Artificial Intelligent Systems and Machine Learning

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Performance of Non-Isolated Steep Conversion Ratio in Neural Controller


Affiliations
1 Sathyabama University, Chennai, India
2 EEE Department, SRM University, Chennai, India
     

   Subscribe/Renew Journal


This paper presents a new bidirectional dc-dc PWM converter with a steep voltage conversion ratio. The converter makes use of coupled inductors to step up small dc voltage to large ones or to step down large dc voltages to small ones. All switches operate with zero-voltages witching due to a very simple auxiliary circuit that contains a single active switch and a few passive elements. This converter operation is explained in detail and analyzed, and a systematic design procedure of Neural Controller is derived. The feasibility of the converter is confirmed with results obtained from the MATLAB 7.3 VERSION. The efficiency is achieved of 94% Closed loop response is very good dynamic Response.

Keywords

Bidirectional DC-DC Converter, Matlab, Neural Controller, Non-Isolated and Steep Conversion Ratio.
User
Subscription Login to verify subscription
Notifications
Font Size

Abstract Views: 220

PDF Views: 3




  • Performance of Non-Isolated Steep Conversion Ratio in Neural Controller

Abstract Views: 220  |  PDF Views: 3

Authors

S. A. Elankurisil
Sathyabama University, Chennai, India
S. S. Dash
EEE Department, SRM University, Chennai, India

Abstract


This paper presents a new bidirectional dc-dc PWM converter with a steep voltage conversion ratio. The converter makes use of coupled inductors to step up small dc voltage to large ones or to step down large dc voltages to small ones. All switches operate with zero-voltages witching due to a very simple auxiliary circuit that contains a single active switch and a few passive elements. This converter operation is explained in detail and analyzed, and a systematic design procedure of Neural Controller is derived. The feasibility of the converter is confirmed with results obtained from the MATLAB 7.3 VERSION. The efficiency is achieved of 94% Closed loop response is very good dynamic Response.

Keywords


Bidirectional DC-DC Converter, Matlab, Neural Controller, Non-Isolated and Steep Conversion Ratio.