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A universal power adapter includes a power converter configured to generate an output power based on a switching frequency of the power converter. The universal power adapter also includes a frequency controller operatively coupled to the power converter and configured to control the switching frequ

A universal power adapter includes a power converter configured to generate an output power based on a switching frequency of the power converter. The universal power adapter also includes a frequency controller operatively coupled to the power converter and configured to control the switching frequency of the power converter. The universal power adapter further includes a switch capacitor circuit having a plurality of capacitive elements, operatively coupled to the power converter. The switch capacitor circuit is configured to switch between the plurality of capacitive elements. The universal power adapter also includes a capacitance controller operatively coupled to the switch capacitor circuit and configured to control the switch capacitor circuit to control switching between the plurality of capacitive elements to maintain a control parameter within a threshold range of.

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1. A universal power adapter comprising: a power converter configured to generate an output power based on a switching frequency of the power converter,a frequency controller operatively coupled to the power converter and configured to control the switching frequency of the power converter;a switch

1. A universal power adapter comprising: a power converter configured to generate an output power based on a switching frequency of the power converter,a frequency controller operatively coupled to the power converter and configured to control the switching frequency of the power converter;a switch capacitor circuit comprising a plurality of capacitive elements, operatively coupled to the power converter, wherein the switch capacitor circuit is configured to switch between the plurality of capacitive elements; anda capacitance controller operatively coupled to the switch capacitor circuit and configured to control the switch capacitor circuit to control switching between the plurality of capacitive elements to maintain a control parameter within a threshold range. 2. The universal power adapter of claim 1, wherein the power converter comprises: a first string comprising a plurality of switches operatively coupled to each other in a series configuration;a second string comprising a plurality of diodes operatively coupled to each other in a series configuration;a transformer comprising a primary winding and a secondary winding, wherein the primary winding comprises a first end operatively coupled to the first string at a first node and a second end operatively coupled to the second string at a second node; anda rectifier operatively coupled to the secondary winding, wherein the rectifier comprises a first leg operatively coupled to a first end of the secondary winding and a second leg operatively coupled to a second end of the secondary winding. 3. The universal power adapter of claim 2, wherein the first string and the second string are operatively coupled to each other in a parallel configuration. 4. The universal power adapter of claim 2, wherein the primary winding and the secondary winding comprise a predetermined ratio of turns. 5. The universal power adapter of claim 2, further comprising a resonant inductor operatively coupled to the first string at the first node and to the first end of the primary winding in a series configuration. 6. The universal power adapter of claim 1, wherein the switch capacitor circuit comprises: a first capacitive element operatively coupled to an end of a primary winding;a second capacitive element operatively coupled to the end of the primary winding; anda control switch operatively coupled to the first capacitive element and the second capacitive element and configured to switch between the first capacitive element and the second capacitive element. 7. The universal power adapter of claim 6, wherein the first capacitive element and the second capacitive element comprise a predetermined ratio of capacitance. 8. The universal power adapter of claim 6, wherein the first capacitive element comprises a first capacitor and the second capacitive element comprises a second capacitor, wherein the first capacitor and the second capacitor are operatively coupled to each other in a series configuration. 9. The universal power adapter of claim 6, wherein the first capacitive element and the second capacitive element are operatively coupled to the second end of the primary winding in a parallel configuration. 10. The universal power adapter of claim 1, wherein the frequency controller is configured to generate the control parameter based at least on an output power parameter detected by a sensor, wherein the output power parameter comprises an output voltage or an output current. 11. The universal power adapter of claim 10, wherein the control parameter is computed based on a reference parameter and the output power parameter. 12. The universal power adapter of claim 10, wherein the capacitance controller is configured to control a control switch based on the control parameter received from the frequency controller. 13. The universal power adapter of claim 1, wherein the capacitance controller is configured to generate a capacitance switching command based on a comparison of the control parameter with the threshold range. 14. The universal power adapter of claim 1, wherein the control parameter comprises a control voltage or a control current. 15. The universal power adapter of claim 1, wherein the capacitance controller may be integrated with the frequency controller. 16. A method for providing an output power from a universal power adapter, the method comprising: generating the output power, using a power converter, based on a switching frequency of the power converter;detecting an output power parameter from the output power, using a sensor;computing a control parameter based on a reference parameter and the output power parameter;determining if the control parameter is greater than a maximum value of a threshold range or less than a minimum value of the threshold range;generating a capacitance switching command if the control parameter is greater than the maximum value of the threshold range or less than the minimum value of the threshold range; andswitching between a plurality of capacitive elements based on the capacitance switching command to maintain the control parameter within the threshold range. 17. The method of claim 16, wherein the control parameter is representative of a control voltage or a control current, the reference parameter is representative of a reference voltage or a reference current, and the output power parameter is representative of an output voltage or an output current. 18. The method of claim 16, further comprising determining the threshold range of the control parameter based on a predetermined range of the switching frequency of the power converter. 19. The method of claim 16, further comprising altering the switching frequency of the power converter if the control parameter is within the threshold range of the control parameter. 20. A lighting system comprising: a universal power adapter comprising: a power converter configured to generate an output power based on a switching frequency of the power converter,a frequency controller operatively coupled to the power converter and configured to control the switching frequency of the power converter;a switch capacitor circuit comprising a plurality of capacitive elements, operatively coupled to the power converter, wherein the switch capacitor circuit is configured to switch between the plurality of capacitive elements;a capacitance controller operatively coupled to the switch capacitor circuit and configured to control the switch capacitor circuit to control switching between the plurality of capacitive elements to maintain a control parameter within a threshold range; andan illumination device operatively coupled to the universal power adapter, wherein the universal power adapter is configured to provide the output power to the illumination device.