世界各国のリアルタイムなデータ・インテリジェンスで皆様をお手伝い

世界の光トランシーバー市場(2023年版):金額・数量別、トランスミッター構成技術、用途(データコム、テレコム)、データレート、地域別、国別の分析:市場インサイトと予測(2018年~2028年)


Global Optical Transceiver Market (2023 Edition): Analysis By Value and Volume, Transmitter Component Technology, Application (Datacom, Telecom), Data Rate, By Region, By Country: Market Insights and Forecast (2018-2028)

エグゼクティブサマリー Azoth Analytics社は、「世界の光トランシーバー市場(2023年版)」と題する調査レポートを発表しました。この調査レポートは、世界の光トランシーバー産業を用途別(データコム、テレ... もっと見る

 

 

出版社 出版年月 電子版価格 ページ数 言語
Azoth Analytics
アーゾスアナリティクス
2023年6月1日 US$2,400
シングルユーザライセンス
ライセンス・価格情報
注文方法はこちら
250 英語

 

サマリー

エグゼクティブサマリー

Azoth Analytics社は、「世界の光トランシーバー市場(2023年版)」と題する調査レポートを発表しました。この調査レポートは、世界の光トランシーバー産業を用途別(データコム、テレコム)、送信機構成技術(シリコンフォトニクス、リン化インジウム、ガリウムヒ素)、データレート別(10G未満、40G~100G、100G以上)に市場細分化して分析しています。

この調査研究は、南北アメリカ(米国、カナダ、ブラジル、メキシコ、その他のアメリカ)、ヨーロッパ(ドイツ、英国、フランス、その他のヨーロッパ)、APAC(中国、日本、インド、その他のアジア太平洋)、中東、アフリカを詳細に分析しています。さらに、この調査レポートは、市場規模、年間成長&潜在能力分析、市場プレイヤーの競争研究、投資機会、需要予測などのデータを提示します。

また、市場の成長指標、阻害要因、需給リスク、その他の重要な統計データ、市場の進化に関連する現在および将来の市場動向の完全な評価についても考察しています。

予測期間である2023年から2028年にかけて、世界の光トランシーバーはCAGR 22.9%で拡大すると予測されています。インターネット普及率の向上、データセンター数の増加が、光トランシーバー市場を押し上げています。光トランシーバーの世界市場は、2022年の116億5000万米ドルから、2028年末までに388億9000万米ドルを生み出すと予想されています。コスト効率に優れた低価格の光トランシーバーへの需要が高まり、データ通信やテレコムセンターのアプリケーションで販売が拡大した。

光トランシーバビジネスでは、現在、より小型で安価な、よりエネルギー効率の高い光トランシーバへの需要が高まっています。コンパクトなフォームファクターの成長は、CFPモジュールの導入以来、いくつかの技術的進歩の結果である。中国、日本、インドは、光トランシーバーサービスの重要な市場を占めています。市場規模は、携帯電話の普及、インターネットユーザー数の増加、接続性の向上、ネットワーク構築の増加、高帯域幅を必要とするアプリケーションの増加などの影響を受けています。

光トランシーバー市場は、近年、特にIT分野での投資が大幅に増加しています。これは、複雑化するアプリケーションやサービスをサポートできる高速伝送技術やネットワーク技術への需要が高まっているためです。

光トランシーバーは、現代の通信ネットワークに不可欠なコンポーネントであり、光ファイバーケーブルを介してデータを送受信する機能を提供します。より広い帯域幅とより速い速度への要求が高まり続ける中、より高度で効率的な光トランシーバー技術へのニーズも高まっています。

光トランシーバー市場に関連するITへの投資は、クラウドベースのサービス導入の増加、5Gネットワークの成長、モノのインターネット(IoT)機器の台頭など、いくつかの要因によって推進されている。企業は、こうした進化する需要に対応できる新製品やソリューションを生み出すために、研究開発に多額の投資を行っています。



報告書の範囲

- このレポートは、光トランシーバー市場を金額(USD Billion)および数量(Million Units)で分析しています。

- 本レポートでは、光トランシーバー市場の過去期間である2018年から2021年、推定期間である2022年、予測期間である2023年から2028年の分析を紹介します。

