A touch panel is provided. The touch panel includes a substrate, a jumper metal, a first insulation layer, first and second conductive patterns, first and second metal electrodes, and a second insulation layer. The jumper metal is formed on the substrate. The first insulation layer includes an opening and is formed on the jumper metal. The first and second conductive patterns are formed on the first insulation layer. The first and second metal electrodes are respectively connected to end portions of the first and second conductive patterns. The second insulation layer is formed on the first and second conductive patterns and the first and second metal electrodes. One of the first and second conductive patterns is connected by the jumper metal exposed through the opening of the first insulation layer.

A touch panel is provided. The touch panel includes a substrate, a jumper metal, a first insulation layer, first and second conductive patterns, first and second metal electrodes, and a second insulation layer. The jumper metal is formed on the substrate. The first insulation layer includes an opening and is formed on the jumper metal. The first and second conductive patterns are formed on the first insulation layer. The first and second metal electrodes are respectively connected to end portions of the first and second conductive patterns. The second insulation layer is formed on the first and second conductive patterns and the first and second metal electrodes. One of the first and second conductive patterns is connected by the jumper metal exposed through the opening of the first insulation layer.

A touch display device includes a substrate, a plurality of scan lines, a plurality of thin film transistors and a plurality of touch electrodes. The scan lines and the thin film transistors are disposed on the substrate, and each of the thin film transistors is electrically connected to a corresponding scan line of the scan lines. The scan lines include a first scan line. The touch electrodes are disposed on the substrate, the touch electrodes include a first touch electrode and a second touch electrode, the first touch electrode is adjacent to the second touch electrode, the first scan line is disposed between the first touch electrode and the second touch electrode, and the first scan line is partially covered by the first touch electrode.

A touch display device includes a substrate, a plurality of scan lines, a plurality of thin film transistors and a plurality of touch electrodes. The scan lines and the thin film transistors are disposed on the substrate, and each of the thin film transistors is electrically connected to a corresponding scan line of the scan lines. The scan lines include a first scan line. The touch electrodes are disposed on the substrate, the touch electrodes include a first touch electrode and a second touch electrode, the first touch electrode is adjacent to the second touch electrode, the first scan line is disposed between the first touch electrode and the second touch electrode, and the first scan line is partially covered by the first touch electrode.

A capacitive sensor array may comprise a plurality of column sensor electrodes and a plurality of row sensor electrodes. The column sensor electrodes may be capacitively coupled with the row sensor electrodes to form a plurality of unit cells each including an intensity center identifying a location of greatest capacitance sensitivity between a row electrode and a column electrode. An axis of a set of row sensor electrodes may cross at least a portion of each row electrode in the set, and the intensity centers associated with the row electrodes in the set may be staggered on alternating sides of the axis. For each of the plurality of unit cells, a distance between the intensity center of the unit cell and a nearest intensity center of another unit cell at a perimeter of the unit cell may be at least 0.7 times the height of the unit cell.

A touch module and a manufacture method thereof are provided. The touch module includes a substrate, and a first transparent electrode layer a metal layer, an insulating layer, a second transparent electrode layer and a protective layer that are formed on the substrate. Both of the first transparent electrode layer and the second transparent electrode layer include at least two electromagnetic touch electrodes and at least two capacitive touch electrodes. The electromagnetic touch electrodes and the capacitive touch electrodes in the first transparent electrode layer are arranged in parallel and alternately. The electromagnetic touch electrodes and the capacitive touch electrodes in the second transparent electrode layer are arranged in parallel and alternately.

A touch module and a manufacture method thereof are provided. The touch module includes a substrate, and a first transparent electrode layer a metal layer, an insulating layer, a second transparent electrode layer and a protective layer that are formed on the substrate. Both of the first transparent electrode layer and the second transparent electrode layer include at least two electromagnetic touch electrodes and at least two capacitive touch electrodes. The electromagnetic touch electrodes and the capacitive touch electrodes in the first transparent electrode layer are arranged in parallel and alternately. The electromagnetic touch electrodes and the capacitive touch electrodes in the second transparent electrode layer are arranged in parallel and alternately.

Embodiments of the invention disclose a touch display panel, a method for determining touch position and a display device. The touch display panel includes a TFT array substrate having gate lines and an opposite substrate having a black matrix. At least one of the gate lines is used as a touch scanning line, at least one touch sensing line is provided on the black matrix of the opposite substrate, and a touch capacitor is formed at an intersection between the touch scanning line and the touch sensing line.

Embodiments of the invention disclose a touch display panel, a method for determining touch position and a display device. The touch display panel includes a TFT array substrate having gate lines and an opposite substrate having a black matrix. At least one of the gate lines is used as a touch scanning line, at least one touch sensing line is provided on the black matrix of the opposite substrate, and a touch capacitor is formed at an intersection between the touch scanning line and the touch sensing line.

Methods are disclosed for dynamic assignment of possible channels in a touch sensitive device having rows and columns. In an embodiment, a method determines a first signal space in which to generate signals for use in the touch sensor. Signals are then generated in the first signal space on separate ones of the rows and a column signal is sensed on a column. The first signal space is replaced with a second signal space, and a second plurality of signals is generated for use in the touch sensor in the second frequency space. The second plurality of signals is sensed to identify a touch event in the touch sensitive device.