Controlled electronic system power dissipation via an auxiliary-power dissipation circuit
First Claim
1. An apparatus comprising:
- a controller configured to (a) control a transfer of energy drawn from a power supply through a primary-side winding of a switching power converter to a secondary-winding coupled to a load and (b) generate an excess energy control signal to control a transfer of excess energy, drawn from a power supply through the primary-side winding of the switching power converter, to an auxiliary-winding of an auxiliary power dissipation circuit to dissipate the excess energy, wherein the excess energy comprises energy drawn through the primary-side winding of the switching power converter to provide operational compatibility between a dimmer and a load, wherein the controller is further configured to isolate energy transfer between the secondary-winding and the auxiliary-winding in mutually exclusive periods of time; and
wherein the switching power converter is a flyback-type switching power converter, the controller is configured to generate the excess energy control signal during a controlled power auxiliary transfer phase, and the controlled power auxiliary transfer phase occurs during a charging phase and before a subsequent flyback phase of the switching power converter.
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Accused Products
Abstract
An electronic system and method include a controller to actively control transfer of excess energy to an auxiliary-winding of an auxiliary power dissipation circuit. The excess energy is a transfer of energy from a primary winding of a switching power converter to the auxiliary-winding of the auxiliary power dissipation circuit. In at least one embodiment, the electronic system is a lighting system that includes a triac-based dimmer. The excess energy is energy drawn through the primary-side winding of the switching power converter to provide operational compatibility between a dimmer through which a power supply provides energy to the switching power converter and a load to which the switching power converter provides energy.
109 Citations
17 Claims
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1. An apparatus comprising:
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a controller configured to (a) control a transfer of energy drawn from a power supply through a primary-side winding of a switching power converter to a secondary-winding coupled to a load and (b) generate an excess energy control signal to control a transfer of excess energy, drawn from a power supply through the primary-side winding of the switching power converter, to an auxiliary-winding of an auxiliary power dissipation circuit to dissipate the excess energy, wherein the excess energy comprises energy drawn through the primary-side winding of the switching power converter to provide operational compatibility between a dimmer and a load, wherein the controller is further configured to isolate energy transfer between the secondary-winding and the auxiliary-winding in mutually exclusive periods of time; and wherein the switching power converter is a flyback-type switching power converter, the controller is configured to generate the excess energy control signal during a controlled power auxiliary transfer phase, and the controlled power auxiliary transfer phase occurs during a charging phase and before a subsequent flyback phase of the switching power converter. - View Dependent Claims (2, 3, 4, 5, 6, 8)
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7. An apparatus comprising:
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a controller configured to (a) control a transfer of energy drawn from a power supply through a primary-side winding of a switching power converter to a secondary-winding coupled to a load and (b) generate an excess energy control signal to control a transfer of excess energy, drawn from a power supply through the primary-side winding of the switching power converter, to an auxiliary-winding of an auxiliary power dissipation circuit to dissipate the excess energy, wherein the excess energy comprises energy drawn through the primary-side winding of the switching power converter to provide operational compatibility between a dimmer and a load, wherein the controller is further configured to isolate energy transfer between the secondary-winding and the auxiliary-winding in mutually exclusive periods of time wherein the controller is further configured to dissipate additional excess energy in circuitry of the switching power converter other than the auxiliary power dissipation circuit; wherein the switching power converter comprises a flyback-type switching power converter, and wherein the controller is configured to transfer the excess energy during one of a flyback phase of the switching power converter and a forward phase of the switching power converter.
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9. A method comprising:
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controlling via a controller a transfer of energy drawn from a power supply through a primary-side winding of a switching power converter to a secondary-winding coupled to a load; generating an excess energy control signal to control a transfer of excess energy, drawn from a power supply through the primary-side winding of the switching power converter, to an auxiliary-winding of an auxiliary power dissipation circuit to dissipate the excess energy, wherein the excess energy comprises energy drawn through the primary-side winding of the switching power converter to provide operational compatibility between a dimmer and a load and energy transfer between the secondary-winding and the auxiliary-winding is isolated in mutually exclusive periods of time wherein the auxiliary power dissipation circuit includes a switch coupled to the controller and having a control terminal, generating the excess energy control signal; during generation of the excess energy control signal, dissipating power in a passive circuit of the auxiliary power dissipation circuit; and wherein the switching power converter is a flyback-type switching power converter, and the method further comprises generating the excess energy control signal during a controlled power auxiliary transfer phase, and the controlled power auxiliary transfer phase occurs during a charging phase and before a subsequent flyback phase of the switching power converter. - View Dependent Claims (10, 11, 12, 13)
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14. A lighting system comprising:
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one or more light emitting diodes (LEDs); a switching power converter coupled to the LEDs; and a controller configured to (1) control a transfer of energy drawn from a power supply through a primary-side winding of a switching power converter to a secondary-winding coupled to a load, (2) generate an excess energy control signal to control a transfer of excess energy, drawn from the power supply through the primary-side winding of a switching power converter, to an auxiliary-winding of an auxiliary power dissipation circuit to dissipate the excess energy, and (3) control power conversion by the switching power converter for the LEDs, wherein the excess energy comprises energy drawn through the primary-side winding of the switching power converter to provide operational compatibility between a dimmer and the LEDs; and wherein the switching power converter is a flyback-type switching power converter, the controller is configured to generate the excess energy control signal during a controlled power auxiliary transfer phase, and the controlled power auxiliary transfer phase occurs during a charging phase and before a subsequent flyback phase of the switching power converter. - View Dependent Claims (15, 16, 17)
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Specification