Handheld Optical Time Domain Reflectometer Global Market Forecast & Analysis 2021-2031

10-Year Market Forecast
 
 Optical Fiber Testing – An optical time-domain reflectometer (OTDR) is an optoelectronic instrument used to characterize an optical fiber. The optical-time domain reflectometer is considered at the core of fiber optic characterization.
 
 This report provides our estimates and forecast of global consumption of hand-held OTDR fiber optic test units, associated supplemental (add-on) modules, and Multi-Test Platforms, which are initially used with OTDR add-on modules.
 
 This report provides an analysis (review) and a 10-year forecast (2021-2031) of the worldwide market consumption segmented into the following geographic regions:
 
 • North America
 • Europe
 • Asia Pacific Region (APAC)
 o China (Mainland)
 o Rest of Asia Pacific
 • Rest of the World
 
 The ElectroniCast global market is segmented into the following major application categories:
 
 • Telecommunications
 • Private Enterprise Networks
 • Cable TV
 • Military
 • Specialty (Sensor, Industrial, Laboratory, rental units, other applications and non-specific/miscellaneous)
 
 
 The optical time-domain reflectometer (OTDR) is used as a troubleshooting device to find faults, splices, and bends in fiber optic cables, with an eye toward identifying light loss. Light loss is especially important in fiber optic cables because it can interfere with the transmission of data. An OTDR can detect such light loss and pinpoint trouble areas, facilitating the maintenance and repair process.
 
 Last year, Telecommunications applications, led in relative market share of the worldwide consumption value of handheld OTDRs and multi-test units with initial OTDR use and add-on OTDR modules.
 
 The fastest annual growth, however, is forecasted for the consumption of OTDRs in the Private Networks, due to the increase optical fiber deployment in LANs (local area networks), campus (LAN extension inter-building, LAN-to-LAN and redundant lines), and (very large) Data Centers (DCs), driven by critical high-speed data applications. Private networks require an OTDR solution to accommodate a single-mode or multimode application and test scenario from relatively short to longer distances. With the exception of Military, ElectroniCast counts the use of OTDRs by the Government sector in the Private Network category.
 
 Cable TV operations, Military/Aerospace applications, as well as various specialty/other applications are also quantified in this report of the study. ElectroniCast defines the use of handheld OTDRs in Specialty applications, as units testing the deployment of Sensors, which are not used in the other applications). Specialty applications also include the use of OTDRs in used in Industrial, Laboratory, rental units, other applications and non-specific/miscellaneous.
 
 Product Categories covered in this ElectroniCast market forecast:
 
 • OTDR devices, including pre-installed (initial) capability (embedded/dedicated or module); this category includes multiple test function units, which includes OTDR capabilities
 
 • Supplementary OTDR modules, which can be added-on (plug into) existing handheld OTDR or multiple test function units/platform devices
 
 The market forecast data are segmented by the following functions:
 
 • Consumption Value (US$, million)
 • Quantity (number/by 1,000 units)
 • Average Selling Prices (ASP $, each)
 
 Information Base for the Market Forecast
 
 Primary Research This study is based on analysis of information obtained continually since 1994, but updated through mid-February 2022. During this period, ElectroniCast analysts performed interviews with authoritative and representative individuals in the fiber optics industry plus private networks, telecommunications, military/aerospace and other communication industries, instrumentation/ laboratory – R&D and factory/manufacturing, from the standpoint of both suppliers and users of fiber optic test units. The interviews were conducted principally with:
 
 • Engineers, marketing personnel and management at manufacturers of fiber optic test equipment, fiber optic sensors, fiber optic fusion splice equipment, mechanical splice, connectors, transceivers, as well as laser diodes and photodiodes, application-specific ICs, packages, ferrules and cables, substrate materials, optical waveguide and other components used in the fabrication of optoelectronic transceivers, optical fiber, fiber optic cable assemblies and installation apparatus.
 
 • Design group leaders, engineers, marketing personnel and market planners at major users and potential users of cable, cable assemblies, connectors, installation apparatus, passive devices and transceivers, such as telecommunication transmission, switching and distribution equipment producers, data communications equipment producers (switches, hubs, routers), computer and workstation producers, weapon system, 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. Customers also were interviewed, to obtain their estimates of quantities received and average prices paid, as a crosscheck of vendor estimates. Customer estimates of historical and expected near term future growth of their application are obtained. Their views of 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.
 
