Patent application number | Description | Published |
20100110038 | MUTUAL CAPACITANCE TOUCH SCREEN AND COMBINED MUTUAL CAPACITANCE TOUCH SCREEN - A mutual capacitance touch screen and a combined mutual capacitance touch screen formed by the combination of mutual capacitance touch screens. A driving layer and a sensor layer are included, wherein the driving layer comprises driving electrodes distributed at intervals in the same plane; the sensor layer comprises sense electrodes distributed at intervals in the same plane; and the places where the sense electrodes are distributed in the sensor layer are just over against the intervals between the driving electrodes in the driving layer so that the driving electrodes and the sense electrodes together fill the touch area of the touch screen. The driving electrodes are not over against the sense electrodes in terms of space positions to increase the proportion of capacitance C | 05-06-2010 |
20110007030 | ULTRATHIN MUTUAL CAPACITANCE TOUCH SCREEN AND COMBINED ULTRATHIN TOUCH SCREEN - Ultrathin mutual capacitance touch screen and combined ultrathin touch screen composed by the said ultrathin mutual capacitance touch screen, the said ultrathin mutual capacitance touch screen comprises driving electrode clusters and sensing electrode clusters, wherein the driving electrode clusters are connected with an excitation signal source arranged outside the touch screen, and the sensing electrode clusters are connected with a sensing control module arranged outside the touch screen. The driving electrode clusters comprise tabulate driving electrodes which are made of transparent conductive materials and connected in series and/or in parallel, and the sensing electrode clusters comprise tabulate sensing electrodes which are made of transparent conductive materials and connected in series and/or in parallel. In particular, in a pair of adjacent driving electrode and sensing electrode of the touch screen, the plate area of at least one electrode producing the eigen mutual electric field is smaller than that of the same electrode producing the variable mutual electric field. The present invention make the thickness of the touch screen become thinner, and ensure a higher effective capacitivity. | 01-13-2011 |
20110216036 | MULTI-TOUCH DETECTING METHOD FOR TOUCH SCREENS - A multi-touch detecting method for touch screens relates to an input device for converting data to be processed so that a computer can process the data, particularly to a digital converter with a characteristic converting mode. The digital converter comprises a touch screen, a capacitance induction circuit, a capacitance data processing module and a system host, wherein the touch screen comprises M*N mutual capacitance arrays formed from M transversal electrodes and N longitudinal electrodes which are orthogonal; the capacitance induction circuit continuously detects all capacitances of the touch screen in real time to obtain one frame of real-time two-dimensional arrays corresponding to the capacitances; the capacitance induction circuit takes the original capacitance of the touch screen without touch as a flat, takes an area touched effectively as a “depression”, judges the “depression”, separates the “depression” into “equivalent depressions” formed by touching one or multiple points effectively and calculates the coordinate of the central position of the “equivalent depressions”. The multi-touch detecting method for touch screens has the advantages of high touch sensing accuracy and accurate touch point calculation and conforms to requirements of multipoint sensing. | 09-08-2011 |
20110221700 | MUTUAL CAPACITANCE TOUCH SCREEN WITH ELECTRODES ARRANGED ON DUAL CONDUCTIVE MATERIAL FILMS - A mutual capacitance touch screen with electrodes arranged on dual conductive material films, which comprises an upper electrode film and a lower electrode film, and the two electrode films respectively comprise an electrode plane made of transparent conductive materials and an insulated plane made of transparent insulating materials. The insulated planes of the two electrode films are fused together. Lower electrode plates are arranged on the electrode plane of the lower electrode film separately, and shielding electrode plates are arranged in the clearance between the lower electrode plates. Therefore, the lower electrode plates and the shielding electrode plates are distributed to the whole electrode plane of the lower electrode film. The touch screen of the present invention can isolate interference from the display screen in the conditions that the thickness is not increased and the shielding electrode film is not required to be arranged individually. Therefore, the manufacturing cost of the touch screen is reduced. | 09-15-2011 |
20120062510 | CAPACITANCE TOUCH SCREEN WITH MESH ELECTRODES - A capacitance touch screen with mesh electrodes includes a first electrode group and a second electrode group made of transparent conductive material. Particularly, at least either the first electrode or the second electrode includes at least two sub-electrode plates, all the sub-electrode plates in the electrodes which are the same are arranged in accordance with a mesh structure. The capacitance distribution of the prior art is changed from concentrated capacitance to decentralized distributed capacitance through the mesh electrodes, to ensure the touch screen to have higher effective capacitivity even in suspended state, the waterproof performance of the touch screen is increased, and the properties including ESD resistance, aging resistance, etc. of the capacitance touch screen are enhanced. | 03-15-2012 |
20130076689 | MUTUAL CAPACITANCE TOUCH SCREEN TO CAUSE DISPERSED COUPLING OF ELECTRODES - A mutual capacitance touch screen to cause dispersed coupling of electrodes includes driving electrode chains, sensing electrode chains and a data processing module. The central line of any driving electrode chain and the central line of any sensing electrode chain are mutually vertical. The driving electrode chains comprise at least two driving electrode plates. Two adjacent driving electrode plates are electrically connected by means of driving electrode connecting strips made of the conductive material. Thus, two clearances are formed between two adjacent driving electrode plates. Bar-shaped concave clearances which are recessed towards the driving electrode plates are also arranged on the driving electrode plates. The sensing electrode chains are arranged to fill the gaps and the concave clearances among the driving electrode chains in the touch screen. In the utility model, the coupling electric field is dispersed. Thus, the long range power lines in the coupling electric field are effectively reduced, the sensitivity of the touch screen in the hanging state is optimized, and the waterproof property and the anti-interference capability of the touch screen are improved. Moreover, the effective capacitivity of the mutual capacitance touch screen is also improved. | 03-28-2013 |
20140098305 | LCD TOUCH SCREEN AND APPLICATIONS INTEGRATING SINGLE LAYER CAPACITIVE SENSOR - It relates to an LCD touch screen and applications integrating single layer capacitive sensor, comprising first underlayer, second underlayer, liquid crystal imaging material and control circuit. It also comprises capacitive touch sensor, which comprises an electrode layer set between the said first underlayer and second underlayer. The said electrode layer comprises electrodes and electrode conductors which are used for electric connection of various electrodes; both of the said electrodes and electrode conductors are set in the same plane. In the invention, the single layer capacitive sensor is set inside of the LCD touch screen, so as to reduce the thickness of the LCD touch screen, conforming to the development tendency of LCD touch screen to thin even ultra-thin ones. In addition, the invention has taken advantage of shielding effect of the black matrix, at the same time of shielding pixel electrode matrix, electrodes and the electrode conductors for the capacitive sensor are also shielded, thus, using effect of the capacitive touch sensor has been enhanced and manufacturing cost is reduced. | 04-10-2014 |
20140176497 | METHOD OF AVOIDING MUTUAL INTERFERENCE OF TOUCH DETECTION WITH LCD SCAN - A method of avoiding the mutual interference of touch detection with LCD scan, based on the LCD touch screen set with capacitive touch sensor. As to the said method, first of all, divide the entire LCD touch screen into at least two regions; then, set the touch detection timing sequence and LCD scan timing sequence for the LCD touch screen, enabling the touch detection process and LCD scan process to meet the condition of only conducting one process of touch detection process and LCD scan process within the same time period and same region, thus, enabling both of the touch detection process and LCD scan process to keep mutual independent running status either in time domain or in spatial domain. The invention has separated the touch detection process and LCD scan process from time domain and spatial domain, avoiding mutual interaction and mutual interference of the two processes. | 06-26-2014 |