Power MOSFET Market size was valued at US$ 6.17 Bn. in 2021 and the total Power MOSFET revenue is expected to grow at 6.2% from 2022 to 2029, reaching nearly US$ 9.98 Bn.
Power MOSFET Market Overview:MOSFET is an acronym that stands for Metal Oxide Semiconductor Field Effect Transistor. It is a voltage-controlled device with three terminals known as the gate, drain, and source. Its fast switching speed aids in managing large levels of power. They are commonly utilized in the n-channel enhancement mode, p-channel enhancement mode, or n-channel depletion mode. Planar power MOSFET, VMOS, UMOS, HEXFET, and TrenchMOS are some of the several types of power MOSFETs available on the market. In the industrial and automotive industries, these are commonly utilized for lighting, solar, EV charging, DC-DC converters, and onboard chargers. MOSFETs are the essential components of computer processors, semiconductor memory, image sensors, and the majority of other forms of integrated circuits. Discrete MOSFET devices are frequently utilized in power electronics applications such as switch mode power supply, variable-frequency drives, and other power electronics applications where one device may switch thousands of watts. MOSFET transistors are used as analog signals and power amplifiers in radio-frequency amplifiers up to the UHF band. MOSFETs are also used as oscillators or mixers in radio systems to convert frequencies. They are also used in audio-frequency power amplifiers used in public address systems, sound reinforcement, and home and automotive audio systems.
Power MOSFET Market Report Scope:The Power MOSFET market is segmented based on Type, Power Rate, Application, and Region. The growth of various segments helps report users in acquiring knowledge of the many growth factors expected to be prevalent throughout the market and develop different strategies to help identify core application areas and the gap in the target market. The report provides an in-depth analysis of the market and contains meaningful insights, facts, historical data, and statistically supported and industry-validated market statistics. It also includes estimates based on an appropriate set of assumptions and methodologies. The bottom-up approach has been used to estimate the market size. Major Key Players in the Power MOSFET market are identified through secondary research and their market revenues are determined through primary and secondary research. Secondary research included a review of annual and financial reports of leading manufacturers, while primary research included interviews with important opinion leaders and industry experts such as skilled front-line personnel, entrepreneurs, and marketing professionals. Some of the leading key players in the global Power MOSFET market include Samsung, Toshiba, Texas Instruments, and Mitsubishi. They are continuously strategizing on mergers and acquisitions, strategic alliances, joint ventures, and partnerships for the growth of their market shares. To know about the Research Methodology :- Request Free Sample Report
Power MOSFET Market Dynamics:
The broad scope of power MOSFETs in electronic applications is a major driver of market growth.The MOSFET is the most commonly produced device in history, with an estimated total of 13 sextillion MOSFETs made between 1960 and 2020. It is the most widely used semiconductor device in digital and analog circuits, as well as the most often used power device. It was the first really small transistor, capable of being downsized and mass-produced for a wide range of applications. MOSFET scaling and shrinking have driven the rapid exponential growth of electronic semiconductor technology, enabling high-density integrated circuits (ICs) such as memory chips and microprocessors. The power MOSFET is the world's most extensively utilized power device. MOSFETs have advantages over bipolar junction transistors in power electronics because they do not require a constant flow of driving current to remain in the ON state, offer greater switching speeds, lower switching power losses, lower on-resistances, and are less prone to thermal runaway. The power MOSFET influences power supply, allowing for greater operating frequencies, less size and weight, and larger volume manufacturing.
The device scaling complexities in the semiconductor industry is a major challenge for market growthThe IC industry has been swiftly and regularly scaling design standards, increasing chip and wafer sizes, and ingeniously enhancing device and circuit design. As a result, the industry has seen exponential advances in chip speed and functional density over time, while simultaneously seeing exponential declines in power consumption and cost per function versus time. Because of the tiny dimensions and certain important device, material, and process constraints that are being approached as MOSFETs are scaled to deep submicron levels, the IC industry is encountering growing difficulty in continuing to scale at the accustomed rate. Also, new materials with their learning curves for production will most certainly be introduced at future technological nodes, complicating scaling at these nodes even further. The International Technology Roadmap for Semiconductors (ITRS) is the product of a collaborative industry effort to forecast the advancement of IC technology over the next 15 years. The purpose is to assist the IC industry in adhering to strict standards so that the industry may continue to benefit from the ensuing rapid pace of performance, density, power, and cost improvement over that period. The overall chip requirements for speed, power dissipation, functional density, and cost drive the ITRS MOSFET scaling estimates. The two primary logic chip application categories, high-performance logic, and low-power logic have different overall chip requirements and hence different scaling targets. The primary purpose of high-performance logic is to enhance chip speed to satisfy the demands of high-end desktop and server applications (such as microprocessor unit (MPU) processors). As a result, scaling and device design attempt to maximize transistor speed, yet the outcome is decreased MOSFET speed.
