Patent application number | Description | Published |
20090277695 | Method of Forming Touch Sensing Circuit Pattern - A method of forming a touch sensing circuit pattern includes steps of: forming a first axial conductive line on a transparent substrate; forming an insulation barrier on the first axial conductive line; forming two separated first axial electrodes, two separated second axial electrodees and the second axial conductive line on the transparent substrate. The first axial electrodes are arranged on two sides of the insulation barrier along a first direction. The second axial electrodes are arranged on two opposite sides of the axial conductive line along a second direction. The second axial conductive line is across on the insulation barrier and connects to the second axial electrodes. The method of the invention can simplify the manufacturing process. | 11-12-2009 |
20090283340 | Capacitive touch control device and method thereof - Disclosed are a capacitive touch control device and a method thereof. A top face of a substrate is provided with first and second electrode groups, which each include a plurality of strip-like electrodes spaced from each other by a preset distance. The electrodes of the first and second electrode groups are respectively connected by first and second group scanning lines to a scanning circuit. When the first group scanning lines drive the electrodes of the first electrode group, the second group scanning lines carry out scanning operation on the electrodes of the second electrode group, and when the second group scanning lines drive the electrodes of the second electrode group, the first group scanning lines carry out scanning operation on the electrodes of the first electrode group. And, a touch location can thus be determined by using a microprocessor. | 11-19-2009 |
20090295752 | Touch Screen - A touch screen includes a liquid crystal layer, an upper transparent conductive layer, a lower transparent conductive layer, an upper transparent plate, a lower transparent plate, an upper polarizing plate, a lower polarizing plate and a circuit unit. The upper transparent conductive layer, the upper transparent plate, the circuit unit and the upper polarizing plate are disposed on the liquid crystal layer in the above-mentioned order from one side of the liquid crystal layer. The lower transparent conductive layer, the lower transparent plate and the lower polarizing plate are disposed under the liquid crystal layer in the above-mentioned order from another side of the liquid crystal layer. | 12-03-2009 |
20090303202 | Capacitive Touch Screen - A capacitive touch screen includes a liquid crystal layer, an upper transparent conductive layer, a lower transparent conductive layer, an upper transparent plate, a lower transparent plate, an upper polarizing plate, a lower polarizing plate, a touch control circuit unit and a first dielectric layer. The upper transparent conductive layer, the first dielectric layer, the touch control circuit unit, the upper transparent plate and the upper polarizing plate are disposed on the liquid crystal layer in the above-mentioned order from one side of the liquid crystal layer. The lower transparent conductive layer, the lower transparent plate and the lower polarizing plate are disposed under the liquid crystal layer in the above-mentioned order from another side of the liquid crystal layer. | 12-10-2009 |
Patent application number | Description | Published |
20120013573 | PRESSURE SENSITIVE TOUCH CONTROL DEVICE - A pressure detectable touch device includes a first substrate, a conductive layer formed on the first substrate, a second substrate, a first electrode pattern, a second electrode pattern, and a microprocessor. When a user touches a touch operation surface of the touch device in such an extent that the conductive layer and the first electrode pattern are not put into physical contact with each other, the touch device is set in a capacitive touch position detection mode. When the user forcibly depresses the touch operation surface of the touch device or carries out a hand writing input operation on the touch operation surface of the touch device, the conductive layer is caused to physically engage the first electrode pattern, setting the touch device in a resistive touch position detection mode. | 01-19-2012 |
20120086668 | INTEGRATED TOUCH CONTROL DEVICE - A touch device integrated with capacitive and resistive sensing operation includes a first substrate on which a first electrode pattern is formed and a second substrate on which a second electrode pattern is formed. The first and second electrode patterns are respectively connected to a microprocessor via a first scanning circuit and a second scanning circuit. When a user slightly touches a touch operation surface of the touch device, the touch device is set in a capacitive touch position detection mode. When the user forcibly depresses the touch operation surface of the touch device or carries out a hand writing input operation on the touch operation surface of the touch device, the touch device is set in a resistive touch position detection mode. | 04-12-2012 |
20120127099 | CAPACITIVE TOUCH CIRCUIT PATTERN AND MANUFACTURING METHOD THEREOF - The present disclosure relates to a touch circuit pattern and a manufacturing method thereof. A capacitive touch circuit pattern in the present disclosure comprises a substrate, wherein at least two adjacent transparent first-axis electrode blocks, a transparent first-axis conductive wire, and at least two adjacent transparent second-axis electrode blocks are formed on the substrate. The first-axis conductive wire is formed between the two adjacent first-axis electrode blocks to connect the two adjacent first-axis electrode blocks and the two adjacent second-axis electrode blocks, respectively, at two sides of the first-axis conductive wire. The capacitive touch circuit pattern further comprises of a metal second-axis conductive wire, which stretches across the first-axis conductive wire and connects the two adjacent second-axis electrode blocks. | 05-24-2012 |