High-precision testing for EVSE infrastructure to ensure safety, regulatory compliance, and seamless user experiences. We provide full validation for global standards, including ISO 15118, IEC 61851, GB/T, and UL 2202, to accelerate the global transition to electric mobility.
Onboard DC/DC Charger ATE
A compact and modular all-in-one solution tailored for OBC and DC/DC converter power testing. Designed for high efficiency and flexibility, it integrates key instruments and supports full-process automation with one-click reporting.
Key Features
Hybrid Architecture: Supports both rack-mounted and modular configurations for scalable deployment.
Unified Power Testing: Integrated source and load simulation for full-process OBC/DC-DC analysis.
Automated Validation: Full-condition simulation with synchronized data acquisition and one-click reporting.
Operational Security: Compact industrial design featuring hardware-level IP protection and secure data handling.
AMS Electric Motor Emulator
The AMS platform provides high-fidelity electronic replication of induction and synchronous motor characteristics. By simulating programmable speed, torque, and complex operating profiles, it facilitates the rigorous validation of Motor Control Units (MCUs) without the mechanical constraints of a physical dynamometer. Featuring integrated battery emulation and regenerative AC/DC bus connectivity, the AMS serves as a high-safety ATE environment for both R&D and End-of-Line (EOL) testing.
Key Features
High-Fidelity Emulation: Replicates dynamic electrical and thermal behaviors for multi-motor systems within a single interface.
Regenerative Power Loop: Integrated battery emulation featuring efficient power circulation for sustainable, high-load testing.
Extreme Condition Validation: Safely simulate fault states and boundary operating conditions impossible to test on physical hardware.
Precision Resolver Simulation: Configurable emulation of resolver signals across varying torque, speed, and locked-rotor modes.
Battery Pack Cycler ATE
The BTS is a sophisticated, modular automated test system engineered for the rigorous cycling of traction battery packs and Energy Storage Systems (ESS). Utilizing a high-fidelity Power-HIL architecture, the platform executes bidirectional charge/discharge cycles that simulate real-world driving profiles, regenerative braking, and transient fault conditions. This eliminates the need for physical vehicle hardware while providing a deterministic environment for R&D, verification, and high-volume production.
Key Features
Scalable Multi-Channel Architecture: High-density design supporting synchronized testing across cell, module, and pack levels.
Unified Command Interface: Centralized control for the seamless management of complex parallel and series test configurations.
Power-HIL Synchronization: Native integration with BMS communication, environmental thermal chambers, and fluid cooling systems.
Dynamic Profile Simulation: Advanced emulation of EV-specific driving cycles and high-stress transient operating states.
Compliance-Automated Analytics: Instant generation of standardized, audit-ready test reports for global regulatory alignment.
