Press Release Summary:
Housed in one sq-in anodized epoxy sealed aluminum, Model 2210 Series Accelerometer is integrated with MEMS VC accelerometer chip and high-drive, low-impedance buffering for reliable measurements. Operated in +8 to +32 V supply voltage, product provides 0 VDC differential output voltage at ±4 VDC full scale. Unit is relatively insensitive to temperature changes. Capable of measuring with 1, 2 or 3 orthogonal axes, product is available in ±2 to ±400 g range.
Original Press Release:
Silicon Designs Announces Low-Cost Single Axis MEMS VC Accelerometers for Measurement Versatility on up to Three Orthogonal Axes
Silicon Designs, Inc. (www.silicondesigns.com), a 100% veteran owned small business and leading industry expert in the design, development and manufacture of highly rugged industrial-grade MEMS capacitive accelerometer chips and modules, today announced the added versatility of its Model 2210 Series, to include measurement capabilities on one, two, or three orthogonal axes.
Low-noise single axis Model 2210 accelerometer modules integrate a MEMS VC accelerometer chip with high-drive, low-impedance buffering for reliable, repeatable measurements. When used with a Silicon Designs mounting block, such as the Model 2330-BLK, the Model 2210 can effectively measure on either one, two, or three axes, allowing for the specification of a single part number for multiple requirements, thereby reducing in-house inventory counts.
Offered in ranges from ±2 to ±400 g, the Silicon Designs Model 2210 Series generates two analog voltage outputs which vary in response to applied acceleration. Customers can utilize either single-ended or differential output, the latter of which doubles accelerometer sensitivity over single-ended versions. The sensitive axis of the Model 2210 is perpendicular to the package bottom, with positive acceleration defined as a force pushing on the bottom of that package. Output scale factor is independent from the supply voltage of +8 to +32V. At zero acceleration, differential output voltage is nominally 0 VDC; at full scale, ±4 VDC.
Sensing elements of the Model 2210 are packaged within a compact, lightweight, anodized epoxy sealed aluminum housing, occupying a total footprint of just one square inch. Their design features a simple-yet-robust four-wire connection and internal voltage regulator, which minimizes supply voltage variation effects. Units are relatively insensitive to temperature changes and feature quick, easy self-calibration. All Silicon Designs accelerometer modules and chips are 100% designed, developed and manufactured at the company’s global corporate headquarters and MEMS fabrication facility near Seattle, Washington, USA. Each unit undergoes rigorous quality testing prior to shipment.
Model 2210 MEMS VC accelerometer modules are ideal for lower frequency vibration testing requirements, including vibration analysis, machinery control, modal analysis, robotics and crash testing. With their versatile design and performance reliability, they may be specified within a variety of aerospace, automotive, defense, energy, industrial, and test & measurement applications. For details, drawings or additional information, visit www.silicondesigns.com.
About Silicon Designs, Inc.
Silicon Designs was founded in 1983 with the goal of improving the accepted design standard for traditional MEMS capacitive accelerometers. At that time, industrial-grade accelerometers were bulky, fragile and costly. The engineering team at Silicon Designs listened to the needs of customers who required more compact, sensitive, rugged and reasonably priced accelerometer modules and chips, though which also offered higher performance. Resultant product lines were designed and built to surpass customer expectations. The company has grown steadily over the years, while its core competency remains accelerometers, with the core business philosophies of “make it better, stronger, smaller and less expensive” and “let the customer drive R&D” maintained to this day.