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London, United Kingdom
1-10 Employees
2014
We serve as a platform where senior executives in technology, manufacturing and R&D from various semiconductor companies, technology providers, and related industries gather to exchange information, shape strategies, and discuss the industry’s direction. Our advisory board members include leading experts from across the semiconductor, MEMS and sensors sectors including 5G, IoT, advanced packaging, AI, automotive electronics, and power semiconductors. Vice President, Manufacturing, Supply Chain and Operations Managing Director, Intel Malaysia.
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Our advisory boards and senior team are leaders from across the Semiconductor, MEMS & Sensors supply chain
... ISES Global’s senior team and advisory boards boast leaders from the Semiconductor, MEMS & Sensors industries ensuring world class events, conferences, forums and webinars. ...
Mumbai, India
11-50 Employees
2011
Nanosniff’s focus has been on indigenously developing & commercializing, MicroSensors & Instrumentation that have applications in Sensing Chemicals (particularly Explosives) & BioChemicals (particularly Cardiac Markers). NanoSniff specializes in bridging the gap between cutting edge research in Nanotechnology and sustainable device manufacturing through agile microfabrication process scale-up, increasing device yield and reliability, reducing manufacturing costs and making devices commercially viable and market ready. NanoSniff products cater to a wide variety of business verticals and application areas, namely:. NanoSniff Technologies is a MEMS Fabrication and Product R&D organization incubated at Society for Innovation and Entrepreneurship (SINE) in Indian Institute of Technology Bombay. NanoSniff is a commercial spin-off from the Center of Excellence in Nanoelectronics (CEN) at IIT Bombay and was formed to productize various technologies developed as a part of research work conducted at CEN. NanoSniff is the first Indian company to successfully commercialize to microcantilever and microheater sensor technologies and sell these devices off-the-shelf. We are using Omnicant and Microcantilevers for research and education purpose at our institute. Currently we are building up equipment to read out the Microheaters and Microcantilevers.We have found their pre-sales discussions about the product and the technology, and their post-sales service to be helpful and highly satisfactory.
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Setup your MEMS Sensors Laboratory
... Setup your MEMS Sensors ...
Vantaa, Finland
101-250 Employees
1985
We are part of the global technological development and involved in building a better future. We are constantly developing our operations and tailoring solutions according to our customer needs. Okmetic, established in 1985, is an essential link in the value chain of the semiconductor industry and the entire electronics industry. Okmetic provides its customers with tailor-made solutions that boost the competitiveness and profitability of their products. Okmetic’s large selection of silicon wafers provides a platform for even the most demanding of applications. Our products are based on high technological expertise that brings added value to the customer, innovative product development, and production process that is efficient, high-quality, and sustainable. We are an integral part of the semiconductor value chain and a technological pioneer in the silicon industry. We are constantly seeking new employees to join us, semiconductor and other professionals.
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Okmetic is attending MEMS & Sensors Congress on 1–2 November
... Okmetic is sponsoring the MEMS & Sensors event to be held in San Jose, California on 1–2 November, 2017. Theme of the event is MEMS & Sensors Systems: Creating sixth senses. The first session on the… ...
Birmingham, United States
11-50 Employees
2017
Our mission is to accelerate the development of sensors, MEMS, and microtechnologies for the advancement of civilization and creation of market value. We are actively seeking strong candidates to join our team. We also have been hosting industry-leading conferences covering key MEMS, sensors, and microtechnologies topics, including strategic and business discussions. Mike Pinelis is the President and CEO of Microtech Ventures, a global firm based in Birmingham, Michigan focused on venture capital, merchant banking, and M&A advisory services for MEMS, sensors, and microtechnology companies. Mike is a member of the Michigan Angel Fund (MAF), the largest angel group in Michigan with over 100 members. Prior to that, Mike founded and was the CEO of MindCruiser, a company specializing in developing online intellectual property marketplaces that was sold to Akiva Corporation. Prior to leading a start-up, Mike managed a Michigan state-funded program developing strategic improvement plans for dozens of mostly small manufacturing firms. Paul served as the Executive VP, Sales and Marketing at Exar Corporation, a public semiconductor company specializing in analog and mixed signal semiconductor devices.
