The GoGo EH1000V-EM is a robust and sophisticated Precision Probe Station engineered to unlock the high-temperature electrical properties of next-generation materials. Designed for reliable, long-term operation at ultra-high temperatures up to 1000°C, this system is essential for characterizing wide-bandgap semiconductors (SiC, GaN), advanced ceramics, and other materials that operate under extreme thermal stress. It combines a high-vacuum chamber for pristine sample environments with an enhanced XYZ movement stage offering ±12.5mm of travel for superior probe positioning. Integrated with low-noise triaxial BNC connections, this heavy-duty Probe Station delivers the stability and signal integrity required for groundbreaking research at the frontiers of high-temperature electronics and materials science.

• Unrivaled High-Temperature Endurance: Engineered for sustained, stable operation at 1000°C with ±0.1°C stability, this Probe Station is built to withstand the rigors of long-duration thermal cycling and testing, providing reliable data for high-temperature device development.
• Extended-Range Precision Positioning: The enhanced XYZ manipulators provide a generous ±12.5mm of travel, allowing for flexible probing across larger samples or multi-device wafers while maintaining sub-micron positioning accuracy crucial for high-temperature measurements.
• Optimized Signal Integrity at High Temperatures: Featuring four gold-plated tungsten probes and triaxial BNC ports, the station is designed to minimize thermal EMF and electromagnetic interference, ensuring clean electrical data is captured even in demanding high-temperature and vacuum conditions.
• Protected Vacuum Environment for Critical Samples: The sealed vacuum chamber is vital for testing oxidation-sensitive materials at high temperatures. It prevents sample degradation and ensures measurements reflect the true intrinsic properties of the material, not surface contamination effects.
• Certified Robustness & Automated Control: Manufactured under ISO 9001:2015, 14001:2015, and 45001:2018 certified processes for guaranteed quality. The TNEX software enables full automation of complex high-temperature test profiles, synchronizing thermal cycles with electrical measurement sequences for hands-off operation and reproducible results.

This specialized Probe Station is designed to meet the advanced R&D demands in key growth regions such as Southeast Asia, the Middle East, Russia, and Africa. It is an indispensable tool for university research departments, government-funded laboratories, and industrial R&D centers focusing on power electronics, aerospace materials, and high-temperature sensor technology.

1. What materials and devices require a 1000°C Probe Station? This station is critical for testing materials like silicon carbide (SiC), gallium nitride (GaN) for power devices, thermoelectric materials, high-temperature superconductors, and ceramic-based sensors that are designed to function in extreme thermal environments.
2. Why is the extended XYZ travel range (±12.5mm) beneficial? The larger travel range allows researchers to probe multiple devices on a single substrate or navigate across larger material samples without needing to reposition the stage internally, saving significant time and maintaining thermal stability during mapping experiments.
3. How does the system maintain probe and signal integrity at 1000°C? The station uses high-temperature compatible materials like ceramics for insulation and gold-plated tungsten for probes. The triaxial cabling and careful thermal design minimize noise and drift, ensuring accurate voltage and current readings.
4. Can this Probe Station be used for reliability and lifetime testing? Absolutely. Its design for long-term stable operation at ultra-high temperatures makes it perfectly suited for burn-in tests, thermal cycling reliability studies, and observing the degradation of electrical properties over time at high temperatures.
5. What is included for immediate setup? The system is supplied as a complete workstation. The package includes the main probe station with external manipulators, a high-power temperature controller, a recirculating chiller, TNEX software, and all essential cables, tubing, and accessories to begin testing upon installation.