In this course, you will learn how to design balancing systems and to compute remaining energy and available power for a battery pack. By the end of the course, you will be able to:
提供方
课程信息
29,363 次近期查看
可分享的证书
完成后获得证书
100% 在线
立即开始,按照自己的计划学习。
第 5 门课程(共 5 门)
可灵活调整截止日期
根据您的日程表重置截止日期。
中级
完成时间大约为22 小时
英语(English)
字幕:英语(English)
您将学到的内容有
How to design balancers and power-limits estimators for lithium-ion battery packs
可分享的证书
完成后获得证书
100% 在线
立即开始,按照自己的计划学习。
第 5 门课程(共 5 门)
可灵活调整截止日期
根据您的日程表重置截止日期。
中级
完成时间大约为22 小时
英语(English)
字幕:英语(English)
提供方
科罗拉多大学系统
The University of Colorado is a recognized leader in higher education on the national and global stage. We collaborate to meet the diverse needs of our students and communities. We promote innovation, encourage discovery and support the extension of knowledge in ways unique to the state of Colorado and beyond.
教学大纲 - 您将从这门课程中学到什么
完成时间为 3 小时
Passive balancing methods for battery packs
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.
完成时间为 3 小时
7 个视频 (总计 79 分钟), 11 个阅读材料, 6 个测验
7 个视频
5.1.2: Introduction to battery-pack balancing10分钟
5.1.3: How do battery packs become imbalanced?15分钟
5.1.4: What are the criteria for specifying a balancing setpoint for a battery pack?13分钟
5.1.5: What are the criteria for specifying when to balance a battery pack?13分钟
5.1.6: What kinds of circuits can be used for passively balancing a battery pack?16分钟
5.1.7: Summary of "Passive balancing methods for battery packs"; what next?2分钟
11 个阅读材料
Notes for lesson 5.1.11分钟
Frequently asked questions5分钟
Course resources5分钟
How to use discussion forums5分钟
Earn a certificate5分钟
Notes for lesson 5.1.21分钟
Notes for lesson 5.1.31分钟
Notes for lesson 5.1.41分钟
Notes for lesson 5.1.51分钟
Notes for lesson 5.1.61分钟
Notes for lesson 5.1.71分钟
6 个练习
Practice quiz for lesson 5.1.29分钟
Practice quiz for lesson 5.1.39分钟
Practice quiz for lesson 5.1.49分钟
Practice quiz for lesson 5.1.59分钟
Practice quiz for lesson 5.1.69分钟
Quiz for week 130分钟
完成时间为 3 小时
Active balancing methods for battery packs
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.
完成时间为 3 小时
6 个视频 (总计 73 分钟), 6 个阅读材料, 6 个测验
6 个视频
5.2.2: How to balance actively using transformer-based circuits7分钟
5.2.3: How to balance actively using a shared active bus14分钟
5.2.4: Using simulation to show how quickly we must balance a battery pack14分钟
5.2.5: Introducing Octave code to simulate balancing: The main program loop21分钟
5.2.6: Summary of "Active balancing methods for battery packs"; what next?3分钟
6 个阅读材料
Notes for lesson 5.2.11分钟
Notes for lesson 5.2.21分钟
Notes for lesson 5.2.31分钟
Notes for lesson 5.2.41分钟
Notes for lesson 5.2.51分钟
Notes for lesson 5.2.61分钟
6 个练习
Practice quiz for lesson 5.2.19分钟
Practice quiz for lesson 5.2.29分钟
Practice quiz for lesson 5.2.39分钟
Practice quiz for lesson 5.2.49分钟
Practice quiz for lesson 5.2.515分钟
Quiz for week 230分钟
完成时间为 2 小时
How to find available battery power using a simplified cell model
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.
