Abstract: A matrix touch panel has an upper panel, a separation layer, an insulation layer and a lower panel. The lower panel has a plurality of first transparent electrodes on a bottom intersected by a plurality of second transparent electrodes on the upper panel. A plurality of wires and leading lines are formed on a border of the upper and lower panels. One terminal of each wire is connected to one end of the corresponding first or second transparent electrode, and the other terminal is connected with a corresponding leading line. One end of the first and second transparent electrode corresponding to the wires has an inner lead and an outer lead. The outer lead is electrically connected with the wires. An area defined between the inner lead and the outer lead varies to generate different impedance to balance the impedance difference among the wires with different lengths.

Abstract: A resistive touch panel has a lower panel module and an upper panel module, an adhesive layer, a separating layer and a flexible circuit board. The lower panel module has a substrate, a lower conducting layer and a plurality of electrodes. The upper panel module has a protective film, an upper conducting layer, a pattern layer, an ink electrode mounted to electrically connect with the flexible circuit board, and an insulation layer. One end of the flexible circuit board and the separating layer are sandwiched between the top surface of the lower conducting layer and the top surface of the upper conducting layer. Given the foregoing structure, the components and steps for fabricating the resistive touch panel can be reduced since the pattern layer is directly printed on the bottom surface of the upper conducting layer. Therefore, fabricating yields are increased.

Abstract: A capacitive touch panel has two basal plates, an adhesive ring and a dot spacer. Each of the two basal plates has a working surface and an outer rim. One basal plate further has a conductive area, a peripheral area and a metal wiring area. The peripheral area is defined between the outer rim and the conductive area. The adhesive ring is made with a reusable adhesive agent and clamped between the peripheral areas of the basal plates without contacting the conductive area. The dot spacer is clamped between the basal plates and positioned within the conductive area. The adhesive ring, being a reusable adhesive agent, does not stick fast to the conductive area and thus allows a manufacturer to accurately align the basal plates during manufacture and thus to raise yield rate.

Abstract: A projected capacitive touch panel has a lower substrate, an upper substrate and an insulating adhesive layer. The lower substrate has a first-axial conductive area. The first-axial conductive area has multiple conductive strips arranged in parallel in a first axis. The upper substrate has a second-axial conductive area. The second-axial conductive area has multiple conductive strips arranged in parallel in a second axis different from the first axis. The insulating adhesive layer formed between the lower substrate and the upper substrate to adhere the lower substrate and the upper substrate. Two substrates respectively have conductive areas with different axes, so avoid formation of apexes and keep the substrates flat. Therefore, incident light of the projected capacitive touch panel is able to reflect evenly and avoid interference. The projected capacitive touch panel has stable quality and saves costs because no damage occurs during transportation.

Abstract: A hybrid touch panel has a first substrate, a second substrate, and an insulation layer and a separating layer sandwiched between the first and second substrates. The first substrate has a first transparent electrode mounted thereon. A plurality of first electrodes are respectively mounted alongside edges of the first transparent electrode and are respectively connected with a plurality of first leading lines. The second substrate has a plurality of juxtaposed second transparent electrodes respectively corresponding to the first transparent electrode, a plurality of second electrodes respectively mounted on the second transparent electrodes and connected with a plurality of wires and second leading lines. Each second transparent electrode accompanying with the first transparent electrode forms an active areas. Accordingly, a multi-area touch panel can be constructed to enable a more smooth and flexible operation.

Abstract: A flat touch panel has a top and bottom substrate, a top and bottom transparent conductive film formed on the corresponding first and second substrates and a FPC mounted on a bottom face of the bottom substrate. At least one top conductive line is formed on the top transparent conductive film. Multiple bottom conductive line is formed on the bottom face of the second substrate. The top conductive line is electronically connected to the corresponding terminal of the FPC through the conductive material in the first through holes. The bottom transparent conductive film is electronically connected to the corresponding terminals of the FPC through the second through holes with the material and the bottom conductive lines. Since the bottom conductive lines and the FPC are directly formed on the bottom face of the bottom substrate, the flatness of the touch panel is good and the visible area is increased.