Remove the dead battery from the electric vehicle and exchange it for a fully charged battery from the battery swapping station. This procedure is known as battery swapping. By doing this, you can reduce how long it takes to recharge a 2/3-wheeler electric vehicle compared to using more conventional charging techniques.
Why is the battery swap station the best way to charge a dead battery, because the battery swapping technology can not only reduce the waiting time for charging, improve charging efficiency, but also provide security for the battery, focus on maintaining the health of the battery, so that users can efficiently use high-performance batteries, and reduce the occurrence of charging accidents.
This article will start from the details of battery swapping technology to analyze how battery swapping work and how this battery swap mode is formed, so that everyone can have a further understanding of battery swapping.
Table of Contents
Components of the battery swap station and its function
Before we understand how battery swapping work, let’s take a look at the four main components of the entire battery swapping station.
Batteries:
Swappable batteries in battery swap station generally use lithium batteries. They are charged in the cabinet. After being fully charged, users will take out the batteries for use, and then put the dead batteries into swap station for charging.
Swappable battery has a positioning system and needs to have a communication protocol with battery swap station, so you can know the charging status of the battery and whether the battery is stable and normal from the background system.
APP & Platform:
APP is the main tool for users to use the battery swapping service. Users verify their real name on the APP, pay a deposit, log in to the account, choose the package and pay the fee, and then they can easily scan the code to swap the battery.
Platform is an important tool for operators to operate, and platform plays a very important role in battery swapping mode. The operator can see the use status of the battery and the health status of the battery, the user’s use information on the platform, and the most important thing is that it can remotely control the changing station, set the parameters of the changing cabinet, and analyze the operation data.
Vehicles:
Battery swapping mode is managed in a “vehicle and battery separation” way, so the electric 2/3-wheeler is designed to take out the battery in the car to charge. It is usually a model that is compatible with the swappable battery. If you use a hard-linked battery swap cabinet, there are relatively few models that can match.
Cabinet:
The cabinet contains various components such as cooling fan, main controller, circuit board, LCD screen and so on. The cabinet is mainly to provide charging and storage of batteries, the material of the cabinet needs to be hard and durable, because there will be many users battery swapping every day, especially in the outdoor, it is impossible to predict what the weather will encounter, the most basic need waterproof, lightning, compressive and shockproof function.
How does battery swapping work?
How battery swapping work? The whole process is simply to put in the dead battery, and then take out the fully charged battery. When the user connects the battery to the battery swap station for charging, the system automatic identification of batteries and feeds the battery information to the back-end, and the background system can locate and monitor the battery condition in real time.
The charging system of power swap station can even dynamically distribute power charging. Battery swap station can store and charge 5-12 or even more batteries at the same time, mainly depending on the size and design of the cabinet. Battery swapping technology allows exhausted batteries to be quickly replaced with fully charged ones in electric vehicles.
Important characteristics:
Vehicle compatibility: 2/3-wheeler electric vehicle designs that are battery swappable, and has a communication protocol with the battery.
Station infrastructure: Safe locking devices, robotics (if automated), and cabinet, cameras, canopy, etc.
Authentication and interaction: Safe communication between the batteries and the station as well as user authentication.
Real-time monitoring: Constant safety parameter monitoring, including battery health.
Safe charging and swapping: The intelligent charging system adjusts according to the charging progress of the battery and the charging system will automatically stop charging when the battery is fully charged.
Transaction completion and notification: Users are informed when a transaction is successfully completed, and transaction logs are kept for billing purposes. This is how battery swapping work and for electric automobile owners experiencing range anxiety, battery swap technology provides a rapid and effective solution that reduces charging time.
How battery swapping work for two-wheelers?
Two-wheeler battery swapping is intended to be a simple and rapid operation that offers an effective substitute for conventional charging techniques, particularly for Take-out and Express.
Front-end: How riders swap battery
Riders set up their two wheeler electric bike on the assigned stand and begin the battery swapping. Usually, the user scans the code to register and log in, and then pays the deposit. The battery swap station automatically opens the door of the space sub, and then puts the dead battery inside and plugs in the charging interface. After closing the door, the cabinet door of the fully charged battery will automatically open, and the user can take it out and close the door.
Back-end: How do I monitor the system
The station’s backend system keeps an eye on the battery swapping procedure to guarantee a secure and effective swap. It might involve communication with the car, security checks, and real-time diagnostics.
You can also see the number of batteries, charging status, trading information and revenue information. More details of how battery swapping work and the background system can be found in the following video.
Car battery swap station vs motorcycle battery swap station
Level of automation:
Car battery swap station: For a smooth swapping process, automated robotic systems are typically used by car battery swap centres.
Motorcycle battery swap: Changing a motorcycle’s battery may require the rider to take certain manual tasks.
Complexity of mechanics:
Car battery swap: Because car batteries are heavier and bigger than other battery types, car battery swap stations are sometimes more intricate mechanically.
Motorcycle battery swap: Because motorcycle batteries are smaller and easier to handle, motorcycle battery swap stations could feature simpler procedures.
