Precision-engineered for safety-critical testing of lithium-ion batteries. Supports temperature cycling (-70°C to 180°C), humidity control (10%-98% RH), and high-current discharge testing. Compliant with UN 38.3, IEC 62133, and UL 2054 standards.
Robust Lithium Battery Test Chamber for EV & Energy Storage Validation
Our lithium battery test chambers are designed to simulate extreme environmental conditions, ensuring your batteries meet global safety and performance standards.
|Core Features:
Temperature Range: -70℃~+180℃ with rapid cycling capabilities.
Safety Systems: PExplosion-proof design, pressure relief ports, and CO/H2 gas detection for risk mitigation.
Customization: Modular configurations for large-format batteries ( up to 1,000L) and high current connections(60A+).
Data Accuracy: Integrated Battery Interface Board for real-time charge/discharge monitoring.
Compliance: Fully aligned with UN 38.3, IEC 62660-2, and SAE J2464 standards for EV battery testing.
Humidity Function: Humidity control (10% to 98% RH) for material testing.
Automation: Programmable multi-stage cycles and data logging for ISO 9001 compliance.
| Application Scenarios
Electric vehicle (EV) battery packs and modules.
Energy storage systems ( ESS) and portable electronics.
Thermal abuse, short-circuit, and vibration resistance testing.
|Why Choose Danble?
Global Standards: Certifications for auotomotive, aerospace, and consumer industries.
Efficiency: Stackable benchtop units for small-batch testing and rapid setup.
Support: Onsite maintenance and 15+ year operational lifespan with service plans.
Optimize your R&D workflow today-- contact us for tailored testing solutions!
Robust Lithium Battery Test Chamber for EV & Energy Storage Validation
Our lithium battery test chambers are designed to simulate extreme environmental conditions, ensuring your batteries meet global safety and performance standards.
|Core Features:
Temperature Range: -70℃~+180℃ with rapid cycling capabilities.
Safety Systems: PExplosion-proof design, pressure relief ports, and CO/H2 gas detection for risk mitigation.
Customization: Modular configurations for large-format batteries ( up to 1,000L) and high current connections(60A+).
Data Accuracy: Integrated Battery Interface Board for real-time charge/discharge monitoring.
Compliance: Fully aligned with UN 38.3, IEC 62660-2, and SAE J2464 standards for EV battery testing.
What types of batteries can the test chamber accommodate?
Our battery test chamber is designed for lithium-ion (Li-ion), lithium-polymer, LiFePO4, and other rechargeable battery types. It’s suitable for testing consumer electronics batteries, EV batteries, energy storage system (ESS) batteries, and industrial lithium batteries—with customizable chamber sizes to fit cell modules, battery packs, or small batches of cells.
Can the test chamber simulate specific environmental conditions?
Yes. The standard model offers temperature control ranging from -40℃ to 150℃ and humidity adjustment from 10% to 98% RH, enabling simulation of extreme cold, high heat, humidity, or dry conditions. For special requirements (e.g., ultra-low temperatures down to -70℃ or high-altitude pressure simulation), custom configurations are available.
Is the equipment suitable for both R&D and mass production testing?
Absolutely. It’s engineered for dual-use scenarios: R&D labs benefit from programmable test modes and precise data logging for performance analysis, while production lines can use it for high-efficiency batch quality inspections with fast temperature/humidity stabilization and easy operation.
Does the test chamber support long-term aging tests?
Yes. It features a stable, energy-saving operating system that supports continuous aging tests for up to 180 days. Programmable cycle modes (e.g., temperature-humidity cycling) and automatic data recording (via USB or cloud) simplify long-term reliability assessment.
What safety features are included to prevent battery hazards?
Key safety protections include over-temperature/over-humidity alarms, high-pressure gas detection (for volatile battery emissions), fire suppression interfaces, and a corrosion-resistant, flame-retardant inner chamber. The chamber also meets IP protection standards to prevent dust and water ingress.
Can the chamber be customized for specific test requirements?
Yes. Customization options include: Chamber volume (from 50L to 1000L) Extended temperature/humidity ranges Specialized test functions (e.g., vibration integration, thermal shock) Custom data analysis software Multi-language touchscreen interface
How long is the delivery time and warranty period?
Standard models have a delivery time of 3-4 weeks; custom configurations take 6-8 weeks. We offer a 2-year warranty on core components (compressor, sensor, control system) and lifetime technical support.
Do you provide installation and training services?
Yes. We offer on-site installation, commissioning, and operator training (both on-site and online) to ensure proper use of the equipment. Our technical team is available 24/7 to address troubleshooting needs.
{"type": "4"}
About US
Founded 2012 and located in Suzhou, Danble is a professional supplier specializing in the R&D, manufacturing, and sales of environmental test equipments and laboratory testing solutions.
Danble offer a full range of standard and custom-designed temperature test chambers can aid reliability testing by subjecting products to real-world climate and wear extremes like temperature, humidity, altitude, vibration, and more.
This seires of test chamber can simulate various extreme environments to test products. It has wide temperature & humidity range and high control accuracy, and can meet the GB and IEC related test standards.
This series are critical for evaluating products and materials ( EV batteries, assessing PCBs, semiconductors, consumer electronics) under extreme thermal stress conditions
This series has two( two-zone with a transfer basket to cycle samples) or three ( three-zone with isolation valves control airflow direction) zones structure, and supports high & low temperature shock and ambinent temperature test without reconfiguration.
The altitude test chamber (or high-altitude test chamber) is a specialized environmental simulation device designed to replicate conditions at elevated elevations, including low atmospheric pressure, reduced oxygen levels, and temperature extremes. These chambers are critical for validating the performance, safety, and reliability of products across industries such as aerospace, automotive, electronics, and defense
Combined with temperature, humidity and vibration functions, it can be applied to the performance indicators of aerospace products, auto parts, electronic infromation instruments and other samples under harsh comprehensive conditions.
SOLUTION
Semi-conductor
Given the high sensitivity of semiconductors to environmental factors, our solutions focus on accurate control of temperature and humidity. By maintaining a stable and clean testing environment, we help semiconductor manufacturers detect potential defects caused by environmental stress, safeguard product quality during manufacturing processes, and meet the stringent requirements of the semiconductor industry.
Our environmental test chambers can precisely simulate a wide range of conditions such as extreme temperatures (ranging from -70℃ to 180℃), humidity levels (10% - 98% RH), and even low - pressure or high - pressure environments. This enables thorough evaluation of battery performance, including thermal stability, cycle life, and safety under different scenarios, ensuring that batteries meet strict quality and reliability standards.
In the new energy sector, especially in solar and wind energy applications, our testing equipment can simulate real - world environmental conditions like strong sunlight, high wind, and changing temperatures. This allows for the assessment of the durability and performance of new energy devices, contributing to the development of more efficient and reliable clean energy solutions.
Automotive parts need to withstand various harsh environmental conditions during vehicle operation. Danbo's environmental testing solutions subject automotive components to temperature cycling, humidity exposure, and vibration tests. This helps automotive manufacturers ensure that parts can function properly in different climates and driving conditions, enhancing vehicle safety and reliability.
Given the high sensitivity of semiconductors to environmental factors, our solutions focus on accurate control of temperature and humidity. By maintaining a stable and clean testing environment, we help semiconductor manufacturers detect potential defects caused by environmental stress, safeguard product quality during manufacturing processes, and meet the stringent requirements of the semiconductor industry.
Our environmental test chambers can precisely simulate a wide range of conditions such as extreme temperatures (ranging from -70℃ to 180℃), humidity levels (10% - 98% RH), and even low - pressure or high - pressure environments. This enables thorough evaluation of battery performance, including thermal stability, cycle life, and safety under different scenarios, ensuring that batteries meet strict quality and reliability standards.
In the new energy sector, especially in solar and wind energy applications, our testing equipment can simulate real - world environmental conditions like strong sunlight, high wind, and changing temperatures. This allows for the assessment of the durability and performance of new energy devices, contributing to the development of more efficient and reliable clean energy solutions.
Automotive parts need to withstand various harsh environmental conditions during vehicle operation. Danbo's environmental testing solutions subject automotive components to temperature cycling, humidity exposure, and vibration tests. This helps automotive manufacturers ensure that parts can function properly in different climates and driving conditions, enhancing vehicle safety and reliability.
