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CPD Accredited & QLS Endorsed Course

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Students

GET THIS COURSE AND 1500+ OTHERS FOR ONLY £149. FIND OUT MORE

Course Overview

The Electric Vehicle Battery Management System course provides an in-depth understanding of the concepts that govern the operation and maintenance of electric vehicle batteries. This course explores theoretical principles that ensure efficient energy storage, distribution, and usage within electric vehicles. Learners will explore the fundamentals of battery chemistry, voltage regulation, thermal management, and system integration, making this course ideal for anyone seeking to deepen their knowledge of electric vehicle technologies. By the end of this course, participants will have a solid theoretical foundation of the essential components and functionality of electric vehicle battery systems.

Brace yourself, and enrol now for an amazing venture!

This Electric Vehicle Battery Management System Course Package Includes

  • Free CPD Accredited PDF Certificate
  • Comprehensive lessons and training provided by experts on Electric Vehicle Battery Management System
  • Interactive online learning experience provided by qualified professionals at your convenience
  • 24/7 Access to the course materials and learner assistance
  • Easy accessibility from any smart device (Laptop, Tablet, Smartphone etc.)
  • A happy and handy learning experience for the professionals and students
  • 100% learning satisfaction, guaranteed by Compliance Central — a leading compliance training provider approved by IAO

Learning Outcome

Upon successful completion of this highly appreciated Electric Vehicle Battery Management System course, you’ll be a skilled professional. Besides—
  • Understand the fundamental principles of electric vehicle battery management systems.
  • Gain knowledge of battery chemistry and types used in electric vehicles.
  • Explore the methods of voltage regulation and energy balancing.
  • Understand thermal management for maintaining battery efficiency.
  • Study system integration and communication within electric vehicles.
  • Analyse charging cycles and battery lifecycle management.
  • Understand safety protocols and standards in electric vehicle battery systems.
  • Examine the future trends and innovations in electric vehicle batteries.

Assessment

Complete this Electric Vehicle Battery Management System course and sit for a short online assessment to instantly evaluate your understanding of the subject. The test will be automated, and your answers will be checked and reviewed then and there. You'll also get unlimited chances to retake the exam! Our concern is to make you competent for the job, so we will fully support your learning and understanding of it thoroughly. The test fees are included in the one-time paid course fee. As said earlier, you can retake the exam if you fail early—you will not be charged any money for later attempts.

Certificate of Achievement

CPD Accredited Certificate
CPD-accredited certificates are available for £4.79 (instant PDF download) or £10.79 (hard copy delivered to you). Our courses are regularly reviewed to ensure they are up-to-date. Certificates do not expire, but reviewing or renewing them annually is recommended.

Who Is This Course For

Compliance Central aims to prepare efficient human resources for the industry and make it more productive than ever. This helpful course is suitable for any person who is interested in a Electric Vehicle Battery Management System. There are no pre-requirements to take it. You can attend the course if you are a student, an enthusiast or a
  • Individuals interested in electric vehicle technologies.
  • Engineers looking to deepen their understanding of battery systems.
  • Students studying electrical or automotive engineering.
  • Professionals interested in energy storage solutions.
  • Researchers in the field of battery management systems.
  • Academics exploring the future of electric vehicle batteries.
  • Electric vehicle enthusiasts wanting to expand their theoretical knowledge.
  • Those interested in sustainability and green technology.
  • Policy makers focusing on electric vehicle infrastructure.
  • Anyone curious about battery technologies and their applications.

