Broadening its product offering and furthering its expansion into the consumer electronics market, VTI Technologies announced at Electronica 2010 in Munich its entrance into the microelectromechanical system (MEMS) timing device market.
For MEMS pioneer VTI, timing devices represent a natural step forward in a highly interesting market. "In an analysis on emerging MEMS products, Yole Developpement puts MEMS oscillators as having the highest market value in 2015 and the highest compounded annual growth rate from 2009 through 2015. The forecasted value of MEMS oscillators in 2015 is $644.9 million, from $7.9 million in 2009," says Mr. Sten Stockmann, Vice President, VTI Consumer Electronics.
VTI's timing device products will leverage VTI's proprietary 3D MEMS and packaging technology. VTI currently uses its chip-on-MEMS technology to produce chip-scale packages for its consumer-based sensors. This same technology is being used for oscillators in a reverse configuration of MEMS-on-chip.
Miniaturization Favours MEMS Technology
Quartz crystal, the most common piezoelectric resonator used in timing devices, is facing clear difficulties in overcoming the challenges of miniaturization in the most advanced consumer devices. Oscillation stability and frequency sensitivity are negatively impacted as the size of the quartz resonator shrinks, which is partially due to the increased crystal impedances of these smaller resonators. Small quartz resonators are also more susceptible to shock-induced frequency deviations as smaller packages leave less tolerance for mechanical vibration.
Silicon MEMS resonators are a viable alternative to quartz crystals. Tiny resonators can be etched in silicon, offering a product that is miniature in size and low cost, given the batch semiconductor manufacturing processes on large (8 in.) wafers. In addition, MEMS resonators are very robust to shock and vibration.
VTI's Solution Offers Cost-Efficiency, Small Size and Superior Performance
The "MEMS resonator technology currently available on the market suffers from poor initial accuracy and a wide temperature drift. A typical MEMS resonator can be off by 10,000 ppm from its target frequency. On top of this, a MEMS resonator has drift over temperature of approximately 30 ppm per degree Celsius, or an additional 3000 ppm over a standard temperature range of –20°C to 70°C."
With this type of resonator technology, complex ASICs have to be designed to compensate for the frequency inaccuracies, adding size, cost, power, and noise. The result is an oscillator that offers minimal cost benefits and no competitive differentiation.
VTI's technology overcomes these common hurdles and offers performance more comparable to traditional quartz based oscillators. VTI will launch its first timing device product in early 2011.
VTI Technologies is a leading supplier of acceleration, inclination, and angular motion sensor solutions for transportation, medical, instrument, and consumer electronics applications. VTI develops and produces silicon-based capacitive sensors using its proprietary 3D MEMS technology.
See VTI Technologies at Electronica 2010 in Munich, Germany, November 9–12, 2010, Hall A2, Booth 428.