Modernising aircraft AHRS and flight controls with ultra-dependable, precise MEMS gyros and accelerometers- AHRS (Attitude & Heading Reference Methods).
– Standby instrumentation.
– Aircraft flight control floor sensors.
– Most popular merchandise: DMU11, PinPoint, Gemini, CMS300, CRH02, CRS09, CRG20 & SiRRS01
– High reliability MEMS sensors and electronics.
– Greatest in school bias over temperature and bias instability.
– Products have been utilized in FAA certified techniques.
– First class customer design help for integration.
– Assure of provide is a key consideration resulting from long and costly re-qualification applications for key parts such gyroscopes and accelerometer accelerometers. Silicon Sensing is in it for the long haul and is in a position to provide continuity of supply for longer than suppliers of comparable MEMS devices.
Finally, the Robofly can be shrunk all the way down to a stainless-steel microrobotic fly that’s 10 to 25 millimeters (0.Four to 1 inch) in width and weighs roughly 43 milligrams (0.002 ounces). The wings will probably be product of a skinny Mylar movie. Solar power will run a piezoelectric actuator that can push the wings to flap. The robot’s thorax will rework piezoelectric-actuator deflections into the massive wing stroke and rotation required to achieve flight.
Sadly, the MMA8451Q is able to simply 800Hz sample price, which would result in very band-limited audio. That’s good enough for a attempt. A higher sample charge would be nice (e.g. the LIS3DH which has 5376Hz) however this is commonly traded off with larger noise (220uG/sqrt(Hz) vs 99uG/sqrt(Hz)). A nice center-floor seems to be the ADXL355 with 20-bit resolution and 4000Hz pattern fee, or the ADXL354 (analog) model, but each of these models are very pricey – about $50 for the naked IC alone.