EMC Testing

EMC testing, also known as Electromagnetic Compatibility (EMC), refers to the comprehensive evaluation of the electromagnetic interference (EMI) and electromagnetic susceptibility (EMS) of electronic products. It is one of the most important quality indicators for products. Electromagnetic compatibility measurements consist of test sites and test instruments. The purpose of EMC testing is to assess the impact of electromagnetic radiation generated by electrical products on humans, public power grids, and other normally functioning electrical products. It is defined as "the ability of devices and systems to operate normally in their electromagnetic environment without imposing intolerable electromagnetic disturbances on anything in that environment." This definition encompasses two aspects: first, the device should be able to function properly in a certain electromagnetic environment, meaning it must possess a certain level of electromagnetic immunity (EMS); second, the electromagnetic disturbances generated by the device itself should not excessively affect other electronic products, i.e., electromagnetic interference (EMI).

Oversea Road Testing 

Our testing capabilities comprehensively cover various vehicle types, including fuel-powered vehicles, hybrid vehicles, and pure electric vehicles. By integrating unique local factors such as climate conditions, terrain features, typical road conditions, and driving habits, we simulate real-world driving scenarios on actual roads. This enables early detection of potential issues that may arise during the initial use of new vehicle models in the target market, allowing for timely improvements and enhanced vehicle quality within a shortened testing cycle.

ADAS Specialized Testing：

Conducted on actual overseas roads, this testing evaluates the functionality, performance, and safety of Advanced Driver Assistance Systems (ADAS). Key test items include automatic emergency braking, adaptive cruise control, lane keeping assist, and blind spot detection. The tests validate the accuracy and reliability of these functions under diverse driving conditions and real-world scenarios.