- 光トランシーバー市場を用途別(データコム、テレコム)に分析した報告書です。

- 本レポートでは、光トランシーバー市場を送信機構成技術(シリコンフォトニクス、リン化インジウム、ガリウムヒ素)別に分析しています。

- 光トランシーバー市場をデータレート別(10G未満、40G-100G、100G以上)に分析しています。

- 本レポートの主要な洞察は、SWOTおよびポーターのファイブフォース分析のフレームワークを通じて提示されています。また、地域別、アプリケーション別、送信機コンポーネント技術別、データレート別に市場の魅力が示されています。

- また、業界の主要な機会、トレンド、ドライバー、課題についても分析されています。

- 競合他社の動向、戦略、M&A、新製品開発などを追跡しています。本レポートで分析した企業は、Coherent Corporation、Lumentum Holdings、Broadcom Inc.、Cisco System Inc.、住友電気工業株式会社、Intel Corporation、Arista Networks Inc.、ZTE Corporation、Juniper Networkです。

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目次

1. Market Background

1.1 Scope and Product Outlook

1.2 Executive Summary

1.3 Research Methodology



2. Strategic Recommendations



3. Global Optical Transceiver Market: Historic and Forecast (2018-2028)

3.1 Impact Analysis of Macro Economic Factors on the Global Optical Transceiver Market

3.2 Different Types of Optical Transceivers

3.3 Range of Silicon Photonics Optical Transceiver

3.4 Global Optical Transceiver Market: Dashboard

3.5 Global Optical Transceiver Market: Market Value Assessment

3.5 Global Optical Transceiver Market: Volume Sales

3.7 Assessment: Degree of Impact of COVID-19 on Optical Transceiver Market

3.8 Global Optical Transceiver Market, By Application

3.8.1 Global Optical Transceiver Market, By Application Overview

3.8.2 Global Optical Transceiver Market: Datacom

3.8.3 Global Optical Transceiver Market: Telecom

3.9 Global Optical Transceiver Market Segmentation: By Transmitter Component Technology

3.9.1 Global Optical Transceiver Market, By Transmitter Component Technology Overview

3.9.2 Global Optical Transceiver Market: Silicon Photonics

3.9.3 Global Optical Transceiver Market: Indium Phosphide

3.9.4 Global Optical Transceiver Market: Gallium Arsenide

3.10 Global Optical Transceiver Market Segmentation: By Data Rate

3.10.1 Global Optical Transceiver Market, By Data Rate Overview

3.10.2 Global Optical Transceiver Market: Less Than 10G

3.10.3 Global Optical Transceiver Market: 40G-100G

3.10.4 Global Optical Transceiver Market: More Than 100G

3.11 Global Optical Transceiver Market, By Region

3.11.1 Regional Coverage of the Study

3.11.2 Regional Snapshot



4. Americas Optical Transceiver Market: Historic and Forecast (2018-2028)

4.1 Americas Optical Transceiver Market: Snapshot

4.2 Americas Optical Transceiver Market: Market Value Assessment

4.3 Americas Optical Transceiver Market: Key Factors

4.4 Americas Optical Transceiver Market Segmentation: By Application

4.4.1 Americas Optical Transceiver Market, By Application Overview

4.4.2 Americas Optical Transceiver Market: Datacom

4.4.3 Americas Optical Transceiver Market: Telecom

4.5 Americas Optical Transceiver Market Segmentation: By Transmitter Component Technology

4.5.1 Americas Optical Transceiver Market, By Transmitter Component Technology Overview

4.5.2 Americas Optical Transceiver Market: Silicon Photonics

4.5.3 Americas Optical Transceiver Market: Indium Phosphide

4.5.4 Americas Optical Transceiver Market: Gallium Arsenide

4.5 Americas Optical Transceiver Market, By Data Rate

4.5.1 Americas Optical Transceiver Market, By Data Rate Overview

4.5.2 Americas Optical Transceiver Market: Less Than 10G

4.5.3 Americas Optical Transceiver Market: 40G-100G

4.5.4 Americas Optical Transceiver Market: More Than 100G

4.7 Americas Optical Transceiver Market, By Country

4.7.1 Americas Optical Transceiver Market, By Country Overview

4.7.2 United States Optical Transceiver Market

4.7.2.1 United States Optical Transceiver Market: Application Analysis

4.7.2.2 United States Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.2.3 United States Optical Transceiver Market: Data Rate Analysis

