Name: China LTO Li Ion Cell Manufacturers Factory - Customized LTO Li Ion Cell- Chaoneng Energy
Brand: EneSupFar
SKU: 225289578

EneSupFar®：Your Trustworthy Other Lithium Ion Battery Supplier

Chaoneng Energy(Yiwu)Co., Ltd. is a green energy enterprise integrating independent research and development, production and sales of lithium-ion battery modules. After years of development, we are at the top of the industry in terms of product performance, technological innovation and all-round services. We have multiple lithium battery pack production lines equipped with advanced production equipment and assembly equipment. Our team has a large number of experienced personnel who can ensure the high quality of the products.

Rich Experience:The company was established in 2022, but started export business in 2005. So far, our technical team has been developing lithium batteries for more than 10 years, while the sales department has been exporting batteries for more than 15 years and lithium batteries for more than 6 years.

Broad Market:Our products have been exported to many countries and have won widespread praise and trust from customers. We also have in-depth cooperation with large lithium battery companies such as CATL, BYD, and Guoxuan High-Tech.

Wide Range of Products:The company mainly produces lithium-ion batteries, including iron phosphate (LiFePO4/LFP) batteries, ternary lithium-ion battery packs (NMC) and LTO lithium batteries. We can also produce lithium batteries in various configurations on demand to provide customers with personalized choices.

Leading Service:We complete the R&D, production, marketing, sales and technical support processes independently. Whether you want to buy batteries of any shape or material, or battery packs of different structures and sizes, you just need to send your requirements via email and we can customize the product for you, and we also accept OEM customization.

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What is LTO Li Ion Cell

LTO Li-ion cell stands for Lithium Titanate Oxide Lithium-ion cell. It is a type of rechargeable battery that uses Lithium Titanate Oxide as the anode material instead of graphite. LTO Li-ion cells are known for their high charge and discharge rates, long cycle life, and excellent low-temperature performance. These cells are commonly used in applications that require high power and fast charging, such as electric vehicles, solar-powered systems, and grid storage applications.

Features of LTO Li Ion Cell

01/

High Power Density:One of the most outstanding features of LTO lithium-ion batteries is their high power density. The battery can deliver large amounts of power in a short period of time, making it ideal for applications requiring high power output. Unlike other lithium-ion batteries with lower power density, LTO batteries can withstand high discharge rates without affecting their capacity.

02/

High Security:Safety is a key issue with lithium-ion batteries because fire or explosion can occur if the battery is damaged or overheats. LTO lithium-ion batteries use Li4Ti5O12 as the negative electrode material instead of graphite, and their design is safer than other types of lithium-ion batteries. This anode material is more stable and less reactive than graphite, making it less likely to overheat or catch fire. In addition, LTO lithium-ion batteries have a wide safe operating temperature range (-50°C to 60°C), making them more suitable for use in extreme environments.

03/

Wide Operating Temperature Range:LTO cells are designed to operate over a wide temperature range. It can operate in both high and low temperature environments without negatively affecting its performance. LTO batteries have an operating temperature range of -30 to 60 degrees Celsius and can be used in applications that require the battery to operate in extreme conditions.

04/

Low Self-Discharge Rate:LTO lithium-ion batteries have a low self-discharge rate, which means it retains a charge for longer periods of time when not in use. This feature makes it ideal for applications where the battery is not used for long periods of time, such as emergency backup power systems.

Types of LTO Li Ion Cell

1. Standard LTO Lithium-Ion Battery

These batteries are the most common LTO lithium-ion batteries on the market. They have a nominal voltage of 2.4V and a capacity of 15-20 Ah. They are commonly used in applications requiring high power output, such as electric vehicles (EVs) and hybrid electric vehicles (HEVs). Standard LTO lithium-ion batteries have a unique structure. They consist of a carbon-coated anode, a lithium titanate oxide (LTO) cathode, and a liquid electrolyte. The carbon coating on the anode prevents the formation of dendrites, which can cause short circuits and fires.