 Secondary Research 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 market studies
  Personal knowledge of the research team
 
 In analyzing and forecasting the complexities of the world region markets for fiber optic test and measurement products, it is essential that the market research team have a good and a deep understanding of the technology and of the industry. ElectroniCast members who participated in this report were qualified.
 
 Bottom-up Methodology ElectroniCast forecasts are developed initially at the lowest detail level, and then summed to successively higher levels. The background market research focuses on the amount of each type of product used in each application in the base year (last year), and the prices paid at the first transaction from the manufacturer. This forms the base year data. ElectroniCast analysts then forecast the growth rates in component quantity use in each application, along with price trends, based on competitive, economic and technology forecast trends, and apply these to derive long term forecasts at the lowest application levels. The usage growth rate forecasts depend heavily on analysis of overall end user trends toward optical communication equipment usage and economic payback.
 
 Cross-Correlation Increases Accuracy The quantities of fiber optic test equipment, fiber optic fusion splice devices/equipment, fiber cable, connectors, sensors, transceivers, transport terminals, optical add/drop MUX, photonic switches and other products used in a particular application are interrelated. Since ElectroniCast conducts annual analysis and forecast updates in each fiber optic related product field, accurate current quantity estimates in each application are part of this corporate database. These quantities are cross-correlated as a “sanity check.”
 
 ElectroniCast, each year since 1985, has conducted extensive research and updated our multiple-client forecasts of each fiber optic component category. As technology and applications have advanced, the number of component subsets covered by the forecasts has expanded impressively.
 
 Coronavirus Adjustment - The coronavirus pandemic remains a major concern throughout the world. In some countries, many “non-essential” businesses are limited, employment is affected by “on and off again” quarantine or limited quarantine of the public. However, recently many governments have eased the quarantine status. Depending on political, economic, health and several other consideration factors, some restrictions could be extended several more months. Because of the impact on production, sales, shipment and implementation (and other) caused by the negative effects of the coronavirus (COVID-19) and the waves of multiple variants of the virus, ElectroniCast is forecasting a challenge to OTDR consumption in 2022.
 
 ElectroniCast methodology in determining the downturn of the consumption (use) of OTDRs, begins with the volume (quantity) forecast, before any considerations of the coronavirus impact. Then, we evaluated current manufacturing (not only OTDRs, but selected relative components, products and services), inventory, distribution channels, shipping, logistics, sales/marketing channels, user restrictions, with the emphasis on actual possibility of installations for both essential and non-essential or selective implementation of the subjected applications or other. Other considerations include: financial/economy in general, employment (staffing) of all levels, such as technology research, design, implementation, production, marketing/sales, management, OEM capability and product/service demand, distributors, sales agents, customers (at all levels), and many other concerns were considered.
  

