Furnace control systems and methods

The invention claimed is: 1. A furnace of a heating, ventilation, and/or air conditioning (HVAC) system, comprising: a heat exchange tube configured to receive a working fluid from a burner; a modulating valve fluidly coupled to the burner and configured to regulate an amount of fuel supplied to the burner to generate the working fluid; a blower configured to draw the working fluid through the heat exchange tube; a motor drive configured to adjust a speed of the blower; and a controller configured to incrementally adjust a position of the modulating valve and control the motor drive to incrementally adjust the speed of the blower during execution of a first rate-of-change control scheme to increase a heat output of the furnace at a first rate based on a difference between a temperature of air discharged from the HVAC system and a temperature setpoint being greater than a threshold amount, and to incrementally adjust the position of the modulating valve and control the motor drive to incrementally adjust the speed of the blower during execution of a second rate-of-change control scheme to increase the heat output of the furnace at a second rate based on the difference between the temperature of the air discharged from the HVAC system and the temperature setpoint being equal to or less than the threshold amount. 2. The furnace of claim 1 , wherein the first rate-of-change control scheme includes incrementally adjusting the position of the modulating valve and incrementally adjusting the speed of the blower based on a first time interval, and the second rate-of-change control scheme includes incrementally adjusting the position of the modulating valve and incrementally adjusting the speed of the blower based on a second time interval that is greater than the first time interval. 3. The furnace of claim 1 , wherein the heat exchange tube is one of a plurality of heat exchange tubes configured to receive the working fluid from the burner. 4. The furnace of claim 3 , wherein the burner comprises a system of assembled burners. 5. The furnace of claim 3 , wherein the furnace includes an additional plurality of heat exchange tubes configured to receive an additional working fluid and an additional blower fluidly coupled to the additional plurality of heat exchange tubes to draw the additional working fluid through the additional plurality of heat exchange tubes. 6. The furnace of claim 5 , comprising a two-stage valve fluidly coupled to the additional plurality of heat exchange tubes and configured to regulate an additional amount of fuel supplied to generate the additional working fluid. 7. The furnace of claim 5 , wherein the additional blower is a two-stage blower. 8. The furnace of claim 1 , wherein the modulating valve is configured to modulate between more than three positions. 9. The furnace of claim 1 , wherein the HVAC system is a rooftop unit. 10. The furnace of claim 1 , wherein the controller is a controller system including a first automation controller configured to control the modulating valve and a second automation controller configured to control the motor drive. 11. A furnace of a heating, ventilation, and/or air conditioning (HVAC) system, comprising: a heat exchange tube configured to receive a working fluid from a burner; a modulating valve fluidly coupled to the burner and configured to regulate an amount of fuel supplied to the burner to generate the working fluid; a blower configured to draw the working fluid through the heat exchange tube; a motor drive configured to adjust a speed of the blower; and a controller configured to adjust a position of the modulating valve and control the motor drive to adjust the speed of the blower with a first rate-of-change control scheme and with a second rate-of-change control scheme based on a measured parameter of air discharged from the HVAC system, wherein, during execution of the first rate-of-change control scheme, the controller is configured to incrementally adjust the position of the modulating valve and operate the motor drive to incrementally adjust the speed of the blower upon lapse of a first time interval, and, during execution of the second rate-of-change control scheme, the controller is configured to incrementally adjust the position of the modulating valve and operate the motor drive to incrementally adjust the speed of the blower upon lapse of a second time interval different than the first time interval. 12. The furnace of claim 11 , wherein the controller is configured to incrementally adjust the position of the modulating valve and configured to control the motor drive to incrementally adjust the speed of the blower using the first rate-of-change control scheme based on a difference between the measured parameter of the air discharged from the HVAC system and a target setpoint being greater than a threshold amount, and wherein the controller is configured to incrementally adjust the position of the modulating valve and configured to control the motor drive to incrementally adjust the speed of the blower using the second rate-of-change control scheme based on the difference between the measured parameter of the air discharged from the HVAC system and the target setpoint being equal to or less than the threshold amount. 13. The furnace of claim 11 , wherein, during execution of the first rate-of-change control scheme, the controller is configured to incrementally adjust the position of the modulating valve and operate the motor drive to incrementally adjust the speed of the blower with adjustment increments having a first magnitude upon lapse of the first time interval, and, during execution of the second rate-of-change control scheme, the controller is configured to incrementally adjust the position of the modulating valve and operate the motor drive to incrementally adjust the speed of the blower with adjustment increments having a second magnitude upon lapse of the second time interval. 14. The furnace of claim 13 , wherein the first magnitude is greater than the second magnitude. 15. The furnace of claim 14 , wherein the first time interval is less than the second time interval. 16. The furnace of claim 11 , comprising: an additional heat exchange tube configured to receive an additional working fluid from an additional burner; a two-stage blower configured to draw the additional working fluid through the additional heat exchange tube; and a two-stage valve fluidly coupled to the additional heat exchange tube and configured to regulate an additional amount of fuel supplied to the additional burner to generate the additional working fluid. 17. The furnace of claim 16 , wherein the controller is configured to adjust a stage of the two-stage valve and an operational speed stage of the two-stage blower based on a determination that the modulating valve is in a fully open position. 18. The furnace of claim 11 , wherein the measured parameter of the air discharged from the HVAC system is a temperature of the air discharged from the HVAC system. 19. A furnace of a heating, ventilation, and/or air conditioning (HVAC) system, comprising: a modulating valve configured to control a fuel flow to a burner configured to combust the fuel flow to generate a working fluid and discharge the working fluid into a heat exchange tube; a blower configured to draw the working fluid through the heat exchange tube; a motor drive configured to adjust a speed of the blower; and a controller configured to adjust the modulating valve and control the motor drive to adjust the speed of t