全球光纤PLC分路器市场预测分析（2023-2033年）

10年市场预测

该市场预测报告可立即提供。 在这份报告中， 我们分析并预测光纤通讯应用中使用的 PLC（平面光波电路）分路器的全球市场消费趋势。 我们特别关注使用与波导电路对齐的光纤尾纤并整合在封装内的 PLC 分路器。

本报告中发布的定量市场分析和预测数据（2023-2032）除全球概览外，还按地区整理：

• 美洲（北美洲、中美洲和南美洲）
• EMEA （欧洲、中东国家、非洲）
• 亚太地区（亚太地区）

本报告涵盖的PLC分路器应用分析

• 服务提供者
• 光纤测试/测量
• 私人公司（私人企业）
• 恶劣的环境

每个产品等级的预测按功能列出：

• 消费金额（单位：百万美元）
• 消耗量（单位：千枚）
• 平均售价（单位：美元/个）

PLC 分路器允许大量用户共享单一被动光网路 (PON) (Passive Optical Network)接口，从而继续在光纤到府 (FTTH) (Fiber-to-the-Home) 网路中发挥重要作用。由于尺寸紧凑，PLC 分路器可用于机架安装式和基于模组的加值产品，以及架空安装、底座和地面安装。使用各种类型的连接器和拼接易于安装。

本报告分析了 PLC 分路器的详细市场和技术趋势，这些分路器正在朝着商品製造流程迈进，这主要是由 FTTx/FTTH（光纤到府）推动的。市场预测依产品类别及区隔区构成区隔如下：

主要PLC分路器的层次结构（依製造等级）

• 元件装置（小型）
• 模块

主 PLC 分路器层次结构：按分路器配置

1xN

• 1x2　
• 1x4　
• 1x8　
• 1x16　
• 1x32　
• 1x64　

2xN

• 2x4　
• 2x8　
• 2x16　
• 2x32　
• 其他（杂项 MxN）

资讯以易于理解的插图和文字形式呈现。也讨论了预测趋势的原因。它还概述了所追踪市场的研究方法和关键假设。定义了所使用的术语、首字母缩写和缩写词。我们提供精心挑选的光纤 PLC 分路器製造商和相关公司的列表，以及他们处理的 PLC 分路器类型和相关技术的说明。也介绍了光纤市场中光纤装置和装置的其他相关技术趋势。

光通讯网路将语音、音讯、高速和低速数据、视讯、电视（包括互动式 3D 高画质电视）和其他专用传输结合到一个整合基础设施中。

此基础设施包括企业 ERP 软体、统一讯息传递、网路辅助呼叫中心以及各种中小型企业基础设施。住宅用途、智慧电视（基于互联网的电视）、基于云端的视讯点播（Netflix/Amazon）、电子商务、小型办公室/在家工作（SOHO）、广告、医疗监控、老年护理/监控，以及儿童保育监控、家庭办公室安全等。在本研究期间，大多数现有通讯将建立在网路主干之上。这种转变的原因源自于需求。客户要求更快的速度、更多的功能和可靠性，当然也期望 "完美" 的服务品质。

平面波导电路 (PWC) 也称为平面光波电路 (PLC)，将大量主动和被动功能应用整合到封装模组中。长期趋势是基于分立电路（单功能）的 PWC/PLC 的份额正在增加，并被性能相当的混合（多功能）平面设备所取代。

目前，许多光学功能（例如分路器、可变光衰减器 (VOA) 和阵列波导 (AWG)）正在开发中，并与分离式（单功能/单晶片）组件整合。PWC 技术的封装和整合光学方面的结合为具有多种（两种或多种）功能（整合多功能设备）的设备/模组提供了一种有吸引力且强大的技术。

随着对更大容量光通讯组件的需求的发展，适合自动化组装流程的技术将具有竞争性的製造/成本优势。例如，硅晶圆的使用在商业积体电路（IC）製造中广泛使用了大规模生产技术。

具有多种功能的光纤到户无源光网路（FTTH/PON）整合PLC有望成为一个庞大的市场。Biplexer是一款包含上行1310nm和下行1490nm两种波长的一体化转发器，是PON所需的基于平面波导技术的最终用途模组之一。此外，一些网路使用 1550nm 波长进行有线电视覆盖，从而需要三工器。

