Patent application number | Description | Published |
20090215345 | PARTICLE-CONTAINING FIBROUS WEB - A porous sheet article comprising a self-supporting nonwoven web of polymeric fibers and at least 80 weight percent sorbent particles enmeshed in the web, the fibers having sufficiently greater elasticity or sufficiently greater crystallization shrinkage than similar caliper polypropylene fibers and the sorbent particles being sufficiently evenly distributed in the web so that the web has an Adsorption Factor A of at least 1.6×10 | 08-27-2009 |
20100189922 | PERMEABLE NANOPARTICLE REFLECTOR - An optically-responsive multilayer reflective article is formed by applying a dilute solution or suspension of metallic nanoparticles to an optically-responsive detection layer. The solution or suspension is allowed to dry to form a semicontinuous liquid- or vapor-permeable light-reflective layer that will permit a liquid or vapor analyte to pass through the light-reflective layer to cause an optically-responsive change in the detection layer in the presence of the analyte. | 07-29-2010 |
20110254568 | ORGANIC CHEMICAL SENSOR WITH MICROPOROUS ORGANISILICATE MATERIAL - Sensing elements for sensing organic chemical analytes are disclosed. The sensing elements include a first electrode and a second electrode, and a substantially microporous, amorphous, hydrophobic, analyte-responsive organosilicate material in proximity to the first and second electrodes. | 10-20-2011 |
20110257038 | ORGANIC CHEMICAL SENSOR WITH MICROPOROUS ORGANOSILICATE MATERIAL - Multi-layered optical sensor films are disclosed. The sensor films include a first reflective layer, a detection layer over the reflective layer, and optionally a second reflective layer over the detection layer. The detection layer contains a hydrophobic, amorphous, substantially microporous, analyte-sensitive organosilicate composition. The analyte-sensitive organosilicate composition provides an optical change in the film upon analyte exposure. | 10-20-2011 |
20110257281 | AMORPHOUS MICROPOROUS ORGANOSILICATE COMPOSITIONS - Organosilicate materials and methods for preparing organosilicate materials, including organosilicate films are provided. The organosilicate materials are hydrophobic, amorphous, and substantially microporous. These materials are prepared from organo-functional hydrolysable silane precursors and are prepared without the use of porogens. These materials are suitable for a wide range of uses, including as detection layers for sensing applications. | 10-20-2011 |
Patent application number | Description | Published |
20110022351 | CAPACITIVE POSITION SENSOR - A sensor for determining a position for an adjacent object in two dimensions is described. The sensor comprises a substrate with a sensitive area defined by a pattern of electrodes, wherein the pattern of electrodes includes a first group of drive elements interconnected to form a plurality of row electrodes extending along a first direction, a second group of drive elements interconnected to form a plurality of column electrodes extending along a second direction, and a group of sense elements interconnected to form a sense electrode extending along both the first and second directions. The sensor further comprises a controller comprising a drive unit for applying drive signals to the row and column electrodes, and a sense unit for measuring sense signals representing a degree of coupling of the drive signals applied to the row and column electrodes to the sense electrode. Thus a 2D position sensor requiring only a single sense channel is provided. | 01-27-2011 |
20110025639 | ELECTRODE LAYOUT FOR TOUCH SCREENS - A device includes a plurality of drive electrodes and a plurality of sense electrodes. The drive electrodes run generally in a first direction and have multiple projections along their length. The sense electrodes run generally in a second direction transverse to the drive electrodes. The sense electrodes have multiple projections interleaved with the multiple projections of the drive electrodes. | 02-03-2011 |
20130100038 | Single-Layer Touch Sensor - In one embodiment, a touch sensor includes multiple first electrode lines along a first direction. Each of the first electrode lines includes multiple first electrodes. The touch sensor also includes multiple second electrode lines along a second direction substantially perpendicular to the first direction. Each of the second electrode lines includes one second electrode. The second electrode of each of the second electrode lines is interdigitated with one of the first electrodes of each of the first electrode lines. The first and second electrodes are disposed on one side of a substrate. | 04-25-2013 |
20130127739 | TOUCH SCREEN WITH ELECTRODES POSITIONED BETWEEN PIXELS - In one embodiment, an apparatus includes a two-dimensional array of pixels configured to produce an image. The apparatus also includes a touch sensor comprising a plurality of electrodes aligned with one or more gaps between one more pixels of the two-dimensional array of pixels. The plurality of electrodes are aligned such that the plurality of electrodes do not cross over at least one pixel of the two-dimensional array of pixels. | 05-23-2013 |
20130127770 | Touch Sensor With Spacers Supporting A Cover Panel - In one embodiment, a touch sensor includes an insulating substrate comprising a first face. The touch sensor further includes a plurality of electrodes comprising one or more conductive materials formed on the insulating substrate. The touch sensor may also include a plurality of spacers extending outwardly from the first face of the first insulating substrate. Each spacer of the plurality of spacers may extend substantially the same distance from the first face of the insulating substrate. The plurality of spacers are operable to maintain a substantially consistent air gap between the plurality of electrodes and a cover panel when the cover panel is attached to the insulating substrate. | 05-23-2013 |
20130154995 | Touch Sensor With Capacitive Nodes Having a Capacitance That is Approximately The Same - According to one embodiment, a touch sensor has a first edge and a second edge approximately perpendicular to the first edge. The touch sensor includes a first plurality of electrodes approximately parallel to the first edge, and a second plurality of electrodes. Each of the second plurality of electrodes has a spine that is approximately parallel to the second edge and a plurality of conductive elements that are approximately parallel to the first edge and in physical contact with the spine. At least one electrode of the second plurality of electrodes is adjacent to the second edge. The touch sensor further includes a plurality of nodes. Each node is formed by a capacitive coupling between an electrode of the first plurality of electrodes and an electrode of the second plurality of electrodes. The capacitance of each node is approximately the same. | 06-20-2013 |
