This course can also be taken for academic credit as ECEA 5734, part of CU Boulder’s Master of Science in Electrical Engineering degree.
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Battery Pack Balancing and Power Estimation
This course is part of Algorithms for Battery Management Systems Specialization
Instructor: Gregory Plett
11,486 already enrolled
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(98 reviews)
What you'll learn
How to design balancers and power-limits estimators for lithium-ion battery packs
Skills you'll gain
Details to know
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There are 6 modules in this course
In previous courses, you learned how to write algorithms to satisfy the estimation requirements of a battery management system. Now, you will learn how to write algorithms for two primary control tasks: balancing and power-limits computations. This week, you will learn why battery packs naturally become unbalanced, some balancing strategies, and how passive circuits can be used to balance battery packs.
What's included
7 videos13 readings6 assignments1 discussion prompt
Passive balancing can be effective, but wastes energy. Active balancing methods attempt to conserve energy and have other advantages as well. This week, you will learn about active-balancing circuitry and methods, and will learn how to write Octave code to determine how quickly a battery pack can become out of balance. This is useful for determining the dominant factors leading to imbalance, and for estimating how quickly the pack must be balanced to maintain it in proper operational condition.
What's included
6 videos6 readings6 assignments1 ungraded lab
This week, we begin by reviewing the HPPC power-limit method from course 1. Then, you will learn how to extend the method to satisfy limits on SOC, load power, and electronics current. You will learn how to implement the power-limits computation methods in Octave code, and will see results for a representative scenario.
What's included
5 videos5 readings5 assignments1 ungraded lab
The HPPC method, even as extended last week, makes some simplifying assumptions that are not met in practice. This week, we explore a more accurate method that uses full state information from an xKF as its input, along with a full ESC cell model to find power limits. You will learn how to implement this method in Octave code and will compare its computations to those from the HPPC method you learned about last week.
What's included
6 videos6 readings1 quiz5 assignments3 ungraded labs
Present-day BMS algorithms primarily use equivalent-circuit models as a basis for estimating state-of-charge, state-of-health, power limits, and so forth. These models are not able to describe directly the physical processes internal to the cell. But, it is exactly these processes that are precursors to cell degradation and failure. This week quickly introduces some concepts that might motivate future BMS algorithms that use physics-based models instead.
What's included
6 videos6 readings6 assignments4 ungraded labs
This capstone project explores the design of resistor value for a switched-resistor passive balancing system as well as enhancing a power-limits method based on the HPPC approach.
What's included
2 programming assignments2 ungraded labs
Instructor
Recommended if you're interested in Electrical Engineering
Edureka
Google Cloud
University of Colorado Boulder
Google Cloud
Build toward a degree
This course is part of the following degree program(s) offered by University of Colorado Boulder. If you are admitted and enroll, your completed coursework may count toward your degree learning and your progress can transfer with you.¹
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