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2023 | OriginalPaper | Chapter

The Research of Micro-vibration Nonlinear Characteristic Produced by Spacecraft Mechanical Momentum Wheel

Authors : Quanwu Wang, Yiping Yao, Zekun Yang, Xiufeng Zhong

Published in: Signal and Information Processing, Networking and Computers

Publisher: Springer Nature Singapore

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Abstract

Micro-vibration produced by momentum wheel is the main disturbance source for spacecraft, with obvious nonlinear characteristics. The researching and general situation of spacecraft micro-vibration produced by momentum wheel, includes vibration sources mechanism, dynamic model and vibration control methods, are briefly reviewed in this paper. The nonlinear characteristic, frequency and amplitude of micro vibration, are analyzed respectively. The momentum wheel’s nonlinearity is shown in two respects: the nonlinearity of amplitude and the nonlinearity of frequency. The movement of moving parts is the fundamental cause for micro-vibration and nonlinearity. The main source of frequency non-linearity is the rolling bearing. Passive or active vibration control method which is essentially using dampers or piezoelectric actuators to realize vibration isolation. The paper discusses the researching contents and direction of these problems mentioned. In the end, some comments are made about the future development in this field.

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Literature
1.
go back to reference Liu, Y., Hu, Y.L.: Effects of momentum wheel jitter spectrum on three-mirror-anastig-matic imaging. Spacecr. Recovery Remote Sens. 32(5), 5–8 (2014) Liu, Y., Hu, Y.L.: Effects of momentum wheel jitter spectrum on three-mirror-anastig-matic imaging. Spacecr. Recovery Remote Sens. 32(5), 5–8 (2014)
2.
go back to reference Chen, X.C., Cai, Y.W., Ren, Y.: Spacecraft attitude control and vibration suppression integration based on single gimbal magnetically suspended control moment gyroscope pyramid configuration. J. Mech. Eng. Sci. 233(8), 2673–2684 (2019)CrossRef Chen, X.C., Cai, Y.W., Ren, Y.: Spacecraft attitude control and vibration suppression integration based on single gimbal magnetically suspended control moment gyroscope pyramid configuration. J. Mech. Eng. Sci. 233(8), 2673–2684 (2019)CrossRef
3.
go back to reference Liu, T.X., Fan, B,Y., Yang, H.: Research on vibration disturbance control of momentum wheel. Spacecr. Eng. 18(1), 12−16 (2009) Liu, T.X., Fan, B,Y., Yang, H.: Research on vibration disturbance control of momentum wheel. Spacecr. Eng. 18(1), 12−16 (2009)
4.
go back to reference Kamesh, D., Ghosal, A.: Modeling, design and analysis of low frequency plat form for attenuating micro-vibration in spacecraft. J. Sound Vib. 329(17), 3431–3450 (2010)CrossRef Kamesh, D., Ghosal, A.: Modeling, design and analysis of low frequency plat form for attenuating micro-vibration in spacecraft. J. Sound Vib. 329(17), 3431–3450 (2010)CrossRef
5.
go back to reference Boivin, N., Pierre, C., Shaw, S.W.: Non-linear modal analysis of structural systems featuring internal resonances. J. Sound Vib. 182(2), 336–341 (1995)CrossRef Boivin, N., Pierre, C., Shaw, S.W.: Non-linear modal analysis of structural systems featuring internal resonances. J. Sound Vib. 182(2), 336–341 (1995)CrossRef
6.
go back to reference Peng, C., Huang, Z.: Frequency-varying synchronous micro-vibration suppression for a MSFW with application of small-gain theorem. Mech. Syst. Signal Process. 21(1), 432–447 (2017)CrossRef Peng, C., Huang, Z.: Frequency-varying synchronous micro-vibration suppression for a MSFW with application of small-gain theorem. Mech. Syst. Signal Process. 21(1), 432–447 (2017)CrossRef
7.
go back to reference Deng, S.E., Sun, C.Y., Gu, J.F., Cui, Y.C.: Vibration characteristics of low-noise deep groove ball bearings. J. Vib. Shock 38(10), 34–42 (2015) Deng, S.E., Sun, C.Y., Gu, J.F., Cui, Y.C.: Vibration characteristics of low-noise deep groove ball bearings. J. Vib. Shock 38(10), 34–42 (2015)
8.
go back to reference Zhou, W., Aglietti, G.S.: Modelling and testing of a soft suspension design for a reaction/momentum wheel assembly. J. Sound Vib. 330(18), 4596–4610 (2011)CrossRef Zhou, W., Aglietti, G.S.: Modelling and testing of a soft suspension design for a reaction/momentum wheel assembly. J. Sound Vib. 330(18), 4596–4610 (2011)CrossRef
9.
