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Hillsboro, United States
51-100 Employees
1997
We are a manufacturer of high-purity Silicon Carbide (SiC) Ceramics, CMP Slurries, EUV Blanks, and more, for the semiconductor industry. Headquartered in Hillsboro Oregon USA, AGC Electronics America (AGCEA) is a division of AGC Flat Glass North America, Inc. AGCEA manufactures materials for the Semiconductor industry, namely high-purity Silicon Carbide (SiC) Ceramics and CMP Slurries, and we also serve as a distributor for other AGC Electronics Materials manufactured in Japan and elsewhere.
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Featured
Products - Electronic Materials | AGC Electronics America
... From high purity Silicon Carbide (SiC) for semiconductor manufacturing to Chemical Mechanical Polishing (CMP) slurries for polishing wafers. ...
Boonton, United States
51-100 Employees
2016
We deliver market research reports on time everytime. We are always dedicated to turn decisions into actions. We deliver best in-class market research reports in addition to consultancy services. We are known for custom research studies on diverse markets. We diffuse all our services for enabling a hassle-free and centralized market research solution for all kinds of needs. With a team of 500+ Analysts and subject matter experts, VMR leverages internationally recognized research methodologies for data collection and analysis, covering over 15,000 high impact and niche markets. This robust team ensures data integrity and offers insights that are both informative and actionable, tailored to the strategic needs of businesses across various industries. Verified Market Research® is also a member of ESOMAR, an organization renowned for setting the benchmark in ethical and professional standards in market research.
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Featured
Global Silicon Carbide Semiconductor Market Size By Product (SiC MOSFET, SiC Schottky Diode), By Application (Medical, Aerospace and Defense, Communication), By Geographic Scope And Forecast
... Global Silicon Carbide Semiconductor Market Size By Product (SiC MOSFET, SiC Schottky Diode), By Application (Medical, Aerospace and Defense, Communication), By Geographic Scope And ...
Tempe, United States
251-500 Employees
1981
We are a market leader in the high-end power chip market (SiC and 300mm silicon horizontal thermal reactor), developing and supplying essential equipment and consumables used in the semiconductor industry. Through BTU International, we manufacture and sell advanced thermal processing systems used in the solder reflow and curing stages of printed circuit board assembly, as well as systems for thermal processes. We sell these products to semiconductor and automotive component manufacturers worldwide, particularly in Asia, North America and Europe. Amtech's products are recognized under the leading brand names BTU International, Bruce TechnologiesTM, and PR HoffmanTM. Through our premier brand, PR Hoffman, we manufacture and sell a wide range of products, including substrate carriers, and substrate polishing templates. Our subsidiary Bruce Technologies manufactures and sells 200mm and 300mm horizontal diffusion and deposition furnaces designed to address several steps in the semiconductor manufacturing process. Our business segments are made up of our four wholly-owned subsidiaries, which manufacture and sell our products under the leading premier brand names: BTU International, Entrepix Inc., PR Hoffman™, and Intersurface Dynamics.
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About :: Amtech Systems, Inc. (ASYS)
... Our Strategic Emphasis on Silicon Carbide and Power Semiconductor ...
Sion, Switzerland
11-50 Employees
2013
Imperix provides rapid control prototyping solutions for power electronics, drives, smart grids, and related topics. Our products are designed to facilitate and accelerate the implementation of laboratory-scale power converters and facilitate the derivation of high-quality experimental results. Imperix controllers are dedicated to rapid control prototyping and are specifically tailored for power electronics. Imperix power modules are ready-to-use building blocks, which allow building up almost any power converter topology. Imperix provides tailored solutions for all sorts of rapid control prototyping activities in power electronics. Our products enable engineers to work faster by saving time on their own development efforts. Furthermore, imperix offers scalable solutions for research in power electronics, renowned for their ability to accelerate prototyping activities, thanks to ready-to-use hardware. These bundles offer turn-key solutions for research applications, supporting the rapid prototyping of even the most advanced converter control algorithms.
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Half bridge module - PEB8038 SiC power module - imperix
... The PEB8038 is a half bridge module featuring two Silicon Carbide power semiconductors. It is designed for building laboratory-scale power converters. ...
