Mobility Course

Battery Cell Manufacturing, Testing, and Design

Lead tomorrow’s innovations in advanced battery manufacturing process technology.

Location:

Online

Schedule:

Self-paced

Course Summary

	Instruction Time	Completion Time	CEUs
Battery Cell Manufacturing, Testing, and Design	~ 4-6 hours per section	90 days to complete	2.75

Today’s global demand for electric vehicles and renewable energy storage makes understanding battery manufacturing more critical than ever. More innovations in manufacturing process technology are needed to make electric vehicles more affordable and environmentally sustainable.

This online certificate trains you on the fundamentals of battery cell manufacturing processes, testing methods, and design principles. You will learn the theory of operation for every cell manufacturing step, including electrode production, cell assembly, and formation. Additionally, you will explore how cell performance is defined and measured at the end of the line and in the lab. The course will enable you to make informed cell design decisions that balance manufacturability with optimal performance.

You will gain the knowledge to transform your approach to battery manufacturing with our expert-led certificate course.

Learning Objectives

Understand every process step in battery cell manufacturing
Explore the production equipment needed to produce battery cells at scale
Analyze process and cell performance via testing methods
Learn how to systematically improve productivity and quality

Course Overview

The course is fully online. Learners will have opportunities to engage with the instructional team for guidance and support throughout the course. An online forum will be available to encourage open discussions, networking, and collaborative learning.

Video lectures and reading materials will be provided. Instructors expect learners to complete problem sets and quizzes.

Industrial-Scale Battery Cell Manufacturing

Understand the current landscape of battery cell manufacturing.
Review basic elements of battery structure and function.
Make basic considerations for battery factory planning.

Cell Electrode Production

Dive into the working principles of every step in electrode production, including mixing, coating, drying, solvent recovery, calendaring, and slitting/punching.
Understand the equipment, process control variables, characterization methods, sources of defects, and workplace hazards within each step.

Cell Assembly and Formation

Learn about the working principles of every step in cell assembly and formation, including stacking/winding, tab welding, enclosure insertion, electrolyte filling, formation cycling/aging, and end-of-line inspection.
Understand the equipment, process control variables, characterization methods, sources of defects, and workplace hazards within each step.

Cell Performance Characterization

Develop electrochemical test methods for quantifying cell capacity, energy, power capability, lifetime, reliability, and safety.
Understand practical considerations for reproducible measurements, including equipment options, sampling methods, test acceleration methods, and data analysis considerations.
Understand common degradation mechanisms and how these mechanisms affect testing strategy.

Cell Design

Learn the role of electrode characteristics in determining cell capacity and power capability.
Understand the role of the negative-to-positive ratio (NPR) and anode overhang on cell reliability and lifetime.
Calculate cell design parameter targets to achieve customer requirements with consideration for manufacturability.

Who Should Attend

Engineering students
Manufacturing engineers
Mechanical and electrical engineers
Production managers
Battery researchers and developers
Chemists and material scientists

The course is designed for both university students and working professionals. You should have a foundational knowledge of mathematics and physics. Prior knowledge of batteries or manufacturing is optional.

This course is a great option for learners who are familiar with manufacturing but not batteries. The content is designed to bridge the gap between understanding battery materials and manufacturing technology.

Credentials

Digital Badge

Digital badge earned after successful completion of this course.

Digital Certificate

Certificate will be awarded upon successful completion of this course.

Instructional Team

Andrew Weng, PhD

EV Center Postdoctoral Fellow, University of Michigan
Program Director, Battery Talent Census, Volta Foundation

Andrew has over a decade of industry experience, including battery manufacturing, testing, systems modeling, and cell design. His research focuses on energy storage systems modeling and workforce development.

Jason Siegel, PhD

Director of Education, University of Michigan Electric Vehicle Center
Associate Research Professor, Mechanical Engineering

Jason’s research focuses on battery modeling, diagnostic algorithms using battery expansion measurements, and controls.

Greg Less, PhD

Technical Director, University of Michigan Battery Lab

Greg is responsible for the day-to-day operations of the Battery Lab facility. He received a doctorate in Chemistry from the University of Michigan. Prior to founding the Battery Lab, he was a research scientist at the University of Michigan and with battery companies T/J Technologies and A123 Systems.

What's next?

Course

Organizational Design

Course

Transformative Leadership

Get Started

For more information or answers to any questions please email [email protected] or fill out the form.

Mobility Course

Battery Cell Manufacturing, Testing, and Design

Course Summary

Learning Objectives

Course Overview

Credentials

Instructional Team

Course Summary

Learning Objectives

Course Overview

Who Should Attend

Credentials

Digital Badge

Digital Certificate

Instructional Team

Andrew Weng, PhD

Jason Siegel, PhD

Greg Less, PhD

What's next?

Course

Organizational Design

Course

Transformative Leadership

Get Started

MICHIGAN ENGINEERING ONLINE & PROFESSIONAL EDUCATION

ONLINE DEGREES

PROFESSIONAL EDUCATION