4.7 Article

Removal of the rate table: MEMS gyrocompass with virtual maytagging

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MICROSYSTEMS & NANOENGINEERING
卷 9, 期 1, 页码 -

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SPRINGERNATURE
DOI: 10.1038/s41378-023-00610-3

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This paper presents a novel MEMS-based north-finding system (NFS) utilizing virtual maytagging (VM) technology. By rotating the vibratory working modes of a honeycomb disk resonator gyroscope (HDRG) periodically with electronic control, the uncertainty in azimuth can be reduced. Experimental results demonstrate that the NFS achieves a high accuracy in azimuth, reaching 0.204 degrees at 28.2 degrees latitude.
High-performance micro-electro-mechanical system (MEMS) gyrocompasses for north-finding systems have been very popular for decades. In this paper, a MEMS north-finding system (NFS) based on virtual maytagging (VM) is presented for the first time. In stark contrast to previous schemes of MEMS-based NFSs (e.g., carouseling, maytagging) and the abandoning rate table, we developed a honeycomb disk resonator gyroscope (HDRG) and two commercial accelerometers for azimuth detection. Instead of the physical rotation of the integrated turntable in traditional NFSs, the vibratory working modes of the HDRG are rotated periodically with electronic control to reduce the uncertainty in the azimuth. After systematically analyzing the principle of NFSs with VM, we designed tests to verify the practicability at the sensor level. A bias instability of 0.0078 degrees/h can be obtained during one day with VM in an HDRG. We also implemented comparative north-finding experiments to further check our strategy at the system level. The accuracy in the azimuth can reach 0.204 degrees for 5 min at 28.2 degrees latitude with VM and 0.172 degrees with maytagging. The results show that without any mechanical turning parts, VM technology makes it possible to develop high-precision handheld MEMS NFSs.

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