New Bedford, United States
51-100 Employees
The Technical Ceramics business of Morgan Advanced Materials designs and manufactures advanced ceramic components from a portfolio of cutting edge materials. We offer a wide range of advanced ceramic and glass materials, in-depth materials expertise and vast applications experience in diverse markets. The long-term relationships we build with our customers provide the foundation for our continued success. Our aim is to provide services and products that not only add value, but also make a real and measurable contribution to the success of our customers' businesses. Technical Ceramics has manufacturing plants located throughout Europe, North America, Australasia and Asia, each fully supported by a comprehensive customer service and technical support network. No other company operating in the field of technical ceramics is better placed to deliver innovative solutions to meet the needs and the challenges faced by industry today and in the future.
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Silicon Carbide Plates for Semiconductor | Morgan Technical Ceramics
... Silicon Carbide Plates for Semiconductor | Morgan Technical ...
Mason, United States
11-50 Employees
1994
Since 1994, Zavtek has provided top-tier electrical power quality equipment and best-in-class electrical maintenance services to mission-critical facilities such as data centers, hospitals and high-tech manufacturing. We are all about the power of partnership. We are with you from the selection of appropriate technology throughout the life of the equipment, providing you preventative and emergency maintenance, unlimited operational training, and outstanding technical support. Experts in power quality distribution systems and services for more than 20 years. We partner with trusted and proven manufacturers such as Mitsubishi, ABB and Universal Electric Corporation. We believe it is not a box you are buying when you select your electrical power quality and distribution solutions, but rather a partnership you are investing in. We operate consistently with the highest ethical conduct in all that we do, and earn the trust of our partners by exceeding their expectations through honest “no surprises” business behavior. With the help of our Electrical Power Quality and Distribution Experts.
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SUMMIT Series® (500 & 750kVA) - West Chester, Mason, Hamilton | ZAVTEK
... In the SUMMIT Series® UPS, the Si (silicon) IGBT is replaced with advanced capability SiC (Silicon Carbide) semiconductors. The IEEE states that silicon carbide is to the 21st century what silicon was to the 20th century. Mitsubishi Electric began development […] ...
Durham, United States
501-1000 Employees
2015
We are a powerhouse semiconductor company focused on silicon carbide technologies. We are accountable to each other and committed to the highest standards of safety, quality, work and behavior. Wolfspeed’s founders were the first to successfully commercialize silicon carbide, and for more than 35 years have focused on designing and supplying the industry’s highest-performing silicon carbide materials and devices for high-power applications. Wolfspeed is the worldwide leader of silicon carbide (SiC) MOSFETs, Schottky Diodes, and Power Modules. Our ever-increasing portfolio of Wolfspeed products are engineered to enable our customers to deliver groundbreaking systems that do more while using energy more efficiently. Introducing the new Wolfspeed WolfPACK™ GM3 power modules designed to provide system scalability and flexibility with the highest useable ampacity in the industry. The Wolfspeed Power Applications forum allows you to connect directly with Silicon Carbide applications engineers. We are always looking for new ways to leverage our potential and create the future.
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Jaguar TCS Racing, Powered by Wolfspeed | Wolfspeed
... Wolfspeed’s Silicon Carbide semiconductors have been used in Jaguar TCS Racing Formula E team’s in-house developed powertrains since 2017. ...
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Silicon Carbide Biotechnology : A Biocompatible Semiconductor for Advanced Biomedical Devices and Applications
... Silicon Carbide Biotechnology : A Biocompatible Semiconductor for Advanced Biomedical Devices and ...
City of Albany, United States
1-10 Employees
2015
Pallidus was launched in 2015, producing 6-9’s pure M-SiC™ powder to change the cost-quality paradigm for silicon carbide wafer production. In 2018, Pallidus leveraged its M-SiC™ technology platform to focus on growing silicon carbide crystals and making ultra-premium 150mm SiC epitaxy-ready wafers. In 2021, Pallidus secured a multimillion-dollar private equity investment to scale its facility, enabling its ramp from pilot scale to full wafer production. Pallidus is the fastest-growing silicon carbide company and will have more news coming soon! Pallidus’ proprietary silicon carbide technology is fueling next-generation applications – from transportation and telecom to green energy and smart grid – and changing the cost-quality paradigm for SiC wafers in power electronics.
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Featured
About — Pallidus
... With a pioneering technology platform, extensive IP portfolio, high-performance wafers, rapid expansion and a superb team, Pallidus offers the premier silicon carbide solution for power semiconductor and other markets. ...