4.7.3 Canada Optical Transceiver Market

4.7.3.1 Canada Optical Transceiver Market: Application Analysis

4.7.3.2 Canada Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.3.3 Canada Optical Transceiver Market: Data Rate Analysis

4.7.4 Brazil Optical Transceiver Market

4.7.4.1 Brazil Optical Transceiver Market: Application Analysis

4.7.4.2 Brazil Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.4.3 Brazil Optical Transceiver Market: Data Rate Analysis

4.7.5 Mexico Optical Transceiver Market

4.7.5.1 Mexico Optical Transceiver Market: Application Analysis

4.7.5.2 Mexico Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.5.3 Mexico Optical Transceiver Market: Data Rate Analysis

4.7.5 Rest of Americas Optical Transceiver Market

4.7.5.1 Rest of Americas Optical Transceiver Market: Application Analysis

4.7.5.2 Rest of Americas Optical Transceiver Market: Transmitter Component Technology Analysis

4.5.3 Rest of Americas Optical Transceiver Market: Data Rate Analysis



5. Europe Optical Transceiver Market: Historic and Forecast (2018-2028)

5.1 Europe Optical Transceiver Market: Snapshot

5.2 Europe Optical Transceiver Market: Market Value Assessment

5.3 Europe Optical Transceiver Market: Key Factors

5.4 Europe Optical Transceiver Market, By Application

5.4.1 Europe Optical Transceiver Market, By Application Overview

5.4.2 Europe Optical Transceiver Market: Datacom

5.4.3 Europe Optical Transceiver Market: Telecom

5.5 Europe Optical Transceiver Market, By Transmitter Component Technology

5.5.1 Europe Optical Transceiver Market, By Transmitter Component Technology Overview

5.5.2 Europe Optical Transceiver Market: Silicon Photonics

5.5.3 Europe Optical Transceiver Market: Indium Phosphide

5.5.4 Europe Optical Transceiver Market: Gallium Arsenide

5.6 Europe Optical Transceiver Market, By Data Rate

5.6.1 Europe Optical Transceiver Market, By Data Rate Overview

5.6.2 Europe Optical Transceiver Market: Less Than 10G

5.6.3 Europe Optical Transceiver Market: 40G-100G

5.6.4 Europe Optical Transceiver Market: More Than 100G

5.7 Europe Optical Transceiver Market, By Country

5.7.1 Europe Optical Transceiver Market, By Country Overview

5.7.1.1 Germany Optical Transceiver Market

5.7.1.2 Germany Optical Transceiver Market: Application Analysis

5.7.1.3 Germany Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.1.4 Germany Optical Transceiver Market: Data Rate Analysis

5.7.2 United Kingdom Optical Transceiver Market

5.7.2.1 United Kingdom Optical Transceiver Market: Application Analysis

5.7.2.2 United Kingdom Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.2.3 United Kingdom Optical Transceiver Market: Data Rate Analysis

5.7.3 France Optical Transceiver Market

5.7.3.1 France Optical Transceiver Market: Application Analysis

5.7.3.2 France Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.3.3 France Optical Transceiver Market: Data Rate Analysis

5.7.4 Rest of Europe Optical Transceiver Market

5.7.4.1 Rest of Europe Optical Transceiver Market: Application Analysis

5.7.4.2 Rest of Europe Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.4.3 Rest of Europe Optical Transceiver Market: Data Rate Analysis