资讯库

本报告是根据20多年来持续取得的资讯进行分析，更新截至2024年7月。在此期间，ElectroniCast分析师重点对光纤产业、电信、有线电视、商业数据通讯、军事/航空航太、其他通讯产业、仪器/研究领域的平面波导电路的供应商和用户进行了访谈。工厂/製造领域的代表性和权威人物。访谈主要针对以下人士：

• 光纤耦合器/分路器、PON/FTTH 组件/设备、光纤、AWG/波导、其他组件、电缆组件、测试/测量设备、光纤连接器、机械接头和安装设备製造商的工程师、行销人员和管理人员。
• 光通讯装置的关键和潜在用户，包括被动光元件、主动/收发器（通讯传输、交换、配电设备製造商、数据通讯设备製造商、恶劣环境、军事系统、飞机和太空船电子製造商、光学计量）系统製造商等）设计组长、工程师、行销人员、市场规划人员。
• 其他行业专家（包括标准活动、行业协会、投资等）。

访谈将涵盖技术、研发支援、定价、合约规模、可靠性、文件、安装/维护技术、标准、供应商竞争和其他主题。

我们也采访了选定的客户，以获得收到的数量和支付的平均价格的估计值，以匹配供应商的估计值。客户正在估计应用程式的历史成长率和不久的将来的预期成长率。也获得了客户对新技术产品使用的意见。

然后，分析师考虑客户应用程式的近期成长预测，以及每个地区的预期投资经济回报、技术趋势和政府法规的变化，以确定每个应用程式中每个产品子集的数量和价格。率。我们将这些估计的成长率与估计的基线数据结合，以获得每种产品和应用的最详细程度的长期预测。

我们也对已发布的资讯进行了全面审查，以补充透过访谈所获得的资讯。我们考虑了以下来源：

• 专业技术期刊及文章
• 业界报纸文章
• 技术会议纪要
• 公司简介与财务资讯
• 基于过去 ElectroniCast 研究的附加信息
• 研究团队的个人知识。

为了分析和预测复杂平面波导电路及相关装置的全球市场，市场研究团队必须对该技术和产业有透彻而深入的瞭解。参与本报告的 ElectroniciCast 会员均符合资格。

註：本报告中的市场预测资料为特定日历年的消耗量（使用量），并非累积资料。

目录

第一章 PLC 分路器市场预测：概述

• 执行摘要
• 光纤网路

第二章 PLC 分路器市场预测：依製造等级和连接埠数配置

• 概述
• PLC分路器-组件装置（紧凑装置）
• PLC分路器模组

第三章 PLC 分路器市场预测：依製造水准、分路比和应用分类

• 概述
• 无源光网路 (PON) - FTTX 网路/服务供应商（电信/CATV）
• 光纤测试/测量和特殊应用
• 私人企业网络
• 恶劣环境（军事、工业等）

