Mechanical Engineer

Jason Marcus P Cangco

*** ******* ****** *******, ** 94591 Cell: 707-***-****

********@*******.*** LinkedIn: jasonPcangco

Education: BSc Mechanical Engineering (Graduated July 2020) University of California, Davis

Coursework:

● Computer Aided Design

● Electronic Circuits

● Mechatronic Systems

● Controls of Engineering Systems

● Fluid Mechanics

● Thermodynamics

● Heat Transfer

● Mechanics of Materials

● Mechanical Design

● Measurement Systems

● Manufacturing Processes

● Mechanical Vibration

Skills:

• Proficient in Matlab, Python, SolidWorks, Autodesk Fusion 360, MS Office, MacOS, MS Windows

• Competent in Simulink, R, and LaTeX

• Trained in PLCs and ladder logic

• Performed numerical analysis and basic statistics

• Operated lathes, mills, drill presses, CNC machining

• Used NI LabVIEW and NI myDAQ to measure values, analyze signals, and EMI

• Built circuits using solderless breadboards, Op-Amps, function generators, DMM, and oscilloscopes

• Experience with GD&T

• Bilingual in Tagalog, Native in English, Elementary in Spanish

• Driven, motivated, and enthusiastic to tinker and to expand my horizon Experience:

Engineering Intern July 2019 – September 2019

Barry – Wehmiller Design Group (BWDG) Santa Clara, CA

• Onsite staff augmentation as part of Instrumentation and Controls team at Intel IMO

• Field verification of assets in site yard and inside cleanroom

• Temperature sensor calibrations, redlined P&IDs, and generated an asset map

• Maintained client trust between both companies through client bonding

• Worked with semi-conductor industry nomenclature and ISA tagging standards

• Trained with PLCs: GE PACSystems RX3i, HMI: PME, SCADA System: Cimplicity Projects:

Semi-Auto Wasabi Grating Machine January 2020 – June 2020

• Conceived and modeled a semi-auto wasabi grater with constraints such as a $600 budget and 2 actuators

• Collaborated as communications lead with a team of colleagues, faculty, and sponsors to create the electro- mechanical machine that uses FDA-approved components

• Utilized sub-assemblies in SolidWorks to stage major processes of root-grating automation

• Performed a DFMEA and relevant calculations such as a FEA and fatigue life to determine product integrity under usage

• Upkept an up-to-date BOM for each subsystem and relevant CAD drawings for modeled pieces Eating Utility for People with Parkinsonian Tremors February 2020 – March 2020

• Used Python to model a stabilizing spoon as a multi degree-of-freedom, dynamic system while in use to explore its mechanical vibrations

• Analyzed translational and rotational motion of the spoon to find feasible values of a passive method using springs and dampers to reduce tremors while eating

• Reviewed various literature to estimate tremor frequency and amplitude

• Explored the structure’s resonance and found its modes of oscillation through computer simulations Jason Marcus P Cangco

815 Knights Circle Vallejo, CA 94591 Cell: 707-***-**** ********@*******.*** LinkedIn: jasonPcangco

Child-Size Ferris Wheel April 2020 – June 2020

• Conceptualized a child-size Ferris Wheel made of wood for up to 4 kids using a 100:1 gear ratio

• Designed a gearbox using 8 plastic gears that required a 3kW motor for worst-case scenarios

• Performed failure analysis and found fatigue life on critical components such as shafts, bearings, and shoulders

Apple-Picking Platform Design October 2019 – December 2020

• Worked in a team to design a platform for apple pickers mounted on a moving vehicle

• Used Matlab to calculate deflection, fatigue, and stress-life cycle with safety factors in mind

• Reiteratively produced CAD models via SolidWorks to communicate ideas and changes Light Intensity Detector January 2019 – March 2019

• Cooperatively worked with a partner to produce a light intensity detector with a digital display

• Utilized breadboards and other electric elements to construct circuit subsystems

• Employed the use of Virtual Bench, Teensy microprocessor, and Arduino to measure values Gyroscope Top September 2018 - December 2018

• Disciplined in proper usage of drill presses, lathes, and mills in a workshop environment

• Referred to experts, peers, and drawings for best plan of action while operating machinery

• Timely execution of completing the gyroscope despite reduced allotted workshop time Stackable Totem Piece September 2018 - December 2018

• Communicated with fellow engineers and drawings to ensure correct specifications

• Employed use of AutoDesk Fusion 360 & SolidWorks to create CAD models and CNC code

• Utilized lathes, mills, and drill presses to produce a totem piece from raw materials to reality that is capable of mating with two other peers’ pieces

Audio Sampler February 2017 - March 2017

• Collaborated with two other team members in creating an audio sampler

• Employed Matlab to create a GUI that manipulates and interacts with downloaded .wav files

• Implemented a tone generator and a sequencer using Matlab within the GUI

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