48V LiFePO4 Battery

The 48V lithium iron phosphate battery shows distinct advantages in electric transportation and commercial energy storage. The high voltage enables it to drive high-power equipment. It has a high energy conversion efficiency and can fully utilize the performance of the equipment. In the face of harsh environments such as high temperature, low temperature, and humidity, it can still work reliably. It performs outstandingly in fields like electric bicycles, electric motorcycles, commercial energy storage systems, and small electric boats, becoming a core force in the modern electrification process, ensuring the stable power supply for various industries and leading the new trend of energy application.

Customized Battery Packs 48V 50Ah for Low Speed Vehicles

Customized Battery Packs 48V 50Ah for Low Speed Vehicles

The 48V 50Ah lithium iron phosphate battery has remarkable highlights. It is equipped with an RS485 communication module, which can easily achieve efficient data interaction and precise intelligent control. It has a powerful power output and can steadily supply strong electric energy for various types of equipment. With a lightweight and portable design, compared with batteries of the same specification, it offers great convenience in terms of installation and carrying. It is of high quality and has a complete range of certifications, ensuring safe and reliable use. This battery is not only applicable to industrial robots and Automated Guided Vehicles (AGVs), but also widely used in multiple fields.

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Customized 48V 100Ah LiFePO4 Battery Pack

Customized 48V 100Ah LiFePO4 Battery Pack

Compared with 24V battery packs, this LiFePO4 48V 100Ah high-power battery has significant advantages. The high voltage of 48V enables efficient power transmission with low energy loss, and the large capacity of 100Ah can meet the requirements of equipment for long-term operation under high load. In terms of performance, it has high charging and discharging efficiencies and a long cycle life. It can maintain stable performance after thousands of charging and discharging cycles. It also has a wide working temperature range and is not afraid of harsh environments. The advanced BMS (Battery Management System) eliminates overcharging, overdischarging and short-circuit risks in all aspects, ensuring safety. In addition, the battery is compact in size, light in weight, easy to install, and has good environmental protection performance, bringing excellent experience to users.

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Characteristics of 48V LiFePO4 Battery packs

The 48V lithium iron phosphate battery pack has outstanding features in multiple aspects. In terms of voltage and power, its nominal voltage reaches 48V. Compared with 12V and 24V battery packs, it can output higher voltage and greater power, which can provide strong power for equipment such as electric bicycles and industrial motors, improving the operating efficiency and acceleration performance.

From the perspective of energy density and endurance, it has a relatively high energy density, can store more electrical energy within a limited space and weight, significantly extend the endurance mileage of equipment, and can also ensure a relatively long power supply in energy storage scenarios.

In terms of cycle life and stability, it can withstand about 2,000 - 3,000 charge and discharge cycles. The capacity attenuation is slow, and it has good chemical stability, reducing the probability of failures and having high safety and reliability.

However, due to the high voltage and a large number of batteries, it also has higher requirements for a complex battery management system. It is necessary to precisely control parameters such as voltage, current, and temperature to ensure that each individual battery works in a balanced manner, so as to give full play to its advantages and be widely used in numerous fields.

Improve the efficiency of 48V LiFePO4 Battery

The efficiency of 48V lithium iron phosphate batteries can be improved from multiple aspects. In terms of charging management, advanced algorithms are used to precisely control the charging current and voltage. Follow the constant current - constant voltage mode, set appropriate current values according to the battery status, and maintain the charging temperature within 15 - 35 °C through the battery thermal management system to reduce polarization and side reactions and improve the charging efficiency. Regarding the discharge conditions, matching circuits are designed for different loads. For example, a power factor correction circuit is added for inductive loads, and the discharge rate is reasonably controlled at around 0.5 - 1C to avoid the reduction in efficiency caused by high-rate discharge.Meanwhile, with the help of battery pack balancing technologies, active balancing can monitor the parameters of individual batteries in real time and transfer electricity through the balancing circuit. Passive balancing, on the other hand, utilizes parallel resistors to consume the electricity of individual batteries with excessive voltage, so that the states of all individual batteries are consistent. In this way, the overall efficiency of the 48V lithium iron phosphate battery pack can be improved, its service life can be extended, its performance can be enhanced, and it can better meet the requirements of various application scenarios.

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