Method and apparatus for mitigating premix burner combustion tone

What is claimed is: 1. A method of calibrating a furnace, comprising: determining a first flame stabilization period for a furnace that avoids detachment of a flame from a burner within a burner box of the furnace; determining a second flame stabilization period that is longer than the first flame stabilization period and avoids emission of a combustion tone; and configuring a controller of the same or another furnace to utilize a third flame stabilization period that has a duration between the first and second flame stabilization periods; wherein each flame stabilization period commences upon ignition of a premixed mixture of air and fuel at the burner while an inducer fan that is in fluid communication with the burner box operates within a first range of fan speeds, and terminates when the rotational speed of the inducer fan increases to a second range of fan speeds that is greater than the entire first range. 2. A method of calibrating a furnace, comprising: determining a first flame stabilization period for a furnace that avoids detachment of a flame from a burner within a burner box of the furnace; determining a second flame stabilization period that is longer than the first flame stabilization period and avoids emission of a combustion tone; and configuring a controller of the same or another furnace to utilize a third flame stabilization period that has a duration between the first and second flame stabilization periods; wherein each flame stabilization period commences upon ignition of a premixed mixture of air and fuel at the burner while an inducer fan that is in fluid communication with the burner box operates within a first range of fan speeds, and terminates when the rotational speed of the inducer fan increases to a second range of fan speeds that is greater than the entire first range; and wherein the method includes cycling the furnace OFF and ON in each of a plurality of iterations, each iteration using a different respective one of a plurality of flame stabilization periods, as part of said determining a first flame stabilization period and said second flame stabilization period. 3. The method of claim 2 , wherein said determining the first flame stabilization period comprises determining a shortest flame stabilization period of the plurality of flame stabilization periods that avoids detachment of the flame from the burner. 4. The method of claim 3 , wherein said determining the shortest flame stabilization period comprises: utilizing an initial flame stabilization period in a given iteration that causes detachment of a flame from the burner; increasing the initial flame stabilization in each of one or more subsequent iterations until a particular flame stabilization period is determined that avoids detachment of a flame from the burner; and selecting the particular flame stabilization period as the first flame stabilization period. 5. The method of claim 3 , wherein said determining the shortest flame stabilization period comprises: utilizing an initial flame stabilization period in a given iteration that avoids detachment of a flame from the burner; decreasing the initial flame stabilization in each of one or more subsequent iterations until a particular flame stabilization period of a particular iteration is determined that detaches of a flame from the burner; and selecting the flame stabilization period from the last iteration prior to the particular iteration as the first flame stabilization period. 6. The method of claim 2 , wherein said determining the second flame stabilization period comprises determining a longest flame stabilization period of the plurality of flame stabilization periods that avoids emission of a combustion tone from the furnace. 7. The method of claim 6 , wherein said determining the longest flame stabilization period comprises: utilizing an initial flame stabilization period in a given iteration that causes a combustion tone from the furnace; decreasing the initial flame stabilization period in each of one or more subsequent iterations until a particular flame stabilization period is determined that avoids emission of a combustion tone from the furnace; and selecting the particular flame stabilization period as the second flame stabilization period. 8. The method of claim 6 , wherein said determining the longest flame stabilization period comprises: utilizing an initial flame stabilization period in a given iteration that avoids a combustion tone from the furnace; increasing the initial flame stabilization period in each of one or more subsequent iterations until a particular flame stabilization period of a particular iteration is determined that causes emission of a combustion tone from the furnace; and selecting the flame stabilization period from the last iteration prior to the particular iteration as the second flame stabilization period. 9. The method of claim 2 , comprising performing the following during each iteration: turning ON an igniter; opening a gas valve of the furnace to provide a flow of gas to the burner while the igniter is turned ON; and detecting a flame from ignition of a premixed mixture of air and fuel at the burner, said detecting performed using a flame sensor that is spaced apart from the igniter. 10. The method of claim 9 , wherein during each iteration, said opening the gas valve is performed after said turning ON the igniter. 11. The method of claim 9 , comprising during each iteration: operating the inducer fan within a third range of fan speeds to purge the burner box prior to said turning ON the igniter and said opening the gas valve. 12. The method of claim 11 , wherein the third range of fan speeds is greater than the entire first range of fan speeds and the entire second range of fan speeds. 13. The method of claim 11 , comprising: during each iteration, turning OFF the inducer fan after said purging, and turning ON the inducer fan within the first range of fan speeds after said turning ON the igniter but before said opening the gas valve. 14. The method of claim 11 , comprising: during each iteration, lowering the rotational speed of the inducer fan from the third range of fan speeds for the purge to the first range of fan speeds for the flame stabilization period without turning OFF the inducer fan. 15. The method of claim 1 , wherein the furnace includes a heat exchanger, and the burner box is part of a burner assembly, the method comprising: measuring a heat exchanger pressure drop (HXDP) across the heat exchanger and burner assembly; wherein the first range of inducer fan speeds provides an HXDP at or within a predefined tolerance of a first HXDP target; and wherein the second range of inducer fan speeds provides an HXDP at or within a predefined tolerance of a second HXDP target that is greater than the first HXDP target. 16. The method of claim 15 , comprising, during the flame stabilization period of each iteration: utilizing the first HXDP target as a setpoint; and adjusting the rotational speed of the inducer fan based on the measured HXDP to approach the first HXDP target. 17. The method of claim 2 , comprising: configuring the controller to utilize the second range of fan speeds for steady state operation of the furnace. 18. The method of claim 2 , comprising: premixing the mixture of air and fuel in the burner box; and providing the mixture to the burner. 19. A furnace comprising: a heat exchanger; a burner assembly in thermal communication with the heat exchanger, the burner assembly