Method and apparatus for measuring at least one of output current and output power for isolated power converters

What is claimed is: 1. A power converter, comprising: a power switch device coupled to a magnetic device; and a controller configured to: generate a switching signal for driving the power switch device, based on a feedback signal and a current sense signal which corresponds to a switching current of the magnetic device; and calculate at least one of an average output current and a maximum output power for the power converter, based on at least two measurements of the current sense signal taken during a turn-on period of the power switch device, a first one of the at least two measurements being taken at the end of a first time delay from the start of the turn-on period, a second one of the at least two measurements being taken when a magnitude of the current sense signal reaches a predefined threshold voltage assigned to the power switch device and above which the power switch device is designed to turn-off. 2. The power converter of claim 1 , wherein in a present switching cycle the controller is configured to determine a turn-off delay from when the current sense signal reaches the predefined threshold voltage assigned to the power switch device to when the power switch device turns off, and wherein in a next switching cycle the controller is operable to set the first time delay for taking the first one of the at least two measurements of the current sense signal to the turn-off delay determined for the present switching cycle. 3. The power converter of claim 2 , wherein the controller is configured to determine the turn-off delay as the amount of time for the magnitude of the current sense signal to decrease from the predefined threshold voltage assigned to the power switch device to zero volts. 4. The power converter of claim 1 , wherein the controller comprises circuitry configured to sample and hold the first one of the at least two measurements at the end of the first time delay, and sample and hold the second one of the at least two measurements when the magnitude of the current sense signal reaches the predefined threshold voltage assigned to the power switch device. 5. The power converter of claim 1 , wherein the controller comprises a comparator configured to compare a sampled version of the current sense signal to the predefined threshold voltage assigned to the power switch device for determining when the magnitude of the current sense signal reaches the predefined threshold voltage of the power switch device. 6. The power converter of claim 1 , wherein the controller is configured to add the first one and the second one of the at least two measurements, and integrate the sum over a turn-off period of the power switch device. 7. The power converter of claim 6 , wherein the controller is configured to decrease the predefined threshold voltage assigned to the power switch device for a next switching cycle if the integrated sum of the first one and the second one of the at least two measurements is above a target voltage plus a tolerance in the present switching cycle, increase the predefined threshold voltage assigned to the power switch device for the next switching cycle if the integrated sum of the first one and the second one of the at least two measurements is below the target voltage less the tolerance in the present switching cycle, and maintain the same predefined threshold voltage assigned to the power switch device for the next switching cycle if the integrated sum of the first one and the second one of the at least two measurements is within a range of the target voltage plus or minus the tolerance in the present switching cycle. 8. The power converter of claim 1 , wherein the controller is configured to calculate the maximum output power for the power converter based on the first one of the at least two measurements, the second one of the at least two measurements and a third one of the at least two measurements taken between the first one and the second one of the at least two measurements. 9. The power converter of claim 8 , wherein the controller is configured to take the third one of the at least two measurements at the end of a second time delay after the first one of the at least two measurements is taken, and wherein the second time delay equals the first time delay. 10. The power converter of claim 9 , wherein in a present switching cycle the controller is configured to determine a turn-off delay from when the current sense signal reaches the predefined threshold voltage assigned to the power switch device to when the power switch device turns off, and wherein in a next switching cycle the controller is operable to set both the first time delay and the second time delay to the turn-off delay determined for the present switching cycle. 11. The power converter of claim 8 , wherein the controller is configured to calculate a valley voltage and a peak voltage based on the first one, the second one and the third one of the at least two measurements, and wherein the controller is operable to calculate a voltage difference value based on the difference between the valley voltage squared and the peak voltage squared. 12. The power converter of claim 11 , wherein the controller is configured to decrease the predefined threshold voltage assigned to the power switch device for a next switching cycle if the voltage difference value is above a target voltage plus a tolerance in the present switching cycle, increase the predefined threshold voltage assigned to the power switch device for the next switching cycle if the voltage difference value is below the target voltage less the tolerance in the present switching cycle, and maintain the same predefined threshold voltage assigned to the power switch device for the next switching cycle if the voltage difference value is within a range of the target voltage plus or minus the tolerance in the present switching cycle. 13. A method of operating a power converter having a power switch device coupled to a magnetic device, the method comprising: generating a switching signal for driving the power switch device, based on a feedback signal and a current sense signal which corresponds to a switching current of the magnetic device; capturing a first measurement of the current sense signal taken at the end of a first time delay from the start of a turn-on period of the power switch device; capturing a second measurement of the current sense signal taken when a magnitude of the current sense signal reaches a predefined threshold voltage assigned to the power switch device and above which the power switch device is designed to turn-off; and calculating at least one of an average output current and a maximum output power for the power converter, based on at least the first and the second captured measurements of the current sense signal. 14. The method of claim 13 , further comprising: in a present switching cycle, determining a turn-off delay from when the current sense signal reaches the predefined threshold voltage assigned to the power switch device to when the power switch device turns off; and in a next switching cycle, setting the first time delay at which the first measurement of the current sense signal is captured to the turn-off delay determined for the present switching cycle. 15. The method of claim 13 , wherein calculating the average output current for the power converter comprises: adding the first and the second captured measurements of the current sense signal; and integrating the sum over a turn-off period of the power switch device. 16. The method of claim 15 , further comprising: decreasing the predefined threshold voltage as