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A Novel Method for Evaluating Micro-Bending Sensitivity to Ensure Applicability to High-Density Optical Fiber Cable | IEEE Conference Publication | IEEE Xplore
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A Novel Method for Evaluating Micro-Bending Sensitivity to Ensure Applicability to High-Density Optical Fiber Cable

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Masashi Kikuchi; Yuto Sagae; Yusuke Yamada; Takashi Matsui; Kazuhide Nakajima
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Abstract:

A novel 3-layer wrapping method is proposed for evaluating a micro-bending sensitivity of an optical fiber. Proposed method enables to predict applicability to high-densi...Show More

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Abstract:

A novel 3-layer wrapping method is proposed for evaluating a micro-bending sensitivity of an optical fiber. Proposed method enables to predict applicability to high-density optical fiber cable independent with the fiber geometry and/or coating property.
Published in: 2022 27th OptoElectronics and Communications Conference (OECC) and 2022 International Conference on Photonics in Switching and Computing (PSC)
Date of Conference: 03-06 July 2022
Date Added to IEEE Xplore: 17 August 2022
ISBN Information:
DOI: 10.23919/OECC/PSC53152.2022.9849976
Conference Location: Toyama, Japan
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Contents

I. Introduction

High-density optical fiber cables are widely used because it enables us to maximize install-fiber density [1]. Space division multiplexing (SDM) fibers, including multi core fiber (MCF), is a promising candidate for improving transmission capacity per single cladding [2], [3]. Thus, high-density optical fiber cable accommodating SDM fiber can improve drastically the spatial utilization efficiency [4]. Install-fiber density of high-density cable mainly depends on micro bending loss sensitivity [5]. Generally, micro bending loss sensitivity is evaluated by method described in [6]. However, micro bending loss evaluated by the method varies by the surface roughness and wrapping tension. Moreover, micro bending loss sensitivity varies by cladding diameter, coating thickness, and coating materials. Thus, it is difficult to estimate applicable install-fiber-density from micro bending loss sensitivity obtained with the traditional method.

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