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Founded in 2014 and headquartered in Shanghai city, Shanghai Yuecheng Automobile Sales Co.,limited is currently engaged in real estate, automobile, industrial manufacturing and construction, with more than 20 subsidiaries as of the end of 2023.
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What is Pure Electric Vehicle

 

 

A battery electric vehicle (BEV), pure electric vehicle, only-electric vehicle, fully electric vehicle or all-electric vehicle is a type of electric vehicle (EV) that exclusively uses chemical energy stored in rechargeable battery packs, with no secondary source of propulsion (a hydrogen fuel cell, internal combustion engine, etc.). BEVs use electric motors and motor controllers instead of internal combustion engines (ICEs) for propulsion. They derive all power from battery packs and thus have no internal combustion engine, fuel cell, or fuel tank. If you want to know the specifications and prices of Pure Electric Vehicle, please contact us!

 

Advantages of Pure Electric Vehicle

Cost-Saving
The main advantage of electric cars is cost saving. The average cost of electricity to charge your car is much lower than filling it up with petrol or diesel. The rise in fuel over the last year made the option of an electric car more enticing. Electric cars require less maintenance than traditional cars, which will save you a lot of money in the future. They will have fewer issues as they have fewer moving parts.

 

Environmental Benefits
Another advantage of electric cars is the environmental benefit. Many people are trying to reduce their carbon footprint and go green, so purchasing an electric car is top of their list. Electric cars emit no emissions, unlike traditional cars. Essentially this means they produce no pollution or greenhouse gases. They are much more sustainable and environmentally friendly than traditional cars.

 

Performance
Performance is another advantage of electric cars. They can accelerate quickly and smoothly due to instant torque. Also, they have regenerative braking, energy captured when the car brakes and is used to recharge the electric car's battery. It helps improve the performance and efficiency of the electric vehicle.

 

Longer Battery Life
During the early days of electric cars, people were worried that the battery life of the cars were not sustainable. They felt the battery life was poor, so they couldn't travel far. There have been incredible advantages in technology which has now made this issue a thing of the past. Battery life is much longer, and most new electric vehicles will offer a battery warranty to give you peace of mind.

 

Quiet
Electric cars produce very little noise, making them ideal for driving in urban areas or for people who live near others. Some electric cars produce noise when reversing as required by law so people can hear a car close to them. There will be a lot less noise pollution in the future when everyone switches over to electric cars.

 

Better for the climate

  • In the manufacturing process, electric vehicles will produce more global warming emissions than the average gasoline vehicle, because electric cars' large lithium-ion batteries require a lot of materials and energy to build. (For example, manufacturing a mid-sized electric car with an 84-mile range, results in 15% more emissions.)
  • However, once the vehicles get on the road, it's a whole different energy story.
  • Electric vehicles make up for their higher manufacturing emissions within, at most, 18 months of driving - and continue to outperform gasoline cars until the end of their lives.
 

Easy to Charge

  • One advantage of electric vehicles is that many can be recharged wherever they make their home, whether that's your home or a bus terminal. This makes electric vehicles a good solution for truck and bus fleets that return regularly to a central depot or yard.
  • As more electric vehicles hit the market and are used more broadly, new recharging solutions - including adding more public charging locations in shopping centers, parking garages, and workplaces - will be required for people and businesses without the same access at home.
 

Incentives
In an effort to encourage the adoption of EVs, many incentives such as salary sacrifice, zero road tax fees, and local parking benefits. These incentives can significantly reduce the cost of purchasing and operating an EV, making them an even more attractive option.

 

Fewer Moving Parts
EVs have fewer parts than petrol or diesel powered vehicles, which means they have fewer things that can go wrong and require maintenance. This can lead to lower maintenance costs and a longer lifespan for the vehicle.

