Abstract
High-frequency laser diode (LD) control is essential for precise biomedical imaging and diagnostic applications. This project presents a LabVIEW-based FPGA system designed to generate and manage trigger signals for LDs, enhancing control over frequency and timing. By programming the FPGA to process input signals and transmit synchronized triggers, the system effectively drives an idiosyncratic LD control board.
A key innovation lies in enabling parallel triggering through FPGA’s digital output ports, showcasing its versatility and efficiency in high-frequency operations. The developed system demonstrates robust performance, meeting the demanding requirements of biomedical imaging applications and offering a scalable solution for advanced LD control systems.
Document Type
Article
Class Name
Electrical and Systems Engineering Undergraduate Research
Language
English (en)
Date of Submission
4-25-2024
Recommended Citation
Li, Yuyao, "LabVIEW-Based FPGA System for High-Frequency Laser Diode (LD) Control" (2024). Electrical and Systems Engineering Undergraduate and Graduate Research. 33.
https://openscholarship.wustl.edu/eseundergraduate_research/33