第四章 PLC分路器技术

• 概述
• PLC分路器-组件装置（管式或紧凑式盒式）
• PLC分路器模组

第五章 主要公司简介

• AC Photonics, Incorporated
• AD-net Technology Company, Ltd.
• Allnetfiber Technology Co., Ltd (Shenzhen)
• Aminite Technology Co. Ltd (Shenzhen)
• Amphenol Network Solutions
• Broadex Technologies
• Browave Corporation
• Calix, Incorporated
• Changzhou LINKET Electronic Technology Co., Ltd.
• ColorChip
• CommScope Inc.
• Corning Incorporated; Corning - Optical Communications
• DAYTAI Network Technologies Company, Ltd (Hangzhou)
• Dierite Optoelectronics Technology Company, Ltd. (Jisngsu)
• DYS Fiber Optic Technology Company, Ltd (Shenzhen)
• East Photonics
• Fiber Optic Communications, Inc. (FOCI)
• Fibre Optical Component GmbH (FOC)
• Fi-ra Photonics Company, Limited
• FOCC Fiber Optic Company, Limited
• Fraunhofer Heinrich Hertz Institute (Fraunhofer-Gesellschaft
• FS.COM
• Fujikura Limited and AFL (subsidiary of Fujikura Limited)
• Furukawa Electric Company Limited
• Go!Foton (NSG)
• G&H
• Hanlan Technology Co., Ltd. (Hunan)
• Haphit Limited
• Hataken Company, Limited
• Hexatronic
• Honghui Optics Communication TECH.CORP. (Shanghai)
• Huihong Technologies Limited
• Hysolution Company, Ltd.
• Intel
• Kington Optic Company, Ltd. (Shenzhen)
• Kitanihon Electric Cable Co, Ltd. (KEC)
• Korea Ortron Corporation
• LEAD Fiber Optics Company, Limited (LFO)
• LEONI
• Lumentum Operations LLC
• Table of Contents - Continued
• Molex
• Melbye Skandinavia
• Neptec Optical Solutions
• NTT Electronics Corporation (NEL)
• NTT Group - NTT R&D - NTT Device Technology Laboratories
• OMC Industry Company Limited (Shenzhen)
• Optico Communication Company, Ltd. (Shenzhen)
• Optone Technology Limited
• Optotec
• OZ Optics Incorporated
• Photeon Technologies
• Photonic Manufacturing Service Ltd.
• PPC Broadband, a Belden brand
• PPI Incorporated
• Premium-Line Systems GmbH
• Prysmian Group
• Puhuixin Technology Co., Ltd. (PHXFIBER)
• Qingdao Applied Photonic Technologies Co., Ltd. (APT)
• Qualfiber Technology Co., Ltd.
• SANWA Technologies, Inc
• SENKO Advanced Components
• Shijia Photons Technology Co., Ltd. (Henan)
• Sindi Technologies Co., Ltd.
• Sopto Technologies Co., Ltd (Hongan Group)
• Spring Optical Communication Co., Ltd (Shenzhen)
• SQS Vlaknova optika a.s.
• Sun Telecom Communication Company Limited
• Sunma International Industry Ltd.
• SYLEX, s.r.o.
• T&S Communications Co., Ltd.
• Tianyi - (Sichuan Tianyi Kanghe Communications Co., Ltd.)
• TING ESUN Communication Technology Co., Ltd (Shenzhen)
• Tongding Group
• Vertiv Company
• Wayoptics
• WOORIRO Optical Telecom Company, Limited
• Wuhan Wolon Communication Technology Co., Ltd. (Wolon)
• Wutong Group
• Wuxi Advance Optical Fiber Co., Ltd. (AOF)
• Yilut Optical Communication Company (Wuhan)
• Yuyao Jera Line Fitting Company, Ltd.
• PLC 分路器/紧凑型设备领导者 - 市场占有率估算（基准年：2023 年）

第六章 ElectroniCast 调查/调查方法

第七章 ElectroniCast顾问：市场分析/预测资料库（Excel解说）

10-Year Market Forecast

This market forecast report is available immediately. Analysis and forecast of global market consumption of planar lightwave circuit (PLC) splitters used in optical fiber communication applications. For the purposes of this study, ElectroniCast specifically addresses the PLC splitter, using waveguide circuits and aligned fiber optic pigtails, integrated inside a package.

The 2023-2032 quantitative market review and forecast data presented in this report are segmented into the following geographic regions, plus a Global summary:

• America (North America, Central and South America)
• EMEA (Europe, Middle Eastern countries, plus Africa)
• APAC (Asia Pacific)

PLC Splitter Applications analysis covered in this report:

• Service Providers
• Fiber Optic Test/Measurement
• Private Enterprise
• Harsh Environment

The forecast for each product-level is presented by function:

• Consumption Value ($, Million)
• Number of Units (Quantity in 1,000)
• Average Selling Prices ($, each)

PLC splitters will continue to contribute an important role in Fiber-to-the-Home (FTTH) networks by allowing a single passive optical network (PON) interface to be shared among many subscribers. PLC splitters are available in compact sizes; therefore, they can be used in aerial apparatus, pedestals or in-ground as well as rack mount or other module-based value-added product. Installation is simple using a variety of connector types or splicing.

This report provides a detailed market and technology analysis of PLC splitters, which are largely driven by FTTx / Fiber-to-the-Home (FTTH) and are trending towards commodity manufacturing processes. The market forecast is segmented by the following product categories and split configurations:

Hierarchy of Selected PLC Splitters, by Fabrication-Level

• Component Device (compact)
• Modules

Hierarchy of Selected PLC Splitters, by Splitter Configuration

1xN

• 1x2
• 1x4
• 1x8
• 1x16
• 1x32
• 1x64

2xN

• 2x4
• 2x8
• 2x16
• 2x32
• Other (miscellaneous MxN)

The information is presented in easy-to-follow illustrations and text. The reasons for the forecasted trends are discussed. The report also outlines the market research methodology followed and the key assumptions made. Terms, acronyms, and abbreviations used are defined. A list of selected optical fiber PLC splitter manufacturers and related companies is provided, along with a description of the types of PLC splitters and related technologies that they address. The technology trends of other pertinent fiber optic components and devices in the fiber optic marketplace are presented.

