Emela Moreyra
206-***-**** adjfl0@r.postjobfree.com linkedin.com/in/emoreyra
Summary of Qualifications:
● 6 Month Internship involving digital design and schematic drawing for medical instrumentation.
● IDesigned PCBs to meet mechanical and electrical specifications for the Husky Robotics Team.
● Comfortable using multimeters, oscilloscopes, power supplies, and function generators.
● Independently designed multiple PCBs for the Husky Robotics Team
● Engineering Tools: LTSpice, LabView, Altium Designer, Mentor Graphics
● Computer skills: Python (Strong), C, Verilog, Java, SQL, C#, Git, Microsoft Office Education:
University of Washington, Seattle WA
Bachelor of Science in Electrical Engineering, Expected March 2021
● Related Coursework (through Spring 2019): Databases, Data Structures and Algorithms, basic Java programming, Technical Communication, circuits and circuit theory, statistics, DSP, Computer Architecture, Digital Circuit Design.
● Honors: Dean’s List (WI 2017, AU 2017, WI 2018, SP 2018, AU 2018, WI 2019, SP 2019), Annual Dean’s List (2017-2018, 2018-2019) GPA: 3.58 Relevant Experience:
Philips, Bothell
Intern,June 2019 - December 2019
● Researched and evaluated components for cost effective and functional alternatives, resulted in saving 10% on component costs.
● Designed parts and updated the schematic of a new product.
● Collected, compiled, and analyzed experimental data
● Designed procedures to ensure products complied with FDA laws and protocols. Husky Robotics Team, University of Washington
Electronics Hardware Lead, January 2020 - Present
● Coordinated a team of individuals to meet deadlines and conform to current design standards.
● Managed budgeting for the electronics sub-team and ordered necessary tools and components.
● Programmed Graphical User Interface using C# to run the base station for navigation and control of the Rover for 2017-18 work year.
● Developed teamwork among individuals and groups of varying backgrounds and skills.
● Improved hardware integration by managing 3D models of PCBs to use in models of the rover.
● Standardized a component library and electrical requirements. Member, October 2017, January 2020
● Collaborating with a multidisciplinary team to construct a robot in order to compete in the Canadian International Rover Challenge (CIRC) and University Rover Challenge (URC) annually.
● Placed second at URC (2019), and fourth in the CIRC (August 2018).
● Worked on the software subsystem to develop a user interface to control our rover from the base station using C#.
● Designed and manufactured several microcontroller-based PCBs to serve purposes such as motor control, current sense, and providing CAN functionality to an NVIDIA Jetson.
● Earned experience using various communication protocols such as I2C and CAN.