2. High Power LTO Lithium-Ion Battery

High power LTO lithium-ion batteries are designed for applications requiring high power output and long cycle life. They have a nominal voltage of 2.4V and a capacity of 5-10 Ah. High-power LTO lithium-ion batteries feature a unique electrode design, including a carbon-coated anode, LTO cathode and solid electrolyte. The solid electrolyte provides high safety and stability, while the carbon coating on the anode prevents dendrite formation.

3. High Temperature LTO Lithium-Ion Battery

High-temperature LTO lithium-ion batteries are designed for applications requiring stable performance at high temperatures. They have a nominal voltage of 2.4V and a capacity of 5-10 Ah. High-temperature LTO lithium-ion batteries have a unique electrode design consisting of a carbon-coated anode, an LTO cathode and a ceramic electrolyte. The ceramic electrolyte provides high thermal stability and high energy density, while the carbon coating on the anode prevents dendrite formation.

4. Ultra-Fast LTO Lithium-Ion Battery

Ultrafast LTO lithium-ion batteries are designed for applications requiring fast charge and discharge rates and long cycle life. They have a nominal voltage of 2.4V and a capacity of 5-10 Ah. Ultrafast LTO lithium-ion batteries feature a unique electrode design, including a carbon-coated anode, LTO cathode and gel electrolyte. The gel electrolyte provides high ionic conductivity and stability, while a carbon coating on the anode prevents dendrite formation.

How to Choose LTO Li Ion Cell

Voltage and Capacity：The first factor to consider is the voltage and capacity of the LTO cell. LTO cells usually have a nominal voltage of 2.4V or 1.8V, but they can vary depending on the manufacturer. The capacity of LTO cells often ranges from 15Ah to 40Ah, but some models can have a higher capacity. The voltage and capacity of the LTO cell will determine how much power the battery can store.

Cycle Life：
ycle life is an important factor because it determines how many full charge-discharge cycles the battery can undergo before its capacity starts to degrade. LTO cells have a very long cycle life, with some models capable of up to 30,000 cycles or more. However, the cycle life can vary depending on the manufacturer and the specific model of the LTO cell.

Power Density：Power density refers to how much power the battery can deliver per unit volume or weight. LTO cells have a very high power density, making them ideal for applications that require high power output, such as electric vehicles. The power density of LTO cells varies depending on the specific model and manufacturer.

Operating Temperature：The operating temperature range is an essential factor to consider as it determines the performance of the battery in different temperature conditions. LTO cells have a wide operating temperature range, making them suitable for both high and low-temperature environments. However, the specific operating temperature range can vary depending on the model and manufacturer.

Safety：Safety is a crucial factor to consider, especially for applications such as electric vehicles and industrial automation where battery safety is critical. LTO cells are safer than other types of Li-ion cells because they have a lower risk of thermal runaway. However, it is important to choose LTO cells that have undergone rigorous safety testing and certification.

Cost：Finally, cost is a factor to consider when choosing the right LTO cell. LTO cells are generally more expensive than other types of Li-ion cells, but their long cycle life, high power density, and low-temperature performance make them a cost-effective choice in the long run. The cost of LTO cells varies depending on the specific model and manufacturer.

Benefits of Using LTO Li-ion cell

High Power Output

LTO batteries are capable of delivering high power output, ensuring that the machinery can perform its tasks without any power-related issues. This high power output also allows for faster acceleration and improved overall performance.

Long Cycle Life

LTO batteries have a much longer cycle life, meaning they can withstand a higher number of charge and discharge cycles without significant degradation. This extended cycle life reduces the need for frequent battery replacements, saving both time and money.

How to Maintain LTO Li Ion Cell

01.Avoid Overcharging

Overcharging can harm the performance and lifespan of LTO lithium-ion batteries. Use a charger with overcharge protection and avoid charging the battery to full capacity unless necessary.

02.Keep Batteries Cool

LTO lithium-ion batteries perform best when kept cool. Avoid using the battery in high temperature conditions and avoid charging the battery in high temperature conditions.

03.Store Batteries Correctly

If the battery will not be used for a long time, store it in a cool, dry place. Store the battery in a partially charged state to extend its service life.

04.Use Batteries Regularly

LTO lithium-ion batteries perform best when used regularly. If the battery is not used for an extended period of time, its performance may deteriorate. Use the battery at least once a month to maintain its performance.

