Bifurcation analysis of the class-E inverter for switching-pattern derivations
スポンサーリンク
概要
- 論文の詳細を見る
This letter presents a bifurcation analysis of the class-E inverter for switching-pattern derivations. The transition conditions of switching patterns are the same as the bifurcation condition of the border-collision bifurcation or the grazing bifurcation. Therefore, the switching-pattern distribution maps for wide parameter region can be obtained by applying the analytical algorithm of bifurcation-curve derivations.
著者
-
Kousaka Takuji
Faculty Of Engineering The University Of Tokushima
-
SEKIYA Hiroo
Graduate Course of Advanced Integration Science, Chiba University
-
Kousaka Takuji
Faculty of Engineering, Oita University
-
Nagashima Tomoharu
Graduate School of Advanced Integration Science, Chiba University
-
Wei Xiuqin
Department of Electronics Engineering and Computer Science, Fukuoka University
関連論文
- Analysis and Experiments of Maximum Throughput in Wireless Multi-Hop Networks for VoIP Application
- Forced Synchronization of Coupled Oscillators
- Exact Analysis of Class DE Amplifier with FM and PWM Control(Energy in Electronics Communications)
- A Compensating Method Based on SOM for Nonlinear Distortion in 16-QAM-OFDM System(Nonlinear Problems)
- Design of Class DE Inverter with Second Order Constant K Band-Pass Filter(Nonlinear Circuits,Nonlinear Theory and its Applications)
- Post-Processing for Restoring Edges and Removing Artifacts of Low Bit Rates Wavelet-Based Image
- Investigation of Class E Amplifier with Nonlinear Capacitance for Any Output Q and Finite DC-Feed Inductance(Selected Papers from the 18th Workshop on Circuits and Systems in Karuizawa)
- Novel Design Procedure for MOSFET Class E Oscillator(Nonlinear Theory and its Applications)
- B-5-195 A SOM Compensator for TWTA in 16-QAM-OFDM System
- MAC Protocol for Ad Hoc Networks Using Smart Antennas for Mitigating Hidden and Deafness Problems
- Backoff-stage synchronization in three-hop string-topology wireless networks with hidden nodes
- Bifurcation analysis of the class-E inverter for switching-pattern derivations
- Parallel Connected Class D Amplifiers for RF Power Source Applications