orbis systems

In today’s high-frequency, high-precision wireless world, RF testing has become more dynamic, complex, and data-driven. Whether you're designing 5G antennas, optimizing satellite communications, or validating IoT devices, accurate over-the-air (OTA) testing is critical. One key component that often determines the efficiency and reliability of these tests is the antenna positioning system . By allowing controlled, automated movement of antennas during tests, an antenna positioning system helps capture true performance in real-world orientations. Without proper integration of this tool, even the most advanced test setups can yield misleading or incomplete results. This guide walks you through how to effectively integrate an antenna positioning system into your RF test environment, ensuring better repeatability, measurement accuracy, and workflow efficiency. 🔑 Key Takeaways: An antenna positioning system is essential for real-world RF performance measurement. Proper mechanica...

The automotive industry is undergoing a monumental shift. Vehicles are no longer just mechanical machines—they're evolving into intelligent, connected, and software-driven platforms. From advanced driver-assistance systems (ADAS) to V2X communication and infotainment features, modern cars are packed with electronics. But with this digital sophistication comes an invisible threat: electromagnetic interference (EMI). This is where automotive EMC (Electromagnetic Compatibility) testing—and robust automotive test solutions —become vital. In a world of connected mobility, automotive EMC testing is the silent protector ensuring that all those complex electronic systems coexist harmoniously—without interference, data corruption, or safety failures. 🔑 Key Takeaways: EMC testing is essential for ensuring the safe and reliable operation of connected vehicles. Modern vehicles are densely packed with sensors, ECUs, and wireless interfaces—making electromagnetic compatibility more impor...

Introduction: The Growing Demand for Efficient Signal Routing As industries push the boundaries of wireless communication, aerospace, and radar technology, the need for advanced signal routing has become more critical than ever. Whether you're testing complex antenna arrays or managing signal flow in a satellite uplink, switching systems must be fast, reliable, and capable of handling high power levels. That’s where high power RF switches step in. These devices may be small in size, but their role in high-frequency systems is monumental. They function as controllable gates that direct RF signals along specific paths, enabling system flexibility, automation, and safety—all while managing large power loads without compromising performance. Understanding High Power RF Switches A high power RF switch is a specialized component designed to route radio frequency signals from one path to another. These switches are capable of handling significant amounts of power (often in the tens or ...

Setting up a professional-grade testing environment isn’t just about the instruments you use—it’s also about how those instruments are housed and organized. Whether you're outfitting a new RF lab, upgrading an EMC testing facility, or simply aiming to optimize performance, electronic test equipment racks play a vital role. These racks are more than metal enclosures—they provide the backbone for stable operation, structured wiring, and thermal control. But with so many options available, how can you tell which rack is truly worth the investment? Let’s dive into the top features that define high-quality electronic test equipment racks—and why they matter for your testing success. Key Takeaways A high-quality electronic test equipment rack enhances testing efficiency, safety, and organization. Essential features include modular design, efficient thermal management, and built-in cable management. Customization, compliance with standards, and integration support are critical ...