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化合物半導体:ロードマップ・影響評価

Compound Semiconductor: Roadmapping and Impact Asssessment

発行 Frost & Sullivan 商品コード 841542
出版日 ページ情報 英文 37 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=109.81円で換算しております。
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化合物半導体:ロードマップ・影響評価 Compound Semiconductor: Roadmapping and Impact Asssessment
出版日: 2019年04月29日 ページ情報: 英文 37 Pages
概要

当レポートでは、世界の化合物半導体の市場を調査し、化合物半導体の技術的重要性、一般的製品の特徴、市場成長推進因子・抑制因子および市場機会の分析、バリューチェーン&サプライチェーン、官民による投資動向、イノベーション動向、主要4産業への影響、世界の導入シナリオの分析などをまとめています。

第1章 エグゼクティブサマリー

第2章 技術・用途の環境評価

  • 化合物半導体の技術的重要性
  • 一般的な化合物半導体の特徴
  • 新しい用途・シリコンの限界・小型化:市場成長を推進
  • エネルギー効率・グリーンエネルギーへの需要の拡大:化合物半導体開発を推進
  • 製造・加工設備の高コスト性:市場成長の障壁
  • 化合物半導体の用途の多様性

第3章 化合物半導体:世界の動向・特許・資金調達・サプライチェーンの分析

  • 化合物半導体:ハイパワーエレクトロニクス・RFの成長機会を推進
  • 学術機関と民間企業の提携・イニチアチブ:日本企業
  • GaN・SiC:化合物半導体研究の主流
  • 主な焦点エリアと主な特許所有者
  • 政府による投資とベンチャー資金:化合半導体の開発を実現
  • 産業バリューチェーン
  • サプライチェーンモデル
  • 化合物半導体におけるイノベーション:北米
  • 化合物半導体におけるイノベーション:欧州
  • 化合物半導体におけるイノベーション:アジア

第4章 化合物半導体:影響分析・将来のロードマップ・成長分析

  • 技術ロードマップ
  • 主要4産業への影響:HPE・フォトニクス・通信・センサー
  • ウエハ製造技術における材料の革新・進化
  • デバイス&システムモジュール製造業者:化合物半導体ベースの製品の開発を推進
  • アナリストデスク:競合因子・世界の導入シナリオ
  • アナリストデスク:有望な用途とパワー半導体における将来の市場機会

第5章 コンタクト情報

目次
Product Code: D8AA

High Power Electronics, Next Generation Communication, and Photonics are Driving Developments in Compound Semiconductors

A compound semiconductor is the combination of two or more elements in the periodic table. Compound semiconductors cater to 4 major industrial segments which are high power electronics, photonics, sensors, and communication. The power semiconductors are capable of acting as a switch to amplify current or voltage which has enabled them to serve diverse applications ranging from logic gates in the computer processors to sound amplifiers. Research and development toward improving the performance parameters of compound semiconductors and to determine new semiconductor materials which can become an alternative for silicon is an ongoing process. Compound semiconductors are being developed in order to propel the rapid advancements in technology like 5G (5th generation) communication, wireless charging, and energy conversion.

This technology and innovation report offers insights on the recent innovations in compound semiconductors. The scope of this research service focuses mainly on some prominent compound semiconductor materials such as GaN (gallium nitride) and SiC (silicon carbide), which are opening up new avenues in the industries like power electronics industry as a promising alternative for silicon semiconductors. This research service also offers insights on applications that might evolve in the next 5 to 6 years.

This report covers various compound technologies and includes the following modules:

  • Technology landscape
  • Applications assessment
  • Factors influencing development and adoption-Key drivers and challenges
  • Global trends and innovation indicators
  • Stakeholder Initiatives and Innovation profiles
  • Breadth of applications impacted
  • Technology and application roadmaps showing the future prospects for transistors
  • Strategic insights about market and emerging trends

Table of Contents

1.0 EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.2. Research Methodology (continued)
  • 1.3. Key Research Findings
  • 1.3. Key Research Findings (continued)

2.0 TECHNOLOGY AND APPLICATION LANDSCAPE ASSESSMENT

  • 2.1. Technological Significance of Compound Semiconductors in Today's Electronics Industry
  • 2.2. Characteristics of Most Commonly Used Compound Semiconductors
  • 2.3. Emerging Applications, Silicon Limitations, and Miniaturization of Circuits are Driving Compound Semiconductors
  • 2.4. Energy Efficiency and Rising Demand for Green Energy Propels the Development of Compound Semiconductors
  • 2.5. High Cost of Production and Fabrication Complexities are Hampering the Growth of Compound Semiconductors
  • 2.6. Application Diversity of Compound Semiconductors

3.0 COMPOUND SEMICONDUCTORS - GLOBAL TRENDS, PATENT AND FUNDING ANALYSIS, AND SUPPLY CHAIN ANALYSIS

  • 3.1. Compound Semiconductors Drive Opportunities in High Power Electronics and RF
  • 3.2. Academic and Industrial Collaborations and Initiatives of Japanese Firms are Key Enablers of Compound Semiconductors
  • 3.3. GaN and SiC are Dominating the Compound Semiconductor Research
  • 3.4. Key Focus Areas and Major Patent Holders in Compound Semiconductors
  • 3.5. Government Investment and Venture Funding are Enabling Developments in Compound Semiconductors
  • 3.6. Industry Value Chain of Compound Semiconductors
  • 3.7. Supply Chain Model of Compound Semiconductors
  • 3.8. Compound Semiconductor Innovations in North America
  • 3.9. Compound Semiconductor Innovations in Europe
  • 3.10. Compound Semiconductor Innovations in Asia

4.0 COMPOUND SEMICONDUCTORS - IMPACT ANALYSIS, FUTURE ROADMAP, AND GROWTH ANALYSIS

  • 4.1. Technology Roadmap of Compound Semiconductors
  • 4.2. Impact of Compound Semiconductors on 4 Major Industries - HPE, Photonics, Communication, and Sensors
  • 4.3. Material Innovations and Advancements in Wafer Fabrication Technologies will Accelerate Growth in Compound Semiconductors
  • 4.4. Device and System Module Manufacturers Encourage Developments in Compound Semiconductor-based Products
  • 4.5. From the Analyst's Desk: What is the Nature of Competition and Global Adoption Scenario for Compound Semiconductors
  • 4.6. From the Analyst's Desk: What are Key Attractive Applications and Future Opportunities for Power Semiconductors?

5.0 INDUSTRY CONTACTS

  • 5.1. Key Contacts
  • Legal Disclaimer
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