 

 

Component of Pure Electric Vehicle
1

Power Electronics

  • The power electronics in an EV are composed of inverters, converters, controllers, and the onboard charger. These components contribute to the flow of electricity throughout the vehicle, primarily from the battery to the electric motor, as well as other powered components of the vehicle, such as the heating and ventilation system, lighting, infotainment, etc.
  • More specifically, power electronics are responsible for converting direct current to alternating current (DC to AC inverter) or the inverse (AC to DC converting), as well as DC/DC converters which either increase battery voltage (boost) or decrease battery voltage (buck).
2

Traction Battery Pack

  • The traction battery pack is the backbone of an electric vehicle (EV) that stores and supplies the electrical energy required to power the electric motor. It is a rechargeable battery made up of numerous smaller battery cells linked together electrically.
  • The battery pack's configuration depends on the overall power and voltage requirements of the electric motor, with the most common type of battery cell used in EVs being lithium-ion (Li-ion) batteries due to their high energy density and efficiency. The capacity of the traction battery pack directly affects the driving range of an EV and its ability to deliver power influences its performance.
3

Electric Motor

  • An electric motor is one of the main components that powers an electric vehicle (EV). It converts the electrical energy stored in the car's battery into mechanical energy, which propels the vehicle forward. Unlike gasoline engines that burn fuel to produce power, an electric motor uses electricity to create rotational force. The force generated is then transferred to the wheels of the vehicle through a transmission system, which drives the car forward.
  • One of the significant advantages of an electric motor is its ability to deliver high torque almost instantly. This means that electric vehicles can provide smooth, powerful, and quick acceleration from a standstill, which is a hallmark of the EV driving experience.
4

Power Inverter

  • The power inverter acts as an electronic translator that efficiently converts the DC electricity from the battery pack into AC electricity with the appropriate voltage and frequency for the electric motor. It receives the DC electricity from the battery pack and uses special electronic switches called transistors to rapidly switch the DC voltage on and off. This creates a series of pulses that, when averaged out, resemble an AC waveform.
  • Moreover, the power inverter controls the switching frequency and pattern to precisely regulate the output AC voltage and frequency. This ensures that the AC power delivered to the motor matches its specific requirements for optimal performance.
5

Charging System
The charging system is made up of the charging port where the cable is plugged in, the charging cable, and the onboard charger that converts AC power from the electrical grid into DC energy which is then sent to and stored in the battery. DC fast charging means AC power is converted to DC outside of the vehicle and sent directly to the EV battery, bypassing the onboard charger. Learn more about EV charging in our previous article of the series.

6

Thermal Management System
The thermal management system, comprising radiators, fans, and coolant pumps, is a crucial component of EVs. This system helps regulate the temperature of the battery pack, electric motor, and power electronics to ensure they are operating at an optimal temperature for the best performance as well as increasing longevity. Without a thermal management system, these components would be susceptible to damage through overheating or excessive cooler conditions. Not only does the regulation of temperature protect the vehicle's most valuable parts, but it also helps maximize efficiency and range by minimizing energy loss. While ICE vehicles may not be as greatly impacted by extreme weather conditions, performance, and fuel efficiency can still be reduced.

7

Regenerative Braking System

  • You may already be familiar with regenerative braking as one of the key functionalities of a hybrid vehicle. This system converts the kinetic energy generated during braking into electrical energy that is stored in the battery, which in turn reduces the amount of energy required from the battery.
  • Unlike traditional ICE vehicles, the regenerative braking systems store energy back into the battery that would otherwise have been lost. These systems also help reduce wear on the brakes by leveraging the electric motor to slow down the vehicle when activated, such as driving down a hill or approaching a stop sign.
8

Vehicle Control Unit (VCU)

  • The Vehicle Control Unit (VCU) is a central computer system in an electric vehicle (EV) that acts as the brain and command center. It is responsible for monitoring, controlling, and coordinating the operation of various critical electric vehicle components. It closely monitors the battery pack, tracking factors like voltage, current, temperature, and state of charge. This ensures the battery operates within safe parameters and communicates this information to the driver through the instrument cluster.
  • The VCU also interacts with various safety systems in the EV, including traction control, anti-lock braking system (ABS), and airbag deployment. By monitoring vehicle dynamics and sensor data, the VCU can intervene and activate safety features if necessary.