6. Asia Pacific Optical Transceiver Market: Historic and Forecast (2018-2028)

6.1 Asia Pacific Optical Transceiver Market: Snapshot

6.2 Asia Pacific Optical Transceiver Market: Market Value Assessment

6.3 Asia Pacific Optical Transceiver Market: Key Factors

6.4 Asia Pacific Optical Transceiver Market, By Application

6.4.1 Asia Pacific Optical Transceiver Market, By Application Overview

6.4.2 Asia Pacific Optical Transceiver Market: Datacom

6.4.3 Asia Pacific Optical Transceiver Market: Telecom

6.5 Asia Pacific Optical Transceiver Market, By Transmitter Component Technology

6.5.1 Asia Pacific Optical Transceiver Market, By Transmitter Component Technology Overview

6.5.2 Asia Pacific Optical Transceiver Market: Silicon Photonics

6.5.3 Asia Pacific Optical Transceiver Market: Indium Phosphide

6.5.4 Asia Pacific Optical Transceiver Market: Gallium Arsenide

6.6 Asia Pacific Optical Transceiver Market, By Data Rate

6.6.1 Asia Pacific Optical Transceiver Market, By Data Rate Overview

6.6.2 Asia Pacific Optical Transceiver Market: Less Than 10G

6.6.3 Asia Pacific Optical Transceiver Market: 40G-100G

6.6.4 Asia Pacific Optical Transceiver Market: More Than 100G

6.7 Asia Pacific Optical Transceiver Market, By Country

6.7.1 Asia Pacific Optical Transceiver Market, By Country Overview

6.7.1.1 China Optical Transceiver Market

6.7.1.2 China Optical Transceiver Market: Application Analysis

6.7.1.3 China Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.1.4 China Optical Transceiver Market: Data Rate Analysis

6.7.2 Japan Optical Transceiver Market

6.7.2.1 Japan Optical Transceiver Market: Application Analysis

6.7.2.2 Japan Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.2.3 Japan Optical Transceiver Market: Data Rate Analysis

6.7.3 India Optical Transceiver Market

6.7.3.1 India Optical Transceiver Market: Application Analysis

6.7.3.2 India Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.3.3 India Optical Transceiver Market: Data Rate Analysis

6.7.4 Rest of Asia Pacific Optical Transceiver Market

6.7.4.1 Rest of Asia Pacific Optical Transceiver Market: Application Analysis

6.7.4.2 Rest of Asia Pacific Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.4.3 Rest of Asia Pacific Optical Transceiver Market: Data Rate Analysis