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Microtech Ventures – Venture Capital and M&A Advisory Services for MEMS, Sensors, and Microtechnology Companies
... Microtech Ventures – Venture Capital and M&A Advisory Services for MEMS, Sensors, and Microtechnology ...
St. Gallen, Switzerland
1-10 Employees
2015
Mechmine and Yazzoom announced that they have entered into a partnership agreement to offer together a broad portfolio of advanced predictive maintenance solutions to the market. The combined offer of Mechmine and Yazzoom is suited for a broader range of predictive maintenance challenges.
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2D MEMS-based sensor
... MEMS sensors for slowly rotating ...
Ann Arbor, United States
1-10 Employees
2016
Micro-Inertial’s MEMS-based sensors offer reliability, precision, low power consumption, and environmental tolerance in our high performance IMU, accelerometer, and gyroscope systems — meeting the demanding requirements of a broad range of commercial applications. Micro-Inertial delivers high sensor performance in rugged environments where vibrations, wide temperature ranges, and other conditions may cause less-specialized sensor systems to fail. Micro-Inertial’s specialized expertise in ruggedized, high-performance, MEMS-based inertial measurement units (IMUs) grew out of the pioneering work of Evigia Systems, Inc. Evigia spun off Micro-Inertial as a distinct IMU-focused company in 2016. Evigia and Micro-Inertial, LLC are headquartered in Ann Arbor, Michigan. Our innovative core technologies in ruggedized high-performance sensing, MEMS manufacturing, 3D packaging, and integrated electronics have been developed over nearly a decade of research and testing, with partial support from National Aeronautics and Space Administration (NASA), Air Force Research Laboratory (ARFL), and Defense Advanced Research Projects Agency (DARPA). Our solutions combine all-silicon, wafer-level sensors with micro-packaging technologies and leading integrated electronics in customized IMU system designs. This provides improved accuracy and inertial navigation capability in systems of minimal size, weight, power, and cost.
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Micro-Inertial – High-precision MEMS Inertial Sensors and IMUs
... Micro-Inertial – High-precision MEMS Inertial Sensors and ...
Doylestown, United States
51-100 Employees
Languages: English Chinese - Simplified Chinese - Traditional Japanese Spanish. TechPats is the world’s leading full-service Intellectual Property consulting firm. We bring together patent expertise, technical excellence, and business acumen across a wide range of markets and technologies. Philadelphia 101 S Easton Road, Suite 200 Glenside, PA 19038 Phone: (267) 880 – 1720. Ottawa 120 Iber Road, Suite 201 Ottawa, Ontario, K2S 1E9, Canada Phone: (613) 686 – 2091.
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Sensors / MEMS
... Sensors / MEMS – ...
Singapore, Singapore
1-10 Employees
2018
MEMSing is one of the pioneer deep tech startups from A*STAR-JCS Venture Co-Creation Partnership, where the entrepreneur and his team take the lead of the venture company with resource support from A*STAR and JCS Venture Lab’s venture building program. Based on MEMS hydrophone technologies, MEMSing has developed an underwater acoustic sensing module and system for water/oil pipeline leak detection. MEMSing is also exploring other applications of MEMS hydrophone technologies and collaborating with industry partners to develop new Industrial IoT solution with our capabilities in MEMS sensor design, fabrication, IoT communication, IoT security and data analysis. Microelectromechanical systems is the technology of microscopic devices, particularly those with moving parts. It is one of the core technologies for miniaturised sensors/actuators used in many IoT applications. Based on MEMS hydrophone technologies, MEMSing has developed an underwater acoustic sensing module for water/oil pipeline leak detection and other related technologies/know-how for data processing, analysis, security and the communication module for low power wide area network (LPWAN).
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MEMSing | Sensor Innovation | MEMS | IoT
... MEMSing is also exploring other applications of MEMS hydrophone technologies and collaborating with industry partners to develop new Industrial IoT solution with our capabilities in MEMS sensor design and data analysis. ...
