Battery_RoadMap
Phase One
- cell fundamentals 1: Li ion Battery internal Structure
- cell fundamentals 2: Battery Charge & Discharge
- cell fundamentals 3: Li ion Battery Cells types & Chemistry
- cell fundamentals 4: cell Formats
Phase Two
- Lithium-ion cells 1: Certified Bootcamp on Li-ion Cell Chemistries & Characteristics Day 1
- Lithium-ion cells 2: Day 2
Phase Three
- Battery fundamentals 1: BMS [2/6] State of Charge
- Battery fundamentals 2: BMS [4/6] Battery Nominal vs Usable Capacity
- Battery fundamentals 3: Battery Aging [1 of 5]- Aging Mechanisms
- Battery fundamentals 4: Battery Aging [2 of 5]- Aging Mechanisms
- Battery fundamentals 5: Battery Aging [3 of 5] - Cycling Aging
- Battery fundamentals 6: Battery Aging [4 of 5] - Cycling Aging
- Battery fundamentals 7: Electric Vehicle Battery pack calculation using Microsoft Excel
Phase Four
- Battery Protection 1: BMS [1/6] Important Fundamentals & Functions
- Battery Protection 2: BMS [3/6] Cell Balancing & Battery Control
- Battery Protection 3: Safety [1/5] Thermal Runaway
- Battery Protection 4: Safe Operating Envelope for Lithium Ion Battery Systems
- Battery Protection 5: Battery Management System Safety and Fault Management for Lithium Ion Batteries
- Battery Protection 6: Search for IMD (Insulation Monitoring Device)
- Battery Protection 7: Search for Fuses and Circuit Breakers
- Battery Protection 8: Search for How to protect battery from battery leakage and vibrations
Phase Five
Phase six
Phase Seven
- BMS Model: Mathworks Battery System
- Battery Modeling Using Simulink and Simscape
- Battery Model: Estimating Parameters
- BMS Model: Testing and validation 1
- BMS Model: Testing and validation 2
- BMS Model: BMS playlist
- BMS Model: BMS in details
- DecibelsLab playlist