Skills

Tools and capabilities that enable me to bring ideas to life.

What I do best

A concise view of the tools and capabilities I rely on to design reliable, manufacturable electromechanical systems.

Mechanical Design

Concept to detailed CAD models for assemblies and parts-focus on manufacturability and serviceability.

SolidWorks (CSWA)OnshapeCATIA (familiar)AutoCAD3D modelingComplex assembliesGD&TTolerance stack-upsMaterial selectionMechanism design

Analysis & Simulation

FEA-driven iteration and validation-structural and thermal checks to ensure reliability under load.

Structural FEAThermal analysisDesign validationTolerance analysisFailure & stiffness evaluationSimulation-driven design

Manufacturing

Design for manufacturability and scale-DFM checks, vendor handoff, and tolerancing for production.

Design for Manufacturability (DFM)Design for Assembly (DFA)FDM 3D printingRapid prototypingCNC machiningInjection moldingDie castingAssembly documentationProcess optimization

Electromechanical Systems

Enclosure and mechanical integration for PCBs and sensors with thermal and EMI considerations.

Sensor integrationPCB design (Eagle)IMUs & embedded sensingArduinoESP32STM32F4I2C, SPIThermal for electronicsHardware integration

Testing & Validation

Structured verification and failure analysis-design verification, environmental testing and iteration.

Functional testingLoad & stress testingEnvironmental testingSystem integration testingDebuggingOscilloscopeMultimeter

Programming & Tools

Automation, data analysis and small tooling to speed up design iterations and verification workflows.

CC++PythonMATLABSolidWorks SimulationRSLogix (PLC)GitVS CodeMicrosoft OfficeGoogle Workspace