INTRODUCTION

CHAPTER Vconclusion

5.1 CONCLUSION

This project has developed a Design and Implementation of Cycloconverter Using Microcontroller on control of gate triggering pulses for F/2 and F/4. Here we are using the Arduino microcontroller for variation in frequency and voltage changes. In this Arduino controller it will control the gate triggering pulses for a time delay of 10ms. For every 10ms the program will turn on the gate pulses triggering for the change in output. By using the Arduino controller there will not be any distortion in pulses. Exact output pulses are obtained using Arduino microcontroller. In this we have only the program for controlling the F/2 and F/4 pulses to get output.

5.2 FUTURE SCOPE

These are some of the technique where we can implement our project design and implementation of cycloconverter using microcontroller are listed below:

1. Transformer protection panel

2. Working model of maglev

3. Maximum power point tracking

4. Motorised wheel chair

5. Controller of electrical vehicle

6. Cathodic protection

7. Numerical relay

8. Variable frequency drive

9. Electrical bicycle

10. Computer aided power flow analysis

11. Speed control of three phase induction motor by V/F method using PWM technique

12. Solar tracking system

references

1. Rashid, M. H., Power Electronics: Circuits, Devices, and Applications, Prentice-Hall, Englewood Cliffs, NJ, 1993.

2. Rashid, M. H. SPICE for Power Electronics and Electric Power, Prentice-Hall, Englewood Cliffs, NJ, 1993

3. Power Electronics, by Dr.P.S.Bimbhra.

4. SCR manual, 5th Edition, N.Y., General Electric Company, 1972.

5 F.E. Gentry et.al, semiconductor controlled rectifiers, prentice-Hall of

India New Delhi, 1964

6. B.K Bose, Power Electronics and Ac Drives, Prentice-Hall, Englewood cliffs, new jersey 07632, 1986.

PAGE 26