go back to reference Peng, C., Cui, P.: Dynamics modeling and measurement of the microvibrations for a magnetically suspended flywheel. IEEE Trans. Instrum. Meas. 64(12), 3239–3252 (2015)CrossRef Peng, C., Cui, P.: Dynamics modeling and measurement of the microvibrations for a magnetically suspended flywheel. IEEE Trans. Instrum. Meas. 64(12), 3239–3252 (2015)CrossRef
10.
go back to reference Addari, D., Remedia, M.: Experimental and numerical investigation of coupled microvibration dynamics for satellite reaction wheels. J. Sound Vib. 386(1), 225–241 (2017)CrossRef Addari, D., Remedia, M.: Experimental and numerical investigation of coupled microvibration dynamics for satellite reaction wheels. J. Sound Vib. 386(1), 225–241 (2017)CrossRef
11.
go back to reference Shigemune, T., Masahito, K., Makoo, S., Yoshiaki, O.: Analysis of retainer induced disturbances of reaction wheel. Trans. Jpn. Soc. Mech. Eng. 71(1), 21–28 (2005) Shigemune, T., Masahito, K., Makoo, S., Yoshiaki, O.: Analysis of retainer induced disturbances of reaction wheel. Trans. Jpn. Soc. Mech. Eng. 71(1), 21–28 (2005)
12.
go back to reference Narayan, S., Ghosal, A.: Dynamic interaction of rotating momentum wheels with spacecraft element. J. Sound Vib. 315(4), 970–984 (2008)CrossRef Narayan, S., Ghosal, A.: Dynamic interaction of rotating momentum wheels with spacecraft element. J. Sound Vib. 315(4), 970–984 (2008)CrossRef
13.
go back to reference Deng, R.Q., Hu, G., Wang, Q.W.: Axial disturbance characteristics for high speed rotor of flywheel and CMG. Aerosp. Control 27(4), 32–36 (2009) Deng, R.Q., Hu, G., Wang, Q.W.: Axial disturbance characteristics for high speed rotor of flywheel and CMG. Aerosp. Control 27(4), 32–36 (2009)
14.
go back to reference Stetson, J.B.: Reaction wheel low-speed compensation using a dither signal. J. Guid. Control Dyn. 16(4), 617–622 (1993)CrossRef Stetson, J.B.: Reaction wheel low-speed compensation using a dither signal. J. Guid. Control Dyn. 16(4), 617–622 (1993)CrossRef
15.
go back to reference Ji, N., Liu, J.: Vibration control for a flexible satellite with adaptive actuator fault-tolerant and input quantization. Trans. Inst. Meas. Control 42(3), 451–460 (2020)CrossRef Ji, N., Liu, J.: Vibration control for a flexible satellite with adaptive actuator fault-tolerant and input quantization. Trans. Inst. Meas. Control 42(3), 451–460 (2020)CrossRef
16.
go back to reference Sheng, C., Hu, Q.: Configuration design and collision avoidance control of an electromagnetic vibration isolation system on satellites considering environmental disturbances. Acta Astronaut. 165(11), 229–241 (2019)CrossRef Sheng, C., Hu, Q.: Configuration design and collision avoidance control of an electromagnetic vibration isolation system on satellites considering environmental disturbances. Acta Astronaut. 165(11), 229–241 (2019)CrossRef
17.
go back to reference Zhou, W., Li, D.: Experimental research on a vibration isolation platform for momentum wheel assembly. J. Sound Vib. 200(6), 1157–1171 (2013)CrossRef Zhou, W., Li, D.: Experimental research on a vibration isolation platform for momentum wheel assembly. J. Sound Vib. 200(6), 1157–1171 (2013)CrossRef
18.
go back to reference Anderson, E.H., Fumo, J.P., Erwin, R.S.: Satellite ultraquiet isolation technology experiment. In: 2000 IEEE Aerospace Conference, pp. 299–308. IEEE, Big Sky, MT, USA (2000) Anderson, E.H., Fumo, J.P., Erwin, R.S.: Satellite ultraquiet isolation technology experiment. In: 2000 IEEE Aerospace Conference, pp. 299–308. IEEE, Big Sky, MT, USA (2000)
19.
go back to reference Brett, M.M., Thom, K., Eric, H.: Optical payload isolation using the miniature vibration isolation system (MVIS-II). In: Industrial & Commercial Applications of Smart Structures Technologies 2007, pp. 766–704. The International Society for Optics Engineering, San Diego, California, USA (2007) Brett, M.M., Thom, K., Eric, H.: Optical payload isolation using the miniature vibration isolation system (MVIS-II). In: Industrial & Commercial Applications of Smart Structures Technologies 2007, pp. 766–704. The International Society for Optics Engineering, San Diego, California, USA (2007)
Metadata
Title
The Research of Micro-vibration Nonlinear Characteristic Produced by Spacecraft Mechanical Momentum Wheel
Authors
Quanwu Wang
Yiping Yao
Zekun Yang
Xiufeng Zhong
Copyright Year
2023
Publisher
Springer Nature Singapore
DOI
https://doi.org/10.1007/978-981-19-3387-5_65