Cell for Traction application

Course name

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Enroll now @ 1999 INR

Course overview

Who can take this course?

This is a specialization course track that helps any learner to gain a deeper knowledge about Lithium-ion cell chemistry, construction, characteristics, manufacturing, parameters such as cell voltage, Current, Temperature, Discharge rates, Charging rates, lithium-ion chemistries, traction demands, and suitable Li-ion chemistry for traction application. 

The course also covers topics such as Cell Voltage Characterization, Current Characterization, Temperature Characterization,  Impedance Characterization, SOC measurement approaches, SOH predictions, and Cell degradation. Content also touch bases on cell safety and cell testing. 

As a project activity, we will build the simulation model of the lithium-ion cell in Scilab-Xcos. Within the model, we can study the behavior of the cell and also build advanced functions such as degradation, temperature effects, life cycle analysis and more. The project will give you detailed hands-on learning and it is the foundation of the BMS modeling in future classes.


By the end of this course:

  1. You will be confident various cell parameters & cell characteristics
  2. You will have knowledge about various cell chemistries and cell selection approach
  3. You will learn the traction demand characteristics with the model we have built from the EV modeling course. And dive deeper into how a cell can be selected. 
  4. You will receive Decibels Authorized course completion certificate

Certificate of Participation

Course curriculum

    1. Course Access

      FREE PREVIEW

    2. The course plan

    3. Course Instructor

    4. Pre course survey

    1. Components of cell - Cut & Visualize

    2. Cell parameters

    3. Significance of cell data sheet

    4. Cell manufacturing

    5. Specific Energy density (Wh/kg) & Volumetric Energy density (Wh/l) comparisons

    6. Before you go to next lesson

    1. Charge & discharge cycles

    2. Recurpration energy

    3. Thermal tipping / overrun

    4. Cycle life expectations

    5. Self discharge limits

    6. Before you go to next lesson

    1. Various chemistry in Li battery

    2. Preferred chemistry for Mobility

    3. Vehicle Manufacturer Preference for Cell Chemistry

    1. Cell Voltage Characterization

    2. Cell Current Characterization

    3. Cell Temperature Characterization

    4. Cell Impedance Characterization

    5. SOC (The holy grill)

    6. SOH predictions

    7. Cell degradation

    1. In cell protections (PTC/CID/Vent etc)

    2. Voltage protection

    3. High discharge

    4. Thermal runaway

About this course

  • ₹1,999.00
  • 40 lessons
  • 0 hours of video content