Bangladesh University of Engineering and Technology (BUET)
Department of Electrical and Electronic Engineering
West Palashi, Dhaka-1205, Phone: +(880 2) 9668054 (Direct), 55167100 (PABX) Ext. 6150, Fax: +(880 2) 9668054 EEE-Home, BUET-Home
Kazi Mujibur Rahman, Ph.D.
Professor
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology (BUET)
ECE Building
West Palashi, Azimpur Road
Dhaka-1205, Bangladesh
Phone: +880-2-55167100, +880-2-55167228-57 (PABX) Ext. 6138
Fax: +(880 2) 9668054
Email: kmr@eee.buet.ac.bd
Website: http://kmr.buet.ac.bd
Research Interests
Power Electronics and Drives
Electrical Machines and Power System
Switchgear and Protective Relaying
Microcontroller Based Design and Embedded Systems
Data Acquisition
Automation of Industrial Systems
Computer Based Controls
Instrumentation
Software Programming
Database
Networking
Supervisory Control and Data Acquisition (SCADA)
Internet of Things (IoT)
GIS
Testing of Electrical Systems
Testing Automation
Power Quality Analysis
Smart Grid Technologies
Renewable Energy Systems
Application Interface for Intelligent Systems
Integrated Circuit Based Design
EDUCATION
Ph. D.
Year (2000)
Ph.D. in Electrical and Electronic Engineering
with specialization in Power Electronics from
Bangladesh University of Engineering and Technology (BUET),
Dhaka, BangladeshM. Tech.
Year (1992)
M. Tech. in Industrial Electronics (First Class)
with Specialization in Power Electronics
from S. J. College of Engineering of Mysore University,
Mysore, IndiaB. Sc. Engineering
Year (1983)
B. Sc. in Electrical and Electronic Engineering (First Class)
from the Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology (BUET),
Dhaka, BangladeshHigher Secondary School Certificate (HSC)
Year (1978)
HSC in Science and Industrial Arts (First Division)
Board of Intermediate and Secondary Education, Comilla
Comilla Victoria Government College
(Secured 9th position in combined merit)Secondary School Certificate (SSC)
Year (1976)
SSC in Science .(First Division)
Board of Intermediate and Secondary Education
Comilla, Debidwar Reazuddin High SchoolElementary School
Year (1966-1970)
Elementary education upto class Five
Barera Free Primary School
Comilla, BangladeshSERVICE HISTORY
Professor
May 2014 upto date
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology
(BUET), Dhaka-1000, BangladeshVisiting Professor
13 June 2013 to 12 May 2014
Department of Electrical and Electronic Engineering
East West University, Dhaka, Bangladesh
(On one year sabbatical leave from BUET)Professor
3 February 2007 to 12 may 2013
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology
(BUET), Dhaka-1000, BangladeshAssociate Professor
14 June 2006 to 2 Feb. 2007
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology
(BUET), Dhaka-1000, BangladeshAssociate Professor
16 June 2004 to 13 June 2006
Department of Mechatronics Engineering
International Islamic University Malaysia
Kuala Lumpur, Malaysia
(On extraordinary leave from BUET)Associate Professor
22 April 2006 to 15 June 2006
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology
(BUET), Dhaka-1000, BangladeshCOE Visiting Researcher
16 September 2003 – 21 April 2004
Research Center for Nanodevices and Systems (RCNS)
Hiroshima University, Japan
(On study leave from BUET)Associate Professor
01 March 2001 to 15 September 2003
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology
(BUET), Dhaka-1000, BangladeshAssistant Professor
16 October 1996 – 28 February 2001
Department of Electrical and Electronic Engineering
Bangladesh University of Engineering and Technology
(BUET), Dhaka-1000, BangladeshAssistant Professor
22 September 1986 – 21 August 1996
Department of Electrical and Electronic Engineering
Bangladesh Institute of Technology (BIT)
Chittagong, BangladeshLecturer
1 September 1984 – 21 September 1986
Department of Electrical and Electronic Engineering
Chittagong Engineering College
Chittagong, Bangladesh
PUBLICATIONS
Journals
1. M. Quamruzzaman, K. M. Rahman, “A modified Perturb and observe maximum power point tracking technique for single-stage grid-connected photovoltaic inverter”, WSEAS Transactions on Power Systems, volume 9, issue , year 2014, pp. 111 - 118
2. J.F Khan,. S.M.A. Bhuiyan,., K. M. Rahman and G. V. Murphy, “Space vector PWM for a two-phase VSI”, International Journal of Electrical Power & Energy Systems, volume 51, issue , year 2013, pp. 265 – 277.