China
Driven by new materials, new processes, and new products, SLKOR has the internationally leading technologies on the SiC MOSFET and the fifth-generation ultra-fast recovery power diode SBD. SLKOR is a Chinese national high-tech enterprise and has obtained various certifications such as ISO9001 quality management system, EU RoHS, and REACH. Most of the wafer manufacturing and chip testing are carried out within China. With well over 100 invention patents, and more than 2,000 product models, SLKOR possesses many independent intellectual property rights. SLKOR's product lines include diodes, transistors, power devices, and power management chips. We have also launched new products such as Hall sensors, ADCs, and BMS. SLKOR provides high-end products such as silicon carbide SiC SBD diodes, silicon carbide SiC MOSFET, IGBT, and ultra-fast recovery power diodes, meeting the needs of high-end equipment, communication power, solar photovoltaics, medical equipment, industrial Internet, new energy vehicles, personal mobility devices, electric tools, and other industries. Our power management chips include LDOs, AC-DC converters, DC-DC converters, and other related products.
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SiC Devices | Slkor Semiconductors
... SiC (silicon carbide) is a compound semiconductor composed of silicon and carbide. SiC provides a number of advantages over silicon, including 10x the breakdown electric field strength, 3x the band gap, and enabling a wider range of p- and n-type control required for device ...
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Some interesting numbers and facts about the results you have just received for Silicon Carbide Semiconductor
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 9 |
| Amount of suitable service providers | 4 |
| Average amount of employees | 51-100 |
| Oldest suiting company | 1981 |
| Youngest suiting company | 2021 |
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Silicon carbide (SiC) is a semiconductor composed of silicon and carbon, known for its ability to operate at high temperatures, high frequencies, and high voltages, compared to traditional silicon-based semiconductors. This material exhibits superior thermal conductivity, greater electron mobility, and a wider bandgap, which contributes to its exceptional performance in harsh environments. The wide bandgap of SiC allows for devices made from this material to sustain higher electric fields, thus supporting higher voltages and reducing energy loss during power conversion. This efficiency is critical in applications where energy conservation and heat management are paramount, such as in electric vehicles, power supplies, and renewable energy technologies. The adoption of silicon carbide semiconductors is revolutionizing the power electronics industry by enabling more efficient, compact, and reliable power systems. These systems are not only more energy-efficient but also contribute significantly to reducing carbon emissions and operating costs, aligning with global efforts towards sustainable energy solutions. The robustness of SiC semiconductors makes them ideal for use in harsh environmental conditions, further expanding their applicability across various high-demand sectors, including aerospace, automotive, and industrial applications. Consequently, the transition to silicon carbide technology is poised to have a profound impact on the development and performance of future electronic devices and systems, marking a significant leap forward in semiconductor technology.
1. Higher Thermal Conductivity
Silicon Carbide semiconductors stand out for their exceptional ability to dissipate heat more efficiently than their counterparts. This characteristic is crucial for high-power applications where managing thermal performance is a significant challenge, ensuring devices operate reliably even under extreme conditions.
2. Enhanced Power Efficiency
These semiconductors are celebrated for their ability to operate at higher voltages with lower leakage current, translating into superior power efficiency. This advantage is especially beneficial in reducing energy consumption and operational costs in power-sensitive applications, making it a more sustainable option over traditional materials.
3. Greater Durability and Longevity
The robustness of Silicon Carbide semiconductors is another notable benefit. They exhibit remarkable resistance to thermal shock and wear, which contributes to a longer operational lifespan. This durability is essential for applications in harsh environments, ensuring consistent performance without frequent replacements or maintenance.
4. Better Frequency Handling
Finally, Silicon Carbide semiconductors can handle higher frequencies with minimal loss, making them ideal for high-speed communication applications. This capability allows for more efficient data transmission, which is critical in today’s increasingly digital and connected world.
1. Product Quality and Reliability
Ensure the semiconductors have a high-quality construction, offering durability and long-term reliability for various applications.
2. Technical Specifications
Match the semiconductor's technical parameters, such as voltage, current, and power capabilities, with your project needs.
3. Manufacturing Capabilities
Verify that the supplier can handle your volume requirements without sacrificing quality or lead times.
4. Cost Efficiency
Consider not only the unit cost but also the long-term operational costs, ensuring the choice is economically viable.
5. Innovation and Development Support
Choose a supplier that invests in research and development to stay ahead of technology trends and can provide future-proof solutions.
6. Supply Chain Robustness
Assess the supplier’s ability to maintain consistent delivery schedules and manage supply chain disruptions.
