光电工程
光電工程
광전공정
OPTO-ELECTRONIC ENGINEERING
2010年
1期
82-87
,共6页
吕进%施秧%刘辉军%赵鑫祥%庄松林
呂進%施秧%劉輝軍%趙鑫祥%莊鬆林
려진%시앙%류휘군%조흠상%장송림
近红外光谱%茶叶成分检测%干涉滤光片%旋转样品池
近紅外光譜%茶葉成分檢測%榦涉濾光片%鏇轉樣品池
근홍외광보%다협성분검측%간섭려광편%선전양품지
NIR spectrometer%tea eornponent analysis%interference filter%rotatable sample cell
本文提出了基于近红外光谱的荼叶成份检测仪的设计与实现.该检测仪采用干涉滤光片作为分光器件,其旋转样品池内嵌了漫反射标准白板,以实现快速交替检测样品及白板漫反射信号,使样品与白板的检测同步完成,简化仪器机械结构,提高了光谱稳定性和样品检测速度与精度.光电信号检测系统采用了InGaAs光电探测器,利用仪表放大器和24位A/D转换器分别完成信号调理和数据采集,以USB 2.0实现仪器与计算机的数据传输,再由计算机化学计量学软件完成吸光度计算及茶叶样品的成分分析.实验结果表明,本样机实测茶叶成份值与理化检验值的相对误差小于5%.
本文提齣瞭基于近紅外光譜的荼葉成份檢測儀的設計與實現.該檢測儀採用榦涉濾光片作為分光器件,其鏇轉樣品池內嵌瞭漫反射標準白闆,以實現快速交替檢測樣品及白闆漫反射信號,使樣品與白闆的檢測同步完成,簡化儀器機械結構,提高瞭光譜穩定性和樣品檢測速度與精度.光電信號檢測繫統採用瞭InGaAs光電探測器,利用儀錶放大器和24位A/D轉換器分彆完成信號調理和數據採集,以USB 2.0實現儀器與計算機的數據傳輸,再由計算機化學計量學軟件完成吸光度計算及茶葉樣品的成分分析.實驗結果錶明,本樣機實測茶葉成份值與理化檢驗值的相對誤差小于5%.
본문제출료기우근홍외광보적도협성빈검측의적설계여실현.해검측의채용간섭려광편작위분광기건,기선전양품지내감료만반사표준백판,이실현쾌속교체검측양품급백판만반사신호,사양품여백판적검측동보완성,간화의기궤계결구,제고료광보은정성화양품검측속도여정도.광전신호검측계통채용료InGaAs광전탐측기,이용의표방대기화24위A/D전환기분별완성신호조리화수거채집,이USB 2.0실현의기여계산궤적수거전수,재유계산궤화학계량학연건완성흡광도계산급다협양품적성분분석.실험결과표명,본양궤실측다협성빈치여이화검험치적상대오차소우5%.
Design and realization of tea component analyzer is presented based on Near-infi-ared (NIR) spectrometry. The discrete interference filters are used as NIR diffuse reflectance part. A white board is embedded into the rotatable sample cell. The samples and the white board are scanned in a fast and alternative way, which tests sample and the white board simultaneously, effectively simplifying the mechanism and accelerating the sample detection as well as improving the accuracy. InGaAs Detector, instrumental amplifiers and 24-bit A/D converters are used in photoelectric signal processing system. The computer completes the value determination of absorbency and tea component analysis with the data transferred from USB 2.0 interface. The relative error between this instrument and conventional chemical analysis is less than 5% by the experiments result.