AI, IoT, and emerging semiconductor technologies present favorable opportunities for market growthAI and IoT, in particular, have spawned a new generation of semiconductor innovation. Manufacturers of semiconductor chips that can address the demands of both AI and IoT will certainly ascend to the top of future marketplaces. Also, the deployment of 5G networks corresponds with an increase in demand for faster, high-performance computing systems. Semiconductor companies have a lot of room to grow in this new industry, as long as they can keep up with customer demand through innovation. Finally, semiconductor advances have allowed scientists to create everything from bomb detectors to smart spectacles. Also, semiconductors influence everything from data centers to smart homes and cities to high-speed networks and the automobile sector, according to the IRDS.
Power MOSFET Market Segment Analysis:By Application, the automotive segment is expected to grow at a CAGR of 10.3% during the forecast period. Electronics technology is essential for enhancing vehicle performance. Electric systems are the core of the automotive industry, particularly in electric vehicles and hybrid electric vehicles. Power devices are one of the most important components of vehicle electronics systems, and they are used in a variety of systems, such as oil-pressure valve control of the ABS system, motor control of the power windows, or an electric vehicle's inverter system, which converts the DC voltage of the battery into AC voltage. As a result, power devices with low power dissipation and good durability are unquestionably necessary to lower the cost of automotive systems. Vehicle electronics have become a crucial technology for increasing the performance and functionality of automobiles. The adoption of a motor drive utilizing a power device, particularly in electric cars, indicates that electronic devices are no longer auxiliary equipment, but have gained the role of primary equipment. The growth and improvement of power devices for automotive applications is one reason electronics have grown to occupy a vital position where they are widely used in onboard equipment. In many automotive electronics systems, power devices, which are semiconductor switching devices, are utilized. They control hydraulic valves in the anti-lock braking system (ABS), gasoline injection valves in electronic fuel injection (EFI) systems, and motors for power windows and other systems used in automobiles today. For example, For the ABS and power window systems, a power MOSFET with a 60-volt breakdown voltage is used.
Power MOSFET Market Regional Insights:The APAC region is expected to dominate the power MOSFET market by the end of the forecast period. This is because China is expected to overtake the United States as the world's biggest semiconductor superpower by 2030, thanks to rising domestic demand. The semiconductor industry is expected to nearly double in size to more than $1 trillion by 2030, with China accounting for almost 60% of that increase. However, China's long-held desire to lead the Fourth Industrial Revolution may be dependent on the country's ability to become self-sufficient in chip fabrication by 2030. China now uses around 40% of all global chip production while being just 12% self-sufficient. By 2030, there will be up to 125 billion linked devices globally. China's IoT private equity and venture finance deal volumes have increased from 14 in 2017 to 27 in 2021, with total deal values increasing from $586 million in 2017 to $1.59 billion in 2021. Sales in China account for more than 30% of the US semiconductor industry's revenue. Additionally, China is by far the most important market for South Korean semiconductor manufacturers Samsung Electronics and SK Hynix. In Europe, China accounts for more than 20% of ASML's revenues. STMicroelectronics, Infineon, and NXP are likewise strongly reliant on China's purchasing power. By 2030, foreign suppliers are expected to have a substantially reduced role in the Chinese market. The low-process manufacturing method is utilized in more than 90% of the chips sold and used globally. China has a growing, primarily state-funded semiconductor foundry market that is progressively increasing capabilities to serve local demand for low-process technology output, led by partially state-owned Chinese semiconductor giant Semiconductor Manufacturing International Corporation (SMIC). Also, Taiwanese semiconductor giant TSMC, the world leader in semiconductor production, has shifted its attention away from low-process older devices and toward newer-generation chips. This increases the prospects for Chinese foundries to serve the legacy chip industry.
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Power MOSFET Market Report Coverage Details Base Year: 2021 Forecast Period: 2022-2029 Historical Data: 2017 to 2021 Market Size in 2021: US $ 6.17 Bn. Forecast Period 2022 to 2029 CAGR: 6.2% Market Size in 2029: US $ 9.98 Bn. Segments Covered: by Type • Depletion Mode • Enhancement Mode by Power Rate • High power • Medium power • Low power by Application • Energy & Power • Consumer Electronics • Automotive • Industrial • Others
Power MOSFET Market, by Region• North America • Europe • Asia Pacific • Middle East and Africa • South America
Power MOSFET Market Key Players• Texas Instruments • MITSUBISHI • STMicroelectronics • Renesas Electronics • Diodes Incorporated • Infineon • Avago • ON Semiconductor • Vishay Semiconductors • Cree • Advanced Linear Devices • M-MOS • NXP • Panasonic • Alpha and Omega Semiconductor • Semelab • Cissoid • ROHM • Sanken Electric Semiconductors • Torex
Frequently Asked Questions:1. Which region has the largest share in Power MOSFET Market? Ans: Asia-Pacific held the largest share in 2021. 2. What is the growth rate of the Power MOSFET Market? Ans: The Power MOSFET Market is growing at a CAGR of 6.2% during the forecasting period 2022-2029. 3. What segments are covered in Power MOSFET Market? Ans: Power MOSFET Market is segmented into Power Rate, type, and application. 4. Who are the key players in Power MOSFET Market? Ans: Samsung, Toshiba, Texas Instruments, MITSUBISHI, STMicroelectronics, Renesas Electronics, Diodes Incorporated, Infineon, Avago, ON Semiconductor, Vishay Semiconductors, Cree, Advanced Linear Devices, M-MOS, NXP, Panasonic Alpha and Omega Semiconductor 5. What is the study period of this Market? Ans: The Power MOSFET Market is studied from 2021 to 2029.
