Two-Surfaces Sliding Mode Controller for Energy Management of Electric Vehicle Based on Multi Input DC-DC Converter

two-surfaces sliding mode controller for energy management of electric vehicle based on multi input dc-dc converter

in this paper, a two-surfaces sliding mode controller (tssmc) is proposed for the voltage tracking control of a two input dc-dc converter in application of electric vehicles (evs). the imperialist competitive algorithm (ica) is used for tuning tssmc parameters. the proposed controller significantly improves the transient response and disturbance rejection of the two input converters while prese...

Multi-Stage DC-AC Converter Based on new DC-DC converter for energy conversion

This paper proposes a multi-stage power generation system suitable for renewable energy sources, which is composed of a DC-DC power converter and a three-phase inverter. The DC-DC power converter is a boost converter to convert the output voltage of the DC source into two voltage sources. The DC-DC converter has two switches operates like a continuous conduction mode. The input current of DC-DC...

PWM-Based Sliding Mode Control of DC-DC Boost Converter

Abstract – This document gives you a brief idea of the Design and simulation of DC/DC Boost converter using pulse width modulation based sliding mode controller operating in continuous conduction mode is discussed. The performance and properties of sliding mode controller is compared with conventional controllers Proportional Integral Derivative (PID) controller and Proportional Integral (PI) c...

Performance Analysis of a Seamless Sliding Mode Control for a Non Isolated Multi-Input Multi-Output Bidirectional Dc-Dc Boost Converter for Electric Vehicle Applications

In this paper, a non isolated multi-input multi-output dc–dc boost converter is proposed. This converter is used to implant alternative energy sources in electric vehicles. However, advantages of different sources of energy are achievable by the implant energy sources. This converter has many outputs with different voltage levels, which can be interfaced with multilevel inverters. In this conve...

A Bidirectional Nonisolated Multi-Input DC-DC Converter for Hybrid Energy Storage Systems in Electric Vehicles

Input - Output Based Quasi - Sliding Mode Control of Dc - Dc Converter

The paper presents the design of discrete-time quasi-sliding mode voltage controller for DC-DC buck converter. The control algorithm is realized by measuring only sensed output voltage. No current measurements and time derivatives of output voltage are necessary. The proposed quasi-sliding mode controller provides stable output voltage, exhibiting robustness to parameter and load variations.