7. Middle East & Africa Optical Transceiver Market: Historic and Forecast (2018-2028)

7.1 Middle East & Africa Optical Transceiver Market: Snapshot

7.2 Middle East & Africa Optical Transceiver Market: Market Value Assessment

7.3 Middle East & Africa Optical Transceiver Market: Key Factors

7.4 Middle East & Africa Optical Transceiver Market, By Application

7.4.1 Middle East & Africa Optical Transceiver Market, By Application Overview

7.4.2 Middle East & Africa Optical Transceiver Market: Datacom

7.4.3 Middle East & Africa Optical Transceiver Market: Telecom

7.5 Middle East & Africa Optical Transceiver Market, By Transmitter Component Technology

7.5.1 Middle East & Africa Optical Transceiver Market, By Transmitter Component Technology Overview

7.5.1 Middle East & Africa Optical Transceiver Market: Silicon Photonics

7.5.1 Middle East & Africa Optical Transceiver Market: Indium Phosphide

7.5.1 Middle East & Africa Optical Transceiver Market: Gallium Arsenide

7.6 Middle East & Africa Optical Transceiver Market, By Data Rate

7.6.1 Middle East & Africa Optical Transceiver Market, By Data Rate Overview

7.6.2 Middle East & Africa Optical Transceiver Market: Less Than 10G

7.6.3 Middle East & Africa Optical Transceiver Market: 40G-100G

7.6.4 Middle East & Africa Optical Transceiver Market: More Than 100G



8. Market Dynamics

8.1 Impact Assessment of Market Dynamics on the Global Optical Transceiver Market

8.2 Drivers

8.3 Restraints

8.4 Trends



9. Industry Ecosystem Analysis

9.1 Macro-Economic Factor Assessment

9.2 Value Chain Analysis

9.3 Porter’s Five Forces Model



10. Competitive Positioning

10.1 Companies’ Product Positioning

10.2 Market Position Matrix

10.3 Market Share Analysis of Optical Transceiver Market

10.4 Company Profiles

10.4.1 Coherent Corporation

10.4.2 Arista Network Inc.

10.4.3 Broadcom Inc.

10.4.4 Cisco System Inc.

10.4.5 Lumentum Holdings

10.4.5 NEC Corporation

10.4.7 Sumitomo Electric Ltd.

10.4.8 ZTE Corporation

10.4.9 Juniper Network

10.4.10 Intel Corporation

 

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Summary

Executive Summary

Azoth Analytics has released a research report titled “Global Optical Transceiver Market (2023 Edition)” which provides a complete analysis of the Global Optical Transceiver industry in terms of market segmentation by application (datacom, telecom). transmitter component technology (silicon photonics, indium phosphide, gallium arsenide) and by data rate (less than 10G, 40G-100G, more than 100G).

The research study covers a detailed analysis of the Americas (United States, Canada, Brazil, Mexico, Rest of America), Europe (Germany, United Kingdom, France, Rest of Europe), APAC (China, Japan, India, Rest of Asia Pacific), Middle East, and Africa. Additionally, the research report presents data including market size, yearly growth & potential analysis, the competitive study of market players, investment opportunities and demand forecast.

The research study also looks at the market growth indicators, restraints, supply and demand risk, and other important statistics, as well as a full assessment of current and future market trends that are relevant to the market's evolution.

During the forecast period, 2023-2028, Global Optical Transceiver is expected to expand at a CAGR of 22.9%. The growing internet penetration, as well as the growing number of data centres, are driving up the Optical Transceiver market. The Global Optical Transceiver Market is expected to generate USD 38.89 Billion by the end of 2028, up from USD 11.65 Billion in 2022. The increasing demand for low-cost optical transceivers which have cost-efficient characteristics boosted their sales across datacom and telecom centre applications.

The optical transceiver business is currently in incredible demand for smaller, less expensive, and more energy-efficient optical transceivers. The growth of the compact forms factor has been a result of several technical advancements since the introduction of the CFP module. China, Japan, and India represent a significant market for Optical Transceiver services. The market size is influenced by the size of the increasing adoption of phones, an increase in the number of internet users, increasing connectivity, growing network establishment, and rise in high bandwidth-intensive applications.

The optical transceiver market has been seeing a significant increase in investment in recent years, particularly in the area of IT. This is due to the growing demand for high-speed transmission and networking technologies that can support increasingly complex applications and services.

Optical transceivers are an essential component of modern telecommunications networks, providing the capability to transmit and receive data via fibre optic cables. As the demand for greater bandwidth and faster speeds continues to grow, so too does the need for more advanced and efficient optical transceiver technology.

Investments in IT related to the optical transceiver market are being driven by several factors, including the increasing adoption of cloud-based services, the growth of 5G networks, and the rise of Internet of things (IOT) devices. Companies are investing heavily in research and development in order to create new products and solutions that can meet these evolving demands.



Scope of the Report:

• The report analyses the Optical Transceiver Market by Value (USD Billion) and Volume (Million Units).

• The report presents the analysis of the Optical Transceiver Market for the historical period of 2018-2021, the estimated year 2022 and the forecast period of 2023-2028.

• The report analyses the Optical Transceiver Market by application (datacom, telecom).

• The report analyses the Optical Transceiver Market by transmitter component technology (silicon photonics, indium phosphide, gallium arsenide).

• The report analyses the Optical Transceiver Market by data rate (less than 10G, 40G-100G, more than 100G).

• The key insights of the report have been presented through the frameworks of SWOT and Porter’s Five Forces Analysis. Also, the attractiveness of the market has been presented by region, by application, by transmitter component technology, by data rate.

• Also, the major opportunities, trends, drivers and challenges of the industry have been analysed in the report.

