Car battery converter

Product Details: This is the first real super HD 1080P remote control car key chain with HD Camcorder and External storage and infrared night vision, and it supports for large Micro SD. In addition, it has lots of practical functions, fashionable exquisite appearance, stable quality, a wide variety of uses, and will bring you unforgettable experience and be your indispensable utility. This product applies to: the reporter interviews, records of incidents, life records, entertainment and leisure, sports records, auxiliary records of teaching records, home security monitoring, criminal forensics, humanities landscape, outdoor adventure recording, auxiliary memory etc... Main features: Function operation, vibration prompt. Human-computer interaction, perfect contact. Metal shell, excellent workmanship. low illumination video frames per second video. dpi Machine compact, built in MAH high capacity battery. Vibrating alert on each and every function. Motion detection function. Recording during charging PC camera function. TV out function - conne

Product Details: This is the first real super HD 1080P remote control car key chain with HD Camcorder and External storage and infrared night vision, and it supports for large Micro SD. In addition, it has lots of practical functions, fashionable exquisite appearance, stable quality, a wide variety of uses, and will bring you unforgettable experience and be your indispensable utility. This product applies to: the reporter interviews, records of incidents, life records, entertainment and leisure, sports records, auxiliary records of teaching records, home security monitoring, criminal forensics, humanities landscape, outdoor adventure recording, auxiliary memory etc... Main features: Function operation, vibration prompt. Human-computer interaction, perfect contact. Metal shell, excellent workmanship. low illumination video support. 1920*1080 - 30 frames per second video. 210 dpi Machine compact, built in 260 MAH high capacity battery. Vibrating alert on each and every function. Motion detection function. Recording during charging PC camera function. TV out function - connect device eith TV and bring TV as a device screen. Unique designs Item related parameters Video AVI video coding M-JPEG Video resolution 1920 * 1080 frame rate 30fps Image resolution 4032 x 3024 Picture format JPG Image ratio 4:3 PC camera resolution 320*240 Player The player built in operating system or other mainstream players System supported Windows me/2000/XP/2003/Win7；Mac OS；Linux； Working time Around 100 minutes Charging voltage DC-5V Interface type Mini 8Pin USB Memory supported TF card Package includes: 1 x 1080P Keychain Camera T4000 1 x USB Cable 1 x TV out / AV cable 1 x Lanyard 1 x User Manual 1 X extra cover shell Order Now: We are just a call away 0321-4212615

Product Details: Main features: Function operation, vibration prompt. Human-computer interaction, perfect contact. Metal shell, excellent workmanship. low illumination video support. 1920*1080 - 30 frames per second video. 210 dpi Machine compact, built in 260 MAH high capacity battery. Vibrating alert on each and every function. Motion detection function. Recording during charging PC camera function. TV out function - connect device eith TV and bring TV as a device screen. Order Now: We are just a call away 0321-4212615

ICTE International College of Technical Education. Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-8736681, 0311-5193625, 0092-335-4176949 The syllabus is the course contract that serves as an agreement between you and your students about your goals for the course and your expectations for your students.Hybrid electric vehicles are powered by an internal combustion engine and one or more electric motors, which uses energy stored in batteries. A hybrid electric vehicle cannot be plugged in to charge the battery. Instead, the battery is charged through regenerative braking and by the internal combustion engine. The extra power provided by the electric motor can potentially allow for a smaller engine. The battery can also power auxiliary loads and reduce engine idling when stopped. Together, these features result in better fuel economy without sacrificing performance. Syllabi typically include: Course description Course goals and objectives Course topics Course meeting times and/or schedule Required materials/textbooks Grading scale Required activities and assessments with due dates Course policies Key Components of a Hybrid Electric Car Battery (auxiliary): In an electric drive vehicle, the low-voltage auxiliary battery provides electricity to start the car before the traction battery is engaged; it also powers vehicle accessories. DC/DC converter: This device converts higher-voltage DC power from the traction battery pack to the lower-voltage DC power needed to run vehicle accessories and recharge the auxiliary battery. Electric generator: Generates electricity from the rotating wheels while braking, transferring that energy back to the traction battery pack. Some vehicles use motor generators that perform both the drive and regeneration functions. Electric traction motor: Using power from the traction battery pack, this motor drives the vehicle's wheels. Some vehicles use motor generators that perform both the drive and regeneration functions. Exhaust system: The exhaust system channels the exhaust gases from the engine out through the tailpipe. A three-way catalyst is designed to reduce engine-out emissions within the exhaust system. Fuel filler: A nozzle from a fuel dispenser attaches to the receptacle on the vehicle to fill the tank. Fuel tank (gasoline): This tank stores gasoline on board the vehicle until it's needed by the engine. Internal combustion engine (spark-ignited): In this configuration, fuel is injected into either the intake manifold or the combustion chamber, where it is combined with air, and the air/fuel mixture is ignited by the spark from a spark plug. Power electronics controller: This unit manages the flow of electrical energy delivered by the traction battery, controlling the speed of the electric traction motor and the torque it produces. Thermal system (cooling): This system maintains a proper operating temperature range of the engine, electric motor, power electronics, and other components. Traction battery pack: Stores electricity for use by the electric traction motor. Transmission: The transmission transfers mechanical power from the engine and/or electric traction motor to drive the wheels.

