Patent application number | Description | Published |
20100279203 | CARBOHYDRATE ANODE FOR FUEL CELL AND BATTERY APPLICATIONS - Abiotic fuel cell and battery designs employing chemical dyes in alkaline solutions are disclosed. The fuel cells and batteries are capable of harnessing electrical power from various carbohydrates, including, but not limited to, glucose; in an anode design that does not require catalysts or membranes to separate half-cell reaction chambers. In certain embodiments, the abiotic fuel cell or battery designs may further employ electrodes, such as high surface area carbon materials and commercial air breathing electrodes, without the use of catalysts for glucose oxidation (i.e., precious metals or biocatalytic species). In further embodiments, organic dyes, including but not limited to, methyl viologen (MV), methylene blue, methylene green, Meldola's blue, indigo carmine, safranin O, and the like, may serve as the electron mediators. In some embodiments, the fuel cells or batteries are capable of generating power on the order of about tens of mW/cm | 11-04-2010 |
Patent application number | Description | Published |
20110127172 | SYSTEMS AND METHODS FOR CARBOHYDRATE DETECTION - Carbohydrate detectors employing abiotic fuel cell designs are disclosed. The detectors produce current output using reactions between chemical dyes in alkaline solutions and carbohydrates, such as glucose. A linear relationship between current output of the detector and glucose concentration has been observed. This relationship may be used with measurements of current output when the glucose concentration is unknown to determine the unknown glucose concentration. In certain embodiments, the abiotic detectors may further employ electrodes, such as high surface area carbon materials and commercial air breathing electrodes, without the use of catalysts (i.e., precious metals or biocatalytic species) for glucose detection Organic dyes, such as methyl viologen (MV), methylene blue, methylene green, Meldola's blue, indigo carmine, safranin O, and the like, may serve as the electron mediators. | 06-02-2011 |
20130220837 | SYSTEMS AND METHODS FOR CARBOHYDRATE DETECTION - Carbohydrate detectors employing abiotic fuel cell designs are disclosed. The detectors produce current output using reactions between chemical dyes in alkaline solutions and carbohydrates, such as glucose. A linear relationship between current output of the detector and glucose concentration has been observed. This relationship may be used with measurements of current output when the glucose concentration is unknown to determine the unknown glucose concentration. In certain embodiments, the abiotic detectors may further employ electrodes, such as high surface area carbon materials and commercial air breathing electrodes, without the use of catalysts (i.e., precious metals or biocatalytic species) for glucose detection Organic dyes, such as methyl viologen (MV), methylene blue, methylene green, Meldola's blue, indigo carmine, safranin O, and the like, may serve as the electron mediators. | 08-29-2013 |
Patent application number | Description | Published |
20090265035 | Robotic Device Tester - A system, method, and device may include software and hardware which simplify and quicken configuration of the system for testing a device, enhance testing procedures which may be performed, and provide data via which to easily discern a cause and nature of an error which may result during testing. A camera may capture still images of a display screen of a tested device and another camera may capture video images of the tested device and a partner device. A wizard may be used to generate a configuration file based on one previously generated for a similar device. A mount for a tested device may be structured so that: it is suitable for mounting thereon a plurality of differently structured devices; and adjustments in a vertical direction and a horizontal direction in a plane and adjustments of an angle of the device relative to the plane may be easily made. | 10-22-2009 |
20130317650 | ROBOTIC DEVICE TESTER - A system, method, and device may include software and hardware which simplify and quicken configuration of the system for testing a device, enhance testing procedures which may be performed, and provide data via which to easily discern a cause and nature of an error which may result during testing. A camera may capture still images of a display screen of a tested device and another camera may capture video images of the tested device and a partner device. A wizard may be used to generate a configuration file based on one previously generated for a similar device. A mount for a tested device may be structured so that: it is suitable for mounting thereon a plurality of differently structured devices; and adjustments in a vertical direction and a horizontal direction in a plane and adjustments of an angle of the device relative to the plane may be easily made. | 11-28-2013 |
20140336819 | ROBOTIC DEVICE TESTER - A system, method, and device may include software and hardware which simplify and quicken configuration of the system for testing a device, enhance testing procedures which may be performed, and provide data via which to easily discern a cause and nature of an error which may result during testing. A camera may capture still images of a display screen of a tested device and another camera may capture video images of the tested device and a partner device. A wizard may be used to generate a configuration file based on one previously generated for a similar device. A mount for a tested device may be structured so that: it is suitable for mounting thereon a plurality of differently structured devices; and adjustments in a vertical direction and a horizontal direction in a plane and adjustments of an angle of the device relative to the plane may be easily made. | 11-13-2014 |