Optical communication networks combine voice, audio, data at high and low speeds, video, television (including interactive 3D high resolution television), and other specialized transmission into a single integrated infrastructure.

Included within the infrastructure is business Enterprise resource planning (ERP) software, unified messaging, web-assisted call centers, and a variety of small-business infrastructures. Residential use includes smart-TV (Internet-based TV), cloud-based video on demand (Netflix/Amazon), e-commerce, small office/home office telecommuting, advertising, medical monitoring, elder care monitoring, childcare monitoring, home and office security. Most existing communications will be built upon an Internet backbone during the period of this study. Reasons for this transition are rooted in demand. The customers are demanding greater speed, more functionality and reliability, and naturally, they expect "perfect" quality of service.

Planar waveguide circuits (PWCs) also referred to as planar lightwave circuits (PLCs), incorporate numerous active and passive functional uses for packaged modules. The long-term trend is for a larger share of discrete-circuit (single-function) based PWCs/PLCs being displaced by equivalent performance hybrid (multiple-function) planar devices.

Many optical functions, such as splitters, variable optical attenuators (VOAs) and array waveguides (AWGs) are currently developed and implemented forming discrete (single function/monolithic) component integration. The combination of the packaging and integrated optics aspects of PWC technology provides for an attractive and powerful technology for devices/modules, which will hold multiple (two or more) functions (integrated multifunction devices); thereby, reducing size, weight, and cost versus larger, bulkier discrete devices/modules.

As the demand for larger quantities of optical communication components evolve, technologies, which are friendly to automation assembly processes, will have a competitive manufacturing/cost advantage. Use of silicon wafers, for example, draws extensively on the mass-production techniques of the commercial integrated circuit (IC) production whelm, since the fabrication of PWCs incorporates many of the same pieces of equipment and processes.

Fiber-to-the-Home passive optical networks (FTTH/PONs) integrated PLCs, with multiple functions, have promise for a sizable market. The biplexer is an all-in-one transponder that includes the two wavelengths, 1310nm upstream and 1490nm downstream, is one end-use modules based on planar waveguide technology that is required for PON. And some networks will use a 1550nm wavelength for a cable TV overlay, creating the need for triplexers.

INFORMATION BASE

This study is based on analysis of information obtained continually over 20 years but updated through the end of July 2024. During this period, ElectroniCast analysts performed interviews with authoritative and representative individuals in the fiber optics industry plus telecommunications, cable TV, private datacom, military/aerospace & other communication industries, instrumentation/ laboratory - R&D and factory/manufacturing, from the standpoint of both suppliers and users of planar waveguide circuits. The interviews were conducted principally with selected:

• Engineers, marketing personnel and management at manufacturers of fiber optic couplers/splitters, PON/FTTH components/devices, optical fiber, AWGs/optical waveguide and other components, cable assemblies, test/measurement equipment, Fiber optic connectors, mechanical splices splice and installation apparatus
• Design group leaders, engineers, marketing personnel and market planners at major users and potential users of optical communication devices, including passive optical devices and active/transceivers, such as telecommunication transmission, switching and distribution equipment producers, data communications equipment producers, harsh environment, military systems, aircraft and spacecraft electronic equipment producers, optical instrumentation system producers and others
• Other industry experts, including those focused on standards activities, trade associations, and investments.

The interviews covered issues of technology, R&D support, pricing, contract size, reliability, documentation, installation/maintenance crafts, standards, supplier competition and other topics.

Selected customers also were interviewed, to obtain their estimates of quantities received and average prices paid, as a crosscheck of selected vendor estimates. Customer estimates of historical and expected near term future growth of their application are obtained. Their views of the use of new technology products were obtained.

The analyst then considered customer expectations of near-term growth in their application, plus forecasted economic payback of investment, technology trends and changes in government regulations in each geographical region, to derive estimated growth rates of quantity and price of each product subset in each application. These forecasted growth rates are combined with the estimated baseline data to obtain the long-range forecasts at the lowest detailed level of each product and application.

A full review of published information was also performed to supplement information obtained through interviews. The following sources were reviewed:

• Professional technical journals and papers
• Trade press articles
• Technical conference proceedings
• Product literature; Company profile and financial information
• Additional information based on previous ElectroniCast studies
• Personal knowledge of the research team.

In analyzing and forecasting the complexities of the worldwide markets for planar waveguide circuits and related devices, it is essential that the market research team have a good and deep understanding of the technology and of the industry. ElectroniCast members who participated in this report were qualified.

