power Semiconductor
The Power Semiconductor Market reached US$ 56,155 million in 2022 and is projected to witness lucrative growth by reaching up to US$ 171,709 million by 2031. The market is growing at a CAGR of 15.0% during the forecast period (2024-2031). Demand from Automotive, Industrial, Electronics Appliances, Defence & Aerospace in Asia Pacific is booming. Competitive rivalry intensifies with STMicroelectronics, Toshiba Corporation, Texas Instruments and others operating in the market.
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Key 2025 market developments:-
Onsemi announced a collaboration with GlobalFoundries to develop next-generation GaN power devices using GF’s 200 mm eMode GaN-on-silicon process, marking a strategic push toward high-efficiency power semiconductors in the Japanese supply chain.
Renesas Electronics unveiled solutions supporting 800 V DC power architectures, aimed at improving power conversion efficiency for data centers and AI infrastructure a reflection of the strong intersection between power semiconductors and high-performance computing demands in Japan.
renesas.com
Mitsubishi Electric inaugurated a new SiC (silicon carbide) power semiconductor plant in Kumamoto Prefecture, strengthening domestic production of high-voltage, high-efficiency power devices amid growing EV and renewable energy demand.
DIGITIMES Asia
Japan’s historical lead in power chips is facing pressure from Chinese competitors, leading to concerns about market share erosion and prompting Japanese firms to rethink strategy and collaboration to maintain competitiveness.
TrendForce
The Japanese SiC power device market is projected to grow rapidly with estimates forecasting significant CAGR and expansion driven by EVs, renewable energy systems, and industrial electrification needs.
Latest Investment:-
1. Mitsubishi Electric completes new SiC power semiconductor facility in Kumamoto
• Mitsubishi Electric officially opened a new silicon carbide (SiC) power semiconductor manufacturing plant in Kumamoto Prefecture, Japan, with operations aimed to boost advanced power semiconductor production. This reflects strategic expansion in response to demand for high-efficiency power devices used in EVs, industrial systems, and renewable energy applications.
Market Dynamics an Trends
The Growing Demand For Power Semiconductors In Automobiles And Consumer Electronics Is Expected To Propel Market Growth.
Power semiconductors are used in consumer electronics, such as video games, televisions and watches. Hybrid electric vehicles (HEV) and electric vehicles (EV) are essential in terms of power semiconductor demand because they comprise more semiconductors than combustion-engine vehicles. The demand increase for HEVs and EVs is anticipated to be similar to that of other vehicles, increasing their market share and consequently, the demand for power semiconductors, thereby propeling global power semiconductors market growth.
Power Semiconductor Market Impact Analysis
The Growing Switch Towards Sustainability Will Create Major Growth Prospects For The Global Power Semiconductor Market
According to Bernstein, an investment firm, the rise of ethical investing has aided the power semiconductor market. Fund managers are increasingly marketing “green funds,” Investors are becoming more concerned about a company’s environmental, social and governance (ESG) impact. The increased availability of renewable energy is assisting chipmakers in lowering their carbon footprint. In addition to switching to renewables, chipmak are also investing in energy efficient production methods.
Growth Drivers:-
1. Expansion of Electric Vehicles (EVs) and Electrification Trends
Japan’s strong automotive industry is transitioning to electrification, increasing demand for high-efficiency power semiconductors such as IGBTs, MOSFETs, and SiC devices in EV powertrains, onboard chargers, and energy management systems. This electrification push by major OEMs directly boosts power semiconductor adoption.
2. Government Energy Efficiency and Carbon Neutrality Initiatives
National policies focused on energy conservation and achieving carbon neutrality by 2050 are driving investment into power converters, energy-efficient electronics, and clean energy integrationareas where power semiconductors are essential for reducing energy loss and improving system efficiency.
3. Renewable Energy and Smart Grid Development
Japan’s increasing installation of renewable energy sources (solar, wind) and smart grid expansion requires advanced power semiconductor components for power conversion, storage systems, and grid stability. This infrastructure transformation supports strong demand for semiconductors in energy systems.
4. Industrial Automation and Robotics Demand
As Japan leads in factory automation and robotics, AI-driven smart manufacturing systems rely heavily on power semiconductor devices for motor control, power management, and efficiency in industrial applications.
5. Telecommunications Infrastructure & 5G/Next-Gen Networks
The rollout of advanced telecommunications technology such as 5G increases the need for efficient power management in base stations, network equipment, and data centers, indirectly supporting growth in power semiconductor usage.
