03 / Technology
Core Technology
Huazhi Future of Maase Inc.
Huazhi Future uses computing power, algorithms, and industry scenarios as its technical foundation, advancing AI from model capability to scenario-based deployment.
01
The Lingyan Miaoyu Large Model
Our proprietary 9-billion parameter MoE architecture Lingyan Miaoyu large model achieves low inference costs and high-concurrency processing with excellent commercial ROI.
02
Cryogenic Minimum Quantity Lubrication CW-MQL
Pioneering the core technology of cryogenic minimum quantity lubrication (CW-MQL) at -90°C, deeply integrated with 5G + Edge Computing, to deliver a green manufacturing solution combining zero-emission processing with cloud-based intelligent equipment management.
Qingdao Maisi of Maase Inc.
Qingdao Maisi builds lithium battery products spanning mobile charging, parking energy storage, and off-road recreation, based on LFP material systems integrated with smart BMS, modular design, and IoT communication.
03
Ultimate Safety Technology
For mobile charging, energy storage, and starter-battery scenarios, MAAS builds a three-layer safety system across cells, mechanical structure, and system control. Automotive-grade LFP cells are paired with structural protection, thermal management, insulation monitoring, and millisecond-level BMS response to support active protections against overcharge, over-discharge, overcurrent, short circuit, and overheating in demanding commercial and outdoor environments.
04
Ultra-Long Lifespan Technology
Long-life battery technology focuses on the full-lifecycle value of battery assets. Through material modification, cell formulation optimization, and system balancing control, it slows capacity fade and improves cycle stability. Continuous BMS monitoring of cell voltage, temperature, and charge-discharge status helps reduce maintenance frequency across mobile power equipment, commercial storage cabinets, and long-running energy terminals.
05
High-Rate Performance Technology
High-rate performance technology is designed for emergency replenishment, rescue starting, and high-power mobile terminals that require instantaneous output. High-rate cells, low-resistance connections, thermal structures, and BMS discharge strategies work together to support short-duration high-current delivery and stable power release, enabling faster response in mobile charging robots, rescue equipment, and power products under heavy-load conditions.
06
Smart Lithium Battery Technology
Based on lithium iron phosphate material systems and integrated with smart BMS, modular design, and IoT communication technologies, we create lithium battery products spanning mobile charging, parking energy storage, off-road recreation and more. Every technology centers on one core mission: making users safer, more carefree, and more profitable.
07
Modular & Fast Charging Technology
Modular and fast-charging technology is built around independent PACK boxes, standardized interfaces, and maintainable structures to improve assembly, expansion, servicing, and replacement efficiency. Combined with 1C-2C fast charging and rapid battery-swap design, it helps mobile energy devices restore service capability between operating cycles while allowing products with different capacities and scenarios to reuse core battery and control modules.
08
Environmental Adaptability Technology
Environmental adaptability technology supports deployment in parking facilities, campuses, outdoor rescue, mining sites, and long-haul transport. Wide-temperature operating strategies, sealed protection, salt-spray resistance, and redundant checks for critical components improve stability under temperature swings, humidity, dust, and vibration, reducing uncertainty in cross-region deployment and long-term operations.
09
Lightweight Technology
Lightweight technology combines high-energy-density cells, lighter frames, structural topology optimization, and compact system layout to reduce equipment weight and rolling resistance while preserving safety and strength. It improves range, handling efficiency, and deployment flexibility for mobile charging robots, off-road recreation products, and portable energy terminals.
10
V2V Multi-Protocol Compatibility Technology
V2V multi-protocol compatibility serves roadside rescue and emergency charging scenarios. Through software-defined protocol adaptation, charging handshake control, and vehicle-side status recognition, it improves interoperability across brands and interface standards, allowing rescue vehicles, mobile charging robots, and operating platforms to respond more efficiently to depleted EVs.
11
AI Dispatch Algorithm for Energy Storage
Commercial storage AI dispatch brings electricity prices, load curves, device status, weather, and operating constraints into one decision model for peak shaving, demand management, and storage-charging coordination. The algorithm continuously optimizes charge-discharge strategies based on field data, turning storage cabinets from standalone hardware assets into operational energy nodes that can be measured, reviewed, and improved over time.
12
Full-Scenario Powertrain Tuning
Scenario power tuning optimizes power response, energy recovery, torque output, and operating modes for UTVs, go-karts, motorcycles, rescue equipment, and mobile energy terminals. The system adjusts output curves according to load, road conditions, temperature, and user mode, balancing handling experience, range performance, and safety boundaries across diverse field conditions.