完成时间为 2 小时
5 个视频 (总计 44 分钟), 5 个阅读材料, 5 个测验
5 个视频
5.3.2: How to compute available battery power based on cell terminal voltage8分钟
5.3.3: How to consider other performance limits when computing available battery power7分钟
5.3.4: Introducing Octave code to compute power limits using simplified cell model12分钟
5.3.5: Summary of "How to find available battery power using a simplified cell model"; what next?1分钟
5 个阅读材料
Notes for lesson 5.3.11分钟
Notes for lesson 5.3.21分钟
Notes for lesson 5.3.31分钟
Notes for lesson 5.3.41分钟
Notes for lesson 5.3.51分钟
5 个练习
Practice quiz for lesson 5.3.19分钟
Practice quiz for lesson 5.3.29分钟
Practice quiz for lesson 5.3.39分钟
Practice quiz for lesson 5.3.415分钟
Quiz for week 330分钟
完成时间为 4 小时
How to find available battery power using a comprehensive cell model
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.
完成时间为 4 小时
6 个视频 (总计 69 分钟), 6 个阅读材料, 6 个测验
6 个视频
5.4.2: How to solve for a future battery condition using the bisection algorithm11分钟
5.4.3: How to use bisection to estimate available power using comprehensive cell model16分钟
5.4.4: Introducing Octave code to compute power limits using comprehensive cell model9分钟
5.4.5: Using simulation to compare and contrast different power-estimation methods12分钟
5.4.6: Concluding remarks for the specialization6分钟
6 个阅读材料
Notes for lesson 5.4.11分钟
Notes for lesson 5.4.21分钟
Notes for lesson 5.4.31分钟
Notes for lesson 5.4.41分钟
Notes for lesson 5.4.51分钟
Notes for lesson 5.4.61分钟
6 个练习
Practice quiz for lesson 5.4.19分钟
Practice quiz for lesson 5.4.215分钟
Practice quiz for lesson 5.4.315分钟
Practice quiz for lesson 5.4.420分钟
Practice quiz for lesson 5.4.520分钟
Quiz for week 440分钟
审阅
来自BATTERY PACK BALANCING AND POWER ESTIMATION的热门评论
由 SP 提供Jul 15, 2020
This is one of the best and most useful specialization in my eyes. I would encourage every person interested in EV domain to learn it. Thank you Dr Gregory Plett for this course
由 DC 提供May 9, 2020
Especially the last Week 6 (Honors Course) was extremely useful, to better understand the advanced physical/chemical models for lithium batteries.
由 RG 提供Apr 13, 2020
Volveré. Y lo pagaré. Este y los otros cuatro cursos. Porque quiero esos certificados.
由 SM 提供Jun 27, 2020
Excellent courses. Dr. Plett did a great job teaching this very relevant topic.
关于 Algorithms for Battery Management Systems 专项课程
In this specialization, you will learn the major functions that must be performed by a battery management system, how lithium-ion battery cells work and how to model their behaviors mathematically, and how to write algorithms (computer methods) to estimate state-of-charge, state-of-health, remaining energy, and available power, and how to balance cells in a battery pack.
常见问题
我什么时候能够访问课程视频和作业?
讲座和作业的访问权限取决于您的注册类型。如果您以旁听模式参加课程,则可以免费查看大多数课程资料。要访问评分作业并获得证书,您需要在旁听期间或之后购买证书体验。如果看不到旁听选项:
- 课程可能不提供旁听选项。您可以尝试免费试用,也可以申请助学金。
- 课程可能会改为提供'完整课程,没有证书'。通过此选项,您可以查看所有课程材料、提交所要求的作业,以及获得最终成绩。这也意味着您将无法购买证书体验。
我订阅此专项课程后会得到什么?
您注册课程后,将有权访问专项课程中的所有课程,并且会在完成课程后获得证书。您的电子课程证书将添加到您的成就页中,您可以通过该页打印您的课程证书或将其添加到您的领英档案中。如果您只想阅读和查看课程内容,可以免费旁听课程。
退款政策是如何规定的?
如果订阅,您可以获得 7 天免费试听,在此期间,您可以取消课程,无需支付任何罚金。在此之后,我们不会退款,但您可以随时取消订阅。请阅读我们完整的退款政策。
有助学金吗?
是的,Coursera 可以为无法承担费用的学生提供助学金。通过点击左侧“注册”按钮下的“助学金”链接可以申请助学金。您可以根据屏幕提示完成申请,申请获批后会收到通知。您需要针对专项课程中的每一门课程完成上述步骤,包括毕业项目。了解更多。
还有其他问题吗?请访问 学生帮助中心。
