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A system and method for measuring the temperature of cookware to be induction-heated, using an infrared temperature sensor. An induction heater countertop may include a viewing window between the infrared temperature sensor and the cookware. Various algorithms may be applied to the sensed temperatur

A system and method for measuring the temperature of cookware to be induction-heated, using an infrared temperature sensor. An induction heater countertop may include a viewing window between the infrared temperature sensor and the cookware. Various algorithms may be applied to the sensed temperature, to adjust it to account for the presence of the viewing window, as well as variations in the cookware material.

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1. A method for measuring the temperature of cookware to be induction-heated, comprising the steps of: providing an infrared temperature sensor and an induction heater having a countertop for supporting the cookware, the countertop comprising a first material and having a viewing window comprising a

1. A method for measuring the temperature of cookware to be induction-heated, comprising the steps of: providing an infrared temperature sensor and an induction heater having a countertop for supporting the cookware, the countertop comprising a first material and having a viewing window comprising a second material located between the infrared temperature sensor and the cookware, wherein the second material of the viewing window comprises plastic or silicon or germanium, and wherein the viewing window prevents fluids or other physical contaminants from contacting the induction heater while providing visibility to infrared waves;providing a controller, an electronic storage medium, and an induction heating coil in responsive communication with the controller;sensing a temperature of the cookware using the infrared temperature sensor;covering at least a portion of the infrared temperature sensor with a metal tube to narrow the field of view of the sensor, and using the controller to automatically apply at least a first algorithm utilizing a measured temperature of the metal tube, wherein the at least first algorithm is stored in the electronic storage medium and is used to adjust the sensed temperature of the infrared temperature sensor to compensate for the narrowed field of view of the infrared temperature sensor, thereby providing a temperature of a portion of the heated cookware within the narrowed field of view, wherein the first algorithm comprises the following Tobj=((Tmeasured4)+(A/a1)(Tmeasured4−TAt4))(−1/4)−2.433TAt. 2. The method of claim 1, further comprising the step of using the controller to apply one or more additional algorithms stored in the electronic storage medium, in addition to the first algorithm, to further adjust the sensed temperature to account for variations in a material of the cookware, wherein the one or more algorithms account for any significant variation from near ideal emissivity, if such a significant variation is detected by the controller, which does so by determining at least a change in temperature of the cookware as measured by the infrared temperature sensor. 3. The method of claim 1, wherein the second material of the viewing window comprises an infrared transparent or semi-transparent plastic. 4. The method of claim 1, wherein the first material of the countertop comprises a tempered glass or a ceramic glass and includes an aperture having the approximate dimensions of the viewing window. 5. The method of claim 4, wherein the viewing window comprises a polyethylene sheet which covers the aperture. 6. The method of claim 1, wherein the induction heater includes an induction coil with a gap in its winding, and further comprising the step of locating the infrared temperature sensor beneath the gap and within a tube or cylinder extending toward the gap. 7. The method of claim 6, wherein the gap in the induction coil is located within a radius of a power ring of the induction coil. 8. The method of claim 1, wherein the mechanical device comprises a field-narrowing tube covering the infrared temperature sensor and providing a conical viewing area for the infrared temperature sensor. 9. The method of claim 1, wherein the viewing window material allows the transmission of infrared wavelengths of about 2-15 μm. 10. A method for measuring the temperature of cookware to be induction-heated, comprising the steps of: providing an infrared temperature sensor and an induction heater having a countertop for supporting the cookware, the countertop located between the infrared temperature sensor and the cookware, and the countertop having an aperture formed in the countertop and comprising a plastic viewing window made of a material different than the countertop, the viewing window preventing fluids or other physical contaminants from contacting the induction heater while providing visibility to infrared waves;providing a controller, an electronic storage medium, and an induction heating coil in responsive communication with the controller;sensing a temperature of the cookware using the infrared temperature sensor;covering at least a portion of the infrared temperature sensor with a metal tube to narrow the field of view of the sensor, and using the controller to automatically apply at least a first algorithm utilizing a measured temperature of the metal tube, wherein the metal tube, wherein the at least first algorithm is stored in the electronic storage medium and is used to adjust the sensed temperature of the infrared temperature sensor to compensate for the narrowed field of view of the infrared temperature sensor, thereby providing a temperature of a portion of the heated cookware within the narrowed field of view, wherein the first algorithm comprises the following Tobj=((Tmeasured4)+(A/a1)(Tmeasured4−TAt4))(−1/4)−2.433TAt. 11. The method of claim 10, wherein the material of the viewing window comprises polyethylene plastic. 12. The method of claim 10, wherein the induction coil has a gap in its winding, and wherein the mechanical device comprises a tube or cylinder, and further comprising the step of locating the infrared temperature sensor beneath the gap, and within a-tube or cylinder and extending toward the gap. 13. The method of claim 12, wherein the gap in the induction coil is located within a radius of a power ring of the induction coil. 14. The method of claim 1, wherein the metal tube has an inner surface coated in a black color. 15. The method of claim 1, wherein the metal tube comprises aluminum.