초록 ▼

Devices and corresponding methods can be provided to measure temperature and/or emissivity of a target. Emissivity of the target need not be known or assumed, and any temperature difference between a sensor and the target need not be zeroed or minimized. No particular bandpass filter is required. De

Devices and corresponding methods can be provided to measure temperature and/or emissivity of a target. Emissivity of the target need not be known or assumed, and any temperature difference between a sensor and the target need not be zeroed or minimized. No particular bandpass filter is required. Devices can include one or two sensors viewing the same target as the target views different respective viewed temperatures. The respective viewed temperatures can be sensor temperatures, and a single sensor can be set to each of the respective viewed temperatures at different times. An analyzer can determine the temperature and/or emissivity of the target based on the respective viewed temperatures and on plural net heat fluxes detected by the sensors and corresponding to the respective viewed temperatures.

대표청구항 ▼

1. A method of determining temperature, the method comprising: providing one or more radiation sensors configured to measure net heat flux;detecting, with the one or more radiation sensors viewing a target, plural net heat fluxes as the target views different respective radiation sensor temperatures

1. A method of determining temperature, the method comprising: providing one or more radiation sensors configured to measure net heat flux;detecting, with the one or more radiation sensors viewing a target, plural net heat fluxes as the target views different respective radiation sensor temperatures;effectively excluding, from the plural net heat fluxes, using a blocking structure, any heat flux from non-target sources at temperatures other than the respective radiation sensor temperatures;determining, independent of an emissivity of the target, a temperature of the target based on the plural net heat fluxes and on the different respective radiation sensor temperatures; andoutputting the temperature of the target. 2. The method of claim 1, further comprising changing a temperature of one of the one or more radiation sensors to achieve the respective radiation sensor temperatures, the detecting the plural net heat fluxes performed by the one radiation sensor with the one radiation sensor at the respective radiation sensor temperatures. 3. The method of claim 2, wherein changing the temperature of the one of the one or more radiation sensors comprises oscillating the temperature of the one of the one or more radiation sensors. 4. The method of claim 1, wherein detecting the plural net heat fluxes is with respective ones of the radiation sensors as the target views the respective ones of the radiation sensors held at the different respective radiation sensor temperatures. 5. The method of claim 1, wherein determining the target temperature is based further on a transmission factor of a window between the radiation sensor and the target. 6. The method of claim 1, wherein at least one of the net heat fluxes includes heat flux emitted from both a radiation sensor of the one or more radiation sensors and from the blocking structure, the blocking structure being an opaque sensor background surface that is temperature controlled to match a temperature of the radiation sensor. 7. The method of claim 1, wherein the one or more radiation sensors are thermopile or bolometer sensors. 8. The method of claim 1, wherein at least one of the plural net heat fluxes includes heat flux emitted from both a radiation sensor of the one or more radiation sensors and from the blocking structure, the blocking structure being a detector assembly that is temperature controlled to match a temperature of the radiation sensor. 9. A temperature measurement device comprising: one or more radiation sensors configured to view a target and to detect plural net heat fluxes as the target views respective radiation sensor temperatures;blocking structure associated with the one or more radiation sensors and configured to effectively exclude, from the plural net heat fluxes, any heat flux from non-target sources at temperatures other than the respective radiation sensor temperatures; andan analyzer configured to determine, independent of an emissivity of the target, and without the emissivity of the target being known or assumed, a temperature of the target based on the plural net heat fluxes and on the respective radiation sensor temperatures, the analyzer having an output for outputting the temperature of the target. 10. The device of claim 9, further comprising a thermal controller operationally connected to a heater or cooler in thermal communication with one of the one or more radiation sensors, the thermal controller configured to change a temperature of the one of the one or more radiation sensors to achieve the respective radiation sensor temperatures, and the one of the one or more radiation sensors being configured to detect the plural net heat fluxes with the one radiation sensor temperature at the respective radiation sensor temperatures. 11. The device of claim 10, wherein the thermal controller is further configured to cause the temperature of the one of the one or more radiation sensors to oscillate. 12. The device of claim 9, comprising two or more radiation sensors configured to detect respective ones of the plural net heat fluxes as the target views the respective ones of the radiation sensors held at the different respective radiation sensor temperatures. 13. The device of claim 9, wherein the analyzer is configured to determine the temperature of the target based further on a transmission factor of a window between the radiation sensor and the target. 14. The device of claim 9, wherein the blocking structure associated with the one or more radiation sensors is a detector assembly that is temperature controlled to match a temperature of one of the one or more radiation sensors, and wherein at least one of the plural net heat fluxes includes heat flux emitted from both the one radiation sensor and from the detector assembly. 15. The device of claim 9, wherein the blocking structure associated with the one or more radiation sensors is an opaque sensor background surface that is temperature controlled to match a temperature of a radiation sensor of the one or more radiation sensors, and wherein at least one of the plural net heat fluxes includes heat flux emitted from both the radiation sensor of the one or more radiation sensors and from the opaque sensor background. 16. The device of claim 9, wherein the radiation sensors are thermopile or bolometer sensors. 17. A method of determining temperature, the method comprising: providing a radiation sensor configured to measure net heat flux; detecting plural net heat fluxes with the radiation sensor viewing a target, as the target views different respective radiation sensor temperatures;effectively excluding, from the plural net heat fluxes, using a blocking structure, any heat flux from non-target sources at temperatures other than the respective radiation sensor temperatures; and determining a temperature of the target, independent of an emissivity of the target, based on the plural net heat fluxes and the respective radiation sensor temperatures; andoutputting the temperature of the target.