High efficiency modulating gas furnace

What is claimed is: 1. A gas furnace comprising: a furnace controller; an induced draft blower that is coupled to the furnace controller, the induced draft blower comprising an inducer motor that is controlled by the furnace controller and an inducer fan that is coupled to the inducer motor; a pressure switch assembly that is coupled to the furnace controller, the pressure switch assembly comprising at least one pressure switch associated with a firing rate of the gas furnace, wherein an input contact of the at least one pressure switch is connected to an output port of the furnace controller that supplies power to the at least one pressure switch, and wherein an output contact of the at least one pressure switch is connected to an input port of the furnace controller; a gas valve that is connected to an electrical relay; and a backup electrical relay that is connected in series with the electrical relay, wherein an input terminal of the backup electrical relay is connected to the output port of the furnace controller, wherein upon receiving a heat call, the furnace controller is configured to operate the induced draft blower at or close to a lowest speed that is needed to keep electrical contacts of the at least one pressure switch closed, wherein the lowest speed that is needed to keep electrical contacts of the at least one pressure switch closed is below a make point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch close at a steady-state heating condition of the gas furnace, but above a break point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch open at the steady-state heating condition of the gas furnace, wherein when the electrical contacts of the at least one pressure switch remain open for more than a predetermined time period, the furnace controller is configured to increase a speed of the induced draft blower to a new speed to close the electrical contacts of the at least one pressure switch without shutting down the combustion heat cycle, and wherein when a number of attempts to close the electrical contacts of the at least one pressure switch by increasing the speed of the induced draft blower is equal to or greater than a threshold number of attempts, the furnace controller is configured to de-energize the gas valve and shut off the combustion heat cycle by controlling the backup electrical relay and the electrical relay. 2. The gas furnace of claim 1 , wherein the furnace controller is configured to learn and record the make point speed and the break point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch close and open, respectively, during a combustion heat cycle while a fuel-air mixture is being burned and the air circulating blower is energized in the steady-state heating condition of the gas furnace. 3. The gas furnace of claim 1 , wherein the furnace controller is configured to learn and record another make point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch close during the combustion heat cycle prior to an ignition sequence of the combustion heat cycle. 4. The gas furnace of claim 1 , wherein the at least one pressure switch comprises: a low-heat pressure switch that is associated with an operation of the gas furnace at a first firing rate; a medium-heat pressure switch that is associated with an operation of the gas furnace at a second firing rate; and a high-heat pressure switch that is associated with an operation of the gas furnace at a third firing rate, and wherein the first firing rate is a low firing rate, the second firing rate is a medium firing rate, and the third firing rate is a high firing rate. 5. The gas furnace of claim 1 , wherein when the number of attempts to close the electrical contacts of the at least one pressure switch by increasing the speed of the induced draft blower while operating at one firing rate is equal to or greater than a threshold number of attempts, the furnace controller is configured to switch the operation of the gas furnace to a different firing rate. 6. The gas furnace of claim 4 , wherein: when the electrical contacts of the high-heat pressure switch remain open for more than a predetermined time period, the furnace controller is configured to increase a speed of the induced draft blower to close the electrical contacts of the high-heat pressure switch without shutting down the combustion heat cycle, and when the number of attempts to close the electrical contacts of the high-heat pressure switch by increasing the speed of the induced draft blower is equal to or greater than a threshold number of attempts, the furnace controller is configured to switch the operation of the gas furnace to the medium firing rate or the low firing rate. 7. A gas furnace comprising: a furnace controller; an induced draft blower that is coupled to the furnace controller, the induced draft blower comprising an inducer motor that is controlled by the furnace controller and an inducer fan that is coupled to the inducer motor; a pressure switch assembly that is coupled to the furnace controller, the pressure switch assembly comprising at least one pressure switch associated with a firing rate of the gas furnace, wherein an input contact of the at least one pressure switch is connected to an output port of the furnace controller that supplies power to the at least one pressure switch, and wherein an output contact of the at least one pressure switch is connected to an input port of the furnace controller; and a gas valve that is connected to an electrical relay; and a backup electrical relay that is connected in series with the electrical relay, wherein an input terminal of the backup electrical relay is connected to the output port of the furnace controller, wherein upon receiving a heat call, the furnace controller is configured to operate the induced draft blower at or close to a lowest speed that is needed to keep electrical contacts of the at least one pressure switch closed, wherein the lowest speed that is needed to keep electrical contacts of the at least one pressure switch closed is below a make point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch close at a steady-state heating condition of the gas furnace, but above a break point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch open at the steady-state heating condition of the gas furnace, wherein when the electrical contacts of the at least one pressure switch remain open for more than a predetermined time period, the furnace controller is configured to increase a speed of the induced draft blower to a new speed to close the electrical contacts of the at least one pressure switch without shutting down the combustion heat cycle, and wherein if the electrical contacts of the at least one pressure switch close and remain closed for another predetermined time period when the speed of the induced draft blower is increased to the new speed, the furnace controller is configured to: record the new speed as a new make point speed of the induced draft blower at which the electrical contacts of the at least one pressure switch close, and reduce the speed of the induced draft blower from the new make point speed to determine a new break point speed at which the electrical contacts of the at least one pressure switch open. 8. The gas furnace of claim 7 , wherein the furnace controller is configured to: increase the speed of the induced draft blower to the new make point speed to close the electrical contacts of the