3. M. Quamruzzaman and K.M. Rahman, "Phase Angle Based Control Strategy for Single-Stage Grid-Connected PV System", International Energy Journal (IEJ), Volume 12, Issue 3, pp. 167-178, September 2011.
4. K. M. Rahman and S. J. M. Idrus, “An AT89C52 Microcontroller Based High Resolution PWM Controller for 3-Phase Voltage Source Inverters”, IIUM Engineering Journal, vol. 6, no. 2, pp. 27-35, 2005.
5. K. M. Rahman and M. A. Choudhury, “New Technique of Implementation of the Control Scheme of a Dual-Converter using AT89C51 and Mixed Analog-Digital-Memory Circuitry”, Bangladesh Journal of Information and Communication Technology, vol. 8, no. 1, pp. 1-4, 2004.
6. K. M. Rahman, M. Rezwan Khan, M. A. Choudhury, “Implementation of Programmed Modulated Carrier HCC Based on Analytical Solution for Uniform Switching of Voltage Source Inverters", IEEE Transactions on Power Electronics, Vol. 18, No. 1, pp. 188-197, January 2003.
7. K. M. Rahman, M. Bashir Uddin and M. A. Choudhury, "Trend of Stability of Synchronous Motors Fed from Supplies having Simultaneous Voltage and Frequency Control", International Journal of Power and Energy Systems, Vol. 23, No. 1, pp. 62-70, 2003.
8. K. M. Rahman, M. A. Choudhury, M. Rezwan Khan, M. A. Kashem and M. R. Yusoff, “Frequency modulated PWM for voltage source inverters”, International Journal of Power and Energy Systems, Vol. 21, No. 2, pp. 74-80, 2001.
9. K. M. Rahman, “Comparative Analysis of Left and Center Justified PWM for 3-Phase Voltage Source Inverters”, Journal of Electrical Engineering, Vol. 28, No. 1, pp. 41-46, June 2000.
10. K. M. Rahman and Mohammad Zahed Kauser, “PC based DC shunt motor speed controller in WINDOWS environment”, Journal of Electrical Engineering, 2000.
11. K. M. Rahman, M. N. Anwar and M. A. Choudhury, “Microcomputer Implementation of Three Phase PWM Strategies for Static Voltage Source Inverter Control”, Journal of Electrical Engineering (IEB), vol. EE25, no. I & II, pp. 55-61, December 1997.
12. K. M. Rahman, M. R. Khan, M. A. Choudhury and M. A. Rahman, "Variable Band Hysteresis Current Controllers for PWM Voltage Source Inverters", IEEE Transactions on Power Electronics, vol. 12, no. 6, pp. 964-970, November, 1997.
13. K. M. Rahman, "A Modified Self Oscillating Switching Buck Regulator with Adaptive Frequency and Pulse Width Control ", Journal of the Bangladesh Electronics Society, Vol. 4, No. 1, pp. 17-20, 1994.
14. K. M. Rahman, "Gate Drives for Power MOSFETs", Journal of the Bangladesh Electronics Society, Vol. 3, No. 1, pp. 41-46, 1993.
15. K. M. Rahman and M. Yeasin, "Microprocessor Controller for an Adaptive Resonant Inverter ", Journal of the Bangladesh Electronics Society, Vol. 3, No. 1, pp. 37-39, 1993.
Conferences
1. Md. Shamim Ul Alam, Muhammad Quamruzzaman and K. M. Rahman, “Fuzzy logic based sliding mode controlled DC-DC boost converter”, Proceedings of the 6th International Conference on Electrical and Computer Engineering, ICECE 2010, 18-20 December 2010, Dhaka, Bangladesh, pp. 70-73.