Note: Market forecast data in this study report refers to consumption (use) for a particular calendar year; therefore, this data is not cumulative data.

Table of Contents

1. PLC Splitter Market Forecast Overview

• 1.1. Executive Summary
• 1.2. Fiber Optic Networks

2. PLC Splitter Market Forecast, by Fabrication-Level and Port-Count Configuration

• 2.1. Overview
• 2.2. PLC Splitter - Component Device (compact devices)
• 2.3. PLC Splitter Modules

3. PLC Splitter Market Forecast, by Fabrication-Level, Split Ratio and Application

• 3.1. Overview
• 3.2. Passive Optical Network (PON) - FTTX Networks / Service Providers (Telco/CATV)
• 3.3. Fiber Optic Test/Measurement & Specialty Applications
• 3.4. Private Enterprise Networks
• 3.5. Harsh Environment (Military, Industrial, Other)

4. PLC Splitter Technology

• 4.1. Overview
• 4.2. PLC Splitter - Component Device (tube or compact box)
• 4.3. PLC Splitter Modules

5. Selected Company Profiles

• AC Photonics, Incorporated
• AD-net Technology Company, Ltd.
• Allnetfiber Technology Co., Ltd (Shenzhen)
• Aminite Technology Co. Ltd (Shenzhen)
• Amphenol Network Solutions
• Broadex Technologies
• Browave Corporation
• Calix, Incorporated
• Changzhou LINKET Electronic Technology Co., Ltd.
• ColorChip
• CommScope Inc.
• Corning Incorporated; Corning - Optical Communications
• DAYTAI Network Technologies Company, Ltd (Hangzhou)
• Dierite Optoelectronics Technology Company, Ltd. (Jisngsu)
• DYS Fiber Optic Technology Company, Ltd (Shenzhen)
• East Photonics
• Fiber Optic Communications, Inc. (FOCI)
• Fibre Optical Component GmbH (FOC)
• Fi-ra Photonics Company, Limited
• FOCC Fiber Optic Company, Limited
• Fraunhofer Heinrich Hertz Institute (Fraunhofer-Gesellschaft
• FS.COM
• Fujikura Limited and AFL (subsidiary of Fujikura Limited)
• Furukawa Electric Company Limited
• Go!Foton (NSG)
• G&H
• Hanlan Technology Co., Ltd. (Hunan)
• Haphit Limited
• Hataken Company, Limited
• Hexatronic
• Honghui Optics Communication TECH.CORP. (Shanghai)
• Huihong Technologies Limited
• Hysolution Company, Ltd.
• Intel
• Kington Optic Company, Ltd. (Shenzhen)
• Kitanihon Electric Cable Co, Ltd. (KEC)
• Korea Ortron Corporation
• LEAD Fiber Optics Company, Limited (LFO)
• LEONI
• Lumentum Operations LLC
• Table of Contents - Continued
• Molex
• Melbye Skandinavia
• Neptec Optical Solutions
• NTT Electronics Corporation (NEL)
• NTT Group - NTT R&D - NTT Device Technology Laboratories
• OMC Industry Company Limited (Shenzhen)
• Optico Communication Company, Ltd. (Shenzhen)
• Optone Technology Limited
• Optotec
• OZ Optics Incorporated
• Photeon Technologies
• Photonic Manufacturing Service Ltd.
• PPC Broadband, a Belden brand
• PPI Incorporated
• Premium-Line Systems GmbH
• Prysmian Group
• Puhuixin Technology Co., Ltd. (PHXFIBER)
• Qingdao Applied Photonic Technologies Co., Ltd. (APT)
• Qualfiber Technology Co., Ltd.
• SANWA Technologies, Inc
• SENKO Advanced Components
• Shijia Photons Technology Co., Ltd. (Henan)
• Sindi Technologies Co., Ltd.
• Sopto Technologies Co., Ltd (Hongan Group)
• Spring Optical Communication Co., Ltd (Shenzhen)
• SQS Vlaknova optika a.s.
• Sun Telecom Communication Company Limited
• Sunma International Industry Ltd.
• SYLEX, s.r.o.
• T&S Communications Co., Ltd.
• Tianyi - (Sichuan Tianyi Kanghe Communications Co., Ltd.)
• TING ESUN Communication Technology Co., Ltd (Shenzhen)
• Tongding Group
• Vertiv Company
• Wayoptics
• WOORIRO Optical Telecom Company, Limited
• Wuhan Wolon Communication Technology Co., Ltd. (Wolon)
• Wutong Group
• Wuxi Advance Optical Fiber Co., Ltd. (AOF)
• Yilut Optical Communication Company (Wuhan)
• Yuyao Jera Line Fitting Company, Ltd.
• 5.2. PLC Splitter Compact Device Leaders - Market Share Estimates (Year: 2023)