20150371099 | ROBOTIC DEVICE TESTER - A system, method, and device may include software and hardware which simplify and quicken configuration of the system for testing a device, enhance testing procedures which may be performed, and provide data via which to easily discern a cause and nature of an error which may result during testing. A camera may capture still images of a display screen of a tested device and another camera may capture video images of the tested device and a partner device. A wizard may be used to generate a configuration file based on one previously generated for a similar device. A mount for a tested device may be structured so that: it is suitable for mounting thereon a plurality of differently structured devices; and adjustments in a vertical direction and a horizontal direction in a plane and adjustments of an angle of the device relative to the plane may be easily made. | 12-24-2015 |
Patent application number | Description | Published |
20090210604 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at Synchronous Memory Devices - A memory module includes a first signal line to carry a first signal. The first signal line has (i) a first line segment disposed along a length of the memory module and coupled to a termination, and (ii) a second line segment disposed along a width of the memory module and coupled to an edge finger. The first line segment and the second line segment are coupled together at a turn. A first synchronous memory device and a second synchronous memory device are coupled to the first line segment. The first signal arrives at the first synchronous memory device and the second synchronous memory device in a sequential manner. The memory module includes a clock line routed alongside the first signal line. A clock signal arrives at the first synchronous memory device and the second synchronous memory device in sequence alongside the first signal traversing along the first signal line. | 08-20-2009 |
20090240448 | TECHNIQUE FOR DETERMINING PERFORMANCE CHARACTERISTICS OF ELECTRONIC DEVICES AND SYSTEMS - A technique for determining performance characteristics of electronic devices and systems is disclosed. In one embodiment, the technique is realized by measuring a first response on a first transmission line from a single pulse transmitted on the first transmission line, and then measuring a second response on the first transmission line from a single pulse transmitted on at least one second transmission line, wherein the at least one second transmission line is substantially adjacent to the first transmission line. The worst case bit sequences for transmission on the first transmission line and the at least one second transmission line are then determined based upon the first response and the second response for determining performance characteristics associated with the first transmission line. | 09-24-2009 |
20100188128 | Method and Apparatus for Shaping Electronic Pulses - An initial pulse signal is split into a first pulse signal and a second pulse signal. The first pulse signal is delayed through a first impedance to generate a first delayed pulse signal. The first impedance attenuates the first delayed pulse signal to generate an attenuated pulse signal. The second pulse signal is delayed through a second impedance to generate a second delayed pulse signal. The first delayed pulse signal and the attenuated pulse signal are combined to generate the two-pulse response signal. | 07-29-2010 |
20110090727 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at Synchronous Memory Devices - A memory module includes a first signal line to carry a first signal. The first signal line has (i) a first line segment disposed along a length of the memory module and coupled to a termination, and (ii) a second line segment disposed along a width of the memory module and coupled to an edge finger. The first line segment and the second line segment are coupled together at a turn. A first synchronous memory device and a second synchronous memory device are coupled to the first line segment. The first signal arrives at the first synchronous memory device and the second synchronous memory device in a sequential manner. The memory module includes a clock line routed alongside the first signal line. A clock signal arrives at the first synchronous memory device and the second synchronous memory device in sequence alongside the first signal traversing along the first signal line. | 04-21-2011 |
20120072153 | TECHNIQUE FOR DETERMINING PERFORMANCE CHARACTERISTICS OF ELECTRONIC DEVICES AND SYSTEMS - A technique for determining performance characteristics of electronic devices and systems is disclosed. In one embodiment, the technique is realized by measuring a first response on a first transmission line from a single pulse transmitted on the first transmission line, and then measuring a second response on the first transmission line from a single pulse transmitted on at least one second transmission line, wherein the at least one second transmission line is substantially adjacent to the first transmission line. The worst case bit sequences for transmission on the first transmission line and the at least one second transmission line are then determined based upon the first response and the second response for determining performance characteristics associated with the first transmission line. | 03-22-2012 |
