Isolation of secondary transformer winding current during auxiliary power supply generation

What is claimed is: 1. A method comprising: transferring energy, in accordance with a control signal provided from a controller, from a primary winding of a transformer of a switching power converter to a secondary-winding and to an auxiliary-winding for an auxiliary power supply during mutually exclusive first and second periods of time by at least controlling a value of a reflected voltage of the auxiliary-winding of the transformer to be lower than a reflected voltage of the secondary-winding of the transformer during transfer of energy to the auxiliary-winding during the first period of time and controlling an impedance of the auxiliary power supply to transfer energy to the secondary-winding without transferring energy to the auxiliary power supply during the second period of time, wherein the auxiliary power supply having the auxiliary-winding provides auxiliary power to the controller that provides the control signal to control the transferring of energy from the primary-winding, and the secondary-winding delivers energy for a load, other than the controller, of the switching power converter. 2. The method of claim 1 further comprising: controlling one or more switches coupled to the auxiliary-winding to isolate energy transfer to the auxiliary-winding from energy transfer to the secondary-winding. 3. The method of claim 2 wherein controlling one or more switches coupled to the auxiliary-winding to isolate energy transfer to the auxiliary-winding from energy transfer to the secondary-winding comprises: causing the one or more switches to conduct current flow in the auxiliary-winding of the transformer; and causing the one or more switches to stop conducting current flow in the auxiliary-winding of the transformer and allow current to flow in the secondary-winding of the transformer. 4. The method of claim 1 further comprising: determining when to provide energy from the auxiliary-winding of the transformer to a device; and causing energy to be transferred from the auxiliary-winding of the transformer upon determining when to provide energy from the auxiliary-winding of the transformer to the device. 5. The method of claim 4 wherein the device comprises a switching power converter controller. 6. The method of claim 4 wherein determining when to provide energy from the auxiliary-winding of the transformer to a device comprises: monitoring a supply voltage node to the device; when the supply voltage decreases below a first threshold value, then causing energy to be transferred from the auxiliary-winding of the transformer upon determining when to provide energy from the auxiliary-winding of the transformer to the device. 7. The method of claim 6 further comprising: determining when to stop transferring energy from the primary-winding of the transformer to an auxiliary-winding of the transformer. 8. The method of claim 7 wherein determining when to stop transferring energy from the primary-winding of the transformer to an auxiliary-winding of the transformer comprises: monitoring a supply voltage node to the device; and when the supply voltage increases above a second threshold value, then causing energy to stop transferring to the auxiliary-winding of the transformer. 9. The method of claim 8 wherein the first threshold value is less than the second threshold value. 10. The method of claim 1 wherein the first and second periods of time comprise successive switching cycles of a switch that controls the transferring of energy from the primary-winding. 11. An apparatus comprising: a controller to at least control a transfer of energy, in accordance with a control signal provided from a controller, from a primary winding of a transformer of a switching power converter to a secondary-winding and to an auxiliary-winding for an auxiliary power supply during mutually exclusive first and second periods of time by at least controlling a value of a reflected voltage of the auxiliary-winding of the transformer to be lower than a reflected voltage of the secondary-winding of the transformer during transfer of energy to the auxiliary-winding during the first period of time and controlling an impedance of the auxiliary power supply to transfer energy to the secondary-winding without transferring energy to the auxiliary power supply during the second period of time, wherein the auxiliary power supply having the auxiliary-winding provides auxiliary power to the controller that provides the control signal to control the transfer of energy from the primary-winding, and the secondary-winding delivers energy for a load, other than the controller, of the switching power converter. 12. The apparatus of claim 11 wherein the controller is further configured to: control one or more switches coupled to the auxiliary-winding to isolate energy transfer to the auxiliary-winding from energy transfer to the secondary-winding. 13. The apparatus of claim 12 wherein to control one or more switches coupled to the auxiliary-winding to isolate energy transfer to the auxiliary-winding from energy transfer to the secondary-winding, the controller is further configured to: cause the one or more switches to conduct current flow in the auxiliary-winding of the transformer; and cause the one or more switches to stop conducting current flow in the auxiliary-winding of the transformer and allow current to flow in the secondary-winding of the transformer. 14. The apparatus of claim 13 wherein the device comprises a switching power converter controller. 15. The apparatus of claim 11 wherein the controller is further configured to: determine when to provide energy from the auxiliary-winding of the transformer to a device; and cause energy to be transferred from the auxiliary-winding of the transformer upon determining when to provide energy from the auxiliary-winding of the transformer to the device. 16. The apparatus of claim 15 wherein to determine when to provide energy from the auxiliary-winding of the transformer to a device, the controller is further configured to: monitor a supply voltage node to the device; when the supply voltage decreases below a first threshold value, then cause energy to be transferred from the auxiliary-winding of the transformer upon determining when to provide energy from the auxiliary-winding of the transformer to the device. 17. The apparatus of claim 16 wherein the controller is further configured to: determine when to stop the transfer energy from the primary-winding of the transformer to an auxiliary-winding of the transformer. 18. The apparatus of claim 17 wherein to determine when to stop the transfer of energy from the primary-winding of the transformer to an auxiliary-winding of the transformer, the controller is further configured to: monitor a supply voltage node to the device; and when the supply voltage increases above a second threshold value then cause energy to stop transferring to the auxiliary-winding of the transformer. 19. The apparatus of claim 18 wherein the first threshold value is less than the second threshold value. 20. The apparatus of claim 11 wherein the periods of time comprise successive switching cycles of a switch that controls the transferring of energy from the primary-winding.