BE/BTech Projects

Asoka Technologies offer many Electrical Engineering projects IEEE for BE/BTech EEE in Electrical and Electronics Engineering department. We are dedicated in developing IEEE Electrical Simulation projects for BE/BTech and ME/MTech Final year students. Here we have posted some titles with abstracts, we have many number of projects readily available with us. Please visit our website and also go through the latest Projects List.

Also go through the link for Electrical Engineering Projects IEEE for BE/BTech Click Here

ATBE-01 Project on Grid-Connected Photovoltaic Inverter 

grid tied photovoltaic inverter

This article proposes a topology for single-phase two stage grid connected solar photovoltaic (PV) inverter for residential applications.Our proposed grid-connected power converter consists of a switch mode DC-DC boost converter and a H-bridge inverter. For complete Abstract CLICK HERE

ATBE-02 Project on Dynamic Voltage Restorer (DVR)


This paper describes the problem of voltage sags and swells and its severe impact on non linear loads or sensitive loads. The dynamic voltage restorer (DVR) has become popular as a cost effective solution for the protection of sensitive loads from voltage sags and swells. For complete Abstract CLICK HERE

ATBE-03 Project on DSTATCOM


This paper presents the enhancement of voltage sags, harmonic distortion and low power factor using Distribution Static Compensator (D-STATCOM) with LCL Passive Filter in distribution system. The model is based on the Voltage Source Converter (VSC) principle. For complete Abstract CLICK HERE

ATBE-04 Project on Unified Power Quality Conditioner (UPQC)

The unified power quality conditioner (UPQC) is a custom power device, which mitigates voltage and current-related PQ issues in the power distribution systems. In this paper, a UPQC topology for applications with non-stiff source is proposed. The proposed topology enables UPQC to have a reduced dc-link voltage without compromising its compensation capability.  For complete Abstract CLICK HERE

ATBE-05 Project on Shunt Active Power Filter (SAPF)

shunt active power filter

Along with increasing demand on improving power quality, the most popular technique that has been used is Active Power Filter (APF); this is because APF can easily eliminate unwanted harmonics, improve power factor and overcome voltage sags. This paper will discuss and analyze the simulation result for a three-phase shunt active power filter using MATLAB/Simulink program. For complete Abstract CLICK HERE

ATBE-06 Project on Distributed Power Generation

distributed power generation

Intentional islanding describes the condition in which a microgrid or a portion of the power grid, which consists of a load and a distributed generation (DG) system, is isolated from the remainder of the utility system. In this situation, it is important for the microgrid to continue to provide adequate power to the load. For complete Abstract CLICK HERE 

ATBE-07 Project on Direct Torque Control (DTC)







Direct torque control (DTC) is one of the most excellent control strategies of torque control in induction machine. It is considered as an alternative to the field oriented control (FOC) or vector control technique. These two control strategies are different on the operation principle but their objectives are the same. For complete Abstract CLICK HERE 

ATBE-08 Project on Matrix Converter

matrix converter

The matrix converter is an array of controlled semiconductor switches that connects directly the three-phase source to the three-phase load. This converter has several attractive features that have been investigated in the last two decades. In the last few years, an increase in research work has been observed, bringing this topology closer to the industrial application.For complete Abstract CLICK HERE 

ATBE-09 Project on Wind Energy

wind energy

Present energy need heavily relies on the conventional sources. But the limited availability and steady increase in the price of conventional sources has shifted the focus toward renewable sources of energy. Of the available alternative sources of energy, wind energy is considered to be one of the proven technologies. For complete Abstract CLICK HERE 

ATBE-10 Project on Distributed Power-Flow Controller (DPFC)


This paper presents a new component within the flexible ac-transmiss on system (FACTS) family, called distributed power-flow controller (DPFC). The DPFC is derived from the unified power-flow controller (UPFC). The DPFC can be considered as a UPFC with an eliminated common dc link. For complete Abstract CLICK HERE 

ATBE-11 Project on Wind Farm with STATCOM

wind farm

When integrated to the power system, large wind farms can pose voltage control issues among other problems. A thorough study is needed to identify the potential problems and to develop measures to mitigate them. Although integration of high levels of wind power into an existing transmission system does not require a major redesign, it necessitates additional control and compensating equipment to enable (fast) recovery from severe system disturbances. For complete Abstract CLICK HERE 

ATBE-12 Project on STATCOM


Injection of the wind power into an electric grid affects the power quality. The performance of the wind turbine and thereby power quality are determined on the basis of measurements and the norms followed according to the guideline specified in International Electro-technical Commission standard, IEC-61400. For complete Abstract CLICK HERE 

ATBE-13 Project on Grid Connected PhotoVoltaic System

grid tied photovoltaic system

Grid connected photovoltaic (PV) systems feed electricity directly to the electrical network operating parallel to the conventional source. This paper deals with design and simulation of a three phase inverter in MATLAB SIMULINK environment which can be a part of photovoltaic grid connected systems. For complete Abstract CLICK HERE 

ATBE-14 Project on Electric Springs





The scientific principle of “mechanical springs” was described by the British physicist Robert Hooke in the 1660’s. Since then, there has not been any further development of the Hooke’s law in the electric regime. In this paper, this technological gap is filled by the development of “electric springs.” The scientific principle.For complete Abstract CLICK HERE 

ATBE-15 Project on Photovoltaic, Wind, Battery

photovoltaic, wind, battery

The main objective of this paper is to enhance the power transfer capability of grid interfaced hybrid generation system. Generally, this hybrid system is a combination of solar and wind energy systems. In order to get maximum and constant output power from these renewable energy systems at any instant of time, this paper proposes the concept of maximum power tracking techniques. For complete Abstract CLICK HERE 