ICTE International College of Technical Education Pvt. Ltd Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-6122937, 0311-5193625, 0092-335-4176949 Hybrid and electric vehicle technology course provides students to the knowledge of hybrid and electric vehicles, and also teaches the principles of operation of vehicles. In this course, students learn technical drawing and design program. The aim of this course is to introduce students to power train.Hybrid electric vehicles are powered by an internal combustion engine and an electric motor, which uses energy stored in batteries. A hybrid electric vehicle cannot be plugged in to charge the battery. Instead, the battery is charged through regenerative braking and by the internal combustion engine.There are three main types of hybrid vehicle; full hybrids, mild hybrids and plug-in hybrids. A full hybrid (FHEV) can run on just the combustion engine (i.e. diesel/petrol), the electric engine (i.e. power from batteries), or a combination. The Toyota Prius is the most commonly known example of this.The main advantages of a hybrid electric motor include comparatively less gas usage and reduced CO2 emission than traditional gas or diesel-engine car or SUV. The most recent types of plug-in hybrid electric-hybrid cars are the most effective green automobiles, featuring a much-improved eco-friendly engine.The light vehicle industry is facing a shortage of engineering talent needed to retool for the use of electric drives as the primary source of motive power. Help fill that gap with Michigan Tech’s Hybrid Electric Vehicle (HEV) curriculum. The coursework provides advanced knowledge and hands-on labs in the design, analysis, control, calibration, and operating characteristics of HEVs. Whether you are a graduate or undergraduate student, you can integrate any number of these courses into your degree. Another flexible option: simply take courses as a non-degree seeking student.Hybrid vehicle technologies such as powertrains provide new opportunities to achieve better trade-offs in vehicle designs. These technologies can lead to improvements in driving performance and fuel economy. This online module presents an introduction to the current status of hybrid vehicles and basic technologies, along with an in-depth discussion about the control and design of split hybrid electric vehicles. SYLLABUS 1 .Introduction of hybrid vehicles History of hybrid vehicles types of system architectures of hybrid vehicles series hybrid parallel hybrid vehicle series –parallel hybrid vehicle complex hybrid vehicle characteristics and difference of HEV and PHEV reasons behind development of HEV and different national fuel standards power electronic in HEV buck boost converter three phase inverter Live transmission explanation of Toyota prius testing standards of HEV and PHEV (AIS Standards) Battery Chemistry, Efficiency, Definition & its Parameters Types of batteries – Pb Acid, Li-Po & Metal Air Architecture- Cells, Modules & Packs Battery Charging & Discharging Cycles Use of Batteries in Hybrid Powertrain Battery Modelling & Management System(BMS) Alternative Energy Storage – Photovoltaic cells, Super-Capacitors, Fuel Cell Demonstration Sessions-on experience on Battery Packs and BMS. Electric Motors , Generators & Power Electronics Electric Motors- AC/DC Motors/ Generators Brushed DC Motor/ Brushless DC Motor- Torque Characteristics Synchronous and Asynchronous AC Motor- Torque Characteristics Reluctance Machines, Actuators & Capacitors DC-AC & AC-DC Convertors Practical design and calculation session on batteries and motors.

