Grid inverter energy storage
Top sales list grid inverter energy storage
Karachi (Sindh)
OMEGA POWER Infini Solar is a hybrid inverter which combines solar system, AC utility, and battery power source to supply continuous power. It is suitable for the remote areas where the cost of utility is too high or emergency usage when utility is not stable. Main Features 3KW on-grid inverter with energy storage Pure sine wave output Microprocessor controlled to guarantee stable charging system Multiple operations: Grid tie, Off grid, and grid-tie with backup Built-in MPPT solar charger LCD display panel for comprehensive information Multiple communication Green substitution for generators User-adjustable battery charging current
Rs 90
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Pakistan
Infini Solar is a hybrid invert er which combines solar system, AC utility, and battery power source to supply continuous power. It is suitable for the remote areas where the cost of utility is too high or emergency usage when utility is not stable. Main Features 3KW on-grid inverter with energy storage Pure sine wave output Microprocessor controlled to guarantee stable charging system Multiple operations: Grid tie, Off grid, and grid-tie with backup Built-in MPPT solar charger LCD display panel for comprehensive information Multiple communication Green substitution for generators User-adjustable battery charging current
Rs 105.000
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Karachi (Sindh)
Main Features 10KW three phase on-grid inverter with energy storage Self-consumption and Feed-in to the grid Programmable supply priority for PV, Battery or Grid User-adjustable charging current up to 200A Programmable multiple operations modes: Grid tie, Off grid, and grid-tie with backup Built-in Timer for various mode of on/off operation Multiple communication for USB, RS-232, Modbus and SNMP Monitoring software for real time status display and control
Rs 350
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Rawalpindi (Punjab)
SOLAR POWERED HOME SYSTEM KIT. Hybrid Off-Grid Inverter system is a set of battery charging and discharging control , PV mains switch control and inverter control in one multi-functional integrated system, mainly including PV array, grid, battery, hybrid off-grid inverter and the AC load, PV array absorption of solar radiation and translate into electrical energy to provide power for the entire system, utility power switchover and Inverting control function, also could converting DC power from battery to supply power for AC loads. System Priority mode is PV mode. PV controller and Grid charger achieves the intelligent battery-charging control. The inverter inverts the DC to AC for the load power supplying ;and automatic control the start-stop of Grid charger if needed.Try the best to use the solar energy and the continuous demand of electricity. It�s the preferred solution to solve the public grid or less developed areas residents daily e lectricity. System Includes: Hybrid Inverter including PV Charger,Grid Charger, Inverter and Controller, using a common DC Bus mode, as the output of Battery, PV Charger, Grid Charger and Inverter merge into DC Bus. Meanwhile, DC Bus is battery�s charging current path, and PV charging is priority than Grid charging.
Free
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Karachi (Sindh)
Main Features 12000 to 14000 watts Pv support 10KW three phase on-grid inverter with energy storage Self-consumption and Feed-in to the grid Programmable supply priority for PV, Battery or Grid User-adjustable charging current up to 200A Programmable multiple operations modes: Grid tie, Off grid, and grid-tie with backup Built-in Timer for various mode of on/off operation Multiple communication for USB, RS-232, Modbus and SNMP Monitoring software for real time status display and control
Rs 330.000
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Karachi (Sindh)
Main Features Voltronics Infini 3KW PLUS 60A 3KW on-grid inverter with energy storage Pure sine wave output Microprocessor controlled to guarantee stable charging system Multiple operations: Grid tie, Off grid, and grid-tie with backup Built-in MPPT solar charger LCD display panel for comprehensive information Multiple communication Green substitution for generators User-adjustable battery charging current
Rs 100
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Quetta (Balochistan)
Submersible Solar Pumping Systems Solar Water Pumps are best suitable to run systems for water pumping in irrigation in remote areas or where electricity has frequent outage. With the use of Solar reliable supply of water can be achieved over a long period to power tube wells with submersible and surface pumps. We can design Systems of any size and any type from a small pumping system for individuals up to a water supply for several villages - Off-Grid Solar PV systems are the best long term solution with the best cost-performance ratio for agriculture and clean drinking water with purification systems all powered by Solar PV. Due to our high-quality manufacturers of solar modules, electronics, solar pumps and installation materials, SE Solar Energy can offer you a solar power system that meets the highest quality requirements in the most rigorous environments. The solar systems can be designed to pump up to more than 500.000 litres per day at lower heads to smaller water quantities at higher heads up to 300 metres. The energy generated by the Solar System is used directly to pump the water, therefore batteries and charge controllers are not needed. Standard system consists of:: Solar modules Submersible Pump Pump Inverter Mainly used for: Water pumping Irrigation Advantages: Direct use of the power No energy storage necessary SE Solar Energy Offers you wide range of Solar AC Pumps and Systems, Our Solar Pumping Systems Range is as below: DN-3” Submersible solar pumping system from 5.5 HP To 50 HP DN-4” Submersible Solar Pumping System from 5.5 HP To 60 HP DN-5”, 6” 8” 10” available from 10 HP to 125 HP For further details please contact. Contact Us: Ali Ahmed Soherwardi Url: www.se-solarenergy.com Email: info@se-solarenergy.com Skype: se-solarenergy Viber/What’s app/ Wechat: +92-313-8875674
Rs 554
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Pakistan
Solar Tubewell – Solar AC Pumping System – Solar Water Pumps – Submersible Solar Pumping Systems. Solar Water Pumps are best suitable to run systems for water pumping in irrigation in remote areas or where electricity has frequent outage. With the use of Solar reliable supply of water can be achieved over a long period to power tube wells with submersible and surface pumps. We can design Systems of any size and any type from a small pumping system for individuals up to a water supply for several villages - Off-Grid Solar PV systems are the best long term solution with the best cost-performance ratio for agriculture and clean drinking water with purification systems all powered by Solar PV. Due to our high-quality manufacturers of solar modules, electronics, solar pumps and installation materials, SE Solar Energy can offer you a solar power system that meets the highest quality requirements in the most rigorous environments. The solar systems can be designed to pump up to more than 500.000 litres per day at lower heads to smaller water quantities at higher heads up to 300 metres. The energy generated by the Solar System is used directly to pump the water, therefore batteries and charge controllers are not needed. Standard system consists of:: Solar modules Submersible Pump Pump Inverter Mainly used for: Water pumping Irrigation Advantages: Direct use of the power No energy storage necessary SE Solar Energy Offers you wide range of Solar AC Pumps and Systems, Our Solar Pumping Systems Range is as below: DN-3” Submersible solar pumping system from 5.5 HP To 50 HP DN-4” Submersible Solar Pumping System from 5.5 HP To 60 HP DN-5”, 6” 8” 10” available from 10 HP to 125 HP For further details please contact. Contact Us: Ali Ahmed Soherwardi Url: www.se-solarenergy.com Email: info@se-solarenergy.com Skype: se-solarenergy Viber/What’s app/ Wechat: +92-313-8875674
Rs 55
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Hangu (Khyber Pakhtunkhwa)
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.
Rs 123
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Gujranwala (Punjab)
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/
Rs 123
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Swabi (Khyber Pakhtunkhwa)
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/
Rs 123
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Faisalabad (Punjab)
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/
Rs 123
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Rawalpindi (Punjab)
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/
Rs 123
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Faisalabad (Punjab)
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/
Rs 123
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