GatorByte - Enclosure and PCB CAD

Published: 28 December 2022| Version 1 | DOI: 10.17632/gjbkxb74dw.1
Piyush Agade,


Title: GatorByte – An Internet of Things-based Low-Cost, Compact, And Real-time Water Resource Monitoring Buoy Abstract: Water-quality monitoring systems available today are usually expensive and have low-temporal resolution and lack spatial dimension entirely. These systems are typically available as stations or handheld devices. Pinpointing sources of pollution using these systems is difficult. This project involves developing a high-resolution free-flowing monitoring buoy that records spatiotemporal water-quality data. The system is highly customizable, and even users with limited experience in programming or electronics can tailor GatorByte for their needs. The platform includes a datalogger, cloud-based server, and visualization tools. The datalogger uses low-cost sensors, electronic peripherals, a 3D-printed enclosure, and Printed Circuit Boards, bringing the cost per unit under $1000. The datalogger uses an NB-IoT-capable Arduino for real-time reporting and visualizing sensor data. The GatorByte records physiochemical water metrics – pH, temperature, dissolved oxygen, electroconductivity, and the current location of the buoy using a GPS module. The datalogger also includes micro-SD storage, and Bluetooth module for on-field diagnostics. Using GatorByte buoy, collection of variations in water quality data in temporal as well as spatial dimension can be achieved in a cost-effective and reliable manner, enabling quick detection and resolution of pollution events. Description: This repository contains CAD files (.brd, and .sch files) for all PCBs in GatorByte buoy. Moreover, Gerber files (.zip) are also provided that can be directly imported into websites like and for quick manufacturing. Enclosure CAD files (.sldprt files) are also provided along with .STL files that can be used to quick fabrication of the enclosure.


Steps to reproduce

The enclosure CAD files can be edited in SolidWorks and exported as STL and fabricated using a 3D printer. Alternatively, STL files provided in the repository can be used as-is for printing the enclosure without making any changes. PCB CAD files can be edited using Autodesk EAGLE, and can be exported as Gerber files for PCB manufacturing. Alternatively, provided Gerber files (.zip format) can be used as-is for PCB manufacturing without making any changes to the layout.


University of Florida


Computer-Aided Design