Global Market Size, Forecast, and Trend Highlights Over 2025-2037
Voltage Regulator for Advanced Semiconductor Market size was estimated at USD 3.9 billion in 2024 and is projected to attain USD 9.1 billion in 2037 surging at a CAGR of 7.2% during the forecast period i.e. 2025 to 2037. In 2025, the industry size of voltage regulator for advanced semiconductors is estimated at USD 4.2 billion.
As industries embrace cutting-edge technologies such as 5G, the IoT, and AI dependable voltage regulation becomes crucial. Manufacturers are yearning for innovation to develop regulators for a broad range of voltages while guaranteeing minimal energy loss. For instance, in August 2023, A joint investment plan was announced by TSMC, Robert Bosch GmbH, Infineon Technologies AG, and NXP Semiconductors. This collaboration aimed to provide advanced semiconductor manufacturing services by constructing a 300mm fab in Germany.
The semiconductor industry's explosive growth is closely linked to the proliferation of electronic devices and high-performance computing applications. Moreover, integrating digital technologies into voltage regulation systems has become increasingly popular in recent years. Owing to this integration, power distribution can be better monitored and controlled, allowing for real-time demand-driven adjustments and integration with other semiconductor components. For instance, in September 2024, IBM inked a deal to create cutting-edge processors to provide dependable, secure, and scalable computing for a variety of applications. Through their collaboration, their focus is to concentrate on innovation, functionality, and performance. The market growth is propelled due to the growing need for effective power management solutions.
Voltage Regulator for Advanced Semiconductors Sector: Growth Drivers and Challenges
Growth Drivers
- Rise in power efficiency and energy saving: Due to the growing global demand for high-performance electronic devices, optimization of energy consumption as well as reduction of semiconductor heat generation has become a need. The growing adoption of semiconductors in applications includes electric vehicles, Internet of Things devices, and data centers. For instance, in June 2024, for data center applications, the potent combination of Onsemi's recent generation T10 PowerTrench family and EliteSiC 650V MOSFETs provides unmatched efficiency and high thermal performance in a smaller package. Therefore, this shift toward energy-efficient voltage regulation technologies is influencing innovation in semiconductor design and manufacturing.
- Growth in the automotive industry: The need for reliable and efficient voltage regulation solutions has increased sharply. Advanced semiconductors for powertrain systems, battery management, and infotainment modules require strong voltage regulators to handle power efficiently. Moreover, an escalation of the automotive sector and its extensive requirements for advanced voltage regulation technologies will turn this sector into a growth area for the semiconductor sector. For instance, in April 2024, according to research from TechInsights, Infineon's overall market share grew from almost 13 percent in 2022 to 14 percent in 2023, solidifying its position in the automotive semiconductor market.
Challenges
- Supply chain and component unavailability: The rising geopolitical tensions, natural catastrophes, and the pandemic, have greatly disrupted global supply chains. The availability of certain critical components, such as capacitors, inductors, and specialized ICs, has been slowed. In addition, lead times are stretched as costs increase, making it challenging for manufacturers to build to voltage regulator for advanced semiconductor market demands. The sourcing, integration, and deployment of high-quality, specialized components for voltage regulators for operation in highly demanding environments such as advanced semiconductor applications add complexity to the challenge.
- Complexity in system integration: The coordination of incorporation of systems into devices requires significant interactions between power management, thermal control, signal integrity, and electromagnetic compatibility. These all tasks add to the layers of complexity when it comes to design and implementation. In addition, embedding voltage regulators into the sophisticated technologies that involve MCMs or heterogeneous computing environments calls for a deeper insight into both electrical and thermal dynamics involved, which, in turn, makes the design process far more complicated. Thus, requiring a much higher level of expertise and innovation in the design and testing areas.
Voltage Regulator for Advanced Semiconductor Market: Key Insights
| Report Attribute | Details |
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Base Year |
2024 |
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Forecast Year |
2025-2037 |
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CAGR |
7.2% |
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Base Year Market Size (2024) |
USD 3.9 billion |
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Forecast Year Market Size (2037) |
USD 9.1 billion |
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Regional Scope |
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Voltage Regulator for Advanced Semiconductors Segmentation
Application (Consumer Electronics, Telecommunications, Automotive, Industrial Equipment, Aerospace)
Consumer electronic voltage regulator for advanced semiconductor market is expected to dominate revenue share of around 38.4% by the end of 2037. The advances in consumer electronics and increasing numbers of smart devices demand powerful voltage regulation systems. For instance, in February 2024, Murata announced the launch of three new power product solutions. The PE24109 and PE24110 are efficient step-down DC-DC converter solutions intended for high-density and optical transceiver modules. The PE25208 is a charge pump integrated circuit designed to power the future of portable consumer electronics, including laptops and other USB PD high-power applications. In addition, further miniaturization of electronic devices is driving need for more advanced, compact, and energy-efficient solutions for voltage regulation.
