Philip Gilbride
** ******* ***., *********, ** **184
aczdjg@r.postjobfree.com
EDUCATION
Merrimack College, North Andover, MA Graduation: May 2017
Bachelor of Science in Electrical Engineering
Related Courses: Feedback Circuits, Digital Arch., Linear Signals and Systems, Computer Architecture, VLSI Design, Microelectronics (I, II), Embedded Microprocessor Design, Computer Science I, Electromagnetics I
SKILLS
Software: ASPEN Distriview, PI, GIS, Verilog, MATLAB/Scilab, Coding (Assembly, C++, C, and Arduino), Microsoft Office, Excel, PowerPoint, Circuit Simulation (LT Spice), Express SCH and PCB
PROFESSIONAL EXPERIENCE
Eversource Energy, Nashua, NH May2016-January 2017
Distribution/Field Engineering Intern
•Reliability analysis for poor performing distribution circuits (overhead and underground).
•Circuit modeling, Load balancing circuits, Fuse Coordination, Field Checks, Responded to customer complaints (EMF, Voltage)
• Wrote Engineering Work Requests (cable injections, replacement, fuse replacements etc.), as well as updated and created various data sheets (Substation Loading spreadsheets and Three Phase device spreadsheets for the Southern region in New Hampshire.)
Merrimack College, North Andover, MA September 2015-Present
Fitness and Recreation Supervisor
Oversee Intramural sports
Attend weekly meetings to discuss weekly High’s and Low’s
Schedule and manage bi-weekly meetings with my team
Created schedule every other week
RELATED COURSEWORK/PROJECTS
Design Project I/II, PWM Motor control, and Quad Motor Driver Board Fall 2016/Spring 2017
• Using a microcontroller (MSP430), C coding, and two timer pins and comparators, this program generates two square wave outputs that get bigger and smaller in opposite directions which demonstrates different speeds and direction.
•Designed a Quad Motor driver board using the LM5104 Motor Driver. Using two timers and 8 Comparators, this board allowed four motors to run from one board
Energy Generation, Conservation, Technology, Water Conservation Fall 2015
Using an Arduino Board, Arduino coding, and two hall sensors, this program measured water flowing through the two separate pipes. Using more Arduino programming, the data is transmitted to an online database where you can see the results over periods of time.
Embedded Microprocessor Design, The Guess Is Right Spring 2015
This project used Assembly coding and the 8051 microprocessor to create a game that generated a random number between 0 and 255. You are allowed five guesses (with feedback on each guess), if you fail to guess the correct answer after your fifth guess, you lose!
COLLEGIATE INVOLVMENT
Institute of Electrical and Electronics Engineers (IEEE) September 2013-Present