Pulsed thrust measurements using electromagnetic calibration techniques

Haibin Tang; Chenbo Shi; Xinai Zhang; Zun Zhang; Jiao Cheng

doi:10.1063/1.3567803

Pulsed thrust measurements using electromagnetic calibration techniques

Haibin Tang^*
, Chenbo Shi
, Xinai Zhang
, Zun Zhang
, Jiao Cheng

^*Corresponding author for this work

Beihang University

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

A thrust stand for accurately measuring impulse bits, which ranged from 10-1000 N s using a noncontact electromagnetic calibration technique is described. In particular, a permanent magnet structure was designed to produce a uniform magnetic field, and a multiturn coil was made to produce a calibration force less than 10 mN. The electromagnetic calibration force for pulsed thrust measurements was linear to the coil current and changed less than 2.5% when the distance between the coil and magnet changed 6 mm. A pulsed plasma thruster was first tested on the thrust stand, and afterward five single impulse bits were measured to give a 310 μN s average impulse bit. Uncertainty of the measured impulse bit was analyzed to evaluate the quality of the measurement and was found to be 10 μN s with 95 credibility.

Original language	English
Article number	035118
Journal	Review of Scientific Instruments
Volume	82
Issue number	3
DOIs	https://doi.org/10.1063/1.3567803
State	Published - Mar 2011

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title = "Pulsed thrust measurements using electromagnetic calibration techniques",

abstract = "A thrust stand for accurately measuring impulse bits, which ranged from 10-1000 N s using a noncontact electromagnetic calibration technique is described. In particular, a permanent magnet structure was designed to produce a uniform magnetic field, and a multiturn coil was made to produce a calibration force less than 10 mN. The electromagnetic calibration force for pulsed thrust measurements was linear to the coil current and changed less than 2.5\% when the distance between the coil and magnet changed 6 mm. A pulsed plasma thruster was first tested on the thrust stand, and afterward five single impulse bits were measured to give a 310 μN s average impulse bit. Uncertainty of the measured impulse bit was analyzed to evaluate the quality of the measurement and was found to be 10 μN s with 95 credibility.",

author = "Haibin Tang and Chenbo Shi and Xinai Zhang and Zun Zhang and Jiao Cheng",

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AU - Tang, Haibin

AU - Shi, Chenbo

AU - Zhang, Xinai

AU - Zhang, Zun

AU - Cheng, Jiao

PY - 2011/3

Y1 - 2011/3

N2 - A thrust stand for accurately measuring impulse bits, which ranged from 10-1000 N s using a noncontact electromagnetic calibration technique is described. In particular, a permanent magnet structure was designed to produce a uniform magnetic field, and a multiturn coil was made to produce a calibration force less than 10 mN. The electromagnetic calibration force for pulsed thrust measurements was linear to the coil current and changed less than 2.5% when the distance between the coil and magnet changed 6 mm. A pulsed plasma thruster was first tested on the thrust stand, and afterward five single impulse bits were measured to give a 310 μN s average impulse bit. Uncertainty of the measured impulse bit was analyzed to evaluate the quality of the measurement and was found to be 10 μN s with 95 credibility.

AB - A thrust stand for accurately measuring impulse bits, which ranged from 10-1000 N s using a noncontact electromagnetic calibration technique is described. In particular, a permanent magnet structure was designed to produce a uniform magnetic field, and a multiturn coil was made to produce a calibration force less than 10 mN. The electromagnetic calibration force for pulsed thrust measurements was linear to the coil current and changed less than 2.5% when the distance between the coil and magnet changed 6 mm. A pulsed plasma thruster was first tested on the thrust stand, and afterward five single impulse bits were measured to give a 310 μN s average impulse bit. Uncertainty of the measured impulse bit was analyzed to evaluate the quality of the measurement and was found to be 10 μN s with 95 credibility.

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SN - 0034-6748

VL - 82

JO - Review of Scientific Instruments

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ER -

Pulsed thrust measurements using electromagnetic calibration techniques

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