Systems and methods for defrost control

What is claimed is: 1. A system for heating a building via refrigerant, the system comprising: a coil temperature sensor configured to measure a coil temperature of an outdoor coil and an ambient temperature sensor configured to measure an outdoor ambient temperature; a controller comprising a processing circuit, the processing circuit configured to: execute a control algorithm to operate the system to heat the building; record a system operating parameter indicating a current operating status of the system and an execution location obtains from the control algorithm before performing a sacrificial defrost cycle, wherein the recorded system operating parameter comprises a speed of a compressor; cause the system to perform the sacrificial defrost cycle and operate the system at predefined system operating parameters other than the recorded system operating parameter; cause the system to operate at the recorded system operating parameter and generate calibration data in response to an ending of the sacrificial defrost cycle by recording the measured coil temperature measured by the coil temperature sensor and the measured outdoor ambient temperature measured by the ambient temperature sensor; cause the control algorithm to operate at the recorded execution location obtains from the control algorithm; and cause the system to perform a defrost cycle based on the generated calibration data, the measured coil temperature measured by the coil temperature sensor, and the measured outdoor ambient temperature measured by the ambient temperature sensor. 2. The system of claim 1 , wherein the processing circuit is configured to perform another sacrificial defrost cycle in response to determining that the measured coil temperature measured by the coil temperature sensor is below a predefined coil temperature during the sacrificial defrost cycle. 3. The system of claim 1 , wherein the processing circuit is configured to cause the system to perform the defrost cycle based on the generated calibration data, the measured coil temperature measured by the coil temperature sensor, and the measured outdoor ambient temperature measured by the ambient temperature sensor in response to a predefined amount of time after the sacrificial defrost cycle in which the measured coil temperature measured by the coil temperature sensor is above a predefined coil temperature during the sacrificial defrost cycle. 4. The system of claim 1 , wherein the processing circuit is configured to cause the system to perform the defrost cycle based on the generated calibration data, the measured coil temperature measured by the coil temperature sensor, and the measured outdoor ambient temperature measured by the ambient temperature sensor in response to a predefined amount of time elapsing after the sacrificial defrost cycle in which the measured coil temperature measured by the coil temperature sensor is below a predefined coil temperature. 5. The system of claim 1 , wherein the generated calibration data comprises the recorded outdoor ambient temperature and a difference between the recorded outdoor ambient temperature and the recorded coil temperature. 6. The system of claim 5 , wherein the processing circuit is configured to determine a frost free curve (FFC) based on the recorded outdoor ambient temperature, the difference between the recorded outdoor ambient temperature and the recorded coil temperature, and a current outdoor ambient temperature measured by the ambient temperature sensor. 7. The system of claim 6 , wherein the processing circuit is configured to: determine a defrost active variable (DAV) based on a temperature dependent variable (TDV) and the FFC, wherein the TDV is dependent on a current coil temperature; and perform the defrost cycle in response to determining that a second difference between the current outdoor ambient temperature and the current coil temperature is greater than the DAV, wherein the current outdoor ambient temperature is measured by the ambient temperature sensor and the current coil temperature is measured by the coil temperature sensor. 8. The system of claim 7 , wherein the processing circuit is configured to determine the TDV based on the current coil temperature and one or more relationships, wherein each of the one or more relationships relates to a predefined range of coil temperature values. 9. The system of claim 1 , wherein the processing circuit causes the system to perform the sacrificial defrost cycle in response to a predefined amount of time elapsing while the measured coil temperature measured by the coil temperature sensor is below a predefined coil temperature. 10. The system of claim 1 , wherein the processing circuit is configured to cause the system to perform the defrost cycle after a predefined amount of time in which no defrost cycle is performed. 11. A method for defrosting an outdoor coil of a heating system, the method comprising: measuring a coil temperature via a coil temperature sensor and measuring an ambient temperature via an ambient temperature sensor; executing a control algorithm for defrosting the outdoor coil of the heating system; recording a speed of a compressor, an opening setpoint of an electronic expansion valve, and an execution location obtains from the control algorithm before performing a sacrificial defrost cycle; performing the sacrificial defrost cycle and operating the heating system at a predefined electronic expansion valve opening setpoint and a predefined compressor speed other than the recorded speed of the compressor and the recorded electronic expansion valve opening setpoint; causing the heating system to operate at the recorded speed of the compressor and the recorded electronic expansion valve opening setpoint in response to an ending of the sacrificial defrost cycle; generating calibration data based on the measured coil temperature measured by the coil temperature sensor and the measured ambient temperature measured by the ambient temperature sensor by recording the measured coil temperature measured by the coil temperature sensor and recording the measured ambient temperature measured by the ambient temperature sensor; causing the control algorithm to operate at the recorded execution location obtains from the control algorithm in response to the ending of the sacrificial defrost cycle; and causing the heating system to perform a defrost cycle based on the generated calibration data, the measured coil temperature measured by the coil temperature sensor, and the measured ambient temperature measured by the ambient temperature sensor. 12. The method of claim 11 , further comprising performing another sacrificial defrost cycle in response to determining that the measured coil temperature measured by the coil temperature sensor is below a predefined coil temperature during the sacrificial defrost cycle. 13. The method of claim 11 , further comprising causing the heating system to perform the defrost cycle based on the generated calibration data, the measured coil temperature measured by the coil temperature sensor, and the measured ambient temperature measured by the ambient temperature sensor in response to a predefined amount of time after the sacrificial defrost cycle in which the measured coil temperature measured by the coil temperature sensor is above a predefined coil temperature during the sacrificial defrost cycle. 14. The method of claim 11 , further comprising causing the heating system to perform the defrost cycle based on the generated calibration data, the measured coil temperature measured by the coil temperature sensor, and the measured ambient temperature m