05.Avoid Deep Discharge

LTO lithium-ion batteries perform best when not fully discharged. Avoid deep discharge and recharge the battery before it reaches low charge.

Working Principle of LTO Li Ion Cell

Charging

Charging of the LTO Li Ion Cell is accomplished by the constant movement of lithium ions in the electrolyte between the positive and negative electrodes. During the charging process, the lithium ions in the electrolyte are released from the positive electrode and stored in the negative electrode at the same time. This process is accomplished with the help of an external power source.

Discharge

Discharging is another important step in the LTO Li Ion Cell. During this process, the lithium ions in the electrolyte move between the positive and negative electrodes again, releasing the stored electrical energy. When the battery begins to discharge from a state of charge, the lithium ions in the positive electrode move into the negative electrode, releasing electrons at the same time. These electrons pass through an external load, such as a light bulb, and return to the positive terminal in the battery.

Electrolyte

The electrolyte in an LTO Li Ion Cell typically consists of lithium salts dissolved in an organic solvent. This electrolyte has a high electrical conductivity, which aids in the movement of charge in the cell. In addition, the electrolyte has good stability and reversibility, allowing it to be used over multiple charge/discharge cycles.

Positive and Negative Electrodes

The positive and negative electrodes of LTO Li Ion Cells are made of different materials. The positive electrode is usually made of Lithium Titanate Aluminum (LTO), while the negative electrode is usually made of Layered Graphite (LG).

Applications of LTO Li Ion Cell

Electric Vehicle Field:LTO Li Ion batteries are widely used in electric vehicles due to their high efficiency and long life. Compared with traditional Ni-MH batteries and LiCoO2 batteries, LTO Li Ion batteries have higher energy density and longer life.

Energy Storage Field:LTO Li Ion batteries have the advantages of low self-discharge rate and long life, allowing them to be used in a variety of energy storage applications. For example, for storing electrical energy in solar panels and wind turbines, or for storing electrical energy in smart grids.

Aerospace Field:The high energy density and lightweight of LTO Li Ion batteries allow it to be used in aerospace applications such as satellites and space probes. This battery not only saves weight and space, but also provides a reliable power supply.

Battery Energy Storage Equipment Field:The O Li Ion battery's low self-discharge rate and high safety make it an ideal choice for battery energy storage devices. This device is a device that stores electrical energy in large buildings, factories, and public facilities to provide a continuous supply of energy during power outages or energy shortages.

Install the BMS

The next step is to install the BMS. The BMS is responsible for monitoring and controlling the battery's charge and discharge cycles, ensuring that the battery operates within safe limits. Install the BMS according to the manufacturer's instructions, taking care to connect all the necessary cables.

Install the LTO Li-ion Cells

Once the BMS is installed and connected, the next step is to install the LTO Li-ion cells. Start by arranging the cells in the desired configuration, taking care to align them properly. Connect the cells in series or parallel, depending on the project requirements. Once all the cells are connected, use nuts and bolts to secure them in place.

Connect the Cables

After the cells are installed and secured, the next step is to connect the cables. Connect the cables to the cells and the BMS according to the manufacturer's instructions. Take care to connect the cables properly, ensuring that they are tightened to the correct torque.

Install the Battery Terminals

The final step is to install the battery terminals. The terminals are used to connect the battery to the system or device. Install the battery terminals according to the manufacturer's instructions, taking care to connect the positive and negative terminals to the correct ends of the battery.

How to Install LTO Li Ion Cell

Evaluate the Project Requirements
The first step is to evaluate the project requirements to identify the number and size of cells needed for the application. This can be done by determining the voltage and capacity requirements of the application. It is also important to consider the maximum discharge and charge rates of the cells.

Gather Necessary Tools and Materials
Once you have determined the project requirements, the next step is to gather all the necessary tools and materials. This includes the LTO Li-ion cells, a battery management system (BMS), cables, nuts, bolts, and battery terminals. You will also need basic hand tools like a screwdriver and a wrench.