Overview LDT-I200 is a new generation of converter lining thickness gauge launched by our company. The system equipment emits a pulsed laser beam to the lining surface of the converter, and receives the returned laser light to measure its flight time. Then the system equipment calculates the distance between the equipment and the target point according to the transmission speed of the laser. During measurement, the user pushes the equipment to a certain position on the platform in front of the converter, and the equipment can start to scan and measure the target area of the converter after the equipment performs rapid self-positioning. The Measuring principle The measurement speed of LDT-I200 can reach up to 2,000,000 points per second, and each scan can obtain distance data of more than 1.5 million points. The actual surface curve of the entire converter lining can be obtained by combining the measurement data of different positions and angles. During the measurement, the laser head of the equipment rotates at a certain step angle to rapidly change the angle of the pulsed laser beam. Within 4 minutes, the three-dimensional surface contour of the converter lining can be formed, and the thickness information of the furnace lining can be obtained through coordinate conversion calculation. The measurement accuracy up to ±2mm. In order to convert the distance from the internal point of the converter to the thickness gauge into the thickness of the furnace lining at each point, we must know the coordinate relationship between the trolley and the converter. We use the second laser head to position the trolley. When the trolley is pushed to the measurement site, the positioning laser head rotates at high speed to scan the three reflective strips opposite the converter. Through triangulation measurement and calculation, we can calculate the relative position of the trolley to the reflective strips. The coordinates of the reflective strip and the converter are known through mapping, so that the coordinates of the trolley relative to the converter can be accurately obtained. The main components 1. Laser measuring head 2. Wireless communication 3. Battery pack 4. Mobile laser thickness gauge host 5. Converter inclination measurement system 6. Cooling circulation system 7. Positioning auxiliary reflector 8. Laser positioning system The technical indexes Laser reproducibility: ±2mm Laser accuracy: ±2mm Local fastest measurement time: 15s Positioning time: 30s Full image measurement time: 4min The highest measurable lining temperature: 1850℃ Measuring distance: 0.5-25m Actual points are measured per frame: 1500000 points Continuous working time after fully charged: ≥3h Eye-safe laser: Class 1 laser product (doesn't hurt the eyes) The parameters of laser measuring head Measurement principle: According to the flight time and speed of the laser to calculate the distance Laser reproducibility: ±2mm Laser accuracy: ±2mm Scan rate: 2000000 points/second Measuring angle: vertical ±40°, horizontal 360° Maximum measurement temperature: 2200℃ Working temperature: -20℃-80℃ Cooling method: Integrated liquid cooling system, IP64 grade protection Laser wavelength: 1550nm (near infrared)

ICTE International College of Technical Education Pvt. Ltd Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-6122937, 0311-5193625, 0092-335-4176949 No:1 Hybrid car technology EFI course in Rwalpindi Shamsabad Pakistan A hybrid electric vehicle cannot be plugged in to charge the battery. Instead, the battery is charged through regenerative braking and by the internal combustion engine. The extra power provided by the electric motor can potentially allow for a smaller engine. The battery can also power auxiliary loads and reduce engine idling when stopped. Together, these features result in better fuel economy without sacrificing performance. Syllabi typically include: Course description Course goals and objectives Course topics Course meeting times and/or schedule Required materials/textbooks Grading scale Required activities and assessments with due dates Course policies Key Components of a Hybrid Electric Car A precursor of what should be expected in the coming years. Start today and improve your skills. auto mechanic course and hybrid vehicle technical courses for fresh DAE and other technicians who want to refresh themselves with new technologies. This program is based on trouble shooting and repair of hybrid batteries, gearboxes with hands on experience. Please note that this require a good skill level and will be run at our office in Islamabad Industrial Area Sector I-9. English language is not a requirement however we recommend those technicians who are good in using a smart phone.As hybrid vehicles get more popular. The need for trained technicians also increases. In this auto mechanic course / automobile courses, you will get the chance to examine completely different mechanical layouts of hybrid powertrains. The way they influence the performance and quality of the powertrain. Hybrid batteries and there functionality will be explained along with hands on experience. Define the torque speed curves for motors and the application to electric and hybrid electric vehicles No:1 Hybrid car technology EFI course in Rwalpindi Shamsabad Pakistan Define and analyze battery operation and performance requirements for HEV, PHEV, EREV and full electric vehicle applications Estimate the size of a cell to meet a specific requirement Describe the functions performed by a Battery Management System (BMS) Understand different thermal management methodologies applied for the battery pack systems and their challenges Explain different approaches to estimating state of charge, state of health, power and energy Compare and contrast the various industry and regulatory standards for hybrid vehicle components, batteries, and charging systems Identify how to define key vehicle system requirements and select and size system components that best meet those requirements Understand various testing and regulatory requirements for electric vehicle and components at both system and subsystem level. Understand the challenges in meeting the safety regulations at international level. Understand the drawbacks of current testing procedures applied by the international testing agencies for electric and hybrid vehicles. ICTE International College of Technical Education Pvt. Ltd Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-6122937, 0311-5193625, 0092-335-4176949 No:1 Hybrid car technology EFI course in Rwalpindi Shamsabad Pakistan http://www.icollegete.com/course/international-environmental-health-safety-engineering-level-3-in-rawalpindi/ http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/ http://www.icollegete.com/course/diploma-in-auto-efi-electrician-course-in-rawalpindi-pakistan/

