CAREER EPISODE 1
Solar Wireless Electric Vehicle Charging System
A. Introduction
[CE 1.1]
- Title: Solar Wireless Electric Vehicle Charging System
- Duration: [Date] – [Date]
- Location: [Location]
- Organization: [Organization]
- Position: Electrical Engineering
B. Background
[CE 1.2]
My system includes an inductive wireless charging lane for electric cars, as well as a battery-swapping/charging facility. I studied that, in recent years, due to global change, electric vehicles (EVs) powered by renewable energy have gained popularity in both established and developing nations, as they may help reduce carbon dioxide emissions.
[CE 1.3]
I worked on building the solar wireless vehicle charging system, which was the project’s main objective, and on research into factors influencing the concept. I proposed wireless power transmission (WPT) as an alternative approach for EV charging to eliminate the limitations of location and time.
Through inductive coupling, I charged EVs continuously as long as they drove along the roadway, where coupled coils were laid.
[CE 1.4]
Duties:
- I analysed the issues linked to the system’s overall performance.
- I evaluated inconsistencies in EVs and EVCS growth.
- I evaluated the effectiveness of the solar light by rotating the solar panel at different angles to measure the wavelengths of sunlight.
- I worked on addressing several technologies by applying electrical engineering knowledge.
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CAREER EPISODE 2
High Power 3 Phase Inverter
A. Introduction
[CE 2.1]
- Title: High Power 3 Phase Inverter
- Duration: [Date] – [Date]
- Location: [Location]
- Organization: [Organization]
- Position: Electrical Engineering Student
B. Background
[CE 2.2]
I worked on the growing presence of single-phase distribution producers, and unequal loads in the electric current network can cause imbalances in three-phase voltages, leading to higher losses and overheating.
[CE 2.3]
I avoided voltage imbalance by assigning network managers to install larger DG units using three-phase connections rather than single-phase interconnections. I linked the DG modules to the three-phase distributing network; numerous configurations were feasible.
[CE 2.4]
Duties:
- I worked on shifting the circuits for energy conversion, which were linked to the inputs and outputs.
- I worked on linking the power storage devices in the circuit, which were connected to the sole matrix at the input and output ends.
- I examined power storage devices using the indirect-switch-matrix circuit and modelled them accordingly.
- I cascaded the two main switch matrices, with components stored in between. Acquire free CDR samples from AustraliaCDRHelp.Com.
