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India
101-250 Employees
2007
Established in 2007, Polymatech is India’s first Semiconductor chips manufacturer. Polymatech Electronics supports a blooming environment of our customers with the un-matchable industry’s process of Japanese technologies. Polymatech products can be found where microelectronics makes contribution to lives. Polymatech is committed to meet or exceed our customers’ expectations and put ourselves ahead of the competition and helping customers to prepare for change. Having Polymatech’s own cutting-edge technology in its world class facilities that help “Atma Nirbhar Bharat” Polymatech has positioned ifself as “guru” (Cardinal) of “Compound Semiconductor’s. Polymatech’s significant R&D technologies developed through large scale mass production. Polymatech makes human life, simple – beautiful – lively – colorful – and vibrant. Polymatech has technology partners in Great Britain, Finland, Japan and the United States of America.
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Featured
India’s 1st Semiconductor Chips Manufacturer
... Polymatech Electronics - India’s 1st Semiconductor Chips ...
Budapest, Hungary
11-50 Employees
2020
FireAlps Hungary Kft is a young business driven team with passion in Electrical, Electronics & Engineering lines. We are an international distribution company with strong supplier network in Europe, Asia-Pacific, Americas, Middle East & North Africa. We are pledged to source new and original parts at all times.
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semiconductor chips, Electronic, industrial, aero, auto & Marine Parts
... semiconductor chips, Electronic, industrial, aero, auto & Marine ...
Eindhoven, Netherlands
11-50 Employees
2010
Methods2Business releases world's first Wi-Fi CERTIFIED HaLow™ IP products and receives Wi-Fi Alliance certificates for their Access Point and Station Reference Kits. Methods2Business (M2B) is a European semiconductor company on the leading edge of developing next generation Wi-Fi™ IP products for the global semiconductor chip market. Today, Methods2Business is one of the leading IP suppliers of Wi-Fi HaLow™ SoCs for long range (up-to 1km), ultra-low power Wi-Fi connectivity in highly secured home and industrial IoT networks, including machine-to-machine communication. Methods2Business is a contributing member of Wi-Fi Alliance®, the worldwide network of companies that brings the world Wi-Fi®. Founded in 2010, Methods2Business is headquartered in Eindhoven, Brainport region of The Netherlands, and has a design center in Novi Sad, Serbia. Methods2Business develops fully integrated MAC, Baseband and Security solutions for Wi-Fi CERTIFIED HaLow™ chipsets. Meet the leader in CERTIFIED Wi-Fi HaLow™ IP productsYour partner for bringing world's first Wi-Fi CERTIFIED HaLow™ chips. Wi-Fi HaLow extends Wi-Fi in the sub-GHz domain to provide superior IoT connectivity to smart devices over long distances with minimal power.The new Wi-Fi standard is based on the IEEE802.11ah standard which is an integral part of the 802.11 standards family.
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Wi-Fi HaLow for IoT – 802.11ah chips & IP | Methods2Business | Netherlands
... Methods2Business is a European semiconductor company developing next generation Wi-Fi HaLow (IEEE 802.11ah) IP products for the global semiconductor chip market. ...
Ranchi, India
11-50 Employees
2018
Founded in 2018, Bhive is a semiconductor IC design services company headquarter at Bangalore and design centre at Ranchi. We provide IC design services to the semiconductor industries in India and abroad. Bhive Design team has vast experience in Digital front-end Design & Verification, Analog / RF, mm Wave Custom Layout, Standard cells. iOS, ESD Memory layout development, Physical Design, Automation in Perl & Skill, Embedded & Firmware. Our aim is to be the best in the segments of the services that we provide Offer onsite/offsite design services that are superior in quality and within the schedule at a very competitive market pricing. This approach focuses on building long-term relationships with customers by providing them with high-quality products or services, excellent customer service, and personalized experiences.
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Bhive Design Pvt Ltd – Semiconductor Chip Design & IC / IP Solutions Development
... Bhive Design Pvt Ltd – Semiconductor Chip Design & IC / IP Solutions ...
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About - Testar 晶測電子
... Offer Optoelectronic Chips and Semiconductor Testing ...
Portland, United States
101-250 Employees
2007
That is why we are committed to increasing the success rate of product innovation. We are intentional in the company culture that we nurture. We are explicit about the habits we all want to embrace and make our own. We are proud to support visionary organizations worldwide and our growing base of more than 12.5 million users across 30 countries, primarily those representing the forefront of innovation, including key market segments of automotive, semiconductor, medical device, financial services, industrial manufacturing, and aerospace/defense. We are the only company that enables best-of-breed, live requirement traceability through our proven integrations with leading task management, MBSE, test automation, and risk management tools. We do this through our industry-leading requirements management software, Jama Connect®, and our industry-specific, best practice expertise. So, our companion commitment is to nurture an inclusive, learning organization where a focus on professional growth thrives. Our operational definition of company culture is the cumulative effect of what people do and how they do it – most often driven by habits of thought and action.