ICTE International College of Technical Education Pvt. Ltd Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-6122937, 0311-5193625, 0092-335-4176949 No:1 Hybrid car technology EFI course in Rwalpindi Shamsabad Pakistan A hybrid electric vehicle cannot be plugged in to charge the battery. Instead, the battery is charged through regenerative braking and by the internal combustion engine. The extra power provided by the electric motor can potentially allow for a smaller engine. The battery can also power auxiliary loads and reduce engine idling when stopped. Together, these features result in better fuel economy without sacrificing performance. Syllabi typically include: Course description Course goals and objectives Course topics Course meeting times and/or schedule Required materials/textbooks Grading scale Required activities and assessments with due dates Course policies Key Components of a Hybrid Electric Car A precursor of what should be expected in the coming years. Start today and improve your skills. auto mechanic course and hybrid vehicle technical courses for fresh DAE and other technicians who want to refresh themselves with new technologies. This program is based on trouble shooting and repair of hybrid batteries, gearboxes with hands on experience. Please note that this require a good skill level and will be run at our office in Islamabad Industrial Area Sector I-9. English language is not a requirement however we recommend those technicians who are good in using a smart phone.As hybrid vehicles get more popular. The need for trained technicians also increases. In this auto mechanic course / automobile courses, you will get the chance to examine completely different mechanical layouts of hybrid powertrains. The way they influence the performance and quality of the powertrain. Hybrid batteries and there functionality will be explained along with hands on experience. Define the torque speed curves for motors and the application to electric and hybrid electric vehicles No:1 Hybrid car technology EFI course in Rwalpindi Shamsabad Pakistan Define and analyze battery operation and performance requirements for HEV, PHEV, EREV and full electric vehicle applications Estimate the size of a cell to meet a specific requirement Describe the functions performed by a Battery Management System (BMS) Understand different thermal management methodologies applied for the battery pack systems and their challenges Explain different approaches to estimating state of charge, state of health, power and energy Compare and contrast the various industry and regulatory standards for hybrid vehicle components, batteries, and charging systems Identify how to define key vehicle system requirements and select and size system components that best meet those requirements Understand various testing and regulatory requirements for electric vehicle and components at both system and subsystem level. Understand the challenges in meeting the safety regulations at international level. Understand the drawbacks of current testing procedures applied by the international testing agencies for electric and hybrid vehicles. http://www.icollegete.com/course/international-environmental-health-safety-engineering-level-3-in-rawalpindi/ http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/ http://www.icollegete.com/course/diploma-in-auto-efi-electrician-course-in-rawalpindi-pakistan/

International College of Technical Education. Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-8736681, 0311-5193625, 0092-335-4176949 The Hybrid and Electrics Vehicles course comprises in-class lectures and lab time. During labs, you will partake in demonstrations of disconnect procedures, safely testing high voltage cables and connections, accessing scan tool data and conducting examinations of sub systems. The Hybrid and Electric Vehicle Course will develop your skills around hybrid technology vehicles. You will focus on hybrid & electric safety, operation principles, series & parallel, motor assisted systems, extended range hybrids, electric vehicle operation, servicing & maintenance and diagnostics. Hybrid electric vehicles are powered by an internal combustion engine and an electric motor, which uses energy stored in batteries. A hybrid electric vehicle cannot be plugged in to charge the battery. Instead, the battery is charged through regenerative braking and by the internal combustion engine.The Hybrid and Electrics Vehicles course is beneficial for both licensed and non-licensed students looking for an introduction to both types of vehicles. The course provides an overview of the purpose of hybrid technology, along with its history and current electric car application. Emphasis is on safe operating practices when servicing both hybrid and non-hybrid systems. Servicing hybrid and electric vehicles is divided into: • Necessary tools (digital volt ohm meters, scan tools and oscilloscopes); • Safety precautions (proper protective equipment, high voltage concerns and high voltage disconnect procedures); • Hybrid systems (battery types and construction, drive and traction motors); • Atkinson cycle engines and braking systems, both hydraulic and regenerative. Specialized hybrid systems include Toyota Synergy, Honda IMA, GM BAS, GM, BMW and Daimler Benz 2 mode, Hyundai/Kia, Porsche and Ford. The electric vehicles examined include Tesla, Leaf, Ford Focus, Volt, iMiEV and others. • Perform minor repairs and servicing on hybrid vehicles; • Safely disconnect and power down hybrid systems; • Use diagnostic equipment; • Access hybrid information and safety procedures. Learning Objectives Define and analyze fundamental electrochemistry of battery operation and performance requirements for HEV, PHEV, EREV and full electric vehicle applications Estimate the size of a cell to meet a specific requirement Create a cradle-to-grave, or cradle-to-use list of materials used in any type of automotive battery Compute the temperature response of battery cell and pack assemblies for a simple model Describe the functions performed by a Battery Management System (BMS) Explain different approaches to estimating state of charge, state of health, power and energy Apply the operation of brushless dc and induction motors to HEV and EV vehicles Define the torque speed curves for motors and the application to electric and hybrid electric vehicles Describe the features of buck, boost, and Transformer converters Compare and contrast the various industry and regulatory standards for hybrid vehicle components, batteries, and charging systems Describe the main hybrid and electric vehicle development considerations and performance requirements for various vehicle system Identify how to define key vehicle system requirements and select and size system components that best meet those requirements