 1. Executive Summary
 1.1 Global Market Overview
 1.2 Fiber Optic Networks – Overview
 1.3 Barriers to Growth in the US Military/Government Sector
 1.4 COVID-19 Pandemic Brief
 2. Market Forecast, by Region
 2.1 Overview
 2.2 North America
 2.3 Europe
 2.4 Asia Pacific (APAC)
 2.4.1 Asia Pacific (APAC) Regional Overview
 2.4.2 China (Mainland China)
 2.4.3 Rest of Asia Pacific (APAC)
 2.5 Rest of World
 3. Competitive Environment
 3.1 Company/Brand Profiles
 AFL (Fujikura Ltd.)
 Aitelong Technology Co., Ltd (Shaanxi)
 ALBEDO Telecom
 Anritsu
 Baudcom Communication Device Co., Ltd. (Shanghai)
 Corning Incorporated
 DAYTAI Network Technologies Co., Ltd. (Hangzhou)
 EXFO Inc.
 Fiber Instrument Sales, Inc. (FIS)
 Fibertools Technology Co., Ltd. (Shanghai)
 Fluke Networks (Fluke Corporation/Danaher Corporation)
 GAO Tek
 Grandway Telecom Tech Co., Ltd. (Shanghai)
 Greenlee Textron Inc. (subsidiary of Textron Inc.)
 INNO Instruments, Inc.
 Luciol Instruments SA (Luciol)
 Nanjing Jilong Optical Communication Co., Ltd
 Optical Wavelength Laboratories, Inc. – Omni Wavelength Laboratories (OWL)
 OPTOKON a.s.
 Optostar Optoelectronics Co. Ltd (Shenzhen)
 Precision Rated Optics (PRO)
 PROMAX Electronica S.L.
 Qingdao E-Jiaxun Optical & Electrical Info Company, Limited
 Radiasun International Group, Ltd.
 Radiantech, Inc.
 Ripley Tools LLC. (ODM)
 Senter Electronic Co., Ltd. (Shandong) Shineway Technologies, Inc. (ShinewayTech)
 Shinho Fiber Communication Co., Ltd. (Shanghai)
 Sun Telecom
 Sunma International Industry Ltd.
 T & M TOOLS CO., Limited; T AND M Instruments CO., Limited
 Tarluz Telecom Tec. Co., Ltd. (Shanghai)
 Techwin (China) Industry Co., Ltd
 Terahertz Technologies Inc. (TTI) - TREND Networks
 Tribrer Communication Technology Co.,Ltd (Zhejiang) (Tribrer ® Brand) Tuolima Network Technologies Co., Ltd. (Hangzhou)
 
 II-VI Incorporated (Finisar)
 VeEX Incorporated
 Viavi Solutions Inc.
 Wilcom Incorporated
 Yamasaki Optical Technology
 Yokogawa Electric Corporation
 3.2 OTDR Market Share Estimates of Selected Competitors (2021)
 4. OTDR Technology/Patent Overview
 5. Market Research Methodology
 6. ElectroniCast Market Forecast Data Base
 6.1 Overview
 6.2 Tutorial and Example
 
 Addendum Items
 
 Market Forecast Data Base – Microsoft Excel Spreadsheets:
 Global
 North America
 Europe
 APAC
 People’s Republic of China (PRC)
 Rest of APAC
 Rest of the World
  


