Lock-in Zone Controlling for Ring Laser Gyro

Yuanzheng, 刘元正 Liu; Jing-xian, 王京献 Wang; Yang-hua, 马仰华 Ma; Peifeng, 兰佩锋 Lan

doi:10.3788/gzxb20103905.0781

Cited by 1 publication

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“…Hence both frequencies lock together [13] to a single false value in this way. A piezoelectric dither motor [15] is utilized to shake the laser block through the lock-in zone [20,21] to counteract this effect. Dither vibration averages to zero.…”

Section: A Working Principlementioning

confidence: 99%

Ring Laser Gyros: Improving Precision and Accuracy Through Soft-Core Processor-Based Active Current Balance Control Approach- Simulation and Implementation Results

Sreeramulu,

Devi,

Rao

et al. 2023

IJRITCC

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In this article, we intend to demonstrate on digital active current control in ring laser gyros (RLG). The specific source errors that effect the performance of laser gyro is discussed. This work proposes a system of digital detection and control system to address deficiencies of the conventional analog circuits. The hardware framework is constructed using the Field Programmable Gate Array (FPGA) and the required analog interface, which incorporates driving and acquisition circuitry for the specific physics of gyros. The software flow is provided in full and uses the parallel PI (proportional-integral) control algorithms. The outcomes demonstrate that the precision of anode currents are accurately controlled within ±0.1µA along with cathode voltage, demonstrating that the performance of the digital system is superior to that of analog circuits, which will be very beneficial for the laser gyro application. The simulation results prove that the proposed approach has good result of balancing anode currents, meanwhile, it makes the sensor a good dynamic performance. In both anodes, the experimental findings are contrasted with balanced and unbalanced currents. The optimal constant current is obtained from the remarkable agreement between simulated and experimental results.

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