Prepare the Installation Site
Before you begin the installation process, it is important to prepare the installation site. Ensure that the area is clean, dry, and well-lit. Make sure there are no flammable materials in the vicinity, and all the necessary safety equipment is on hand, such as gloves, goggles, and a fire extinguisher.

How to Use LTO Li Ion Cell

Understanding LTO Li-ion Cell Chemistry
The LTO cell chemistry is similar to that of a standard Li-ion cell, except for the anode material which is made of Lithium Titanate Oxide. This material is known for its high conductivity, high cycle life, and excellent safety compared to other anode materials. The LTO chemistry offers several advantages, such as faster charging times, longer cycle life, and a wider temperature range.

Charging the LTO Li-ion Cell
The LTO Li-ion cell can be charged using a standard Li-ion charger. However, due to its higher voltage range (2.8V to 3.8V), it requires a charger that can support this range. It is also important to note that the LTO chemistry requires a shorter charging time than other types of Li-ion batteries. It is recommended to charge the LTO cell to at least 80% of its capacity to prolong its cycle life.

Discharging the LTO Li-ion Cell

When discharging the LTO Li-ion cell, it is recommended to discharge it to a maximum of 2.5V per cell to avoid damaging the cell. Unlike other Li-ion batteries, LTO cells can safely discharge at higher C-rates, resulting in faster discharge times. However, it is important to note that discharging the cell too quickly can reduce the cell's cycle life.

Storage of LTO Li-ion Cells

When storing LTO Li-ion cells, it is recommended to keep them between 20% to 80% of their capacity to avoid overcharging or over-discharging. LTO cells have a longer shelf life compared to other Li-ion batteries due to their self-discharge rate. However, it is recommended to store them in a cool and dry place to prolong their shelf life.

Benefits of LTO Li-ion Cells

LTO cells offer several benefits over other types of Li-ion batteries. They have a longer cycle life, with some cells boasting up to 30,000 cycles. They can also charge and discharge at faster rates, resulting in faster charging times and higher power output. Additionally, LTO cells have a wider temperature range, making them suitable for applications in extreme temperatures.

How to Store LTO Li Ion Cell

Fully Charge the Battery
Before storing your LTO Li Ion cells, make sure they are fully charged to their maximum capacity. This will prevent the battery from becoming excessively discharged, which can cause irreversible damage to the cell. Keep in mind that lithium-ion batteries should not be overcharged, as this can also damage the cell, so be sure to follow the manufacturer's charging recommendations.

Store at a Moderate Temperature
Another factor that can impact the longevity of your LTO Li Ion cells is temperature. Ideally, these batteries should be stored at a moderate room temperature of 20-25°C (68-77°F) to minimize the risk of thermal runaway and other issues. Extreme temperatures can cause the battery to degrade more quickly or even catch fire. If you must store your batteries in a colder environment, make sure to allow them to warm up to room temperature before using them again.

Keep the Battery in a Safe Location
When storing your LTO Li Ion cells, it's important to choose a secure location that is out of reach of children and pets. Avoid storing the batteries in direct sunlight or near heat sources such as radiators or stoves. If possible, consider storing the batteries in a fireproof container to minimize the risk of a thermal event.

Monitor the Battery's Charge
Over time, even stored batteries can lose some of their charge, which can lead to degradation and potentially dangerous situations. For this reason, it's a good idea to check the battery's charge level periodically and recharge it to 80% if it has fallen below this level. Some battery management systems can help monitor your battery and alert you when it needs to be charged or discharged.

Check the Battery's Condition
Before using your stored LTO Li Ion cells, perform an inspection to check for any signs of damage or degradation. Look for bulges, cracks, or leaks, which can indicate a damaged cell. If any such issues are found, dispose of the battery properly and do not use it. It's also a good idea to perform a capacity test on the battery to verify that it is still performing up to its rated capacity.

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Frequently Asked Questions

Q: What is an LTO Li Ion Cell?

A: An LTO (Lithium Titanate Oxide) Li-Ion cell is a type of rechargeable battery technology that uses lithium-titanate oxide as the anode material instead of the conventional graphite. This type of battery is known for its high cycle life, fast charging capabilities, high power output, and ability to operate at a wide range of temperatures. LTO cells are commonly used in electric vehicles, power tools, and other applications that require high power and reliability.

