Products/Services for MEMS Magnetron
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Magnetrons - (21 companies)Magnetrons are high-powered vacuum tubes used to generate microwave signals. There are many types of products. Examples include: cavity magnetrons cylindrical magnetrons circular magnetrons rectangular magnetrons sputtering magnetrons... -
MEMS Processing Equipment - (41 companies)MEMS processing equipment is used to create micro-electro-mechanical systems (MEMS) sensors and wafers. MEMS processing equipment is used to create micro-electro-mechanical systems (MEMS) sensors and wafers. MEMS processing equipment includes... -
MEMS Devices - (65 companies)MEMS devices integrate mechanical components, electronics, sensors and actuators on a semiconductor material, chip, or wafer. MEMS devices integrate mechanical components, electronics, sensors, and actuators on a semiconductor material, chip...
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MEMS Foundry - (68 companies)MEMS foundry services suppliers design and manufacture microelectromechanical devices on a contract basis, in prototype to production quantities. MEMS foundry service suppliers design and manufacture microelectromechanical devices on a contract... -
Thin Film Equipment - (311 companies)Thin film equipment uses vacuum processing for the modification of surfaces using CVD, PVD, plasma etching, and thermal oxidation or ion implantation. -
Oscillators - (647 companies)Oscillators are devices that are used to generate repetitive signals. They produce output signals without an input signal. There are two major types of electronic oscillators: harmonic oscillators and relaxation oscillators. Harmonic oscillators produce sine wave outputs. Relaxation oscillators produce non-sine wave outputs such as square wave, rectangular wave, and sawtooth outputs.
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Antennas - (1281 companies)Antennas are structures or devices used to collect or radiate electromagnetic waves.
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Semiconductor Cluster Tools - (58 companies)Semiconductor cluster tools and equipment are used to process semiconductor wafers for the production of microelectronic components.
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Transformers - (2112 companies)Transformers are electrical devices that are designed to transfer energy from one circuit to another by electromagnetic induction. They are used typically to increase or decrease voltage as it passes from one side of the device through the other.
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Thin Film Sources - (72 companies)Thin film sources consist of magnetrons, evaporation thermal units, ion beams and other sources that produce deposition materials (vapors or ions) in a thin film system. Thin film sources consist of magnetrons, evaporation thermal units, ion beams...
Product News
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Tronics Microsystems
Inertial MEMS Foundry Inertial MEMS Foundry: Navigation-Grade MEMS Sensors. Tronics ' MAGELAN Inertial MEMS Foundry is engineered for high-performance inertial sensors used in aerospace, automotive, and tactical applications. Our SOI MEMS platform combines advanced etching, high vacuum packaging, and proven manufacturing expertise to deliver custom inertial MEMS with tunable Q-factors. Ideal for navigation-grade systems, our foundry service supports scalable production with over 1 million units delivered. Learn more (read more) -
Tronics Microsystems
Seismic MEMS Foundry Seismic MEMS Foundry: Precision Geophone Sensor Manufacturing. Tronics' MAGELAN Seismic MEMS Foundry specializes in high-performance geophone and seismic sensors. Our technology platform supports custom vibration MEMS with advanced etching and tunable Q-factor processes, ideal for demanding geophysical applications. With proven manufacturing know-how and high vacuum capabilities, we enable scalable production of precision seismic sensors. Explore Seismic MEMS Foundry. (read more) -
Tronics Microsystems
Vibration MEMS Foundry Vibration MEMS Foundry: Smart Sensors for Predictive Maintenance. Tronics' MAGELAN Vibration MEMS Foundry empowers predictive maintenance and vibration monitoring applications with high-performance custom MEMS sensors. Our SOI-based platform integrates advanced etching and vacuum packaging to deliver tunable Q-factors and exceptional sensitivity. Designed for industrial reliability, our foundry service supports scalable production of smart vibration sensors. Discover Vibration MEMS Foundry. (read more) -
Tronics Microsystems
Gyro MEMS Foundry Gyro MEMS Foundry: Tactical-Grade Gyroscopes Made Custom. Tronics' MAGELAN Gyro MEMS Foundry delivers high-performance gyroscope solutions tailored for aerospace and automotive systems. Our proprietary SOI MEMS platform integrates advanced etching and vacuum packaging to achieve tunable Q-factors and exceptional stability. Whether you need tactical-grade or custom gyros, our foundry service ensures precision and scalability for demanding inertial navigation needs. Discover the Gyro MEMS Foundry. (read more) -
SiTime Corporation
MEMS Oscillators Fundamentals Overview. This class introduces the operating principles, manufacturing process, and key performance benefits of SiTime MEMS resonators and oscillators for timing applications. It also reviews the key differences between SiTime MEMS and legacy quartz-based technology. Learning Objectives. What is a clock, resonator, and oscillator?. What is an XO, TCXO, and OCXO?. Operating principles of SiTime MEMS vs. quartz resonators. Fabrication of SiTime MEMS resonators. Assembly and packaging technology... (read more)Browse Oscillators Datasheets for SiTime Corporation -
Tronics Microsystems
Accelero MEMS Foundry Accelero MEMS Foundry: Custom High-Performance Accelerometers. Tronics' MAGELAN Accelero MEMS Foundry offers a cutting-edge platform for developing custom, high-performance accelerometers. Designed for automotive and industrial applications, our SOI-based technology features advanced etching and tunable Q-factor processes, enabling best-in-class inertial navigation performance. With over 1 million units produced, our foundry service ensures reliability, scalability, and precision. Explore... (read more) -
Tronics Microsystems
Tronics’ MEMS Foundry Services Doing business with Tronics. Tronics will take on your MEMS project and bring it to production, whether it is a mature product or still a concept requiring design support from us. Our goal is to establish reliable supply chains for your MEMS products. We have strong experience industrializing complex MEMS with special metals, sensitive DRIE, Wafer level packaging, nano-imprint, glass processing and SOI. We have adopted an open collaborative approach to reduce your time to market and minimize... (read more) -
SiTime Corporation
MEMS Clock Generators Cascade TM MEMS-based clock generators feature 4 independent Frac-N PLLs, 4 inputs, up to 10 outputs, wide frequency range from 8 kHz to 2.1 GHz, and a rich set of programmable features in a small 9 x 9 mm package. By integrating the MEMS resonator, these devices enable designers to create a clock-system-on-a-chip and eliminate all quality and reliability issues associated with traditional quartz-based clocks. Always-accurate clock synthesis by eliminating crystal capacitive mismatch... (read more)Browse IC Clocks Datasheets for SiTime Corporation -
Avantier Inc.
