激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
5期
522-527
,共6页
辐射测量%辐射定标%杂散辐射%外场修正
輻射測量%輻射定標%雜散輻射%外場脩正
복사측량%복사정표%잡산복사%외장수정
radiation measurement%radiation calibration%stray radiation%outfield correction
为了提高靶场红外系统的辐射特性测量精度,找出外场复杂环境温度变化对测量精度的影响并进行相应地修正。首先,建立了红外系统辐射定标的数学模型,模型中包含杂散辐射噪声影响和内部暗电流噪声的影响。接着,通过在高、低温箱内进行辐射定标实验,找出环境温度变化对辐射定标模型中各参数的影响。实验结果表明:环境温度改变引起的杂散辐射变化对辐射特性测量精度有较大影响。同时发现,环境温度变化时,杂散辐射引起的探测器像元灰度输出变化量近似等于实测的全系统像元灰度变化量,最后根据这一结论提出一种简易的适合外场应用的红外系统辐射定标数据修正方法,采用这种方法,以70℃黑体为目标,在0~50℃的温度范围内,黑体温度测量误差的均方根由0.8℃降低到0.095℃。在不增加操作难度的同时,大大地提高了外场红外辐射特性测量精度。
為瞭提高靶場紅外繫統的輻射特性測量精度,找齣外場複雜環境溫度變化對測量精度的影響併進行相應地脩正。首先,建立瞭紅外繫統輻射定標的數學模型,模型中包含雜散輻射譟聲影響和內部暗電流譟聲的影響。接著,通過在高、低溫箱內進行輻射定標實驗,找齣環境溫度變化對輻射定標模型中各參數的影響。實驗結果錶明:環境溫度改變引起的雜散輻射變化對輻射特性測量精度有較大影響。同時髮現,環境溫度變化時,雜散輻射引起的探測器像元灰度輸齣變化量近似等于實測的全繫統像元灰度變化量,最後根據這一結論提齣一種簡易的適閤外場應用的紅外繫統輻射定標數據脩正方法,採用這種方法,以70℃黑體為目標,在0~50℃的溫度範圍內,黑體溫度測量誤差的均方根由0.8℃降低到0.095℃。在不增加操作難度的同時,大大地提高瞭外場紅外輻射特性測量精度。
위료제고파장홍외계통적복사특성측량정도,조출외장복잡배경온도변화대측량정도적영향병진행상응지수정。수선,건립료홍외계통복사정표적수학모형,모형중포함잡산복사조성영향화내부암전류조성적영향。접착,통과재고、저온상내진행복사정표실험,조출배경온도변화대복사정표모형중각삼수적영향。실험결과표명:배경온도개변인기적잡산복사변화대복사특성측량정도유교대영향。동시발현,배경온도변화시,잡산복사인기적탐측기상원회도수출변화량근사등우실측적전계통상원회도변화량,최후근거저일결론제출일충간역적괄합외장응용적홍외계통복사정표수거수정방법,채용저충방법,이70℃흑체위목표,재0~50℃적온도범위내,흑체온도측량오차적균방근유0.8℃강저도0.095℃。재불증가조작난도적동시,대대지제고료외장홍외복사특성측량정도。
In order to enhance the radiation characteristic measurement precision of infrared system,the influence of the complex temperature change at field condition on the measurement precision is found out and corrected corre-spondingly.Firstly,the model for infrared radiation calibration is constructed,which includes influences of stray radia-tion noise and inner dark current,and the effect of temperature variety on the parameters of infrared radiation calibra-tion is found out through the experiment carried in the high/low temperature test chamber.Experimental results show that the stray radiation variety caused by environmental temperature variety is the dominant factor for infrared radiation measurement precision,and at the same experiment,it is found that the gray variety caused by stay radiation is equal to the whole infrared system’s gray variety when the environmental temperature changes,and based on this conclu-sion,a simple means for field infrared calibration data correction is put forward.Adopting this method,the blackbody at 70℃ is measured,the RMS error of blackbody temperature measurement is able to reduce from 0.8℃ to 0.095℃within the temperature range of 0~50℃,which enhances the measurement precision greatly without increasing the op-erational difficulty.