1. Global Power MOSFET Market: Research Methodology 2. Global Power MOSFET Market: Executive Summary 2.1 Market Overview and Definitions 2.1.1. Introduction to Global Power MOSFET Market 2.2. Summary 2.2.1. Key Findings 2.2.2. Recommendations for Investors 2.2.3. Recommendations for Market Leaders 2.2.4. Recommendations for New Market Entry 3. Global Power MOSFET Market: Competitive Analysis 3.1 MMR Competition Matrix 3.1.1. Market Structure by region 3.1.2. Competitive Benchmarking of Key Players 3.2 Consolidation in the Market 3.2.1 M&A by region 3.3 Key Developments by Companies 3.4 Market Drivers 3.5 Market Restraints 3.6 Market Opportunities 3.7 Market Challenges 3.8 Market Dynamics 3.9 PORTERS Five Forces Analysis 3.10 PESTLE 3.11 Regulatory Landscape by region • North America • Europe • Asia Pacific • The Middle East and Africa • South America 3.12 COVID-19 Impact 4. Global Power MOSFET Market Segmentation 4.1 Global Power MOSFET Market, by Type (2021-2029) • Depletion Mode • Enhancement Mode 4.2 Global Power MOSFET Market, by Power Rate (2021-2029) • High power • Medium power • Low power 4.3 Global Power MOSFET Market, by Application (2021-2029) • Energy & Power • Consumer Electronics • Automotive • Industrial • Others 5. North America Power MOSFET Market(2021-2029) 5.1 North America Power MOSFET Market, by Type (2021-2029) • Depletion Mode • Enhancement Mode 5.2 North America Power MOSFET Market, by Power Rate (2021-2029) • High power • Medium power • Low power 5.3 North America Power MOSFET Market, by Application (2021-2029) • Energy & Power • Consumer Electronics • Automotive • Industrial • Others 5.4 North America Power MOSFET Market, by Country (2021-2029) • United States • Canada • Mexico 6. Europe Power MOSFET Market (2021-2029) 6.1. European Power MOSFET Market, by Type (2021-2029) 6.2. European Power MOSFET Market, by Power Rate (2021-2029) 6.3. European Power MOSFET Market, by Application (2021-2029) 6.4. European Power MOSFET Market, by Country (2021-2029) • UK • France • Germany • Italy • Spain • Sweden • Austria • Rest Of Europe 7. Asia Pacific Power MOSFET Market (2021-2029) 7.1. Asia Pacific Power MOSFET Market, by Type (2021-2029) 7.2. Asia Pacific Power MOSFET Market, by Power Rate (2021-2029) 7.3. Asia Pacific Power MOSFET Market, by Application (2021-2029) 7.4. Asia Pacific Power MOSFET Market, by Country (2021-2029) • China • India • Japan • South Korea • Australia • ASEAN • Rest Of APAC 8. Middle East and Africa Power MOSFET Market (2021-2029) 8.1 Middle East and Africa Power MOSFET Market, by Type (2021-2029) 8.2. Middle East and Africa Power MOSFET Market, by Power Rate (2021-2029) 8.3. Middle East and Africa Power MOSFET Market, by Application (2021-2029) 8.4. Middle East and Africa Power MOSFET Market, by Country (2021-2029) • South Africa • GCC • Egypt • Nigeria • Rest Of ME&A 9. South America Power MOSFET Market (2021-2029) 9.1. South America Power MOSFET Market, by Type (2021-2029) 9.2. South America Power MOSFET Market, by Power Rate (2021-2029) 9.3. South America Power MOSFET Market, by Application (2021-2029) 9.4 South America Power MOSFET Market, by Country (2021-2029) • Brazil • Argentina • Rest Of South America 10. Company Profile: Key players 10.1 Texas Instruments 10.1.1. Company Overview 10.1.2. Financial Overview 10.1.3. Global Presence 10.1.4. Capacity Portfolio 10.1.5. Business Strategy 10.1.6. Recent Developments 10.2 MITSUBISHI 10.3 STMicroelectronics 10.4 Renesas Electronics 10.5 Diodes Incorporated 10.6 Infineon 10.7 Avago 10.8 ON Semiconductor 10.9 Vishay Semiconductors 10.10 Cree 10.11 Advanced Linear Devices 10.12 M-MOS 10.13 NXP 10.14 Panasonic 10.15 Alpha and Omega Semiconductor 10.16 Semelab 10.17 Cissoid 10.18 ROHM 10.19 Sanken Electric Semiconductors 10.20 Torex