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Arunachala Nadar Mada Kannan
Battery comparison, Manufacturing, and Packaging: In this course, you’ll identify components of battery management systems including electrical and thermal protections, cell balancing, state of charge and state of health estimation.
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Syllabus
Course Introduction
Module 1: Comparison of Batteries
Module 1 provides the basic operating principles of electric vehicle batteries namely, Pb-Acid, Ni-MH and Li-ion. The major objective in this module is to learn about the comparison related to performance, durability and safety of these batteries in the electric vehicle applications. This module also highlights the suitability and requirements of the Pb-Acid, Ni-MH and Li-ion batteries for the electric vehicle applications.
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Syllabus
Course Introduction
Module 1: Comparison of Batteries
Module 1 provides the basic operating principles of electric vehicle batteries namely, Pb-Acid, Ni-MH and Li-ion. The major objective in this module is to learn about the comparison related to performance, durability and safety of these batteries in the electric vehicle applications. This module also highlights the suitability and requirements of the Pb-Acid, Ni-MH and Li-ion batteries for the electric vehicle applications.
Read more
Traffic lights
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Read about what's good
what should give you pause and
possible dealbreakers
Teaches about battery management systems, which are used in EVs, laptops, and other devices
Covers various aspects of EV batteries, including manufacturing, packaging, and performance
Suitable for students pursuing engineering and technology courses
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Reviews summary
Comprehensive ev battery foundations
According to students, this course provides a comprehensive and well-structured overview of electric vehicle batteries, covering everything from battery comparison to manufacturing processes and packaging designs. Learners consistently praise its clarity and accessibility, with instructors doing a fantastic job explaining difficult concepts. The course is noted for its strong practical relevance, especially regarding battery management systems and industry trends, making it highly valuable for professionals and those new to the field. However, some experienced learners suggest it lacks technical depth for advanced insights, wishing for more case studies or cutting-edge information. Overall, it serves as an excellent foundation in EV battery technology.
Instructors excel at explaining complex concepts clearly.
"The instructor's explanations were clear and easy to follow, making complex topics accessible."
"The instructors did a fantastic job explaining difficult concepts clearly."
"I appreciated the clear understanding of industry practices from the course."
Ideal for beginners seeking a solid grounding in the subject.
"A solid introduction to EV batteries. Module 1 gave a great comparison of battery types."
"This course is a must for anyone new to the EV battery field."
"I feel much more confident discussing these topics after completing the course."
Provides a broad and accessible introduction to EV battery topics.
"This course was incredibly well-structured and highly informative. The modules on manufacturing processes and packaging designs were particularly insightful..."
"Excellent course! The focus on practical applications, especially regarding battery management systems and safety, was exactly what I needed for my job."
"This course is a must for anyone new to the EV battery field. It covers a broad range of topics from basic comparisons to complex packaging strategies."
Some parts felt dry, rushed, or lacked up-to-date examples.
"While the topics covered are relevant, the course material felt a bit dry and outdated in certain parts."
"Sometimes the explanations felt a bit rushed, especially in the later parts..."
"I was expecting more cutting-edge information. The pace was inconsistent, sometimes too slow, sometimes too fast. I struggled to stay engaged throughout."
May not satisfy experienced professionals seeking deep technical insights.
"The course provided a good overview, but it lacked the technical depth I was hoping for. As an experienced engineer, I found some sections to be too basic."
"For beginners, it might be great, but for professionals looking to deepen their expertise, it touches on many topics without diving deeply into any."
"For someone with a basic understanding, it reinforces concepts, but for deeper insights... it falls short."
Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Battery Comparison, Manufacturing, and Packaging with these
activities:
Review course notes, assignments, quizzes, and exams
Show steps
Reviewing your class materials will bring the course's key points to mind upon starting the course, reinvigorating your memory of the basics.
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-
Take out your notes, assignments, quizzes, and exams.
-
Read through your notes to familiarize yourself with the key points covered in the course.
