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Opto-Mechanical and Electronic Design of a Tunnel-Trap Si Radiometer

机译：隧道陷阱si辐射计的光机电一体化设计

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A transmission-type light-trap silicon radiometer has been developed to hold the NIST spectral power and irradiance responsivity scales between 406 nm and 920 nm. The device is built from replaceable input apertures and tightly packed different-size silicon photodiodes. The photodiodes are positioned in a triangular shape tunnel such that beam clipping is entirely eliminated within an 8 field-of-view (FOV). A light trap is attached to the output of the radiometer to collect the transmitted radiation and to minimize the effect of ambient light. The photodiodes, selected for equal shunt resistance, are connected in parallel. The capacitance and the resultant shunt resistance of the device were measured and frequency compensations were applied in the feedback network of the photo-current-to-voltage converter to optimize signal-, voltage-, and loop-gain characteristics. The trap radiometer can measure either dc or ac optical radiation with high sensitivity. The noise-equivalent-power of the optimized device is 47 fW in dc mode and 5.2 fW at 10 Hz chopping. The relative deviation from the cosine responsivity in irradiance mode was measured to be equal to or less than 0.02% within 5 deg. FOV and 0.05% at 8 deg. FOV. The trap-radiometer can transfer irradiance responsivities with uncertainties comparable to those of primary standard radiometers. Illuminance and irradiance meters, holding the SI units (candela, color- and radiance-temperature), will be calibrated directly against the transfer standard trap-radiometer to obtain improved accuracy in the base-units.

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作者
Eppeldauer, G. P.; Lynch, D. C.;
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年度 2000
页码 1-17
总页数 17
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Radiometers ; Electromagnetic radiation ; Photodiodes ; Direct current ; Optical properties ; Spectra ; Feedback ; Measuring instruments ; Transfer ; Irradiation ; Compensation ; Capacitance ; High sensitivity ; Alternating current ; Resistance ; Networks ; Shunts ; Frequency ; Reprints;

机译：辐射计;电磁辐射;光电二极管;直流电;光学特性;光谱;反馈;测量仪器;转移;辐照;补偿;电容;高灵敏度;交流电;电阻;网络;分流;频率;重印;

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专利

1. Opto-Mechanical and Electronic Design of a Tunnel-Trap Si Radiomter [J] . George P.Eppeldauer, Donald C.Lynch Journal of Research of the National Institute of Standards and Technology . 2000,第6期

机译：隧道式硅辐射计的光机械和电子设计
2. Performance Analysis for Design of a High-Precision Electronic Opto-Mechanical System for Vehicle Delineation Detection on Highway [J] . Zhaoqing Wang, Bo Chen, Harry H. Cheng, Journal of Mechanical Design . 2003,第4期

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3. RF and Electronics Design of the Compact Ocean Wind Vector Radiometer [J] . F. Maiwald, O. Montes, S. Padmanabhan Oceanographic Literature Review . 2020,第9期

机译：射频和电子设计的紧凑型海洋风向辐射计
4. Performance Analysis for Design of a High-Precision Electronic Opto-Mechanical System for Vehicle Delineation Detection on Highway [C] . Zhaoqing Wang, Bo Chen, Harry H. Cheng, ASME International Design Engineering Technical Conference . 2002

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5. The AEOS spectrograph: Opto-mechanical design and scientific capability. [D] . Thornton, Robert J., Jr. 2002

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6. Opto-Mechanical and Electronic Design of a Tunnel-Trap Si Radiometer [O] . George P. Eppeldauer, Donald C. Lynch 2000

机译：隧道式硅辐射计的光机电设计
7. Opto-mechanical and electronic design of a tunnel-trap Si radiometer [O] . G.P. Eppeldauer, D.C. Lynch 2000

机译：隧道陷阱Si辐射计的光电和电子设计

Opto-Mechanical and Electronic Design of a Tunnel-Trap Si Radiometer

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