Patent application number | Description | Published |
20090174972 | High-Power Ultracapacitor Energy Storage Pack and Method of Use - An ultracapacitor energy storage cell pack includes an ultracapacitor assembly including a plurality of parallel ultracapacitors and balancing resistors in series; an enclosure for the ultracapacitor assembly; a controller; one or more temperature sensors; a pack voltage sensor; a GFI sensor; one or more cooling fans carried by the enclosure; an on/off relay coupled to the ultracapacitor assembly and the controller, the on/off relay activated by the controller during normal operation of the ultracapacitor assembly and deactivated by the controller when the GFI sensor detects a ground fault interrupt condition, the one or more temperature sensors detect an over-temperature condition, or the pack voltage sensor detects an over-voltage condition; and a pre-charge resistor and a pre-charge relay coupled to the ultracapacitor assembly and the controller, and activated by the controller to cause the pre-charge resistor to limit pack charge current until the ultracapacitor assembly reaches a minimum voltage. | 07-09-2009 |
20090271057 | Hybrid Vehicle Vibration Reduction System and Method - A method for reducing vibration in a hybrid-electric vehicle including initiating a shut-down sequence of an internal combustion engine of the a hybrid-electric vehicle; providing an open port to at least one combustion chamber of the internal combustion engine; and shutting down the internal combustion engine. | 10-29-2009 |
20100134940 | Hybrid Vehicle Propulsion Energy Storage System - An energy storage cell pack cradle assembly for holding multiple rows of energy storage cells oriented along a dominant axis of vibration includes a first cradle member including a plurality of energy storage cell body supporting structures including respective holes; a second cradle member including a plurality of energy storage cell body supporting structures including respective holes; and one or more fasteners connecting the first cradle member and the second cradle member together. The energy storage cell body supporting structures are configured to structurally support the energy storage cells, with the energy storage cells oriented along a dominant axis of vibration, by energy storage cell bodies of the energy storage cells with respective electrically conductive terminals extending through the respective holes without structural support of the electrically conductive terminals by the cradle members. | 06-03-2010 |
20100134974 | High-Power Ultracapacitor Energy Storage Pack and Method of Use - An energy storage cell pack cradle assembly for holding multiple rows of energy storage cells oriented along a dominant axis of vibration includes a first cradle member including a plurality of energy storage cell body supporting structures including respective holes; a second cradle member including a plurality of energy storage cell body supporting structures including respective holes; and one or more fasteners connecting the first cradle member and the second cradle member together. The energy storage cell body supporting structures are configured to structurally support the energy storage cells, with the energy storage cells oriented along a dominant axis of vibration, by energy storage cell bodies of the energy storage cells with respective electrically conductive terminals extending through the respective holes without structural support of the electrically conductive terminals by the cradle members. | 06-03-2010 |
20100138064 | High-Power Ultracapacitor Energy Storage Pack and Method of Use - An ultracapacitor energy storage cell pack including an ultracapacitor assembly including a plurality of ultracapacitors in series; a plurality of interconnections for mechanically and electrically interconnecting the ultracapacitors; and a plurality of balancing resistors, each balancing resistor in parallel with each ultracapacitor to form a resistor divider network that automatically discharges and equalizes each ultracapacitor over time, thereby balancing the ultracapacitors of the ultracapacitor assembly, and each balancing resistor directly mechanically and electrically connected to an associated interconnection. | 06-03-2010 |
20100157532 | ENERGY STORAGE PACK COOLING SYSTEM AND METHOD - An energy storage pack cooling system including upper and lower respective terminal heat sinks thermally connected to respective upper and lower terminals of energy storage cells above and below upper and lower ends of an enclosure of an energy storage cell pack; and a blower and cooling assembly that circulates a heat transfer fluid past the upper and lower respective terminal heat sinks outside of the enclosure to cool the energy storage cells without circulating the heat transfer fluid past energy storage cell bodies of the energy storage cells enclosed within the enclosure. | 06-24-2010 |
20100232105 | System and Method for Supporting a Plurality of Propulsion Energy Storage Cells Within a Vehicle - An energy storage cell pack cradle assembly for holding multiple rows of energy storage cells oriented along a dominant axis of vibration includes a first cradle member including a plurality of energy storage cell body supporting structures including respective holes; a second cradle member including a plurality of energy storage cell body supporting structures including respective holes; and one or more fasteners connecting the first cradle member and the second cradle member together. The energy storage cell body supporting structures are configured to structurally support the energy storage cells, with the energy storage cells oriented along a dominant axis of vibration, by energy storage cell bodies of the energy storage cells with respective electrically conductive terminals extending through the respective holes without structural support of the electrically conductive terminals by the cradle members. | 09-16-2010 |
20100265660 | Energy Storage Cooling System - An energy storage pack cooling system including upper and lower respective terminal heat sinks thermally connected to respective upper and lower terminals of energy storage cells above and below upper and lower ends of an enclosure of an energy storage cell pack; and a blower and cooling assembly that circulates a heat transfer fluid past the upper and lower respective terminal heat sinks outside of the enclosure to cool the energy storage cells without circulating the heat transfer fluid past energy storage cell bodies of the energy storage cells enclosed within the enclosure. | 10-21-2010 |