Patent application number | Description | Published |
20120235624 | SYSTEMS AND METHODS FOR CONTROLLING MULTIPLE STORAGE DEVICES - Systems and methods for controlling multiple storage devices are provided. A system may include a first storage device and a second storage device, each adapted to store and release electrical energy. The system may also include a controller coupled to the first storage device, the second storage device, and a load. The controller is adapted to optimize operation of the system relative to a first system parameter by controlling the channeling of electric charge in a variable manner between the first storage device, the second storage device, and the load. | 09-20-2012 |
20130157093 | UNITARY ENERGY STORAGE AND SENSING BATTERIES - A battery apparatus having an electrochemical cell that includes an electrically insulating hollow mandrel, a pair of active materials wound on the mandrel, and a sensing unit located within the mandrel and coupled to the pair of active materials through a pair of contacts. The active materials are connected and separated by an electrolyte. The sensing unit is configured to monitor conditions of the cell and to generate a signal indicative of a sensed condition for communication to a battery management unit. | 06-20-2013 |
20140067183 | Optimized Fuzzy Logic Controller For Energy Management In Micro and Mild Hybrid Electric Vehicles - An energy storage system of a vehicle includes an energy storage device, a regulation device coupled to the energy storage device, one or more sensing devices for sensing current levels, voltage levels, temperature levels, and/or pressure levels of the energy storage device and/or on components thereof, and a control unit configured to determine dynamically a power flow in/out of the energy storage device using a fuzzy logic approach. The regulation device is configured to regulate at least one of a voltage level, a current level, and any additional state parameter of the energy storage device. | 03-06-2014 |
20140199569 | Predicted Sensor Information For A Battery - A computer-implemented method for predicting a value of a cell parameter is provided, wherein the cell is one of a plurality of cells of a battery pack. The method includes determining which other different conditions of the cell and which similar and/or different conditions of any other cell of the plurality of cells correlate with the cell condition, determining values of one or more parameters from the same cell or any other cell of the plurality of cells that correspond to the determined conditions that correlate with the cell condition, and predicting the value of the cell parameter based on the determined values. | 07-17-2014 |
20140200755 | System and Method For Controlling Voltage On A Power Network - A power control system for controlling a power network of a hybrid electrical vehicle, is provided. The power control system includes a power generating unit, one or more energy storage units coupled to a power converting unit, an electrical load. The power control system further includes a control logic module for controlling the power generating unit and the power converting unit. The control logic module is configured to identify a power demand from the electrical load and to select the power generating unit or one of the one or more energy storage units to control a voltage level of the power network based on the identified power demand, based on electrical characteristics of the power generating unit, of the power converting unit, and of the electrical load, and based on a current mode of operation of the vehicle. | 07-17-2014 |
20140200756 | System and Method For Optimizing The Storing of Vehicular Energy - A system for storing electrically a regenerative energy of a vehicle is provided. The system includes a first energy storage device, a second energy storage device, an energy regulating device coupled to the first and second energy storage devices, a source of regenerative power configured to capture a regenerative energy during a regenerative power event of the vehicle, and a control unit coupled to the energy regulating device. The control unit is configured to transfer electrical energy from the first energy storage device to the second energy storage device based on a prediction of the regenerative power event using the energy regulating device. The transfer of the electrical energy serves to reduce the electrical energy stored in the first energy storage device thereby enabling the first energy storage device to receive from the regenerative power device when the predicted regenerative power event occurs an amount of the electrical regenerative energy. | 07-17-2014 |
20140200763 | Vehicle Accessory Load Controller and Method - A system includes a source of regenerative power that generates power during a regenerative event, an electrical energy storage system connected with the source of regenerative power to receive and store regenerative power during the regenerative event, an accessory load that reduces an amount of energy stored in the energy storage system when being powered, a source of information, and an accessory load controller. The accessory load controller is responsive to the source of information to estimate when a next occurrence of a regeneration event will occur, predict whether the energy storage device will be in a state of charge condition to receive regenerative power at the time of the predicted regeneration event, and control an application of electrical power to the accessory load based on the prediction in order to reduce the amount of energy stored in the energy storage device and minimize any loss of regenerative power during a next regenerative event. | 07-17-2014 |
20140207318 | Energy Storage Control System and Method - A system for providing power to a power network includes an energy storage device connected to the power network, a sensor connected with the energy storage device for measuring a state of the energy storage device during a rest period, which corresponds to a time span during which a current through the energy storage device is reduced to a level that enables an estimation of a state of the energy storage device. The system further includes a controller connected to the sensor for measuring a state of the energy storage device. The controller selectively establishes rest periods for the energy storage device. The rest periods are established by optimizing between minimization of disruption to normal operation and a need to update a measurement of the state of the energy storage device. | 07-24-2014 |
20140309911 | LEAD ACID STATE OF CHARGE ESTIMATION FOR AUTO-STOP APPLICATIONS - The present disclosure describes a method that includes predicting terminal voltage of a battery module in a vehicle using a battery control module. Predicting the terminal voltage includes determining a gassing current of the battery module using a gassing current model, in which the gassing current quantifies terminal current that is not used to charge the battery module, and calculating the predicted terminal voltage based at least in part on a measurement model and the determined gassing current. The method also includes measuring terminal voltage of the battery module using a sensor communicatively coupled to the battery control module, and determining a corrected state of the battery module using the battery control module by minimizing a difference between the predicted terminal voltage and the measured terminal voltage. In other words, the corrected state of the battery (e.g., corrected state of charge) may be more accurately determined using the measurement model and the gassing current model. As such, this may provide more efficient use of energy. | 10-16-2014 |