2. Muhammad Quamruzzaman and K. M. Rahman, “Development of a new phase angle controlled grid connected PV inverter”, Proceedings of the 6th International Conference on Electrical and Computer Engineering, ICECE 2010, 18-20 December 2010, Dhaka, Bangladesh, pp. 82-85.
3. Ainul Aman Shahjamal Khan and K. M. Rahman, “Voltage mode control of single phase boost inverter”, Proceedings of the 5th International Conference on Electrical and Computer Engineering, ICECE 2008, 20-22 December 2008, Dhaka, Bangladesh, pp. 665-670.
4. Muhammad Quamruzzaman and K. M. Rahman, “Development of control strategy for load sharing in grid connected PV power system”, Proceedings of the 5th International Conference on Electrical and Computer Engineering, ICECE 2008, 20-22 December 2008, Dhaka, Bangladesh, pp. 671-675.
5. Rajib Mikail and K. M. Rahman, "A sensorless adaptive rotor parameter estimation method for three phase induction motor”, Proceedings of the 5th International Conference on Electrical and Computer Engineering, ICECE 2008, 20-22 December 2008, Dhaka, Bangladesh, pp. 676-681.
6. K. M. Rahman and M. A. Choudhury, “Dead-Time Compensated Pulsewidth Modulator for a 3-Phase VSI Implemented with an AT89C52 Microcontroller", Proceedings of the 4th International Conference on Electrical and Computer Engineering, ICECE 2006, 19-21 December 2006, Dhaka, Bangladesh, pp. 466-472.
7. K. M. Rahman, “Microcontroller Based PWM Engine for Real Time Control of Three Phase Inverters”, Proceedings of the Int. Conf. on Computer and Communication Engineering, ICCCE’06, 9-11 May 2006, Kuala Lumpur, Malaysia, pp. 1305-1312.
8. K. M. Rahman and H. J. Mattausch, “Novel Analog Winner Take All Network for High Speed Search Engine”, Proceedings of the Int. Conf. on Computer and Communication Engineering, ICCCE’06, 9-11 May 2006, Kuala Lumpur, Malaysia, pp. 11-15.
9. K. M. Rahman and A. H. M. Zahirul Alam, “Multi-channel Data Acquisition through PC Parallel Port”, Proceedings of the Int. Conf. on Computer and Communication Engineering, ICCCE’06, 9-11 May 2006, Kuala Lumpur, Malaysia, pp. 1232-1237.
10. K. M. Rahman, “Novel Ground Isolated Power-MOSFET/IGBT Drive for Battery Driven Actuators”, Proceedings of the Int. Conf. on Computer and Communication Engineering, ICCCE’06, 9-11 May 2006, Kuala Lumpur, Malaysia, pp. 1238-1242.
11. K. M. Rahman, “Microcontroller Based PWM Engine for Real Time Control of Three Phase Inverters”, Proceedings of the Int. Conf. on Computer and Communication Engineering, ICCCE’06, 9-11 May 2006, Kuala Lumpur, Malaysia, pp. 1305-1312.
12. K. M. Rahman, M. J. E Salami et al, “On the Development of an Intelligent Blender for Household and Commercial Food Processing”, Proceedings of the Int. Conf. on Computer and Communication Engineering, ICCCE’06, 9-11 May 2006, Kuala Lumpur, Malaysia, pp. 1320-1323.
13. K. M. Rahman and S. J. S. Idrus, “An AT89C52 Microcontroller Based High-Resolution PWM Controller for 3-Phase Voltage Inverters”, Proceedings of the 2nd International Conf. on Mechatronics, ICOM05, 10-12 May 2005, Kuala Lumpur, Malaysia, pp. 240-247.
14. K. M. Rahman and S. J. S. Idrus, “An AT89C51 Microcontroller Based Scheme for Motion Control Applications with 5-Degrees of Freedom”, Proceedings of the 2nd International Conf. on Mechatronics, ICOM05, 10-12 May 2005, Kuala Lumpur, Malaysia, pp. 248-255.