High-Performance MEMS Mirrors MEMS Mirrors vs. Galvo & Solid-State Scanners. A comparison designed to help engineers choose the right solution. Feature. MEMS Mirrors. Galvo Mirrors. Solid-State Scanners. Speed. Very high (up to 30 kHz). Moderate. Low -moderate. Size. Ultra-compact. Larger. Compact. Power Use. Very low. High. Low. Scan Angle. Moderate. Large. Limited. Ideal For. LiDAR, AR/VR, OCT, micro-scanning. Laser marking, engraving. Depth sensing, lidar-lite. Custom MEMS Mirror Solutions. Avantier specializes in custom... (read more)Browse Optical Mirrors Datasheets for Avantier Inc. -
SiTime Corporation
MEMS-based jitter cleaners Cascade TM MEMS-based jitter cleaners feature 4 Frac-N PLLs with an integrated VCO and loop filter, flexible input-to-output frequency translation from 1 input to 10 outputs, wide frequency range from 8 kHz to 2.1 GHz, and a rich set of programmable features in a small 9 x 9 mm package. By integrating the MEMS resonator, these devices enable designers to create a clock-system-on-a-chip and eliminate all quality and reliability issues associated with traditional quartz-based clocks... (read more)Browse Network Synchronization Products Datasheets for SiTime Corporation
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Summary of
Research
This research focuses on a new magnetron MEMS -based design, where the anode is located at the center of the magnetron, surrounded by a cathode ring.
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DRAFT
This research focuses on a new magnetron MEMS -based design, where the anode is located at the center of the magnetron, surrounded by a cathode ring.
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MRS Online Proceedings Library - Dc Magnetron Reactive Sputtering of Low Stress Ain Piezoelectric Thin Films for Mems Application - Cambridge Journals Online
• Dc Magnetron Reactive Sputtering of Low Stress Ain Piezoelectric Thin Films for Mems ApplicationDc Magnetron Reactive Sputtering of Low Stress Ain Piezoelectric Thin Films for Mems Application .
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Items where School is "School of Computing and Engineering > Electron Microscopy and Materials Analysis" - University of Huddersfield Repository
Annealing Cathodoluminescence Crystallisation Dwell time EDX Electron microscopy Excavated textiles Focused ion beams full face erosion magnetrons Fullerenes Ion implantation damage Ion sputtering Kerameikos Lattice solitons magnetron sputtering MEMS metal targets methyl orange Nano-fretting Nanomechanics Nanostructures Nanotribology photocatalytic coatings powder targets…
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RF magnetron sputtered aluminum oxide films for MEMS
Index Terms— Aluminum oxide, MEMS , RF magnetron sputtering, Microcantilever .
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Integrated microsensors and systems
In order to enhance the adhesion strength between PPy membrane and the gate electrode, a layer of platinum with the thickness of 100 nm was deposited onto the ISFET gate, REFET gate, and PRE by a MEMS process of magnetron sputtering.
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Mechanical and structural properties of RF magnetron sputter-deposited silicon carbide films for MEMS applications
38 1979–89 [17] Singh R, Kumar M and Chandra S 2007 Growth and characterization of high resistivity c-axis oriented ZnO films on different substrates by RF magnetron sputtering for MEMS applications J. Mater.
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Metal-based piezoelectric microelectromechanical systems scanner composed of Pb(Zr, Ti)O3 thin film on titanium substrate
(2006) Characterization of Pb(Zr, Ti)O3 thin films deposited on stainless steel substrates by RF- magnetron sputtering for MEMS appli- cations.
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NAVAL
POSTGRADUATE
SCHOOL
Scaling issues can be eliminated by adopting a smaller magnetron structure through MEMS fabrication techniques (thus securing a much smaller radius of curvature for electron acceleration); however, other technical issues remain.
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Designing piezoelectric films for micro electromechanical systems
[43] T. suzuki, I. Kanno, J. J. loverich, H. Kotera, and K. Wasa, “char- acterization of pb(Zr,Ti)o3 thin films deposited on stainless steel substrates by rF magnetron sputtering for mEms applications,” Sens. Act.
