Schedule

  1. BATTERY SYSTEM FOR ELECTRIFIED VEHICLES (1.30 pm – 2:10 pm)
    Speaker: Simona Onori
    1. Motivation: electrified vehicles
    2. Why is battery system important?
    3. Overview of battery technologies and modeling approaches
    4. Main challenges related to the battery system
    5. Definition of a common battery language
    6. Need of advanced management of the battery system
  2. DEVELOPMENT OF LI-ION BATTERY MODELS USING EXPERIMENTAL DATA (2:10 pm - 2:50 pm)
    Speaker:Robyn Jackey
    1. Developing an equivalent circuit model in Simscape
    2. Experimental data requirements
    3. Parameter Estimation of the equivalent circuit
    4. Building a battery pack model from individual cells
  3. BATTERY STATE OF CHARGE AND STATE OF HEALTH ESTIMATION (2:50 pm -3:30 pm)
    Speaker: Mo-Yuen Chow
    1. Open issues on battery monitoring and management
    2. Online battery model parameter identification
    3. Comparison of different State-of-Charge (SoC) estimation algorithms
    4. Parameters/SoC/Capacity co-estimation as basis for State of Health estimation

    CAFFE BREAK (3:30 pm - 3:50 pm)

  4. PRACTICAL BMS ALGORITHMS UTILIZING MODEL-BASED TECHNIQUES (3:50 pm - 4:30 pm)
    Speaker: Kevin Rzemien
    1. Safe Operating Area (SOA) of Li-Ion batteries
    2. Safety requirements of a BMS
    3. Overvoltage/Undervoltage diagnostics
  5. ARCHITECTURES FOR BATTERY MANAGEMENT AND CHARGE EQUIALIZATION (4:30 pm - 5:10 pm)
    Speaker: Federico Baronti
    1. Architectures for BMS
    2. Charge equalization: open issues and solutions
    3. BMS implementation examples
  6. WRAP UP AND PANEL DISCUSSION (5:10 pm - 5:30 pm)
    Speakers:All