List Of Tables

 1.1.1 Handheld OTDR (Total) Global Forecast, By Region ($ Million)
 1.1.2 Handheld OTDR (Total) Forecast, By APAC Sub- Region ($ Million)
 1.1.3 Handheld OTDR (Total) Global Forecast, By Application ($ Million)
 1.1.4 Handheld OTDR (Total) Global Forecast, By Product Category ($ Million)
 1.2.1 Machine Type Communication Applications
 1.2.2 Harsh Environment Applications, Components & Devices/Parts Category List
 2.1.1 Handheld OTDR (Total) Global Forecast, By Application ($ Million)
 2.1.2 Handheld OTDR (Total) Global Forecast, By Application (Quantity)
 2.1.3 Handheld OTDR (Device) Global Forecast, By Application ($ Million)
 2.1.4 Handheld OTDR (Device) Global Forecast, By Application (Quantity)
 2.1.5 Handheld OTDR (Device) Global Forecast, By Application (ASP)
 2.1.6 Handheld OTDR (Modules) Global Forecast, By Application ($ Million)
 2.1.7 Handheld OTDR (Modules) Global Forecast, By Application (Quantity)
 2.1.8 Handheld OTDR Global (Modules) Forecast, By Application (ASP)
 2.2.1 Handheld OTDR (Total) North America Forecast, By Product ($ Million)
 2.2.2 Handheld OTDR (Total) North America Forecast, By Application ($ Million)
 2.2.3 Handheld OTDR (Total) North America Forecast, By Application (Quantity)
 2.2.4 Handheld OTDR (Device) North America Forecast, By Application ($ M)
 2.2.5 Handheld OTDR (Device) North America Forecast, By Application (QTY)
 2.2.6 Handheld OTDR (Device) North America Forecast, By Application (ASP)
 2.2.7 Handheld OTDR (Modules) North America Forecast, By Application ($ M)
 2.2.8 Handheld OTDR (Modules) North America Forecast, By Application (QTY)
 2.2.9 Handheld OTDR (Modules) North America Forecast, By Application (ASP)
 2.3.1 Handheld OTDR (Total) Europe Forecast, By Product ($ Million)
 2.3.2 Handheld OTDR (Total) Europe Forecast, By Application ($ Million)
 2.3.3 Handheld OTDR (Total) Europe Forecast, By Application (Quantity)
 2.3.4 Handheld OTDR (Device) Europe Forecast, By Application ($ Million)
 2.3.5 Handheld OTDR (Device) Europe Forecast, By Application (Quantity)
 2.3.6 Handheld OTDR (Device) Europe Forecast, By Application (ASP)
 2.3.7 Handheld OTDR (Modules) Europe Forecast, By Application ($ Million)
 2.3.8 Handheld OTDR (Modules) Europe Forecast, By Application (Quantity)
 2.3.9 Handheld OTDR (Modules) Europe Forecast, By Application (ASP)
 2.4.1.1 Handheld OTDR (Total) APAC Forecast, By Product ($ Million)
 2.4.1.2 Handheld OTDR (Total) APAC Forecast, By Application ($ Million)
 2.4.1.3 Handheld OTDR (Total) APAC Forecast, By Application (Quantity)
 2.4.1.4 Handheld OTDR (Device) APAC Forecast, By Application ($ Million)
 2.4.1.5 Handheld OTDR (Device) APAC Forecast, By Application (Quantity)
 2.4.1.6 Handheld OTDR (Device) APAC Forecast, By Application (ASP)
 2.4.1.7 Handheld OTDR (Modules) APAC Forecast, By Application ($ Million)
 2.4.1.8 Handheld OTDR (Modules) APAC Forecast, By Application (Quantity)
 2.4.1.9 Handheld OTDR (Modules) APAC Forecast, By Application (ASP)
 2.4.2.1 Handheld OTDR (Total) China Forecast, By Product ($ Million)
 2.4.2.2 Handheld OTDR (Total) China Forecast, By Application ($ Million)
 2.4.2.3 Handheld OTDR (Total) China Forecast, By Application (Quantity)
 2.4.2.4 Handheld OTDR (Device) China Forecast, By Application ($ Million)
 2.4.2.5 Handheld OTDR (Device) China Forecast, By Application (Quantity)
 2.4.2.6 Handheld OTDR (Device) China Forecast, By Application (ASP)
 2.4.2.7 Handheld OTDR (Modules) China Forecast, By Application ($ Million)
 2.4.2.8 Handheld OTDR (Modules) China Forecast, By Application (Quantity)
 2.4.2.9 Handheld OTDR (Modules) China Forecast, By Application (ASP)
 2.4.3.1 Handheld OTDR (Total) Rest of APAC Forecast, By Product ($ Million)
 2.4.3.2 Handheld OTDR (Total) Rest of APAC Forecast, By Application ($ Million)
 2.4.3.3 Handheld OTDR (Total) Rest of APAC Forecast, By Application (Quantity)
 2.4.3.4 Handheld OTDR (Device) Rest of APAC Forecast, By Application ($ M)
 2.4.3.5 Handheld OTDR (Device) Rest of APAC Forecast, By Application (QTY)
 2.4.3.6 Handheld OTDR (Device) Rest of APAC Forecast, By Application (ASP)
 2.4.3.7 Handheld OTDR (Modules) Rest of APAC Forecast, By Application ($ M)
 2.4.3.8 Handheld OTDR (Modules) Rest of APAC Forecast, By Application (QTY)
 2.4.3.9 Handheld OTDR (Modules) Rest of APAC Forecast, By Application (ASP)
 2.5.1 Handheld OTDR (Total) Rest of World Forecast, By Product ($ Million)
 2.5.2 Handheld OTDR (Total) Rest of World Forecast, By Application ($ Million)
 2.5.3 Handheld OTDR (Total) Rest of World Forecast, By Application (Quantity)
 2.5.4 Handheld OTDR (Device) Rest of World Forecast, By Application ($ M)
 2.5.5 Handheld OTDR (Device) Rest of World Forecast, By Application (QTY)
 2.5.6 Handheld OTDR (Device) Rest of World Forecast, By Application (ASP)
 2.5.7 Handheld OTDR (Modules) Rest of World Forecast, By Application ($ M)
 2.5.8 Handheld OTDR (Modules) Rest of World Forecast, By Application (QTY)
 2.5.9 Handheld OTDR (Modules) Rest of World Forecast, By Application (ASP)
 3.2.1 Market Share Estimates for Selected OTDR Competitors - 2021 


