Wireless battery charger with wireless control system and method for control thereof
First Claim
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1. An electrical charging system configured to wirelessly charge an energy storage device, comprising:
- an electrical power supply configured to source electrical power having an alternating output current and an alternating output voltage;
an output current sensor configured to determine an output current value (io) based on the output current and an output voltage sensor configured to determine an output voltage value (vo) based on the output voltage;
a source coil in electrical communication with the electrical power supply and configured to generate an alternating magnetic field;
a capture coil configured to be magnetically coupled to said source coil, thereby inducing the capture coil to capture electrical power;
a rectifier electrically coupled to the capture coil and the battery and configured to provide captured electrical power having a direct voltage and a direct current;
a battery controller configured to determine a current command value (ic);
a direct current sensor configured to determine a direct current value (id) based on the direct current and a direct voltage sensor configured to determine a direct voltage value (vd) based on the direct voltage;
a transmitter configured to transmit a sampled current command value (ics), a sampled direct voltage value (vds), and a sampled direct current value (ids) at a transmission rate, wherein the sampled current command value (ics), the sampled direct voltage value (vds), and direct current value (ids) are sampled from the current command value (ic), direct voltage value (vd), and the direct current value (id) respectively;
a receiver configured to wirelessly receive the sampled current command value (ics), the sampled direct voltage value (vds), and the sampled direct current value (ids) from the transmitter; and
a charging controller in electrical communication with the receiver and the electrical power supply and configured to determine a voltage command value (vc) based on the output current value (io), the output voltage value (vo), the sampled current command value (ics), the sampled direct voltage value (vds), and the sampled direct current value (ids), wherein the electrical power supply is configured to adjust the output voltage value (vo) based on the voltage command value (vc), wherein a rate at which the voltage command value (vc) is determined by the charging controller is greater than the transmission rate of the transmitter, wherein the charging controller determines the voltage command value (vc) based on a difference between the sampled current command value (ics) and a predicted current value (ip) according to the Laplace transform formula;
vc=(ics−
ip)*(KP2+KI2/S), and wherein values of KP1 and KP2 are proportional constants and values of KI1 and KI2 are integral constants.
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Abstract
A wireless electrical charging system and a method of operating same wherein operating parameters from a remote portion of the system are wirelessly transmitted to a charging controller controlling the output voltage of an alternating power supply. The charging controller executes an adaptive model control algorithm that allows the charging controller to update the output voltage at a greater rate than the transmission rate of the operating parameters from the remote portion of the system.
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Citations
18 Claims
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1. An electrical charging system configured to wirelessly charge an energy storage device, comprising:
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an electrical power supply configured to source electrical power having an alternating output current and an alternating output voltage; an output current sensor configured to determine an output current value (io) based on the output current and an output voltage sensor configured to determine an output voltage value (vo) based on the output voltage; a source coil in electrical communication with the electrical power supply and configured to generate an alternating magnetic field; a capture coil configured to be magnetically coupled to said source coil, thereby inducing the capture coil to capture electrical power; a rectifier electrically coupled to the capture coil and the battery and configured to provide captured electrical power having a direct voltage and a direct current; a battery controller configured to determine a current command value (ic); a direct current sensor configured to determine a direct current value (id) based on the direct current and a direct voltage sensor configured to determine a direct voltage value (vd) based on the direct voltage; a transmitter configured to transmit a sampled current command value (ics), a sampled direct voltage value (vds), and a sampled direct current value (ids) at a transmission rate, wherein the sampled current command value (ics), the sampled direct voltage value (vds), and direct current value (ids) are sampled from the current command value (ic), direct voltage value (vd), and the direct current value (id) respectively; a receiver configured to wirelessly receive the sampled current command value (ics), the sampled direct voltage value (vds), and the sampled direct current value (ids) from the transmitter; and a charging controller in electrical communication with the receiver and the electrical power supply and configured to determine a voltage command value (vc) based on the output current value (io), the output voltage value (vo), the sampled current command value (ics), the sampled direct voltage value (vds), and the sampled direct current value (ids), wherein the electrical power supply is configured to adjust the output voltage value (vo) based on the voltage command value (vc), wherein a rate at which the voltage command value (vc) is determined by the charging controller is greater than the transmission rate of the transmitter, wherein the charging controller determines the voltage command value (vc) based on a difference between the sampled current command value (ics) and a predicted current value (ip) according to the Laplace transform formula;
vc=(ics−
ip)*(KP2+KI2/S), and wherein values of KP1 and KP2 are proportional constants and values of KI1 and KI2 are integral constants. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of operating an electrical charging system configured to wirelessly charge an energy storage device having an electrical power supply configured to source electrical power having an alternating output current and an alternating output voltage at a desired frequency, a source coil in electrical communication with the electrical power supply and configured to generate an alternating magnetic field, a capture coil configured to be magnetically coupled to said source coil, thereby inducing the capture coil to capture electrical power, a rectifier electrically coupled to the capture coil and the battery and configured to provide captured electrical power having a direct voltage and a direct current, and a charging controller in electrical communication with the electrical power supply and configured to adjust the alternating output voltage, said method comprising the steps of:
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providing an output current sensor configured to determine an output current value (io) based on the output current and providing an output voltage sensor configured to determine an output voltage value (vo) based on the output voltage; providing a battery controller configured to determine a current command value (ic) providing a direct current sensor configured to determine a direct current value (id) based on the direct current and providing a direct voltage sensor configured to determine a direct voltage value (vd) based on the direct voltage; sampling the values of the current command value (ic), direct voltage value (vd), and the direct current value (id), providing a transmitter configured to transmit a sampled current command value (ics), a sampled direct voltage value (vds), and a sampled direct current value (ids) at a transmission rate and providing a receiver configured to wirelessly receive the sampled current command value (ics), the sampled direct voltage value (vds), and the sampled direct current value (ids) from the transmitter; transmitting the sampled current command value (ics), the sampled direct voltage value (vds), and the sampled direct current value (ids) from the transmitter to the receiver; determining a voltage command value (vc), via the charging controller, based on the output current value (io), the output voltage value (vo), the sampled current command value (ics) the sampled direct voltage value (vds), and the sampled direct current value (ids), wherein a rate at which the voltage command value (vc) is determined by the charging controller is greater than the transmission rate of the transmitter; and adjusting the output voltage value (vo) of the electrical power supply based on the voltage command value (vc) wherein the voltage command value (vc) is determined, via the charging controller, based on a difference between the sampled current command value (ics) and a predicted current value (ip) according to the Laplace transform formula;
vc=(ics−
ip)*(KP2+KI2/S), wherein values of KPland KP2are proportional constants and values of KI1 and KI2 are integral constants. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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Specification