Georgia Tech’s Electrical Engineering BS spans nano-scale transistors to utility-scale renewables. Students prototype CMOS amplifiers in 300 mm wafer fabs, design 77 GHz automotive-radar antennas in anechoic chambers, and program microgrids inside the High-Power Energy Systems Lab. Thread combinations let majors focus on embedded AI, photonics, or power electronics while co-ops with Tesla, Keysight, and the Georgia Power Company translate lab breakthroughs into field deployments. Graduates leave ready to light smart cities, 6G networks, and quantum links alike.
Gallium-nitride DC-DC converter for electric-vehicle fast chargers
Phased-array beam-steering algorithm for low-Earth-orbit satellites
Printed graphene antenna for wearable health sensors
Edge-AI fault-detection system for distribution transformers
Li-ion battery-management IC with model-predictive thermal control
Ultra-low-power wake-up radio for wildlife-tracking sensor nodes
Photonic neural-network accelerator using Mach–Zehnder interferometers
Smart insole harvesting energy from piezoelectric footfalls
FPGA-based SDR for cognitive-radio spectrum sharing
Dynamic reactive-power controller for solar-plus-storage microgrids
Contactless capacitive charger for industrial AGVs
Vision-guided robotic arm using event-based camera processing
Microwave imaging system for non-invasive breast-tumor detection
Quantum-key-distribution transceiver on silicon photonics
Wide-bandgap inverter topology for grid-forming applications
AI-driven EMI prediction tool for high-density PCB layouts
Power, sense, and connect an electrified, intelligent planet.
Whether it's Machine Learning, Data Science, or Web Development, Collexa is here to support your academic journey.
"Collexa transformed my academic experience with their expert support and guidance."
Computer Science Student
Reach out to us for personalized academic assistance and take the next step towards success.
