Adaptive inductive power supply
First Claim
Patent Images
1. A method of operating an inductive power supply for a remote device, the method including the steps of:
- providing a control signal to a drive circuit of the inductive power supply to control application of power to a tank circuit of the inductive power supply;
establishing, based on application of power to the tank circuit, an inductive coupling between the inductive power supply and the remote device;
monitoring at least one operating characteristic of power in the inductive power supply after establishing the inductive coupling;
based upon said monitoring step, reconfiguring the inductive power supply by adjusting a first operating parameter of the power supply, the first operating parameter being one of a resonant frequency of the tank circuit, an operating frequency of power applied to the tank circuit, a rail voltage of power applied to the tank circuit, and a duty cycle of power provided to the tank circuit; and
adjusting a second operating parameter of the inductive power supply, the second operating parameter being different from the first operating parameter, the second operating parameter being one of the resonant frequency of the tank circuit, the operating frequency of power applied to the tank circuit, the rail voltage of power applied to the tank circuit, the duty cycle of power applied to the tank circuit, and a phase of the control signal provided to the drive circuitry.
1 Assignment
0 Petitions
Accused Products
Abstract
A contactless power supply has a dynamically configurable tank circuit powered by an inverter. The contactless power supply is inductively coupled to one or more loads. The inverter is connected to a DC power source. When loads are added or removed from the system, the contactless power supply is capable of modifying the resonant frequency of the tank circuit, the inverter frequency, the inverter duty cycle or the rail voltage of the DC power source.
143 Citations
11 Claims
-
1. A method of operating an inductive power supply for a remote device, the method including the steps of:
-
providing a control signal to a drive circuit of the inductive power supply to control application of power to a tank circuit of the inductive power supply; establishing, based on application of power to the tank circuit, an inductive coupling between the inductive power supply and the remote device; monitoring at least one operating characteristic of power in the inductive power supply after establishing the inductive coupling; based upon said monitoring step, reconfiguring the inductive power supply by adjusting a first operating parameter of the power supply, the first operating parameter being one of a resonant frequency of the tank circuit, an operating frequency of power applied to the tank circuit, a rail voltage of power applied to the tank circuit, and a duty cycle of power provided to the tank circuit; and adjusting a second operating parameter of the inductive power supply, the second operating parameter being different from the first operating parameter, the second operating parameter being one of the resonant frequency of the tank circuit, the operating frequency of power applied to the tank circuit, the rail voltage of power applied to the tank circuit, the duty cycle of power applied to the tank circuit, and a phase of the control signal provided to the drive circuitry. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A method of operating an inductive power supply to supply wireless power from a primary to a remote device, the method including the steps of:
-
providing a control signal to switching circuitry of the inductive power supply to control application of power to the primary; establishing, based on application of power to the primary, an inductive coupling between the primary of the inductive power supply and a secondary of the remote device; transferring power to the remote device via the inductive coupling; sensing a characteristic of power in the tank circuit; based on the characteristic of power sensed in the tank circuit, varying power transferred to the remote device via the inductive coupling; and adjusting an operating parameter of the inductive power supply, the operating parameter being one of the resonant frequency of the tank circuit, the operating frequency of power applied to the tank circuit, the rail voltage of power applied to the tank circuit, the duty cycle of power applied to the tank circuit, and a phase of the control signal provided to the drive circuitry. - View Dependent Claims (10, 11)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneePhilips IP Ventures B.V. (Koninklijke Philips N.V.)
-
Original AssigneeAccess Business Group International LLC (Alticor Incorporated)
-
InventorsBaarman, David W.
-
Primary Examiner(s)Mehari, Yemane
-
Application NumberUS14/997,712Publication NumberTime in Patent Office771 DaysField of Search363 15- 17, 363 2101, 363 2102, 363 2103, 363 24, 363 37, 363 39, 363 41, 363 5601, 363 98, 363132, 363133US Class CurrentCPC Class CodesA61L 2/10 Ultraviolet radiationH02J 13/00022 using wireless data transmi...H02J 13/00024 by means of mobile telephonyH02J 13/00028 involving the use of Intern...H02J 2310/22 The load being a portable e...H02J 50/12 of the resonant typeH02M 3/015 with means for adaptation o...H02M 3/33523 with galvanic isolation bet...H02M 3/33571 Half-bridge at primary side...H02M 3/33576 having at least one active ...H02M 7/4815 Resonant converters H02M7/4...H02M 7/4818 with means for adaptation o...H02M 7/53803 with automatic control of o...H05B 41/36 ControllingH05B 47/20 Responsive to malfunctions ...Y02B 70/10 Technologies improving the ...Y02B 70/30 Systems integrating technol...Y04S 20/246 the system involving the re...
