Heating furnace using energy saving mode

The invention claimed is: 1. A heating control system comprising: an air circulation fan configurable to operate at a plurality of speeds; a heating unit operably coupled to the air circulation fan, wherein the heating unit comprises a plurality of burners, and wherein the heating unit is configurable to operate with less than all of the burners active; a memory operable to store a plurality of temperature rise thresholds; a microprocessor operably coupled to the air circulation fan, the heating unit, and the memory, and configured to: transmit a first electrical signal to operate the air circulation fan at a first speed and the heating unit in a first configuration with at least one active burner from the plurality of burners to achieve a first temperature rise, wherein less than all of the burners are active when the heating unit is in the first configuration; compare the first temperature rise to a first temperature rise threshold; transmit a second electrical signal to transition the air circulation fan from the first speed to a second speed and to transition the heating unit from the first configuration to a second configuration to achieve a second temperature rise when the first temperature rise is less than the first temperature rise threshold, wherein the second speed is less than the first speed, the second temperature rise is greater than the first temperature rise, and transitioning the heating unit from the first configuration to the second configuration comprises: switching from a first set of active burners in a first segment of a gas manifold to a second set of active burners in a second segment of the gas manifold, wherein the second set of active burners has more active burners than the first set of active burners; and increasing a pressure for a gas valve for the active burners; compare the second temperature rise to a second temperature rise threshold; and transmit a third electrical signal to transition the air circulation fan from the second speed to a third speed and to transition the heating unit from the second configuration to a third configuration when the second temperature rise is greater than the second temperature rise threshold, wherein the third speed is greater than the second speed, and wherein transitioning the heating unit from the second configuration to the third configuration comprises: switching from the second set of active burners in the second segment of the gas manifold to the first set of active burners in the first segment of the gas manifold; and decreasing the pressure for the gas valve for the active burners. 2. The system of claim 1 , wherein: the memory is operable to store a temperature map that maps temperature rises to speeds of the air circulation fan; and the microprocessor is configured to determine the second speed using the second temperature rise and the temperature map. 3. The system of claim 1 , wherein transitioning the heating unit from the first configuration to the second configuration activates all of the burners in the plurality of burners. 4. A heating control device comprising: input/output (I/O) ports configured to transmit and receive electrical signals; a memory operable to store a plurality of temperature rise thresholds; a microprocessor operably coupled to the I/O ports and the memory, and configured to: transmit a first electrical signal to operate an air circulation fan at a first speed and a heating unit in a first configuration with at least one active burner from a plurality of burners to achieve a first temperature rise, wherein less than all of the burners are active when the heating unit is in the first configuration; compare the first temperature rise to a first temperature rise threshold; transmit a second electrical signal to transition the air circulation fan from the first speed to a second speed and to transition the heating unit from the first configuration to a second configuration to achieve a second temperature rise when the first temperature rise is less than the first temperature rise threshold, wherein the second speed is less than the first speed, the second temperature rise is greater than the first temperature rise, and transitioning the heating unit from the first configuration to the second configuration comprises: switching from a first set of active burners in a first segment of a gas manifold to a second set of active burners in a second segment of the gas manifold, wherein the second set of active burners has more active burners than the first set of active burners; and increasing a pressure for a gas valve for the active burners; compare the second temperature rise to a second temperature rise threshold; and transmit a third electrical signal to transition the air circulation fan from the second speed to a third speed and to transition the heating unit from the second configuration to a third configuration to achieve a third temperature rise when the second temperature rise is greater than the second temperature rise threshold, wherein the third speed is greater than the second speed, and wherein the third temperature rise is less than the second temperature rise, wherein transitioning the heating unit from the second configuration to the third configuration comprises: switching from the second set of active burners in the second segment of the gas manifold to the first set of active burners in the first segment of the gas manifold; and decreasing the pressure for the gas valve for the active burners. 5. The device of claim 4 , wherein: the memory is operable to store a temperature map that maps temperature rises to speeds of the air circulation fan; and the microprocessor is configured to determine the second speed using the second temperature rise and the temperature map. 6. The device of claim 4 , wherein transitioning the heating unit from the first configuration to the second configuration activates all of the burners in the plurality of burners. 7. A heating control method comprising: operating, by a microprocessor, an air circulation fan at a first speed and a heating unit in a first configuration with at least one active burner from a plurality of burners to achieve a first temperature rise, wherein less than all of the burners are active when the heating unit is in the first configuration; comparing, by the microprocessor, the first temperature rise to a first temperature rise threshold; transitioning, by the microprocessor, the air circulation fan from the first speed to a second speed and the heating unit from the first configuration to a second configuration to achieve a second temperature rise when the first temperature rise is less than the first temperature rise threshold, wherein the second speed is less than the first speed, the second temperature rise is greater than the first temperature rise, and transitioning the heating unit from the first configuration to the second configuration comprises: switching from a first set of active burners in a first segment of a gas manifold to a second set of active burners in a second segment of the gas manifold, wherein the second set of active burners has more active burners than the first set of active burners; and increasing a pressure for a gas valve for the active burners; comparing, by the microprocessor, the second temperature rise to a second temperature rise threshold; and transitioning, by the microprocessor, the air circulation fan from the second speed to a third speed and the heating unit from the second configuration to the first configuration to achieve a third temperature rise when the second temperature rise is greater than the second temperature rise threshold, wherein the third speed is greater than the second speed, and wherein the third temperatu