6. ElectroniCast Research and Analysis Methodology

7. ElectroniCast Consultants - Market Analysis & Forecast Data Base (Excel Explanation)

List of Tables

• 1.1.1. Market Forecast Product Categories and Split Configurations
• 1.2.1. Machine Type Communication Applications
• 1.2.2. Harsh Environment Applications, Components & Devices/Parts
• 2.2.1. PLC Splitter Compact Device Global Forecast, by Region ($Million)
• 2.2.2. PLC Splitter Compact Device Global Forecast, by Region (Quantity/Units)
• 2.2.3. PLC Splitter Compact Device Global Forecast, by Split Configuration ($Million)
• 2.2.4. PLC Splitter Compact Device Global Forecast, by Split Configuration (Quantity/Units)
• 2.2.5. PLC Splitter Compact Device Global Forecast, by Split Configuration (Price, $ Each)
• 2.3.1. PLC Splitter Module Global Forecast, by Region ($Million)
• 2.3.2. PLC Splitter Module Global Forecast, by Region (Quantity/Units)
• 2.3.3. PLC Splitter Module Global Forecast, by Split Configuration ($Million)
• 2.3.4. PLC Splitter Module Global Forecast, by Split Configuration (Quantity/Units)
• 2.3.5. PLC Splitter Module Global Forecast, by Split Configuration (Price, $ Each)
• 3.1.1. PLC Splitter Compact Device Global Forecast, by Application ($Million)
• 3.1.2. PLC Splitter Compact Device Global Forecast, by Application (Quantity/Units)
• 3.1.3. PLC Splitter Module Global Forecast, by Application ($Million)
• 3.1.4. PLC Splitter Module Global Forecast, by Application (Quantity/Units)
• 3.2.1. PLC Splitter Device in FTTx/Telecom/CATV Global Forecast, by Configuration ($Million)
• 3.2.2. PLC Splitter Device in FTTx/Telecom/CATV Global Forecast, by Configuration (Quantity)
• 3.2.3. PLC Splitter Device in FTTx/Telecom/CATV Global Forecast, by Configuration (Price, $)
• 3.2.4. PLC Splitter Module in FTTx/Telecom/CATV Global Forecast, by Configuration ($Million)
• 3.2.5. PLC Splitter Module in FTTx/Telecom/CATV Global Forecast, by Configuration (Quantity)
• 3.2.6. PLC Splitter Module in FTTx/Telecom/CATV Global Forecast, by Configuration (Price, $)
• 3.3.1. PLC Splitter Device in Test/Measurement Global Forecast, by Configuration ($Million)
• 3.3.2. PLC Splitter Device in Test/Measurement Global Forecast, by Configuration (Quantity)
• 3.3.3. PLC Splitter Device in Test/Measurement Global Forecast, by Configuration (Price, $)
• 3.3.4. PLC Splitter Module in Test/Measurement Global Forecast, by Configuration ($Million)
• 3.3.5. PLC Splitter Module in Test/Measurement Global Forecast, by Configuration (Quantity)
• 3.3.6. PLC Splitter Module in Test/Measurement Global Forecast, by Configuration (Price, $)
• 3.4.1. PLC Splitter Device in Private Enterprise Global Forecast, by Configuration ($Million)
• 3.4.2. PLC Splitter Device in Private Enterprise Global Forecast, by Configuration (Quantity)
• 3.4.3. PLC Splitter Device in Private Enterprise Global Forecast, by Configuration (Price, $)
• 3.4.4. PLC Splitter Module in Private Enterprise Global Forecast, by Configuration ($Million)
• 3.4.5. PLC Splitter Module in Private Enterprise Global Forecast, by Configuration (Quantity)
• 3.4.6. PLC Splitter Module in Private Enterprise Global Forecast, by Configuration (Price, $)
• 3.5.1. PLC Splitter Device in Harsh Environment Global Forecast, by Configuration ($Million)
• 3.5.2. PLC Splitter Device in Harsh Environment Global Forecast, by Configuration (Quantity)
• 3.5.3. PLC Splitter Device in Harsh Environment Global Forecast, by Configuration (Price, $)
• 3.5.4. PLC Splitter Module in Harsh Environment Global Forecast, by Configuration ($Million)
• 3.5.5. PLC Splitter Module in Harsh Environment Global Forecast, by Configuration (Quantity)
• 3.5.6. PLC Splitter Module in Harsh Environment Global Forecast, by Configuration (Price, $)
• 5.1. Noted Applications - PLC Splitters
• 5.2. PLC Splitter Manufacturing Product-Line / Features
• 7.1. PLC Splitter Applications ElectroniCast Database Hierarchy
• 7.2. PLC Splitter Split Ratio Configuration ElectroniCast Database Hierarchy