15. K. M. Rahman, Kazuhiro Kamimura, Tetsushi Koide and Hans Jürgen Mattausch “Improved Mixed Digital-Analog Nearest-Match Circuit for Fully-Parallel Associative Memories", 2nd Hiroshima International Workshop on Nanoelectronics for Terra Bit Information Processing, Hiroshima University, 30 January 2004, Higashi-Hiroshima, Japan.
16. K. M. Rahman, M. A. Choudhury and T. A. Zulfikar, “An AT89C51 Microcontroller Based Control Circuit for Dual Three Phase Controlled Rectifier”, Proceedings of the 3rd Int. Conf. on Electrical and Computer Engineering, ICECE 2004, 28-30 December, 2004, pp. 347-350.
17. A.E. Islam, K.M. Rahman, M.A. Choudhury, S.M.J. Al-Kadry, M.M. Islam, S.M.M. Rahman, A.M. Rizwan, “Low-Cost Implementation of High-Resolution PWM Scheme for Adjustable Speed Drives”, Proceedings of the 3rd Int. Conf. on Electrical and Computer Engineering, ICECE 2004, 28-30 December, 2004, pp.335-338.
18. M. H. Bhuyan, K. M. Rahman and M. A. Choudhury, “DSP Based Three Level PWM for Two Phase Inverter”, Proceedings of the 3rd Int. Conf. on Electrical and Computer Engineering, ICECE 2004, 28-30 December, 2004, pp. 355-358.
19. A. K. M. Sadrul Islam, M. Quamrul Islam, K. M. Rahman and M. Rezwan Khan, “Developing a Pedaling Generator-for Household Electricity Supply in Rural Bangladesh A Feasibility Study”, Proceedings of the International Conference on Renewable Energy for Rural Development, 19-21 January 2002, Dhaka, Bangladesh, pp. 281-284.
20. K. M. Rahman, M. U. Rahman, M. H. A. Hasnat and K. M. Sazzad, “GUI Based Integrated Relaying for SCADA System”, International Conference on Electrical and Computer Engineering (ICECE 2002), 26-28 December 2002.
21. K. M. Rahman, "Comparative analysis of Two Level and Three Level PWM for Two Phase Inverter", International Conference on Electrical and Computer Engineering (ICECE 2002), 26-28 December 2002.
22. Jesmin Farzana Khan, Sharif Md Ataullah Bhuiyan and K. M. Rahman, “Improvement of Output Phase Voltage Amplitude of a Two-Phase Inverter by Using Space Vector PWM”, International Conference on Electrical and Computer Engineering (ICECE 2002), 26-28 December 2002.
23. Muhammad Quamruzzaman and K. M. Rahman, “Implementation of a Look Up Table Based Hybrid PWM Scheme for Voltage Source Inverters”, International Conference on Electrical and Computer Engineering (ICECE 2002), 26-28 December 2002.
24. Md. A. Anam, R. Ahsan, H. Mustabsir, K. M. Rahman, “Internet Based Control of Real-Time Systems”, International Conference on Electrical and Computer Engineering (ICECE 2002), 26-28 December 2002.
25. Mohammad Nazriar Rahman, Mohammad Ilias Jamil, Fahmid Salman Shah and K. M. Rahman, “PC Parallel Port Interfacing Using JAVA”, International Conference on Computer and Information Technology (ICCIT 2002), 26-28 December 2002, Dhaka, Bangladesh.
26. K. M. Rahman, M. U. Rahman, M. H. A. Hasnat and K. M. Sazzad, “A GUI Based Coordinated Overcurrent Relaying Scheme for Sub-Regional SCADA System”, Proceedings of the International Conference on Electrical and Computer Engineering (ICECE 2001), Dhaka, pp. 119-122, 5-6 January 2001.
27. K. M. Rahman, “A New Uniform Switching Adaptive Current Controller for High Performance AC Drives and Static Inverters”, Proceedings of the International Conference on Electrical and Computer Engineering (ICECE 2001), Dhaka, pp. 266-269, 5-6 January 2001.
28. K. M. Rahman, B. I. Morshed, S. M. Khan and M. A. Hasan, “A PC Based Fuzzy Controller for DC Voltage Stabilization”, Proceedings of the International Conference on Computer and Information Technology (ICCIT’ 2000), Dhaka, pp. 44-48, 25-26 January 2001.