ICTE International College of Technical Education. Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-6122937, 0311-5193625, 0092-335-4176949 Diploma in Auto Electrician Car TrainingCourse TypeDirectEligibilityNo NeedAge LimitNo barDuration4 WeeksBatch TypeRegularFast TrackWeek End Saturday onlyTimingRegular. Domestic Electrical Installer training packages. This is the number route for adults looking to start a new and exciting career as an electrician and we have recently incorporated the EVC course into this package for all new learners.Electrical Systems course. Basic Electricity and Fundamentals of DC Circuit Smart. Our car electrician courses are delivered by a network of carefully selected.This course covers the parts of the electrical and electronic systems within a car. A precursor of what should be expected in the coming years. Start today and improve your skills. auto mechanic course and hybrid vehicle technical courses for fresh DAE and other technicians who want to refresh themselves with new technologies. This program is based on trouble shooting and repair of hybrid batteries, gearboxes with hands on experience. Please note that this require a good skill level and will be run at our office in Islamabad Industrial Area Sector I-9. English language is not a requirement however we recommend those technicians who are good in using a smart phone.As hybrid vehicles get more popular. The need for trained technicians also increases. In this auto mechanic course / automobile courses, you will get the chance to examine completely different mechanical layouts of hybrid powertrains. The way they influence the performance and quality of the powertrain. Hybrid batteries and there functionality will be explained along with hands on experience. Define the torque speed curves for motors and the application to electric and hybrid electric vehicles Define and analyze battery operation and performance requirements for HEV, PHEV, EREV and full electric vehicle applications Estimate the size of a cell to meet a specific requirement Describe the functions performed by a Battery Management System (BMS) Understand different thermal management methodologies applied for the battery pack systems and their challenges Explain different approaches to estimating state of charge, state of health, power and energy Compare and contrast the various industry and regulatory standards for hybrid vehicle components, batteries, and charging systems Identify how to define key vehicle system requirements and select and size system components that best meet those requirements Understand various testing and regulatory requirements for electric vehicle and components at both system and subsystem level. Understand the challenges in meeting the safety regulations at international level. Understand the drawbacks of current testing procedures applied by the international testing agencies for electric and hybrid vehicles. http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/ http://www.icollegete.com/course/diploma-in-auto-efi-electrician-course-in-rawalpindi-pakistan/ http://www.icollegete.com/course/efi-auto-electrician-diploma-course-in-pakistan/ http://www.icollegete.com/course/efi-auto-electrician-diploma-course-in-rawalpindi/