 

Important Factors to Know When Buying an Electric Car

 

Driving Range

  • The driving range is an important consideration for electric vehicle selection. Instead of relying solely on the manufacturer-specified driving range, consider reviews to better understand the actual driving distance the EV can cover.
  • This pragmatic approach is essential for informed considerations in electric vehicle selection, as it provides a more accurate depiction of the car's capabilities on the road.


Tax Benefits
The government helps lower electric vehicle costs with incentives and tax breaks. Verify the tax benefits to know how much you will save when buying an eco-friendly car. These government efforts make electric cars more affordable and encourage people to choose greener transportation, which is good for the environment.


Battery

  • The most expensive part of an electric car is the battery. So, when looking for an electric car, get more details about the battery range and specifications. Find the cost of replacing the battery and how long it will last.
  • It is better to research electric cars with batteries that meet your needs and preferences. The battery pack usually comes with a warranty from the manufacturer that covers the time or driving distance. So, always pay attention to the battery pack's warranty period.


Charging Options
There are different charging options for EVs, including standard charging, slow charging, and fast charging. You can find most of the fast chargers in public places, which are expensive to install. To install chargers in the home, standard and slow charging is feasible. So, do look for the various charging options before buying an EV.


Hardware and Software
Electric vehicles come with many software and hardware components. The important part of using it is that it has to be updated frequently. Some manufacturers offer the updates for free, and others charge a little amount, so be aware of the important software and hardware and its updates.


Maintenance Cost

  • When choosing an electric vehicle (EV), one important consideration for electric vehicle selection is the maintenance cost. Just like any car, if you don't take care of an EV, its performance can be affected. Electric cars usually need less maintenance due to fewer moving parts, but if they do break down, repairs can be costly.
  • The spare parts for EVs are more costly compared to traditional ICE cars, and finding mechanics skilled in repairing them can be a challenge. So, when considering which electric vehicle to choose, remember that maintenance costs play a significant role in the overall decision-making process. But with an increase in popularity of EV cars over the years, the availability of skilled mechanics will get increased, hence you can witness a significant reduction in maintenance cost.


Usability

  • When evaluating an electric car's practical usability, it is essential to align it with your specific needs. Consider the distance you usually cover daily and know your regular driving range. If you are living in a metro city, then it would be the right choice to buy an electric car to commute to nearby places.
  • The convenience of emission-free urban travel makes it an apt choice. However, the practicality of the decision can differ for others based on their unique requirements and driving patterns.


Electric or Hybrid

  • Choosing between electric and hybrid cars depends on your environmental concerns and driving needs. Electric cars are an ideal choice for environmentally conscious buyers as they reduce carbon footprint. They offer a fully electric driving experience but may require charging infrastructure.
  • On the other hand, hybrid cars present a greener alternative to traditional ICE vehicles. They combine an electric motor with an ICE engine for improved efficiency. But opting for an electric car not only minimizes direct emissions but is also sustainable in the long run.


Insuring an Electric Car
The insurance cost of electric cars is higher than that of ICE cars. That doesn't mean that they are less safe and prone to accidents than other cars. The increased insurance premium is mainly because electric cars have higher price tags than regular cars. Also, the cost of repair is much higher for electric cars. This might see a significant dip in coming years as lots of EV infrastructure is building across the country and the price of EV cars is expected to get lower in years to come.

 

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Frequently Asked Questions

Q: What is an electric vehicle in simple words?

A: An EV is defined as a vehicle that can be powered by an electric motor that draws electricity from a battery and is capable of being charged from an external source.

