We present a linearity tester for optical detectors, which is based on the flux-addition method using two high-brightness light emitting diodes (LEDs) as the light source. The tester is operated with a novel data-acquisition algorithm that determines the switching and data-reading sequence for eliminating the measurement error caused by a drift of the LED radiant flux. Linearity measurement with an uncertainty of as low as 10 −4 in a dynamic range over six decades is experimentally demonstrated with simple setup, short measurement time and fully automated operation.
모든 복사온도계는 복사원 크기효과(Size-of-Source Effect, SSE)와 자기복사효과를 가지고 있다. 복사원의 직경에 따른 복사온 도계의 검출기 신호세기로 정의된 SSE의 주원인은 회절이기 때문에 파장에 크게 좌우된다. 본 논문에서는 중저온영역에서 복사 온도의 전달표준기로 많이 사용되고 있는 TRT2(Transfer Radiation Thermometer 2, HEITRONICS)의 SSE와 자기복사 특성을 측정하였다. 측정한 TRT2의 SSE 값을 사용하여 계산한 결과 흑체의 온도가 300℃ 일 때, 개구 직경이 60 mm인 흑체와 10 mm인 흑체의 복사온도 차이가 저온모드(8-14 µm) 에서 3.5℃, 중온모드(3.9 µm)에서 0.5℃인 것을 알 수 있었다. 또한, 복사온도계 몸체 온도가 2.6℃ 변화했을 때 자기복사효과 때문에 흑체의 복사온도는 110 mK 다르게 측정되었다.
Size-of-source Effect and Self-radiation Effect of an Infrared Radiation ThermometerYong Shim Yoo † , Bong-Hwak Kim, Chul-Woung Park, and Seung-Nam Park All radiation thermometers have a size-of-source effect (SSE) and a self-radiation effect (SRE). The SSE,defined as dependence of the detector signal of a radiation thermometer on the diameter of a source, is critically dependent on the wavelength since diffraction is the main cause. In this paper, we have measured the SSE and the SRE of TRT2 (Transfer Radiation Thermometer 2, HEITRONICS) widely used as a transfer standard in low and middle temperature range. At 300℃, The radiation temperature difference between the 60 mm diameter blackbody and 10 mm diameter blackbody due to the SSE was estimated to be 3.5℃ in low temperature mode (8-14 µm) and 0.5℃ in middle temperature mode (3.9 µm). In addition, the measured radiation temperature difference of the blackbody due to the SRE was found to be 110 mK when the body temperature change of TRT2 was set at 2.6℃.
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