Patent application number | Description | Published |
20100259221 | BATTERY MONITORING AND CONTROL SYSTEM AND METHOD OF USE - A battery monitoring and control system and method of monitoring and controlling provides a redundant and independent symmetric secondary serial bus in addition to a primary serial bus within a battery monitoring and control system that includes a plurality of battery monitoring modules and associated IC battery monitor chips in serial communication with a system controller. Additionally, no two serial communication pins from an interface in operative communication with an associated one of a primary or a secondary serial bus are directly adjacent thereby allowing for continuous battery operation when a single pin in a series of battery monitoring modules becomes non operational failed. Additionally, the battery system remains operational when an open or short circuit occurs in only one of either the primary or secondary serial bus. | 10-14-2010 |
20140084843 | High Voltage Charge Pack - A portable high voltage charging apparatus (HVCA) can be configured to controllably charge a hybrid electric vehicle (HEV) traction battery using energy provided by a low voltage (LV) lead acid vehicle battery. An HVCA can include a DCDC converter configured to boost a lower input voltage from the LV battery to a higher output voltage provided to the HV battery. The HVCA can be configured with a traction battery interlock, allowing offline charging of the traction battery. In an example embodiment, an HVCA can be configured to communicate with an HV battery control module via a CAN bus. An HVCA can be configured to transfer energy to the HV battery for a predetermined time period, then automatically stop the transfer process. An HVCA can be configured to receive user input to start and/or stop a charging process. An example embodiment can include a supplemental charger to boost LV battery voltage. | 03-27-2014 |
20140184141 | Method and Apparatus for High-Voltage DC Charging of Battery-Electric and Plug-in Hybrid Electric Vehicles - A portable charging device can provide controllable fast DC charging of an electric vehicle (EV) high voltage battery by a separate EV high voltage battery. The charging device can be configured to comply with universal standards for EV charging so as to be compatible with various automobile models of various manufacturers. The device can be configured to establish a communication link with a donor and recipient vehicle and conduct a voltage matching process between the batteries of the two vehicles prior to transferring power to the recipient vehicle battery. To prevent energy theft, control of a charging process can be shared among the charging device and the donor and receiver vehicles. A charger device can be configured to enable a charging process only when no faults are detected. A charger device can allow a motorist to quickly recharge a depleted high voltage battery at a convenient time and location. | 07-03-2014 |
20150061603 | MONITOR SYSTEM AND METHOD FOR STORED BATTERY - A monitor system for an inventoried battery includes at least one battery pack; at least one embedded monitor subsystem interfacing with the battery pack, the embedded monitor system adapted to acquire sensor data from the battery pack; and at least one archival data storage system interfacing with the embedded monitor subsystem, the archival data storage system adapted to archive the sensor data. A method of monitoring a stored battery is also disclosed. | 03-05-2015 |
20150102815 | VOLTAGE SENSING SYSTEM AND METHOD - A voltage sensing system for a vehicle traction battery having a plurality of cells includes: a battery controller, a plurality of electrical circuits, each being respectively connected to at least one of the cells and including an electrical component for limiting current therethrough, and a plurality of wires, each being respectively connected to one of the electrical circuits in series with a respective one of the electrical components for limiting current and the controller. | 04-16-2015 |
20150191088 | METHOD AND SYSTEM FOR CONTACTOR WELD DETECTION - An example contactor weld detection method for an electric vehicle includes detecting that a contactor is welded closed when the contactor is commanded closed. | 07-09-2015 |
20150198672 | TIME SYNCRONIZATION BETWEEN BATTERY CONTROLLER MODULES FOR PARAMETER MEASUREMENTS - A multi-cell battery pack in an electric vehicle is monitored by multiple sensing modules. A primary controller is coupled to a first plurality of cells to measure a predetermined parameter of each cell. The primary controller determines a sampling moment recurring at a fixed frequency for sampling the predetermined parameter of each of the first plurality of cells. The primary controller generates a sync pulse at each sample moment. A secondary controller is coupled to a second plurality of cells to measure the predetermined parameter of each cell. The secondary controller receives the sync pulse to start a pulse generator operating at a frequency which is a predetermined multiple of the primary controller fixed frequency. The secondary controller counts pulses generated by the pulse generator and schedules a synchronized secondary sampling moment according to a predetermined pulse count. | 07-16-2015 |
20150217656 | Portable EV Energy Transfer Apparatus and Method - Systems, apparatus, and methods are presented to transfer energy between an energy storage device (ESD) at an electrified vehicle (EV) and an AC or DC external load such as an electric grid, appliance or power tool. A portable EVETA can engage an EV charge inlet couple an EV, and can provide an AC outlet, a grid interface and a DC connector for coupling external loads. An EVETA can be used at a remote construction site or campsite to power high current equipment, obviating the need to transport an electric generator. An EVETA can be configured for data and control communication with the EV to coordinate energy transfer. An EVETA can receive a predetermined ESD state of charge limit so that the transfer process can be terminated to preserve sufficient charge for EV return to a desired destination. A human machine interface enables user input reception and information display. | 08-06-2015 |