Type (Linear Voltage Regulator, Switching Voltage Regulators, Low Dropout Regulators, Integrated Voltage Regulators)
The linear voltage regulator is emerging rapidly in the voltage regulator for advanced semiconductor market as they are simple, reliable, and cost-effective. Linear voltage regulators give an output voltage with minimal ripples and EMI which ensures minimal ripples and EMI for stable operation of advanced semiconductor components. For instance, in April 2024, STMicroelectronics announced 40V industrial and automotive linear regulators, LDH40 and LDQ40 that are effective and adaptable. With the semiconductor devices becoming more power-sensitive and advanced in design, the requirement for linear regulators remains very strong particularly in low- to medium-power applications that have little concern for inefficiencies.
Our in-depth analysis of the market includes the following segments
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Application |
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End use |
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Customize this ReportVoltage Regulator for Advanced Semiconductors Industry - Regional Synopsis
North America Market Statistics
North America in voltage regulator for advanced semiconductor market is poised to capture over 41.7% revenue share by 2037. Excellent performance semiconductor solutions demand from several industries such as telecommunications, automotive, and consumer electronics has further boosted business activities in North America. In addition, the good infrastructure, skills, and favorable regulatory environment make it the dominant market in the fast-emerging voltage regulator business.
The government and formal agencies in the U.S. are extending their best efforts to widen the advancement of semiconductor proficiency in the country and be opportunists in the voltage regulator for advanced semiconductor market. For instance, in April 2024, the U.S. Department of Commerce and TSMC Arizona signed a non-binding preliminary memorandum of terms (PMT) for USD 6.6 billion in direct funding under the CHIPS and Science Act. To satisfy high customer demand, TSMC also revealed plans to construct a third fab at TSMC Arizona, utilizing the most cutting-edge semiconductor process technology available in the US.
The market trend towards low-power, energy-efficient semiconductor technologies is in line with Canada's emphasis on sustainability. The government is promoting investments in advancing the semiconductor industry within the country. For instance, in July 2024, the local government announced a lucrative investment of USD 136.7 million in strengthening research and developmental activities in semiconductor capabilities.
Asia Pacific Market Analysis
Asia Pacific is the most rapidly growing region in the voltage regulator for advanced semiconductor market, driven by large investments in the semiconductor manufacturing line, the expansion of the 5G infrastructure base, and the rise in the use of electric vehicles. Additionally, the area boasts a vast reservoir of technological know-how, low-cost production capacity, and first-rate government support for technological advancement. Thus, Asia Pacific is expected to rise continually and drive innovations in the voltage regulator for advanced semiconductor market.
For the development and design of advanced fabs, ATMP, and other components, India is looking for foreign investments in its domestic semiconductor industry. For instance, in October 2024, Larsen & Toubro Ltd. aimed to establish a fabless chip company in India with a plan to invest over USD 300 million and design 15 products. In light of global supply chain changes, this action supports India's efforts to decrease imports of semiconductors and increase domestic capacity.
China seeks to attain the position of self-sufficiency in the manufacturing and processing of its semiconductor industry. It also strives to mitigate the assistance from foreign competitors and build an ecosystem around competitiveness within the country. For instance, in April 2024, it was published that Taiwan manufactures more than 90% of the most sophisticated chips and about 60% of the world's semiconductors. Thus, allowing the country to progress technologically.
Companies Dominating the voltage regulator for advanced semiconductors landscape
- STMicroelectronics
- Company Overview
- Business Strategy
- Key Product Offerings
- Financial Performance
- Key Performance Indicators
- Risk Analysis
- Recent Development
- Regional Presence
- SWOT Analysis
- Texas Instruments
- Vicor Corporation
- Maxim Integrated
- Infenion Technologies
- Linear Technology
- Power Integrators
- Microchip Technology
The competitive landscape is driven by a growing demand for cutting-edge semiconductor applications. The businesses have also placed a strong emphasis on research and development and investing more in next-generation technologies, thus improving the performance of sophisticated semiconductor devices. For instance, in December 2023, Siemens and Intel decided to collaborate to improve sustainability and production efficiency in semiconductor manufacturing. They utilized state-of-the-art IoT and automation solutions in their process. In addition, the competitive dynamics are also being heightened by regional and new players who are gaining market share by providing creative solutions at affordable costs.
Here’s the list of some key players of market:
Recent Developments
- In March 2024, Hitachi Energy introduced the first 300 mm wafer for IGBT, advancing semiconductor technology. This novel technical development boosted chip manufacturing efficiency and provided intricate designs for 1200V insulated gate bipolar transistors (IGBT).
- In December 2023, Infineon introduced the 12 A and 20 A synchronous buck regulator family with fast COT architecture for DC-DC POL applications. For performance optimization, using a fast constant on-time (COT) control scheme, this method guarantees quick transient response, lowers the number of passive components, and takes up less board space.
Author Credits: Abhishek Verma
- Report ID: 6665
- Published Date: Nov 07, 2024
- Report Format: PDF, PPT