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Conquer Complexity with Requirements-Driven Semiconductor Chip Development
... Conquer Complexity with Requirements-Driven Semiconductor Chip ...
Horsham, United Kingdom
11-50 Employees
1973
We are a family-run business, celebrating 50 years of success and are proud to operate the official Škoda dealership for the Horsham area, just 10 minutes from Crawley in West Sussex. We are always happy to arrange a test drive of any model that takes your fancy, new or used. Did you know we are now on TikTok? As the leading dealership serving Sussex and Surrey, we pride ourselves on offering a friendly, personal service and communicating honestly with our customers. Located in state-of-the-art premises in Broadbridge Heath, we are proud to stock a range of new and used Škoda cars from our impressive showroom and spacious forecourt. Our team of technicians are on hand to offer expert advice, car servicing, maintenance and tyres for your Škdoa or any used car.
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The Wait for Semiconductor Chips
... The Wait for Semiconductor Chips ...
Roskilde, Denmark
1-10 Employees
1981
Connected is the forum where you can engage with others. In this list you will find the lates news about product introductions, updates and much more. Wherever there are processes to control and optimize there is a need for smart automation solutions. Support the ongoing transition to sustainable energy sources with new open technologies, products and software. Provide secure technological solutions for critical infrastructure assets and public transport. The customer company is the world’s largest contract manufacturer of semiconductor chips and one of the largest companies in Taiwan. Beijer Electronics and Korenix have collaboratively provided a digitalization solution for the company’s production process. The customer has rolled out a facility digitalization plan to enhance their production capability by use of big data and predictive maintenance.
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Beijer Electronics
... Digitalization of the world’s largest manufacturer of semiconductor chips ...
Berlin, Germany
11-50 Employees
2010
A working relationship is a first and foremost a relationship built on trust and respect.
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OSRAM Opto Semiconductors led chip plant opening in kulim made by prio Event Management
... OSRAM Opto Semiconductors led chip plant opening in kulim made by prio Event ...
New Taipei, Taiwan
51-100 Employees
2004
Find out our robust and reliable products which includes industrial Ethernet switches, PoE switches, wireless and cellular solutions, etc. Korenix products had solved problems and help built reliable networking solutions in different industries. Beijer Electronics is a BEIJER GROUP company. Beijer Group has a sale over 1.6 billion SEK in 2021 and is listed on the NASDAQ OMX Nordic Stockholm Small Cap list under the ticker BELE. www.beijergroup.com. See where we will visit next and read more about our latest news.
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Digitalization of the world’s largest manufacturer of semiconductor chips
... Digitalization of the world’s largest manufacturer of semiconductor chips ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Semiconductor Chips
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 79 |
| Amount of suitable service providers | 53 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1973 |
| Youngest suiting company | 2020 |
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Semiconductor chips, often referred to as integrated circuits or microchips, are small electronic devices composed of semiconductor materials, primarily silicon, which possess the unique ability to conduct electricity under certain conditions. These chips are the cornerstone of modern electronics, embedded within a myriad of devices from smartphones and computers to automobiles and household appliances. The fabrication of semiconductor chips involves a sophisticated process known as photolithography, where layers of materials are added, altered, or removed on the silicon wafer's surface in a highly controlled environment. This process allows for the creation of millions of transistors on a chip, significantly enhancing computational power and efficiency. The role of semiconductor chips within the technology sector is monumental, driving the advancement of digital innovation and connectivity. They are pivotal in the miniaturization of electronic devices, enabling the production of compact, portable gadgets with powerful computing abilities. Furthermore, as the backbone of digital circuits, these chips facilitate the processing and storage of data, contributing to the exponential growth of the information technology and telecommunications industries. Their impact extends beyond consumer electronics, playing critical roles in sectors such as healthcare, automotive, and aerospace, where they are instrumental in the development of medical devices, electric vehicles, and satellite communications, respectively.
1. Energy Efficiency
Semiconductor chips are renowned for their low power consumption compared to traditional electronic components. This efficiency not only extends the battery life of portable devices but also contributes to a smaller carbon footprint, making them a more environmentally friendly option.
2. Miniaturization Capabilities
The compact size of semiconductor chips enables the development of smaller, more portable devices without compromising on performance. This miniaturization capacity is crucial for modern technology, allowing for the innovation of slim smartphones, wearable devices, and advanced medical equipment.
3. High Speed
Semiconductor chips operate at exceptionally high speeds, processing vast amounts of data much faster than older electronic components. This rapid data processing capability is essential for the performance of high-speed computers, advanced gaming systems, and real-time data analysis tools.
4. Reliability
Due to their solid-state nature, semiconductor chips are highly reliable, with a lower risk of mechanical failure compared to alternatives. Their durability and longevity are advantageous for critical applications in aerospace, automotive, and medical industries, where consistent performance is vital.
While evaluating the different suppliers make sure to check the following criteria:
1. Production Capacity
Ensure the supplier has the capacity to meet your demand without compromising on quality. This involves assessing their manufacturing facilities and technologies.
