Paper Title:
An Improved Asymmetrical Half-Bridge Driving Circuit
  Abstract

Aiming at the demerit of the traditional flux coupling driving circuit, an improved driving circuit is proposed which has some advantages, such as simple structure, low cost, the driving source isolated from the main circuit, etc. The proposed circuit can be used on the maximum power point tracking circuit of solar cell which has a wide range duty cycle. The circuit principle analysis is given. At last, experimental results are provided to verify its practicability.

  Info
Periodical
Advanced Materials Research (Volumes 204-210)
Edited by
Helen Zhang, Gang Shen and David Jin
Pages
1665-1668
DOI
10.4028/www.scientific.net/AMR.204-210.1665
Citation
Z. L. Liao, D. Xu, Z. Q. Song, Y. J. Xu, "An Improved Asymmetrical Half-Bridge Driving Circuit", Advanced Materials Research, Vols. 204-210, pp. 1665-1668, 2011
Online since
February 2011
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Qian Hua Xiao, Hai Jing Liu
Abstract:With the development of power electronics,the technology of Switching Mode Power Supply(SMPS) is gradually perfected. However,there is no end...
2422
Authors: Cheng Qun Li, Jin Xiang Yang, Tie Jun Gao
Chapter 1: Mechatronics
Abstract:The traditional SEPIC converter switch is turned on for a long time and as time is short, resulting in loss and temperature rise is too...
647
Authors: Jin Jian Zhang, Xian Song Fu, Ping Juan Niu, Yi Li Liu
Chapter 6: Mechatronics
Abstract:A steady output single-ended flyback switching power supply using L6561 current mode PWM controller designed in this paper. The designed...
997
Authors: Yu Gang Liu, Ming Su
Chapter 7: Industrial Equipment and Engineering
Abstract:As the development of the Microprocessor technology, Power electronic technology, Motor manufacturing technology and modern control theory,...
845
Authors: Shen Li Chen, C.K. Lee
III. Advanced Design, Modelling, Analysis Science in Manufacturing Technologies
Abstract:In this work, we present a sensorless single-chip design for the three-phase brushless DC motors (BDCM) system, and which is implemented by a...
742