BYD New Energy Vehicles

Why Choose Us

Rich Experience

We have been engaged in the automotive industry for more than 20 years and have extensive industry experience.

Professional Team

We have professional technical and sales personnel to provide you with thoughtful pre-sales and after-sales service.

Quality Control

We have professional appraisers and technicians, and each car will be strictly inspected before delivery to ensure product quality.

Customized Service

We have established long-term relationships with professionally qualified companies to meet your customized requirements such as vehicle modifications.

What is BYD New Energy Vehicles

BYD New Energy Vehicles, sometimes called “battery electric vehicles” or BEVs, don't require a single drop of fossil fuels. Instead, an enormous battery pack powers every component. While electric cars don't produce any tailpipe emissions, they require charging. Level 1 charging requires a standard 110-volt outlet, and Level 2 requires a 220-volt outlet, but DC Fast Charge juices up the battery the fastest. Fully electric cars rely on battery packs to store electric power. As you operate the electric car, that charge decreases, similar to the battery cycle of a smartphone. In addition, these batteries must be charged optimally to extend their lifespan, although they still deteriorate over time. It's still unclear how long EV batteries can last as the technology remains in its infancy.

First 12 Last

Benefits of BYD New Energy Vehicles

Byd new energy vehicles are energy-efficient

Energy efficiency refers to the amount of energy from the fuel source that is converted into actual energy for powering the wheels of a vehicle. Aevs, like offerings from tesla are far more efficient than conventional gas-powered vehicles: Aev batteries convert 59 to 62 percent of energy into vehicle movement, while gas-powered cars only convert between 17 and 21 percent. This means charging an aev's battery puts more towards powering the vehicle than filling a gas tank.

Byd new energy vehicles reduce emissions

Emissions and carbon footprint reduction, including reduced fuel usage, is another pro for all-electric vehicles. Because they rely on a rechargeable battery, driving an electric car does not create any tailpipe emissions, a significant source of pollution in the united states. In addition, the rechargeable battery means much less money spent on fuel, meaning all energy can be sourced domestically (and often through renewable energy resources such as solar panel systems).

Byd new energy vehicles perform well and don't need much maintenance

All-electric vehicles are high-performance vehicles with quiet and smooth motors and require less maintenance than internal combustion engines, such as an oil change. The driving experience can also be fun because aev motors react quickly, making them responsive with good torque. Aevs are newer than their gas-powered counterparts and are often more digitally connected with charging stations, providing options such as controlling charging from an app.

Types of BYD New Energy Vehicles

1. Battery electric vehicles (BEVs)

BEVs are also known as plug-in or pure EVs. They use an electric motor and run solely on battery power, meaning they produce zero emissions from driving.BEVs can use a standard power outlet in your home to recharge or a public charging station. Fast charging outlets are also available from vehicle manufacturers and can also be installed by a qualified electrician in your home to charge your car faster.BEVs can also draw some charge with a regenerative braking system. That means the kinetic energy created from braking is converted into electrical power that can charge the car.

2. Hybrid electric vehicles (HEVs)

HEVs run on a combination of petrol or diesel and battery power. It combines a conventional internal combustion engine (ICE) with an electric motor. These cars do not plug in to recharge.Like BEVs, HEVs use a regenerative braking system to recharge the battery. While you still need to fill up with petrol, each tank will get you further than a comparable petrol car.

3. Plug-in hybrid electric vehicles (PHEVs)

Similar to HEVs, PHEVs are powered by a combination of petrol or diesel fuel and battery power. The key difference is that you can also recharge the battery using a standard power outlet in your home or public charging station. PHEVs can drive greater distances using just battery power. When the battery power drops, the petrol or diesel engine will be used.PHEVs also use the regenerative braking system to recharge the battery.

4. Hydrogen or fuel cell electric vehicles (FCEVs)

FCEVs convert fuel into energy through an electrochemical reaction with hydrogen and oxygen. This produces electricity which powers an electric motor.

Components of BYD New Energy Vehicles

Battery Pack
The battery pack, consisting of lithium-ion batteries, is the most important and expensive component of an EV, storing energy and giving power to the entire vehicle including the electric motor that allows the vehicle to move. While these batteries have come a long way, according to the U.S. Department of Energy, “research and development are ongoing to reduce their relatively high cost, extend their useful life, and address safety concerns in regard to overheating.” You can learn more details about EV batteries in this CarandDriver article.

