In-house training courses on electric and hydrogen vehicle technologies, charging infrastructure and how they work.
After completing this course, participants will be able to: Contrast the difference between types of Electric Vehicles (EV) including Hybrid Electric Vehicles (HEV), Plug-in Hybrid Electric Vehicles (PHEV) and Battery Electric Vehicles (BEV). Describe the various commercial and industrial EV in the marketplace and their charging equipment requirements. Demonstrate awareness of the various terminologies used throughout the EV industry to describe equipment supplying energy to charge EV. Describe the difference between AC Electric Vehicle Supply Equipment (EVSE), DC charging equipment, and wireless EV charging. Explain the benefits of conducting a site assessment and what should be considered when installing Electric Vehicle Charging Equipment (EVCE). Demonstrate an awareness of specific utility and municipal requirements for the installation of EVCE.
Description Fundamentals of Electric Vehicles Introducing the Fundamentals of Electric Vehicles Diploma, a comprehensive online course designed to equip learners with essential knowledge and skills in the rapidly growing field of electric vehicles (EVs). This course provides a thorough understanding of the critical components, systems, and technologies that make electric vehicles an increasingly attractive and sustainable transportation option. The Fundamentals of Electric Vehicles Diploma is tailored for individuals seeking a solid foundation in the various aspects of electric vehicle technology. Whether an automotive enthusiast, an engineering professional, or someone interested in pursuing a career in the EV industry, this course offers valuable insights and practical knowledge to help stay ahead in this dynamic and evolving sector. Starting with an Introduction to Electric Vehicles, learners will gain an overview of the history, types, and benefits of electric vehicles, as well as the key components and subsystems that enable their operation. The course will also delve into the Battery Technology for Electric Vehicles, providing an in-depth understanding of the different types of batteries, their chemistry, and the factors influencing their performance and lifespan. Electric Motors for Electric Vehicles is another essential topic covered in the Fundamentals of Electric Vehicles Diploma. Participants will explore various electric motor types, their working principles, and their applications in EVs. The course also covers Power Electronics for Electric Vehicles, addressing the critical role of power electronics in controlling and converting electrical energy in electric vehicle systems. A robust Charging Infrastructure for EVs is fundamental to their widespread adoption. This course thoroughly examines different charging technologies, their compatibility with various electric vehicles, and the challenges and opportunities in developing a comprehensive EV charging network. Furthermore, the course delves into Energy Management in Electric Vehicles, discussing strategies to optimise energy consumption and extend the driving range of EVs. The Fundamentals of Electric Vehicles Diploma also covers Thermal Management in Electric Vehicles, a crucial aspect of ensuring battery and motor performance, reliability, and longevity. Participants will learn about various thermal management techniques and their applications in electric vehicles. Vehicle Dynamics and Control in Electric Vehicles is another key topic, focusing on the unique challenges and opportunities in ensuring stability, handling, and ride comfort in electric vehicles. Design and Integration of Electric Drivetrains is an important aspect of developing efficient and high-performance electric vehicles. The course provides insights into the design and integration of drivetrain components, as well as their influence on overall vehicle performance. Finally, the Fundamentals of Electric Vehicles Diploma addresses Future Trends and Developments in Electric Vehicles, offering a forward-looking perspective on emerging technologies, market trends, and potential advancements in the EV industry. By completing the Fundamentals of Electric Vehicles Diploma, learners will have acquired a well-rounded understanding of electric vehicle technology, enabling them to contribute effectively to the EV industry or pursue further studies in this fascinating domain. Enrol today to start your journey towards becoming an expert in electric vehicle technology and help shape the future of sustainable transportation. What you will learn 1:Introduction to Electric Vehicles 2:Battery Technology for Electric Vehicles 3: Electric Motors for Electric Vehicles 4:Power Electronics for Electric Vehicles 5:Charging Infrastructure for EV 6:Energy Management in Electric Vehicles 7:Thermal Management in Electric Vehicles 8:Vehicle Dynamics and Control in Electric Vehicles 9:Design and Integration of Electric Drivetrains 10:Future Trends and Developments in Electric Vehicles Course Outcomes After completing the course, you will receive a diploma certificate and an academic transcript from Elearn college. Assessment Each unit concludes with a multiple-choice examination. This exercise will help you recall the major aspects covered in the unit and help you ensure that you have not missed anything important in the unit. The results are readily available, which will help you see your mistakes and look at the topic once again. If the result is satisfactory, it is a green light for you to proceed to the next chapter. Accreditation Elearn College is a registered Ed-tech company under the UK Register of Learning( Ref No:10062668). After completing a course, you will be able to download the certificate and the transcript of the course from the website. For the learners who require a hard copy of the certificate and transcript, we will post it for them for an additional charge.