List Of Figures

 1.1.1 Multiple Test Platform Device (Multi-test Platform)
 1.1.2 OTDR Module for a Hand-Held Device
 1.1.3 Illustration Sample of the Types of Networks Requiring OTDRs
 1.1.4 OTDR Hand-Held Device with OTDR Modules
 1.1.5 Enterprise / Data Center OTDR
 1.2.1 Fixed Broadband Subscriptions by Technology Choice
 1.2.2 Fiber Optic Network Topology
 1.2.3 WDM/TDM-PON Technology
 1.2.4 25G WDM-PON solution for 5G fronthaul
 1.2.5 FTTP PON Architecture
 1.2.6 HFC Distribution System
 1.2.7 Data Center Facility, United States
 1.2.8 High-Bandwidth Applications
 1.2.9 High-Bandwidth Applications
 2.1.1 Hand-Held OTDR & OTDR Modules Global Forecast ($Million), Region
 2.1.2 Hand-Held OTDR & OTDR Modules Global Forecast (Quantity), Region
 2.1.3 Hand-Held OTDR & OTDR Modules Global Forecast (ASP $) by Region
 2.1.4 Hand-Held OTDR & OTDR Modules Global Forecast ($Million), Product
 3.1.1 Pocket-size OTDR
 3.1.2 Hand-Held OTDR
 3.1.3 OTDR – Master Test Unit
 3.1.4 Optical Time Domain Reflectometer (OTDR)
 3.1.5 Hand-Held OTDR
 3.1.6 Handheld OTDR addressing FTTH/PON testing
 3.1.7 Handheld OTDR – Multimode/Single-mode (Four Wavelength)
 3.1.8 Hand-Held OTDR
 3.1.9 Hand-Held OTDR
 3.1.10 Advanced and Expandable OTDR Module
 3.1.11 OTDR with PON Online Test, Multimode and Fiber Microscope
 3.1.12 Mini OTDR
 3.1.13 Optical Time Domain Reflectometer (OTDR)
 3.1.14 Hand-Held OTDR
 3.1.15 OTDR
 3.1.16 OTDR
 3.1.17 OTDR
 3.1.18 High Resolution OTDR
 3.1.19 Handheld, Lightweight OTDR
 3.1.20 Mini OTDR and Optical Light Source
 3.1.21 Optical Time Domain Reflectometer (OTDR)
 3.1.22 Hand-Held OTDR
 3.1.23 Single-mode and multimode four wavelength OTDR
 3.1.24 Full-Featured OTDR
 3.1.25 Company Offices and Workshop
 3.1.26 Hand-Held OTDR
 3.1.27 Multi-Functional OTDR
 3.1.28 Multifunction Handheld Single-mode, Multimode
 3.1.29 FTTH – Optical Time Domain Reflectometer
 3.1.30 Hand-Held OTDR
 3.1.31 Hand-Held OTDR
 3.1.32 Dual Port XFP Pluggable OTDR
 3.1.33 All-in-one Optical and Service Test Platform
 3.1.34 All-in-one Optical and Service Test Module
 3.1.35 Hi-Resolution Multimode OTDR Solution
 3.1.36 Hand-Held Optical Test Sets Used for OTDR
 3.1.37 CWDM OTDR Module
 3.1.38 CWDM OTDR Module
 3.1.39 Hand-Held OTDR
 3.1.40 Four Wavelength OTDR (850/1300/1310/1550nm)
 3.1.41 Hand-Held OTDR – Multi Field Tester
 4.1 OTDR+ Platform for Embedded Applications
 4.2 Dual Port XFP Pluggable OTDR
 4.3 Embedded Monitoring-Based Handheld OTDR Unit
 4.4 Typical OTDR Trace
 4.5 Comparison between Pulse-OTDR and Correlation-OTDR
 4.6 Typical Stand-Alone OTDR Device – Block Diagram
 4.7 High-performance OTDR module for remote fiber test systems (RFTS)
 5.1 ElectroniCast Market Research & Forecasting Methodology 


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