Energy source system having multiple energy storage devices
First Claim
1. An energy source system, comprising:
- a housing, wherein the housing comprises a positive terminal and a negative terminal;
a current sensor disposed within the housing and electrically coupled to the positive terminal, wherein the current sensor is configured to sense current flow through the positive terminal;
an energy storage device and a first switching device coupled in series between the negative terminal and the current sensor, wherein the first switching device is configured to selectively connect to enable current flow and disconnect to block current flow;
an ultracapacitor pack and a second switching device coupled in series between the negative terminal and the current sensor, wherein the second switching device is configured to selectively connect to enable current flow and disconnect to block current flow; and
a controller communicatively coupled to the current sensor, the first switching device, and the second switching device, wherein the controller configured to;
determine a rate of change of current draw at a load electrically coupled to the positive terminal and the negative terminal of the energy source system based at least in part on the current flow sensed by the current sensor;
instruct the first switching device to connect to enable the energy storage device to supply electric charge to the load at a first rate when the rate of change of the current draw at the load is below a preset threshold; and
instruct the second switching device to connect to enable the ultracapacitor pack to supply electric charge to the load at a second rate greater than the first rate when the rate of change of the current draw at the load is greater than or equal to the preset threshold.
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Accused Products
Abstract
System are described that include an energy storage device adapted to store and release energy and an ultracapacitor. The systems include a switching device coupled to the energy storage device to selectively connect and disconnect the energy storage device to a load, and a second switching device coupled to the ultracapacitor and adapted to connect and disconnect the ultracapacitor to the load. The systems may include a sensor adapted to sense the current draw at the load. The first switching device is activated to connect the energy storage device to the load when a rate of change of the current draw at the load is below a threshold, and the second switching device is activated to connect the ultracapacitor to the load when the rate of change of the current draw at the load is greater than or equal to the threshold.
102 Citations
20 Claims
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1. An energy source system, comprising:
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a housing, wherein the housing comprises a positive terminal and a negative terminal; a current sensor disposed within the housing and electrically coupled to the positive terminal, wherein the current sensor is configured to sense current flow through the positive terminal; an energy storage device and a first switching device coupled in series between the negative terminal and the current sensor, wherein the first switching device is configured to selectively connect to enable current flow and disconnect to block current flow; an ultracapacitor pack and a second switching device coupled in series between the negative terminal and the current sensor, wherein the second switching device is configured to selectively connect to enable current flow and disconnect to block current flow; and a controller communicatively coupled to the current sensor, the first switching device, and the second switching device, wherein the controller configured to; determine a rate of change of current draw at a load electrically coupled to the positive terminal and the negative terminal of the energy source system based at least in part on the current flow sensed by the current sensor; instruct the first switching device to connect to enable the energy storage device to supply electric charge to the load at a first rate when the rate of change of the current draw at the load is below a preset threshold; and instruct the second switching device to connect to enable the ultracapacitor pack to supply electric charge to the load at a second rate greater than the first rate when the rate of change of the current draw at the load is greater than or equal to the preset threshold. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for controlling operation of an energy source system, comprising:
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determining, using a controller, voltage across an energy storage device implemented in the energy source system resulting from storage of electrical energy in the energy storage device; determining, using the controller, whether first electrical power resulting from the electrical energy stored in the energy storage device is expected to be sufficient to enable a starter coupled to the energy source system to crank an internal combustion engine based at least in part on voltage across the energy storage device; instructing, using the controller, a first switching device electrically coupled between the energy storage device and the starter to connect to enable the energy source system to supply the first electrical power to the starter when the first electrical power is expected to be sufficient to crank the internal combustion engine; and when the first electrical power is not expected to be sufficient to crank the internal combustion engine; controlling, using the controller, operation of a direct current to direct current converter electrically coupled between the energy storage device and an ultracapacitor pack implemented in the energy source system to charge the ultracapacitor pack using the first electrical power output from the energy storage device; and instructing, using the controller, a second switching device electrically coupled between the ultracapacitor pack and the starter to connect to enable the ultracapacitor to supply second electrical power with magnitude greater than the first electrical power to the starter when a second engine start signal after the first engine start signal is received. - View Dependent Claims (10, 11, 12)
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13. An energy source system, comprising:
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a housing, wherein the housing comprises a positive terminal and a negative terminal; an energy storage device electrically coupled between a first internal node and the negative terminal; a first switching device electrically coupled between the first internal node and the positive terminal, wherein the first switching device is configured to selectively connect to enable current flow and disconnect to block current flow; an ultracapacitor pack electrically coupled between a second internal node and the negative terminal; a second switching device electrically coupled between the second internal node and the positive terminal, wherein the second switching device is configured to selectively connect to enable current flow and disconnect to block current flow; a direct current to direct current converter electrically coupled between the first internal node and the second internal node; and a controller communicatively coupled to the first switching device, the second switching device, and the direct current to direct current converter, wherein the controller configured to; determine whether first electrical power output from the energy storage device is expected to be sufficient to enable a starter coupled to the positive terminal and the negative terminal of the energy source system to crank an internal combustion engine when a first engine start signal is received based at least in part on voltage across the energy storage device; and when the first electrical power is not expected to be sufficient to crank the internal combustion engine; control operation of the direct current to direct current converter to charge the ultracapacitor pack using the first electrical power output from the energy storage device; and instruct the second switching device to connect to enable the ultracapacitor pack to supply second electrical power with magnitude greater than the first electrical to the starter when a second engine start signal after the first engine start signal is received. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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Specification