Course Currilcum

    • Introduction 00:03:00
    • Passive Cell Balancing: Working Principle 00:09:00
    • Passive Cell Balancing: Hardware Circuit Design 00:06:00
    • Passive Cell Balancing: Balancing Current deciding factor 00:06:00
    • Passive Cell Balancing: Calculations 00:08:00
    • Passive Cell Balancing: Assignment 00:02:00
    • Voltage Measurement in Battery management system 00:02:00
    • Voltage Measurement: Hardware circuit design 00:04:00
    • Voltage Measurement: Component selection techniques 00:06:00
    • Current Measurement: Battery Pack 00:05:00
    • Current Measurement: Current Sense Resistor-based Hardware Circuit 00:09:00
    • Current Measurement: Assignment 00:02:00
    • Current Measurement: Sense Resistor and External amplifier 00:08:00
    • Current Measurement with Sense Resistor and External Amplifier: Assignment 00:02:00
    • Current Measurement: Hall Effect sensor 00:07:00
    • Current Measurement: Datasheet understanding 00:10:00
    • Current Measurement: Calculations 00:06:00
    • Current Measurement using Hall Sensor: Assignment 00:02:00
    • Temperature Measurement: In BMS 00:10:00
    • Temperature Measurement: Thermistor Calculation 00:13:00
    • Temperature Measurement: Assignment 00:02:00
    • Coulomb Counting – SoC Estimation 00:05:00
    • Coulomb counting: Calculation 00:03:00
    • Coulomb counting: Assignment 00:07:00
    • What parameters are taken to select your right BMS IC? 00:13:00
    • A tour to Texas Instrumentsfor BMS IC selection 00:09:00
    • A tour to Texas Instruments: Battery Protectors 00:10:00
    • A tour to Texas Instruments: Battery Monitors and Balancers 00:09:00
    • A tour to Texas Instruments: Fuel Gauge IC 00:13:00
    • MCU for BMS: Basics 00:04:00
    • MCU for BMS: Selection Technique 00:07:00
    • MCU for BMS: Assignment 00:02:00
    • Cell Modeling 1 00:03:00
    • Cell Modeling 2 00:02:00
    • Cell Modeling 3 00:09:00
    • Cell Modeling 4 00:08:00
    • Cell Modeling 5 00:14:00
    • I2C communication protocol 1 00:06:00
    • Communication Protocol 2.1 00:10:00
    • Communication Protocol 2.2 00:07:00
    • Communication Protocol 2.3 00:07:00
    • Communication Protocol 2.4 00:06:00
    • UART Demo 1 00:12:00
    • UART Demo 2 00:07:00
    • I2C communication protocol 1 00:06:00
    • I2C communication protocol 2 00:04:00
    • I2C communication protocol 3 00:05:00
    • I2C communication protocol 4 00:12:00
    • I2C communication protocol 5 00:04:00
    • I2C communication protocol 6 00:05:00
    • I2C communication protocol 7 00:14:00
    • I2C Demo 2 00:15:00
    • SPI Communication 1 00:06:00
    • SPI Communication 2 00:07:00
    • SPI Communication 3 00:06:00
    • CAN Communication 1.1 00:03:00
    • CAN Communication 1.2 00:04:00
    • CAN Communication 1.3 00:06:00
    • CAN Communication 1.4 00:07:00
    • CAN Communication 1.5 00:03:00
    • CAN Communication 1.6 00:06:00
    • CAN Communication 1.7 00:05:00
    • Power management 1 00:04:00
    • Power management 2 00:04:00
    • Power management 3 00:04:00
    • Power management 4 00:05:00
    • BQ76925 Datasheet: Part 1 00:09:00
    • BQ76925 Datasheet: Part 2 00:09:00
    • BQ76925 Datasheet: Part 3 00:14:00
    • BQ76925 Datasheet: Part 4 00:13:00
    • BQ76925 Reference Design: 1 00:10:00
    • BQ76925 Reference Design: 2 00:06:00
    • BQ76925 Reference Design: 3 00:06:00
    • BQ76925 Reference Design: 4 00:15:00
    • BQ76925 Reference Design: 5 00:05:00
    • BQ76925 Reference Design: 6 00:09:00
    • BQ76925 Reference Design: 7 00:06:00
    • Thank you 00:03:00

£199 £25

Take this course
  • Calendar 1 Year
  • calendar Intermediate
  • student 4 students
  • clock 8 hours, 55 minutes
£11 /Unit Price
£110

Student Reviews

Ben lim

Gaining improve knowledge in the construction project management and the course is easy to understand.

Mr Brian Joseph Keenan

Very good and informative and quick with marking my assignments and issuing my certificate.

Sarah D

Being a support worker I needed add a child care cert in my portfolio. I have done the course and that was really a good course.

Sam Ryder

The first aid course was very informative with well organised curriculum. I already have some bit and pieces knowledge of first aid, this course helped me a lot.

Ben lim

Gaining improve knowledge in the construction project management and the course is easy to understand.

Thelma Gittens

Highly recommended. The module is easy to understand and definitely the best value for money. Many thanks

BF Carey

First course with Compliance Central. It was a good experience.