ICTE International College of Technical Education Pvt. Ltd Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46000. Email : info@icollegete.com Contact : 051-6122937, 0311-5193625, 0092-335-4176949 Hybrid electric vehicles are powered by an internal combustion engine and one or more electric motors, which uses energy stored in batteries. A hybrid electric vehicle cannot be plugged in to charge the battery. Instead, the battery is charged through regenerative braking and by the internal combustion engine.Hybrid Electric Vehicle Course is a professional course wherein students are taught dynamics, charging, battery assembling, designing engines, interior and exterior spacing, etc. of hybrid electric vehicles.How hybrid and electric vehicles work and their advantages and disadvantages, their hybridization, Autonomous Electric Vehicles, batteries, and charging systems. We will study few important topics that you should know.Electric vehicles aren't just an efficient way to move people and products—they are literally powering the transition to a clean energy economy by taking on one of the largest contributors to greenhouse gas emissions—transportation.In this online course, you will get a comprehensive overview of hybrid and electric vehicle systems, battery technologies, the charging infrastructure, and grid integration and be able to apply what you’ve learned toward a career in this exciting new field. Explain the role of electric vehicles in the clean-energy transition Evaluate the challenges of integrating electrified vehicles into the electric grid Ascertain the advantages and disadvantages between hybrid electric vehicle (HEV), plug-in hybrid electric vehicle (PHEV), and battery electric vehicle (BEV) systems Comprehend role and design of battery management systems (BMS) and applications Understand battery technologies including lithium-ion batteries, cell balancing, battery capacity, and aging factors Evaluate the basics of charging technologies, and future solutions such as fast charging strategies, wireless charging, and battery swapping The course will cover all of the following with details: Electric Vehicles Introduction Hybrid Vehicles Introduction Types of Electric Vehicles and Range Anxiety Advantages and Disadvantages of Hybrid Vehicles Principle of Energy Hybridization of Hybrid Electric Vehicle Hybridization of drivetrains in Hybrid Electric Vehicles Vehicular Efficiency and Energy Saving Potential Autonomous Electric Vehicle Google's Self Driving Autonomous Electric Vehicle Battery range, life, and recycling Types of Batteries used in Hybrid Electric Vehicle Charging Stations of Electric Vehicles Charging Time of an Electric Vehicle Charging Methods of an Electric Vehicle

Electric vehicles aren't just an efficient way to move people and products—they are literally powering the transition to a clean energy economy by taking on one of the largest contributors to greenhouse gas emissions—transportation. In this online course, you will get a comprehensive overview of hybrid and electric vehicle systems, battery technologies, the charging infrastructure, and grid integration and be able to apply what you’ve learned toward a career in this exciting new field. Explain the role of electric vehicles in the clean-energy transition Evaluate the challenges of integrating electrified vehicles into the electric grid Ascertain the advantages and disadvantages between hybrid electric vehicle (HEV), plug-in hybrid electric vehicle (PHEV), and battery electric vehicle (BEV) systems Comprehend role and design of battery management systems (BMS) and applications Understand battery technologies including lithium-ion batteries, cell balancing, battery capacity, and aging factors Evaluate the basics of charging technologies, and future solutions such as fast charging strategies, wireless charging, and battery swapping. Contents: .Fundamentals of hybrid and electric vehicles. How an electric vehicle works. The fuel cell vehicle. Charging modes and connector types. Comparison between thermal and electric vehicles .Hybrid and electric vehicle technology. Electronics and components. Battery types. Types of motors. 48V Mild Hybrid technologies. HV and EV components: batteries. Explanation of the Tesla Model S battery module. Disassembly and analysis of the Renault Zoe battery. Replacement of Hyundai Ioniq PHEV battery modules. Tesla Model S electrical system disassembly and analysis. Nissan eNV-200 analysis. Fuel cell technologies (Hyundai Nexo). Flooding of an electric vehicle .Chargers and charging methods in hybrid and electric vehicles. Charging methods and connector types. CESVIMAP charger test area. Parts of a charger. CESVIMAP study on electric vehicle chargers. Nissan Leaf charging experience. Particularities of the cooling and air conditioning system in electric and hybrid vehicles. Thermal/electric engine cooling systems. Cooling systems for the electrical system (inverter/charger). Cabin air conditioning system. Explanation of a scroll compressor. Battery cooling and heating systems Particularities in the workshop when working with air conditioning systems. Intervention on hybrid and electric vehicles. Legislation, procedures and tools. Electrical risks and legislation. Procedure for de-energising hybrid and electric vehicles. Protection equipment. Maintenance of hybrid and electric vehicles. Models to be studied: Hyundai Ioniq Hybrid, Mitsubishi Outlander and Tesla Model 3. This course is designed to introduce and orientate the student to hybrid and electric vehicles. This will be achieved through a series of modules that will be taught in the green energy lab and will include the following: an introduction to types of hybrid and electric vehicles - hybrid safety - maintenance and operation of hybrid vehicles; oil changes/coolant system service, H.V. disconnects, hybrid A/C service procedures and electric power steering. This course will enhance the skill level and general knowledge of the student about hybrid and electric vehicles within their workplace environment. http://www.icollegete.com/ International College of Technical Education. Main office: Office No. 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46,000. Email: info@icollegete.com Contact: 051-6122937, 0311-5193625, 0092-335-4176949 http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/