Join us for a masterclass in bi-directional charging for electric vehicles. Otherwise known as Vehicle-to-Grid (V2G) or Vehicle-to-Anything (V2X), and learn about this potentially game-changing technology which brings together the transport and energy systems.
Course Overview Hybrid electric vehicles are replacing regular fuel-run vehicles. As they are more convenient and environmentally friendly, the hybrid vehicle industry is growing fast. The Hybrid and Electric Vehicles Engineering Course is here to teach you the basics of HEVs and help you become a part of this expanding sector. In the Hybrid and Electric Vehicles Engineering Course, you will understand the basic principles of hybrid electric vehicles. You will identify the motives behind the growth of this industry. The highly informative modules will educate you on different hybrid vehicles. The course will discuss the degree of hybridization in detail. You will learn about engine, motor, motor efficiency, generator and power split device and other core components of HEVs. You will receive a clear understanding of the regenerative system from the lessons. The Hybrid and Electric Vehicles Engineering Course will enrich your knowledge about HEVs and equip you with the ability to pursue a career in this industry. Join the course and open yourself to new possibilities. Learning Outcomes Understand the reasons behind the rise of hybrid electric vehicles Familiarize yourself with the structure of different hybrid electric vehicles Enrich your knowledge about the degree of hybridization Learn about the core elements of HEVs Deepen your understanding of the regenerative system Who is this course for? This Hybrid and Electric Vehicles Engineering Course is for automobile enthusiasts. Entry Requirement This course is available to all learners, of all academic backgrounds. Learners should be aged 16 or over to undertake the qualification. Good understanding of English language, numeracy and ICT are required to attend this course. Certification After you have successfully completed the course, you will be able to obtain an Accredited Certificate of Achievement. You can however also obtain a Course Completion Certificate following the course completion without sitting for the test. Certificates can be obtained either in hardcopy at the cost of £39 or in PDF format at the cost of £24. PDF certificate's turnaround time is 24 hours, and for the hardcopy certificate, it is 3-9 working days. Why choose us? Affordable, engaging & high-quality e-learning study materials; Tutorial videos/materials from the industry-leading experts; Study in a user-friendly, advanced online learning platform; Efficient exam systems for the assessment and instant result; The UK & internationally recognized accredited qualification; Access to course content on mobile, tablet or desktop from anywhere anytime; The benefit of career advancement opportunities; 24/7 student support via email. Career Path The Hybrid and Electric Vehicles Engineering Course is a useful qualification to possess and would be beneficial for any related profession or industry such as: Automobile Engineer Introduction Introduction 00:02:00 Key Motivations for HEVs Rise 00:05:00 Types of Hybrid Electric Vehicles What is HEV & world famous models 00:02:00 Architecture of Hybrid Electric vehicles 00:08:00 Parallel Hybrid Vehicles 00:06:00 Other types of Architecture 00:07:00 Degree of Hybridisation Modes of Operation 00:10:00 Components of HEVs Engine & Motor 00:03:00 Motor Efficiency 00:04:00 Generator & Power Split Device 00:03:00 Battery storage systems 00:06:00 Regenerative Systems Fundamentals of Regenerative Braking 00:06:00 Certificate and Transcript Order Your Certificates and Transcripts 00:00:00
