Cambridge EnerTech’s

Battery Engineering

Optimizing Cell and Pack Design through Engineering

March 25-26, 2026

As battery technology continues to evolve, the demand for precisely engineered battery systems that maximize the potential of active cell materials is growing. Developing battery packs that deliver consistent performance while ensuring seamless integration into end products requires a strong focus on safety, reliability, and durability. Cell design, including the selection of non-active components, plays a critical role in overall battery performance and long-term reliability. Regardless of cell chemistry, designing and integrating battery packs involves complex thermal, mechanical, and electrical engineering challenges. Achieving optimal cell and pack performance tailored to specific application duty cycles demands a thoughtful balance of energy and power density, manufacturability, abuse tolerance, thermal behavior, and cost-efficiency. The Battery Engineering program will explore these key considerations.

Coverage will include, but is not limited to:

Cell and Pack Design and Optimization
Thermal Management and Abuse Tolerance
Battery Integration and System-Level Engineering
Material Selection and Non-Active Components
AI and Data-Driven Battery Design
Testing, Validation, and Safety Standard

The deadline for priority consideration is September 19, 2025.

All proposals are subject to review by session chairpersons and/or the Scientific Advisory Committee to ensure the overall quality of the conference program. Additionally, as per Cambridge EnerTech’s policy, a select number of vendors and consultants who provide products and services will be offered opportunities for podium presentation slots based on a variety of Corporate Sponsorships.

Opportunities for Participation: