Senior Design Project Website
Department of Electrical Engineering – Qatar University
Dpt. of Electrical Engineering
Male Students
MG1
About The Project_MG1
Introduction_MG1
Electrical Vehicles and On-Board Charging Methods_MG1
Design Steps and Requirements_MG1
Open Loop_MG1
Closed Loop_MG1
Comparison Between Different Converters_MG1
State Space Analysis_MG1
Constant Current Results_MG1
Constant Voltage Results_MG1
Isolated Converters_MG1
Software and Hardware_MG1
Testing and Validation_MG1
Power Loss Analysis_MG1
Compliance and Constraints_MG1
Conclusion and Future Work_MG1
MG2
Introduction_MG2
Presentation_MG2
Bi-directional charger design methodology_MG2
On-board bidirectional chargers_MG2
Isolated off-board bidirectional chargers_MG2
Dual Active Full-Bridge (DAFB) converter_MG2
Voltage and current fed full-bridge (VCFFB) converter_MG2
Design steps and parameters_MG2
Design Parameters_MG2
Closed Loop control_MG2
Simulation Results_MG2
Simulation Vs Theory_MG2
Implementation and Testing_MG2
Mobile Application_MG2
Conclusion and Future work_MG2
MG3
MG4
MG5
About MG5 Preoject
Introduction (MG5)
Background (MG5)
Problem Definition (MG5)
Aim and Objectives (MG5)
Constraints and Standards (MG5)
Data Collection (MG5)
Design Methodology (MG5)
Design Approach Implementation (MG5)
Power Distribution System Description (MG5)
Modeling & Simulation (MG5)
ETAP Simulation (MG5)
System Components Datasheets (MG5)
ETAP Libraries (MG5)
Assumption (MG5)
Cables (MG5)
Transformer Tapping (MG5)
EV and PV system locations (MG5)
Configurations (MG5)
PV system (MG5)
EV Charger (MG5)
Compliance with Design Constraints (MG5)
Results & Discussion (MG5)
Conclusion (MG5)
Recommendations and Future Work (MG5)
MG6
About the Project_MG6
Load Characteristics_MG6
Sport Complex Map_MG6
Standards and Block-diagrams_MG6
Load Study_MG6
Design of Substation_MG6
Block Diagram of the Substation_MG6
Transformer_MG6
Cable Sizing_MG6
Voltage Drop_MG6
Earthing System Design_MG6
Earthing System for the Loads_MG6
Substation Earthing_MG6
Protection & Backup Systems_MG6
Designing of Circuit Breaker_MG6
Power Factor Correction_MG6
Backup Generator_MG6
Conclusion & Future Work_MG6
MG7
Home_MG7
Project Work_MG7
Final Block Diagram_MG7
Construction of the Data Acquisition System_MG7
Constructing a Real-Time Data Logger_MG7
Data Pre-Processing for vGRF Data Classification by Machine Learning (ML)_MG7
Design Testing and Validation_MG7
Power Consumption Test for the MCU in Bluetooth LE Communication_MG7
An Attempt at Gait Cycle Testing using IMU, Data Logging, and Plotting_MG7
Data Sampling Rate Testing_MG7
Classifying Processed Data using MATLAB’s Classification Learner Toolbox_MG7
Cost Calculation_MG7
Conclusion & Future Work_MG7
SDP-II Presentation Video_MG7
References_MG7
About Us_MG7
Contact Us_MG7
MG8
MG9
MG10
MG11
MG12
MG13
Abstract_MG13
Introduction_MG13
Problem Definition_MG13
Design Constraints_MG13
Proposed Design_MG13
Overall System Design Topology_MG13
Design Testing & Validation_MG13
Results_MG13
Challenges_MG13
Conclusion_MG13
Future Work_MG13
MG14
Project Presentation_MG14
Introduction _ MG14
Design & Methodology_MG14
Prototype Design_MG14
Selection of PLC _MG14
Selection of Conveyor Belt_MG14
Selection of Level Sensor_MG14
Selection of Proximity Sensor_MG14
Selection of Solenoid Valve_MG14
Selection of Water Pump_MG14
Selection of Capping Machine_MG14
Design Testing & Validation_MG14
Practical Implementation_MG14
Conveyor Belt
Proximity Sensor
Water Level Sensor
Solenoid Valve
Further Details On Practical Implementation
PLC Ladder Diagram Implementation
Coding and Ladder Diagram
Simulation & Testing of PLC Code
Discussion & Results_MG14
Discussion of Practical Implementation Results_MG14
Discussion of Software Implementation Results_MG14
Compliance with Design Constraints_MG14
Conclusion & Future Work_MG14
Supplemental Work: Mobile Application
App Demo _ MG14
Female Students
FG1
About This Project_FG1
Introduction_FG1
Background_FG1
Design Constraints and Standards_FG1
Full Load Study_FG1
Electrical Distribution_FG1
Substation Design_FG1
Cable Characteristics and Voltage Drop_FG1
Protective Devices_FG1
Circuit Breaker_FG1
Current Transformer_FG1
Earthing System_FG1
Simulation_FG1
Conclusion & Future Work_FG1
FG2
FG3
Abstract_FG3
Objectives_FG3
Problem Definition_FG3
Constraints and Standards_FG3
HMC visits_FG3
Proposed Design_FG3
Cannulation Sites_FG3
Blood flow_FG3
Embedded System_FG3
Design Conponents_FG3
Pandemic Effects on the Project
Conclusion_FG3
Future Work_FG3
FG4
About_FG4
Background_FG4
Design Key Points_FG4
Power Converters_FG4
Closed-Loop Controllers_FG4
Battery Charging Methods_FG4
Proposed Systems & Results_FG4
Single-phase Systems_FG4
Direct Three-phase Systems_FG4
Phase-modular Systems_FG4
Implementation_FG4
Hardware_FG4
IoT System_FG4
Conclusion & Future Work_FG4
FG5
FG6
FG7
FG8
FG9
FG10
About_FG10
Background_FG10
Project Design_FG10
Block and Circuit Diagrams_FG10
Mobile Application_FG10
Effects of COVID-19 on SDP_FG10
Conclusions & Future work_FG10
FG11
FG12
Dpt. of Electrical Engineering
Male Students
MG1
About The Project_MG1
Introduction_MG1
Electrical Vehicles and On-Board Charging Methods_MG1
Design Steps and Requirements_MG1
Open Loop_MG1
Closed Loop_MG1
Comparison Between Different Converters_MG1
State Space Analysis_MG1
Constant Current Results_MG1
Constant Voltage Results_MG1
Isolated Converters_MG1
Software and Hardware_MG1
Testing and Validation_MG1
Power Loss Analysis_MG1
Compliance and Constraints_MG1
Conclusion and Future Work_MG1
MG2
Introduction_MG2
Presentation_MG2
Bi-directional charger design methodology_MG2
On-board bidirectional chargers_MG2
Isolated off-board bidirectional chargers_MG2
Dual Active Full-Bridge (DAFB) converter_MG2
Voltage and current fed full-bridge (VCFFB) converter_MG2
Design steps and parameters_MG2
Design Parameters_MG2
Closed Loop control_MG2
Simulation Results_MG2
Simulation Vs Theory_MG2
Implementation and Testing_MG2
Mobile Application_MG2
Conclusion and Future work_MG2
MG3
MG4
MG5
About MG5 Preoject
Introduction (MG5)
Background (MG5)
Problem Definition (MG5)
Aim and Objectives (MG5)
Constraints and Standards (MG5)
Data Collection (MG5)
Design Methodology (MG5)
Design Approach Implementation (MG5)
Power Distribution System Description (MG5)
Modeling & Simulation (MG5)
ETAP Simulation (MG5)
System Components Datasheets (MG5)
ETAP Libraries (MG5)
Assumption (MG5)
Cables (MG5)
Transformer Tapping (MG5)
EV and PV system locations (MG5)
Configurations (MG5)
PV system (MG5)
EV Charger (MG5)
Compliance with Design Constraints (MG5)
Results & Discussion (MG5)
Conclusion (MG5)
Recommendations and Future Work (MG5)
MG6
About the Project_MG6
Load Characteristics_MG6
Sport Complex Map_MG6
Standards and Block-diagrams_MG6
Load Study_MG6
Design of Substation_MG6
Block Diagram of the Substation_MG6
Transformer_MG6
Cable Sizing_MG6
Voltage Drop_MG6
Earthing System Design_MG6
Earthing System for the Loads_MG6
Substation Earthing_MG6
Protection & Backup Systems_MG6
Designing of Circuit Breaker_MG6
Power Factor Correction_MG6
Backup Generator_MG6
Conclusion & Future Work_MG6
MG7
Home_MG7
Project Work_MG7
Final Block Diagram_MG7
Construction of the Data Acquisition System_MG7
Constructing a Real-Time Data Logger_MG7
Data Pre-Processing for vGRF Data Classification by Machine Learning (ML)_MG7
Design Testing and Validation_MG7
Power Consumption Test for the MCU in Bluetooth LE Communication_MG7
An Attempt at Gait Cycle Testing using IMU, Data Logging, and Plotting_MG7
Data Sampling Rate Testing_MG7
Classifying Processed Data using MATLAB’s Classification Learner Toolbox_MG7
Cost Calculation_MG7
Conclusion & Future Work_MG7
SDP-II Presentation Video_MG7
References_MG7
About Us_MG7
Contact Us_MG7
MG8
MG9
MG10
MG11
MG12
MG13
Abstract_MG13
Introduction_MG13
Problem Definition_MG13
Design Constraints_MG13
Proposed Design_MG13
Overall System Design Topology_MG13
Design Testing & Validation_MG13
Results_MG13
Challenges_MG13
Conclusion_MG13
Future Work_MG13
MG14
Project Presentation_MG14
Introduction _ MG14
Design & Methodology_MG14
Prototype Design_MG14
Selection of PLC _MG14
Selection of Conveyor Belt_MG14
Selection of Level Sensor_MG14
Selection of Proximity Sensor_MG14
Selection of Solenoid Valve_MG14
Selection of Water Pump_MG14
Selection of Capping Machine_MG14
Design Testing & Validation_MG14
Practical Implementation_MG14
Conveyor Belt
Proximity Sensor
Water Level Sensor
Solenoid Valve
Further Details On Practical Implementation
PLC Ladder Diagram Implementation
Coding and Ladder Diagram
Simulation & Testing of PLC Code
Discussion & Results_MG14
Discussion of Practical Implementation Results_MG14
Discussion of Software Implementation Results_MG14
Compliance with Design Constraints_MG14
Conclusion & Future Work_MG14
Supplemental Work: Mobile Application
App Demo _ MG14
Female Students
FG1
About This Project_FG1
Introduction_FG1
Background_FG1
Design Constraints and Standards_FG1
Full Load Study_FG1
Electrical Distribution_FG1
Substation Design_FG1
Cable Characteristics and Voltage Drop_FG1
Protective Devices_FG1
Circuit Breaker_FG1
Current Transformer_FG1
Earthing System_FG1
Simulation_FG1
Conclusion & Future Work_FG1
FG2
FG3
Abstract_FG3
Objectives_FG3
Problem Definition_FG3
Constraints and Standards_FG3
HMC visits_FG3
Proposed Design_FG3
Cannulation Sites_FG3
Blood flow_FG3
Embedded System_FG3
Design Conponents_FG3
Pandemic Effects on the Project
Conclusion_FG3
Future Work_FG3
FG4
About_FG4
Background_FG4
Design Key Points_FG4
Power Converters_FG4
Closed-Loop Controllers_FG4
Battery Charging Methods_FG4
Proposed Systems & Results_FG4
Single-phase Systems_FG4
Direct Three-phase Systems_FG4
Phase-modular Systems_FG4
Implementation_FG4
Hardware_FG4
IoT System_FG4
Conclusion & Future Work_FG4
FG5
FG6
FG7
FG8
FG9
FG10
About_FG10
Background_FG10
Project Design_FG10
Block and Circuit Diagrams_FG10
Mobile Application_FG10
Effects of COVID-19 on SDP_FG10
Conclusions & Future work_FG10
FG11
FG12
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MG10
MG10
Design and Implementation of a Wearable Cardioverter Defibrillator (WCD) for Patient with Known Cardiovascular Diseases