Managing capacity:
Car battery swap: To meet the power needs of electric vehicles, car stations are built to accommodate bigger batteries.
Motorcycle battery swap: Motorcycle Swap stations manage smaller batteries appropriate for electric bikes’ power requirements.
Infrastructure and space:
Car battery swap: Car battery swap facilities need additional infrastructure and space to handle bigger automobiles.
Motorcycle battery swap: Because two-wheeled vehicles have limited space, motorcycle stations can be smaller.
Operational speed:
Car battery swap: The procedure may be completed fast, frequently in 5-10 minutes, using automated equipment in parking lots.
Motorbike battery swap: Motorcycle batteries are light and small, especially smart lithium battery, and the process of manual replacement by users is actually faster than that of car battery swap, which can be completed in about one minute.
Battery swapping for cars is commonly accomplished by automated robotic equipment; however, motorbike battery replacements may need the rider to undertake manual processes. The swapping process’s magnitude, intricacy, and degree of automation vary.
How to make electric vehicle battery swapping work in your country
If you want to see how to make battery swapping work in your country, consider these factors. The intensity of local demand for electricity replacement, development of infrastructure, two and three wheeler market size and policy subsidies, and regulatory backing are necessary for the successful implementation of battery swapping. Important considerations include compatibility and handling safety issues.
as well as relevant profit mathematical models. Provide case studies and plans to customize power replacement projects according to your country and local market needs.
Choose places for battery swapping stations that will be convenient for 2/3-wheeler users. Strive to achieve interface and battery module standardization to guarantee interoperability between various 2/3-wheeler models.
Explain battery swap model and related technical knowledge to customers to inform customers of the benefits of integrating cutting-edge technologies for rapid and effective battery swapping.
Explore alternate ownership arrangements, such as leasing or subscription services, to match the specific habits and incomes of local users.
FAQs
Why aren't electric vehicle batteries swappable?
The traditional electric vehicle is integrated with the battery, and the user can not easily remove the battery for replacement. If you want to use the battery swap station, you need to buy a model with exchangeable batteries. Standardization, infrastructure, and manufacturer support are necessary for swappability.
How does Nio battery swap work?
NIO battery swap is a leader in the electric vehicle swap industry. The automated stations in the battery swap system replace the complete battery pack with a fully charged one.
What are the specifications of the battery swap station?
The specifications of battery swap station are basically divided according to the number of battery warehouses. For example, the size of Tycorun power swap station is divided into 5 slots, 8 slots, 9 slot and 12 slot. Customers can choose according to the size and needs of the venue.
Can I swap my own car battery?
Most battery swap stations are not made for single users, You can buy a small battery swap cabinet for home use. The procedure calls for certain tools and safety precautions, and doing it unprepared can be dangerous. It is advised that battery replacements be handled by experts.
Lucky
Hi, I am Lucky, graduated from a well-known university in China, now mainly engaged in article editing on lithium motorcycle batteries, and the battery swapping station, I am committed to offering services and solutions about battery swap station for various industries.
Explore and analyze how battery swapping work
Remove the dead battery from the electric vehicle and exchange it for a fully charged battery from the battery swapping station. This procedure is known as battery swapping. By doing this, you can reduce how long it takes to recharge a 2/3-wheeler electric vehicle compared to using more conventional charging techniques.
Why is the battery swap station the best way to charge a dead battery, because the battery swapping technology can not only reduce the waiting time for charging, improve charging efficiency, but also provide security for the battery, focus on maintaining the health of the battery, so that users can efficiently use high-performance batteries, and reduce the occurrence of charging accidents.
This article will start from the details of battery swapping technology to analyze how battery swapping work and how this battery swap mode is formed, so that everyone can have a further understanding of battery swapping.
Components of the battery swap station and its function
Before we understand how battery swapping work, let’s take a look at the four main components of the entire battery swapping station.
Swappable batteries in battery swap station generally use lithium batteries. They are charged in the cabinet. After being fully charged, users will take out the batteries for use, and then put the dead batteries into swap station for charging.
Swappable battery has a positioning system and needs to have a communication protocol with battery swap station, so you can know the charging status of the battery and whether the battery is stable and normal from the background system.
APP is the main tool for users to use the battery swapping service. Users verify their real name on the APP, pay a deposit, log in to the account, choose the package and pay the fee, and then they can easily scan the code to swap the battery.
Platform is an important tool for operators to operate, and platform plays a very important role in battery swapping mode. The operator can see the use status of the battery and the health status of the battery, the user’s use information on the platform, and the most important thing is that it can remotely control the changing station, set the parameters of the changing cabinet, and analyze the operation data.
Battery swapping mode is managed in a “vehicle and battery separation” way, so the electric 2/3-wheeler is designed to take out the battery in the car to charge. It is usually a model that is compatible with the swappable battery. If you use a hard-linked battery swap cabinet, there are relatively few models that can match.
