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Welcome to Silicon Sensing

Thanks for clicking through to find out more about Silicon Sensing Systems and its products.  Angle, acceleration, roll, pitch and yaw measurements – you could say that we view the world a little differently. In the maritime environment, our high performance inertial measurement units (IMUs) are enabling precise, cost effective navigation even where GPS is not available.  Our all-silicon MEMS (micro electro-mechanical systems) sensors match the performance of fibre optic gyro (FOG)-based systems without the increase in size, weight and cost typical of FOG technology. Our latest product, the DMU30, provides the highest levels of precision motion sensing and has received outstanding reviews from integrators.

To find out more, see below or click the product image opposite.  To talk to us simply submit the brief form, below, and we will be in touch.

A little bit more about the DMU30

Produktbeschreibung

The first of a family of High Performance IMUs (HPIMUs), DMU30 is a ground-breaking, non-ITAR, MEMS IMU alternative to more costly ‘FOG-grade’ IMUs for use in exacting motion sensing applications, ranging from unmanned vehicle navigation to surveying and mapping.

Available now, the DMU30 is proving a formidable choice for affordable high-performance IMUs.  Two standard variants offer different baud rates to suit application needs.  Datasheet and Solid Model CAD files for the DMU30 can be downloaded from the Downloads tab.

The basic inertial data output from DMU30 is angular rate (deg/s) and acceleration (g).  Delta Theta and Delta Velocity outputs can be considered as a re-scaling of these basic data outputs.   Provision and use of these values is an industry standard expected and used by many of our customers.

Delta Theta is in degrees and represents the degrees rotated over the sampling time of 5.0ms (or 1/200th of a second).  For example, if the IMU axis is rotating at 200deg/s, Delta Theta will be 1 deg.

Similarly, Delta Velocity is a re-scaling from g to m/s, representing the change in velocity change over the same 5ms.  The output in m/s is equal to the acceleration in g multiplied by 0.04903325 (divide by 200 and multiply by 9.80665, the latter being a universal measure of g).

24-bit sigma delta analogue to digital convertors are used within DMU30. Compensation is carried out using single precision floating point mathematics. The DMU30 output message is also output as single precision floating point numbers. So the mathematical resolution is very small indeed.

In practical terms, the minimum resolvable change is dominated by the sensor noise. With averaging, this can be improved to a point where the minimum resolvable change is dictated by the bias instability derived from Allan Deviation plots. For the gyro channels this is below 0.1 deg/hr and for the accelerometers, around 10μg.

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