Electric vehicles are not just an efficient way to move people and products – they literally support the transition to a clean energy economy by taking over one of the biggest contributors to greenhouse gas emissions – transportation. In this online course, you'll gain a comprehensive overview of hybrid and electric vehicle systems, battery technologies, charging infrastructure and grid integration, and apply what you've learned to a career in this exciting new field. Explain the role of electric vehicles in the clean energy transition Evaluate the challenges of integrating electrified vehicles into the electrical grid Learn the pros and cons between hybrid electric vehicle (HEV), plug-in hybrid electric vehicle (PHEV), and battery electric vehicle (BEV) systems Understand the role and design of Battery Management Systems (BMS) and applications Understand battery technologies including lithium-ion batteries, cell balancing, battery capacity and aging factors Review the fundamentals of charging technologies and future solutions such as fast charging strategies, wireless charging and battery swapping. Content: .Fundamentals of hybrid and electric vehicles. How an electric vehicle works. Fuel cell vehicle. Charging modes and connector types. Comparison of thermal and electric vehicles Hybrid and electric vehicle technology. Electronics and components. Battery types. Engine types. 48V Mild Hybrid technology. HV and EV components: batteries. Explanation of the Tesla Model S battery module. Renault Zoe battery disassembly and analysis. Replacement of Hyundai Ioniq PHEV battery modules. Tesla Model S electrical system disassembly and analysis. Nissan eNV-200 analysis. Fuel cell technology (Hyundai Nexo). Electric vehicle flood .Chargers and charging methods in hybrid and electric vehicles. Charging methods and connector types. CESVIMAP charger test area. Charger parts. CESVIMAP study on electric vehicle chargers. Nissan Leaf charging experience. Peculiarities of the cooling and air conditioning system in electric and hybrid vehicles.Thermal/electrical engine cooling systems. Cooling systems for electrical system (inverter/charger). Cabin air conditioning system. Scroll compressor explained. Battery-powered cooling and heating systems Peculiarities in the workshop when working with air conditioning systems. Impact on hybrid and electric vehicles. Legislation, procedures and tools. Electrical hazards and legislation. Procedure for switching off hybrid and electric vehicles. Protective equipment. Maintenance of hybrid and electric vehicles. Models to study: Hyundai Ioniq Hybrid, Mitsubishi Outlander and Tesla Model 3. This course is designed to introduce and orient students to the field of hybrid and electric vehicles. This will be achieved through a series of modules which will be taught in the Green Energy Lab and will include the following: introduction to hybrid and electric vehicle types hybrid safety - maintenance and operation of hybrid vehicles; oil changes/cooling system service, H.V. disconnection, hybrid air conditioning and electric power steering service procedures. This course will expand the student's skill level and general knowledge of hybrid and electric vehicles in their workplace. http://www.icollegete.com/ International College of Technical Education. Main office: Office No. 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46,000. Email: info@icollegete.com Contact: 051-6122937, 0311-5193625, 0092-335-4176949 http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/

Electric vehicles are not just an efficient way to move people and products – they literally support the transition to a clean energy economy by taking over one of the biggest contributors to greenhouse gas emissions – transportation. In this online course, you'll gain a comprehensive overview of hybrid and electric vehicle systems, battery technologies, charging infrastructure and grid integration, and apply what you've learned to a career in this exciting new field. Explain the role of electric vehicles in the clean energy transition Evaluate the challenges of integrating electrified vehicles into the electrical grid Learn the pros and cons between hybrid electric vehicle (HEV), plug-in hybrid electric vehicle (PHEV), and battery electric vehicle (BEV) systems Understand the role and design of Battery Management Systems (BMS) and applications Understand battery technologies including lithium-ion batteries, cell balancing, battery capacity and aging factors Review the fundamentals of charging technologies and future solutions such as fast charging strategies, wireless charging and battery swapping. Content: .Fundamentals of hybrid and electric vehicles. How an electric vehicle works. Fuel cell vehicle. Charging modes and connector types. Comparison of thermal and electric vehicles Hybrid and electric vehicle technology. Electronics and components. Battery types. Engine types. 48V Mild Hybrid technology. HV and EV components: batteries. Explanation of the Tesla Model S battery module. Renault Zoe battery disassembly and analysis. Replacement of Hyundai Ioniq PHEV battery modules. Tesla Model S electrical system disassembly and analysis. Nissan eNV-200 analysis. Fuel cell technology (Hyundai Nexo). Electric vehicle flood .Chargers and charging methods in hybrid and electric vehicles. Charging methods and connector types. CESVIMAP charger test area. Charger parts. CESVIMAP study on electric vehicle chargers. Nissan Leaf charging experience. Peculiarities of the cooling and air conditioning system in electric and hybrid vehicles. Thermal/electrical engine cooling systems. Cooling systems for electrical system (inverter/charger). Cabin air conditioning system. Scroll compressor explained. Battery-powered cooling and heating systems Peculiarities in the workshop when working with air conditioning systems. Impact on hybrid and electric vehicles. Legislation, procedures and tools. Electrical hazards and legislation. Procedure for switching off hybrid and electric vehicles. Protective equipment. Maintenance of hybrid and electric vehicles. Models to study: Hyundai Ioniq Hybrid, Mitsubishi Outlander and Tesla Model 3. This course is designed to introduce and orient students to the field of hybrid and electric vehicles. This will be achieved through a series of modules which will be taught in the Green Energy Lab and will include the following: introduction to hybrid and electric vehicle types - hybrid safety - maintenance and operation of hybrid vehicles; oil changes/cooling system service, H.V. disconnection, hybrid air conditioning and electric power steering service procedures. This course will expand the student's skill level and general knowledge of hybrid and electric vehicles in their workplace. http://www.icollegete.com/ International College of Technical Education. Main office: Office No. 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46,000. Email: info@icollegete.com Contact: 051-6122937, 0311-5193625, 0092-335-4176949 http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/

