Electrical Engineering Test Engineer

Jose F. Torres

** ******* **. ************, **, *2603 – (C) 646-***-**** *********@*******.***

OBJECTIVE:

Self-motivated team player seeking an Electrical Engineering position to put knowledge and education

into practice and expand in various fields.

PROFESSIONAL EXPERIENCE:

Test Engineer

Knolls Atomic Power Laboratory (KAPL) Schenectady, N.Y.

(US Government Security Clearance) June 20th, 2020 - Present

Reviewed, Evaluated, and identified requirements for testability.

Analyzed test results and prepared system-level evaluation reports to verify and validate systems performance.

Conducted regression testing and submitted observations to software development team members.

Communicated risks associated with test execution and mitigating action as needed.

EDUCATION:

SUNY Maritime College Throggs Neck, NY

Bachelor of Electrical Engineering GPA: 3.034 September 25th, 2015

La Guardia Community College CUNY, Queens, NY

Associate in Electrical Engineering

AREAS OF STUDY:

Electrical Drives Electrical Design

Power Electronics Electromagnetic Fields Communications Theory Network Analysis

Electrical Machines Engineering Statistical Analysis

Engineering Graphics Engineering Economics

Engineering Fluid Mechanics Thermodynamics & Digital Control

COMPUTER SKILLS:

Proficient in NI Multisim, PSpice, Matlab Simulink, QCAD, MS Office,

LANGUAGES:

Fluent in Spanish (read/write)

UNDERGRADUATE RESEARCH:

1. Modeling Simulation and Control of Permanent Magnet Synchronous Motor Drive System.

2. Modeling Simulation and Control of Induction Motor Drive System.

MEMBERSHIP:

A member of Phi Theta Kappa International Honor Society for the Two-Year College,

Institute of Electrical and Electronics Engineers, Admiral's & Dean's List, SUNY Maritime fall

2014/spring 2015.

SENIOR PROJECT:

To construct a small-scale Smart Grid that may be operated/controlled effectively and efficiently with the

Interfacing and software-based, programmable microcontroller (Arduino). External variables were

Simulated using switches in conjunction with a scenario-based algorithm compatible with our

microcontroller's programming environment. Our project was based on a scheme for monitoring power.

It is generated at each source by placing specialized sensors at the start and load sites. The sensor's data will be digitized and interfaced with controlling elements. This will enable a quick response to switch power to manage desired load changes and supply power efficiently.

After several tests and upgrades, the system ran and worked satisfactorily for every load's case. The grid

worked efficiently and gave the expected results which were previously calculated.

As the power demand constantly changed, the sensors' values changed when that information reached the

Microcontroller made the perfect decision to feed the new power load adequately and on time.

The precise operation of the grid was displayed on an LCD screen, where it was analyzed the sent values

by sensors from the utilities and load sites, respectively.

REFERENCES

Available Upon Request

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