electrical engineer specializing in EV systems, controls, and software.

engineering experience

  • ◊ Developed software in MATLAB/Simulink with Raptor-Dev to make EV components (BAC, DC/DC converter, PAS, PDU, OBC, BTMS) plug-and-play compatible in accordance with SAE J1939 Standards to enable simple customer integration in cars and heavy-duty trucks

    ◊ Architected Master System Controller software to consolidate CAN information to scale up the

    number of energy storage systems for industries that require higher Ah-capacity such as marina and railroad

    ◊ Created a service tool (GUI and back-end) using Raptor VeeCAN 320 hardware and Raptor Display software in Simulink to display pertinent signal information and control the component comprehensively for efficient component testing, battery cell charging and balancing, and fast fault diagnosing without needing engineering or CAN knowledge

    ◊ Implemented HIL software simulation for automated testing, wrote detailed functional test plan for the DC/DC software, and contributed to DFMEA analysis

    ◊ Created, edited, and managed CAN dbc files using Vector CANdb++ in accordance with system requirements

  • ◊ Reverse-engineered and implemented vehicle systems such as ABS, TCS, and cluster using Simulink and MotoHawk

    ◊ Collaborated with on-site engineers and technicians to electrify vehicles by gathering CAN and telematics data and troubleshooting service issues

  • ◊ Involved with EV systems architecture, including powertrain, High-Voltage battery system, and Control Area Network (CAN) through electrification of medium-duty Ford vehicles

    ◊ Analyzed CAN dbc and log files, specifically to reverse-engineer Ford systems such as AutoSar shutdown and PATS systems

    ◊ Wrote CAN definition files for MotoHawk tool within Simulink

    ◊ Conducted vehicle hardware and software validation in all vehicle systems

    ◊ Assisted the Service department by monitoring and diagnosing issues in fleet vehicles using ViriCiti and CAN log files

    ◊ Wrote documentation and work instructions, including flashing software to the power steering Sevcon inverter, flashing software to Romeo Pack HV batteries, and clearing faults from HV battery packs

    ◊ Developed, red-lined, and edited harnesses in SolidWorks Electrical

project experience

SALUS Senior Design Project

  • Developed an autonomous security system, which included affordable hardware and open-source software, to detect weapons and combat public school gun violence

  • Utilized raspberry pi and camera to send pictures using a UDP server-client and OpenCV to build the deep-learning inference

  • Demonstrated teamwork with three other students by scheduling, discussing, and collaborating during weekly meetings to complete the project and documentation

Solidworks Design Project

Designed, modeled, and assembled a replica of a nine-foot grand piano and conducted displacement and stress tests on the materials used in the model

education

University of California, Irvine

2019-2021

BS Electrical Engineering

Digital Signal Processing Specialization

Magna Cum Laude, Dean’s Honor List

skills

Software & Programming

Simulink, MATLAB, Git, RaptorDev, MotoHawk, Vector CAN, Python, C, basic C++, Mathematica, SolidWorks, Jira, Microsoft Office, Google Workspace

Hands-On

spectrum analyzer, oscilloscope, multimeter, basic tools, soldering