Method and system for saturation control in a flyback switched-mode power supply (SMPS)

What is claimed is: 1. A method of saturation control for a flyback switched-mode power supply (SMPS), the method comprising: measuring a length related to a primary stroke in the flyback SMPS; comparing the length related to the primary stroke to a length related to a previous primary stroke in the flyback SMPS to generate a comparison result; and adjusting a switching period time of the flyback SMPS based on the comparison result such that saturation of the flyback SMPS is reduced. 2. The method of claim 1 , wherein measuring the length related to the primary stroke in the flyback SMPS comprises measuring a signal pulse width at a switch connected to a primary winding of a transformer of the flyback SMPS. 3. The method of claim 2 , wherein measuring the signal pulse width at the switch comprises measuring the signal pulse width of a signal at a gate terminal of the switch. 4. The method of claim 2 , wherein comparing the length related to the primary stroke to the length related to the previous primary stroke in the flyback SMPS to generate the comparison result comprises comparing the signal pulse width at the switch with a previous signal pulse width at the switch to generate the comparison result. 5. The method of claim 1 , wherein adjusting the switching period time of the flyback SMPS based on the comparison result comprises extending the switching period time of the flyback SMPS if the length related to the primary stroke is shorter than the length related to the previous primary stroke. 6. The method of claim 1 , wherein adjusting the switching period time of the flyback SMPS based on the comparison result comprises reducing the switching period time of the flyback SMPS if the length related to the primary stroke is longer than or equal to the length related to the previous primary stroke. 7. The method of claim 1 , wherein adjusting the switching period time of the flyback SMPS based on the comparison result comprises adjusting a signal at a switch connected to a primary winding of a transformer of the flyback SMPS based on the comparison result. 8. The method of claim 7 , wherein adjusting the signal at the switch based on the comparison result comprises adjusting the signal at the switch based on the comparison result, a second signal at the switch and a third signal from an opto coupler of the flyback SMPS. 9. The method of claim 1 , wherein adjusting the switching period time of the flyback SMPS based on the comparison result comprises adjusting a signal at a gate terminal of a switch connected to a primary winding of a transformer of the flyback SMPS based on the comparison result. 10. The method of claim 9 , wherein adjusting the signal at the gate terminal of the switch based on the comparison result comprises adjusting the signal at the gate terminal of the switch based on the comparison result, a second signal at a drain terminal of the switch and a third signal from an opto coupler of the flyback SMPS. 11. A saturation controller for a flyback switched-mode power supply (SMPS), the saturation controller comprising: a stroke length detector configured to measure a length related to a primary stroke in the flyback SMPS; a stroke length comparator configured to compare the length related to the primary stroke to a length related to a previous primary stroke in the flyback SMPS to generate a comparison result; and a switching period controller configured to adjust a switching period time of the flyback SMPS based on the comparison result such that saturation of the flyback SMPS is reduced. 12. The saturation controller of claim 11 , wherein the stroke length detector comprises a pulse width detector configured to measure a signal pulse width at a switch connected to a primary winding of a transformer of the flyback SMPS. 13. The saturation controller of claim 12 , wherein the pulse width detector is further configured to measure the signal pulse width of a signal at a gate terminal of the switch. 14. The saturation controller of claim 12 , wherein the stroke length comparator comprises a pulse width comparator configured to compare the signal pulse width at the switch with a previous signal pulse width at the switch to generate the comparison result. 15. The saturation controller of claim 11 , wherein the switching period controller is further configured to extend the switching period time of the flyback SMPS if the length related to the primary stroke is shorter than the length related to the previous primary stroke. 16. The saturation controller of claim 11 , wherein the switching period controller is further configured to reduce the switching period time of the flyback SMPS if the length related to the primary stroke is longer than or equal to the length related to the previous primary stroke. 17. The saturation controller of claim 11 , wherein the switching period controller is further configured to adjust a signal at a switch connected to a primary winding of a transformer of the flyback SMPS based on the comparison result. 18. The saturation controller of claim 17 , wherein the switching period controller is further configured to adjust the signal at the switch based on the comparison result, a second signal at the switch and a third signal from an opto coupler of the flyback SMPS. 19. The saturation controller of claim 11 , wherein the switching period controller is further configured to adjust a signal at a gate terminal of a switch connected to a primary winding of a transformer of the flyback SMPS based on the comparison result. 20. A method of saturation control for a flyback switched-mode power supply (SMPS), the method comprising: measuring a signal pulse width at a switch connected to a primary winding of a transformer of the flyback SMPS; comparing the signal pulse width to a length related to a previous signal pulse width at the switch to generate a comparison result; and adjusting a switching period time of the flyback SMPS based on the comparison result, a second signal at the switch and a third signal from an opto coupler of the flyback SMPS such that saturation of the flyback SMPS is reduced.