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次世代トランジスタの世界市場2021-2026:成長・動向・新型コロナの影響・市場予測

• 英文タイトル:Next-Generation Transistors Market - Growth, Trends, COVID-19 Impact, and Forecasts (2021 - 2026)

Mordor Intelligenceが調査・発行した産業分析レポートです。次世代トランジスタの世界市場2021-2026:成長・動向・新型コロナの影響・市場予測 / Next-Generation Transistors Market - Growth, Trends, COVID-19 Impact, and Forecasts (2021 - 2026) / MRC2103A177資料のイメージです。• レポートコード:MRC2103A177
• 出版社/出版日:Mordor Intelligence / 2021年2月15日
• レポート形態:英文、PDF、120ページ
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レポート概要
本調査資料では、世界の次世代トランジスタ市場について調査し、イントロダクション、調査手法、エグゼクティブサマリー、市場動向、種類別(高電子移動度トランジスタ(HEMT)、バイポーラ接合トランジスタ(BJT)、電界効果トランジスタ(FET)、マルチエミッタトランジスタ(MET)、デュアルゲート金属酸化膜半導体電界効果トランジスタ)分析、最終用途産業別(航空宇宙・防衛、工業、通信、家電)分析、地域別分析、競争状況、投資分析、市場機会・将来動向の項目を掲載しています。
・イントロダクション
・調査手法
・エグゼクティブサマリー
・市場動向
・世界の次世代トランジスタ市場規模:種類別(高電子移動度トランジスタ(HEMT)、バイポーラ接合トランジスタ(BJT)、電界効果トランジスタ(FET)、マルチエミッタトランジスタ(MET)、デュアルゲート金属酸化膜半導体電界効果トランジスタ)
・世界の次世代トランジスタ市場規模:最終用途産業別(航空宇宙・防衛、工業、通信、家電)
・世界の次世代トランジスタ市場規模:地域別
・競争状況
・投資分析
・市場機会・将来動向

The next-generation transistors market is expected to grow at a CAGR of 4% over the forecast period (2021-2026). Transistors have always played a central role in many electronic circuits, where they usually function either as a switch or an amplifier. With current silicon-based transistors topping up at around 14 nm, the semiconductor industry is currently on the search for new materials that can prolong Moore’s law at smaller scales. The last two decades have experienced the scaling of silicon transistor dimensions that have powered the electronics revolution, with transistors reaching nanometre sizes. As CMOS continues to scale down beyond a certain point, reliability issues have scaled up. To exceed the limits of silicon, new channel materials with high carrier velocities are being developed to support the Next-Generation of Transistors. For instance, he finFET according to Intel is scalable to 14nm and Intel has already started working on solutions for 10nm and below fabrications using advanced technologies.

Key Market Trends

Technological Advancements to Drive the Demand for Increasing Device Densities

– Manufacturers have to find suitable replacements for existing products to accommodate the consumer needs. Moore’s law has been in place for decades reducing the size of the wafer, while increasing the device density, this has been the way to cater to growing need for faster processing.
– The Tri-Gate transistor design released by Intel Corporation has laid the foundation for the development of better 3D-structured transistors that are capable of enhanced performance. This introduction of 3D to the design has led to vast improvements over the planar transistor structure.
– These advantages quantify themselves in the form of improved performance, reduced leakage current, huge increase in the device density, and a reduction in susceptibility of the transistor to charged particle single-event upsets.
– This decrease in size has led to an increase in the device density and upgraded the functional capacity of the chip. The ability to increase the number of devices in the chip influences performance of the complete system, while reducing the cost of each wafer.

Asia-Pacific to Register the Fastest Growth Rate

– The developing economies of the region such as China and Japan have huge manufacturing bases for electronics and hence, hold the potential to become major players in the transistors market.
– China, however, has lagged behind Taiwan, and South Korea in chip development. China, in order to change this scenario, has made the development of its own semiconductor sector a core part of its Made in China 2025 plan.
– China hopes to bolster its share of the electronics market, while having domestic production reach 80% of domestic demand for chips to power the myriad of smartphones, computers and other devices its 1.4 billion people use on a daily basis. All these factors are expected to contribute to the market growth.

