而光无源器件是构成光网络的基础。
Optical passive devices are the basis of optical networking.
光无源器件是光纤通信产业的组成部分。
The optical passive device is part of the optical fiber communication industry.
本文综述了近年来光无源器件理论研究的进展。
The present progress of theory research in optical passive devices was described in this paper.
综合分析了光无源器件的测试内容及测试方法。
The method of the passive optical component testing was analyzed.
该法也适合于grin棒型其它光纤无源器件。
This method is also applicable to other passive optical fiber devices including GRIN rod lens.
光开关是全光通信网络中的一种重要的光无源器件。
Optical switch is a kind of important passive optical components in all-optical communication network.
光栅光纤是现代光纤通信领域里非常重要的无源器件。
Fiber grating is important passive component in modern fiber optical communication.
关于保偏光纤无源器件全面和系统的论述,至今报道的不多。
However, the systematic theory of the passive devices using PM fibers are rarely reported.
然后对有源以及无源器件对相位噪声的影响进行了理论分析。
Then follows theoretical analysis of influence that active and passive element does to phase noise.
传感器是目前最有发展前途、最具代表性的光纤无源器件之一。
Fiber Bragg Grating (FBG) is one of the most potential and typical optical passive components at present.
它在光通信中具有广泛的应用,是一种非常重要的光学无源器件。
It has a wide application in optical communication and is a very important passive optical component.
具有切践包络的线性啁啾光纤光栅是用于色散补偿的重要无源器件。
The apodized linear chirped fiber grating is an important passive device for dispersion compensation.
在分析gto内部机理的基础上,用无源器件建立了GTO门极模型。
The gate model is formed with passive devices on the basis of analyzing the internal mechanism of GTO.
最终,利用模式匹配法和矩阵级联可以得到微波无源器件的广义散射矩阵。
Finally, the generalized scattering matrix of microwave passive components can be obtained by mode matching method and matrix cascading technique.
实验将该棱镜用于偏振光合束器和光学环行器等无源器件中取得了良好效果。
The prism is applied to the optical passive devices such as polarization beam combiner and optical circulator in experiments, and good effect has been achieved.
将无源器件置入电路板内部带来的好处并不仅仅是节约了电路板表面的空间。
The benefits of the passive components embedded into the circuit board not just save the space of the circuit board, but also reduce parasitic inductance.
光纤光栅是光通信、光传感及光信息处理等领域最为重要的光无源器件之一。
Fiber grating is one of the most important optical devices in domain of optical communication, sensing and optical information processing.
此外,论文还讨论了射频频段电感、电容等无源器件集成的可能性以及方法。
Thirdly, the possibilities and methods to integrate the inductor and capacitor in the RF band are figured out in this paper.
可调光衰减器(VOA)是广泛应用于光通信网络及光纤实验系统中的光无源器件。
The Variable optical Attenuator (VOA) is a kind of passive device that find wide application in optical communication network and optical fiber test system.
另外,在微波通讯系统中,越来越对耦合器、功分器等无源器件的性能有更高的要求。
On the other side, the request of microwave communicating system becomes more and more critical to the performance of microwave passive device including coupler, splitter.
本文分析了光纤无源器件中使用的自聚焦透镜产生耦合损耗的原因,并提出了解决办法。
This paper analyses the causes of coupling loss produced by self-focusing lens used in passive fiber components, solutions are proposed to such causes.
光纤传感器是无源器件,不受电磁辐射干扰,具有好的温度性能,提供高的测量数据率。
Optical fibre sensors are passive and free from electromagnetic radiation. They can provide high data rates and have high temperature capability.
在对光纤光栅调谐和塑料光纤的研究基础上,提出了一种新的无源器件——塑料光纤光栅。
A new passive device, plastic fiber grating, is proposed based on our researches on fiber grating tunability and plastic fibers.
因此,准确地估计和描述无源器件甚至是有源器件的击穿过程是一件非常有挑战性的事情。
Hence, it is a challenging task to accurately predict and characterize the breakdown process in a passive as well as an active electronic device or system.
提出了一种采用有源r C滤波器实现复数滤波器时可快速确定无源器件参数值的设计方法。
A design methodology of active-RC complex filter is proposed in this paper, with which one can determine the parameters of passive components quickly.
光无源器件是光纤通信产业的组成部分。论述中国光无源器件产业和光无源器件的市场状况。
The optical passive device is part of the optical fiber communication industry. The market and industry of optical passive devices in China are analyzed. (no refs).
随着系统工作频率和系统性能要求的提高,对于无源器件的性能和模型精度的要求也越来越高。
The more improvements in system performance and operating frequency are achieved, the higher demands on performance of passive devices and model accuracy will be required.
简单介绍了光纤通信系统中的光连接器、光耦合器、波分复用器和光开关方面的新型光无源器件。
Many new optical passive devices, such as connectors, couplers, wavelength division multiplexers and switches are introduced.
简单介绍了光纤通信系统中的光连接器、光耦合器、波分复用器和光开关方面的新型光无源器件。
Many new optical passive devices, such as connectors, couplers, wavelength division multiplexers and switches are introduced.
应用推荐