Mountain view, CA, 94040
CAREER OBJECTIVE
Seeking an entry level position as a test engineer or other in the electronic field to apply my academic knowledge and skills. I’m highly motivated and I have a strong understanding of electrical engineering theory and handling with testing tools.
EMPLOYMENT HISTORY
Software Test Engineer Intern at Panasonic automotive Systems for Open Systems Inc. ( USA) 10/13¬¬¬¬¬¬¬¬¬¬¬-02/14
• Plan test schedules and strategies in accordance with the work agreed to and documented between the project sponsor and the project team, customer requirements, delivery dates and specifications
• Created test cases using features specifications and traceability charts
• Perform automated and manual functional test including Bluetooth, Turn by Turn, HMI, Voice Recognition and overall functionality of the head unit in conjunction with the vehicle on the bench and in the vehicle following test plans
• Collect, store, retrieve, and manipulate data
• Analyze collected data to raise, identify and isolate problems and test issues (Rational Team Concert)
• Review, modify and improve existing test cases/plan to improve tests effectiveness
• Create and maintain a database to document issues, report then follow up using IBM RTC
• Confer with software developers regarding test issues and possible solutions
• Resolve testing problems by modifying or revising test methods and objectives
Tools: IBM RTC, DOORS, Panacea, TestBuilder, NeoVI bus monitor, CSAINT, HMI
Solar Design Intern at Eurosol Solar Energy LLC: Solar photovoltaic (PV) and SmartGrid (energy storage) design and engineering (GERMANY) ¬¬03/10-09/10
• Process customers offers (Grid connected PV installations)
• Perform CAD drafting of solar PV system designs using AutoSketch
• Perform Engineering calculations
- PV systems cost benefit analysis calculations using Lexware
- Select appropriate photovoltaic inverters using SMA Sunny Boy and others
• Multi-tasking many action items in a short timeframe and under tight deadlines
Tools: AutoSketch, SMA Sunny Boy, Lexware
EDUCATIONAL BACKGROUND
Masters of Science in Automation and Power Technology, university of applied sciences of Kaiserslautern/Germany 03/12
Major in Power technology
EDUCATIONAL PROJECTS
Masters Thesis: Simulation of Electrical Energy Systems with MATLAB respectively with Simulink Toolbox
SimPowerSystems and compare to the theoretical basics of Electrical Energy Systems 10/11-01/12
• Build a electrical energy systems pattern with Simulink respectively SimPowerSystems
- Realize a real Anchor pylon geometry, transformers, three phased synchronous generator, load simulation model
- Input der real calculated values in simulation model parameters
• Set up the simulation parameters using Matlab Simulink PowerGUI block
- Set up Steady- State Voltages and Currents
- Initialize Load Flow and Machine
- Graphically representing of simulation signals using LTI Viewer
- Build the diagram of spectral impedance measurement (frequency dependent measurement)
- Process signals obtained through the simulation using FFT analyses
• Build mathematical formula in the simulation using Simulink mathematical blocks
• Simulate the loads reduction on an synchronous machine in an off-the-grid electricity system, short-circuit faults in the electrical grid
• Evaluate real calculated values using my Electrical Energy Systems theoretical principles and values obtained from the simulation and compare each other.
Tools: Matlab SimPowerSystems
Power Electronic and Electrical Drive Technology 01/09-02/09
• Four quadrant IGBTs DC-DC converters used as high quality method to control motors speed rotation and direction
- Set up PWM signal using a PWM generator
- Configure the PWM signal duty cycle and frequency to control the IGBTs switching time
- Load the converter with a DC motor and execute starting and braking processes under maximal pulsing and load voltage
- Set DC motor Operational behaviors through the variation of the duty cycle and switching frequency
Tools: PWM generator, Oscilloscope and some measuring tools
• Design and operation of Frequency inverter control and power sections/build and manipulate a regulated drive system composed with a three-phase synchronous motor coupled with a loaded motor
- Clarify the switching model of a frequency inverter
- Configure the most important components of the control section
- Set the frequency limiter using potentiometers
- Determine the motor voltage frequency characteristic curve with and without the stator resistance compensation using a
Potentiometer.
- Measure ...
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