Electric Motor(s)
BYD EVs use an electric motor (or two, depending on EV model or drive type), to drive the wheels, similar to the engine of an ICE vehicle. Electrical energy is transferred from the battery to the motor(s) and is then converted to mechanical energy. The number of motors and their placement determines whether the EV is front-wheel, rear-wheel, or all-wheel drive. Electric motors are far less complex than internal combustion engines and do not require maintenance, contrary to the latter.

Power Electronics
The power electronics in an BYD 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).

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.

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.

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.

What are the Main Components of BYD New Energy Vehicles Batteries?

Lithium
Lithium-ion batteries internally move lithium ions from one layer, known as the anode, to another, known as the cathode, to generate power. Lithium-ion batters are more convenient to use in electric vehicles because compared to lead-acid or nickel-metal hydride batteries, lithium-ion batteries offer higher energy densities, making it possible to reduce battery size while maintaining storage capacity.

Manganese
Safety is the main reason manganese is used in lithium-ion batteries. Because of its increased energy density properties and reputation for stability, manganese is known to increase capacity and improve driving range. Additionally, manganese reduces the combustibility of electric vehicle batteries, which is problematic with lithium-ion batteries that contain cobalt.

Cobalt
Cobalt helps extend the life of batteries, which manufacturers typically guarantee for eight to ten years, and it also guarantees that cathodes do not quickly overheat or catch fire.

Graphite
Graphite plays a critical role in the anode that stores lithium ions. Most commercially available lithium-ion batteries employ graphite due to its good cycle stability and energy density.

Steel
Steel provides the best balance of strength, mass reduction, performance, cost, and environmental impact. Steel is the preferred material for today's automobiles and will continue to be the preferred material for vehicles in the future.

Nickel
Electric vehicle batteries contain nickel, jet engine turbines employ nickel alloys, and passenger trains and subways use stainless steel that contains nickel. Materials containing nickel provide improved corrosion resistance as well as dependable and effective electrical and spark systems.

How to Choose BYD New Energy Vehicles

Identify your must-haves
In this regard, shopping for an EV is a lot like shopping for a gas-powered car: You need to find an electric car that's right for you. If you're using the car primarily for local commuting, your options range from affordable compact sedans to luxury trucks and SUVs. If performance is your priority, premium EVs can offer instant gratification and some of the quickest 0-60 times on the road. If you often travel long distances, look for an extended range battery-only EV. You may also want to consider the additional range flexibility that a plug-in hybrid or hybrid affords.

Find a dealer you trust
If you're shopping for your first EV, you'll probably have lots of questions. Look for a dealership that advertises their electric vehicle offerings and for a dealer who understands EVs and can guide you through the car's features with confidence. Be sure to ask them whether or not the car is eligible for the federal tax credit, which changed in 2023.Remember, you're the customer! If you're not clicking with the dealership or salesperson, visit another showroom or ask for a different representative. For those in the market for a pre-owned EV, consider finding a reputable online retailer like MYEV.com or Carvana.

Know your EV lingo

For a deeper dive into the different types of EVs, check out our post about the EV alphabet. In a nutshell, the biggest difference between a gas-fueled car and an electricity-fueled one is the powertrain.EVs are powered by an electric motor, and the energy that fuels the motor is stored in batteries. Battery-only electric vehicles (BEVs) have larger battery packs than plug-in hybrid electric vehicles (PHEVs) or hybrid electric vehicles. Unlike PHEVs and hybrids, BEVs produce no tailpipe emissions.

Check your charger

There are three ways to charge an EV: Level 1 (120-volt), Level 2 (240-volt) and DC fast charging. Charging connectors may vary by automotive manufacturer but most connect to Level 1, Level 2 and DC fast charging connectors.

Head out for a test drive

Still asking yourself, “Is an electric car right for me?” Well, if you've never gotten behind the wheel of an EV, shopping for a new car is the perfect opportunity. Make a list of your top contenders and have some fun figuring out which EV is right for you. Use our online tools to get started.

How Long Does It Take to Charge An Byd New Energy Vehicles?

Slow

Typically rated up to 3kw. Often used to charge overnight or at the workplace. Charging time: 8-10 hours.

