This article offers an in-depth look at the basic concepts and components of the IEC 61000 series, its application in EV testing, and a comparison with other international standards.
A Comprehensive Guide to the IEC 61000 Series in Electric Vehicle (EV) Testing Read More »
As the world transitions to new energy sources, power systems play an increasingly central role in the energy transformation process. Whether it’s electric vehicles, renewable energy generation, or energy storage systems, these technologies depend on stable and reliable power management. To ensure optimal performance under various operating conditions, electronic load devices are essential tools in
Explore the three main types of Industrial Data Acquisition Systems—automated, manual, and IoT-based—designed to enhance efficiency, accuracy, and real-time monitoring in modern industrial applications
Definition and Types of Industrial Data Acquisition Systems Read More »
Constant current technology is at the heart of this process—ensuring that charging systems operate stably under variable voltage conditions while minimizing risks such as overload and overheating.
Traditional grid simulators are no longer sufficient to meet the demands of contemporary power testing. This has paved the way for the emergence of Four-Quadrant Grid Simulation, a cutting-edge solution known for its bidirectional control capabilities and energy feedback features.
Next‑Generation Grid Mastery: Unraveling Four‑Quadrant Simulation and Its Applications Read More »
To ensure that DC power supplies remain stable and reliable across various applications, engineers conduct several key tests. These tests focus on verifying voltage stability, dynamic response, ripple and noise levels, and overall reliability under extreme conditions. Each type of test checks how well a DC power supply can handle different loads and challenging situations.
Key Technical Requirements for DC Power Testing Read More »
The Importance of Automotive Ethernet in Electric Vehicles As the automotive industry rapidly moves toward electrification and smart systems, the in-vehicle communication networks in electric vehicles (EVs) face increasingly complex demands. Traditional bus systems like CAN and LIN, once sufficient, now struggle with the massive data needs brought by advanced driver assistance systems (ADAS), infotainment
Automotive Ethernet Testing in the Electric Vehicle Industry Read More »
Power testing involves using various testing equipment and techniques to assess and verify the performance, safety, stability, and compliance of electrical equipment. This process spans the stages of product development, production, installation, and maintenance to ensure reliable operation in real-world environments.
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