• The report tracks competitive developments, strategies, mergers and acquisitions and new product development. The companies analysed in the report include Coherent Corporation, Lumentum Holdings, Broadcom Inc., Cisco System Inc., Sumitomo Electric Ltd., Intel Corporation, Arista Networks Inc., ZTE Corporation, Juniper Network.



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Table of Contents

1. Market Background

1.1 Scope and Product Outlook

1.2 Executive Summary

1.3 Research Methodology



2. Strategic Recommendations



3. Global Optical Transceiver Market: Historic and Forecast (2018-2028)

3.1 Impact Analysis of Macro Economic Factors on the Global Optical Transceiver Market

3.2 Different Types of Optical Transceivers

3.3 Range of Silicon Photonics Optical Transceiver

3.4 Global Optical Transceiver Market: Dashboard

3.5 Global Optical Transceiver Market: Market Value Assessment

3.5 Global Optical Transceiver Market: Volume Sales

3.7 Assessment: Degree of Impact of COVID-19 on Optical Transceiver Market

3.8 Global Optical Transceiver Market, By Application

3.8.1 Global Optical Transceiver Market, By Application Overview

3.8.2 Global Optical Transceiver Market: Datacom

3.8.3 Global Optical Transceiver Market: Telecom

3.9 Global Optical Transceiver Market Segmentation: By Transmitter Component Technology

3.9.1 Global Optical Transceiver Market, By Transmitter Component Technology Overview

3.9.2 Global Optical Transceiver Market: Silicon Photonics

3.9.3 Global Optical Transceiver Market: Indium Phosphide

3.9.4 Global Optical Transceiver Market: Gallium Arsenide

3.10 Global Optical Transceiver Market Segmentation: By Data Rate

3.10.1 Global Optical Transceiver Market, By Data Rate Overview

3.10.2 Global Optical Transceiver Market: Less Than 10G

3.10.3 Global Optical Transceiver Market: 40G-100G

3.10.4 Global Optical Transceiver Market: More Than 100G

3.11 Global Optical Transceiver Market, By Region

3.11.1 Regional Coverage of the Study

3.11.2 Regional Snapshot



4. Americas Optical Transceiver Market: Historic and Forecast (2018-2028)

4.1 Americas Optical Transceiver Market: Snapshot

4.2 Americas Optical Transceiver Market: Market Value Assessment

4.3 Americas Optical Transceiver Market: Key Factors

4.4 Americas Optical Transceiver Market Segmentation: By Application

4.4.1 Americas Optical Transceiver Market, By Application Overview

4.4.2 Americas Optical Transceiver Market: Datacom

4.4.3 Americas Optical Transceiver Market: Telecom

4.5 Americas Optical Transceiver Market Segmentation: By Transmitter Component Technology

4.5.1 Americas Optical Transceiver Market, By Transmitter Component Technology Overview

4.5.2 Americas Optical Transceiver Market: Silicon Photonics

4.5.3 Americas Optical Transceiver Market: Indium Phosphide

4.5.4 Americas Optical Transceiver Market: Gallium Arsenide

4.5 Americas Optical Transceiver Market, By Data Rate

4.5.1 Americas Optical Transceiver Market, By Data Rate Overview

4.5.2 Americas Optical Transceiver Market: Less Than 10G

4.5.3 Americas Optical Transceiver Market: 40G-100G

4.5.4 Americas Optical Transceiver Market: More Than 100G

4.7 Americas Optical Transceiver Market, By Country

4.7.1 Americas Optical Transceiver Market, By Country Overview

4.7.2 United States Optical Transceiver Market

4.7.2.1 United States Optical Transceiver Market: Application Analysis

4.7.2.2 United States Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.2.3 United States Optical Transceiver Market: Data Rate Analysis

4.7.3 Canada Optical Transceiver Market

4.7.3.1 Canada Optical Transceiver Market: Application Analysis

4.7.3.2 Canada Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.3.3 Canada Optical Transceiver Market: Data Rate Analysis

4.7.4 Brazil Optical Transceiver Market

4.7.4.1 Brazil Optical Transceiver Market: Application Analysis

4.7.4.2 Brazil Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.4.3 Brazil Optical Transceiver Market: Data Rate Analysis

