Through analysis on the principle of the fiber optical splice loss,this paper introduces some effective measures to reduce the fiber optical splice loss,at the same time,introduces the measuring technique of the fiber optical splice loss.
通过分析光纤熔接损耗产生的机理,提出了降低光纤熔接损耗的一些有效措施,同时对光纤熔接损耗的测量方法进行了介绍。
Based on the self-designed PCF,the splice loss mechanism between PCFs and single-mode fibers was studied theoretically and experimentally.
针对自行设计的光子晶体光纤,对其与普通单模光纤的熔接损耗机制进行了理论和实验研究。
The intrinsic and extrinsic causes of splice loss for optical fiber are analyzed and summarized in detail.
针对造成光纤熔接损耗的各种本征和非本征因素,进行了详细的分析和总结。
Through analyzes the reason which the optical fiber splicing loss produces, obtains may adjust splicing the parameter to improve the model field unbalance,and realizate the different type optical fiber low loss splicing.
通过分析光纤熔接损耗产生的原因,得出可以调整熔接参数来改善模场失配,实现不同类型光纤的低损耗熔接。
Theoretical and experimental investigations on the splicing loss mechanism of high nonlinearity photonic crystal fiber(PCF) and single mode fiber(SMF) at(1550 nm) point out that mismatching of the mode field of these two kind fibers is the main cause of the splicing loss.
在理论分析基础上,采用常规电弧放电熔接技术,在1550 nm波段对高非线性光子晶体光纤(PCF)与单模光纤(SMF)的熔接损耗机制进行了实验研究,指出模场失配是造成两者直接熔接损耗的主要因素;而熔接过程中因放电电流过大或放电时间过长所导致的光子晶体光纤的包层气孔形变以致塌陷,会引起超过10 dB的附加损耗。
Main factors affecting the splicing loss are analyzed,and the comparison shows that the theoretical result is in agreement with the experimental one.
分析了影响熔接损耗的主要因素,理论分析结果和实验结果是一致的。
This paper discusses the disserve about "not splicing loss", its causes are analyzed of installed with different structure and methods, It discusses the application method and much process of fiber optic splicing.
针对当前光缆工程中,运营商及施工人员只注重对光缆熔接损耗的监测,而疏忽于对非熔接损耗检查的不良倾向,本文介绍了非熔接损耗对光传输的危害,并结合不同敷设方式及结构的光缆,重点分析光缆非熔接损耗的形成机理,提出了相应的整改措施。
Then the mode distributions at the fiber tips and the corresponding splice loss between the two fibers were calculated, and the fusion power range for low splice loss was thus deduced.
由此计算了PCF端面模场分布的相应变化,并根据两光纤端面模场的重叠积分计算了相应的熔接损耗,从而确定出对应低熔接损耗的熔接功率区间。
Analysis of the Splicing Loss and Polarization Properties of the PMF
保偏光纤的熔接损耗及偏振特性分析
Causes of and Solutions to Splice Loss for Optical Fiber
影响光纤熔接损耗的因素及解决方法
Low Loss Arc Fusion Splice of Photonic Crystal Fibers
光子晶体光纤的低损耗电弧熔接方案
Damage Behavior of Welded Joints with Defects on Fusion Line;
熔合线含缺陷焊接接头损伤行为的研究
connector-induced optical conductor loss
连接器引起的光导体损耗
Optical fiber mechanical--type splice insertion loss test
GB/T14137-1993光纤机械式固定接头插入损耗测试方法
Excess corrosion of wheel speed circuit terminals and connectors
轮速感知器短路或断端子或接头过度损耗
The net effect of the connecting system is to introduce losses and lags in response.
连接装置的净影响造成损耗和响应滞后。
Study on Low Loss Connecting between Small Core Diameter Er ̄(3+)-Doped Fiber and Single Mode Fiber
小芯径掺铒光纤与单模光纤低损耗接续的研究
The Discussion of Physical Mechanism of Fiber Loss and Compensation Technology;
光纤连接损耗的物理机理及其补偿技术的讨论
The Influence of Grounding on EMI Power Filter's Common-mode Insertion Loss
EMI电源滤波器接地方法对共模插入损耗的影响
non-consumable arc-melting process
非自耗电极电弧熔炼法
consumable arc-melting process
自耗电极电弧熔炼法
melting point type disposable fever thermometer
熔点型消耗式温度计
A quantity or portion of something lacking after delivery or storage.
减耗量物品的储运损耗部分或损耗量
Radiation losses are minimised by use of a well insulated locking swing– aside cover that can be sealed when no baling is needed.
转动式盖以优质绝热材料制成,在无须舀出和装料时能够密封熔炉,使热量损耗减少到最低。
Risk of normal loss(natural loss)?
途耗或自然损耗险?
Hol mode low-loss transmission
Hol模低损耗传输