Battery Design and Program Management

eMatrix Energy Systems

LSV Battery Program

Led program management and mechanical design efforts on the LSV battery program, supporting development from initial builds through validation. He owned key mechanical components such as enclosures while coordinating manufacturing, suppliers, and testing to drive design improvements and production readiness.

A detailed illustration of a series of industrial electronic equipment and power supplies connected in a system.
Group of people standing in a workshop behind several large metal boxes on wooden pallets.
Industrial electrical equipment on a workbench in a workshop with tool storage and other workspace items.

LSV Battery Concept

Production battery design concept for a leading LSV manufacturer, with a focus on design for manufacturing to improve assembly efficiency and reduce cost. The concept was built around a single off-the-shelf battery module and emphasized a primarily stamped construction.

A detailed technical illustration of an industrial electrical or mechanical device with various connectors, bolts, and a digital display panel.

Scalable Battery Concept

Modular battery architecture designed for scalability and flexible configurations. The concept prioritized common component reuse and reduced part complexity, incorporating an aerospace-inspired isogrid structure optimized for casting to balance strength, weight, and manufacturability.

3D rendering of a battery pack with four modules inside a metallic casing for an electric vehicle.
A technical illustration of a rectangular metal frame with internal cross-bracing and multiple support structures.
Technical drawing of three elongated, rectangular metal molds with intricate geometric patterns, including a central hole in one, used for manufacturing or casting objects.