20130154996 | Touch Sensor Including Mutual Capacitance Electrodes and Self-Capacitance Electrodes - According to one embodiment, a touch sensor has a first edge and a second edge approximately perpendicular to the first edge. The touch sensor includes a first plurality of electrodes approximately parallel to the first edge, a second plurality of electrodes approximately parallel to the second edge, and a first plurality of nodes. Each of the first plurality of nodes are formed by a capacitive coupling between an electrode of the first plurality of electrodes and an electrode of the second plurality of electrodes. The touch sensor further includes a third plurality of electrodes and a second node formed by the third plurality of electrodes. Each of the third plurality of electrodes form a portion of the second node by a self-capacitance coupling. At least one of the portions of the second node is positioned in-between at least two of the first plurality of nodes. | 06-20-2013 |
20130155000 | TOUCH SENSOR WITH REDUCED ANTI-TOUCH EFFECTS - In an embodiment, a system comprises a touch sensor. The touch sensor comprises an insulating substrate and a plurality of electrodes disposed on the insulating substrate. The plurality of electrodes comprises a drive line having a plurality of drive electrodes and a sense line having a plurality of sense electrodes. At least one of the electrodes comprises a first conductive material having a hole portion substantially free of the first conductive material. | 06-20-2013 |
20140028569 | Dielectric Layer for Touch Sensor Stack - In one embodiment, a touch sensor includes a substrate comprising a first surface. The touch sensor further includes a plurality of first electrodes comprising one or more conductive materials on the first surface. The touch sensor further includes a dielectric layer formed over the first electrodes and at least a portion of the first surface. The dielectric layer has a dielectric constant less than or equal to approximately 3. | 01-30-2014 |
20140049271 | SELF-SHIELDING CO-PLANAR TOUCH SENSOR - In one embodiment, a touch sensor includes multiple first electrodes on a first surface. The first electrodes include a first shape. The touch sensor includes multiple second electrodes on a second surface. The second electrodes include a second shape. The touch sensor includes multiple third electrodes on the first surface that include a third shape that encompasses the second shape and are positioned on the first surface opposite the second electrodes. The touch sensor includes multiple fourth electrodes on the second surface that include a fourth shape that encompasses the first shape and are positioned on the second surface opposite the first electrodes. | 02-20-2014 |
20140078068 | Pattern of Electrodes for a Touch Sensor - In certain embodiments, a touch sensor comprises a substrate and a plurality of electrodes disposed on the substrate. The plurality of electrodes comprise a drive line having a plurality of drive electrodes and a sense line having a plurality of sense electrodes. At least one of the drive line and sense line has at least three rows of electrodes. | 03-20-2014 |
20140354301 | Edgeless Single-Layer Touch Sensor - A touch sensor includes a substrate and a plurality of columns of electrodes disposed on a first side of the substrate. The substrate includes a first end and a second end opposite the first end. The columns each include a sense electrode and drive electrodes. The columns include a first column adjacent to the first end, a second column adjacent to the second end, and one or more interior columns. The touch sensor also includes a plurality of channels for routing tracks coupled to the drive and sense electrodes. Tracks for the first column are routed in a first channel on a side of the first column opposite from the first end of the substrate. Tracks for the second column are routed in a second channel on a side of the second column opposite from the second end of the substrate. Tracks for the interior columns are dispersed amongst the channels. | 12-04-2014 |
20150022499 | Touch Sensor with Capacitive Nodes Having a Capacitance that is Approximately the Same - According to one embodiment, a touch sensor has a first edge and a second edge approximately perpendicular to the first edge. The touch sensor includes a first plurality of electrodes approximately parallel to the first edge, and a second plurality of electrodes. Each of the second plurality of electrodes has a spine that is approximately parallel to the second edge and a plurality of conductive elements that are approximately parallel to the first edge and in physical contact with the spine. At least one electrode of the second plurality of electrodes is adjacent to the second edge. The touch sensor further includes a plurality of nodes. Each node is formed by a capacitive coupling between an electrode of the first plurality of electrodes and an electrode of the second plurality of electrodes. The capacitance of each node is approximately the same. | 01-22-2015 |
20150029129 | Oncell Single-Layer Touch Sensor - In one embodiment, a touch sensor includes multiple first electrodes along a first direction. Each of the first electrodes includes multiple first conductive regions. The touch sensor also includes multiple second electrodes along a second direction that is substantially perpendicular to the first direction. Each of the second electrodes includes one second conductive region. The one second conductive region of each of the second electrodes are interdigitated with one of the first conductive regions of each of the first electrodes. The first and second conductive regions are disposed on a layer on or within a display stack including one or more layers. | 01-29-2015 |
20150042615 | Capacitive Position Sensor - In one embodiment, a sensor includes a plurality of drive electrodes running generally in a first direction. The sensor also includes a plurality of sense electrodes running generally in a second direction. The sense electrodes have branches running generally in the first direction. End portions of the adjacent branches of adjacent sense electrodes extend beyond one another to define respective coextensive portions of the branches. | 02-12-2015 |
20150097801 | TOUCH-SENSOR ELECTRODE DETAILS - In one embodiment, a touch sensor includes a drive electrode and a sense electrode. The sense electrode is separated from the drive electrode by a gap having a width, and the width of the gap is substantially uniform throughout the entire extent of the gap. | 04-09-2015 |