Overview This comprehensive course on Electric Vehicle Battery Management System will deepen your understanding on this topic. After successful completion of this course you can acquire the required skills in this sector. This Electric Vehicle Battery Management System comes with accredited certification from CPD, which will enhance your CV and make you worthy in the job market. So enrol in this course today to fast track your career ladder. How will I get my certificate? You may have to take a quiz or a written test online during or after the course. After successfully completing the course, you will be eligible for the certificate. Who is This course for? There is no experience or previous qualifications required for enrolment on this Electric Vehicle Battery Management System. It is available to all students, of all academic backgrounds. Requirements Our Electric Vehicle Battery Management System is fully compatible with PC's, Mac's, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G. There is no time limit for completing this course, it can be studied in your own time at your own pace. Career Path Learning this new skill will help you to advance in your career. It will diversify your job options and help you develop new techniques to keep up with the fast-changing world. This skillset will help you to- Open doors of opportunities Increase your adaptability Keep you relevant Boost confidence And much more! Course Curriculum 17 sections • 79 lectures • 08:52:00 total length •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: 00:02:00 •Cell Modeling 2: 00:02:00 •Cell Modeling 3: 00:09:00 •Cell Modeling 4: 00:08:00 •Cell Modeling 5: 00:14:00 •Communication Protocol 1: 00:05:00 •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: 00:06:00 •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 1.8: 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: 00:07:00 •BQ76925 Reference Design: 7: 00:06:00 •Thank you: 00:03:00 •Resource - Electric Vehicle Battery Management System: 00:00:00
Overview The global vehicle market is growing at a compound annual growth rate of 10.23%. The 'Hybrid Vehicle Expert Training' course is designed to engage professionals in hybrid technology, a field reshaping the automotive industry. This course opens with an introduction to the motivations propelling the HEV's ascendancy, addressing environmental concerns and the quest for energy efficiency. The intricate architectures of HEVs, from parallel hybrids to other multifaceted designs, are demystified, giving learners a comprehensive understanding of their operation. Aspiring experts will delve into the efficiency of electric motors, the intricacies of generator and power split devices, and the cutting-edge technology behind battery storage systems and regenerative braking. How will I get my certificate? You may have to take a quiz or a written test online during or after the course. After successfully completing the course, you will be eligible for the certificate. Who is This course for? There is no experience or previous qualifications required for enrolment on this Hybrid Vehicle Expert Training. It is available to all students, of all academic backgrounds. Requirements Our Hybrid Vehicle Expert Training is fully compatible with PC's, Mac's, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G. There is no time limit for completing this course, it can be studied in your own time at your own pace. Career Path Having these various qualifications will increase the value in your CV and open you up to multiple sectors such as Business & Management, Admin, Accountancy & Finance, Secretarial & PA, Teaching & Mentoring etc. Course Curriculum 5 sections • 12 lectures • 01:02:00 total length •Introduction: 00:02:00 •Key Motivations for HEVs Rise: 00:05:00 •What is HEV & world famous models: 00:02:00 •Architecture of Hybrid Electric vehicles: 00:08:00 •Parallel Hybrid Vehicles: 00:06:00 •Other types of Architecture: 00:07:00 •Modes of Operation: 00:10:00 •Engine & Motor: 00:03:00 •Motor Efficiency: 00:04:00 •Generator & Power Split Device: 00:03:00 •Battery storage systems: 00:06:00 •Fundamentals of Regenerative Braking: 00:06:00
Overview Uplift Your Career & Skill Up to Your Dream Job - Learning Simplified From Home! Kickstart your career & boost your employability by helping you discover your skills, talents and interests with our special Electric Vehicle Battery Management System Course. You'll create a pathway to your ideal job as this course is designed to uplift your career in the relevant industry. It provides professional training that employers are looking for in today's workplaces. The Electric Vehicle Battery Management System Course is one of the most prestigious training offered at StudyHub and is highly valued by employers for good reason. This Electric Vehicle Battery Management System Course has been designed by industry experts to provide our learners with the best learning experience possible to increase their