Fast

Typically rated at either 7kw or 22kw. Tend to be installed in car parks, supermarkets, leisure centres and houses with off-street parking.
Charging time: 3-4 hours.

Rapid

Typically rated from 43 kw. Only compatible with evs that have rapid charging capability. Charging time: 30-60 minutes.

Consumer influence on the future of BYD New Energy Vehicles

Electric vehicle costs
Although the total cost of ownership for an electric car is lower than a gasoline car, the purchase price for an electric vehicle in 2021 was about $10,000 higher than average for all cars. Installing a home EV charger, replacing an electric car battery, and even insuring an EV can be expensive. Ultimately, electric vehicle adoption will increase when the cost of purchasing and maintaining EVs is on par with gasoline cars.

Driving habits
As more companies and workers embrace remote work, future driving habits and car purchases could be affected. People driving less may be less likely to replace an older vehicle and invest in an electric option.

Range anxiety
Range anxiety is the term coined for people concerned about whether an electric vehicle will run out of battery power and leave them stranded. This fear could lessen as more charging stations become available. Also, these fears will diminish as batteries become increasingly more powerful and people realize that they're often not driving enough to make range an issue. If the industry can address these challenges quickly and decisively, the electric vehicle adoption rate could grow faster than experts predict. Learn more about buying an electric car.

The Future Of Byd New Energy Vehicles Relies On Many Factors

01/

Fleet turnover
Fleet turnover refers to how quickly new vehicles replace the vehicles on the road. Because modern gas cars are more reliable and last longer than ever, it will take longer for future EVs to replace them. Other factors impacting fleet turnover include urban transportation planning and ride-sharing services.

02/

Auto manufacturer conversions
Automakers are working on converting their offerings to all-electric vehicles, but their timetables for conversion differ. Some have committed to ending gasoline car sales by 2035; others may take until 2045-2050 to get there unless required by law.

03/

Legislation
Many states have passed laws or had governors sign executive orders banning the sale of new gasoline passenger cars in their states by 2035. If this happens nationally, most passenger cars on the road by 2050 could be electric.

04/

Infrastructure
If more electric cars are on the road, we'll need the infrastructure to charge them. Legislators have passed laws to begin the work of installing chargers across the country, which will take many years to complete.

Our Factory

Shandong Firestone Auto Technology Co., Ltd. is a professional import and export trading company dedicated to providing customers with exceptional automotive products and services. With 20 years of experience in the automotive industry, Our company works closely with original manufacturers of major automotive brands to ensure price advantage and stable vehicle supply. Our company has been approved by the Ministry of Commerce China to become a used car import and export enterprise. By 2023, the total sales volume of new cars has exceeded 1,000, and the total sales volume of used cars has exceeded1,500.

FAQ

Q: What is the meaning of new energy vehicle?

A: A vehicle which is fuelled by an uncommon energy source, as compared to the vast marketplace of conventionally fuelled vehicles, as of the turn of the 21st century. (China, automotive) A plug-in electric vehicle, either a plug-in hybrid electric vehicle or an all-electric plug-in battery electric vehicle.

Q: What will replace electric cars?

A: While electric vehicles (EVs) are having a moment right now, there is an offshoot product looking to replace the battery-powered EV: hydrogen cars. Unlike traditional EVs, which draw electricity directly from a battery source, hydrogen cars mix hydrogen and oxygen into a fuel cell to produce electricity.

Q: What is Nev and Bev?

A: It's a term used by the Chinese government to refer to vehicles that attract public subsidies. Generally, that covers BEVs and PHEVs. However, confusingly, NEV can also stand for a Neighborhood Electric Vehicle. This term is used in the USA and covers BEVs with a top speed of about 25 mph.

Q: What is the trend for new energy vehicles?

A: Electric cars accounted for around 18% of all cars sold in 2023, up from 14% in 2022 and only 2% 5 years earlier, in 2018. These trends indicate that growth remains robust as electric car markets mature. Battery electric cars accounted for 70% of the electric car stock in 2023.

Q: What is the US New energy vehicle policy?

A: The Biden administration on Wednesday issued one of the most significant climate regulations in the nation's history, a rule designed to ensure that the majority of new passenger cars and light trucks sold in the United States are all-electric or hybrids by 2032.

