Butanedione sensor for microwave control

Having thus described various embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1 . A microwave oven for warming food, the microwave oven comprising: an enclosure forming a heating chamber for receiving the food; a microwave generator configured to propagate microwaves into the heating chamber to warm the food; a first sensor in fluid communication with the heating chamber and configured to detect a chemical indicative of a completed warming state of the food and transmit a detection signal indicating the completed warming state has been achieved upon detection of the chemical; a second sensor configured to detect a secondary characteristic of the food and transmit a secondary signal indicating the secondary characteristic has been realized; and a controller configured to generate an output alteration signal representing an instruction to alter an output of the microwave generator in a first manner upon receiving the detection signal from the first sensor and not receiving the secondary signal from the second sensor for minimizing release of the chemical and to alter an output of the microwave generator in a second manner different from the first manner upon receiving the detection signal from the first sensor and receiving the secondary signal from the second sensor. 2 . The microwave oven of claim 1 , the chemical being at least one of butanedione, diacetyl, and a volatile organic compound. 3 . The microwave oven of claim 1 , the second manner being to deactivate the microwave generator. 4 . The microwave oven of claim 1 , the output being an energy output, the first manner being to reduce the energy output of the microwave generator. 5 . The microwave oven of claim 1 , the secondary characteristic being at least one of humidity, a pop frequency, a pop count, a temperature, and an elapsed cooking time. 6 . The microwave oven of claim 1 , further comprising a sample tube forming a channel and including a first end leading from the heating chamber, the first sensor being configured to sample exhaust gas passing from the heating chamber through the channel. 7 . The microwave oven of claim 6 , the sample tube further including a second end opposite the first end, the microwave oven further comprising a filter attached near the second end of the sample tube. 8 . The microwave oven of claim 6 , the sample tube further including a second end opposite the first end, the second end leading back to the heating chamber. 9 . The microwave oven of claim 8 , further comprising a convection fan connected between the second end of the sample tube and the heating chamber for circulating air through the sample tube. 10 . The microwave oven of claim 6 , further comprising a heating element configured to heat at least one of the first sensor and air near the first sensor to warm up the first sensor. 11 . The microwave oven of claim 10 , further comprising a plurality of temperature sensors configured to detect a temperature in the sample tube, the controller being further configured to adjust an output of the heating element based on the detected temperature. 12 . The microwave oven of claim 6 , the sample tube being configured so that air flowing over the first sensor is turbulent. 13 . The microwave oven of claim 1 , the first sensor being positioned near a fluid highpoint for improved sensing. 14 . The microwave oven of claim 1 , the controller being further configured to generate a scatter signal representing an instruction to change a scatter pattern of the microwaves. 15 . The microwave oven of claim 1 , the microwave oven further comprising a turntable motor and a turntable drivably connected to the turntable motor, the controller being further configured to generate a turntable signal representing an instruction to change a movement of the turntable. 16 . A microwave oven for warming food, the microwave oven comprising: an enclosure forming a heating chamber for receiving the food; a microwave generator configured to propagate microwaves into the heating chamber to warm the food; a first sensor in fluid communication with the heating chamber and configured to detect a chemical indicative of a completed warming state of the food and transmit a detection signal indicating the completed warming state has been achieved upon detection of the chemical; and a controller configured to receive a user input signal representing a user input prior to microwave propagation by the microwave generator and to generate an output alteration signal representing an instruction to alter an output of the microwave generator upon receiving the detection signal from the first sensor for minimizing release of the chemical, the controller being further configured to generate a scatter signal representing an instruction to change a scatter pattern of the microwaves. 17 . The microwave oven of claim 16 , the user input being a food type. 18 . The microwave oven of claim 16 , the user input being a power setting. 19 . A microwave oven for warming food, the microwave oven comprising: an enclosure forming a heating chamber for receiving the food; a microwave generator configured to propagate microwaves into the heating chamber to warm the food; a first sensor in fluid communication with the heating chamber and configured to detect a chemical indicative of a completed warming state of the food and transmit a detection signal indicating the completed warming state has been achieved upon detection of the chemical; a second sensor configured to detect a secondary characteristic of the food and transmit a secondary signal indicating the secondary characteristic has been realized; and a controller configured to receive a signal representing a user input prior to microwave propagation by the microwave generator and to generate an output alteration signal representing an instruction to alter an output of the microwave generator in a first manner upon receiving the detection signal from the first sensor and not receiving the secondary signal from the second sensor for minimizing release of the chemical and to alter an output of the microwave generator in a second manner different from the first manner upon receiving the detection signal from the first sensor and receiving the secondary signal from the second sensor. 20 . A microwave oven for warming food, the microwave oven comprising: an enclosure forming a heating chamber for receiving the food; a microwave generator configured to propagate microwaves into the heating chamber to warm the food; a first sensor in fluid communication with the heating chamber and configured to detect a chemical indicative of a completed warming state of the food and transmit a detection signal indicating the completed warming state has been achieved upon detection of the chemical; a controller configured to generate an output alteration signal representing an instruction to alter an output of the microwave generator upon receiving the detection signal from the first sensor to minimize release of the chemical; a sample tube forming a channel and including a first end leading from the heating chamber and a second end opposite the first end, the first sensor being configured to sample exhaust gas passing from the heating chamber through the channel; and a filter attached near the second end of the sample tube. 21 . A microwave oven for warming food, the microwave oven comprising: an enclo