Projects Overview
Below you'll find a collection of my work spanning university coursework and personal initiatives. These projects demonstrate my technical skills, problem-solving abilities, and passion for engineering.
Personal Projects
These are projects I am working on independently to continue developing my skills and understanding of electrical engineering concepts and semiconductor design and fabrication.
University Projects
Capstone Project - Hydraulic Cylinder Test Bench
For my Capstone project, my team and I developed a bench used to test industrial hydraulic cylinders. I worked in a team of 6 students to design and build the electrical control system for the bench in the first half of the project. In the second half of the project, I created a Python program that takes the data that is collected by the HMI program and filters out the data from each test. Then, using the filtered data, the program generates a test report for each cylinder that is tested.
Fourth Year Course Projects Overview
My fourth year coursework focused on advanced electrical engineering topics and specialized applications. These projects challenged me to apply complex theoretical concepts to practical engineering problems, preparing me for professional practice and my capstone project.
Post Assembly Thermal Annealing of Microelectromechanical Devices
The challenge presented for this project was to design either a Microelectromechanical (MEMS) device, or a process for MEMS devices. My team and I responded to the challenge by designing a process for the thermal annealing of MEMS devices after they have been assembled. This allows MEMS designers to create 2D designs that can then be assembled into 3D structures. Then once the structures are assembled, they can be hardened in place to provide extra stability and strength.
PPG Sensor Design
The purpose of this project was to implement and apply the principles of the UBC course ENGR 451 Microelectronics 2. This project involved the amplification, filtering, conditioning, and digitization of a PPG (Photoplethysmogram) signal. The PPG signal is a non-invasive method of measuring blood volume changes in the microvascular bed of tissue, and is commonly used in medical applications to monitor heart rate and blood oxygen levels.