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Silicon Designs Announces Enhanced Bias and Scale Factor Over Temperature Performance for Model 2220 Series

April 30, 2018 by Silicon Designs

Silicon Designs announces the recently enhanced performance of its compact, low-mass, single-axis Model 2220 series.

Silicon Designs, a 100% veteran-owned and U.S.-based global industry leader in the design, development, and manufacture of highly rugged industrial-grade MEMS variable capacitive accelerometer chips, modules and supporting data acquisition, today announced the recently enhanced performance of its compact, low-mass, single axis Model 2220 series.

Design of the enhanced Model 2220 series incorporates Silicon Designs’ new proprietary high-performance MEMS chip, along with high-drive, low-impedance buffering, for industry-exclusive improved bias and scale factor over temperature performance. These specifications are unmatched among other industry MEMS VC accelerometer manufacturers yet are still offered by Silicon Designs at a highly competitive price point.

The Model 2220 series is available in seven unique models, with standard measurement ranges from ±2 g to ±200 g, each with a wide frequency response measuring down to zero hertz. Each accelerometer module is housed within an epoxy-sealed rugged anodized aluminum housing, with mounting via two M3 screws. Its lower mass (10 g) and compact size (1" x 1" x 0.3") can help to minimize mass loading effects, making it ideal for zero-to-medium frequency acceleration and vibration measurements within a variety of industrial and commercial applications. The Silicon Designs Model 2220 series can respond to both DC and AC acceleration, either with two analog ±4V (differential); or 0.5 to 4.5V (single-ended) outputs that vary with acceleration. At zero acceleration, differential voltage output is nominally 0 VDC (DC response), with typical 1% cross-axis sensitivity. Onboard voltage regulation minimizes supply variation effects. Units are designed to withstand shock inputs of up to 2000 g over a standard temperature range of –55°C to +125°C. Each module is serialized for traceability and calibrated prior to factory shipment.

All of Silicon Designs MEMS variable capacitive accelerometers and chips are 100% designed, manufactured, and tested at the company’s state-of-the-art facility in Kirkland, Washington, USA. This includes the manufacture of the chips and dies themselves. The completely vertically integrated manufacturing processes of Silicon Designs allow the company to offer high-quality products at still-highly competitive pricing, along with some of the industry’s shortest lead times. Standard model quantities can typically ship in less than two weeks.

The combined low mass, small dimensional size and low-impedance outputs of the Model 2220 make the series particularly ideal for flight test, aircraft flutter testing, vibration monitoring and analysis, robotics, biomechanics, automotive RLDA, machinery and equipment control, modal analysis, crash testing, and general in-laboratory applications. Non-standard g ranges, packages, and connector configurations are available upon request. To learn more about Silicon Designs and its available product technologies, visit www.silicondesigns.com

 

About Silicon Designs

Since 1983, Silicon Designs has served as global industry experts in the design, development, and manufacture of commercial and inertial-grade MEMS capacitive accelerometer modules and chips with integral amplification. Our accelerometers feature highly rugged designs for zero-to-medium frequency instrumentation requirements, with full-scale sensitivities from ±2 g to ±1000 g. Within standard ranges (±2 g to ±400 g), most Silicon Designs MEMS capacitive accelerometers continue to perform within published specifications after exposures to 5000 g and in limited temperature exposures to +175°C.