Apparatus and system for fault protection of power amplifier in solid state RF oven electronics

That which is claimed: 1. An oven comprising: a cooking chamber configured to receive a food product; a radio frequency (RF) heating system configured to provide RF energy into the cooking chamber using solid state electronic components; and control electronics defining a protection manager, wherein the solid state electronic components include power amplifier electronics configured to provide a signal into the cooking chamber via a launcher assembly operably coupled to the cooking chamber via a waveguide assembly, wherein an isolation assembly is provided between the launcher assembly and the power amplifier electronics, and wherein the power amplifier electronics are controlled at least in part based on an efficiency parameter determined from a forward power value and a reflected power value that are each measured after the isolation assembly, wherein the protection manager is configured to receive the forward power value and the reflected power value to determine the efficiency parameter, and wherein the isolation assembly is operably coupled to an output transistor of the power amplifier electronics, and wherein a supply current to the launcher assembly is measured at an output of the output transistor. 2. The oven of claim 1 , wherein the isolation assembly comprises a circulator. 3. The oven of claim 1 , wherein the efficiency parameter is compared to a threshold efficiency and a protective function is initiated based on the comparison. 4. The oven of claim 3 , wherein the protection manager is configured to initiate a shutdown of application of RF energy as the protective function in response to reflected power being greater than a predefined limit. 5. The oven of claim 3 , wherein the protection manager is configured to initiate a user alert as the protective function in response to the efficiency parameter being less than the threshold efficiency. 6. The oven of claim 3 , wherein the protection manager is configured to receive one or more temperature measurements, and wherein the protective function may further be initiated based on the one or more temperature measurements. 7. The oven of claim 6 , wherein the temperature measurements include measurement of heat sink temperature, air temperature of a cooling system for cooling the control electronics proximate to a processor of the control electronics. 8. The oven of claim 1 , wherein the supply current is compared to one or more diagnostic values to determine an operational status of the isolation assembly. 9. The oven of claim 1 , wherein the supply current is compared to one or more calibration values to determine a calibration status of the power amplifier electronics. 10. A protection system for an oven comprising a cooking chamber configured to receive a food product and a radio frequency (RF) heating system configured to provide RF energy into the cooking chamber using solid state electronic components, the solid state electronic components include power amplifier electronics configured to provide a signal into the cooking chamber via a launcher assembly operably coupled to the cooking chamber via a waveguide assembly, the protection system comprising: an isolation assembly disposed between the launcher assembly and the power amplifier electronics, and control electronics configured to control operation of the power amplifier electronics at least in part based on an efficiency parameter determined from a forward power value and a reflected power value that are each measured after the isolation assembly, wherein the control electronics define a protection manager configured to receive the forward power value and the reflected power value to determine the efficiency parameter, and wherein the isolation assembly is operably coupled to an output transistor of the power amplifier electronics, and wherein a supply current to the launcher assembly is measured at an output of the output transistor. 11. The protection system of claim 10 , wherein the isolation assembly comprises a circulator. 12. The protection system of claim 10 , wherein the efficiency parameter is compared to a threshold efficiency and a protective function is initiated based on the comparison. 13. The protection system of claim 12 , wherein the protection manager is configured to initiate a shutdown of application of RF energy as the protective function in response to reflected power being greater than a predefined limit. 14. The protection system of claim 12 , wherein the protection manager is configured to initiate a user alert as the protective function in response to the efficiency parameter being less than the threshold efficiency. 15. The protection system of claim 12 , wherein the protection manager is configured to receive one or more temperature measurements, and wherein the protective function may further be initiated based on the one or more temperature measurements. 16. The protection system of claim 15 , wherein the temperature measurements include measurement of heat sink temperature and air temperature of a cooling system for cooling the control electronics proximate to a processor of the control electronics. 17. The protection system of claim 10 , wherein the supply current is compared to one or more diagnostic values to determine an operational status of the isolation assembly. 18. The protection system of claim 10 , wherein the supply current is compared to one or more calibration values to determine a calibration status of the power amplifier electronics.