Q: How does an LTO Li Ion Cell differ from a regular Li Ion Cell?

A: LTO lithium-ion batteries have a higher voltage range compared to regular lithium-ion batteries, which gives them a longer cycle life. And LTO lithium-ion batteries have a wider temperature range, making them more suitable for use in extreme environments. Finally, the electrode material used in LTO lithium-ion batteries is lithium titanate, which has higher chemical stability than the carbon-based electrodes in ordinary lithium-ion batteries. This makes the battery safer and more durable.

Q: What is the energy density of an LTO Li Ion Cell?

A: The energy density of an LTO (Lithium Titanate Oxide) Li-ion cell is typically around 65-80 Wh/kg. However, its power density is significantly higher than conventional Li-ion batteries, making it suitable for high-power applications such as electric vehicles.

Q: How does the safety of an LTO Li Ion Cell compare to a regular Li Ion Cell?

A: LTO (lithium titanate) lithium-ion batteries are considered safer than regular lithium-ion batteries due to their stable chemical structure and lower risk of thermal runaway. One of the main factors that make LTO batteries safer is their lower energy density, which means they contain less stored energy and therefore generate less heat. LTO batteries also have longer cycle life and can be charged and discharged at higher rates without compromising their performance or safety.

Q: What applications are LTO Li Ion Cells typically used for?

A: LTO lithium-ion batteries (lithium titanate) are commonly used in high power and high cycle life applications, especially where safety is a major concern. Electric Vehicles (EV): LTO lithium-ion batteries are used in electric vehicles because of their long cycle life, fast charging, and high safety.

Q: What is the cycle life of an LTO Li Ion Cell?

A: The cycle life of an LTO (Lithium Titanate Oxide) Li Ion cell is typically around 20,000 cycles. This means that the cell can be charged and discharged approximately 20,000 times before it reaches the end of its useful life. However, this cycle life can vary depending on factors such as the charging and discharging conditions, temperature, storage conditions, and the specific manufacturer and model of the cell.

Q: How long does it take to charge an LTO Li Ion Cell?

A: The charging time of an LTO Li Ion Cell varies depending on several factors. The charging rate, capacity of the cell, and the state of charge are some of the factors that affect the charging time. Generally, LTO Li Ion Cells can be charged very quickly, with some cells reaching full charge within 15-30 minutes. However, charging the cell too quickly or overcharging can cause damage to the cell or reduce its lifespan. It is recommended to refer to the manufacturer's recommendations for the specific charging time and method for the LTO Li Ion Cell.

Q: What is the discharge rate of an LTO Li Ion Cell?

A: The discharge rate of an LTO Li Ion cell can vary depending on factors like cell capacity, temperature, and current draw. Generally, LTO cells can provide high discharge rates ranging from 10C to 20C, which means they can discharge their entire capacity within 6 minutes to 3 minutes, respectively, at those rates. However, it's worth noting that high-discharge rates can have a negative impact on the cell's lifespan, so it's important to consider the specific use case and choose a discharge rate that fits the application's requirements without damaging the cell.

Q: What is the capacity of an LTO Li Ion Cell?

A: The capacity of an LTO (Lithium Titanate Oxide) Li-Ion cell varies based on the specific design and manufacturer. However, LTO cells typically have lower capacities compared to other types of lithium-ion batteries. Typical capacities range from 1000mAh to 3000mAh for single cells. LTO cells are known for their high power and long cycle life rather than their high energy density.

Q: How does temperature affect the performance of an LTO Li Ion Cell?

A: At low temperatures, the battery's internal resistance increases, thereby reducing its capacity and power output. If the temperature is too low, the battery may be damaged and its lifespan may be shortened. On the other hand, high temperatures can also damage batteries and shorten their lifespan. Lithium titanate batteries may lose capacity and accelerate aging when exposed to temperatures above 60°C.

Q: Can LTO Li Ion Cells be recycled?

