MEMS

[memz or ¦em¦ē¦em′es]

(engineering)

MEMS

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MEMS

(MicroElectroMechanical Systems) Tiny mechanical devices that are built onto semiconductor chips and are measured in micrometers. In the research labs since the 1980s, MEMS devices began to materialize as commercial products in the mid-1990s. They are used to make pressure, temperature, chemical and vibration sensors, light reflectors and switches, as well as accelerometers for vehicle airbags, smartphones, tablets and games (see accelerometer).

MEMS technology is also used to make inkjet print heads, microactuators for read/write heads and all-optical switches that reflect light beams to the appropriate output port.

MEMS and MOEMS
When optical components are included in a MEMS device, it is called a micro-opto-electromechanical system (MOEMS). For example, adding a photonic sensor to a silicon chip constitutes a MOEMS device. See micromachine, MEMS mirror, DLP and optical switch.

MEMS vs. Nanotechnology
Sometimes MEMS and nanotechnology are terms that are used interchangeably, because they both deal with microminiaturized objects. However, they are vastly different. MEMS deals with creating devices that are measured in micrometers, whereas nantotechnology deals with manipulating atoms at the nanometer level.

MEMS-based Optical Switch

In an all-optical switch, MEMS mirrors reflect the input signal to an output port without regard to line speed or protocol. This technology is expected to be the dominant method for building photonic switches.

Sample Micromachines

Microfabrica's EFAB system was the first MEMS foundry process to accept CAD files as input, turning customer designs into micromachines much faster than traditional methods. EFAB builds the devices one metal layer at a time. In this image, the square at the top is a microfluidics device with internal passageways used for a "lab on a chip." The multi-arm device (center) is a fuel injection nozzle. Bottom left is an accelerometer, and bottom right is an inductor used in RF circuits. (Image courtesy of Microfabrica Inc., www.microfabrica.com)

MEMS-Based Accelerometer

MEMSIC's dual-axis thermal accelerator is a MEMS-based semiconductor device that works conceptually like the air bubble in a construction level. The square in the middle of the chip is a resistor that heats up a gas bubble. The next larger squares contain thermal couples that sense the location of the heated bubble as the device is tilted or accelerated. (Image courtesy of MEMSIC, Inc.)

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References in periodicals archive

Microelectromechanical systems (MEMS) are micrometer-scale devices that integrate electrical and mechanical elements with sizes ranging from micrometers to millimeters.

Demand for Accurate and Automated Care to Drive Microelectromechanical Systems in Health Care Industry Market to USD 7.8 Billion by 2020 - iHealthcareAnalyst, Inc.

With contributions by researchers from around the world, this volume edited by Gauthier (Centre National de la Recherche Scientifique) and Regnier (head, micromanipulation team, Institut des Systemes Intelligents et Robotique) covers state of the art techniques for the assembly of microelectromechanical systems (MEMS) through the use of robots.

Robotic micro-assembly

The Qualcomm MEMS (Microelectromechanical systems) Technologies group will now report to Steve Mollenkopf, who is president of the company's core CDMA (Code-Division Multiple Access) Technologies group.

Qualcomm reorganizes as COO Lauer leaves

Colton Medal for Research Excellence recognizes excellence in research leading to new understanding and novel developments in microsystems and related technologies, such as Photonics/Optoelectronics, Microelectromechanical Systems (MEMS), Microelectronics, Microfluidics and Embedded Software, or the application of microsystems and related technologies in Canada.

Tech officer honored

This paper presents the technological limits of rapid prototyping by material accretion in order to obtain microelectromechanical systems.

A restricting approach of the rapid prototyping by material accretion

The centerpiece is use of microelectromechanical systems (MEMS), a type of nanotechnology, in data collection equipment.

The new world of scanning, according to Intermec

Chapter 5 expands on the solid-state technology available in the 21st century and includes heterojunction bipolar transistors, radio frequency integrated circuits (RFIC) and microelectromechanical systems (MEMS).

Microwaves and Wireless Simplified, Second Edition

Michael Gaitan is an electrical engineer and the Project Leader of the MicroElectroMechanical Systems (MEMS) Project, Semiconductor Electronics Division, NIST Electronics and Electrical Engineering Laboratory.

Embedded microheating elements in polymeric micro channels for temperature control and fluid flow sensing

Microelectromechanical systems (MEMS) promises exciting solutions for a myriad of applications by allowing the micro-scale integration of mechanical elements with supporting integrated circuits.

SUSS MicroTec teams up with IMEC for developing state-of-the-art bonding methods of MEMS packaging

And as innovations like microelectromechanical systems (MEMS), Wi-Fi, ultra wideband and others mature, the possibilities expand.

Great X-pectations: Executable, extended--new Internet paradigm could change the user experience and connect us with the real world. (Business of Technology)

Nano-structured materials like the new copper could have applications in microelectromechanical systems, for which suitable alloys may be more difficult to produce and may be more pr one to corrosion, and in biomedical devices, where pure metals are preferable to alloys that could expose the body to toxic metallic or non-metallic elements.

Johns Hopkins University. (Technology Spotlight)