The cabinet contains various components such as cooling fan, main controller, circuit board, LCD screen and so on. The cabinet is mainly to provide charging and storage of batteries, the material of the cabinet needs to be hard and durable, because there will be many users battery swapping every day, especially in the outdoor, it is impossible to predict what the weather will encounter, the most basic need waterproof, lightning, compressive and shockproof function.
How does battery swapping work?
How battery swapping work? The whole process is simply to put in the dead battery, and then take out the fully charged battery. When the user connects the battery to the battery swap station for charging, the system automatic identification of batteries and feeds the battery information to the back-end, and the background system can locate and monitor the battery condition in real time.
The charging system of power swap station can even dynamically distribute power charging. Battery swap station can store and charge 5-12 or even more batteries at the same time, mainly depending on the size and design of the cabinet. Battery swapping technology allows exhausted batteries to be quickly replaced with fully charged ones in electric vehicles.
Important characteristics:
How battery swapping work for two-wheelers?
Two-wheeler battery swapping is intended to be a simple and rapid operation that offers an effective substitute for conventional charging techniques, particularly for Take-out and Express.
Front-end: How riders swap battery
Riders set up their two wheeler electric bike on the assigned stand and begin the battery swapping. Usually, the user scans the code to register and log in, and then pays the deposit. The battery swap station automatically opens the door of the space sub, and then puts the dead battery inside and plugs in the charging interface. After closing the door, the cabinet door of the fully charged battery will automatically open, and the user can take it out and close the door.
Back-end: How do I monitor the system
The station’s backend system keeps an eye on the battery swapping procedure to guarantee a secure and effective swap. It might involve communication with the car, security checks, and real-time diagnostics.
You can also see the number of batteries, charging status, trading information and revenue information. More details of how battery swapping work and the background system can be found in the following video.
Car battery swap station vs motorcycle battery swap station
Car battery swap station: For a smooth swapping process, automated robotic systems are typically used by car battery swap centres.
Motorcycle battery swap: Changing a motorcycle’s battery may require the rider to take certain manual tasks.
Car battery swap: Because car batteries are heavier and bigger than other battery types, car battery swap stations are sometimes more intricate mechanically.
Motorcycle battery swap: Because motorcycle batteries are smaller and easier to handle, motorcycle battery swap stations could feature simpler procedures.
Car battery swap: To meet the power needs of electric vehicles, car stations are built to accommodate bigger batteries.
Motorcycle battery swap: Motorcycle Swap stations manage smaller batteries appropriate for electric bikes’ power requirements.
Car battery swap: Car battery swap facilities need additional infrastructure and space to handle bigger automobiles.
Motorcycle battery swap: Because two-wheeled vehicles have limited space, motorcycle stations can be smaller.
Car battery swap: The procedure may be completed fast, frequently in 5-10 minutes, using automated equipment in parking lots.
Motorbike battery swap: Motorcycle batteries are light and small, especially smart lithium battery, and the process of manual replacement by users is actually faster than that of car battery swap, which can be completed in about one minute.
Battery swapping for cars is commonly accomplished by automated robotic equipment; however, motorbike battery replacements may need the rider to undertake manual processes. The swapping process’s magnitude, intricacy, and degree of automation vary.
How to make electric vehicle battery swapping work in your country
If you want to see how to make battery swapping work in your country, consider these factors. The intensity of local demand for electricity replacement, development of infrastructure, two and three wheeler market size and policy subsidies, and regulatory backing are necessary for the successful implementation of battery swapping. Important considerations include compatibility and handling safety issues.
Specific plans and solutions can consult us Tycorun, Tycorun can provide one-stop battery swapping station solution,
as well as relevant profit mathematical models. Provide case studies and plans to customize power replacement projects according to your country and local market needs.
Choose places for battery swapping stations that will be convenient for 2/3-wheeler users. Strive to achieve interface and battery module standardization to guarantee interoperability between various 2/3-wheeler models.
Explain battery swap model and related technical knowledge to customers to inform customers of the benefits of integrating cutting-edge technologies for rapid and effective battery swapping.
Explore alternate ownership arrangements, such as leasing or subscription services, to match the specific habits and incomes of local users.
FAQs
Why aren't electric vehicle batteries swappable?
The traditional electric vehicle is integrated with the battery, and the user can not easily remove the battery for replacement. If you want to use the battery swap station, you need to buy a model with exchangeable batteries. Standardization, infrastructure, and manufacturer support are necessary for swappability.
How does Nio battery swap work?
NIO battery swap is a leader in the electric vehicle swap industry. The automated stations in the battery swap system replace the complete battery pack with a fully charged one.
What are the specifications of the battery swap station?
The specifications of battery swap station are basically divided according to the number of battery warehouses. For example, the size of Tycorun power swap station is divided into 5 slots, 8 slots, 9 slot and 12 slot. Customers can choose according to the size and needs of the venue.
Can I swap my own car battery?
Most battery swap stations are not made for single users, You can buy a small battery swap cabinet for home use. The procedure calls for certain tools and safety precautions, and doing it unprepared can be dangerous. It is advised that battery replacements be handled by experts.