2. Quality Assurance
Check for certifications like ISO 9001 that indicate a commitment to quality. Additionally, inquire about their testing processes for semiconductor chips.
3. Technology and Innovation
The supplier should be at the forefront of semiconductor technology, offering the latest and most efficient chips.
4. Supply Chain Robustness
Evaluate their supply chain for reliability and flexibility. A robust supply chain ensures minimal disruption in delivery.
5. Cost-Effectiveness
While quality is paramount, the supplier should also offer competitive pricing and value for money.
6. Customer Support and Service
Good customer service includes technical support, warranty policies, and responsiveness to inquiries, which are crucial for long-term relationships.
Semiconductor chips play a crucial role in the automotive industry, driving innovations in safety, infotainment, and vehicle automation. Advanced driver-assistance systems (ADAS) rely heavily on these chips for functions like collision detection and automatic braking. As vehicles become more connected and electric vehicles (EVs) gain popularity, the demand for high-performance semiconductor chips in the automotive sector continues to soar. In the realm of telecommunications, semiconductor chips are the backbone of infrastructure enabling high-speed data transmission and reliable connectivity. They are essential components in routers, switches, and base stations that support the expanding capabilities of 5G networks. This ensures faster internet speeds, lower latency, and the ability to connect more devices simultaneously, facilitating the growth of IoT applications. The healthcare industry benefits from semiconductor chips through their integration into medical devices and equipment. Chips are embedded in diagnostic imaging systems, portable monitoring devices, and wearable health monitors, enhancing patient care and enabling remote health monitoring. This technology allows for quicker diagnoses, improved treatment monitoring, and the development of personalized medicine, showcasing the chips' versatility and critical role in advancing medical technologies. In the manufacturing sector, semiconductor chips are at the heart of automation and control systems. They enable smarter manufacturing processes through the use of sensors and robotics, improving efficiency, reducing costs, and increasing safety. This digital transformation, driven by the Industrial Internet of Things (IIoT), relies on the processing power and reliability of semiconductor chips to optimize production lines and supply chain management, demonstrating their value in enhancing operational capabilities.
Semiconductor chips, the backbone of modern electronics, have reached a high Technology Readiness Level (TRL), typically positioned at TRL 9, indicating that they are fully mature and have been proven in actual mission environments. This advanced TRL reflects decades of research, development, and refinement. The journey of semiconductor chips to this stage is marked by continuous innovation in materials science, photolithography, and electronic engineering, enabling the production of increasingly small, efficient, and powerful chips. Key technical milestones include the development of silicon-based transistors, the integration of millions of these transistors into single chips using complex circuit design techniques, and the advent of extreme ultraviolet lithography (EUV) for finer patterning. Moreover, the semiconductor industry's ability to adhere to Moore's Law, which predicts the doubling of transistors on a chip approximately every two years, has propelled these chips to their current state of ubiquity and indispensability in a wide range of applications, from simple electronic devices to complex computing systems and high-tech consumer products. The high TRL of semiconductor chips underscores their reliability, the culmination of exhaustive testing, and iterative improvements ensuring they meet the rigorous demands of real-world applications.
In the Short-Term, advancements in semiconductor chips are likely to focus on enhancing energy efficiency and processing power. Manufacturers are pushing towards smaller nanometer designs, aiming for 5nm and 3nm technology nodes. This shift promises significant improvements in computational speed and power consumption, making devices more efficient and environmentally friendly. Additionally, there's an increasing emphasis on developing chips that support AI and machine learning, tailored for applications ranging from smartphones to autonomous vehicles. The Mid-Term phase is expected to usher in the integration of advanced materials like gallium nitride (GaN) and silicon carbide (SiC), which offer superior performance over traditional silicon in power applications. These materials enable semiconductor chips to operate at higher voltages, temperatures, and frequencies, opening up new possibilities in power electronics, renewable energy systems, and electric vehicles. Furthermore, the industry is likely to see a rise in the adoption of 2.5D and 3D packaging technologies, which allow for higher-density chip stacks, improving performance and reducing the footprint of semiconductor devices. Looking towards the Long-Term, the horizon is set for the emergence of quantum computing chips and the proliferation of nanotechnology in semiconductors. Quantum chips, leveraging the principles of quantum mechanics, promise exponential speed increases over traditional computing methods for certain tasks. Meanwhile, advancements in nanotechnology are poised to revolutionize chip manufacturing by enabling atomic-level precision in semiconductor structures. These innovations are expected to break current computational barriers, offering unprecedented processing capabilities and opening new frontiers in computing and electronics.
Some interesting questions that has been asked about the results you have just received for Semiconductor Chips
What are related technologies to Semiconductor Chips?
Based on our calculations related technologies to Semiconductor Chips are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Who are Start-Ups in the field of Semiconductor Chips?
Start-Ups who are working in Semiconductor Chips are FireAlps
Which industries are mostly working on Semiconductor Chips?
The most represented industries which are working in Semiconductor Chips are Manufacturing, Science and Engineering, Hardware, Information Technology, Consumer Electronics
How does ensun find these Semiconductor Chips Manufacturers?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