A: Yes, LTO (Lithium Titanate Oxide) Li Ion Cells can be recycled. Recycling LTO Li Ion Cells involves the extraction of metals and chemicals from the cells and separating them for reuse. Recycling helps to reduce the environmental impact of discarded batteries, reduces the need for mining raw materials, and saves energy and resources. Some companies specialize in the recycling of Li Ion batteries, and there are also battery recycling programs available to help ensure proper disposal and recycling of these batteries.

Q: How does the cost of an LTO Li Ion Cell compare to a regular Li Ion Cell?

A: Generally speaking, LTO (lithium titanate) lithium-ion batteries are usually more expensive than regular lithium-ion batteries due to their unique properties such as high cycle life, fast charge and discharge rates, and excellent performance at extreme temperatures. Cost may vary depending on specific application and manufacturer.

Q: What safety features should be considered when using LTO Li Ion Cells?

A: Overcharge protection, overcharging LTO lithium-ion batteries can cause the release of dangerous gases, heat, and may even cause an explosion. Therefore, it is crucial to use protection circuitry to ensure that the battery does not overcharge. Secondly, low voltage protection helps prevent the battery from over-discharging, which can cause capacity loss or even damage the battery. Finally, lithium-ion batteries generate a lot of heat during charging or discharging. Therefore, using thermal protection is crucial to prevent the battery from overheating and causing damage to the battery.

Q: Are LTO lithium-ion batteries waterproof?

A: Not all lithium-ion batteries are waterproof. This depends on their design and the protective case used. Some LTO lithium-ion batteries may be waterproof or water-resistant if they are designed with protective casings and seals to prevent water penetration. It's best to check the specific product specifications, including its IP rating, to determine whether an LTO lithium-ion battery is waterproof.

Q: How does an LTO Li Ion Cell compare to a nickel-metal hydride battery?

A: LTO lithium-ion batteries have a lower capacity than nickel-metal hydride batteries. LTO lithium-ion batteries typically have a capacity of around 2-3 Ah, while NiMH batteries can have capacities up to 10-15 Ah. And the charging time of LTO lithium-ion batteries is shorter than that of nickel-metal hydride batteries. LTO lithium-ion batteries take only 10-20 minutes to fully charge, while NiMH batteries take several hours to fully charge.

Q: What are the advantages of using LTO Li Ion Cells in electric vehicles?

A: LTO lithium-ion batteries have higher energy density compared to other types of batteries. This means they can store more energy in less space, making them ideal for electric vehicles. And LTO lithium-ion batteries charge much faster than other types of batteries, which means less time waiting for electric vehicles to charge. They also have a higher power output, which means they can provide your electric car with more torque and acceleration.

Q: Can LTO Li Ion Cells be used in grid-scale energy storage?

A: Yes, LTO (Lithium Titanate Oxide) Li-ion cells can be used in grid-scale energy storage. LTO cells have faster charge and discharge rates and longer cycle life compared to other Li-ion cells. They also have a wide temperature range and are less susceptible to thermal runaway, making them suitable for grid-scale energy storage applications.

Q: How do LTO Li Ion Cells perform in extreme environments?

A: LTO lithium-ion batteries are considered to perform exceptionally well in extreme environments. They are able to withstand a wide temperature range and operate efficiently in environments from -50°C to +60°C. Additionally, LTO cells are highly tolerant to high voltages, which helps them handle fast charge and discharge rates. This property also makes it ideal for applications that require fast charging and discharging, such as electric vehicles and renewable energy storage systems.

Q: What standards govern the production and use of LTO Li Ion Cells?

A: There are various standards and regulations for the production and use of LTO lithium-ion batteries. Some of these include: IEC 62620: This is an international standard that specifies the performance and safety requirements for LTO lithium-ion batteries. and the IATA Dangerous Goods Regulations, a set of rules and guidelines for the carriage of dangerous goods by air, which include specific requirements for the carriage of lithium batteries, including LTO batteries.

Q: What is the future of LTO Li Ion Cell technology?

A: LTO lithium-ion battery technology is likely to remain relatively stable over the next few years, capable of delivering high energy density while maintaining safety and reliability. Some researchers are also exploring combining LTO materials with other elements, including silicon or graphene, to further improve performance.

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