BITS Pilani

  • Page last updated on Tuesday, November 14, 2017

Power Electronics Lab

banner
Power Electronics Lab

Courses to cater

EEE F342 / INSTR F342 Power Electronics Lab
  • BE(H) Electrical and Electronics
  • BE (H) Electronics & Instrumentation Engineering students

Facilities

Simulation Software
  • Matlab version 2015a
  • Psim-one user
Hardware
  • 3 – Phase Auto Transformer: Rating: 4.5 KVA, I/P: 415V, O/P:  0 – 415V.
  • POWER MODULE: 3 Phase AC voltage:  0 – 100V / 10A, 1 Phase AC Voltage:  0 -100V / 10A, DC Voltage:  0 – 100V / 10A.
  • SCR – DIODE POWER MODULE:
  • IGBT – DIODE POWER MODULE:
  • Resistive Load: 0 – 50 – 100 ohms / 10A
  • Function Generator 2 Channel: 25MHz,125MS/s
  • Digital Storage Oscilloscopes: 60MHz, 1GS/s & 50MHz, 1GS/s
  • Triple Channel DC Regulated Power Supply: Channel A:  0 – 30V / 2A, Channel B:  ±15V / 1A, Channel C:  5V / 5A
  • ACE 1103_PX4CLP_USB ACE Kits (Advanced Control Education Kit 1103).
  • POWER QUALITY & ENERGY ANALYZER.
  • SCOPE METER (190 -204).
  • MD TLDNC B61 600/415-35F IGBT Based 3 Level Inverter:[ Three level diode 
  • Clamped inverter used to convert DC voltage to AC voltage.]
  • Digital Storage Oscilloscope 200 MHz, 4 Isolated channels: [To measure / observe input and output phase / Line voltages]
  • Current Probe: 100Khz: 10mA to 100mA: AC/DC: BNC

Experiments

  1. Introduction to Power electronics Lab simulation and Hardware setup.
  2. Single Phase Uncontrolled (Diode) Rectifier.
  3. Three phase Uncontrolled (Diode) Rectifier
  4. Single phase and Three phase uncontrolled rectifier with Smoothing Capacitor
  5. To study the operation of single phase fully controlled converter
  6. To study the operation of single phase half controlled converter
  7. To study the operation of three phase fully controlled converter
  8. To study the operation of Buck, Boost, and Buck-Boost DC –  DC Converter
  9. PWM and Non – PWM Inverter
  10. AC to AC Control using Triac

News

 
[Project] Dr. Souvik Kundu (PI) and Prof. Souri Banerjee (Physics, co-PI) received a project from BRNS (3 years, ~35 lakhs) - "Metal-oxide and Nanocomposite based low-power non-volatile switching device".
 
[PhD Student Paper] Manu Gupta, V Rajagopalan, E P Pioro, B.V.V.S.N. Prabhakar Rao, Volumetric Analysis of MR Images for Glioma Classification and their Effect on Brain Tissues, Signal, Image and Video Processing, Published Online, 2017. 
 

Events

[15 Sep 2017Visit by Prof. R. Karmalkar, IIT Madras
 
[24 Aug 2017Visit by Prof. Varun Jeoti (Signal processing and Wireless communication), University Technology Petronas, Malaysia 
 
[11 Aug 2017Interaction with New EEE Students
 

Recent Publications

Detailed List...

1. Manu Gupta, V Rajagopalan, E P Pioro, B.V.V.S.N. Prabhakar Rao, Volumetric Analysis of MR Images for Glioma Classification and their Effect on Brain Tissues, Signal, Image and Video Processing, Published Online, 2017.  

2. S. Chitraganti, R. Toth, N. Meskin, J. Mohammadpour, Stochastic model predictive tracking of piecewise constant references for LPV  SystemsIET Control Theory & Applications, in press, 2017.

3. Soham Jariwala, Rohit Nagpal, Saksham Phul, Sanket Goel and Balaji Krishnamurthy, Modeling the performance of an enzymatic glucose fuel cell, accepted for publication with Journal of Electroanalytical Chemistry, 2017.

4. Venkateswaran PS, Santosh Dubey, Abhishek Sharma, Ajay Agarwal and Sanket Goel*, Stereolithographic 3D Printed Microfluidic viscometer for Rapid Detection of Automobile Fuel Adulteration, accepted for publication with Sensor Letters, 2017.

5. S. K. Sahoo, A. Gangishetty, R. Sahoo and M. Muglikar, High Performance Ternary Adder using CNTFET, IEEE Transactions on Nanotechnology , Vol. 99, pp.1-1. 2017.

6. Young Ho Kim, Jeong-Woo Sohn,  Yeon Kyung Lee, Jaehoon Jung, Minyeong Jeong, Sanket Goel, Hee Jin Kim,  Sang-June Choi, Preparation of pH Sensitive MMT/PEGMEA Nanocomposite Micropatterns by Rapid and Simple UV Curing Procedures,Journal of Nanoelectronics and Optoelectronics, Vol 12(6), pp. 550-556, 2017.

7. Ganesh Kumar Ganjikunta and Subhendu Kumar Sahoo, An area-efficient and low-power 64-point pipeline Fast Fourier Transform for OFDM applications, Integration, the VLSI Journal, Vol. 57, pp. 125-131, 2017.

8. Kotha Srinivasa Reddy and Subhendu Kumar Sahoo, An approach for fixed coefficient RNS-based FIR filter, International Journal of Electronics, Vol. 104 (8), 2017.

An institution deemed to be a University estd. vide Sec.3 of the UGC Act,1956 under notification # F.12-23/63.U-2 of Jun 18,1964

© 2017 Centre for Software Development,SDET Unit, BITS-Pilani, India.

Designed and developed by fractal | ink design studios