Radio frequency (RF) engineering is the design of systems and components that use electromagnetic principles for the transmission and reception of information across wireless and/or wired channels. At ...

Hands-On Experience: Obtain valuable employment experience in your field by participating in a co-op. Specialized Advanced Electives: Gain a comprehensive understanding of automotive design and ...

In 2025, EE World produced twenty-four EE Training Days webinars designed to educate engineers on practical design challenges ...

Advanced driver assistance systems (ADAS) rely heavily on modern radar technology. And why not? Radar uses electromagnetic waves to sense the environment. It can operate over a long distance in poor ...

From 5G and the internet of things to automotive radar, high frequency and wireless systems are pervasive in nearly every aspect of modern technology. To prepare engineers for careers in these ...

The global MIPI A-PHY standard is an asymmetric SerDes interface that provides high-performance links between automotive image sensors and displays and their associated electronic control units (ECUs) ...

Radio Frequency (RF) engineering forms the backbone of modern wireless communications, radar, satellite systems, and sensor networks by harnessing and manipulating electromagnetic energy across a ...

RF signal observation has evolved from yesteryear’s spectrum analyzer to today’s RF recorder. Swept spectrum analyzers, FFT analyzers, and real-time signal analyzers all had limitations. Today’s RF ...