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PM-LV48100-3U Lithium Battery OEM/ODM Module

PM-LV48100-3U Lithium Battery OEM/ODM Module

Production Info

✅ High Quality

✅ Advance Feature

✅ Super Demand

✅ Reasonable

✅ Long Lasting

✅ Good

Description

Redway’s PM-LV48100-3U lithium battery module can fulfill the needs of your business applications with high-performance energy storage. Featuring a massive 4800 Wh nominal capacity and 100Ah battery capacity, the PM-48100-3U is ideal for large-scale energy storage in industrial and commercial environments. A modular architecture and LiFePO4 (LFP) battery technology are included. With a design life of 20 years and a cycle life of up to 6000 cycles at 80% depth of discharge (DOD), the PM-LV48100-3U provides reliable and long-lasting energy storage for your business. A wide range of working voltages enables this battery module to be compatible with a variety of inverters, such as Victron, SMA, Goodwe, and others.

Despite its low weight and dimensions, the PM-LV48100-3U is easily incorporated into any existing energy storage system with its net weight of 40 kg. IP21 certification ensures dependable performance in a wide range of demanding environments. If you need off-grid solar power systems, backup power solutions, or commercial energy storage, the PM-LV48100-3U delivers the performance, dependability, and durability you need. Due to its charging range of 0 – 55°C and discharging range of -20 – 60°C, it is suitable for a wide range of applications.

With CE and UN38.3 safety certification, PM-LV48100-3U gives you peace of mind. Additionally, due to its sophisticated battery technology, flexible design, and long cycle life, it can help your company save money while reducing its environmental footprint, making it a cost-effective energy storage option. Discover the power of modern LFP battery technology with Redway’s PM-LV48100-3U lithium battery module.

Main features and advantages:

Standard Design:
Due to its small size and design, the PM-LV48100-3U Lithium Battery Module is easy to install in a variety of locations.

Expandable:
The PM-LV48100-3U’s modular architecture allows users to scale up their energy storage systems as their needs expand, making it a versatile, cost-effective option for a wide range of applications.

High Reliability and Safety:
In addition to excellent safety features, the PM-LV48100-3U is constructed with automotive-grade battery cells that are highly reliable and safe. It is equipped with overcharge and overdischarge protection, temperature control, and short circuit protection.

Compatibility:
With its compatibility with inverters from well-known brands like Victron, SMA, Goodwe, SRNE, Solis, SAJ, Growatt, Luxpower, Voltronic, Deye, and others, the PM-LV48100-3U can be easily integrated into existing solar energy systems.

A-Grade Battery Cells:
High-quality A-grade battery cells are used in the PM-LV48100-3U. These cells can withstand extreme temperatures, vibrations, and other abrasive conditions.

Economical:
In terms of value for money, the PM-LV48100-3U is a highly economical energy storage system. Its extended cycle life, low maintenance requirements, and high energy density make it an appealing investment for businesses aiming to save energy expenditures and minimize their carbon footprint.

Product Specifications:

Cell Type: LiFePO4 (LFP)
Capacity: 100Ah
Nominal Energy: 4800 Wh
Nominal Voltage: 48 V
Working Voltage: 37.5 ~ 54.75 V
Net Weight: 40 Kg
Dimension: [L*W*H] 440*420*134mm (17.32*16.53*5.28in)
Charging Temperature: 0 ~ 55℃
Discharging Temperature: -20 ~ 60℃
Design Life: 20 Years
Cycle Life: (25℃@80% DOD) 6000 Cycles
IP Grade: IP21
Compatible Inverters: Victron / SMA / Goodwe / SRNE / Solis / SAJ / Growatt / Luxpower / Voltronic / Deye / etc.
Certification & Safety Standard: CE / UN38.3

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Technical Data

Parameter Value
Cell Type LiFePO4 (LFP)
Capacity 100Ah
Nominal Energy 4800 Wh
Nominal Voltage 48 V
Working Voltage 37.5 ~ 54.75 V
Net Weight 40 Kg
Dimension [LWH] 440420134mm (17.3216.535.28in)
Charging Temperature 0 ~ 55℃
Discharging Temperature -20 ~ 60℃
Design Life 20 Years
Cycle Life (25℃@80% DOD) 6000 Cycles
IP Grade IP21
Compatible Inverters Victron / SMA / Goodwe / SRNE / Solis / SAJ / Growatt / Luxpower / Voltronic / Deye / etc.
Certification & Safety Standard CE / UN38.3
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FAQs

What is a 1U or 3U in rack battery?

In the context of rack batteries, a 1U or 3U refers to the measurement system used to determine the height of rack-mounted equipment. One U (Unit) represents 1.75 inches (44.45mm) of rack height. Therefore, a 1U rack battery occupies a space of 1.75 inches in height, while a 3U rack battery occupies a space of 5.25 inches in height. This standardized system ensures compatibility and easy integration of rack batteries into existing rack setups.
  1. Rack Unit Measurement: The terms 1U and 3U refer to the measurement system used to determine the height of rack-mounted equipment. Each U (Unit) represents 1.75 inches (44.45mm) of rack height. This standardized system allows for easy compatibility and integration of various rack-mounted devices, including batteries.
  2. Height Specification: A 1U rack battery occupies a space of 1.75 inches in height, while a 3U rack battery occupies a space of 5.25 inches in height. These height specifications help in selecting the appropriate battery size to fit within a specific rack setup, ensuring efficient use of space and proper alignment with other rack-mounted equipment.

What is a rack mount battery?

