Overload protection for power converter

What is claimed is: 1. A method for controlling a power converter, the method comprising: comparing a value of a current sense signal to a value of a threshold signal; generating an output signal that has a first logic value throughout a plurality of periods of the current sense signal in response to a comparison result of the current sense signal to the threshold signal, each of the plurality of periods including a time when the value of the current sense signal is equal to or greater than the value of the threshold signal; adjusting a value of a first count signal in response to the output signal; comparing the value of the first count signal to a value of a reference signal; and determining whether or not the power converter is operating in an overload condition, wherein adjusting the value of the first count signal includes increasing the value of the first count signal when the value of the current sense signal is equal to or greater than the value of the threshold signal throughout the plurality of periods of the current sense signal. 2. The method of claim 1 , further comprising: generating an overload protection signal that has a specific logic value when the value of the first count signal has a given value relative to that of the reference signal, the specific logic value of the overload protection signal indicating that the power converter is operating in the overload condition. 3. The method of claim 1 , further comprising: generating a comparison signal indicative of the comparison result in response to the current sense signal and the threshold signal; and generating a counter input signal in response to the output signal and an oscillation signal, wherein the output signal is generated in response to the comparison signal and a modulation signal, and the value of the first count signal is increased in response to the counter input signal when the value of the current sense signal is equal to or greater than the value of the threshold signal, and wherein adjusting the value of the first count signal further includes maintaining or decreasing the value of the first count signal in response to the counter input signal when the value of the current sense signal is less than the value of the threshold signal. 4. The method of claim 1 , further comprising generating an overload protection signal that has the first logic value when the value of the first count signal is equal to or greater than that of the reference signal, the first logic value of the overload protection signal indicating that the power converter is operating in the overload condition. 5. The method of claim 1 , wherein the value of the threshold signal is determined based on one or more of a switching frequency of a modulation signal, an on-time duration of the modulation signal, an instantaneous value of an input voltage of the power converter, and a peak value of the input voltage. 6. The method of claim 1 , wherein the plurality of periods of the current sense signal is a first plurality of periods, the method further comprising generating the output signal that has a second logic value throughout a second plurality of periods of the current sense signal when the value of the current sense signal is kept less than the value of the threshold signal. 7. A circuit for controlling a power converter comprising: an overload monitor configured to compare a value of a current sense signal to a value of a threshold signal, to generate an output signal that has a first logic value throughout a plurality of periods of the current sense signal in response to a comparison result of the current sense signal to the threshold signal, each of the plurality of periods including a time when the value of the current sense signal is equal to or greater than the value of the threshold signal, and to adjust a value of a first count signal in response to the output signal, the overload monitor determining whether or not the power converter is operating in an overload condition; and an overload protection signal generator configured to generate an overload protection signal indicating whether or not the power converter is operating in the overload condition, wherein the overload protection signal generator includes a first comparator comparing the value of the first count signal to a value of a reference signal. 8. The circuit of claim 7 , wherein the overload monitor includes: a counter that increases the value of the first count signal when the value of the current sense signal is equal to or greater than the value of the threshold signal. 9. The circuit of claim 8 , wherein the overload monitor further comprises: a second comparator generating a comparison signal indicative of the comparison result in response to the current sense signal and the threshold signal; a flip-flop generating the output signal in response to the comparison signal and a modulation signal; and a logic gate generating a counter input signal in response to the output signal and an oscillation signal, and wherein the counter increases the value of the first count signal in response to the counter input signal when the value of the current sense signal is equal to or greater than the value of the threshold signal, and the counter maintains or decreases the value of the first count signal in response to the counter input signal when the value of the current sense signal is less than the value of the threshold signal. 10. The circuit of claim 7 , wherein the overload monitor includes a counter that keeps increasing the value of the first count signal when the value of the current sense signal is equal to or greater than the value of the threshold signal throughout the plurality of periods of the current sense signal. 11. The circuit of claim 7 , wherein the first comparator generates the overload protection signal that has the first logic value when the value of the first count signal is equal to or greater than that of the reference signal, the first logic value of the overload protection signal indicating that the power converter is operating in the overload condition. 12. The circuit of claim 7 , wherein the value of the threshold signal is determined based on one or more of a switching frequency of a modulation signal, an on-time duration of the modulation signal, an instantaneous value of an input voltage of the power converter, and a peak value of the input voltage. 13. The circuit of claim 7 , wherein the plurality of periods of the current sense signal is a first plurality of periods, the overload monitor is further configured to generating the output signal that has a second logic value throughout a second plurality of periods of the current sense signal when the value of the current sense signal is kept less than the value of the threshold signal. 14. The circuit of claim 7 , wherein the overload monitor comprises: a second comparator generating a comparison signal indicative of the comparison result; and a flip-flop generating the output signal in response to the comparison signal and a modulation signal. 15. A power converter comprising: a switching device; and an overload protection circuit configured to determine an occurrence of an overload of the power converter based on a current sense signal, the current sense signal indicating a magnitude of a current that flows through the switching device, the overload protection circuit generating an overload protection signal indicating the occurrence of the overload, wherein the overload protection circuit includes: an overload monitor configured to compare a value of the current sense signal to a value of a th