Frank Devin Holler

Phone: 520-***-****

Email: acxe7v@r.postjobfree.com

Summary: In my first year of professional employment; recent graduate with a strong desire to continue improving, learning, and acquiring experience. Strong interest in working with power systems, control theory, and optic systems.

Philosophy: Project development and problem solving in a cooperative job atmosphere; using the principles of science and engineering to find solutions to problems. Employment History:

General

Dynamics;

under a

subcontract

with Infotree

Services

Employed by Infotree Services and contracted to General Dynamics Land Systems from October 12, 2015 to present. Worked under experienced engineers on electronic systems. Designed troubleshooting procedures for Abrams tank to be utilized in field by tank users. Used schematics and tank layout to determine most efficient method for testing and troubleshooting equipment. Researched multiple systems to learn all aspects and functions of the vehicle including power systems. Tested effectiveness by inserting vehicle faults to insure that the procedures reflect and correspond to vehicle on-board diagnostics. Used testing to determine most effective methods to isolate and detect faults in sub-systems. Fault insertion also verified vehicle diagnostic functionality. Reviewed and listed Abrams wiring harness database for Diagnostics to properly list all vehicle connections and part numbers. Drew schematics for Abrams components using Microsoft Visio. Schematics were peer reviewed and are awaiting transfer to QA department. Used information for each part and component from online database to make as schematics as detailed as possible. Compared with existing schematics to incorporate new details and new aspects of component connections within Abrams.

MicroBio

Systems, LLC

Employed from May 18, 2015 to October 1, 2015. Assisted with maintenance and calibration of medical sensors. Performed temperature testing on instruments. Calibration, maintenance, and assembly required soldering to PCB, to assembly of additions to the instruments, and use of oscilloscope to measure signals from instrument. Temperature testing required use of Excel to record and present data. Successfully showed trends in device performance relative to temperature and consecutive operations using Excel to record and graph data. Assembled, installed, and tested thermistors to monitor device performance. Modified devices to accommodate Blue Tooth modules. Further work has been done to gather more data from the devices to determine performance of various versions of software.

Education:

Relevant coursework completed:

Engineering Electronic Circuits, Circuit Theory, Intro to Electromagnetics, Knowledge Systems, Photovoltaic Systems, Device Electronics, Intro to Communications, Microcontrollers, Digital Signal Processing, Digital Controls, Optical Electronics, Computational Techniques, Senior Cap Stone Project Math Matrix Analysis, Advanced Mathematical Analysis Skills:

Programming Familiar with Java, C++, HTML, CSS, MATLAB, C, Verilog, and Lisp Technical Skills Circuit design, testing, soldering, wire wrapping Electrical Test

Equipment

Familiar with PSPICE, DMM, oscilloscope, function generator, power supply, bread board, and vector boards.

Office Software Proficient with MS Excel, MS Word, MS Power Point and the rest of Microsoft Office, also proficient with Open Office

College Projects:

Senior Cap

Stone Project

Design: System was required to measure the depth of flood waters. Typical flow and turbidity of floods made minimal contact with water crucial. A Raspberry Pi microcontroller was programmed to control a laser range finder and record dynamic depth measurements of flood waters to a 32GB flash drive. Open circuit used to detect flood waters.

Team Position: Electrical and software lead

Outcome: System successfully performed to desired specs in lab test. System consistently turned on and off within 1 second of changing flood conditions. Recorded measurements to within 5% accuracy.

Line Tracking

Robot

Design: A PIC24F microcontroller programmed to make a robot follow a path. Robot was also required to read a barcode and return a value for distinct bars while following path. A third stretch design was for the robot to be capable of remote activation and deactivation. Optical sensors used for line tracking, bar code reading, and remote activation.

Team Position: Hardware specialist, remote switch designer, software assistant for higher functions

Outcome: Robot completed track in approximately 1 minute and scanned bar code with a success rate of 95%. Remote activation was possible up to 30ft. References:

Professor Linda S. Powers, ECE, University of Arizona MicroBioSystems, LLC, acxe7v@r.postjobfree.com University of

Arizona

Major: Electrical Engineering

Graduated: August 2015

Contact this candidate