-
Go through your assignments to refresh your understanding of the practice problems and exercises.
-
Take your quizzes and exams again to test your knowledge and identify areas where you may need to brush up.
Join a study group or participate in discussion forums
Show steps
Engage with your peers through study groups or discussion forums to share knowledge, ask questions, and get different perspectives on the course material.
Browse courses on
Battery Management Systems
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-
Join a study group or discussion forum related to the course.
-
Participate in discussions and ask questions.
-
Share your knowledge and insights with others.
Summarize course modules
Show steps
Concise summaries will help you organize and strengthen your understanding of each course module, which you can then refer back to for quick review before quizzes and exams.
Show steps
-
Go through the course modules one at a time.
-
Identify the key points and concepts covered in each module.
-
Write a concise summary that captures the essence of each module.
Three other activities
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Explore online tutorials and resources
Show steps
Dive deeper into the course topics by seeking out online tutorials and resources that provide additional explanations, examples, and practice exercises.
Browse courses on
Battery Management Systems
Show steps
-
Search for online tutorials and resources related to the course topics.
-
Watch the tutorials and read the resources to gain a better understanding of the concepts.
-
Complete any practice exercises or quizzes provided in the tutorials.
Solve practice simulations
Show steps
Reinforce your understanding of the course concepts by applying them to real-world scenarios through practice simulations.
Show steps
-
Find online practice simulations or create your own.
-
Run the simulations and analyze the results.
-
Identify areas where you need to improve your understanding.
Mentor other students
Show steps
Deepen your understanding of the course material by sharing your knowledge and assisting others, which helps solidify your grasp of the concepts.
Browse courses on
Battery Management Systems
Show steps
-
Identify opportunities to mentor other students, such as joining a tutoring program or volunteering as a teaching assistant.
-
Prepare materials and plan sessions to help other students understand the course concepts.
-
Provide guidance, support, and encouragement to help others succeed.
Review course notes, assignments, quizzes, and exams
Show steps
Reviewing your class materials will bring the course's key points to mind upon starting the course, reinvigorating your memory of the basics.
Show steps
Show steps
Show steps
- Take out your notes, assignments, quizzes, and exams.
- Read through your notes to familiarize yourself with the key points covered in the course.
- Go through your assignments to refresh your understanding of the practice problems and exercises.
- Take your quizzes and exams again to test your knowledge and identify areas where you may need to brush up.
Join a study group or participate in discussion forums
Show steps
Engage with your peers through study groups or discussion forums to share knowledge, ask questions, and get different perspectives on the course material.
Browse courses on
Battery Management Systems
Show steps
Show steps
Show steps
- Join a study group or discussion forum related to the course.
- Participate in discussions and ask questions.
- Share your knowledge and insights with others.
Summarize course modules
Show steps
Concise summaries will help you organize and strengthen your understanding of each course module, which you can then refer back to for quick review before quizzes and exams.
Show steps
Show steps
Show steps
- Go through the course modules one at a time.
- Identify the key points and concepts covered in each module.
- Write a concise summary that captures the essence of each module.
Three other activities
Expand to see all activities and additional details
Show all six activities
Explore online tutorials and resources
Show steps
Dive deeper into the course topics by seeking out online tutorials and resources that provide additional explanations, examples, and practice exercises.
Browse courses on
Battery Management Systems
Show steps
Show steps
Show steps
- Search for online tutorials and resources related to the course topics.
- Watch the tutorials and read the resources to gain a better understanding of the concepts.
- Complete any practice exercises or quizzes provided in the tutorials.
Solve practice simulations
Show steps
Reinforce your understanding of the course concepts by applying them to real-world scenarios through practice simulations.
Show steps
Show steps
Show steps
- Find online practice simulations or create your own.
- Run the simulations and analyze the results.
- Identify areas where you need to improve your understanding.
Mentor other students
Show steps
Deepen your understanding of the course material by sharing your knowledge and assisting others, which helps solidify your grasp of the concepts.