NOTE: SEE EXCEL ELECTRONICAST WORKSHEETS FOR REGIONAL MARKET DATA

List of Figures

• 1.1.1. PLC Splitter Application Example
• 1.1.2. Passive Optical Network Topology Example
• 1.1.3. PLC Splitter Chips (Assorted)
• 1.1.4. PLC Wafer
• 1.1.5. Schematic Drawing - PLC Splitter Chip and Other Parts
• 1.1.6. Illustration and Image of PLC Splitter Optical Fiber Interface Assembly
• 1.1.7. 2x8 PLC Splitter
• 1.1.8. High Grade Polarization Maintaining (PM) PLC Optical Signal Splitter
• 1.1.9. Polarization Maintaining (PM) PLC Splitters (1x8, 1x24)
• 1.1.10. PLC Splitter Component-Level Compact Devices Global Forecast, by Region ($Million)
• 1.1.11. Value-Added PLC Splitter Modules (Assorted)
• 1.1.12. PLC Splitter Modules with Connectors (Assorted)
• 1.1.13. PLC Splitter Modules with Connectors
• 1.1.14. PLC Splitter Modules with Connectors
• 1.1.15. PLC Splitter Modules Global Forecast, by Region ($Million)
• 1.2.1. Machine type communications (MTC) Requirements
• 1.2.2. Innovative Fiber to the Room (FTTR) Solution
• 1.2.3. Fixed Broadband Subscriptions by Technology Choice
• 1.2.4. Optical Fiber, DSL and cable in total fixed broadband subscriptions
• 1.2.5. Schematic of an Optical Line Terminal Access Network
• 1.2.6. Fiber Optic Network Topology
• 1.2.7. WDM/TDM-PON Technology
• 1.2.8. 25G WDM-PON solution for 5G fronthaul
• 1.2.9. FTTP PON Architecture
• 1.2.10. HFC Distribution System
• 1.2.11. Data Center Facility, United States
• 1.2.12. High-Bandwidth Applications
• 1.2.13. High-Bandwidth Applications
• 2.2.1. PLC Splitter Design Illustration (Typical)
• 2.2.2. Mechanical Drawing: 1x2 and 1x64 PLC Compact Splitter Devices
• 2.2.3. Component-Level Compact PLC Splitter Devices (Assorted)
• 2.3.1. 1x16 PLC Splitter Module
• 2.3.2. 1x32 PLC Splitter Module with SC Connectors
• 2.3.3. Mechanical Drawing: 1x32 PLC Splitter Module
• 3.2.1. FTTH GPON: Passive Optical Network
• 3.2.2. Radio Frequency over Glass: HFC
• 3.2.3. Illustration of FTTx
• 3.4.1. Typical Gigabit Enterprise Network Product Deployment
• 3.4.2. Hyperscale Data Center (HDC)
• 4.1.1. Typical PLC Components Used in Optical Communication Networks
• 4.1.2. RGB Coupler and RGB Laser-Light-Source Module with PLC Chip
• 4.2.1. Single-mode PLC Splitter Compact Device
• 4.2.2. Single-mode PLC Splitter Compact Device
• 4.3.1. PLC Splitter Module
• 4.3.2. Planar Lightwave Circuit (PLC) splitter modules
• 5.1. PLC Splitter and Module
• 5.2. PLC Splitter with Connectors
• 5.3. PLC Splitter Module with Connector Assemblies
• 5.4. Fiber Optic Splitter Module (C2 - Splitter Module)
• 5.5. FBT and PLC splitter types
• 5.6. Fiber Optic Splitter Module
• 5.7. Arrayed Waveguide Grating Cascade Technology
• 5.8. Next Generation Passive Optical Network 2 (NG-PON2) Topology Example
• 5.9. 5.7-inch PLC Splitter Wafer
• 5.10. 1XN PLC Optical Splitter Chips
• 5.11. Fiber Optic PLC Splitter Module
• 5.12. PLC Splitter VAM Module
• 5.13. Compact Design 1x8 PLC Splitter for FTTX Systems
• 5.14. PLC Splitter with Optical Fiber
• 5.15. PLC Splitter Module for Rack Patchbox
• 5.16. Small Footprint Optical Component
