Electrical Engineer Project

Tuyet Mai Tran

**** * ****** ** ******* WA ***** Email: ********@**.*** Phone: 206-***-****

Electrical Engineer With Systematic and Result Driven Approach

Analytical Ability Detail Oriented Impeccable Communication Negotiation

Excellent academic record

Excellent problem solving, analytical skill, assembly components, persistent

High personal integrity and ethics with uncompromising standards.

Strong collaborative and teambuilding skills

Goal oriented; come up with a vision first, then make the process happen efficiently

Education

University of Washington - Bothell

Bachelor of Science in Electrical Engineering (March 2017)

Associates of Science

Seattle Central Community College (June 2014)

Core Competencies

Practical and resourceful, possess systematic sensibility, ability to continually challenge my own mental rules to build new rules and strategies, tenacious

Skilled in design electronic systems, experience with using test and measurement equipment (oscilloscopes, multi-meters)

Organized and detail-oriented, possess strong evaluative, analytical planning skills; ability to multi-task and prioritize a broad range of responsibilities.

Highly Energetic Leader, Intuitive Decision Maker, ability to work under pressure and thrive in a highly iterative, agile and a fast-paced work environment.

Hold excellent interpersonal, organizational and communication skills.

tools Expertise

Technical Skills:

Analog and integrate circuits design & Logic design, electronic control.

Assembly/procedure/VHDL, Arduino programming

Iteration and Simulation techniques as well as the Numerical Solutions

CAD, Java, basic Python, Matlab, MultiSim, O-scope

Microcontroller System Design.

Experience with DC/AC power distribution.

Professional Experience

Analysis of electronic control as digital and analog circuits with sinusoidal and other first and second order signals.

High frequency analysis of differential amplifiers, currents sources, AC/DC circuit design.

Functional understanding of design and operation of power plants for the generation of electric power, DC/AC power, thermodynamic principles of energy conversion, cycle analysis, combustion, nuclear and hydroelectric power, emerging energy technologies, plant economics, emission controls, and environmental impact.

Phasors, system functions, and complex frequency.

Stability and Compensation Analysis of control circuits

Berger Methods for aiding software development, communicating progress to customers/management, and developing marketing strategies for the product

Time and Frequency response analysis of continuous as well as discrete signals

First and second order linear differential equations

Mathematical modeling of electrical circuits consisting of linear, non linear; reciprocal, non reciprocal; active, passive; resonant, non resonant circuit elements

Project Experience

Magnolia Company

Design the Multi-Stage amplifiers Function generator

Helped the Magnolia company designed the project of Blood Culture Bottle Volume Quantification. Magnolia Medical Technologies proposed the project Blood Culture Bottle Volume Quantification by presenting the problem of false readings of blood culture media. In this project, we were researching possible non-intrusive technologies to increase the accuracy and precision of a measured blood culture sample. The main goal was to research the working principle of seven techniques, where three of the best will be selected for more detailed research. Based on the best three techniques the and most viable solution will be selected for prototyping. This technology will help the person collecting the blood culture know if the sample can be measured with adequate accuracy and precision. Thus, preventing false readings in the bacterial culture. This project was included with specific information of different possible solutions, descriptions of the hardware and software requirements for the project. We investigated on several technologies to determine the theoretical feasibility. Based on the customer requirements, and considerations of different aspects, several technologies were determined as less feasible for this project including the color sensor, Photocell, RPR220, weight sensor, and Ultrasonic range sensor. Through these investigations, the team determined image processing was the most feasible technology available. After careful research and considerations of different aspects, we designed a physical, white foam box to reduce the potential of shadows in turn help the camera captures quality images. After obtaining images from the camera, each image would be tested using the algorithm created in MATLAB to find the volume of the liquid sample.

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