ATBE-16 Project on Induction Motor Drive





In this paper represent the simulation analysis of space vector pulse width modulated (SVPWM) inverter fed Induction motor drives. The main objective of this paper is analysis of Induction motor with SVPWM fed inverter and harmonic analysis of voltages & current. For complete Abstract CLICK HERE 

ATBE-17 Project on Doubly Fed Induction Generator (DFIG)





The application of a dynamic voltage restorer (DVR) connected to a wind-turbine-driven doubly fed induction generator (DFIG) is investigated. The setup allows the wind turbine system an uninterruptible fault ride-through of voltage dips. The DVR can compensate the faulty line voltage, while the DFIG wind turbine can continue its nominal operation as demanded in actual grid codes. For complete Abstract CLICK HERE 

ATBE-18 Project on Multilevel Inverters

This paper proposes a novel three-phase nine-switch ac/ac converter topology. This converter features sinusoidal inputs and outputs, unity input power factor, and more importantly, low manufacturing cost due to its reduced number of active switches. For complete Abstract CLICK HERE 

ATBE-19 Project on Multilevel Inverter 





In this paper, a simple static var compensating scheme using a cascaded two-level inverter-based multilevel inverter is proposed. The topology consists of two standard two-level inverters connected in cascade through open-end windings of a three-phase transformer.For complete Abstract CLICK HERE 

ATBE-20 Project on Microgrid connected PV-Based Sources





the control configuration of a microgrid-connected photovoltaic (MCPV) source. In the control of an MCPV, maximum power point (MPP) tracking, droop control, and dc bus voltage regulation are the main required functions. To increase their penetration in the microgrid, MCPV sources have to participate in the microgrid’s frequency regulation. For complete Abstract CLICK HERE 

ATBE-21 Project on Multilevel Inverters




This paper presents a new E-Type module for asymmetrical multilevel inverters with reduced components. Each module produces 13 levels with four unequal DC sources and 10 switches. The design of the proposed module makes some preferable features with a better quality than similar modules such as the low number of semiconductors and DC sources and low switching frequency. For complete Abstract CLICK HERE

ATBE-22 Project on Brushless DC Motor(BLDC)





The increasing trend towards usage of precisely controlled, high torque, efficient and low noise motors for dedicated applications has attracted the at tention of researcher in Brushless DC (BLDC) motors. BLDC motors can act as an acceptable alternative to the conventional motors like Induction Motors, Switched Reluctance Motors etc. For complete Abstract CLICK HERE

ATBE-23 Project on Grid Tied PV( Photovoltaic) System





This study analyzes various anti-islanding (AI) protection relays when the islanding condition of Grid-Tied PV (photovoltaic) System appears at the Point of Common Coupling (PCC) between the PV Solar Power System and the power grid. The main purpose of the study is to determine the performance of several AI prevention schemes in detecting the presence of an island, by monitoring the detection time of the islanding condition through different methods. For complete Abstract CLICK HERE

ATBE-24 Project on Sensorless Vector Control of Induction Motor





Model Reference Adaptive System (MRAS) based techniques are one of the best methods to estimate the rotor speed due to its performance and straightforward stability approach. These techniques use two different models (the reference model and the adjustable model) which have made the speed estimation a reliable scheme especially when the motor parameters are poorly known or having large variations.  For complete Abstract CLICK HERE

ATBE-25 Project on Power Factor Correction




This paper presents a single-stage flyback power factor- correction (PFC) front-end for high-brightness light emitting- diode (HB LED) applications. The proposed PFC front-end circuit combines the PFC stage and the dc/dc stage into a single stage. .For complete Abstract CLICK HERE

ATBE-26 Project on PFC Boost Converter






The paper evolves a mechanism for improving the input power factor of an AC-DC-DC conversion system. It involves the process of shaping the input current wave to phase align with the input supply through a process of error compensation..For complete Abstract CLICK HERE

ATBE-27 Project on DC Electric springs

This paper deals with the reduction of power drawn from the supply system during generation un-certainties in D.C Micro grids using D.C Electric springs. In this work supply system is modeled using a fluctuating power source and a battery i.e. during generation uncertainties the system runs on battery support.For complete Abstract CLICK HERE

ATBE-28 Project on Power Factor Correction Converter





In this paper an analysis and real time implementation of unity power factor correction converter (PFC) based on fuzzy logic controller is studied. A single phase AC–DC boost converter is realized to replace the conventional diode bridges rectifier. For complete Abstract CLICK HERE

ATBE-29 Project on Fuzzy Logic Control





Maximum power point trackers are so important in photovoltaic systems to increase their efficiency. Many methods have been proposed to achieve the maximum power that the PV modules are capable of producing under different weather conditions.For complete Abstract CLICK HERE

ATBE-30  Project on BUCK Converter based LED Drive

Buck converter has a good aptitude for LED driver application. Here a new technique introduced to control and model a buck converter in the closed loop condition using Lagrange equation. To improve the final model accuracy, parasitic elements of the converter are taken into account. For complete Abstract CLICK HERE

ATBE-31  Project on On-Board Electric Vehicle Charger

The scarcity of fossil fuel and the increased pollution leads the use of Electric Vehicles (EV) and Hybrid Electric Vehicles (HEV) instead of conventional Internal Combustion (IC) engine vehicles. For complete Abstract CLICK HERE

Electrical Engineering Projects IEEE for BE/BTech

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