29. K. M. Rahman, “Analysis and Implementation of PC Based Space Vector PWM Controller for VSI Inverters and AC Drives”, Proceedings of the International Conference on Computer and Information Technology (ICCIT’ 2000), Dhaka, pp. 49-54, 25-26 January 2001.
30. K. M. Rahman, M. A. Choudhury, M. R. Khan and M. A. Rahman, “Sine PWM Current Tracking Controller A New Uniform Switching Current Controller for VSI Fed AC Motor Drives”, Proceedings of the Universities Power Engineering Conference UPEC 2001, University of Wales Swansea, 12-14 September 2001.
31. K. M. Rahman, B. I. Morshed, S. M. Khan, M. A. Hasan and M. A. Rahman, “Excitation Control of Synchronous Generators Using Fuzzy Technique”, Proceedings of the Universities Power Engineering Conference UPEC 2001, University of Wales Swansea, 12-14 September 2001.
32. K. M. Rahman, K. M. Z. Shams and A. H. M. Zahirul Alam, “FPGA Implementation of Space Vector PWM Controller for Three Phase Voltage Source Inverters”, International Conference on Computer and Information Technology (ICCIT 2001), Dhaka, pp. 154-159, 28-29 December 2001.
33. K. M. Rahman, “Analysis of Microcomputer Based 3-Phase Controlled Rectifier for Separately Excited DC Motor Drive”, Proceedings of the International Conference on Computer and Information Technology (ICCIT’99), BUET, Dhaka, pp. 75-80, 3-5 December 1999.
34. K. M. Rahman, “PC Controlled Look-Up Table Based PWM Scheme for Voltage Source Inverters and AC Drives”, Proceedings of the International Conference on Computer and Information Technology (ICCIT’99), BUET, Dhaka, pp. 84-89, 3-5 December 1999.
35. K. M. Rahman, “PC Based Regular Sampled Pulse Width Modulator for Inverters and AC Drives”, Proceedings of the International Conference on Computer and Information Technology, (ICCIT’99) BUET, Dhaka, pp. 89-94, 3-5 December 1999.
36. K. M. Rahman, M. A. Choudhury and M. A. Rahman, “A Hybrid Technique for Three Phase Synchronous PWM Waveform Generation for Static Converters”, Proceedings of the International Conference on Energy Management and Power Delivery, EMPD’98, pp. 538-541, 3-5 March 1998.
37. K. M. Rahman, M. Rezwan Khan, M. A. Choudhury and M. A. Rahman, “Frequency Modulated PWM for Voltage Source Inverters”, Proceedings of the 33rd Universities Power Engineering Conference-Napier University, Edinberg, UK, pp. 521-524, September 1998.
38. K. M. Rahman, M. A. Choudhury and M. A. Rahman, “PC Based Real-time Three Phase Synchronised Waveform Generation for Static PWM Rectifiers”, Proceedings of the 33rd Universities Power Engineering Conference-Napier University, Edinburg, UK, pp. 517-520, September 1998.
39. K. M. Rahman and M. A. Choudhury, “Personal Computer Based Multimachine Smart Speed Controller”, Proceedings of the International Conference on Computer and Information Technology (ICCIT’98), BUET, Dhaka, pp. 269-272, 18-20 December 1998.
40. K. M. Rahman, M. R. Khan, M. A. Choudhury and M. A. Rahman, “Microcomputer based Naturally Sampled PWM Switching of Static Power Converters”, 32nd Universities Power Engineering Conference UPEC’97, UMIST, Manchester, UK, pp. 826-829, 10-12 September 1997.
41. K. M. Rahman, M. R. Khan, M. A. Choudhury and M. A. Rahman, “Dual Slope Carrier Injected Wide Band Delta Modulator for Voltage Source Inverters”, Proceedings of the 32nd Universities Power Engineering Conference UPEC’97, UMIST, Manchester, UK, pp. 814-817, 10-12 September 1997.
