Category: MATLAB Projects

Download All MA TLAB Final Year Projects, MAT LAB project Reports, MAT LAB Projects Ideas. Electronics and Electrical b.tech final year and third year students can download MATLAB Projects with source code, MATLAB Projects for eee and ece with project reports and abstracts.

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FPGA Based Implementation Of 7-Tap Folded Pipelined Fir Filter MATLAB Project

ABSTRACT:The objective of  FPGA Based Implementation Of 7-Tap Folded Pipelined Fir Filter is to develop real time, reliable and fast digital signal processing systems which can be achieved through hardware implementations. In this project a new design is proposed i.e, FPGA based implementation of a folded pipelined 7-tap Finite-impulse response (FIR).

 The design of 7-tap folded finite-impulse response (FIR) filter based on pipelined multiplier arrays is considered.  Multiplier arrays have canonic structure and can achieve high throughput since they can be pipelined at the bit-level.. The carry–save multiplier array is examined. In order to achieve further hardware reduction the intermediate results are handled directly in bit-skew form, in which they are produced by the arrays.

Implementation strategy for 7-tap the FIR filters includes the Verilog HDL code for each block is written in a synthesizable way.  Test benches are written for each module and are simulated in Xilinx Sim environment. After satisfactory functioning of each block, these blocks are combined to form the filter. This filter block is then tested by generating appropriate test vectors through test bench.

Download FPGA Based Implementation Of 7-Tap Folded Pipelined Fir Filter MATLAB Project Abstract

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MATLAB Projects

 Matlab Projects List:

This category consists of MATLAB Projects, MATLAB Projects for ECE and EEE,MATLAB Projects on image processing,MATLAB Projects abstracts,MATLAB Projects project reports.

  1. Modeling of Armature Controlled DC Motor Using MATLAB Project Report
  2. SIMULATION OF EXTRA HIGH VOLTAGE LONG TRANSMISSION LINES
  3. Pulse Width Modulation (PWM) Btech EEE Final Document
  4. Simulation and Fault analysis of HVDC on MATLAB
  5.   Text Extraction System ECE Seminar Topic
  6. Sensor less Vector Control of Induction Motor EEE Project
  7. Design Of 7 TAP FIR Filter Using HDL And Analysis Using MATLAB
  8. Design and Implementation of Butter worth Filter Using VHDL AMS
  9. Implementation OF CDMA Signaling Technique Using MatLab
  10. Design And Implementation Of A Digital To Analog Converter Using VHDL AMS
  11. Implementation Of DCT and IDCT Technique On Image Compression Using VHDL
  12. Design Of DDR SDRAM Using Verilog HDL
  13. Design And Implementation OF a PLL Using VHDL AMS
  14. FPGA Implementation of USB Receiver in HDL
  15.   Pulse Width Modulated Switching Strategy for the dynamic balancing
  16. New Technology For HVDC Start-Up and Operation Using VSC-HVDC System
  17. Possibility of Power Tapping From Composite AC-DC Power Transmission Lines
  18. Enhancing The Available Transfer Capability From Source
  19. COMBINED ECONOMIC AND EMISSION DISPATCH USING GENETIC ALGORITHM & LAMBDA
  20. Base Paper on Fuzzified Particle Swarm Optimization
  21. S-Transform to Monitor Power Quality project
  22. DC-DC Converter Adequate for Alternative Supply System
  23. SPEED CONTROL OF INDUCTION MACHINE IN WIND ENERGY SYSTEMS
  24. Enhancement of Voltage Quality in Isolated Power Systems
  25. Stability In Power Systems Project.
  26. DESIGN, MODELING AND SIMULATION OF FUZZY CONTROLLED SVC FOR 750Km (λ/8) TRANSMISSION LINE
  27. Reactive Power Compensation In railways Using Active Impedance Concept
  28. New Technology for High Voltage Direct current using VSC-HVDC System
  29. Project on Unified Power Flow.
  30. List of Mat Lab and VLSI projects
  31. A Low Power Digital Based Reconfigurable FIR Filter
  32. Design and Implementation of a Full Custom of a Full Adder & Subtractor MAT LAB project
  33. Implementation of DCT &IDCT Technique on Image Compression Using VERILOG HDL
  34. Implementation of Image Compression Using DWT Abstract
  35.   Implementation Of Image Compression Using DCT Abstract
  36. Implementation And Rejection Of Interference In Bluetooth Voice Transmission Using Simulink
  37. Implementation of AES ENCRYPTION in HDL MATLAB Project
  38. Implementation of AES DECRYPTION in HDL MATLAB Project
  39. FPGA Based Implementation Of 7-Tap Folded Pipelined Fir Filter MATLAB Project
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Modeling of Armature Controlled DC Motor Using MATLAB Project Report

