Abstract: Instrument control and data acquisition in advanced analytic systems that utilize optical pulses for sample analysis are described. Clocking signals for data acquisition, data processing, communication, and/or other data handling functionalities can be derived from an on-board pulsed optical source, such as a passively mode-locked laser. The derived clocking signals can operate in combination with one or more clocking signals from a stable oscillator, so that instrument operation and data handling can tolerate interruptions in operation of the pulsed optical source.

Abstract: A photovoltaic module generates electrical power when installed on a roof. The module is constructed as a laminated sandwich having a transparent protective upper layer adhered to a photovoltaic layer. The photovoltaic layer is adhered to the top of a rigid layer, preferably formed from a fiber reinforced plastic. A wire support tray assembly is affixed to an edge of the photovoltaic module, the wire support tray assembly includes a base portion and a cover portion. The base portion has at least one base portion flange configured to lock with least one corresponding cover portion flange. The base portion has a longitudinally-extending slot configured to couple with the edge of the photovoltaic module. Preferably the wire tray assembly holds the module wiring and occludes it from view. Preferably, the cover portion is concave to shelter the wiring from inclement weather.

Abstract: A photovoltaic module generates electrical power when installed on a roof. The module is constructed as a laminated sandwich having a transparent protective upper layer adhered to a photovoltaic layer. The photovoltaic layer is adhered to the top of a rigid layer, preferably formed from a fiber reinforced plastic. A tapered edge seal is disposed about the peripheral outer edge of the module, so that water and debris easily run off. Preferably, the tapered edge seal is disposed adjacent the photovoltaic layer, and above the rigid substrate layer. The tapered edge seal is thinner at the outer peripheral portion thereof than at a portion thereof adjacent the photovoltaic layer.

Abstract: A photovoltaic module generates electrical power when installed on a roof. The module is constructed as a laminated sandwich having a transparent protective upper layer adhered to a photovoltaic layer. The photovoltaic layer is adhered to the top of a rigid layer, preferably formed from a fiber reinforced plastic. A tapered edge seal is disposed about the peripheral outer edge of the module, so that water and debris easily run off Preferably, the tapered edge seal is disposed adjacent the photovoltaic layer, and above the rigid substrate layer. The tapered edge seal is thinner at the outer peripheral portion thereof than at a portion thereof adjacent the photovoltaic layer. The laminated module preferably has a layer of double stick tape on the bottom to adhere the module to the surface of a roof.

Abstract: A photovoltaic module generates electrical power when installed on a roof. The module is constructed as a laminated sandwich having a transparent protective upper layer adhered to a photovoltaic layer. The photovoltaic layer is adhered to the top of a rigid layer, preferably formed from a fiber reinforced plastic. A tapered edge seal is disposed about the peripheral outer edge of the module, so that water and debris easily run off. Preferably, the tapered edge seal is disposed adjacent the photovoltaic layer, and above the rigid substrate layer. The tapered edge seal is thinner at the outer peripheral portion thereof than at a portion thereof adjacent the photovoltaic layer. The laminated module preferably has a layer of double sided tape on the bottom to adhere the module to the surface of a roof.

Abstract: A photovoltaic module generates electrical power when installed on a roof. The module is constructed as a laminated sandwich having a transparent protective upper layer adhered to a photovoltaic layer. The photovoltaic layer is adhered to the top of a rigid layer, preferably formed from a fiber reinforced plastic. A tapered edge seal is disposed about the peripheral outer edge of the module, so that water and debris easily run off. Preferably, the tapered edge seal is disposed adjacent the photovoltaic layer, and above the rigid substrate layer. The tapered edge seal is thinner at the outer peripheral portion thereof than at a portion thereof adjacent the photovoltaic layer. The laminated module preferably has a layer of double stick tape on the bottom to adhere the module to the surface of a roof.

Abstract: A photovoltaic module generates electrical power when installed on a roof. The module is constructed as a laminated sandwich having a transparent protective upper layer adhered to a photovoltaic layer. The photovoltaic layer is adhered to the top of a rigid layer, preferably formed from a fiber reinforced plastic. A tapered edge seal is disposed about the peripheral outer edge of the module, so that water and debris easily run off Preferably, the tapered edge seal is disposed adjacent the photovoltaic layer, and above the rigid substrate layer. The tapered edge seal is thinner at the outer peripheral portion thereof than at a portion thereof adjacent the photovoltaic layer. The laminated module preferably has a layer of double stick tape on the bottom to adhere the module to the surface of a roof.

Abstract: A method of inkjet printing includes the steps of: (a) moving a substrate past a printhead; (b) printing a pigment-based ink onto the substrate from a first color channel of the printhead; and (c) overprinting a fixer ink onto the pigment-based ink from a second color channel of the printhead. The fixer ink is overprinted onto the pigment-based ink within a period of less than 5 ms.

Abstract: A method of minimizing kogation of a heater element in a thermal inkjet printhead. The method includes the steps of: (i) supplying an inkjet ink to a nozzle chamber of the printhead; and (ii) repeatedly actuating a heater element in the nozzle chamber so as to heat a portion of the ink to a temperature sufficient to form a bubble therein, thereby causing droplets of ink to be ejected from a nozzle opening associated with the nozzle chamber. The ink includes a styrene-acrylic copolymer having a glass transition temperature (Tg) in the range of 5 to 30° C. and acid value in the range of 100 180 mgKOH/g, said styrene-acrylic copolymer minimizes kogation of the heater element.