Q: What is the new energy vehicle policy in China?

A: For NEVs purchased in 2024 and 2025, the tax exemption will not exceed ¥30,000 (about $4,170) per passenger vehicle. For NEVs purchased in 2026 and 2027, a vehicle purchase tax applies but at half the normal rate and the tax reduction for each NEV will not exceed ¥15,000.

Q: What are energy 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 a non-plug-in hybrid called?

A: A plug-in hybrid can must be charged from a charging point, whereas a self-charging hybrid is charged from the on-board traditional fuel engine. Mild hybrids don't require charging and are instead powered by a battery pack.

Q: Will electric cars be mandatory in the US?

A: President Biden's EPA is proposing a de facto mandate for two-thirds of all new vehicles to be electric by 2032. To stop the administration's rush-to-green agenda that is taking away people's vehicle choice and handing the keys to America's auto future to China, Rep. Tim Walberg (R-MI) and Rep.

Q: What is the 2035 rule?

A: As part of the Advanced Clean Cars II regulations, all new passenger cars, trucks, and SUVs sold in California will be zero-emission vehicles by 2035. In October 2023, staff launched a new effort to consider amendments to the Advanced Clean Cars II regulations.

Q: What is a new fuel cell vehicle?

A: FCEVs use a propulsion system similar to that of electric vehicles, where energy stored as hydrogen is converted to electricity by the fuel cell. Unlike conventional internal combustion engine vehicles, these vehicles produce no harmful tailpipe emissions.

Q: Will electric vehicles be the future?

A: EPA estimates that 56 percent of cars and light trucks will be fully electric by 2032 and 13 percent will be plug-in hybrids — which use a combination of batteries and gas. Other scenarios outlined by the agency show as few as 35 percent of sales being fully electric cars, along with 36 percent being plug-in hybrids.

Q: What is the meaning of new energy cars?

A: NEVs cover a wide range and can be divided into three main categories: hybrid electric vehicles (HEVs), fuel cell electric vehicles (FCEVs), and BEVs. Among them, the HEVs can be further subdivided into plug-in hybrid electric vehicles (PHEVs), range-extended electric vehicles (REEVs), and ordinary HEV.

Q: Is Tesla a PHEV or BEV?

A: BEV (Battery electric vehicle).These cars are powered by rechargeable battery packs, with no secondary source of power. These cars plug into an electricity source to recharge. Through AGL Electric Car Subscriptions we offer a range of BEV cars including Tesla, Nissan, Hyundai, Kia and MG.

Q: What is the most successful electric car?

A: Tesla Model Y
The Tesla Model Y was the world's most popular plug-in electric vehicle with worldwide unit sales of roughly 771,300 in 2022. That year, deliveries of Tesla's Model 3 and Model Y have surpassed 1.7 million.

Q: Should I charge my electric car every night?

A: The short answer to the question is no. In general, you should not charge your electric car every night. It isn't necessary in most cases. The practice of charging an electric vehicle every night may shorten the lifespan of the car's battery pack.

Q: Is the BYD car available in the USA?

A: China's BYD is the world's biggest electric car maker — but it's not coming to America anytime soon.

Q: Are BYD cars better than Tesla?

A: While Tesla excels in innovation, design, and global reach, BYD's strengths lie in its diverse product lineup, battery technology, and market dominance in China

Q: Where are BYD cars sold?

A: China
BYD was also the best-selling car brand in China in 2023, overtaking Volkswagen which held the title since the liberalisation of the Chinese automotive industry. The company also expanded sales of passenger cars into overseas markets since 2021, mainly in Europe, Southeast Asia, Oceania and Latin America.

Q: Why is BYD not sold in the US?

A: The company's CEO said at a conference in May that it has no plans to sell EVs in the U.S. BYD EVs aren't being sold in the U.S. now largely because of 27.5% tariffs on the sale price of Chinese vehicles when they arrive at ports.The BYD Atto 3 can be charged using all the major charging networks including some Tesla Superchargers and some select Tesla destination chargers.

As one of the leading byd new energy vehicles manufacturers and suppliers in China, we warmly welcome you to wholesale bulk byd new energy vehicles in stock here from our factory. All our products are with high quality and low price.

electric vehicle seats, ev accessories, electric vehicle electronics