I first became interested in electrical engineering when I enrolled at Oregon State. Since then, I have become particularly interested in digital logic and schematic design. During my Junior year, I helped design a block diagram for two small projects and headed documenting both projects. These were a DFT Audio Visualizer and a Servo PID Loop. My main Junior Design project was a Sumo Robot. I was in charge of the sensors and the user display. I also designed the robot's PCB. That summer, I had a six-month internship with Intel working on failure analysis of products. In my senior year of college, my capstone project was a board called the Tachyon II. My main work on the board was helping create a user guide and a schematic capture.
When a sound is being made, the DFT Audio Visualizer splits the sound up into three different frequencies: low, mid, and high. Each path is connected to a string of LEDs. A stronger particular frequency will light up more LED...
When given a command through a serial monitor, a motor will only turn as many degrees and specified by the command. I worked on the block diagram and documentation.
A small robot in the middle of a sumo ring will search for a block. Once the robot has detected the block, the robot goes towards the block and pushes it out of the ring without going out of the ring itself. I worked on the d...
The purpose of the Tachyon II is to develop a next gen space VNX development platform based on the PolarFire SoC FPGA, the first SoC FPGA that utilizes a RISC-V processor system. Compared to other recent top-of-the-line proces...