Introduction To Mechanical Mat-lab Project:

           A DC motor is a basically a simple electric motor that uses both electric field as well as magnetic field to produce a torque that can run a motor. This conversion of energy is utilized for the generation of electricity. The project “Modeling of Armature Controlled DC Motor Using MATLAB Project Report” designs a DC motor that is armature controlled. Hence here the armature coil is responsible of the magnitude of the current produced.

         The principle of operation used in this motor is electromagnetism. According to this principle, whenever a conductor that is carrying some current is placed in an external magnetic field a force will be experienced by it. This force generated is proportional to the current flowing in the conductor and also on the strength of the external magnetic field.

Description:

            In the project Modeling of Armature Controlled D.C Motor Using MATLAB the armature control method is employed. In this method, the voltage which is applied to the armature circuit of the motor is changed by keeping the voltage supplied to the field circuit of the motor constant.

            Thus, here the motor must be excited by an external source in order to implement the armature voltage control. As the armature voltage is increased, the no-load speed of the DC motor increases. However the slope of the torque-speed characteristics do not change as the flux produced is a constant parameter.

Conclusion:

       In this project the speed of the DC motor is controlled by the armature. However there are many other methods that can be used to control the speed of the DC motor. There’s the voltage control method in which changes in voltage are made to control the speed of the motor. In the flux control method, the speed is controlled by making changes in the flux. Another method is rheostatic control in which the rheostat variations control the speed.

Download Modeling of Armature Controlled DC Motor Using MATLAB Project Report.

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Simulation of Extra High Voltage Long Transmission Lines

Simulation of Extra High Voltage Long Transmission Lines: The electrical power system has three principle divisions the generating stations, the transmission system and the distribution system. The transmission lines link between generating station and the distribution system that lead to other power system interconnections. Today, we are using of Extra High Voltage (EHV) transmission lines for transmission of power between the generating station and distribution system in India.

The main reasons are the construction of super power stations of very large capacities needs the transmission at high voltage so use EHV lines and at high voltages power loss is also reduced since losses are directly proportional to the square of current.

With MATLAB, the simulation of transmission line analyzes the behaviors and parameters of transmission line under the actual conditions to simulate a long transmission line and analyze the waveforms at sending and receiving end. The results after simulation help in designing Extra High Voltage Long Transmission Line Model.

The network is divided into two parts transmission and distribution and transmission system is the main part.  Bulk electrical power transmits from sending end to receiving end stations by transmission line without any consumer and divided into primary and secondary parts. The transmission voltages in India are 66kV, 110kV, 132kV, 220kV, 400kV and 765kV.

The more voltages of transmission line make better performance and efficiency of the system and for this high voltage and extra high voltage transmission lines are used to transmit electrical power from the sending end to the receiving end substations.

The transmission line performance has four parameters. They are Series resistance, Series inductance, Shunt capacitance, and Shunt conductance.

Conclusion:

It is concluded that electrical energy is generated in large hydro electric, thermal and nuclear super and super critical power stations and these stations are present away from the load centers. This is an extensive power supply network between the generating station and consumer load.

