Apparatus and method for age-compensating control for a power converter

What is claimed is: 1. An apparatus for providing age-compensation control for a power converter, the apparatus comprising: a controller for being operably coupled to a power converter including a plurality of phases for converting a first input signal into a first output signal, the controller being configured to: activate at least one first switch for a first phase from the plurality of phases for converting the first input signal into the first output signal; determine an aging condition for the at least one first switch for the first phase based on an equivalent time, Teq of the at least one first switch, wherein Teq corresponds to an amount of time the at least one first switch is active and on an operating temperature of the at least one first switch while the at least one first switch is active; deactivate the first phase in response to the at least one first switch exhibiting a maximum aged condition; compare the Teq to a first fixed value prior to determining that the at least one first switch is exhibiting the maximum aged condition, and store a value corresponding to Teq in a counter if Teq exceeds the first fixed value. 2. The apparatus of claim 1 wherein the controller is further configured to compare the value in the counter to a first predefined maximum threshold. 3. The apparatus of claim 2 wherein the controller is further configured determine that the at least one first switch exhibits the maximum aged condition in response to the value in the counter exceeding the first predefined maximum threshold. 4. The apparatus of claim 1 wherein the controller is further configured to activate the at least one first switch for the first phase and at least one second switch form a second phase of the plurality of phases based on an desired output current of the power converter to equalize the manner in which the first phase and the second phase are used. 5. An apparatus for providing age-compensation control for a power converter, the apparatus comprising: a controller for being operably coupled to a power converter including a plurality of phases for converting a first voltage signal into a second voltage signal, the controller being configured to: activate at least one first switch for a first phase form the plurality of phases for converting the first voltage signal into the second voltage signal; determine an aging condition for the at least one first switch for the first phase based on an equivalent time, Teq of the at least one first switch, wherein Teq corresponds to an amount of time the at least one first switch is active and on an operating temperature of the at least one first switch while the at least one first switch is active; and activate the at least one first switch for the first phase and at least one second switch from a second phase of the plurality of phases based on an desired output current of the power converter to equalize the manner in which the first phase and the second phase are used. 6. The apparatus of claim 5 wherein the controller is further configured to deactivate the first phase in response to the at least one first switch exhibiting a maximum of aged condition. 7. The apparatus of claim 6 wherein the controller is further configured to compare the Teq to a first fixed value prior to determining that the at least one first switch is exhibiting the maximum aged condition. 8. The apparatus of claim 7 wherein the controller is further configured to store a value corresponding to Teq in a counter if Teq exceeds the first fixed value. 9. The apparatus of claim 8 wherein the controller is further configured to compare the value in the counter to a first predefined maximum threshold. 10. The apparatus of claim 9 wherein the controller is further configured determine that the at least one first switch exhibits the maximum aged condition in response to the value in the counter exceeding the first predefined maximum threshold. 11. A method for providing age-compensation control for a power converter, the method comprising: converting, with a power converter including a plurality of phases, a first voltage signal into a second voltage signal; activating at least one first switch for a first phase from the plurality of phases for converting the first voltage signal into the second voltage signal; determining an aging condition for the at least one first switch for the first phase based on an equivalent time, Teq of the at least one first switch, wherein Teq corresponds to an amount of time the at least one first switch is active and on an operating temperature of the at least one first switch while the at least one first switch is active; deactivating the first phase in response to the at least one first switch exhibiting a maximum aged condition; comparing the Teq to a first fixed value prior to determining that the at least one first switch is exhibiting the maximum aged condition; and storing a value corresponding to Teq in a counter if Teq exceeds the first fixed value. 12. The method of claim 11 further comprising comparing the value in the counter to a first predefined maximum threshold. 13. The method of claim 12 further comprising determining that the at least one first switch exhibits the maximum aged condition in response to the value in the counter exceeding the first predefined maximum threshold.