Patent application number | Description | Published |
20130082521 | SYSTEM AND METHOD FOR MANAGING ELECTRICAL LOADS IN A VEHICLE - A system and method for managing electrical loads in a vehicle includes a high voltage power source capable of providing electrical power to at least one high voltage load. An electrical converter is operable to receive an input of high voltage power from the high voltage power source and to provide an output of low voltage power to one or more low voltage loads. A control system is in communication with the converter, and it is configured to receive signals from the converter related to the converter output, and cut power to at least one of the low voltage loads when the signals received from the converter indicate that the high voltage power source cannot provide full power to the low voltage loads. | 04-04-2013 |
20130187446 | Electric Vehicle with Transient Current Management for DC-DC Converter - An electric or hybrid electric vehicle includes a battery coupled to a traction motor and a DC-DC power converter for managing transient current demands of vehicle accessories such as an electrical power assisted steering (EPAS) motor or antilock braking system (ABS) with a controller coupled to the power converter that generates a first duty cycle signal to supply current at a first level for a first time period to accommodate transient current for an EPAS, ABS, or other short duration event, and a second duty cycle signal that limits the current to a second level lower than the first level for a second time period upon expiry of the first time period to manage temperature of the converter. The controller may also generate a duty cycle signal based on measured or estimated transistor temperature of the DC-DC converter to lower the current limit when transistor temperature exceeds a threshold. | 07-25-2013 |
20130187590 | SYSTEM AND METHOD FOR VEHICLE POWER MANAGEMENT - A power management system for a vehicle having wheels and an electric machine operable to provide torque to drive at least one of the wheels includes a first energy storage system capable of supplying power to operate the electric machine. The system also includes a second energy storage system capable of supplying power directly to at least one vehicle load at a lower voltage than the first energy storage system. A voltage conversion device is operable to reduce a voltage of the power supplied by the first energy storage system to the lower voltage to charge the second energy storage system when the vehicle is in a key-off state. | 07-25-2013 |
20150066257 | Method and System for Providing Charging Cord Reminder and Fault Override for Plug-In Electric Vehicles - An operation includes disabling a vehicle from moving while connection status of the vehicle with external charging infrastructure is unknown. A message is generated to advise a user to check the connection status. The vehicle is enabled to move upon a user indication that the vehicle is disconnected from the charging infrastructure. | 03-05-2015 |
20150097525 | Detection of On-Board Charger Connection to Electric Vehicle Supply Equipment - Electric and plug-in hybrid vehicles connect to Electric Vehicle Supply Equipment (EVSE) to recharge a traction battery. Existing standards define the signal interface between the vehicle and EVSE including control pilot and proximity detect signals. The vehicle may use the status of these signals to detect when a connection is established with EVSE. The vehicle may indicate a connection when the signals provide conflicting statuses. The vehicle may prevent driving off and permit charging in the event of a proximity detect signal indicating a state of engagement other than connected as long as a valid control pilot signal is present. The status of the control pilot signal may be utilized to prevent drive-off and permit charging. | 04-09-2015 |
20150097526 | Control Pilot Latch-Out Mechanism to Reduce Off-Board Energy Consumption - A vehicle connected to electric vehicle supply equipment is configured to wake-up an onboard charger based on a pilot signal. A controller is configured to interrupt the pilot signal to prevent the pilot signal from subsequently waking the charger to reduce power consumed by the charger while the vehicle is connected. The interruption may be triggered by a completion of a charge cycle, an extensive charge wait interval, or a charging system condition that prevents charging. The controller may discontinue interruption of the pilot signal in response to a wake-up source other than the pilot signal. | 04-09-2015 |
20150097527 | Plug-In Vehicle with Secondary DC-DC Converter - A vehicle includes a traction battery, an auxiliary battery, a charger, and two DC-DC converters. A first DC-DC converter is connected between the traction battery and the auxiliary battery through a main contactor. A second DC-DC converter is connected between the charger and the auxiliary battery. The charger is configured to charge the auxiliary battery via the second DC-DC converter when the charger is receiving power. The second DC-DC converter is configured to charge the auxiliary battery when the first DC-DC converter is disconnected from the traction battery. The second DC-DC converter can charge the auxiliary battery independent of the charger charging the traction battery. The second DC-DC converter may be configured to generally maximize power conversion efficiency in a range of power outputs associated with charging the auxiliary battery. | 04-09-2015 |