4.7.5 Mexico Optical Transceiver Market

4.7.5.1 Mexico Optical Transceiver Market: Application Analysis

4.7.5.2 Mexico Optical Transceiver Market: Transmitter Component Technology Analysis

4.7.5.3 Mexico Optical Transceiver Market: Data Rate Analysis

4.7.5 Rest of Americas Optical Transceiver Market

4.7.5.1 Rest of Americas Optical Transceiver Market: Application Analysis

4.7.5.2 Rest of Americas Optical Transceiver Market: Transmitter Component Technology Analysis

4.5.3 Rest of Americas Optical Transceiver Market: Data Rate Analysis



5. Europe Optical Transceiver Market: Historic and Forecast (2018-2028)

5.1 Europe Optical Transceiver Market: Snapshot

5.2 Europe Optical Transceiver Market: Market Value Assessment

5.3 Europe Optical Transceiver Market: Key Factors

5.4 Europe Optical Transceiver Market, By Application

5.4.1 Europe Optical Transceiver Market, By Application Overview

5.4.2 Europe Optical Transceiver Market: Datacom

5.4.3 Europe Optical Transceiver Market: Telecom

5.5 Europe Optical Transceiver Market, By Transmitter Component Technology

5.5.1 Europe Optical Transceiver Market, By Transmitter Component Technology Overview

5.5.2 Europe Optical Transceiver Market: Silicon Photonics

5.5.3 Europe Optical Transceiver Market: Indium Phosphide

5.5.4 Europe Optical Transceiver Market: Gallium Arsenide

5.6 Europe Optical Transceiver Market, By Data Rate

5.6.1 Europe Optical Transceiver Market, By Data Rate Overview

5.6.2 Europe Optical Transceiver Market: Less Than 10G

5.6.3 Europe Optical Transceiver Market: 40G-100G

5.6.4 Europe Optical Transceiver Market: More Than 100G

5.7 Europe Optical Transceiver Market, By Country

5.7.1 Europe Optical Transceiver Market, By Country Overview

5.7.1.1 Germany Optical Transceiver Market

5.7.1.2 Germany Optical Transceiver Market: Application Analysis

5.7.1.3 Germany Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.1.4 Germany Optical Transceiver Market: Data Rate Analysis

5.7.2 United Kingdom Optical Transceiver Market

5.7.2.1 United Kingdom Optical Transceiver Market: Application Analysis

5.7.2.2 United Kingdom Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.2.3 United Kingdom Optical Transceiver Market: Data Rate Analysis

5.7.3 France Optical Transceiver Market

5.7.3.1 France Optical Transceiver Market: Application Analysis

5.7.3.2 France Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.3.3 France Optical Transceiver Market: Data Rate Analysis

