Quality Management
Excellence Driven by Extreme Control, Safety as the Foundation of Quality
On our journey to becoming a world-leading supplier of tabless cylindrical battery cells, we embed stringent quality standards into every process. From the fundamental redesign of underlying engineering principles to the delivery of complete product systems, we make no compromise on technology.
Guided by a science-based quality methodology and advanced testing frameworks, we are committed to providing more efficient, safer, and longer-lasting energy solutions.
Quality Objectives
Quality Policy
We integrate a quality-first mindset into every stage of R&D and manufacturing. Through green governance and continuous improvement, we keep pushing the boundaries of both physics and technology.
Innovation Driven
We believe innovation is the foundation of progress. In the development of next-generation energy storage technologies, we continue to invest in R&D, exploring new technologies, materials, and processes to meet the growing needs of the market and our customers. We maintain close collaboration with leading industry partners and research institutions to jointly advance innovation in battery technologies.
Quality First
Quality is our lifeline. We strictly adhere to international quality management system standards, implementing rigorous control across raw material sourcing, production process management, and final product inspection. We are committed to delivering safe, reliable, and high-performance energy storage products.
Green Manufacturing
We also recognize the importance of environmental responsibility. In battery manufacturing, we actively adopt green and eco-friendly processes and equipment to reduce energy consumption and waste emissions. We focus on the environmental impact across the full product lifecycle and strive for sustainable use of resources.
Continuous Excellence
We pursue operational excellence by continuously improving overall efficiency. Production processes are constantly optimized to enhance productivity and reduce costs. At the same time, we invest in employee training and skill development to build a highly efficient and professional team that supports long-term growth. Through continuous pursuit of excellence, we aim to deliver superior products and services, creating shared value for both customers and society.
Customer Value-Centric Quality System
Quality Center: Full-Process Framework
We move beyond traditional organizational structures, adopting a dual-helix blueprint driven by product flow and value flow. Centered on the lifecycle of battery development, we build an integrated quality control loop that connects every stage from upstream sourcing to final delivery.
Detail Embedded in Every Process
Full-Chain Quality Management Matrix
System-Wide Safety Redundancy
Building the Foundation of Quality on Safety
"Safety is the best performance of a battery." We have zero tolerance for risk. Our independent safety lab builds four major verification systems, simulating extreme scenarios far beyond national standards to identify risks before they occur, ensuring every product delivered has an innate safety gene.
Extreme Abuse Verification for Safety in Extreme Conditions
Through rigorous physical and electrical abuse testing, we simulate extreme accident scenarios to verify the battery system's instantaneous response and ultimate protection.
Short Circuit
Millisecond-level high-speed data acquisition to record safety performance during rapid short-circuit moments.
Overcharge/Over-discharge
Simulating BMS failure to verify the stability of the 'last line of defense'.
Nail Penetration
Actively triggering severe internal short circuits to ensure no fire or explosion.
Combustion Test
Direct exposure to open flames to test the fire resistance of the battery body.
Thermal Box Test
Placed in extreme high-temperature environments to verify cell thermal runaway protection.
Tumble Test
Simulating continuous tumbling to test structural integrity under complex stresses.
Crush Test
Withstanding extreme pressure to verify the internal short-circuit safety boundary.
Heavy Object Impact
Enduring heavy object impacts from above to verify casing impact resistance and explosion-proof performance.
Drop Test
Simulating high-altitude drop impacts to verify seal integrity and connection reliability.
Vibration Test
Simulating real road profile vibrations to verify long-term durability and connection reliability.
Resisting Heat and Cold, Braving Heat and Humidity
We challenge the limits of temperature and humidity to ensure battery systems remain stable in any harsh climate and environment.
High/Low Temp Charge/Discharge
Simulating extreme cold and heat to verify electrochemical stability across the full temperature range.
Thermal Shock
Subjecting cells to drastic temperature changes to test structural reliability and seal integrity.
High Temp/Humidity Storage
Long-term storage in hot/humid environments to verify corrosion resistance and insulation reliability.
Full Lifecycle Monitoring for Long-term Stability
We integrate safety throughout the product journey, simulating years of use to ensure batteries maintain high safety standards.
Cycle Life
Thousands of charge/discharge cycles to evaluate capacity retention and structural integrity.
Temperature Cycling
Repeated high/low temperature alternation to test long-term thermal stress durability.
Humidity Cycling
Alternating between high humidity and dry environments to verify insulation reliability.
Product Certification Framework
Global Access:
Barrier-Free Entry Network
Meeting rigorous international standards to build a high-strength moat for quality and commercial compliance.
Factory Systems
Global Compliance Network
Comprehensive coverage of mainstream global regional market access requirements