Download Simulation of Extra High Voltage Long Transmission Lines EEE Project Report.

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Pulse Width Modulation (PWM) Btech EEE Final Document

Pulse Width Modulation (PWM) Btech EEE Final Document technique is an effective method to control the speed of induction motor. This paper is about the development of the algorithm to do the PWM operation with the help of Matlab Simulink that interfaced with the actual induction motor by Matlab/Real time workshop.

The induction motor speed was controlled by the I/O interface circuit and Simulink to allow the real time control. The control algorithm enables the rotational direction switching and these functions are carried out in Matlab simulation in actual model successfully. It is a means to control speed of induction motor by a host PC connected by local area network or wireless network.

The techniques available for the speed of induction motor are varying to change rotor resistance or terminal voltage and varying synchronous speed with change in number of poles or supply frequency. To change rotor resistance, wound-rotor induction motor is required and resistances are inserted to the rotor circuit that reduces the efficiency of the machines. The change in terminal voltage limits range of speed control.

PWM technique controls the electrical frequency of the 3-phase voltage which is supplied to the motor from the Insulated Gate Bipolar Transistors (IGBTs) inverter circuit therefore the speed is allowed to the frequency of the reference signal, input to the PWM signal generator. The Real time workshop uses in performing real-time analysis, simulation, and testing of control systems and digital signal processing (DSP) systems.

The host-target environment allows users to connect models created in Math Works design like Simulink, Matlab, and Real-Time Workshop, to physical systems, and execute in real time. The control algorithm also developed in forward or reverse direction.

Pulse Width Modulation (PWM) Btech EEE Final Document Conclusion:

The development of the algorithm performs the PWM operation using Matlab Simulink, and implementation to actual model using the Matlab/Real time workshop that controls the speed of induction motor.

Download Pulse Width Modulation (PWM) Btech EEE Final Document.

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Simulation and Fault analysis of HVDC on MATLAB

This Simulation and Fault analysis of HVDC on MATLAB report has clearly demonstrated the methodology for modeling steady state operation of HVDC transmission system rectifier using universally available software Mat lab/Simulink. Functioning of complex HVDC transmission system converter can be obtained by analytical modeling. Further easy to comprehend analytical model in universally available software like Matlab/Simulink can help in fast spread of complex HVDC system.

Advancements in power electronics are making high Voltage Direct Current Transmission Systems (HVDC) more and more attractive and reliable. Developing countries like India and China with their ambitious power capacity enhancement program are installing more HVDC systems for long distance transmission. More can be obtained from huge investments in complex HVDC systems if operation and maintenance personnel have deeper understanding about the functioning of these systems. Further commissioning/maintenance errors may be minimized if the consequences of such errors are known and appreciated by the concerned personnel. Easy to comprehend, simple analytical HVDC converter model as developed in universal software Matlab/Similink in this report can prove to be very useful for operation and maintenance personnel. The model illustrates steady state operation of HVDC system converter and can be used to comprehend commutation and overlap, valve firing sequence, AC current and voltage waveforms in converter transformer & the source, and DC current including ripple. The model also helps in understanding the role and importance of AC filters.

ADVANTAGES: System stability. loss of corona is less  and radio interferences. Great reliability. Bulk power long distance transmission .Tower size and cost.

Disadvantages : Cost of converting station. Reactive power requirement. Less overload capacity.

Loss in cooling system. Absence of suitable circuit breaker.

Simulation and Fault analysis of HVDC on MATLAB Conclusion:

This report has clearly demonstrated the methodology for modeling steady state operation of HVDC transmission system rectifier using universally available software Matlab/Simulink. Further the model as developed is very useful in plotting the converter system firing angle verses direct current characteristics and determining the corresponding overlap angle in an easy and iterative manner.

Download Simulation and Fault analysis of HVDC on MATLAB.