US2016164304A1PendingUtilityA1
Inductively Controlled Series Resonant AC Power Transfer
Est. expiryOct 12, 2029(~3.3 yrs left)· nominal 20-yr term from priority
H02J 50/12H02J 5/005
52
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Claims
Abstract
An inductive power transfer pickup circuit has a pickup coil (L 2 ) and tuning capacitor (C 2 ) connected in series to provide a series resonant circuit. A bi-directional switch (S 1 ) is used to vary the phase angle between the open circuit pickup coil voltage (V OC ) and the pickup coil inductor current (i L ) to provide a controlled AC supply to an output of the pickup.
Claims
exact text as granted — not AI-modified1 . A method of providing an AC supply from IPT pickup having a pickup coil and tuning capacitor connected in series to provide a series resonant circuit, the method comprising varying a phase angle between an open circuit pickup coil voltage and a pickup coil inductor current to provide a controlled AC supply to an output of the pickup.
2 . A method as claimed in claim 1 wherein the phase angle between the open circuit pickup coil voltage and the pickup coil inductor current is varied by substantially preventing current flow in the resonant circuit for a selected time period.
3 . A method as claimed in claim 2 further comprising varying the selected time period to vary the phase angle.
4 . A method as claimed in claim 2 wherein substantially preventing current flow comprises detecting when the current in the resonant circuit is substantially zero and maintaining the current at substantially zero for the selected time period.
5 . A method as claimed in claim 2 further comprising operating a switch in order to substantially prevent current flow in the resonant circuit.
6 . A method as claimed in claim 5 further comprising using a bi-directional switch.
7 . A method as claimed in claim 5 wherein operating the switch comprises allowing current flow through the switch to become substantially zero by a diode turn off characteristic.
8 . A method as claimed in claim 2 , further comprising comparing the output of the pickup with a reference, and increasing or decreasing the selected time period to change the output of the pickup toward the reference.
9 . An IPT pickup controller for a pickup having a pickup coil and a tuning capacitor connected in series with the pickup coil, the controller being adapted to control one or more switches to control a pickup coil inductor current to thereby vary a phase angle between a pickup coil open circuit voltage and the pickup coil inductor current.
10 . An IPT pickup controller as claimed in claim 9 wherein the phase angle between the pickup coil open circuit voltage and the pickup coil inductor current is varied by operating the one or more switches at a selected time to substantially prevent current flow in a resonant circuit for a selected time period.
11 . An IPT pickup controller as claimed in claim 10 wherein the controller compares an output of the pickup with a reference, and increases or decreases the selected time to change the output of the pickup toward the reference.
12 . An IPT pickup comprising a pickup coil and a tuning capacitor connected in series to provide a series resonant circuit, and a controller to vary a phase angle between a pickup coil open circuit voltage and a pickup coil inductor current to thereby provide a controlled AC supply to an output of the pickup.
13 . An IPT pickup as claimed in claim 12 wherein the phase angle between the pickup coil open circuit voltage and the pickup coil inductor current is varied by the controller substantially preventing current flow in the resonant circuit for a selected time period.
14 . An IPT pickup as claimed in claim 13 wherein the controller varies the selected time period to vary the phase angle.
15 . An IPT pickup as claimed in claim 13 wherein the controller substantially prevents current flow by detecting when the current in the resonant circuit is substantially zero and maintaining the current at substantially zero for the selected time period.
16 . An IPT pickup as claimed in claim 13 wherein the controller operates a switch in order to substantially prevent current flow in the resonant circuit.
17 . An IPT pickup as claimed in claim 16 wherein the switch comprises a bi-directional switch.
18 . An IPT pickup as claimed in claim 16 wherein the controller operates the switch by allowing current flow through the switch to become substantially zero by a diode turn off characteristic.
19 . An IPT pickup as claimed in claim 13 wherein the controller compares the output of the pickup with a reference, and increases or decreases the selected time period to change the output of the pickup toward the reference.
20 . An IPT pickup as claimed in claim 12 further comprising a switch connected in series with the series resonant circuit wherein the controller operates the switch to provide the controlled AC supply to the output of the pickup.
21 . An IPT pickup as claimed in claim 20 wherein the switch comprises a bi-directional switch.
22 . An IPT system comprising an IPT pickup as claimed in claim 12 .
23 . (canceled)
24 . (canceled)
25 . (canceled)
26 . (canceled)Cited by (0)
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