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Lesson1 1 7 Handout

This week's summary covers the introduction of Battery Management Systems (BMS), including their functions, applications, and the basics of battery pack design. Key concepts such as electrochemical cell operation and definitions related to battery cells were discussed. Next week will focus on lithium-ion cells, their advantages, materials used, and the global lithium supply outlook.

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0% found this document useful (0 votes)
9 views1 page

Lesson1 1 7 Handout

This week's summary covers the introduction of Battery Management Systems (BMS), including their functions, applications, and the basics of battery pack design. Key concepts such as electrochemical cell operation and definitions related to battery cells were discussed. Next week will focus on lithium-ion cells, their advantages, materials used, and the global lithium supply outlook.

Uploaded by

forshivreks
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
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1.1.7: Where from here?

Summary of this week

key on: initialize


meas. voltage estimate estimate balance compute
current state of state of power

At the end of every week, we quickly summarize progress temperature charge (SOC) health (SOH) cells limits

loop once each measurement interval while pack is active

made during the week and preview upcoming topics


This week, we introduced the primary functions of a BMS
We looked at when a BMS is needed, and some example applications
We learned some important definitions for talking about cells and batteries and
how to design a battery pack to meet given requirements
We saw how a standard electrochemical battery cell works, including how it
produces a voltage and the dis/charge processes
We learned some overall concepts of how cells are designed
Finally, we studied some example electrochemical cells

Dr. Gregory L. Plett University of Colorado Colorado Springs Introduction to Battery Management Systems | Battery Boot Camp 1 of 3

1.1.7: Where from here?

Where from here?

key on: initialize


meas. voltage estimate estimate balance compute

The focus of this specialization is on lithium-ion cells, which


current state of state of power
temperature charge (SOC) health (SOH) cells limits

work a little differently from standard electrochemical cells


loop once each measurement interval while pack is active

Next week, we turn our attention to learning about Li-ion cells


Why would we be interested in them? What are
advantages?
How does their operational mechanism differ from standard
electrochemical cells?
What materials are used for current collectors, electrodes,
separator, electrolyte, in different types of Li-ion cells?
Finally, we consider whether the global lithium supply is
sufficient to meet possible future demand

Dr. Gregory L. Plett University of Colorado Colorado Springs Introduction to Battery Management Systems | Battery Boot Camp 2 of 3

1.1.7: Where from here?

Credits
key on: initialize

meas. voltage estimate estimate balance compute

Credits for photos in this lesson


current state of state of power
temperature charge (SOC) health (SOH) cells limits

loop once each measurement interval while pack is active

Direction arrow on slide 2: Pixabay license


(https://pixabay.com/en/service/license/),
https://pixabay.com/en/direction-away-forward-target-1019767/

Dr. Gregory L. Plett University of Colorado Colorado Springs Introduction to Battery Management Systems | Battery Boot Camp 3 of 3

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