Customized Battery Pack Engineering to Meet Multi-Scenario Requirements

As electrification expands across transportation and stationary energy applications, flexibility in battery pack design has become increasingly important. Different platforms require different voltage levels, capacity ranges, structural layouts, and integration interfaces. To address these diverse needs, we provide scalable and application-oriented battery pack engineering solutions.

Our battery pack design process begins with a detailed analysis of customer requirements, including power demand, operating environment, space constraints, weight limits, and system compatibility. Based on these parameters, our engineering team develops optimized configurations covering cell selection, module arrangement, voltage architecture, and energy density targets.

Modular design principles are adopted to improve scalability and maintenance efficiency. By standardizing modules while allowing flexible system configuration, we enable faster customization and easier adaptation to various applications such as electric buses, trucks, engineering vehicles, residential energy storage, and commercial & industrial ESS systems.

Structural design and enclosure engineering are also key aspects of our solution. We consider vibration resistance, thermal management integration, IP protection level, and installation compatibility to ensure the battery pack operates reliably under different environmental conditions.

In addition, communication interfaces and BMS integration are tailored to align with vehicle control systems or energy management platforms, ensuring smooth system-level coordination.

Through a combination of engineering expertise, modular architecture, and customization capability, we deliver battery pack solutions that balance performance, safety, scalability, and long-term reliability.