7. Customer Service and Technical Support
Look for suppliers offering robust support services, including technical assistance and after-sales support, to facilitate smooth integration and operation.
Silicon carbide semiconductors are renowned for their efficiency and durability, making them ideal for high-power applications. In the automotive industry, they are predominantly used in electric vehicles (EVs) for power electronics components such as inverters, converters, and chargers. This application significantly enhances the EV's energy efficiency, allowing for longer travel distances on a single charge and faster charging times. Within the renewable energy sector, silicon carbide semiconductors play a crucial role in solar and wind power systems. They are used in inverters that convert direct current (DC) generated by solar panels or wind turbines into alternating current (AC), which is the form of electricity used by the grid and home appliances. Their ability to operate efficiently at high voltages and temperatures reduces energy losses and increases the overall efficiency of renewable energy systems. Another significant application is in industrial motor drives. Silicon carbide semiconductors are used to control motor speed and torque with high precision in heavy machinery and manufacturing equipment. Their high thermal conductivity and efficiency minimize energy consumption and heat generation, leading to reduced operational costs and extended equipment lifespan. Furthermore, in the telecommunications industry, silicon carbide semiconductors are utilized in power supplies and amplifiers. Their robustness and ability to withstand high frequencies without degradation ensure reliable performance in transmitting clear, high-quality signals over long distances. These use cases across various industries highlight the versatility and critical importance of silicon carbide semiconductors in modern technology, driving advancements in efficiency, sustainability, and performance.
Silicon Carbide (SiC) semiconductors are currently situated at a high Technology Readiness Level (TRL), specifically around TRL 8 or 9, which signifies that the technology has been fully tested and is now in its final stages of being made commercially available or is already in the market. This advanced TRL status is attributed to several technical factors. Firstly, SiC semiconductors exhibit superior material properties compared to their silicon counterparts, including higher thermal conductivity, greater electric field breakdown strength, and improved energy efficiency, all of which contribute to their robust performance in high-temperature, high-power, and high-frequency applications. These attributes are increasingly critical in sectors such as automotive, particularly in electric vehicles (EVs), and renewable energy systems, where efficiency and durability are paramount. Furthermore, substantial advancements in manufacturing processes and material quality have significantly reduced defects in SiC substrates, enhancing device reliability and performance. The progress in epitaxial growth techniques has also played a pivotal role in improving the quality of SiC layers, enabling the production of devices that can operate at higher voltages. Together, these technical milestones have propelled SiC semiconductors to their current high TRL, indicating their readiness for widespread adoption and integration into modern electronic and power systems.
In the short term, advancements in Silicon Carbide (SiC) semiconductors are poised to significantly enhance power efficiency in electric vehicles (EVs) and renewable energy systems. The focus will be on improving the manufacturing techniques to reduce costs and increase the availability of SiC devices. These improvements are expected to lead to wider adoption in power electronics, offering superior performance compared to silicon in high-temperature, high-voltage, and high-frequency applications. Mid-term developments will likely see SiC technology expanding into more consumer electronics and industrial applications, driven by its superior thermal conductivity and energy efficiency. Innovations in packaging technology and the integration of SiC with other semiconductor materials may enable smaller, more powerful devices. This period will also witness an increase in the production capacity to meet the growing demand, further driving down costs and encouraging broader adoption across various industries. Looking at the long term, the potential for SiC semiconductors to revolutionize industries becomes even more pronounced. Breakthroughs in material science could lead to the creation of ultra-efficient, high-power devices that could significantly reduce energy consumption worldwide. The development of novel SiC-based devices is expected to support the emergence of next-generation wireless communication technologies and autonomous systems, offering unprecedented speeds and reliability. This phase will solidify SiC's role as a cornerstone technology in the future of electronics and energy.
Some interesting questions that has been asked about the results you have just received for Silicon Carbide Semiconductor
What are related technologies to Silicon Carbide Semiconductor?
Based on our calculations related technologies to Silicon Carbide Semiconductor are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Who are Start-Ups in the field of Silicon Carbide Semiconductor?
Start-Ups who are working in Silicon Carbide Semiconductor are Booksmart
Which industries are mostly working on Silicon Carbide Semiconductor?
The most represented industries which are working in Silicon Carbide Semiconductor are Hardware, Manufacturing, Information Technology, Consumer Electronics, Science and Engineering
How does ensun find these Silicon Carbide Semiconductor Companies?
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