The Design and Implementation of Switching Power of High Power Factor in 3D Printer

Xi Feng; Yu Xuan Sun

doi:10.4028/www.scientific.net/AMM.864.254

Paper Titles

Research on Location Method of PD Signal for Metal-Clad Switchgear
p.231

Implementation of Hybrid Photovoltaic/AC Grid System to a Micro Grid by Using MPPT
p.237

Study on Task Optimization of Distributed Gas-Electric Hybrid Control System
p.242

Study of the Integrated Technology on Solar Energy Utilization System and Buildings in Villages and Towns
p.249

The Design and Implementation of Switching Power of High Power Factor in 3D Printer
p.254

Monitoring and Operation Analysis on Power Environment of Computer Room Based on Big Data
p.258

Finite Element Modeling and Simulating of Physical Process of Impacting by Tidal Current
p.264

Study on the Green Construction Technology and Measurement in Villages and Towns of North China
p.273

Properties of Concrete Containing Unground Palm Oil Fuel Ash as Partial Sand Replacement
p.278

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 864The Design and Implementation of Switching Power...

The Design and Implementation of Switching Power of High Power Factor in 3D Printer

Abstract:

According to harmonics pollution and low power factor problems of the traditional switching power, the design is a switching power of high power factor based on UCC28019 chip used on 3D printers. This design has the advantages of high power factor, high efficiency, low harmonics and low noise. Main circuit passes through EMI filtering, full-bridge rectifier and then filter, Boost chopper boost and correction of active power factor and closed-loop controlling, making the output voltage stable, small interfering and high over-all efficiency.

You might also be interested in these eBooks

Advanced Materials and Engineering Structural Technology

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 864)

Pages:

254-257

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.864.254

Citation:

Cite this paper

Online since:

April 2017

Authors:

Xi Feng, Yu Xuan Sun*

Keywords:

3D Printer, Boost Voltage, PFC Control, Power Factor

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] X. W. Mao, Principles of power factor correction IC and application design and control, 2nd ed., Beijing: China Electric Power Press, (2007), pp.104-109.

Google Scholar

[2] Z. Y. Sha, Representing practical techniques, such as switching power supply 500 to ask, Beijing: China Electric Power Press, (2012), pp.31-36.

Google Scholar

[3] L. W. Cai, Digital Logic Circuits, 3rd ed., Xi'an University of Electronic Science and Technology Press, (2007), pp.213-268.

Google Scholar

[4] L. Ren, S. Y. Li, Z. Q. Wang, Survey of active power factor correction, Telecom Power Tech. 4 (2005) 23-25.

Google Scholar

[5] Y. M. Li, Explotion of the High-Frequency Switching Power Saving Technology, Tech. Inform. 17 (2011) 115-116.

Google Scholar

[6] F. G. Song, Applied Research on Active EMI Filter of High-Frequency Switching Power Supply, Electr. Equip. 4 (2009) 31-33.

Google Scholar

[7] G. C. Huang, L. Q. Zhou, W. X. Zhang, National Undergraduate Electronic Design Contest Tutorials, Beijing: Electronic Industry Press, (2012), pp.57-89.

Google Scholar

[8] X. G. Wei, J. F. Chen, Research on High Power Factor Switching Power Supply, Commun. Power Tech. 4 (2009) 28-30.

Google Scholar