Servo Accelerometers Offer Full Scale Ranges Down to ±0.1 Grams

Sept. 25, 2009
$jq().ready( function() \{ setupSidebarImageList(); \} );

The A320 series, a family of ultra-low-range linear servo accelerometers, is designed with exceptional durability for use in a multitude of military and industrial applications including flight test, geophysical studies, structural monitoring and low acceleration analysis applications. The accelerometers take highly precise measurements from ±0.1 to ±2 grams, with full-range outputs of ±5 V dc or 4-20 mA. These gravity-referenced, closed-loop sensors can reliably monitor acceleration down to 20 micrograms, while withstanding mechanical shock levels of up to 1500 grams. Sensors are housed in a rugged, anodized aluminum alloy case and can be specified with a military-style connector or solder-pin electrical termination. They are fully self-contained and can be connected to a dc power source and readout or control device to form a complete measurement system. SHERBORNE SENSORS, Basingstoke, Hampshire, U.K. (877) 486-1766.

Company: SHERBORNE SENSORS

Product URL: Click here for more information

Sponsored Recommendations

Highly Integrated 20A Digital Power Module for High Current Applications

March 20, 2024
Renesas latest power module delivers the highest efficiency (up to 94% peak) and fast time-to-market solution in an extremely small footprint. The RRM12120 is ideal for space...

Empowering Innovation: Your Power Partner for Tomorrow's Challenges

March 20, 2024
Discover how innovation, quality, and reliability are embedded into every aspect of Renesas' power products.

Article: Meeting the challenges of power conversion in e-bikes

March 18, 2024
Managing electrical noise in a compact and lightweight vehicle is a perpetual obstacle

Power modules provide high-efficiency conversion between 400V and 800V systems for electric vehicles

March 18, 2024
Porsche, Hyundai and GMC all are converting 400 – 800V today in very different ways. Learn more about how power modules stack up to these discrete designs.

Comments

To join the conversation, and become an exclusive member of Electronic Design, create an account today!