Litcius/Paper detail

First result of orbit verification of Taiji-1 hall micro thruster

Shuyan Xu, Luxiang Xu, Linxiao Cong, Yonggui Li, Cong‐Feng Qiao

2021International Journal of Modern Physics A26 citationsDOI

Abstract

The Hall Micro Thrusters (HMTs) use cold gas or accelerated plasma dual mode to provide ultra-precise spacecraft altitude control. They were operated in space for the first time as part of the demonstration payloads on Chinese Academy of Science’s (CASs) Taiji-1 spacecraft since September 2019. Hall Micro Thruster Assemblies (HMTAs) were the actuators in drag-free control, and will compensate the nonconservative force for gravity wave observatories. The HMTAs meet the requirements of operating at 5–100 [Formula: see text] N of thrust with 0.7 [Formula: see text] N resolution and [Formula: see text]0.6 [Formula: see text] N/Hz[Formula: see text] (0.01–1 Hz) noise to deliver the nanometer-level precision control as fast as 30 ms measured by Gravitational Reference Sensor (GRS). A transfer function model in z-domain was fit and used to filter HMTs cathode voltage to predict GRSs thrust noise response. Simulations of a single or dual-frequency disturbance and the corresponding compensation demonstrated that HMTAs could deliver the required thrust profile expected. The capability to meet the requirements of thruster noise in drag-free control is critical for future missions because the acceleration noise on test mass directly relates to the gravity wave signa l. Preliminary in-orbit verification of Taiji-1 has showed HMTAs’ great potential in future, and the data in the experiments are presented in this paper.

Topics & Concepts

PhysicsSpacecraftNoise (video)Aerospace engineeringThrustDragOrbit (dynamics)AmplifierMechanicsComputer scienceEngineeringAstronomyCMOSImage (mathematics)OptoelectronicsArtificial intelligenceThermodynamicsPlasma Diagnostics and ApplicationsMagnetic confinement fusion researchMagnetic Field Sensors Techniques