Browse courses on
Battery Management Systems
Show steps
Show steps
Show steps
- Identify opportunities to mentor other students, such as joining a tutoring program or volunteering as a teaching assistant.
- Prepare materials and plan sessions to help other students understand the course concepts.
- Provide guidance, support, and encouragement to help others succeed.
Career center
Learners who complete Battery Comparison, Manufacturing, and Packaging will develop knowledge and skills
that may be useful to these careers:
Battery Manufacturing Engineer
Battery Manufacturing Engineer
Battery Manufacturing Engineers develop and improve processes for manufacturing batteries. They work with a variety of equipment, including automated assembly lines and testing equipment. Battery Manufacturing Engineers must have a strong understanding of manufacturing processes, quality control, and safety. This course would be helpful for someone who wants to become a Battery Manufacturing Engineer because it provides a comprehensive overview of battery manufacturing.
Battery Packaging Engineer
Battery Packaging Engineer
Battery Packaging Engineers design and develop packaging for batteries. They work with a variety of materials, including metals, plastics, and paper. Battery Packaging Engineers must have a strong understanding of packaging design, materials science, and safety. This course would be helpful for someone who wants to become a Battery Packaging Engineer because it provides a comprehensive overview of battery packaging.
Battery Research Scientist
Battery Research Scientist
Battery Research Scientists conduct research on new battery technologies. They work with a variety of materials, including metals, plastics, and chemicals. Battery Research Scientists must have a strong understanding of electrochemistry, materials science, and thermodynamics. This course would be helpful for someone who wants to become a Battery Research Scientist because it provides a comprehensive overview of battery technology.
Battery Test Engineer
Battery Test Engineer
Battery Test Engineers test batteries to ensure that they meet safety and performance requirements. They work with a variety of equipment, including automated testing equipment and data acquisition systems. Battery Test Engineers must have a strong understanding of battery testing procedures, safety, and quality control. This course would be helpful for someone who wants to become a Battery Test Engineer because it provides a comprehensive overview of battery testing.
Electrochemical Engineer
Electrochemical Engineer
Electrochemical Engineers design, develop, and test electrochemical devices, such as batteries and fuel cells. They work with a variety of materials, including metals, plastics, and chemicals. Electrochemical Engineers must have a strong understanding of electrochemistry, materials science, and thermodynamics. This course would be helpful for someone who wants to become an Electrochemical Engineer because it provides a comprehensive overview of battery technology.
Energy Storage Engineer
Energy Storage Engineer
Energy Storage Engineers design, develop, and test energy storage systems, such as batteries and flywheels. They work with a variety of materials, including metals, plastics, and chemicals. Energy Storage Engineers must have a strong understanding of electrochemistry, materials science, and thermodynamics. This course would be helpful for someone who wants to become an Energy Storage Engineer because it provides a comprehensive overview of battery technology.
Materials Scientist
Materials Scientist
Materials Scientists research and develop new materials for a variety of applications, including batteries. They work with a variety of materials, including metals, plastics, and ceramics. Materials Scientists must have a strong understanding of materials science, chemistry, and physics. This course would be helpful for someone who wants to become a Materials Scientist because it provides a comprehensive overview of battery materials.
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design, develop, and test mechanical devices, such as batteries. They work with a variety of materials, including metals, plastics, and ceramics. Mechanical Engineers must have a strong understanding of mechanical engineering, materials science, and thermodynamics. This course would be helpful for someone who wants to become a Mechanical Engineer because it provides a comprehensive overview of battery design.
Process Engineer
Process Engineer
Process Engineers design, develop, and improve manufacturing processes. They work with a variety of equipment, including automated assembly lines and testing equipment. Process Engineers must have a strong understanding of manufacturing processes, quality control, and safety. This course would be helpful for someone who wants to become a Process Engineer because it provides a comprehensive overview of battery manufacturing.