6. Adoption of Wide-Bandgap Semiconductors (SiC & GaN)
There is rising interest in silicon carbide (SiC) and gallium nitride (GaN) power semiconductors in high-power applications due to their superior efficiency, higher temperature tolerance, and reduced energy lossescrucial for EVs, renewables, and industrial systems. Government support for R&D and production capacity expansion enhances growth prospects for these advanced materials.
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Market Segmentation:-
By Component:
The Japan Power Semiconductor Market is segmented into Discrete devices, Power Modules, and Power Integrated Circuits (Power ICs). Discrete components, including diodes and transistors, remain widely used for switching and power conversion applications, particularly in industrial and automotive sectors. Power modules, which integrate multiple devices in a single package, are increasingly adopted in electric vehicles (EVs), renewable energy systems, and industrial motor drives due to their enhanced efficiency and compact design. Power ICs, combining multiple functions on a single chip, are driving miniaturization and advanced power management in consumer electronics, automotive electronics, and smart industrial applications, reflecting Japan’s focus on innovation in high-performance and energy-efficient solutions.
By Material:
The market is segmented based on material into Silicon (Si), Silicon Carbide (SiC), Gallium Nitride (GaN), IGBT, and MOSFET. Silicon-based devices continue to dominate due to their cost-effectiveness and reliability across general power applications. However, wide-bandgap materials like SiC and GaN are witnessing rapid growth in EVs, industrial automation, and renewable energy applications owing to higher efficiency, heat tolerance, and energy savings. IGBT devices are heavily utilized in high-voltage applications such as automotive traction inverters and industrial motor drives, while MOSFETs are preferred for high-speed switching and low-voltage applications, supporting Japan’s advancements in efficient automotive electronics and energy systems.
By Application:
In terms of applications, the Japan Power Semiconductor Market is segmented into Automotive, Consumer Electronics, Military & Aerospace, and Industrial sectors. The automotive segment is the largest driver, fueled by the growth of EVs, hybrid vehicles, and next-generation automotive electronics requiring efficient power management. Consumer electronics contribute through applications in laptops, smartphones, and household devices, leveraging compact Power ICs and energy-efficient modules. Military and aerospace applications demand high-reliability, high-performance power semiconductors for defense systems, satellites, and avionics. The industrial segment is expanding steadily due to robotics, automation, renewable energy systems, and smart factories, where high-power modules and wide-bandgap semiconductors are increasingly deployed to improve operational efficiency and reduce energy losses.
Regional Insights:-
Kanto Region (Tokyo‐Metropolitan Area) – The Kanto region stands as the primary hub for Japan’s power semiconductor market, driven by the concentration of electronics manufacturers, corporate headquarters, research institutions, and technology R&D centers in Tokyo and nearby prefectures. This region’s dominance stems from its role in advanced electronics, automotive R&D, and data‐center initiatives that require efficient power management and next‐generation power devices, making it the largest demand center for power semiconductor innovation and deployment.
Chubu Region (Nagoya and Surroundings) – Chubu, particularly around Nagoya, is heavily anchored in automotive manufacturing, generating significant demand for power semiconductors used in electric and hybrid vehicles, charging infrastructure, and factory automation. The extensive presence of major automotive OEMs and suppliers positions Chubu as a crucial market for both traditional silicon devices and advanced SiC/GaN power technologies.
Kansai Region (Osaka/Kyoto Area) – Kansai contributes robustly due to its strong industrial base, advanced manufacturing capabilities, and focus on industrial machinery and automation. The Osaka-Kyoto corridor supports high demand for power semiconductor modules in robotics, factory automation, and energy conversion systems, backed by collaborative research between industrial players and academic institutions.
Kyushu Region (Fukuoka, Kumamoto) – Often known as “Silicon Island”, Kyushu is a strategic region for semiconductor fabrication, hosting numerous manufacturing facilities and supply chain ecosystems. Its role in domestic power semiconductor production and R&D contributes substantially to manufacturing capacity and technology development, supporting both local demand and broader national supply chain resilience.
Tohoku Region (Northern Japan) – In Tohoku, demand for power semiconductors is growing in connection with renewable energy installations (such as wind and solar power), agricultural technology modernization, and specialized industrial applications. Efforts to integrate efficient power conversion systems help expand the market as regional infrastructure and technology adoption increases.
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The report is essential to gain a comprehensive understanding of the global power semiconductor market, including segmentation by product, application, and region, while identifying key commercial assets and players. Analyze market trends and co-development opportunities to uncover potential business prospects. The report includes an Excel datasheet with extensive market-level data across all segments and a detailed PDF report featuring in-depth analysis based on qualitative interviews and exhaustive research. Additionally, product mapping in Excel highlights key offerings from all major players in the market.
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