Subcarrier optical transmission techniques for wireless local loop (WLL)

International Topical Meeting on Microwave Photonics. MWP '96 Technical Digest. Satellite Workshop (Cat. No.96TH8153) Pub Date : 1996-12-03 DOI:10.1109/MWP.1996.662070

O. Kagami, M. Ogasawara, F. Yamamoto, H. Ichikawa, K. Shimokawa

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引用次数: 2

Abstract

The WLL system has some advantages in that the access equipment is economical and the installation is easier and faster. A cell station (WCS) for the WLL is generally constructed of two components, one is made up of the radio transmitter and receiver, and the other is made up of the modulator/demodulator (MODEM) and other devices. Subcarrier optical transmission techniques can reduce the size of WCS and decrease power consumption, since the MODEM equipment is set up at a telephone center. However, laser diodes (LDs) utilized for an electric-to-optic (E/O) conversion are very expensive, because of the demand for linearity and low noise characteristics. In this paper, the application of signal extraction and frequency arrangement (SEFA) technique along with a new idea, i.e. a level compression technique among input signals (LCS), are discussed. As a result, it is clarified that an economical Fabry-Perot LD (FP-LD) can be applied to the subcarrier optical transmission techniques, even though their linearity and noise characteristics are worse than those of the distributed feedback LD (DFB-LD).

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无线本地环路的子载波光传输技术

该系统具有接入设备经济、安装方便快捷等优点。WCS一般由两部分组成，一部分由无线电发射机和接收机组成，另一部分由调制解调器(MODEM)和其他设备组成。由于调制解调器设备设置在电话中心，因此子载波光传输技术可以减小WCS的尺寸并降低功耗。然而，用于电光(E/O)转换的激光二极管(ld)非常昂贵，因为要求线性和低噪声特性。本文讨论了信号提取和频率排列(SEFA)技术的应用，以及输入信号间的电平压缩技术(LCS)。结果表明，经济的Fabry-Perot LD (FP-LD)可以应用于子载波光传输技术，即使它们的线性和噪声特性比分布反馈LD (DFB-LD)更差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Topical Meeting on Microwave Photonics. MWP '96 Technical Digest. Satellite Workshop (Cat. No.96TH8153)

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