Q: What is the meaning of all-electric vehicle?

A: An all-electric vehicle, also known as an EV, runs on 100% battery power and charges from an electric charging point. That means zero fuel, zero emissions whilst driving and range up to 293-372 † miles.

Q: How do you explain electric cars?

A: Electric cars function by plugging into a charge point and taking electricity from the grid. They store the electricity in rechargeable batteries that power an electric motor, which turns the wheels. Electric cars accelerate faster than vehicles with traditional fuel engines – so they feel lighter to drive.

Q: Why is the electric vehicle?

A: Given below are the advantages of Electric Vehicles: Reduce Greenhouse Gas Emissions. Reduce Air Pollution and health issues caused by it. Reduce dependence on petroleum.

Q: Are electric cars automatic?

A: Are Electric Cars Automatic or Manual? The majority of electric cars are automatic, as they do not need a clutch or gears to power the vehicle. In fact, most electric cars are single-speed and deliver constant and instant power. You will find just two pedals in an electric car: the accelerator and brake.

Q: What is the description of electric vehicle?

A: An electric vehicle (EV) is a vehicle that uses one or more electric motors for propulsion. The vehicle can be powered by a collector system, with electricity from extravehicular sources, or can be powered autonomously by a battery or by converting fuel to electricity using a generator or fuel cells.

Q: How do electric vehicles work?

A: Here's a basic rundown of how electric cars work: EVs receive energy from a charging station and store the energy in its battery. The battery gives power to the motor which moves the wheels. Many electrical parts work together in the background to make this motion happen.

Q: Are all electric cars fast?

A: Although standard EVs can beat any conventional car at a dead stop, they're not necessarily "faster” or more powerful than a conventional car. In fact, some electric cars have lower top speeds than similar conventional cars.

Q: What is EV technology?

A: EV (electric vehicle) technology refers to the technological advancements used in the production and development of electric vehicles.

Q: What are electric cars called?

A: All-electric vehicles-also referred to as battery electric vehicles (BEVs)-plug-in hybrid electric vehicles (PHEVs), and hybrid electric vehicles (HEVs) all use electricity to improve vehicle efficiency.

Q: What is the good point of electric car?

A: In full electric mode, an electric car produces zero tailpipe emissions, dramatically lowering smog and greenhouse gas emissions even when considering electricity generation. Cleaner cars mean cleaner air and better health.

Q: Are electric vehicles effective?

A: Electric vehicles can reduce fuel costs dramatically because of the high efficiency of electric-drive components. Because all-electric vehicles and PHEVs rely in whole or part on electric power, their fuel economy is measured differently than that of conventional vehicles.

Q: What is a fully electric vehicle?

A: All-electric vehicles (commonly referred to as EVs or BEVs) don't use gasoline, and instead have a large battery that powers one or more electric motors. Currently, all-electric vehicles have a driving range of 80 to more than 300 miles, with ranges increasing as new models are introduced.

Q: How long will an electric car drive?

A: All-electric vehicles, also referred to as battery electric vehicles (BEVs), run entirely on an electric charge from a rechargeable battery, with no other fuel source needed. Average driving range is 250 – 500 miles.

Q: Are all electric cars automatic drive?

A: While it's a common belief that all electric cars are automatic, there are exceptions, and some electric vehicles (EVs) come with a manual transmission, as mentioned earlier. This might seem counterintuitive, given that electric cars lack traditional components like an engine, drive shaft, and gears.

Q: Do electric cars use oil?

A: The short answer is no. Electric cars do not need motor oil as they don't have the conventional internal combustion engine with all the moving parts. Plug-in hybrids (and hybrids) still require traditional maintenance as they still employ an ICE in combination with an electric motor to increase efficiency.

We're professional pure electric vehicle manufacturers and suppliers in China, specialized in providing high quality products and service. If you're going to buy discount pure electric vehicle, welcome to get quotation from our factory.

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