Production Engineer
Production Engineer
Production Engineers plan and manage the production of goods and services. They work with a variety of equipment, including automated assembly lines and testing equipment. Production Engineers must have a strong understanding of manufacturing processes, quality control, and safety. This course would be helpful for someone who wants to become a Production Engineer because it provides a comprehensive overview of battery manufacturing.
Quality Control Engineer
Quality Control Engineer
Quality Control Engineers ensure that products meet safety and performance requirements. They work with a variety of equipment, including automated testing equipment and data acquisition systems. Quality Control Engineers must have a strong understanding of quality control procedures, safety, and statistics. This course would be helpful for someone who wants to become a Quality Control Engineer because it provides a comprehensive overview of battery testing.
Research Engineer
Research Engineer
Research Engineers conduct research on new technologies and products. They work with a variety of materials, including metals, plastics, and chemicals. Research Engineers must have a strong understanding of science, engineering, and mathematics. This course would be helpful for someone who wants to become a Research Engineer because it provides a comprehensive overview of battery technology.
Scientist
Scientist
Scientists conduct research on a variety of topics, including battery technology. They work with a variety of materials, including metals, plastics, and chemicals. Scientists must have a strong understanding of science, engineering, and mathematics. This course would be helpful for someone who wants to become a Scientist because it provides a comprehensive overview of battery technology.
Battery Engineer
Battery Engineer
Battery Engineers design, develop, and test batteries. They work with a variety of materials, including metals, plastics, and chemicals. Battery Engineers must have a strong understanding of electrochemistry, materials science, and thermodynamics. This course would be helpful for someone who wants to become a Battery Engineer because it provides a comprehensive overview of battery technology.
Technical Writer
Technical Writer
Technical Writers create technical documentation, such as manuals and reports. They work with a variety of subject matter experts, including engineers and scientists. Technical Writers must have a strong understanding of technical writing, grammar, and style. This course may be helpful for someone who wants to become a Technical Writer because it provides a comprehensive overview of battery technology.
For more career information including salaries, visit:
OpenCourser.com/course/zomi30/battery
Reading list
We've selected nine books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Battery Comparison, Manufacturing, and Packaging.
Covers the design and implementation of battery management systems (BMSs) for electric vehicles. It provides a comprehensive overview of BMS functions, architectures, and algorithms, and discusses the latest advancements in BMS technology.
Provides a comprehensive overview of the fundamentals, systems, and applications of electrochemical power sources. It covers topics such as battery materials, fuel cells, and supercapacitors, and discusses the latest advancements in these fields.
Provides a comprehensive overview of electric vehicle technology. It covers topics such as electric vehicle design, electric vehicle propulsion, and electric vehicle batteries, and discusses the latest advancements in these fields.
Save
Provides a comprehensive overview of the latest advancements in energy storage technologies, materials, and applications. It covers topics such as battery materials, fuel cells, and supercapacitors, and discusses the challenges and opportunities in these fields.
Provides a comprehensive overview of the latest advancements in electrochemical technologies for energy storage and conversion. It covers topics such as battery materials, fuel cell materials, and supercapacitor materials, and discusses the challenges and opportunities in these fields.
Provides a practical approach to battery design, manufacturing, and applications. It can be useful as a quick overview of battery technology and a handy reference.
Save
Covers both electric and hybrid vehicle engineering. It can provide useful background knowledge on the applications and design of EV batteries.
Can be useful for a deeper understanding of the powertrain systems in EVs.
Provides the basics for building your own electric vehicle.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/zomi30/battery
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Rating
4.8
Effort
7 hours to complete
Level
Introductory
Via
Coursera
Institution
Arizona State University
Instructor
Arunachala Nadar Mada Kannan
Language
English
This course belongs to a
collection
called
Battery Technologies. It's comprised of five courses:
- Batteries and Electric Vehicles
- Primary and Secondary Batteries
- Lithium Based Batteries
- Battery Comparison, Manufacturing, and Packaging (viewing)
- Zn and Ni Based Batteries
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