Abstract: A system (10) and method for monitoring the operational life and/or performance of one or more light-emitting diodes (LEDs) (20) based on sensed parameters are disclosed. The remaining life of each LED may be predicted by counting the clock cycles during which the LED-based light is activated. LED current and/or temperature measurements may be used to control the clock signal and, thus, to compensate the predicted life value. Furthermore, operational characteristics of the LED-based light may be monitored based on LED current and/or voltage measurements. Such characteristics may include performance (e.g., intensity) and failure conditions (e.g., open or short circuits).

Abstract: An assembly of portable platforms is mounted and connected together on a ladder to provide a working platform.

Abstract: A liquid crystal display system having a plurality of liquid crystal display (LCD) units arranged in a tile configuration. The units simultaneously display different data as determined by the channelization. Each channel controls the operation of one or more units and provides redundant data to be displayed if needed.

Abstract: Fruit items are positioned between vertical pins located in the calyx and stem hole of said fruit item, thereby securing the fruit item by a compressive force through its core. A core tube surrounding the upper pin descends to meet the lower pin, thereby completely piercing the fruit item and isolating its core inside the tube. A cushioned ram pushes the edible portion of the fruit item down over the core tube, through a cassette of radial knives, creating a plurality of wedges that fall immediately into an enzyme bath. The bath seals freshness into the fruit item's cell structure by preventing contact with oxygen. The solid core is ejected and the edible outside portion of the fruit item is not touched or bruised by mechanical handling.

Abstract: A remote control for learning a macro routine of optical signals is provided. An optical receiver is arranged to receive optical signals from one or more original equipment remote controls. The optical receiver outputs electrical signals. A microprocessor receives the electrical signals from the optical receiver. A memory device stores the electrical signals from the optical receiver. An operator interface is electrically coupled to the microprocessor. The operator interface receives operator input to designate a macro routine of operator-selectable optical signals from the original equipment remote control. The microprocessor causes the electrical signals from the optical receiver that correspond to the operator-selectable optical signals from the original equipment remote control to be associated with the designated macro routine and stored in the memory device. Electrical signals associated with a macro designation are retrieved from the memory device and electrically coupled to an optical transmitter.

Abstract: A rotary machine having a housing with rotary components disclosed within. The rotary machine is configurable as an internal combustion rotary engine, an external combustion rotary engine, a gas compressor, a vacuum pump, a liquid pump, a drive turbine, or a drive turbine for expandable gases or pressurized liquids. The combustion engine employs a new thermal cycle—eliminating the Otto cycle's internal compression of the combustion products as part of the cycle. The new combustion thermal cycle is intake, expansion and exhaust.

Abstract: A vehicle device system that combines the functionalities of integrating vehicle controls, monitoring systems, location tracking and wireless communications into a device with module receptacles to receive insertable modules that are replaceable, transferable, and upgradeable for performing one of a plurality of telematic functions.