Pfm-pwm control for power regulators

What is claimed is: 1. A method comprising: generating output power based on a switching signal; comparing the output power to a target power; and increasing or decreasing the output power according to a result of comparing the output power to the target power, by performing pulse frequency modulation (PFM) at a first time and pulse width modulation (PWM) at a second time, the second time being different from the first time; wherein increasing the output power includes: determining whether a frequency of the switching signal is less than a maximum frequency of the switching signal; increasing the frequency of the switching signal and maintaining an on-time of the switching signal substantially the same when the frequency of the switching signal is less than the maximum frequency; and increasing the on-time of the switching signal and maintaining the frequency of the switching signal substantially the same when the frequency of the switching signal is equal to or greater than the maximum frequency. 2. The method of claim 1 , wherein the maximum frequency of the switching signal is in a range from 120 KHz to 130 KHz. 3. The method of claim 1 , wherein increasing the output power further includes: determining whether the on-time of the switching signal is less than a maximum duration of the switching signal; increasing the on-time of the switching signal and maintaining the frequency of the switching signal substantially the same when the on-time of the switching signal is less than the maximum duration; and increasing the frequency of the switching signal and maintaining the on-time of the switching signal substantially the same when the on-time of the switching signal is equal to or greater than the maximum duration. 4. The method of claim 1 , wherein decreasing the output power includes: determining whether the frequency of the switching signal is greater than a minimum frequency; decreasing the frequency of the switching signal and maintaining the on-time of the switching signal substantially the same when the frequency of the switching signal is greater than the minimum frequency; and decreasing the on-time of the switching signal and maintaining the frequency of the switching signal substantially the same when the frequency of the switching signal is equal to or less than the minimum frequency. 5. The method of claim 4 , wherein the minimum frequency of the switching signal is in a range from 70 KHz to 90 KHz. 6. The method of claim 1 , wherein decreasing the output power includes: determining whether the on-time of the switching signal is greater than a minimum duration of the switching signal; decreasing the on-time of the switching signal and maintaining the frequency of the switching signal substantially the same when the on-time of the switching signal is greater than the minimum duration; and decreasing the frequency of the switching signal and maintaining the on-time of the switching signal substantially the same when the on-time of the switching signal is equal to or less than the minimum duration. 7. The method of claim 1 , further comprising: receiving a signal indicative of the target power from an external device. 8. The method of claim 1 , further comprising: detecting the output power; providing a signal indicative of the detected output power; and determining whether the output power becomes substantially equal to the target power based on the provided signal. 9. An apparatus comprising: a power regulator configured to generate output power based on a switching signal; and a pulse frequency and width modulation (PFWM) controller coupled to the power regulator, and configured to compare the output power to a target power and to increase or decrease the output power according to a result of comparing the output power to the target power, by performing pulse frequency modulation (PFM) at a first time and pulse width modulation (PWM) at a second time, the second time being different from the first time, wherein the PFWM controller is configured to determine whether a frequency of the switching signal is greater than a minimum frequency, and wherein the PFWM controller is configured to decrease the frequency of the switching signal and maintain an on-time of the switching signal substantially the same to decrease the output power when the frequency of the switching signal is greater than the minimum frequency. 10. The apparatus of claim 9 , further comprising: a switching device coupled between the power regulator and the PFWM controller and configured to receive the switching signal from the PFWM controller and cause a current to flow through the switching device according to the switching signal, wherein the PFWM controller is configured to determine whether the frequency of the switching signal is less than a maximum frequency of the switching signal, wherein the PFWM controller is configured to increase the frequency of the switching signal and maintain the on-time of the switching signal substantially the same to increase the output power when the frequency of the switching signal is less than the maximum frequency, and wherein the PFWM controller is configured to increase the on-time of the switching signal and maintain the frequency of the switching signal substantially the same to increase the output power when the frequency of the switching signal is equal to or greater than the maximum frequency. 11. The apparatus of claim 10 , wherein the maximum frequency of the switching signal is in a range from 120 KHz to 130 KHz. 12. The apparatus of claim 9 , further comprising: a switching device coupled between the power regulator and the PFWM controller and configured to receive the switching signal from the PFWM controller and cause a current to flow through the switching device according to the switching signal, wherein the PFWM controller is configured to determine whether the on-time of the switching signal is less than a maximum duration of the switching signal, wherein the PFWM controller is configured to increase the on-time of the switching signal and maintain the frequency of the switching signal substantially the same to increase the output power when the on-time of the switching signal is less than the maximum duration, and wherein the PFWM controller is configured to increase the frequency of the switching signal and maintain the on-time of the switching signal substantially the same to increase the output power when the on-time of the switching signal is equal to or greater than the maximum duration. 13. The apparatus of claim 9 , further comprising: a switching device coupled between the power regulator and the PFWM controller and configured to receive the switching signal from the PFWM controller and cause a current to flow through the switching device according to the switching signal, wherein the PFWM controller is configured to decrease the on-time of the switching signal and maintain the frequency of the switching signal substantially the same to decrease the output power when the frequency of the switching signal is equal to or less than the minimum frequency. 14. The apparatus of claim 13 , wherein the minimum frequency of the switching signal is in a range from 70 KHz to 90 KHz. 15. The apparatus of claim 9 , further comprising: a switching device coupled between the power regulator and the PFWM controller and configured to receive the switching signal from the PFWM controller and cause a current to flow through the switching device according to the switching signal, wherein the PFWM controller is configured to determine whether th