System and method for controlling conduit heating

What is claimed is: 1. A pressure support system for delivering a flow of breathing gas to an airway of a patient, comprising: a base unit structured to generate the flow of breathing gas and including a heating control unit; a conduit coupled to the base unit and structured to carry the flow of breathing gas; a thermistor disposed in the conduit; and first and second resistive wires extending along the conduit from the base unit to the thermistor, wherein the heating control unit is structured to selectively operate in a first mode to heat the conduit using the first and second resistive wires and a second mode to sense a temperature of airflow in the conduit with the thermistor via the first and second resistive wires; and wherein the heating control unit includes: a first voltage source having a first voltage level; a first switch electrically coupled between the first voltage source and a first end of the first resistive wire; a second voltage source having a second voltage level that is less than the first voltage level; a second switch electrically coupled between the second voltage source and the first end of the first resistive wire; a neutral reference point electrically connected to the second resistive wire; and a processor structured to control the first and second switches to selectively open and close such that the first and second voltage sources are selectively connected to the neutral reference point. 2. The pressure support system of claim 1 , wherein the processor is structured to control the first switch to close and the second switch to open when the heating control unit is operating in the first mode and to control the first switch to open and the second switch to close when the heating control unit is operating in the second mode. 3. The pressure support system of claim 1 , further comprising: a voltage sensing circuit disposed in the conduit and electrically connected to the first and second resistive wires; and a third switch disposed in the conduit and electrically connected in parallel with the thermistor, wherein the voltage sensing circuit is structured to sense a voltage level of the first resistive wire and to control the third switch based on the sensed voltage level, wherein the voltage sensing circuit is structured to control the third switch to open in response to sensing that the voltage level of the first resistive wire is less than the first voltage level of the first voltage source and to otherwise control the third switch to close. 4. The pressure support system of claim 1 , further comprising: a silicon controlled rectifier electrically connected in parallel with the thermistor, wherein the silicon controlled rectifier includes a gate electrically connected to one of the first and second resistive wires. 5. The pressure support system of claim 1 , further comprising: a first silicon controlled rectifier electrically connected in parallel with the thermistor; and a second silicon controlled rectifier electrically connected in parallel with the thermistor, wherein the first silicon controlled rectifier includes a gate electrically connected to the first resistive wire and the second silicon controlled rectifier includes a gate electrically connected to the second resistive wire. 6. The pressure support system of claim 5 , wherein the first silicon controlled rectifier includes an anode electrically connected to the first resistive wire and a cathode electrically connected to the second resistive wire, and wherein the second silicon controlled rectifier includes an anode electrically connected to the second resistive wire and a cathode electrically connected to the first resistive wire. 7. The pressure support system of claim 1 , further comprising: a TRIAC electrically connected in parallel with the thermistor, wherein the TRIAC includes a gate electrically connected to one of the first and second resistive wires. 8. The pressure support system of claim 1 , wherein the processor is electrically connected to the first resistive wire and is structured to sense the temperature from the thermistor. 9. The pressure support system of claim 1 , wherein the first voltage level is in a range of about 12-24 VDC, and wherein the second voltage level is in a range of about 3.3-5 VDC. 10. A method of heating airflow in a conduit of a pressure support system, the method comprising: providing a base unit structured to generate a flow of breathing gas and including a heating control unit, the conduit coupled to the base unit and structured to carry the flow of breathing gas, a thermistor disposed in the conduit, and first and second resistive wires extending along the conduit from the base unit to the thermistor; operating the heating control unit in a first mode to heat the conduit using the first and second resistive wires; operating the heating control unit in a second mode to sense a temperature of airflow in the conduit with the thermistor via the first and second resistive wires; and providing, in the heating control unit, a first voltage source having a first voltage level, a first switch electrically coupled between the first voltage source and a first end of the first resistive wire, a second voltage source having a second voltage level that is less than the first voltage level, a second switch electrically coupled between the second voltage source and the first end of the first resistive wire, a neutral reference point electrically connected to the second resistive wire, and a processor structured to control the first and second switches to selectively open and close such that the first and second voltage sources are selectively connected to the neutral reference point. 11. The method of claim 10 , wherein operating the heating control unit in a first mode to heat the conduit using the first and second resistive wires includes controlling the first switch to close and the second switch to open, and wherein operating the heating control unit in a second mode to sense a temperature of airflow in the conduit with the thermistor via the first and second resistive wires includes controlling the first switch to open and the second switch to close. 12. The method of claim 10 , further comprising: providing a voltage sensing circuit disposed in the conduit and electrically connected to the first and second resistive wires, and a third switch disposed in the conduit and electrically connected in parallel with the thermistor; sensing a voltage level of the first resistive wire with the voltage sensing circuit; controlling the third switch to open when the sensed voltage level of the first resistive wire is less than the first voltage level of the first voltage source; and controlling the third switch to close when the sensed voltage level of the first resistive wire is not less than the first voltage level of the first voltage source. 13. The method of claim 10 , further comprising: providing a silicon controlled rectifier electrically connected in parallel with the thermistor and having a gate electrically connected to one of the first and second resistive wires. 14. The method of claim 10 , further comprising: providing a TRIAC electrically connected in parallel with the thermistor and having a gate electrically connected to one of the first and second resistive wires.