Electric cars are not just an efficient way to transport people and products – they literally support the transition to a clean energy economy by taking over one of the biggest contributors to greenhouse gas emissions – transportation. In this online course, you'll gain a comprehensive overview of hybrid and electric vehicle systems, battery technologies, charging infrastructure and grid integration, and apply what you've learned to a career in this exciting new field. Explain the role of electric vehicles in the clean energy transition Evaluate the challenges of integrating electrified vehicles into the electrical grid Learn about the pros and cons between hybrid electric vehicle (HEV), plug-in hybrid electric vehicle (PHEV), and battery electric vehicle (BEV) systems Understand the role and design of battery management systems (BMS) and applications Understand battery technologies including lithium-ion batteries, cell balancing, battery capacity and aging factors Review the basics of charging technologies and future solutions such as fast charging strategies, wireless charging and battery swapping. Content: Fundamentals of hybrid and electric vehicles. How an electric vehicle works. Fuel cell vehicle. Charging modes and connector types. Comparison of thermal and electric vehicles Hybrid and electric vehicle technology. Electronics and components. Battery types. Engine types. 48V Mild Hybrid technology. HV and EV components: batteries. Tesla Model S battery module explained. Renault Zoe battery disassembly and analysis. Replacement of Hyundai Ioniq PHEV battery modules. Tesla Model S electrical system disassembly and analysis. Nissan eNV-200 analysis. Fuel cell technology (Hyundai Nexo). A flood of electric vehicles .Chargers and charging methods in hybrid and electric vehicles. Charging methods and connector types. CESVIMAP charger test area. Charger parts. CESVIMAP study on electric vehicle chargers. Nissan Leaf charging experience. Peculiarities of the cooling and air conditioning system in electric and hybrid vehicles. Thermal/electrical engine cooling systems. Cooling systems for electrical system (inverter/charger). Cabin air conditioning system. Scroll compressor explained. Battery-powered cooling and heating systems Peculiarities in the workshop when working with air conditioning systems. Impact on hybrid and electric vehicles. Legislation, procedures and tools. Electrical hazards and legislation. Procedure for switching off hybrid and electric vehicles. Protective equipment. Maintenance of hybrid and electric vehicles. Models to study: Hyundai Ioniq Hybrid, Mitsubishi Outlander and Tesla Model 3. The aim of the course is to introduce students to and orientate themselves in the field of hybrid and electric vehicles. This will be achieved through a series of modules which will be taught in the Green Energy Lab and will include the following: introduction to hybrid and electric vehicles - hybrid safety - maintenance and operation of hybrid vehicles; oil changes/cooling system service, H.V. disconnection service procedures, hybrid air conditioning and electric power steering. This course will expand students' skill level and general knowledge of hybrid and electric vehicles in their workplace. http://www.icollegete.com/ International College of Technical Education. Main office: Office No. 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 46,000. Email: info@icollegete.com Contact: 051-6122937, 0311-5193625, 0092-335-4176949 http://www.icollegete.com/course/hybrid-car-technology-course-in-rawalpindi-pakistan/