This is placeholder text.
As chip manufacturing processes continue to advance, with lower voltages, higher speeds, and increasingly complex signals, testing requirements are steadily rising. In applications such as chip design verification, power‑device testing, and the R&D and packaging‑testing of SiC/GaN devices, engineers must accurately capture and analyze high‑speed, minute‑scale signals.
View More
This is placeholder text.
With the rapid advancement of new energy and power electronics technologies, power supply systems are evolving toward higher frequencies, greater efficiency, and higher power densities. In the development of switch-mode power supplies, inverters, energy storage systems, and power modules, it is essential to conduct precise testing and optimization of voltage, current, and switching waveforms.
View More
This is placeholder text.
With the advancement of 6G and high-speed communication technologies, signal frequencies and complexity continue to rise. In applications such as high-speed interface testing (e.g., USB, PCIe), RF signal analysis, and communication module debugging, increasingly stringent requirements are being placed on signal quality and test accuracy.
View More
This is placeholder text.
Smart electric vehicles are advancing rapidly, leading to a significant increase in the complexity of onboard electronic systems. In testing and maintenance scenarios for vehicle power supplies, motor drives, battery management systems (BMS), and in-vehicle communication systems, stable and reliable signal measurements are required under complex, high-voltage conditions.
View More
This is placeholder text.
Consumer electronics evolve rapidly, placing heightened demands on R&D efficiency and testing costs. In the development and testing of smartphones, tablets, wearable devices, and power adapters, it is essential to swiftly perform multiple signal verifications and pinpoint issues.
View More
This is placeholder text.
As electronic engineering education continues to evolve, the demand for practical teaching equipment in both universities and vocational colleges is steadily rising. In laboratory instruction, course design, and research projects, it is essential to balance ease of use with robust professional testing capabilities.
View More
As chip manufacturing processes continue to advance, with lower voltages, higher speeds, and increasingly complex signals, testing requirements are steadily rising. In applications such as chip design verification, power‑device testing, and the R&D and packaging‑testing of SiC/GaN devices, engineers must accurately capture and analyze high‑speed, minute‑scale signals.
View MoreWith the rapid advancement of new energy and power electronics technologies, power supply systems are evolving toward higher frequencies, greater efficiency, and higher power densities. In the development of switch-mode power supplies, inverters, energy storage systems, and power modules, it is essential to conduct precise testing and optimization of voltage, current, and switching waveforms.
View MoreWith the advancement of 6G and high-speed communication technologies, signal frequencies and complexity continue to rise. In applications such as high-speed interface testing (e.g., USB, PCIe), RF signal analysis, and communication module debugging, increasingly stringent requirements are being placed on signal quality and test accuracy.
View MoreSmart electric vehicles are advancing rapidly, leading to a significant increase in the complexity of onboard electronic systems. In testing and maintenance scenarios for vehicle power supplies, motor drives, battery management systems (BMS), and in-vehicle communication systems, stable and reliable signal measurements are required under complex, high-voltage conditions.
View MoreConsumer Electronics Application
Consumer electronics evolve rapidly, placing heightened demands on R&D efficiency and testing costs. In the development and testing of smartphones, tablets, wearable devices, and power adapters, it is essential to swiftly perform multiple signal verifications and pinpoint issues.
View MoreAs electronic engineering education continues to evolve, the demand for practical teaching equipment in both universities and vocational colleges is steadily rising. In laboratory instruction, course design, and research projects, it is essential to balance ease of use with robust professional testing capabilities.
View More


