Control circuits and methods for regulating output voltages using multiple and/or adjustable reference voltages

The invention claimed is: 1. A method of regulating an output voltage of a switched mode power supply having a variable input voltage and at least one power switch, the method comprising: generating a control signal for the at least one power switch using a reference voltage, the control signal having a duty cycle; determining if a temperature within the switched mode power supply is above a threshold temperature; and in response to determining the temperature is above the threshold temperature, adjusting the reference voltage to adjust the duty cycle of the control signal for the at least one power switch of the switched mode power supply. 2. The method of claim 1 further comprising determining if the duty cycle of the control signal is within a defined range and wherein adjusting the reference voltage includes adjusting the reference voltage to adjust the duty cycle of the control signal for the at least one power switch of the switched mode power supply in response to determining the duty cycle of the control signal is outside the defined range. 3. The method of claim 2 wherein the defined range includes a maximum duty cycle and a minimum duty cycle and wherein adjusting the reference voltage includes adjusting the reference voltage as a function of a defined duty cycle if the temperature is less than the threshold temperature and the duty cycle is greater than the maximum duty cycle. 4. The method of claim 1 wherein the adjusted reference voltage is calculated as a function of a defined duty cycle. 5. The method of claim 1 wherein the reference voltage is a function of the input voltage. 6. A control circuit for regulating an output voltage of a switched mode power supply having a variable input voltage and at least one power switch, the control circuit operable to generate a control signal for the at least one power switch using a reference voltage, the control signal having a duty cycle, determine if a temperature within the switched mode power supply is above a threshold temperature, and in response to determining the temperature is above the threshold temperature, adjust the reference voltage to adjust the duty cycle of the control signal for the at least one power switch of the switched mode power supply. 7. The control circuit of claim 6 wherein the control circuit is operable to determine if the duty cycle of the control signal is within a defined range and adjust the reference voltage to adjust the duty cycle of the control signal for the at least one power switch of the switched mode power supply in response to determining the duty cycle of the control signal is outside the defined range. 8. The control circuit of claim 7 wherein the defined range includes a maximum duty cycle and a minimum duty cycle and wherein the control circuit is operable to adjust the reference voltage as a function of a defined duty cycle if the temperature is less than the threshold temperature and the duty cycle is greater than the maximum duty cycle. 9. The control circuit of claim 7 wherein the adjusted reference voltage is calculated as a function of a defined duty cycle. 10. The control circuit of claim 6 wherein the control circuit is operable to sense the input voltage and wherein the control circuit is operable to determine the reference voltage as a function of the sensed input voltage prior to adjusting the reference voltage in response to determining the temperature is above the threshold temperature. 11. The control circuit of claim 10 wherein the control circuit is operable to determine the reference voltage based on whether the sensed input voltage falls within one of a plurality of voltage ranges, each voltage range associated with a different reference voltage. 12. The control circuit of claim 11 wherein the plurality of voltage ranges are noncontiguous ranges. 13. The control circuit of claim 6 wherein the control circuit comprises a digital controller. 14. A control circuit of claim 13 wherein the control circuit includes a proportional-integral-derivative (PID) control circuit. 15. A switched mode power supply having a variable input voltage and including a power circuit having at least one power switch, and the control circuit of claim 6 . 16. The switched mode power supply of claim 15 wherein the power circuit includes a forward converter. 17. The switched mode power supply of claim 15 wherein the power circuit includes an isolation transformer.