标题:
使用调制相移法测量光纤色散的研究A Study of Dispersion Measurement for Optical Fiber by Phase-Modulation Method
作者:
张曦, 刘小英, 周镇辉
关键字:
光纤通信, 光纤色散, 调制相移法, 调制频率Optical Fiber Communication; Fiber Dispersion; Modulation Phase Shift Method; Modulation Frequency
期刊名称:
《Optoelectronics》, Vol.2 No.4, 2012-12-28
摘要:
光纤通信已经成为目前通信网络发展的主流方向。但是随着光纤通信系统向着超远距离、超大容量、超高速率的方向发展,光纤色散已经成为其巨大的阻碍。如何有效地控制光通信系统中产生的色散,使光信号在大容量、高速率、长距离传输中无误码地到达接收端,已经成为人们迫切需要解决的问题。对光通信系统中的色散进行监测并进行动态补偿的研究,使得超大容量、超长距离、超高速率的光纤通信系统成为可能,有助于最终实现全光智能自动交换网络。在众多测量光纤色散的方法中,调制相移法具有结构简单,可靠性强等优点。本文中,我们对使用调制相移法测量光纤色散进行了研究和仿真,讨论了在不同光纤长度和不同调制频率下,影响调制相移法测量结果精度的因素。通过适当地选取调制频率,我们可以使用调制相移法测得不同光纤长度下色散的精确值。另外在本文中,我们通过仿真验证了调制相移法可以测量具有任意色散–波长曲线的光纤。因此在实际应用中,调制相移法是可以应用于高精度光纤色散的测量。
Optical fiber communication is the mainstream of communication development at present. However, with the development of optical fiber communication system which trending towards ultra-long length, ultra-large capacity and ultra-high speed, fiber dispersion turned to be a great obstacle. How to control the dispersion created in the optical communication system effectively while force optical signal to reach the receiving end in high-capacity, high-rate and error-free long-distance transmission has increasingly become a research focus of optical fiber communication systems. It is a great significance to research about monitor and dynamic compensate dispersion in the optical communication systems, so that the ultra-large capacity, ultra-long length and ultra-high speed optical fiber communication systems would not be impossible, all-optical intelligent network with automatic switching functions would come true. Among the varieties of methods to measure fiber dispersion, the phase-modulation shift method is the unique one, which has the advantages of simple structure, high reliability. In this paper, we make a research and simulate to use the phase-modulation shift method, meanwhile we also discuss about the factors which affect the accuracy of the results in the different fiber lengths and modulation frequencies. By the means that selecting appropriate modulation frequency, we can use modulation phase shift method to measure the exact value of dispersion comes out from different lengths of fiber. Moreover, this paper also proves that the phase-modulation shift method is able to measure the optical fiber with arbitrary dispersion-wavelength curve, which is already verified by our simulation. Therefore, the phase-modulation shift method is well to be applied to take practice in the high-precision fiber dispersion measurement.