Aug 31, 2013 : Along with mature devices used for new applications (e.g. pressure for LBS), innovation in new MEMS devices is still active and will continue to strongly participate to the MEMS market growth in the next 5 years.
This report on emerging MEMS looks at the new MEMS technologies that, as a group, are expected to represent almost 10% of the value of the general MEMS market by 2018. The market will be mainly driven by medical applications – especially pharmaceutical research through DNA sequencing – and by consumer applications through innovations in mobile phones. Most of this growth is expected to take place after 2015, once products have been qualified and are suitable for volume manufacturing.
Emerging MEMS challenge: Dream vs. Reality
After several decades of commercial existence, MEMS devices can now rely on a solid foundation for new developments. The time from R&D to commercialization has shrunk over the years, from 21 years for pressure sensors back in the 60’s to 11 years for oscillators. MEMS devices have been successful in fields with very high volumes, and have been proven capable of generating big profits. When you look at MEMS devices, you think about large volumes, and inexpensive devices; all aiming at the golden nugget that is the consumer market. This is where emerging MEMS devices try to go!
An important barrier still exists for new devices: the cost reduction step before commercial rampup. Most of the emerging MEMS companies are fabless start-ups that rely on the large worldwide MEMS foundry capabilities. These start-ups with new MEMS-based devices such as micro speakers, autofocus or micro-fuel cells aim at the consumer market for their commercial entrance. But this is without going through the usual “small volumes” phase in niche markets that can enable progressive cost reduction and product maturation. Those companies now face a great challenge: the price pressure of the consumer market.
This ambition to go fast and rapidly target large volumes induces numerous supply chain challenges for those emerging MEMS start-ups. They want their foundry partner to be able to provide fast process transfer, to have fast yield improvement, and provide full solutions from front-end to packaging. This is one of the reasons why some MEMS developments, long awaited for, are still a few years away from mass commercialization.
On the other hand, some emerging technologies – often developed by larger companies that are already involved in the targeted field – go through the standard ramp-up process, targeting niche applications that require MEMS advantages while improving their product to enlarge their spectrum. This is what can be seen with MEMS switches for example. They address niche markets of pill cams or ATE (Automated Test Equipment) for now, but can potentially address the billion units market of reed switches in the longer term. Nevertheless those examples tend to remain marginal.
Emerging MEMS driving forces
We have identified a total of 15 emerging MEMS technologies that are supposed to enter the market within the next 5 years, with – or without – commercial success. Most of those developments have been motivated by the same 3 forces:
The smart phone industry
The home-care industry
The Internet of things
This implies that the promise of a potential large market is a strong driver for
today’s developments. Too bad for smaller industries that could also benefit
from MEMS unique functionalities, but investments follow the buzz. MEMS
development still requires strong backing to survive the at-least-10-years
between R&D and first commercialization.
The future for MEMS devices
The MEMS industry has a strong future; despite the global economic downturn, innovation is still there. Nevertheless what must be understood is that commercial success takes some time, and there is no fast lane to success. Even though development time gets shorter and shorter, emerging technologies will still have to go through the usual cost reduction phase, and wait for market acceptance. The MEMS industry is one of those rare high-tech industries where innovation needs time.
OBJECTIVES OF THE REPORT
Discover a market and technical overview for new MEMS devices:
Chemical, radiation sensors
Micro fuel cells
For every device, get a description of the device, the current state of the art, the technical/economic challenges, the players, market forecast.
WHAT’S NEW COMPARED TO LAST EDITION?
We identified new MEMS devices: chemical, radiation sensors, scanning mirrors,
Si microfluidics, switches, touch screens, AOC MEMS, micro fuel cells
We removed MEMS that have crossed the gap from R&D to commercialization: electronic compasses, micro bolometers, micro structures, micro tips, oscillators
We kept in the 2013 edition those MEMS devices from the 2010 edition that are not yet in mass production: autofocus, energy harvesting, micro displays, micro speakers, ID MEMS
KEY FEATURES OF THE REPORT
Understanding of the new MEMS devices under development and players involved
Market data on new MEMS developments. Each Emerging MEMS has been quantified in market value and units for 2012 through 2018
Identification of new MEMS companies that could contribute to the MEMS market growth in the future
Technical, economical & market challenges / competing solutions faced by these new devices
COMPANIES CITED IN THE REPORT
AAC, Abbott, Advanced Micro Sensors, AKM, Analog Devices, APM, Audiopixel, Avago Technologies, Bluechiip, Boehringer Ingelheim Microparts, Cambridge CMOS, Cambridge Mechatronics, Canon, Coto Technology, Debiotech, DelfMEMS, Denso, Digital Optics Corp., DNP, Flir Systems, Fraunhofer IPMS, Freescale Semiconductor, GE Sensing, Global Foundries, Hewlett Packard, Hiperscan, Honeywell, ht micro, Infineon Technologies, Innoluce, InvenSense, Ion Torrent, Jenoptik, Kaiam, Kionix, Knowles Electronics, Konica Minolta, Lemoptix, LensVector, Lexmark, Lilliputian Systems, Luxtera, Measurement Specialties Inc., MEMS Vision, MEMSIC, Mezmeriz, Micralyne, Micrel, Microgen, Micropelt, Microvision, Mirrorcle, MuOptics, Murata, NextInput, Nippon Signal, NXP, Omron, Opus Microsystems, Oxford Nanopore Technology, Panasonic, Pixtronix, Polight, Preciseley Microtechnology, Qualcomm, Robert Bosch, Sand9, Seiko Epson, Semefab, Sensata, Sensimed, Sensirion, Sensonor, Sharp, Silex Microsystems, Silicon Biosystems, SMIC, Sony, STMicroelectronics, Synkera, Teledyne DALSA, Tessera, Texas Instruments, Thermo Fisher Scientific, Touch Microsystems, TowerJazz, Triquint, Tronics, TSMC, Ulis, UMC, UTC Aerospace, Varioptic, VTT, Wavelens, WiSpry, X-FAB...
For more information kindly visit : http://www.bharatbook.com/consumer-electronics-market-research-reports/emerging-mems-2013.html
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