Wenz
Fred J. Wenz, Ft. Thomas, KY US
Patent application number | Description | Published |
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20100087137 | Vehicle safety system - The vehicle safety system selectively deactivates a driver's cellular telephone when the driver is ready to drive his or her vehicle. The vehicle safety system first determines the proximity between the cellular telephone and the driver's seat of the vehicle. An identification tag is mounted on or in the vicinity of the driver's seat. The identification tag is sensed by a sensor to determine proximity. A gear state of the vehicle is then determined and transmitted to a call authorization module associated with the cellular telephone. The sensor for sensing the identification tag is also associated with the call authorization module. The call authorization module selectively deactivates the cellular telephone when the cellular telephone is located within a pre-set range from the driver's seat of the vehicle and the gear state of the vehicle is such that the vehicle may be driven under power. | 04-08-2010 |
20120220213 | VEHICLE SAFETY SYSTEM - The vehicle safety system selectively deactivates a driver's cellular telephone when the driver is ready to drive his or her vehicle. The vehicle safety system first determines the proximity between the cellular telephone and the driver's seat of the vehicle. An identification tag is mounted on or in the vicinity of the driver's seat. The identification tag is sensed by a sensor to determine proximity. A gear state of the vehicle is then determined and transmitted to a call authorization module associated with the cellular telephone. The sensor for sensing the identification tag is also associated with the call authorization module. The call authorization module selectively deactivates the cellular telephone when the cellular telephone is located within a pre-set range from the driver's seat of the vehicle and the gear state of the vehicle is such that the vehicle may be driven under power. | 08-30-2012 |
Robert Wenz, Austin, TX US
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20080297878 | Compositions, methods and systems for making and using electronic paper - The present invention is a device, method and system for making a display and displaying information that includes a fibrous organic substrate, e.g., multiribbon cellulose or cellulose substrate, and a variable reflectivity dye disposed in the fibrous substrate, wherein the reflectivity of the dye is modulated in situ. The display device may use a dye selected from an electrochromic, a thermochromic, a magnetochromic, an ionochromic, a light sensitive, a fluorescent, a fluorescent effect energy transfer dye or combinations thereof and may be used as high storage, high contrast and/or high definition paper. | 12-04-2008 |
Robert P. Wenz, Austin, TX US
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20090239333 | Organic semiconductor device and method of manufacturing the same - A low-cost and efficient process producing improved organic electronic devices such as transistors that may be used in a variety of applications is described. The applications may include radio frequency identification (RFID) devices, displays and the like. In one embodiment, the improved process is implemented by flash annealing a substrate with an energy having wavelengths ranging from about 250 nm to about 1100 nm or higher. In this flash annealing process energy having wavelengths from about 250 nm to about 350 nm or higher is substantially prevented from irradiating the substrate. | 09-24-2009 |
20110300676 | Method for Providing Lateral Thermal Processing of Thin Films on Low-Temperature Substrates - A method for thermally processing a minimally absorbing thin film in a selective manner is disclosed. Two closely spaced absorbing traces are patterned in thermal contact with the thin film. A pulsed radiant source is used to heat the two absorbing traces, and the thin film is thermally processed via conduction between the two absorbing traces. This method can be utilized to fabricate a thin film transistor (TFT) in which the thin film is a semiconductor and the absorbers are the source and the drain of the TFT. | 12-08-2011 |
20140017857 | METHOD FOR PROVIDING LATERAL THERMAL PROCESSING OF THIN FILMS ON LOW-TEMPERATURE SUBSTRATES - A method for thermally processing a minimally absorbing thin film in a selective manner is disclosed. Two closely spaced absorbing traces are patterned in thermal contact with the thin film. A pulsed radiant source is used to heat the two absorbing traces, and the thin film is thermally processed via conduction between the two absorbing traces. This method can be utilized to fabricate a thin film transistor (TFT) in which the thin film is a semiconductor and the absorbers are the source and the drain of the TFT. | 01-16-2014 |
20150311092 | METHOD FOR PROVIDING LATERAL THERMAL PROCESSING OF THIN FILMS ON LOW-TEMPERATURE SUBSTRATES - A method for thermally processing a minimally absorbing thin film in a selective manner is disclosed. Two closely spaced absorbing traces are patterned in thermal contact with the thin film. A pulsed radiant source is used to heat the two absorbing traces, and the thin film is thermally processed via conduction between the two absorbing traces. This method can be utilized to fabricate a thin film transistor (TFT) in which the thin film is a semiconductor and the absorbers are the source and the drain of the TFT. | 10-29-2015 |
Robert Paul Wenz, Austin, TX US
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20150331294 | VOLTAGE-SWITCHABLE NANOPARTICLE-DYE COMPLEX - The invention provides a voltage switchable nanoparticle-dye complex, obtainable by reacting at least ZnO nanoparticles, TiO | 11-19-2015 |
Steven Wenz, Tallman, NY US
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20080282648 | SHIPPING CONTAINER PACKING METHOD USING SHRINK WRAP - The packaging method glues or otherwise secures a sheet of shrink wrap film to the bottom of a shipping package or carton. The sheet extends upward on both sides so as to be temporarily attached to the flaps of the shipping carton, typically by dots of glue. After the contents are placed in the shipping carton, the film is folded over the contents. Then a label, typically with a bar code, holds the film in place. The package is scanned to assure that the label is in place, and the package is exposed to a heat tunnel to shrink the shrink wrap film. The flaps of the carton are then sealed in a conventional way. | 11-20-2008 |