System and method for calibrating a control system operating an electric heater

What is claimed is: 1. A method for calibrating a control system configured to operate a two-wire heater, the two-wire heater being operable to generate heat and to function as a sensor for measuring temperature of the two-wire heater, the method comprising: controlling, by the control system, the two-wire heater to a temperature setpoint from among a plurality of temperature setpoints; concurrently acquiring voltage and current (V-I) characteristics of the two-wire heater from the control system and temperature dataset of the two-wire heater from a temperature sensor system, wherein the V-I characteristics and the temperature dataset are acquired for each of the plurality of temperature setpoints; determining, for each of the plurality of temperature setpoints, a resistance of the two-wire heater based on the V-I characteristics acquired; calculating, for each of the plurality of temperature setpoints, a temperature metrology data based on the temperature dataset acquired; correlating the resistances of the two-wire heater and the temperature metrology data for the plurality of temperature setpoints; and defining a resistance-temperature calibration reference for determining a working temperature of the two-wire heater based on a measured resistance of the two-wire heater. 2. The method of claim 1 , wherein the concurrently acquiring the V-I characteristics of the two-wire heater and the temperature dataset further comprises: measuring, by a sensor circuit of the control system, the V-I characteristics of the two-wire heater; and measuring, by the temperature sensor system, a plurality of temperature measurements of the two-wire heater at the temperature setpoint, wherein the plurality of temperature measurements is provided as the temperature dataset for the temperature setpoint. 3. The method of claim 1 , wherein the temperature metrology data includes a mean temperature, a median temperature, a temperature variance, a standard deviation, a maximum temperature, a minimum temperature, a temperature range, a 3-sigma value, or a combination thereof. 4. The method of claim 1 , wherein the two-wire heater includes a plurality of resistive heating elements that define a plurality of zones, the control system is configured to control each zone independently, the V-I characteristics of the two-wire heater acquired from the control system includes V-I characteristics for each of the plurality of zones, wherein the V-I characteristics for a zone among the plurality of zones is provided as a zone characteristic, and the temperature dataset of the two-wire heater acquired from the temperature sensor system includes at least one temperature measurement for each of the plurality of zones. 5. The method of claim 4 , wherein controlling, by the control system, the two-wire heater to the temperature setpoint further comprises: providing power to the plurality of zones of the two-wire heater; obtaining a temperature for each of the plurality of zones of the two-wire heater; and adjusting power to the plurality of zones in response to the temperature of one or more zones from among the plurality of zones not equaling the temperature setpoint. 6. The method of claim 4 , wherein the temperature sensor system includes a plurality of temperature sensors, wherein the method further comprises associating, for each zone of the plurality of zones, one or more temperature sensors among the plurality of temperature sensors with a respective zone, wherein the one or more temperature sensors are configured to provide temperature measurements of the temperature for the respective zone. 7. The method of claim 6 , wherein each of the plurality of zones is associated with two or more temperature sensors from among the plurality of temperature sensors, the two or more temperature sensors are provided as a sensing group, and the method further comprises: performing, for each sensing group, a sensor diagnostic to identify a faulty temperature sensor from among temperatures sensors of the sensing group based on the temperature measurements from the sensing group; discarding the temperature measurement from the faulty temperature sensor in response to the sensor diagnostic identifying the faulty temperature sensor and when a number of identified faulty temperature sensor is less than a faulty sensor threshold; and shutting off power to the two-wire heater in response to the sensor diagnostic identifying the faulty temperature sensor and when the number of identified faulty temperature sensor is greater than the faulty sensor threshold. 8. The method of claim 6 , wherein each of the plurality of zones is associated with two or more temperature sensors from among the plurality of temperature sensors, the two or more temperature sensors are provided as a sensing group and the method further comprises: calculating, for each sensing group, a zone temperature metrology data based on the temperature measurements from the two or more temperature sensors of respective sensing group. 9. The method of claim 8 , wherein the zone temperature metrology data includes a mean temperature, a median temperature, a temperature variance, a standard deviation, a maximum temperature, a minimum temperature, a temperature range, a 3-sigma value, or a combination thereof. 10. A method for calibrating a control system configured to operate a two-wire heater, the two-wire heater being operable to generate heat and to function as a sensor for measuring temperature of the two-wire heater, the method comprising: controlling, by the control system, the two-wire heater to a temperature setpoint from among a plurality of temperature setpoints; concurrently acquiring voltage and current (V-I) characteristics of the two-wire heater from the control system and temperature dataset of the two-wire heater from a temperature sensor system, wherein the V-I characteristics and the temperature dataset are acquired for each of the plurality of temperature setpoints, the temperature sensor system includes a plurality of temperature sensors; performing a sensor diagnostic to identify a faulty temperature sensor from among the plurality of temperature sensors based on temperature measurements; discarding the temperature measurement from the faulty temperature sensor in response to the sensor diagnostic identifying the faulty temperature sensor and a number of identified faulty temperature sensor is less than a faulty sensor threshold; and shutting off power to the two-wire heater in response to the sensor diagnostic identifying the faulty temperature sensor and the number of identified faulty temperature sensor is greater than the faulty sensor threshold. 11. The method of claim 10 , wherein in response to the sensor diagnostic not identifying the faulty temperature sensor or the number of identified faulty temperature sensor is less than the faulty sensor threshold, the method further comprises: determining, for each of the plurality of temperature setpoints, a resistance of the two-wire heater based on the V-I characteristics acquired; calculating, for each of the plurality of temperature setpoints, a temperature metrology data based on the temperature dataset; correlating the resistances of the two-wire heater and the temperature metrology data for the plurality of temperature setpoints; and defining a resistance-temperature calibration reference for determining a working temperature of the two-wire heater based on a measured resistance of the two-wire heater. 12. The method of claim 10 , wherein the concurrently acquiring the V-I characteristics of the two-wire heater and the temperature dataset further comprises: measuring,