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Ryan M. Duncan(817) 894-1819
EDUCATION Tennessee State University, Nashville, TNBachelors of Science in Electrical EngineeringGraduation Date: May 10, 2014GPA: 3.57/4.0, Magna Cum Laude
HONORS Dean’s list 2011-2014 Tennessee State
RELEVANT Calsonic Kansei North America Lewisburg, TNEXPERIENCE Manufacturing Engineer Nissan Leaf Inverter Production 2014-Present
Maintain and improve manufacturing processes with support to production Circuit & Tester analysis, debug, and countermeasure concept and implementation .NET develop/writing for process control implementation Process Failure Documentation Customer warranty analysis Works alongside Maintenance team for PCCM and troubleshooting HTML design for plant wide up-to-the-minute data analysis and quality control Engineering Lead of Production Line Launch (CKNA Rack production) including
process design, budgeting, drawings, SOW, & scheduling Cross Functional Team Leader for Cost Savings and Scrap reduction
RELEVANT Calsonic Kansei North America Lewisburg, TN PROJECTS Circuit Analysis of Nissan Leaf Inverter
Primary Responsibility of in depth circuit analysis of process failure & customer warranty return product.
RFID System for tracking Non-Nettable Inventory and Documenting Analytical Progress Designed, wrote, and installed RFID tracking system (using OMRON V680 controller)
to capture process detail and to track physical location of non-nettable inventory while providing up to date information of individual part’s analysis through SQL database and automatic email.
Quality Circle V-up Global Competition Leader of CFT that used analytical tools including Five Why, Weighted Decision
Matrix, Solutions Payoff Matrix, etc. to determine best course of action for countermeasure
Designed and Implemented equipment monitor to automatically shutdown conveyor at the first sign of impending tester failure to reduce scrap costs.
Team won North American region to travel and present at global HQ in Japan
Tennessee State University, Electrical and Computer Engineering Lab Communication Paradigms for Cooperative Nano-Networks Spring 2013 to 2014 Design and simulation of nano-networks, for cooperative communication Determined optimal transmitter design and receiver distance Presented for AFRL in Dayton, Ohio for Minority Leaders Sensors Directorate Cooperated with a team of four students through bi-monthly meetings with faculty
advisor
RELEVANT Engineering Design, Control Systems, Electric Power Distribution, Power Systems, COURSEWORK Digital Logic Design, Electronic Systems Design, SKILLS Programming Languages: C#, Visual Basic, Swift, SQL
Software: Matlab, AutoDesk Inventor, AutoCAD Mechanical