5.7.4 Rest of Europe Optical Transceiver Market

5.7.4.1 Rest of Europe Optical Transceiver Market: Application Analysis

5.7.4.2 Rest of Europe Optical Transceiver Market: Transmitter Component Technology Analysis

5.7.4.3 Rest of Europe Optical Transceiver Market: Data Rate Analysis



6. Asia Pacific Optical Transceiver Market: Historic and Forecast (2018-2028)

6.1 Asia Pacific Optical Transceiver Market: Snapshot

6.2 Asia Pacific Optical Transceiver Market: Market Value Assessment

6.3 Asia Pacific Optical Transceiver Market: Key Factors

6.4 Asia Pacific Optical Transceiver Market, By Application

6.4.1 Asia Pacific Optical Transceiver Market, By Application Overview

6.4.2 Asia Pacific Optical Transceiver Market: Datacom

6.4.3 Asia Pacific Optical Transceiver Market: Telecom

6.5 Asia Pacific Optical Transceiver Market, By Transmitter Component Technology

6.5.1 Asia Pacific Optical Transceiver Market, By Transmitter Component Technology Overview

6.5.2 Asia Pacific Optical Transceiver Market: Silicon Photonics

6.5.3 Asia Pacific Optical Transceiver Market: Indium Phosphide

6.5.4 Asia Pacific Optical Transceiver Market: Gallium Arsenide

6.6 Asia Pacific Optical Transceiver Market, By Data Rate

6.6.1 Asia Pacific Optical Transceiver Market, By Data Rate Overview

6.6.2 Asia Pacific Optical Transceiver Market: Less Than 10G

6.6.3 Asia Pacific Optical Transceiver Market: 40G-100G

6.6.4 Asia Pacific Optical Transceiver Market: More Than 100G

6.7 Asia Pacific Optical Transceiver Market, By Country

6.7.1 Asia Pacific Optical Transceiver Market, By Country Overview

6.7.1.1 China Optical Transceiver Market

6.7.1.2 China Optical Transceiver Market: Application Analysis

6.7.1.3 China Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.1.4 China Optical Transceiver Market: Data Rate Analysis

6.7.2 Japan Optical Transceiver Market

6.7.2.1 Japan Optical Transceiver Market: Application Analysis

6.7.2.2 Japan Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.2.3 Japan Optical Transceiver Market: Data Rate Analysis

6.7.3 India Optical Transceiver Market

6.7.3.1 India Optical Transceiver Market: Application Analysis

6.7.3.2 India Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.3.3 India Optical Transceiver Market: Data Rate Analysis

6.7.4 Rest of Asia Pacific Optical Transceiver Market

6.7.4.1 Rest of Asia Pacific Optical Transceiver Market: Application Analysis

6.7.4.2 Rest of Asia Pacific Optical Transceiver Market: Transmitter Component Technology Analysis

6.7.4.3 Rest of Asia Pacific Optical Transceiver Market: Data Rate Analysis



7. Middle East & Africa Optical Transceiver Market: Historic and Forecast (2018-2028)

7.1 Middle East & Africa Optical Transceiver Market: Snapshot

7.2 Middle East & Africa Optical Transceiver Market: Market Value Assessment

7.3 Middle East & Africa Optical Transceiver Market: Key Factors

7.4 Middle East & Africa Optical Transceiver Market, By Application

7.4.1 Middle East & Africa Optical Transceiver Market, By Application Overview

7.4.2 Middle East & Africa Optical Transceiver Market: Datacom

7.4.3 Middle East & Africa Optical Transceiver Market: Telecom

7.5 Middle East & Africa Optical Transceiver Market, By Transmitter Component Technology

7.5.1 Middle East & Africa Optical Transceiver Market, By Transmitter Component Technology Overview

7.5.1 Middle East & Africa Optical Transceiver Market: Silicon Photonics

7.5.1 Middle East & Africa Optical Transceiver Market: Indium Phosphide

7.5.1 Middle East & Africa Optical Transceiver Market: Gallium Arsenide

7.6 Middle East & Africa Optical Transceiver Market, By Data Rate

7.6.1 Middle East & Africa Optical Transceiver Market, By Data Rate Overview

7.6.2 Middle East & Africa Optical Transceiver Market: Less Than 10G

7.6.3 Middle East & Africa Optical Transceiver Market: 40G-100G

7.6.4 Middle East & Africa Optical Transceiver Market: More Than 100G



8. Market Dynamics

8.1 Impact Assessment of Market Dynamics on the Global Optical Transceiver Market

8.2 Drivers

8.3 Restraints

8.4 Trends



9. Industry Ecosystem Analysis

9.1 Macro-Economic Factor Assessment

9.2 Value Chain Analysis

9.3 Porter’s Five Forces Model



10. Competitive Positioning

10.1 Companies’ Product Positioning

10.2 Market Position Matrix

10.3 Market Share Analysis of Optical Transceiver Market

10.4 Company Profiles

10.4.1 Coherent Corporation

10.4.2 Arista Network Inc.

10.4.3 Broadcom Inc.

10.4.4 Cisco System Inc.

10.4.5 Lumentum Holdings

10.4.5 NEC Corporation

10.4.7 Sumitomo Electric Ltd.

10.4.8 ZTE Corporation

10.4.9 Juniper Network

10.4.10 Intel Corporation

 

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