通讯业化合物半导体的产品组合分析

Portfolio Analysis of Compound Semiconductors in the Communication Industry

出版日期: 2023年08月08日 | 出版商:

Frost & Sullivan | 英文 61 Pages | 商品交期: 最快1-2个工作天内

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简介目录

化合物半导体的高速通讯能力在通讯用途中找到了出路

这项研究强调了化合物半导体（CS）在通讯系统中的重要性，并强调了它们相对于硅等元素半导体的优越性。本研究概述了 CS 技术、全球场景、应用多样性和增长路线图。

砷化镓 (GaAs)、氮化镓 (GaN)、磷化铟 (InP) 和硅锗 (SiGe) 等 CS 材料可提供更高的频率、温度、电子迁移率和卓越的光学/电子特性。这些基本特性使 CS 成为卫星通讯、无线网络和光纤网络等高速通讯系统的理想选择。

CS 用于製造高速晶体管和激光二极管，从而实现高速数字电路和光纤通讯系统。 GaN和GaAs应用于5G网络，可提供卓越的效率和宽频率频宽，而砷化铟镓（InGaAs）和InP则用于亚太赫兹通讯系统以及包括6G网络在内的未来无线通讯应用，可实现超高资料速率。 InP和GaAs用于高速通讯系统，促进了高性能激光器和检测器的发展。

美国、欧盟（荷兰、德国、法国）、英国、中国、日本和韩国由于严重依赖5G和高速光纤，在CS技术上投入巨资以发展其国内供应链光网络，我就是。 CS行业将战略联盟和併购视为其业务运营结构的一个组成部分。

CS 简介 GaAs、GaN、InP、SiGe
CS与硅的比较
GaN 在通讯业中的重要性与日俱增
有线通讯网络中基于CS的设备概述
无线通讯网络中使用的基于 CS 的设备
CS 的特性对于提高通讯网络效率至关重要
推动计算机科学创新的趋势
通讯业CS专利趋势概览
专利管辖权及主要申请人分析
来自世界顶尖大学的研发倡议
加速通讯业增长的关键 CS 创新
一家为通讯业的CS 发展做出贡献的全球性公司
通讯业CS供应链
通讯业基于CS的商业模式
通讯业CS引入的世界/场景
影响 CS 采用的地缘政治情景
北美政府战略倡议
政府战略倡议：英国、欧盟、荷兰
政府战略倡议：中国、日本、韩国
来自通讯业基于 CS 的解决方案的全球领先公司的资金筹措
新兴创业公司的投资
推动创新的战略伙伴关係
收购合併
联盟推动CS发展
受益于 CS 的关键行业：电讯、国防、航天
受益于CS的关键行业：家电、汽车、工业自动化
案例研究 1：Infinera 彻底改变了 InP 的连接性
案例研究2Qorvo最大化小米的Wi-Fi 6功能
案例研究 3：MMIC 的 5G 射频设计初创公司彻底改变了蜂窝通讯
通讯业CS增长路线图

成长机会宇宙

增长机会一：供应链整合
增长机会 2：Li-Fi 作为射频和宽带的替代通讯系统
增长机会三：卫星互联网热潮

附录

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简介目录

Product Code: DA96

Compound Semiconductors' High-speed Communication Capabilities Finding Opportunities in Telecom Applications

The research highlights the importance of compound semiconductors (CS) in communication systems, emphasizing their advantages over elemental semiconductors such as silicon. The study provides an overview of CS technology, the global scenario, application diversity, and growth roadmap.

CS materials, such as gallium arsenide (GaAs), gallium nitride (GaN), indium phosphide (InP), and silicon germanium (SiGe), offer higher frequencies, temperatures, electron mobility, and superior optical/electronic properties. These intrinsic properties make CS ideal for high-speed communication systems, including satellite communications, wireless networks, and fiber-optic networks.

CS is used in the production of high-speed transistors and laser diodes, enabling high-speed digital circuits and fiber-optic communication systems. GaN and GaAs find applications in 5G networks, offering superior efficiency and wide frequency bandwidth, while indium gallium arsenide (InGaAs) and InP are used in sub-terahertz communication systems, enabling ultra-high data rates for future wireless communication applications, including 6G networks. InP and GaAs are employed in high-speed optical communication systems, facilitating the development of high-performance lasers and photodetectors.

The United States, European Union (Netherlands, Germany, and France), United Kingdom, China, Japan, and South Korea invest heavily in CS technologies to develop domestic supply chains owing to their heavy reliance on 5G and high-speed optical fiber networks. The CS industry anticipates strategic alliances and mergers and acquisitions as integral components of its operational framework.

Strategic Imperatives

Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on Compound Semiconductors for the Communication Industry
Growth Opportunities Fuel the Growth Pipeline Engine™
Research Methodology

Executive Summary

Research Scope
Key Findings
Impact of CS on End Market Segmentations
Growth Drivers
Growth Restraints

Technology Overview, Global Scenario, Application Diversity, and Growth Roadmap

CS Snapshot: GaAs, GaN, InP, and SiGe
Advantages of CS vs Silicon
Growing Prominence of GaN in the Communication Industry
Overview of CS-based Devices in Wired Communication Networks
CS-based Devices Used in Wireless Communication Networks
CS Attributes Essential to Improve Communication Network Efficiency
Trends Driving Innovations in CS
Snapshot of CS Patent Trends in the Communication Industry
Analysis of Patent Jurisdiction and Leading Applicants
R&D Initiatives from Top Global Universities
Major CS Innovations Accelerating Communication Industry Growth
Global Companies Contributing to CS Growth in the Communication Industry
CS Supply Chain for Communications
Business Models in the CS-based Communication Industry
Global Scenario of CS Adoption in the Communication Industry
Geopolitical Scenario Impacting CS Adoption
Strategic Government Initiatives: North America
Strategic Government Initiatives: UK, EU, and the Netherlands
Strategic Government Initiatives: China, Japan, and South Korea
Funding from Leading Global Companies in CS-based Solutions for the Communication Industry
Investments by Emerging Start-ups
Strategic Partnerships Driving Innovation
Key Mergers and Acquisitions
Consortiums Driving CS Development
Key Sectors Benefitting from CS: Telecom, Defense, and Space
Key Sectors Benefitting from CS: Consumer Electronics, Automotive, and Industrial Automation
Case Study 1: Infinera Revolutionizing Connectivity using InP
Case Study 2: Qorvo Empowers Xiaomi to Maximize Wi-Fi 6 Capabilities
Case Study 3: 5G RF Design Start-up for MMIC Revolutionizing Cellular Communication
CS Growth Roadmap in the Communication Industry

Growth Opportunity Universe

Growth Opportunity 1: Supply Chain Consolidation
Growth Opportunity 2: Li-Fi as an Alternative Communication System for RF and Broadband
Growth Opportunity 3: Satellite Internet Boom