Patent application number | Description | Published |
20140086759 | Hydraulic Power System for HVAC Compressor - A modular HVAC unit may incorporate a hydraulically powered refrigerant compressor to more efficiently provide air conditioning to an operator cab of a work machine. The refrigerant compressor may be fluidly powered by a hydraulic fluid motor fluidly coupled to and driven by a variable displacement pump. An electronic controller may be configured to vary hydraulic pump flow rates to the motor via use of a proportioning control valve to maintain a desired evaporator performance temperature. The control valve may be configured to stop the HVAC unit whenever a backup system may be used, when a discharge is to be prevented, and/or when operator air-conditioning is not desired. The controller may monitor evaporator performance via a fin temperature sensor, and may send appropriate signals to the control valve for modulating hydraulic flows through the motor. The arrangement may provide a significant increase in the life and performance of the compressor. | 03-27-2014 |
20140360211 | Controlling HVAC Condenser Fans Using Pressure Sensors - A heating, ventilation and air conditioning (HVAC) unit may both save energy and monitor for fault conditions by monitoring an ambient air temperature, compressor discharge pressure, and evaporator suction pressure and using these measurements to identify known conditions. Compressor discharge pressure and ambient temperature may be used as indices to a look up table or map to determine a speed and direction for a condenser fan. In some cases, the look up table may direct the fan to be reversed at full power in an attempt to remove a suspected buildup of dirt or debris at the condenser. Ambient temperature and evaporator suction pressure may be monitored for a combination of conditions that indicate low refrigerant levels, allowing the compressor to be turned off before damage to the compressor is sustained. | 12-11-2014 |
20150052916 | SYSTEM AND METHOD FOR CONTROLLING AIR CONDITIONING SYSTEM - An air conditioning system for an operator cab of machine includes a condenser, an evaporator, a compressor and a controller operable to control an operation of the compressor. The controller maintains a pre-defined compressor run time when the compressor is in an ON state. The controller is configured to determine a temperature of the evaporator and compare it with at least one of a first lower threshold temperature value and a second lower threshold temperature value being less than the first lower threshold temperature value. The controller outputs a compressor control command signal to change the operational state of the compressor to an OFF state when the determined temperature of the evaporator is less than at least one of the first lower threshold temperature value for a first time period, and the second lower threshold temperature value for a second time period being less than the first time period. | 02-26-2015 |
Patent application number | Description | Published |
20100218814 | METHOD OF CONTROLLING THE COMPOSITION OF A PHOTOVOLTAIC THIN FILM - A method of reducing the loss of elements of a photovoltaic thin film structure during an annealing process, includes depositing a thin film on a substrate, wherein the thin film includes a single chemical element or a chemical compound, coating the thin film with a protective layer to form a coated thin film structure, wherein the protective layer prevents part of the single chemical element or part of the chemical compound from escaping during an annealing process, and annealing the coated thin film structure to form a coated photovoltaic thin film structure, wherein the coated photovoltaic thin film retains the part of the single chemical element or the part of the chemical compound that is prevented from escaping during the annealing by the protective layer. | 09-02-2010 |
20100221867 | LOW COST SOI SUBSTRATES FOR MONOLITHIC SOLAR CELLS - A lost cost method for fabricating SOI substrates is provided. The method includes forming a stack of p-type doped amorphous Si-containing layers on a semiconductor region of a substrate by utilizing an evaporation deposition process. A solid phase recrystallization step is then performed to convert the amorphous Si-containing layers within the stack into a stack of p-type doped single crystalline Si-containing layers. After recrystallization, the single crystalline Si-containing layers are subjected to anodization and at least an oxidation step to form an SOI substrate. Solar cells and/or other semiconductor devices can be formed on the upper surface of the inventive SOI substrate. | 09-02-2010 |
