Patent application number | Description | Published |
20090107739 | Air Conditioning for Belt-Alternator-Starter Hybrid Electric Vehicle - A hybrid electric vehicle having an air conditioning system, an engine and a belt-alternator-starter motor-generator, and a method of operation, is disclosed. A torque transfer assembly, such as a pulley and belt assembly, engages the engine and motor-generator, and includes a clutched member for selectively disconnecting the torque transfer between the engine and motor-generator. A refrigerant compressor includes a compressor shaft rotationally coupled to and driven by the motor-generator shaft. The compressor may be driven by the motor-generator when the engine is not operating. | 04-30-2009 |
20090236089 | Controlling Temperature of Vehicle Devices Using a Variable Speed Fan - A method for controlling a fan in a vehicle includes comparing the current temperature of at least a first device and a second device to multiple temperature ranges for each of said devices and determining on the basis of said comparisons whether fan speed should be changed, increasing fan speed to a maximum fan speed if at least one of the comparisons indicates that the maximum fan speed is desired, increasing fan speed to a reference fan speed if at least one of the comparisons indicates that an increase in fan speed less than the maximum fan speed is desired, and decreasing fan speed to a reference fan speed if the comparisons indicate that a decrease in fan speed is desired. | 09-24-2009 |
20100011789 | VEHICLE HVAC CONTROL - A method of controlling a HVAC system for a hybrid vehicle having a refrigerant compressor driven by an engine is disclosed. The method may comprise: determining a requested air conditioning operating point for a passenger compartment; estimating a time to reach the requested operating point; based on the previous steps, estimating a maximum allowed compressor off time; determining if the allowed compressor off time is greater than a minimum engine off time; if the allowed compressor off time is greater than the engine off time, determining if the vehicle is entering an allowable engine off mode; if so, commencing engine shut-off mode; if engine shut-off is anticipated, prior to commencing the shut-off mode, adjusting the HVAC system to maximize cooling of the passenger compartment with minimum energy usage; and if the engine shut-off is commenced, monitoring the HVAC system to determine when engine restart is needed to maintain comfort. | 01-21-2010 |
20110251756 | Accessory load control systems and methods - An accessory load control system for a vehicle, includes an actuator control module, a period estimation module, and a load control module. The actuator control module operates an internal combustion engine of the vehicle in a high-efficiency (HE) mode. The period estimation module estimates a period between a current time and a future time when an actual load on a crankshaft of the engine will reach a maximum engine load associated with the HE mode. The load control module selectively decreases engine loads applied by vehicle accessories, respectively, based on the period. | 10-13-2011 |
20130297146 | DETERMINATION OF SUN RAYS INSIDE A VEHICLE - Methods, systems, and vehicles are provided for determining the sun's rays inside a vehicle. A communication device is configured to obtain information as to a current angle of the sun. A process is coupled to the communications device. The processor is configured to define a ray from a point of interest inside the vehicle toward the sun using the information and determine whether the ray intersects a transparent surface of the vehicle, for use in determining whether the point of interest is irradiated by rays of the sun if the ray intersects the transparent surface. | 11-07-2013 |
20130306297 | ADAPTIVE AUTOMATIC CLIMATE CONTROL FOR VEHICLES - Methods, systems, and vehicles are provided for providing adaptive automatic climate control functionality for a vehicle. A sensor is configured to detect when a manual override of an automatic climate control feature of a vehicle has occurred. A processor is coupled to the sensor, and is configured to initiate the automatic climate control feature for the vehicle and adjust a calibration of the automatic climate control feature when the manual override has been detected. | 11-21-2013 |
20150025738 | METHODS AND APPARATUS FOR AUTOMATIC CLIMATE CONTROL IN A VEHICLE BASED ON CLOTHING INSULATIVE FACTOR - An automatic climate control system of a motor vehicle, and related operating methods, are provided. The automatic climate control system determines a clothing insulative factor for an occupant of the motor vehicle; calculates a model temperature condition based on a temperature set-point and the clothing insulative factor; obtains a current existing temperature condition; calculates a difference between the model temperature condition and the current existing temperature condition; and changes at least one of a plurality of parameters to adjust the current existing temperature condition based on the difference. | 01-22-2015 |
Patent application number | Description | Published |
20080311017 | Metal aminoboranes - Metal aminoboranes of the formula M(NH | 12-18-2008 |
20090297423 | ENERGY EFFICIENT SYNTHESIS OF BORANES - The reaction of halo-boron compounds (B—X compounds, compounds having one or more boron-halogen bonds) with silanes provides boranes (B—H compounds, compounds having one or more B—H bonds) and halosilanes. Inorganic hydrides, such as surface-bound silane hydrides (Si—H) react with B—X compounds to form B—H compounds and surface-bound halosilanes. The surface bound halosilanes are converted back to surface-bound silanes electrochemically. Halo-boron compounds react with stannanes (tin compounds having a Sn—H bond) to form boranes and halostannanes (tin compounds having a Sn—X bond). The halostannanes are converted back to stannanes electrochemically or by the thermolysis of Sn-formate compounds. When the halo-boron compound is BCl | 12-03-2009 |
20110105706 | ENERGY EFFICIENT SYNTHESIS OF BORANES - The reaction of halo-boron compounds (B—X compounds, compounds having one or more boron-halogen bonds) with silanes provides boranes (B—H compounds, compounds having one or more B—H bonds) and halosilanes. Inorganic hydrides, such as surface-bound silane hydrides (Si—H) react with B—X compounds to form B—H compounds and surface-bound halosilanes. The surface bound halosilanes are converted back to surface-bound silanes electrochemically. Halo-boron compounds react with stannanes (tin compounds having a Sn—H bond) to form boranes and halostannanes (tin compounds having a Sn—X bond). The halostannanes are converted back to stannanes electrochemically or by the thermolysis of Sn-formate compounds. When the halo-boron compound is BCl | 05-05-2011 |
20110129411 | Method and system for hydrogen evolution and storage - A method and system for storing and evolving hydrogen (H | 06-02-2011 |