understanding of their chosen field. This Electric Vehicle Battery Management System Course, like every one of Study Hub's courses, is meticulously developed and well researched. Every one of the topics is divided into elementary modules, allowing our students to grasp each lesson quickly. At StudyHub, we don't just offer courses; we also provide a valuable teaching process. When you buy a course from StudyHub, you get unlimited Lifetime access with 24/7 dedicated tutor support. Why buy this Electric Vehicle Battery Management System? Unlimited access to the course for forever Digital Certificate, Transcript, student ID all included in the price Absolutely no hidden fees Directly receive CPD accredited qualifications after course completion Receive one to one assistance on every weekday from professionals Immediately receive the PDF certificate after passing Receive the original copies of your certificate and transcript on the next working day Easily learn the skills and knowledge from the comfort of your home Certification After studying the course materials of the Electric Vehicle Battery Management System there will be a written assignment test which you can take either during or at the end of the course. After successfully passing the test you will be able to claim the pdf certificate for £5.99. Original Hard Copy certificates need to be ordered at an additional cost of £9.60. Who is this course for? This Electric Vehicle Battery Management System course is ideal for Students Recent graduates Job Seekers Anyone interested in this topic People already working in the relevant fields and want to polish their knowledge and skill. Prerequisites This Electric Vehicle Battery Management System does not require you to have any prior qualifications or experience. You can just enrol and start learning.This Electric Vehicle Battery Management System was made by professionals and it is compatible with all PC's, Mac's, tablets and smartphones. You will be able to access the course from anywhere at any time as long as you have a good enough internet connection. Career path As this course comes with multiple courses included as bonus, you will be able to pursue multiple occupations. This Electric Vehicle Battery Management System is a great way for you to gain multiple skills from the comfort of your home. Course Curriculum Section 01 - Introduction Introduction 00:03:00 Section 02 - Passive Cell Balancing 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 Section 03 - Voltage Measurement 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 Section 04 - Current Measurement 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 Section 05 - Temperature Measurement Temperature Measurement: In BMS 00:10:00 Temperature Measurement: Thermistor Calculation 00:13:00 Temperature Measurement: Assignment 00:02:00 Section 06 - Coulomb Counting Coulomb Counting - SoC Estimation 00:05:00 Coulomb counting: Calculation 00:03:00 Coulomb counting: Assignment 00:07:00 Section 07 - BMS IC Selection 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 Section 08 - MCU for BMS MCU for BMS: Basics 00:04:00 MCU for BMS: Selection Technique 00:07:00 MCU for BMS: Assignment 00:02:00 Section 09 - Lithium-ion Battery Cell Modeling Cell Modeling 1 00:02:00 Cell Modeling 2 00:02:00 Cell Modeling 3 00:09:00 Cell Modeling 4 00:08:00 Cell Modeling 5 00:14:00 Section 10 - UART Communication Communication Protocol 1 00:05:00 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 Section 11 - I2C Communication I2C communication protocol 1 00:06:00 I2C communication protocol 2 00:04:00 I2C communication protocol 3 00:06:00 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 Section 12 - SPI Communication SPI Communication 1 00:06:00 SPI Communication 2 00:07:00 SPI Communication 3 00:06:00 Section 13 - CAN Communication 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 00:04:00 CAN Communication 1.6 00:06:00 CAN Communication 1.8 00:05:00 Section 14 - Power Management Power management 1 00:04:00 Power management 2 00:04:00 Power management 3 00:04:00 Power management 4 00:05:00 Section 15 - BMS Design for 12V application 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 00:07:00 BQ76925 Reference Design: 7 00:06:00 Section 16 - Thank you Thank you 00:03:00 Downloadable Resources Resource - Electric Vehicle Battery Management System 00:00:00