Competitive Landscape

The next-generation transistors market is a highly competitive market. The semiconductor industry itself is going through a phase of specialization. Historically, the industry has concentrated on producing computer chips that could perform several generalized functions. These chips were related to each other to some extent. But today the applications of the semiconductors are more nuanced and differentiated leading to the proliferation of a number of niche players with specialized expertise across various verticals. Moreover, in this industry, a lot of players do outsource their functionalities except a few major players like Intel who do design, fabrication, and manufacturing of semiconductor products. This makes the industry deeply connected to global supply chains and have made this industry both fiercely competitive as well as deeply collaborative.

The factors mentioned above make the next-generation transistors market a fragmented market with the presence of a large number of players. Some of the significant players are Intel Corporation, Infineon Technologies AG, STMicroelectronics N.V., Texas Instruments Incorporated, NXP Semiconductors N.V. Some of the recent developments in this industry are as follows:-

– May 2019 – Samsung announced plans to begin production of one of two 3-nm GAA processes that it plans to offer by the second half of 2020, with mass production expected in 2021. The company plans to begin production of the next 3-nm GAA process in 2021, with mass production expected in 2022. Samsung started to volume production on its 7-nm FinFET process, the first to make use of next-generation extreme ultraviolet (EUV) lithography.
– September 2018 – NXP Semiconductors N.V. announced the launch of new RF power transistors designed for smart industrial applications, featuring the groundbreaking 65 V laterally diffused metal oxide semiconductor (LDMOS) silicon technology that targets industrial, scientific and medical applications such as laser generation, plasma processing, magnetic-resonance imaging, skin treatment and diathermy as well as the growing segment of RF Energy where transistors.

Reasons to Purchase this report:

– The market estimate (ME) sheet in Excel format
– 3 months of analyst support

レポート目次

1 INTRODUCTION
1.1 Study Deliverables
1.2 Study Assumptions
1.3 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS
4.1 Market Overview
4.2 Introduction to Market Dynamics
4.3 Market Drivers
4.3.1 Technological Advancements Leading To Demand for Increasing Device Densities
4.3.2 Proliferation of Consumer Electronics and Increased Use of Electronics in the Industrial Sector will Drive the Demand
4.4 Market Restraints
4.4.1 Cost of Maintaining Moore’s Law is Getting Higher with Low Returns
4.5 Industry Value Chain Analysis
4.6 Industry Attractiveness – Porter’s Five Force Analysis
4.6.1 Threat of New Entrants
4.6.2 Bargaining Power of Buyers/Consumers
4.6.3 Bargaining Power of Suppliers
4.6.4 Threat of Substitute Products
4.6.5 Intensity of Competitive Rivalry

5 MARKET SEGMENTATION
5.1 By Type
5.1.1 High Electron Mobility Transistor (HEMT)
5.1.2 Bipolar Junction Transistor (BJT)
5.1.3 Field Effect Transistors (FET)
5.1.4 Multiple Emitter Transistor (MET)
5.1.5 Dual Gate Metal Oxide Semiconductor Field Effective Transistor
5.2 By End-User Industry
5.2.1 Aerospace & Defense
5.2.2 Industrial
5.2.3 Telecommunications
5.2.4 Consumer Electronics
5.3 Geography
5.3.1 North America
5.3.2 Europe
5.3.3 Asia Pacific
5.3.4 Latin America
5.3.5 Middle East & Africa

6 COMPETITIVE LANDSCAPE
6.1 Company Profiles
6.1.1 NXP Semiconductors N.V.
6.1.2 Infineon Technologies AG
6.1.3 STMicroelectronics N.V.
6.1.4 Fairchild Semiconductor International, Inc. (ON Semiconductor Corp.)
6.1.5 Texas Instruments Incorporated
6.1.6 Intel Corporation
6.1.7 GLOBALFOUNDRIES Inc.
6.1.8 Taiwan Semiconductor Manufacturing Company
6.1.9 Samsung Electronics Co., Ltd
6.1.10 Microchip Technology Inc.

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS