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.
A Wide Variety of Electric Vehicles
Our electric vehicle product types are diverse, including BEV, HEV, HPEV, REEV.
Many Brands
We provide you with brands including TOYOTA, VOLKSWAGEN, GEELY, BYD, WULING, CHANGN, LIXIANG, XIAOMI, etc.
OEM & ODM Available
We are leading OEM and OES parts export service provider, we support many types of OEM services. If you have any related needs, please contact us.
Quick Response
Our commitment is to respond to your inquiries within 24 hours, ensuring that you receive the information and support you require in a timely manner.
What is IM Pure Electric Vehicle
IM Motors is an electric vehicle joint venture between Chinese automobile manufacturer SAIC Motor and Chinese technology companies Zhangjiang Hi-Tech and Alibaba Group. If you want to know the specifications and prices of IM Pure Electric Vehicle, please contact us!
Advantages of IM Pure Electric Vehicle
Costs
- Although energy costs for EVs are generally lower than for similar conventional vehicles, purchase prices can be significantly higher. Prices are likely to equalize with conventional vehicles, as production volumes increase and battery technologies continue to mature. Also, initial costs can be offset by fuel cost savings, federal tax credits, and state and utility incentives. The federal Clean Vehicle Tax Credits are available are available to consumers, fleets, businesses, and tax-exempt entities investing in new, used, and commercial clean vehicles-including all-electric vehicles, PHEVs, fuel cell EVs-and EV charging infrastructure. Some states and electric utilities also offer incentives, many of which can be found in the Laws and Incentives database. For more information on available incentives, connect with your local Clean Cities and Communities coalition.
- Use the Vehicle Cost Calculator to compare lifetime ownership costs of individual models of electric vehicles and conventional vehicles.
Fuel Economy
- 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. Miles per gallon of gasoline equivalent (MPGe) and kilowatt-hours (kWh) per 100 miles are common metrics. Depending on how they are driven, today's light-duty all-electric vehicles (or PHEVs in electric mode) can exceed 130 MPGe and can drive 100 miles consuming only 25–40 kWh.
- HEVs typically achieve better fuel economy and have lower fuel costs than similar conventional vehicles. Use the Find A Car tool on FuelEconomy.gov to compare fuel economy ratings of individual hybrid and conventional models.
- The fuel economy of medium- and heavy-duty all-electric vehicles and PHEVs is highly dependent on the load carried and the duty cycle, but in the right applications, all-electric vehicles maintain a strong fuel-to-cost advantage over their conventional counterparts.
Infrastructure Availability
- All-electric vehicles and PHEVs have the benefit of flexible charging because the electric grid is near most locations where people park. To safely deliver energy from the electric grid to a vehicle's battery, an EV charging station, sometimes referred to as electric vehicle supply equipment (EVSE), is needed. Drivers can charge overnight at a residence, including multifamily housing, as well as the workplace or a public charging station when available. PHEVs have added flexibility because they can also refuel with gasoline or diesel (or possibly other fuels in the future) when necessary.
- Public charging stations are not as ubiquitous as gas stations. Charging equipment manufacturers, automakers, utilities, Clean Cities and Communities coalitions, states, municipalities, and government agencies are rapidly establishing a national network of public charging stations.
Emissions
- Electric and hybrid vehicles can have significant emissions benefits over conventional vehicles. All-electric vehicles produce zero tailpipe emissions, and PHEVs produce no tailpipe emissions when operating in all-electric mode. HEV emissions benefits vary by vehicle model and type of hybrid power system.
- The life cycle emissions of an electric vehicle depend on the source of the electricity used to charge it, which varies by region. In geographic areas that use relatively low-polluting energy sources for electricity production, electric vehicles typically have a life cycle emissions advantage over similar conventional vehicles running on gasoline or diesel. In regions that depend heavily on conventional electricity generation, electric vehicles may not demonstrate a strong life cycle emissions benefit. Use the Electricity Sources and Emissions Tool to compare fuel-cycle emissions by vehicle type and state.
Batteries
The advanced batteries in electric vehicles are designed for extended life but will wear out eventually. Several manufacturers of electric vehicles are offering 8-year/100,000-mile battery warranties. Predictive modeling(PDF) by the National Renewable Energy Laboratory indicates that today's batteries may last 12 to 15 years in moderate climates (8 to 12 years in extreme climates). In addition to climate, other factors impacting battery life include driving and charging patterns, battery cell chemistry and design, and the vehicle-battery-environment thermal system.
How to purchase an EV
Personal Contract Purchase (PCP)
- PCP is a popular car financing method, allowing you to pay a relatively small deposit and make monthly payments throughout the contract. At the end of the term, you have the choice to return the car or pay the remaining balance in full to keep it.
- Personal Contract Purchase offers flexibility, because you can change your car every few years. You could upgrade to a newer EV with the latest technology and increased range, or get a car with more boot space or seats to better fit your needs.
- If you plan to keep your EV for a long time, PCP may not be the cheapest road to ownership. Throughout the contract term, you'll have a set annual mileage limit, and any mileage accrued outside this limit will be charged at a per mile rate.
Hire purchase (HP)
- Hire purchase is more akin to a standard loan you might take out with a bank. Set over a number of years, you're charged interest while you pay down the loan balance until it hits zero. Once the loan is fully paid, you own your EV.
- The benefit of HP is that it comes without mileage limits and gives you full ownership at the end of the contract term.
- One downside to HPs is that they tie you to one EV, meaning you can't easily return and upgrade to benefit from new technology or better battery range. Instead, you'd have to sell your EV to get money for a new car.
Leasing
- Think of leasing like renting. You pay a deposit and make monthly payments for a few years. At the end of the term, you return the vehicle and have the opportunity to switch to another EV.
- This gives you the advantage of staying on top of the newest innovation in the electric vehicle industry, as you can change your EV at the end of the term. Leasing contracts sometimes have the option to include maintenance and servicing for an additional fee.
- Still, if you expect to rack up a high annual mileage or own your EV for a long time, leasing is more expensive than other financing options.
Buying Outright
- Buying your EV outright means you pay for the full list price upfront, without financing. You'll own the car instantly with just one payment.
- Purchasing outright avoids any extra cost incurred by interest fees, so you pay less than you would using a loan.
- The main drawback is that you'll need a substantial amount of money for an outright purchase.
Salary Sacrifice
- Your employer leases an EV for you and deducts the monthly cost from your pre-tax pay, resulting in tax savings.
- Salary sacrifice can be cheaper than leasing and often includes a service and maintenance package in your monthly deduction.
- Similar to leasing, you have the benefits of swapping your car to a newer model every few years. However, if you leave your job, you may not be able to keep your EV.
- Learn more about different purchasing options in our EV leasing vs buying guide.
Traction Battery Pack
Traction battery pack is also known as Electric vehicle battery (EVB). It powers the electric motors of an electric vehicle. The battery acts as an electrical storage system. It stores energy in the form DC current. The range will be higher with increasing kW of the battery. The life and operation of the battery depends on its design. The lifetime of a traction battery pack is estimated to be 200,000 miles.
DC-DC Converter
The traction battery pack delivers a constant voltage. But different components of electric vehicle has different requirements. The DC-DC convertor distributes the output power that is coming from the battery to a required level. It also provides the voltage required to charge the auxiliary battery.
Electric motor
Electric traction motor is the main components of electric vehicles. The motor converts the electrical energy into kinetic energy. This energy rotates the wheels. Electric motor is the main components of electric vehicle that differentiates an electric car from conventional cars. An important feature of an electric motor is the regenerative braking mechanism. This mechanism slows down the vehicle by converting its kinetic energy into another form, and storing it for future use. There are basically two types of motors DC and AC motors.
Power Inverter
It coverts DC power from the batteries to AC power. It also converts the AC current generated during regenerative braking into DC current. This is further used to recharge the batteries. The inverter can change the speed of the.
Charge Port
The charge port connects the electric vehicle to an external supply. It charges the battery pack. The charge port is sometimes located in the front or rear part of electric vehicle components.
Onboard Charger
Onboard charger is used to convert the AC supply received from the charge port to DC supply. The on-board charger is located and installed inside the car. It monitors various battery characteristics and controls the current flowing inside the battery pack.
Controller
Power electronics controller determines the working of an electric car. It performs the regulation of electrical energy from the batteries to the electric motors. The pedal set by the driver determines the speed of the car and frequency of variation of voltage that is input to the motor. It also controls the torque produced.
Auxiliary Batteries
Auxiliary batteries are the source of electrical energy for the accessories in electric vehicles. In the absence of the main battery, the auxiliary batteries will continue to charge the car. It prevents the voltage drop, produced during engine start from affecting the electrical system.
Thermal System(cooling)
The thermal management system is responsible for maintaining an operating temperature for the main components of electric vehicle (EV) such as, electric motor, controller etc. It functions during charging as well to obtain maximum performance. It uses a combination of thermoelectric cooling, forced air cooling, and liquid cooling.
Transmission
The gearbox transfers the mechanical power from the electric motor to the wheels. The advantage of electric cars is that they do not require multi-speed transmissions. The transmission efficiency should be high to avoid power loss.
How to Wash Your EV the Right Way
Understanding the Structure of an Electric Car
Before diving into the specifics of washing your electric vehicle (EV), it's essential to grasp a basic understanding of its structure. EVs, like their petrol counterparts, consist of various components, but some unique parts set them apart.
Main Components in an EV
The core components of an EV include the electric motor, the battery pack, the onboard charger, the inverter, and the charging port. Each of these parts plays a crucial role in the functioning of the vehicle, with the battery being the powerhouse that supplies energy to the motor.
Role and Vulnerability of the Battery
The battery in an EV is more than just a component; it's the heart of the vehicle. It is designed to be robust and resistant to regular environmental factors. However, it's natural for EV owners to worry about the battery's vulnerability to water, given it's an electrical device.
Common Fears Related to Water Damage
A common fear among EV owners is the potential for water damage, particularly during washing or driving in heavy rain. These fears are generally rooted in the concern that water may seep into sensitive areas, causing electrical shorts or, worst-case scenario, damaging the batteries.
Is Washing an EV Different from a Regular Car?
If you've ever washed a petrol car, you might wonder how different it could be to clean an electric vehicle. After all, at a glance, they look pretty much the same from the outside. Let's dive into the similarities and differences, dispel a few myths, and address some common concerns related to washing EVs.
Comparing EV Washing to Traditional Car Washing
In most respects, washing an EV is similar to washing a car with an internal combustion engine. The goal is to clean the bodywork, windows, tyres, and, on the inside, the seats and dashboard. However, an EV does not have an exhaust pipe, and there's no oil or fuel residue to worry about.
Certificate









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