20110174369 | Efficiency in Antireflective Coating Layers for Solar Cells - A method for fabricating a cell structure includes doping a substrate to form a N-region and a P-region, disposing a first anti-reflective layer on the substrate, disposing a metallic contact paste on the first anti-reflective layer, drying the metallic contact paste to form contacts, disposing a second anti-reflective layer on the first anti-reflective layer and the metallic contacts, and heating the cell structure, wherein heating the cell structure results in metallic contact material penetrating the first anti-reflective layer and contacting the substrate. | 07-21-2011 |
20120160295 | SOLAR CELL CLASSIFICATION METHOD - A method for characterizing the electronic properties of a solar cell to be used in a photovoltaic module comprises the steps of performing a room temperature IV curve measurement of the solar cell and classifying the solar cell based on this IV curve measurement. In order to take stress-related effects into account, the solar cells are reclassified depending on the result of an additional measurement conducted on the solar cells under stress. This stress-related measurement may be gained from light induced thermography (LIT) yielding information on diode shunt areas within the solar cell. | 06-28-2012 |
Patent application number | Description | Published |
20100035409 | CRYSTALLINE SILICON SUBSTRATES WITH IMPROVED MINORITY CARRIER LIFETIME - A method for improving the minority lifetime of silicon containing wafer having metallic contaminants therein is described incorporating annealing at 1200° C. or greater and providing a gaseous ambient of oxygen, an inert gas and a chlorine containing gas such as HCl. | 02-11-2010 |
20100037933 | SOLAR CELL PANELS AND METHOD OF FABRICATING SAME - A solar cell panel and method of forming a solar cell panel. The method includes a: forming an electrically conductive bus bar on a top surface of a bottom cover plate; forming an electrically conductive contact frame proximate to a bottom surface of a top cover plate, the top cover plate transparent to visible light; and placing an array of rows and columns of solar cell chips between the bottom cover plate and the top cover plate, each solar cell chip of the array of solar cell chips comprising an anode adjacent to a top surface and a cathode adjacent to a bottom surface of the solar cell chip, the bus bar electrically contacting each anode of each solar cell chip of the array of solar cell chips and the contact frame contacting each anode of each solar cell chip of the array of solar cell chips. | 02-18-2010 |
20100297800 | SOLAR CELL PANELS AND METHOD OF FABRICATING SAME - A solar cell panel and method of forming a solar cell panel. The method includes a: forming an electrically conductive bus bar on a top surface of a bottom cover plate; forming an electrically conductive contact frame proximate to a bottom surface of a top cover plate, the top cover plate transparent to visible light; and placing an array of rows and columns of solar cell chips between the bottom cover plate and the top cover plate, each solar cell chip of the array of solar cell chips comprising an anode adjacent to a top surface and a cathode adjacent to a bottom surface of the solar cell chip, the bus bar electrically contacting each anode of each solar cell chip of the array of solar cell chips and the contact frame contacting each anode of each solar cell chip of the array of solar cell chips. | 11-25-2010 |
20120285517 | SCHOTTKY BARRIER SOLAR CELLS WITH HIGH AND LOW WORK FUNCTION METAL CONTACTS - A Schottky Barrier solar cell having at least one of a low work function region and a high work function region provided on the front or back surface of a lightly-doped absorber material, which may be produced in a variety of different geometries. The method of producing the Schottky Barrier solar cells allows for short processing times and the use of low temperatures. | 11-15-2012 |
20120285518 | Solar cell with interdigitated back contacts formed from high and low work-function-tuned silicides of the same metal - A solar cell having n-type and p-type interdigitated back contacts (IBCs), which cover the entire back surface of the absorber layer. The spatial separation of the IBCs is in a direction perpendicular to the back surface, thus providing borderless contacts having a zero-footprint separation. As the contacts are on the back, photons incident on the cell's front surface can be absorbed without any shadowing. | 11-15-2012 |
20130087195 | SILICON SOLAR CELL WITH BACK SURFACE FIELD - A solar cell and method of fabrication are disclosed. In one embodiment of the present invention, the method comprises depositing a first doped amorphous silicon layer on a first surface of a silicon substrate, depositing a second doped amorphous silicon layer on the first surface of the silicon substrate. The second doped amorphous silicon layer is doped oppositely from the first doped amorphous silicon layer. An anneal is performed to transform the first doped amorphous silicon layer and second doped amorphous silicon layer to crystalline silicon layers. | 04-11-2013 |