Course Currilcum

    • Introduction 00:03:00
    • Passive Cell Balancing: Working Principle 00:09:00
    • Passive Cell Balancing: Hardware Circuit Design 00:06:00
    • Passive Cell Balancing: Balancing Current deciding factor 00:06:00
    • Passive Cell Balancing: Calculations 00:08:00
    • Passive Cell Balancing: Assignment 00:02:00
    • Voltage Measurement in Battery management system 00:02:00
    • Voltage Measurement: Hardware circuit design 00:04:00
    • Voltage Measurement: Component selection techniques 00:06:00
    • Current Measurement: Battery Pack 00:05:00
    • Current Measurement: Current Sense Resistor-based Hardware Circuit 00:09:00
    • Current Measurement: Assignment 00:02:00
    • Current Measurement: Sense Resistor and External amplifier 00:08:00
    • Current Measurement with Sense Resistor and External Amplifier: Assignment 00:02:00
    • Current Measurement: Hall Effect sensor 00:07:00
    • Current Measurement: Datasheet understanding 00:10:00
    • Current Measurement: Calculations 00:06:00
    • Current Measurement using Hall Sensor: Assignment 00:02:00
    • Temperature Measurement: In BMS 00:10:00
    • Temperature Measurement: Thermistor Calculation 00:13:00
    • Temperature Measurement: Assignment 00:02:00
    • Coulomb Counting – SoC Estimation 00:05:00
    • Coulomb counting: Calculation 00:03:00
    • Coulomb counting: Assignment 00:07:00
    • What parameters are taken to select your right BMS IC? 00:13:00
    • A tour to Texas Instrumentsfor BMS IC selection 00:09:00
    • A tour to Texas Instruments: Battery Protectors 00:10:00
    • A tour to Texas Instruments: Battery Monitors and Balancers 00:09:00
    • A tour to Texas Instruments: Fuel Gauge IC 00:13:00
    • MCU for BMS: Basics 00:04:00
    • MCU for BMS: Selection Technique 00:07:00
    • MCU for BMS: Assignment 00:02:00
    • Cell Modeling 1 00:03:00
    • Cell Modeling 2 00:02:00
    • Cell Modeling 3 00:09:00
    • Cell Modeling 4 00:08:00
    • Cell Modeling 5 00:14:00
    • I2C communication protocol 1 00:06:00
    • Communication Protocol 2.1 00:10:00
    • Communication Protocol 2.2 00:07:00
    • Communication Protocol 2.3 00:07:00
    • Communication Protocol 2.4 00:06:00
    • UART Demo 1 00:12:00
    • UART Demo 2 00:07:00
    • I2C communication protocol 1 00:06:00
    • I2C communication protocol 2 00:04:00
    • I2C communication protocol 3 00:05:00
    • I2C communication protocol 4 00:12:00
    • I2C communication protocol 5 00:04:00
    • I2C communication protocol 6 00:05:00
    • I2C communication protocol 7 00:14:00
    • I2C Demo 2 00:15:00
    • SPI Communication 1 00:06:00
    • SPI Communication 2 00:07:00
    • SPI Communication 3 00:06:00
    • CAN Communication 1.1 00:03:00
    • CAN Communication 1.2 00:04:00
    • CAN Communication 1.3 00:06:00
    • CAN Communication 1.4 00:07:00
    • CAN Communication 1.5 00:03:00
    • CAN Communication 1.6 00:06:00
    • CAN Communication 1.7 00:05:00
    • Power management 1 00:04:00
    • Power management 2 00:04:00
    • Power management 3 00:04:00
    • Power management 4 00:05:00
    • BQ76925 Datasheet: Part 1 00:09:00
    • BQ76925 Datasheet: Part 2 00:09:00
    • BQ76925 Datasheet: Part 3 00:14:00
    • BQ76925 Datasheet: Part 4 00:13:00
    • BQ76925 Reference Design: 1 00:10:00
    • BQ76925 Reference Design: 2 00:06:00
    • BQ76925 Reference Design: 3 00:06:00
    • BQ76925 Reference Design: 4 00:15:00
    • BQ76925 Reference Design: 5 00:05:00
    • BQ76925 Reference Design: 6 00:09:00
    • BQ76925 Reference Design: 7 00:06:00
    • Thank you 00:03:00