Climate & Environmental Test Systems
The Climate & Environmental Test System is designed for performance verification of complete vehicles, e-drive systems, battery packs, and key components. It precisely reproduces global extreme climate conditions in the laboratory. With a core architecture of climate chamber and test bench, it enables full control of temperature, humidity, pressure, and airflow to achieve vehicle-level.
Key Benefits
Modular Architecture
Flexible, modular design enables quick reconfiguration and scalability for various testing requirements, from component-level to full-vehicle validation.
Energy-Efficient Control
Incorporates regenerative energy recovery design, minimizing power consumption and reducing operational costs during extended test cycles.
Global Standards Compliance
Supports operation under all climatic and environmental conditions in accordance with major international test and certification standards.
Customizable Solutions & Lifecycle Support
Tailored system configurations with rapid deployment and comprehensive lifecycle service, ensuring consistent performance and uptime.
Full Platform Compatibility
Fully compatible with leading international test platforms, enabling seamless integration into existing laboratory and automation systems.
Key Technical Parameters
Powertrain
High-performance AC vector motors supporting four-quadrant operation (drive / brake).
Control Precision
Speed ±0.1 km/h, torque ±0.5 % F.S., ensuring high accuracy for test repeatability.
Speed Range
0 – 250 km/h (higher ranges available on request for heavy or high-speed vehicles).
Inertia Simulation
Wide-range electric inertia matching enables precise replication of different vehicle masses.
Integration
Seamless interface with CVS emission systems and climate chamber controls for combined testing.
Safety Design
Equipped with automatic vehicle restraint systems and emergency safety interlocks for secure operation.
Primary Applications
EV & Hybrid Vehicle Durability and Efficiency Testing
Assesses long-term system reliability, performance degradation, and powertrain energy efficiency under dynamic driving cycles.
E-Drive System Cold Start & Thermal Management Validation
Validates performance under extreme temperature conditions to ensure reliable operation during cold starts and temperature transitions.
Battery Pack Thermal Cycling & Safety Evaluation
Simulates charge–discharge cycles, verifies cooling performance, and ensures compliance with thermal runaway safety requirements.
HVAC Performance & Cabin Comfort Testing
Analyzes cabin temperature control, airflow distribution, and occupant comfort under variable thermal load conditions.
Full Vehicle Thermal Management & Climate Adaptation Validation
Evaluates integrated system behavior under simulated environmental extremes — from arctic cold to desert heat — ensuring total vehicle adaptability.