42. K. M. Rahman, M. R. Khan, M. A. Choudhury and M. A. Rahman, “Dual Slope Integrator type Delta Modulator for high Performance Voltage Source Inverters”, Proceedings of the Power Conversion Conference PCC’97, Nagaoka, Japan, pp. 451-455, 3-6 August, 1997.
43. K. M. Rahman, M. A. Choudhury and M. A. Rahman, “Hysteresis Current Controlled PWM Buck Converter for AC/AC Voltage Control”, Proceedings of the International Power Engineering Conference IPEC'97, NTU, Singapore, pp. 703-706, 22-24 May, 1997.
44. K. M. Rahman, M. A. Choudhury and M. A. Rahman, "A Monostable Mode Thyristor Resonant Chopper ", Proceedings of the 2nd Chinese International Conference on Electrical Machines, Hangzhou, China, pp. 819-824, August 31 - September 2, 1995.
Thesis Supervision
Ph. D.
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
30 December 2013
Development of High Performance PV Utility Interface using Phase Angle Control of PWM Inverter
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
2010
Impacts of Non-Linear Lighting Loads on Power Quality in Distributed networks
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
2008
Sensor-less Adaptive Rotor Parameter Estimation of Three Phase Induction Motor
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
2008
Voltage Mode Control of Single Phase DC-DC Boost Inverter
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
2002
Digital Signal Processor Controlled PWM Phase Modulator for Two Phase Voltage Source Inverters
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
2002
Space Vector Pulse Width Modulator for Two Phase Voltage Source Inverters with Reduced Number of Static Switches
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Supervisor
2002
Analysis and Implementation of a Look up Table Based Hybrid PWM Scheme for Voltage Source Inverters
EEE, BUET
M. Sc. Engineering
Role
Degree Awarding Year
Thesis Title
Institution
Co-Supervisor
2001
FPGA Implementation of Space Vector Modulated PWM for Voltage Source Inverters
EEE, BUET
R & D
Development of Supervisory Control and Data Acquisition System (SCADA) for Power System Utility and Distribution Network
Project
SCADA Development and Implementation in
PDB-Comilla Distribution ZoneProject Summary
The task is to develop, install and commission a SCADA system for PDB-Comilla zone covering 16 numbers of 33/11KV substations.
Key features to be incorporated
a) SCADA server in Chief Engineer’s office of Comilla PDB
b) Record and display of voltage, current, frequency, real power, reactive power, power factor, harmonic distortions of voltage and currents on both SCADA terminals and substation RTU monitors
c) Control line Circuit Breakers from SCADA server operator terminals
d) Control bus coupler breakers from SCADA server operator terminals
e) Two different statuses to be acquired (CB ON/OFF, System Fault)
Develop a model of the SCADA system meeting the requirements of BPDB.
Develop a prototype model and a test setup.
Design, test and finalize each hardware part of the SCADA system.
Develop software applications for RTU and SCADA server terminals.
Develop software applications for wireless executive terminals.
Develop databases for RTU and SCADA Server.
Test of the developed SCADA system in lab on a prototype emulating the practical system.
Procure components/parts and engage project engineers/technicians for making the necessary hardware.
Prepare master scheme for panel wiring and train project engineers/technicians on wiring the interface circuit boards in substation panels.
Prepare master scheme for DAQ modules wiring in RTU rack and train project engineers/technicians on RTU wiring.
Customize and finalize configuration files of RTU for individual substations.
Customize and finalize database records for individual substations.
Finalize database records for all substations in SCADA server.
Oversee installation process of the SCADA system.
Test the Virtual Private Network setup by third party.
Test the functionality of the whole SCADA system with a Virtual Private Network.
Prepare training manual for training PDB engineers.
Conduct training to the PDB engineers.
Client:
Bangladesh Power Development Board Project worth:
$1.0 Million Role:
System Development Project
SCADA Development for 55 Substations of DPDC Project Summary
The task is to develop, install and commission a SCADA system for DPDC covering 44 numbers of 33/11KV substations and 11 numbers of 132/33KV substations.