Abstract: A system and method for detecting crossover faults in a telecommunications access network having a plurality of access lines. Each access line includes a pair of wires for connection to a user terminal, e.g. a telephone handset. The system includes a monitor for monitoring each of the access lines to detect the presence of an off-hook state; a current sensor for each of the access lines for determining a fault condition on an access line for which an off-hook state has been detected when a imbalance is detected between currents in the wires of the access line; a controller for generating a report of each fault condition determined on an access line, in which each report comprises a time record relating to the time of generation of the report; and a crossover fault detector for recording a possible crossover fault involving two access lines upon the reporting within a set time period of one or more fault condition on each of the two access lines.

Abstract: A method of minimizing kogation of a heater element in a thermal inkjet printhead. The method comprises the steps of: (i) supplying an inkjet ink to a nozzle chamber of the printhead; and (ii) repeatedly actuating a heater element in the nozzle chamber so as to heat a portion of the ink to a temperature sufficient to form a bubble therein, thereby causing droplets of ink to be ejected from a nozzle opening associated with the nozzle chamber. The ink comprises an acrylic polymer having a glass transition temperature (Tg) of less than about 100° C., which minimizes kogation of the heater element.

Abstract: A system and method for detecting crossover faults in a telecommunications access network having a plurality of access lines. Each access line includes a pair of wires for connection to a user terminal, e.g. a telephone handset. The system includes a monitor for monitoring each of the access lines to detect the presence of an off-hook state; a current sensor for each of the access lines for determining a fault condition on an access line for which an off-hook state has been detected when a imbalance is detected between currents in the wires of the access line; a controller for generating a report of each fault condition determined on an access line, in which each report comprises a time record relating to the time of generation of the report; and a crossover fault detector for recording a possible crossover fault involving two access lines upon the reporting within a set time period of one or more fault condition on each of the two access lines.

Abstract: An apparatus and method is disclosed for regulating the cold spot temperature of a light emitting enclosure. A cold spot regulation system defines and controls the temperature of the cold spot. The cold spot regulation system includes an interface housing secured to the light emitting enclosure and two ducts extending from the interface housing. The cold spot regulation system uses a coolant fluid to lower the operating temperature of the light emitting enclosure. The coolant fluid is diverted into one of the ducts. The coolant fluid is passed by the cold spot of the light emitting enclosure and released out the other duct.

Abstract: A light source incorporates light emitting diodes (LEDs). The LEDs may be raised off the floor of the optical cavity to permit light to be emitted from the base of the LED. Additionally, a reflective protrusion may be placed beneath the raised LED to aid in redirecting light forward. The LEDs may be skewed in relation to adjacent LEDs to reduce interference. Non-white LEDs may be incorporated into the light source to permit for selective color tuning. Fluorescent lamps may also be implemented in combination with the LEDs to form a hybrid light source.

Abstract: An apparatus and method is disclosed for regulating the cold spot temperature of a light emitting enclosure. A cold spot regulation system defines and controls the temperature of the cold spot. The cold spot regulation system includes an interface housing secured to the light emitting enclosure and two ducts extending from the interface housing. The cold spot regulation system uses a coolant fluid to lower the operating temperature of the light emitting enclosure. The coolant fluid is diverted into one of the ducts. The coolant fluid is passed by the cold spot of the light emitting enclosure and released out the other duct.

Abstract: An apparatus and method is disclosed for regulating the cold spot temperature of a light emitting enclosure. A cold spot regulation system defines and controls the temperature of the cold spot. The cold spot regulation system includes an interface housing secured to the light emitting enclosure and two ducts extending from the interface housing. The cold spot regulation system uses a coolant fluid to lower the operating temperature of the light emitting enclosure. The coolant fluid is diverted into one of the ducts. The coolant fluid is passed by the cold spot of the light emitting enclosure and released out the other duct.

Abstract: The throwing arm for a clay target launching machine is designed with an adjustable leading edge or target-engaging edge of the throwing arm. This edge is separately, pivotally mounted on a main body member, which in turn is pivoted to launch the targets. By adjusting the angle of the leading edge of the throwing arm, causing it to be offset from a center line through the central pivot of the main body member of the throwing arm, the angle between two simultaneously released targets can be varied from an angle which is less than that of conventional devices to an angle which is greater than that of conventional devices. A further enhancement includes constructing the leading edge of the throwing arm with materials of different coefficients of friction to provide additional variations in the angle at which targets are released by the machine in which the throwing arm is used.

Abstract: A light source incorporates phosphor-based white light emitting diodes (LEDs). The LEDs may be raised off the floor of the optical cavity to permit light to be emitted from the base of the LED. Additionally, a reflective protrusion may be placed beneath the raised LED to aid in redirecting light forward. The LEDs may be skewed in relation to adjacent LEDs to reduce interference. Non-white LEDs may be incorporated into the light source to permit for selective color tuning. Fluorescent lamps may also be implemented in combination with the LEDs to form a hybrid light source. The light source may be used as a backlight for a liquid crystal display assembly.