axis; a plurality of micro-electrode chains in second axis, formed on the second electrode layer, connected to a place between adjacent ones of the plurality of scanning lines in second axis, each of the micro-electrode chains in second axis comprising: a plurality of micro-electrodes in second axis, separated and formed on the second electrode layer, wherein the plurality of micro-electrodes in first axis and the plurality of micro-electrodes in second axis correspond to each other; and a plurality of series resistances in second axis, connected individually between the plurality of micro-electrodes in second axis and forming the micro-electrode chains in second axis, two of the series resistances in second axis forming two ends of each of the micro-electrode chains in second axis; and a plurality of guiding holes, at least one of the plurality of guiding holes is formed on each of the plurality of micro-electrodes in first axis, the guiding holes used for enhancing the flux of the electromagnetic field.