Key features to be incorporated
a) SCADA server in SCADA building
b) Giant display on SCADA building
c) 3 numbers of operator terminals in SCADA building
d) Record and display of voltage, current, frequency, real power, reactive power, power factor, harmonic distortions of voltage and currents on both SCADA terminals and substation RTU monitors
e) Control line Circuit Breakers from SCADA server operator terminals
f) Control bus coupler breakers from SCADA server operator terminals
g) Four different statuses to be acquired (CB ON, CB OFF, Internal fault, External Fault)
Develop a model of the SCADA system meeting the requirements of DPDC.
Develop a prototype model and a test setup.
Design, test and finalize each hardware part of the SCADA system.
Develop software applications for RTU and SCADA server terminals.
Develop software applications for wireless executive terminals.
Develop databases for RTU and SCADA Server.
Test of the developed SCADA system in lab on a prototype emulating the practical system.
Procure components/parts and engage project engineers/technicians for making the necessary hardware.
Prepare master scheme for panel wiring and train project engineers/technicians on wiring the interface circuit boards in substation panels.
Prepare master scheme for DAQ modules wiring in RTU rack and train project engineers/technicians on RTU wiring.
Customize and finalize configuration files of RTU for individual substations.
Customize and finalize database records for individual substations.
Finalize database records for all substations in SCADA server.
Oversee installation process of the SCADA system.
Test the Virtual Private Network setup by third party.
Test the functionality of the whole SCADA system with a Virtual Private Network.
Prepare training manual for training DPDC engineers.
Conduct training to the DPDC engineers.
Client:
Dhaka Power Distribution Company (DPDC) Project worth:
$2.0 Million Role:
System Development Project
E-SCADA Development for BPDB PROJECT SUMMARY
Establish a central monitoring facility henceforth called E-SCADA located in General manager’s office of BPDB in Dhaka connecting all zonal SCADA servers.
Setup and configure server nodes as data concentrator (one node for each SCADA zones) that update individual zone server data in its own database and populate recent data records in the central server.
Create and finalize databases for node servers and the central server.
Develop services for retrieving data from zone servers, populating both node server and central server databases, and deploying the services into individual node servers.
Develop GUI application programs for each node servers for monitoring respective zone data.
Develop GUI application program for terminals connected to central server for monitoring, query and analysis.
Testing and Commissioning.
Client:
Dhaka Power Distribution Company (DPDC) Project worth:
$100K Role:
System Development Project
SCADA Development for 4-Zones of BPDB PROJECT SUMMARY
The task was to develop, install and commission SCADA systems in Rajshahi, Rangpur, Mymensingh and Sylhet Distribution Zones of PDB covering 66 numbers of 33/11KV substations.
Key features to be incorporated
a) SCADA server in Chief Engineer’s office of each zone
b) Record and display of voltage, current, frequency, real power, reactive power, power factor, harmonic distortions of voltage and currents on both SCADA terminals and substation RTU monitors
c) Operate the RTU as a Substation Automation System (SAS)
d) Control line Circuit Breakers from SCADA server
e) Only one status (CB ON/OFF)
Develop a model of the SCADA system meeting the requirements of BPDB.
Develop a prototype model and a test setup.
Design, test and finalize each hardware part of the SCADA system.
Develop software applications for RTU and SCADA server terminals.
Develop software applications for wireless executive terminals.
Develop databases for RTU and SCADA Server.
Test of the developed SCADA system in lab on a prototype emulating the practical system.
Procure components/parts and engage project engineers/technicians for making the necessary hardware.
Prepare master scheme for panel wiring and train project engineers/technicians on wiring the interface circuit boards in substation panels.
Prepare master scheme for DAQ modules wiring in RTU rack and train project engineers/technicians on RTU wiring.
Customize and finalize configuration files of RTU for individual substations.
Customize and finalize database records for individual substations.
Finalize database records for all substations in SCADA server.
Oversee installation process of the SCADA system.
Test the Virtual Private Network setup by third party.
Test the functionality of the whole SCADA system with a Virtual Private Network.
Prepare training manual for training PDB engineers.
Conduct training to 200 numbers of PDB engineers.
Prepare and finalize all documents related to SCADA establishment in BPDB.
Client:
Bangladesh Power Development Board (BPDB) Project worth:
$2.0 Million Role:
System Development Last updated on 09 April 2019