Patent application number | Description | Published |
20100018053 | CO-EXTRUSION METHOD OF FABRICATING ELECTRODE STRUCTURES IN HONEYCOMB SUBSTRATES AND ULTRACAPACITOR FORMED THEREBY - A method for fabricating electrode structures within a honeycomb substrate having a plurality of elongated channels is provided that is particularly adaptable for producing an ultracapacitor. In this method, the nozzle of a co-extrusion device simultaneously feeds a current collector along a central axis of one of the channels while simultaneously injecting a paste containing an electrode material so that the interior of the channel becomes completely filled with electrode paste at the same rate that the current collector is fed. Such co-extrusion as performed simultaneously at both sides of the ceramic substrate to rapidly form electrode structures within substantially all the channels of the substrate. The resulting ultracapacitor is capable of storing large amounts of electrical energy per unit volume in a structure which is relatively quick and easy to manufacture. | 01-28-2010 |
20110116095 | Non-Spectroscopic Label-Independent Optical Reader System and Methods - A non-spectroscopic, label-independent optical reader system is disclosed, where an exemplary system includes a broadband light source that generates broadband light made incident upon the resonant waveguide grating (RWG) biosensor. The light reflects from the RWG biosensor to form biosensor-reflected light. A photodetector receives the reflected light and generates a first detector signal representative of the reflected light intensity. An optical-edge filter can filter the broadband light, the reflected light, or both. A processor calculates a resonant wavelength for the RWG biosensor based on the detector signal. | 05-19-2011 |
20130071935 | Dual Inlet Microchannel Device And Method For Using Same - A dual inlet microchannel device and a method for using the device to perform a flow-through kinetic assay are described. A microplate having an array of the dual inlet microchannel devices and in particular their specially configured flow chambers is also described. Several embodiments of the dual inlet microchannel devices and specially configured flow chambers are also described. | 03-21-2013 |
20130133744 | Optical Trapping For Fiber Illumination - A light collection and light guidance system including:
| 05-30-2013 |
20140098065 | TOUCH SCREEN SYSTEMS AND METHODS FOR SENSING TOUCH SCREEN DISPLACEMENT - A touch screen system configured to detect a displacement of a cover sheet when pressure or force is applied to the cover sheet upper surface. A light source and photodetector are configured to be in optical communication by reflection of light from the light source from the lower surface of the cover sheet. A displacement of the coversheet changes the amount of reflected light that falls upon the detector. The detector signal can be used to measure the amount of displacement, as well as the time-evolution of the displacement. The touch-screen system can be interfaced with a touch-sensitive display unit to form a display system having both pressure-sensing capability and touch-sensing capability. | 04-10-2014 |
20140168153 | TOUCH SCREEN SYSTEMS AND METHODS BASED ON TOUCH LOCATION AND TOUCH FORCE - Touch screen systems and methods based on touch location and touching force are disclosed. The touch screen system includes an optical force-sensing system interfaced with a capacitive touch sensing system so that both touch location and touch force information can be obtained. A display that utilizes the touch screen system is also disclosed. | 06-19-2014 |
20140210770 | PRESSURE SENSING TOUCH SYSTEMS AND METHODS - Pressure-sensing touch systems and methods are disclosed for sensing the occurrence of a touch event based on pressure applied at a touch location. The touch system includes a light-source system and a detector system operably adjacent respective input and output edges of a waveguide. Pressure at a touch location on the waveguide gives rise to a touch event causes the waveguide to bend or flex. The waveguide bending causes a change in the optical paths of light traveling by FTIR, causing the light distribution in the output light to change. The changes are detected and are used to determine whether a touch event occurred, as well as the time-evolution of the touch event. The changes in the output light can include polarization changes caused by birefringence induced in the waveguide by the applied pressure applied. Various detector configurations are disclosed for sensing the location and pressure of a touch event. | 07-31-2014 |
20150086168 | BINDER FILM FOR A FIBER OPTIC CABLE - A fiber optic cable includes a core and a binder film surrounding the core. The core includes a central strength member and core elements, such as buffer tubes containing optical fibers, where the core elements are stranded around the central strength member in a pattern of stranding including reversals in lay direction of the core elements. The binder film is in radial tension around the core such that the binder film opposes outwardly transverse deflection of the core elements. | 03-26-2015 |