Bremen, Germany
1-10 Employees
Since 1999, Protron Mikrotechnik develops micro-electro-mechanical systems - MEMS. After a successfull prototyping, we provide a customer specific manufacturing concept - from small to high-volume production.
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MEMS Sensors
... MEMS Sensors ...
Skoppum, Norway
51-100 Employees
1981
October 1st 2021 Sensonor became part of Safran Electronics & Defense and operating as Safran Sensing Technologies Norway. From 2012 until late 2021, Sensonor has been under ownership of a Swiss based investment group. Probably the most important reason for this success is the extremely low failure rate experienced by customers relaying on the products; less than 1 failure in 10 million parts shipped. The legacy of silicon based sensors at Sensonor goes even further back. Safran Sensing Technologies Norway designs and manufactures high-precision tactical grade gyro sensors, gyro modules and IMUs for demanding applications. Safran Sensing Technologies Norway operates its own wafer fabrication facility for production of the key sensor components in its products. Assembly, test and calibration are all in-house processes to secure the product performance. The company also offer MEMS Foundry Services that can provide you with access to decades of experience and mature MEMS processes.
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High precision MEMS sensors since 1965
... High precision MEMS sensors since ...
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Some interesting numbers and facts about the results you have just received for MEMS Sensor
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 137 |
| Amount of suitable service providers | 81 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1981 |
| Youngest suiting company | 2018 |
Micro-Electro-Mechanical Systems (MEMS) sensors are intricate devices that combine mechanical and electrical components on a miniature scale, typically fabricated using integrated circuit (IC) batch processing techniques. These sensors operate by detecting changes in the environment, which could include motion, pressure, temperature, or chemical composition, and converting these into electrical signals. As a cornerstone of modern technology, MEMS sensors have revolutionized various industries by enabling enhanced functionality, reliability, and precision in a compact form factor. In the automotive sector, for instance, they are critical for airbag deployment systems, providing timely activation in the event of a collision. In consumer electronics, such as smartphones and wearables, MEMS sensors facilitate features like screen rotation, step tracking, and navigation. Furthermore, in the healthcare field, they have enabled the development of portable diagnostic devices, offering real-time monitoring of vital signs with unprecedented accuracy. The impact of MEMS sensors extends to improving the efficiency and performance of systems in aerospace, environmental monitoring, and smart homes, making them indispensable in the advancement of technology and quality of life. Their ability to miniaturize and integrate complex mechanical and electrical functions has opened new horizons for innovation and application across a broad spectrum of disciplines.
1. Size and Portability
MEMS sensors are incredibly compact and lightweight, which makes them highly suitable for integration into portable devices such as smartphones, wearables, and medical monitoring gadgets. Their small footprint allows for the development of sleek, space-efficient products without sacrificing performance.
2. Energy Efficiency
Due to their miniature size, MEMS sensors consume significantly less power compared to their larger counterparts. This feature is particularly beneficial for battery-operated devices, extending their operational life and reducing the need for frequent recharging, which is a critical advantage in today's mobile-centric world.
3. Cost-Effectiveness
The fabrication process of MEMS sensors allows for mass production, which significantly reduces the cost per unit. This affordability enables manufacturers to incorporate these sensors into a wide range of products, from consumer electronics to automotive systems, without drastically increasing the end-user price.
4. High Precision and Sensitivity
MEMS sensors offer exceptional precision and sensitivity, making them ideal for applications that require accurate readings, such as navigation systems, environmental monitoring, and healthcare diagnostics. Their ability to detect minute changes ensures reliable performance in critical applications.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology Compatibility
Ensure the MEMS sensor technology aligns with your project requirements, including compatibility with existing systems.
2. Quality Certifications
Look for suppliers with recognized quality standards certifications, such as ISO 9001, to ensure reliability and performance.
3. Customization Capabilities
Determine if the supplier can tailor MEMS sensors to your specific needs, offering flexibility in design and functionality.