20120144085 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at a Plurality of Memory Devices - A memory module includes a substrate, a plurality of signal lines, a clock line and a plurality of memory devices. The plurality of signal lines including first and second signal lines routed alongside one another where, for each of the first and second signal lines, a respective signal, starting at a corresponding first edge finger, traverses in sequence, a respective first segment of a respective signal line, a respective turn portion of the respective signal line, and a respective second segment of the respective signal line. The clock line is to provide a clock signal that traverses in sequence, a second edge finger, the first segment of the clock line, the turn portion of the clock line, and the second segment of the clock line. The respective signals traverse and the clock signal line arrive at the plurality of memory devices in sequence. | 06-07-2012 |
20120230450 | METHODS AND APPARATUS FOR CLOCK AND DATA RECOVERY USING TRANSMISSION LINES - A clock and data recovery circuit may comprise a first transmission line comprising a plurality of segments of a first predetermined length. The first transmission line receives and propagates a clock signal through the segments of the first predetermined length. The clock and data recovery circuit may further comprise a second transmission line comprising a plurality of segments of a second predetermined length. The second transmission line receives data from a serial bit stream and propagates the data through the segments of the second predetermined length. In some embodiments, the first or second transmission line further comprise taps to extract, from the segments of the second predetermined length, a plurality of delayed data signals. The clock and data recovery circuit may further comprise a plurality of sampling circuits, coupled to the first and second transmission lines, to generate samples from the delayed data signals and the delayed clock signals. | 09-13-2012 |
20140070819 | Technique for Determining Performance Characteristics Of Electronic Devices And Systems - A technique for determining performance characteristics of electronic devices and systems is disclosed. In one embodiment, the technique is realized by measuring a first response on a first transmission line from a single pulse transmitted on the first transmission line, and then measuring a second response on the first transmission line from a single pulse transmitted on at least one second transmission line, wherein the at least one second transmission line is substantially adjacent to the first transmission line. The worst case bit sequences for transmission on the first transmission line and the at least one second transmission line are then determined based upon the first response and the second response for determining performance characteristics associated with the first transmission line. | 03-13-2014 |
Patent application number | Description | Published |
20080238870 | OPTION MENU FOR USE WITH A COMPUTER MANAGEMENT SYSTEM - A method for improving video quality of a video stream. The method decodes the video stream and generates subblocks of video data from the video stream. The method then removes effects of subblock boundaries from previous deblocking. Each subblock is then smoothed to create pixel values and optionally, subblocks are merged if a predetermined quality is not achieved from the smoothing analysis. The pixels values are filled into each pixel position in the subblock. The subblocks are deblocked and then at least one subblock is outputted to a rendering device. | 10-02-2008 |
20080244662 | Option Menu for Use with a Computer Management System - A method for improving video quality of a video stream. The method decodes the video stream and generates subblocks of video data from the video stream. The method then removes effects of subblock boundaries from previous deblocking. Each subblock is then smoothed to create pixel values and optionally, subblocks are merged if a predetermined quality is not achieved from the smoothing analysis. The pixels values are filled into each pixel position in the subblock. The subblocks are deblocked and then at least one subblock is outputted to a rendering device. | 10-02-2008 |
20110072175 | Multimedia-capable computer management system for selectively operating a plurality of computers - The present invention provides an intelligent, modular multimedia computer management system for coupling a series of remote computers to one or more user workstations to allow each user workstation to selectively access and control one or more remote computers. The computer management system incorporates a centralized switching system that receives keyboard, cursor control device, audio, and auxiliary peripheral device signals from the user workstation and transmits and applies the signals to the remote computer in the same manner as if the keyboard, cursor control device, audio input source, or auxiliary peripheral device of the user workstation were directly coupled to the remote computer. Also, the user workstation receives audio signals and auxiliary peripheral device signals from the remote computer. In addition, the multimedia computer management system transmits video signals from the remote computer over an extended range for display on the video monitor of the user workstation. | 03-24-2011 |
20120079522 | Method And Apparatus For Transmitting Video Signals - Disclosed is a method and apparatus for transmitting, multicasting, or broadcasting video signals from a video source to one or more remotely located computers and/or video clients. Specifically, the disclosed method and apparatus effectively digitizes and compresses received video signals such that they may be transmitted with other digitized signals directly or via a network, such as the Internet, to a multitude of computers and/or independent video display devices. The video transmission system is also capable of receiving video signals from a non-networked computer that does not require any hardware or software modifications to be compatible with the video transmission system. The disclosed video transmission system operates independently (i.e., does not require a service provider) and is capable of recording video transmissions. | 03-29-2012 |