激光技术
激光技術
격광기술
LASER TECHNOLOGY
2014年
3期
384-388
,共5页
光电子学%分布式光纤气体传感系统%分布反馈半导体激光器%光纤传感器%气体检测
光電子學%分佈式光纖氣體傳感繫統%分佈反饋半導體激光器%光纖傳感器%氣體檢測
광전자학%분포식광섬기체전감계통%분포반궤반도체격광기%광섬전감기%기체검측
optoelectronics%distributed optical fiber gas sensing system%distributed feedback semiconductor laser%optical fiber sensor%gas detection
为了实现远端多节点的高效检测并降低成本,设计了一种新颖的分布式光纤气体传感系统。该系统采用共享一个工作于特种波长的分布反馈半导体激光器,将其置于一个本地控制节点内并通过双向光纤链路串联各远端检测节点,同时使用特殊设计的远端节点结构和光纤段,在每个检测节点,用两个Y型耦合器接入气室,将系统中信号分为上行流和下行流,避免来自其它节点信号影响并直接实现时分复用;并以三节点系统的瓦斯体积分数检测为例进行数值计算和实验。结果表明,激光二极管占总成本比重可由约60%降至约38%,且增加循环检测次数能使各节点测定气体体积分数的相对误差降低,首个节点的相对误差可降至0.2%以下,甚至更低,该方案能够精简高效地实现共享光源的分布检测。
為瞭實現遠耑多節點的高效檢測併降低成本,設計瞭一種新穎的分佈式光纖氣體傳感繫統。該繫統採用共享一箇工作于特種波長的分佈反饋半導體激光器,將其置于一箇本地控製節點內併通過雙嚮光纖鏈路串聯各遠耑檢測節點,同時使用特殊設計的遠耑節點結構和光纖段,在每箇檢測節點,用兩箇Y型耦閤器接入氣室,將繫統中信號分為上行流和下行流,避免來自其它節點信號影響併直接實現時分複用;併以三節點繫統的瓦斯體積分數檢測為例進行數值計算和實驗。結果錶明,激光二極管佔總成本比重可由約60%降至約38%,且增加循環檢測次數能使各節點測定氣體體積分數的相對誤差降低,首箇節點的相對誤差可降至0.2%以下,甚至更低,該方案能夠精簡高效地實現共享光源的分佈檢測。
위료실현원단다절점적고효검측병강저성본,설계료일충신영적분포식광섬기체전감계통。해계통채용공향일개공작우특충파장적분포반궤반도체격광기,장기치우일개본지공제절점내병통과쌍향광섬련로천련각원단검측절점,동시사용특수설계적원단절점결구화광섬단,재매개검측절점,용량개Y형우합기접입기실,장계통중신호분위상행류화하행류,피면래자기타절점신호영향병직접실현시분복용;병이삼절점계통적와사체적분수검측위례진행수치계산화실험。결과표명,격광이겁관점총성본비중가유약60%강지약38%,차증가순배검측차수능사각절점측정기체체적분수적상대오차강저,수개절점적상대오차가강지0.2%이하,심지경저,해방안능구정간고효지실현공향광원적분포검측。
In order to realize the efficient detection of remote multiple nodes and reduce the cost , a distributed feedback semiconductor laser working at special central wavelength was shared and placed at a local control node being connected to each remote detection node with bi-directional fiber links in series .Furthermore , a novel distributed optical fiber gas sensor system was designed by using the special structure of remote nodes and fiber segments .At each detection node, the gas cell was added between two Y-couplers.There were the upstream signal and the downstream signal in the system, which could avoid the influences of the signals from other nodes and implement time division multiplexing directly . The numerical calculation and experiments were carried out in a 3-node methane detection system .The results show that the proportion of the laser diode in the total cost drops from about 60%to about 38%.When the loop number is increased , the relative error of the measured gas density at each node can be reduced , and particularly the relative error at the first node can be reduced to below 0.2%or even lower .Distributed sensing with a shared light source can be achieved efficiently .