4. Supply Chain Reliability
Evaluate the supplier's ability to maintain consistent supply, considering their production capacities and logistics efficiency.
5. Technical Support
Assess the level of technical support provided, including pre-sale consultation and after-sale services, ensuring you have access to expert advice.
6. Cost-effectiveness
Compare pricing among suppliers to find competitive rates without compromising on quality or service.
7. Reputation and Reviews
Research customer feedback and industry reputation to gauge reliability and customer satisfaction levels.
MEMS sensors, standing for Micro-Electro-Mechanical Systems, have become integral components across a broad spectrum of industries due to their precision and reliability. In the automotive sector, these sensors are crucial for enhancing vehicle safety and performance. They are employed in airbag systems, where they detect sudden deceleration to deploy airbags timely, and in tire pressure monitoring systems to ensure optimal tire pressure, significantly improving road safety. In the healthcare industry, MEMS sensors play a pivotal role by powering devices that monitor vital signs, such as heart rate and blood pressure, with remarkable accuracy. They are also embedded in portable glucose monitors and inhalers, helping manage chronic conditions like diabetes and asthma by providing patients with real-time data to make informed health decisions. Another significant application of MEMS sensors is found within the manufacturing sector, where they are utilized for predictive maintenance of machinery. By monitoring equipment vibrations and temperatures, these sensors can predict mechanical failures before they occur, reducing downtime and maintenance costs. This ability to anticipate and mitigate issues before they escalate is invaluable for maintaining operational efficiency and prolonging equipment lifespan. Lastly, in the world of consumer electronics, MEMS sensors contribute to enhancing user experiences through features like gesture recognition, image stabilization in cameras, and accurate location tracking in smartphones and wearables. This wide array of applications underscores the versatility and importance of MEMS sensors in advancing technology across industries.
Microelectromechanical systems (MEMS) sensors have advanced significantly, currently standing at a high Technology Readiness Level (TRL) of 8 to 9. This classification is attributed to their extensive demonstration and successful integration into real-world applications, such as automotive airbag systems, smartphones, and medical devices. The principal technical reasons underpinning this high TRL include their proven capability for precise and reliable performance in diverse environments, alongside their miniaturized scale which allows for integration into various compact electronic devices without sacrificing functionality. Additionally, advancements in fabrication techniques have significantly reduced the cost of production, enhancing their accessibility and adoption across sectors. The maturity of MEMS sensors is also reflected in the development of robust standards and protocols for their design, testing, and implementation, ensuring consistency in quality and performance. This level of readiness is further supported by a vast body of research and development that has iteratively improved their efficiency, durability, and range of applications. As a result, MEMS sensors now occupy a critical role in the advancement of modern technology, enabling innovations that were previously unattainable.
In the short-term, MEMS sensor technology is poised for significant advancements in miniaturization and energy efficiency. Industry efforts are focused on reducing the size of these sensors while enhancing their performance, allowing them to be integrated into a wider range of portable and wearable devices. This phase is characterized by the development of ultra-low power sensors that can operate for extended periods on small batteries, making them ideal for applications in remote monitoring and the Internet of Things (IoT). Mid-term developments are expected to revolutionize the application of MEMS sensors in healthcare and automotive industries. Innovations will likely include advanced biometric sensors capable of monitoring a wide range of physiological parameters with high accuracy and reliability. For the automotive sector, the emphasis will be on improving safety and navigation through enhanced MEMS-based systems, such as more precise and reliable inertial measurement units. These advancements will contribute to the proliferation of autonomous vehicles and personalized health monitoring gadgets. Looking at the long-term horizon, the integration of MEMS sensors with artificial intelligence (AI) and machine learning (ML) technologies is anticipated to usher in a new era of smart systems. These systems will be capable of self-diagnosis and predictive maintenance, drastically reducing downtime and improving efficiency across various sectors, including manufacturing, agriculture, and smart cities. The fusion of MEMS sensors with AI and ML will enable real-time data processing and decision-making, facilitating the creation of truly intelligent environments that adapt to human needs and preferences.
