Mituta
Andres V. Mituta, Auburn Hills, MI US
Patent application number | Description | Published |
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20110087393 | VEHICULAR ELECTRICAL SYSTEM AND CONTROL METHOD THEREFOR - A method of controlling a vehicular electrical system for a hybrid electric vehicle (HEV) includes providing a high voltage electrical system having a high power electrical energy storage device (HPD) and a power inverter that cooperate to provide power to a hybrid electric vehicle propulsion system, providing a low voltage electrical system having a low voltage power source, at least one accessory power load, and a control switch, and toggling the control switch between an opened and a closed position to isolate the low voltage system from the high voltage system when the switch is opened and to charge the HPD when the control switch is closed. | 04-14-2011 |
20110293983 | STACKABLE REPEATING FRAME WITH INTEGRATED CELL SENSING CONNECTION - A module for a battery pack includes a cooling frame and a spacer frame. At least one of the first and second surfaces of the cooling frame is adapted to transfer heat to a coolant flow. A first battery cell having first and second electrically conductive tabs abuts a cooling frame member first surface. A second end of the cooling frame member includes a connection terminal for electrically connecting to the first electrically conductive tab. A spacer frame member first surface abuts the first battery cell, and a second surface abuts a second battery cell. A first end of the spacer frame member includes a connection terminal for electrically connecting to the second electrically conductive tab of the first battery cell and the first electrically conductive tab of the second battery cell. | 12-01-2011 |
20120203404 | METHOD FOR HEATING HYBRID POWERTRAIN COMPONENTS - A method of controlling a hybrid powertrain having an electric machine and an engine is provided. The method includes determining a requested power and an excess power for the hybrid powertrain. The requested power substantially meets the needs of the hybrid powertrain. The excess power is non-zero and is not included in the determined requested power. The method also includes absorbing the excess power with the electric machine. | 08-09-2012 |
Andres V. Mituta, Rochester, MI US
Patent application number | Description | Published |
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20100271192 | ALARM SYSTEMS AND METHODS FOR VEHICLE CHARGE CORDS - An alarm system associated with a charge cord of a plug-in vehicle is provided. The system includes a sensor configured to evaluate a status of the charge cord, including a coupled status when the charge cord is coupled to the vehicle and a decoupled status when the charge cord is not coupled to the vehicle. The system further includes an alarm interface coupled to the sensor and configured to activate an alarm when the charge cord is in the decoupled status. | 10-28-2010 |
Andres V. Mituta, Rochester Hills, MI US
Patent application number | Description | Published |
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20140178736 | BATTERY MODULE FOR AN ELECTRIC VEHICLE, AND METHOD OF ASSEMBLY THEREOF - A battery module for an electric vehicle includes an auxiliary power module (APM) and at least one battery pack assembly. The battery pack assembly includes a plurality of battery frames, each with at least one battery cell disposed within it, and a plurality of cooling plates, each in thermal communication with at least one battery cell. The cooling plates have an inlet and an outlet connected by at least one coolant channel through which coolant is circulated to cool the battery cells. The APM may also require cooling, in which case the battery module may further include at least one additional cooling plate in thermal communication with the APM. The APM and the battery pack assembly are held together under compression such that they may share a common cooling system, and coolant may flow through the APM and/or the battery pack assembly to the cooling plates. | 06-26-2014 |
20140253312 | ELECTRICAL CHARGING SYSTEM ALARM WITH AUTOMATIC SHUT-OFF - An alarm system for a vehicle charge cord is provided. The alarm system has an armed state and a disarmed state. The alarm system includes a battery, a charge cord sensor, a battery state estimator (“BSE”) module, and an interface module. The battery has state of charge (“SOC”), and is rechargeable to a predetermined level of charge. The charge cord sensor is configured to detect if the vehicle charge cord is connected to or disconnected from a vehicle. The BSE module is configured to monitor the SOC of the rechargeable battery and determine if the battery is charged to the predetermined level of charge. The interface module is in communication with the charge cord sensor and the BSE module. The interface module is configured to switch the alarm system from the armed state to the disarmed state. | 09-11-2014 |