Silicon Sensing Systems’ high-performance DMU30 micro-electro-mechanical systems (MEMS) inertial measurement unit (IMU) has been selected by the Institute for Q-shu Pioneers of Space, Inc. (iQPS) of Fukuoka, Japan, for the control system of Japan’s first X-band synthetic aperture radar (SAR) small satellite.
This is a 1m resolution, high-performance, X-band SAR-satellite weighing only 100Kg. Ultimately, iQPS plans to deploy 36 of these satellites, offering an earth observation data service to support tasks such as disaster management as well as land and infrastructure surveying.
In this environment the advantages of Silicon Sensing’s MEMS technology over traditional high-performance options, such as fiber optic and ring laser gyro devices, are clear. The DMU30, Silicon Sensing’s highest performing IMU, is an ITAR (International Traffic in Arms Regulations)-free product that matches the performance of a FOG unit but is far more rugged, suitable for operating over extended periods in the harsh space environment. This formidable, high-integrity IMU is calibrated to deliver precision performance over the full rated temperature range. It is also much smaller, weighs less, and is less costly than a comparable FOG device, freeing up capacity on the satellite for other technologies.
Masahiko Uetsuhara, Project Manager, iQPS explains: “Normally a gyro sensor’s output will include errors that appear over time and with severe temperature change and we would need to calibrate for that, but with the DMU30 that calibration is not required. This reduces man-hours and improves work efficiency, both very important factors for us. This product is also technically reliable, has been proved in satellite projects, is ITAR free – and the price was attractive for this level of performance.”
Onboard the iQPS satellite DMU30 commences operation immediately after separation from the launch rocket and continues throughout each mission, working with other systems to monitor and control angular velocity and attitude angle and to assess and correct any rocking motion that occurs as key structures, such as the large antenna, are deployed.
Steve Capers, General Manager of Silicon Sensing Systems explains: “This is a fast-evolving market with an ever-increasing demand for precise, controllable earth observation. SAR satellites, with their ability to see through weather conditions, such as cloud cover, have traditionally been large and expensive items. Technologies such as our DMU30 all-silicon MEMS IMU are helping transform this market, enabling the development of satellites such as iQPS’s small and cost-effective X-band SAR satellite.”
Silicon Sensing Systems