Patent application number | Description | Published |
20120136594 | DYNAMIC BATTERY CAPACITY ESTIMATION - A method of determining a state of health of a battery in real time includes estimating a parameter value associated with the state of health of the battery and determining one or more of a terminal voltage, an accumulated charge, a state of charge, and a temperature of the battery. The method further includes determining, via a computing device, a reserve capacity of the battery based at least in part on the estimated parameter value and one or more of the terminal voltage, the accumulated charge, the state of charge, and the temperature of the battery. | 05-31-2012 |
20120136595 | BATTERY DIFFUSION VOLTAGE ESTIMATION - A method includes estimating a first diffusion voltage value of a battery by selecting the first diffusion voltage value from a look-up table, estimating a second diffusion voltage value of the battery using an estimation procedure, selecting at least one of the estimated first and second diffusion voltage values, and determining an open circuit voltage of the battery based at least in part on the selected diffusion voltage value. The method may be implemented by a computing device in a vehicle. | 05-31-2012 |
20130127399 | CELL BALANCING SYSTEM AND METHOD - A system and method may identifying an overcharged cell from among a plurality of cells of a battery pack. An undercharged cell may be identified from among any of the plurality of cells of the battery pack. A switch may be operated to connect the overcharged cell to the undercharged cell via a direct current (DC)-DC converter. The DC-DC converter may be operated to transfer charge from the overcharged cell to the undercharged cell. | 05-23-2013 |
20130158755 | OPTIMIZING SYSTEM PERFORMANCE USING STATE OF HEALTH INFORMATION - A method for optimizing performance of a system includes determining, via a controller, a state of health (SOH) for each of a plurality of components of the system, and determining a state of function (SOF) of the system using the SOH of each component. The method includes estimating the remaining useful life (RUL) of the system using the system SOF, selecting a cost-optimal control strategy for the system using a costing model, and dynamically, i.e., in real time, executing the selected strategy to extend the estimated RUL. The method may include comparing the selected cost-optimal strategy to a calibrated performance threshold, and executing the selected strategy only when the selected strategy exceeds the threshold. A system includes first and second components and a controller. The controller dynamically executes the above method with respect to the components, which may be a traction motor and battery in one possible embodiment. | 06-20-2013 |
20130184929 | Co-Operative On-Board and Off-Board Component and System Diagnosis and Prognosis - A cooperative diagnostic and prognosis system for generating a prognosis of at least one component in a vehicle. An in-vehicle diagnostic unit determines a diagnostic signature of the component each time an occurrence of a condition is triggered and transmits the diagnostic signature to an off-board diagnostic unit. The off-vehicle diagnostic unit determines a SOH of the component and a rate-of-change in the SOH of the component. The off-vehicle diagnostic unit determines whether the rate-of-change in the SOH is greater than a threshold. The off-vehicle diagnostic unit requests additional information from the vehicle in response to the rate-of-change in the SOH being greater than the threshold. The additional information relating to operating parameter data associated with the component. The off-vehicle diagnostic unit receives the requested information and predicts a time-to-failure of the component. | 07-18-2013 |
20130262067 | COLLABORATIVE VEHICLE HEALTH MODEL - A method includes collecting vehicle health data from a plurality of vehicles. A peer group is identified among the plurality of vehicles. The collected vehicle health data from the peer group into a collaborative vehicle health model, the collaborative vehicle health model being applicable to a current vehicle to predict a state of at least a component of the current vehicle. | 10-03-2013 |
20130300190 | BATTERY STATE-OF-CHARGE OBSERVER - A robust battery state-of-charge observer determines a state-of-charge as function of an open circuit voltage by taking into account battery parameter uncertainties, which are due to battery age, variation, and operating conditions, (e.g. temperature and SOC level). Each of the time-varying battery parameter values are bounded. By utilizing the parameter variation bounds in the design process and constantly minimizing the estimation error covariance matrix, the robust observer achieves enhanced robustness to the variations of battery age, variation, and operating conditions such as temperature and SOC level. | 11-14-2013 |
20130300377 | BATTERY STATE-OF-CHARGE ESTIMATOR USING ROBUST H(INFINITY) OBSERVER - A battery state-of-charge (SOC) estimator uses a robust H | 11-14-2013 |