• 5.17. Small Footprint Optical Component (1x2 TFF MUX/DEMUX)
• 5.18. PLC Splitter Wafer
• 5.19. PLC Splitter Chip Features/Chips
• 5.20. ABS PLC Splitter
• 5.21. Customized 1 x 5 Unbalanced PLC Fiber Splitter, Single-mode
• 5.22. Compact Drop Closure for FTTH Premise
• 5.23. Splitter Module
• 5.24. Module Optical Splitter
• 5.25. Direct Connect PLC Splitters
• 5.26. 1060 nm Planar Lightwave Circuit
• 5.27. 1x2 Single Mode PLC Fiber Splitter ABS Box Type with SC Connectors
• 5.28. PLC Splitter with Optical Fiber and Connectors (1 x 32)
• 5.29. Optical Compute Interconnect (OCI)
• 5.30. Parts of a Passive Optical PLC Splitter
• 5.31. Ribbon Type PLC Splitter
• 5.32. Small Form Factor Type PLC Splitter
• 5.33. ABS Type PLC Splitter
• 5.34. PLC Splitter Compact Devices
• 5.35. Function and Application - PBC(B) and PBC(S): (Splitter)
• 5.36. PLCs and Applications in Optical Fiber Communications
• 5.37. 1X17 PLC Splitter Promotion
• 5.38. PLC Splitter Chips
• 5.39. 1x16, ABS-Box Type PLC Splitter, SC/UPC Connectors
• 5.40. 1x32 PLC Splitter Cassette
• 5.41. 1xN PLC Splitter
• 5.42. 2x8 PLC Splitter
• 5.43. PLC Splitter Module 900um Type
• 5.44. Mini Planar Lightwave Circuit (PLC) Splitter
• 5.45. Production-Line(s) in China
• 5.46. Line Drawing - 32 Way PLC Splitters SC APC
• 5.47. 1x16 SC APC Mini ABS Type 2.0mm 3.0mm Fiber Optic PLC Splitter
• 5.48. Polarization Maintaining PLC Splitters
• 5.49. PLC Splitter in Splicing Module (Cassette)
• 5.50. PLC Splitter Production - PLC Alignment (China)
• 5.51. PLC Splitter Production - Manual Operation Section (China)
• 5.52. PLC Wafer
• 5.53. PLC Splitter Module
• 5.54. PLC type optical splitter
• 5.55. Planar Lightwave Circuit (PLC) Splitter 1x8 Component with Connectors
• 5.56. Current Location Map
• 5.57. PLC Splitters
• 5.58. Planar Lightwave Circuit (PLC) Splitter Modules
• 5.59. FTTH Topology Using PLC Splitters
• 5.60. PLC Splitter Product "Food Chain"
• 5.61. Planar Splitter Wafer
• 5.62. PLC Splitter Module with Connector Assembly
• 5.63. 2x32 Cartridge Optical Splitter SC/APC
• 5.64. PLC Splitter Compact Devices Market Share Estimates - Selected Leaders (2023)
• 6.1.1. ElectroniCast Market Research & Forecasting Methodology

Addendum

• 10-Year Market Forecast Data Base - Excel Spreadsheets (2023-2033):
• ElectroniCast presents sections (tabs) in the Microsoft EXCEL market forecast database:

Tables - Compact (Compact PLC Splitter Devices)

• Global - Compact
• America - Compact
• EMEA - Compact
• APAC - Compact

Tables - Module (PLC Splitter Modules/Enclosures)

• Global - Module
• America - Module
• EMEA - Module
• APAC - Module

Note: There are also four (4) "Extra Tables" that are not included in the PDF text file:

• PLC Splitter Compact Devices Global Consumption Market Forecast, by Region (Avg. Selling Price, each, $) PLC Splitter Compact Devices Global Consumption Market Forecast, by Application (Avg. Selling Price, each, $) PLC Splitter Modules Global Consumption Market Forecast, by Region (Avg. Selling Price, each, $)
• PLC Splitter Modules Global Consumption Market Forecast, by Application (Avg. Selling Price, each, $)