A rack mount battery is a battery system specifically designed to be mounted in a rack. These batteries, such as rack-mounted lithium batteries, offer a significantly higher energy density compared to lead-acid batteries. This means they can store more energy in a smaller physical footprint, making them ideal for applications where space is limited, such as data centers. Rack mount batteries provide a reliable and uninterrupted power supply during utility outages, ensuring continuous operation and protecting against data loss.
  1. Definition: A rack mount battery refers to a battery system specifically designed to be mounted in a rack. These batteries are commonly used in applications such as data centers, telecommunications, and backup power systems.
  2. Advantages: Rack mount batteries, particularly rack-mounted lithium batteries, offer significant advantages. They have a higher energy density compared to lead-acid batteries, allowing them to store more energy in a smaller physical footprint. This is particularly beneficial in environments where space is limited, such as data centers.
  3. Reliable Power Supply: Rack mount batteries provide a reliable and uninterrupted power supply during utility outages. They ensure continuous operation and protect against data loss, making them essential for critical systems that require uninterrupted power.

What does stacking batteries do?

Stacking batteries involves connecting multiple batteries together, either in series or parallel configurations. When batteries are stacked in parallel, it facilitates high-current discharge, improving the rate performance of the battery. In series stacking, the overall voltage output increases. Stacking batteries allows for efficient power delivery and enables the use of higher voltage levels when needed.
  1. Stacking Batteries: Stacking batteries refers to the process of connecting multiple batteries together, either in series or parallel configurations. This technique allows for combining the capabilities of individual batteries to achieve desired outcomes.
  2. Parallel Stacking: When batteries are stacked in parallel, it facilitates high-current discharge, making it easier to complete tasks that require a significant amount of power in a short period of time. This improves the rate performance of the battery, ensuring efficient power delivery.
  3. Series Stacking: Stacking batteries in series increases the overall voltage output. This can be advantageous in applications that require higher voltage levels to meet specific power requirements.

What are the benefits of rack mounting?

Rack mounting provides several benefits, including better access and organization, space-saving, improved airflow, and a dust-free environment. With rack-mounted systems, equipment can be easily accessed and upgraded, saving time and effort. The compact design optimizes space utilization, making it ideal for environments with limited space. Efficient cooling and airflow management are facilitated, reducing the risk of overheating. The enclosed rack structure helps maintain equipment cleanliness, ensuring reliable performance.
  1. Better Access and Organization: Rack mounting allows for easy access and organization of equipment. This facilitates efficient tracking of faults and simplifies the process of upgrading or replacing components, saving considerable time and effort.
  2. Space-Saving: Rack-mounted systems offer a compact design that optimizes space utilization. This is particularly beneficial in environments where space is limited, such as data centers or server rooms. Rack mounting helps maximize the available space and allows for efficient equipment arrangement.
  3. Improved Airflow and Dust-Free Environment: Rack mounting enables efficient airflow management, reducing the risk of overheating. The enclosed rack structure helps direct airflow and maintains a consistent temperature, ensuring optimal performance and reliability. Additionally, the enclosed environment helps keep the equipment free from dust and debris, minimizing the risk of damage and improving longevity.

What are the benefits of stacked batteries?

The benefits of stacked batteries include system stability, better battery balance, temperature management, and reduced occurrence of hot spot effects. The stacked design ensures balanced performance of each battery module, contributing to overall system stability. Additionally, stackable batteries facilitate efficient temperature management, enhancing battery performance and longevity.
  1. System Stability: Stacked batteries offer improved system stability by ensuring better battery balance. Each battery module operates at the same level, contributing evenly to the overall performance. This balanced performance enhances the reliability and efficiency of the battery system.
  2. Better Battery Balance: The stacked design allows for better battery balance, which is crucial for optimal performance. By evenly distributing the load across multiple battery modules, the risk of overloading or underutilizing specific modules is minimized. This promotes longevity and maximizes the available capacity of the battery system.
  3. Temperature Management: Stackable batteries facilitate efficient temperature management. The design allows for effective heat dissipation, reducing the risk of overheating. This not only improves battery performance but also extends the lifespan of the batteries.

Why does stacking batteries increase voltage?

Stacking batteries in series increases the overall voltage output. When batteries are connected in series, the voltage of each individual battery is added together. For example, if two batteries with a voltage of 1.5 volts each are connected in series, the total voltage output would be 3 volts. This is because the positive terminal of one battery is connected to the negative terminal of the next battery, effectively adding up the voltages.
  1. Voltage Increase in Series Stacking: When batteries are stacked in series, the voltage increases. This is because the voltage of each individual battery is added together. For example, if two batteries with a voltage of 1.5 volts each are connected in series, the total voltage output would be 3 volts. This is achieved by connecting the positive terminal of one battery to the negative terminal of the next battery, effectively adding up the voltages.
  2. Electrical Connection: The series connection of batteries allows for the flow of current through each battery in succession. The positive terminal of one battery is connected to the negative terminal of the next battery, creating a continuous path for the flow of electrons. This sequential connection results in an increased voltage output.

PM-LV48100-3U vs PM-LV48100-3U-PRO, what is the difference?

PM-LV48100-3U and PM-LV48100-3U-PRO have a same size, but PM-LV48100-3U has a LCD monitor, while PM-LV48100-3U-PRO features fast plug technology.

What are the benefits of fast plug technology in lithium battery modules?

Fast plug technology in lithium battery modules provides several benefits, including improved charging efficiency and speed. This technology enables rapid charging, reducing the charging time significantly. It enhances the overall performance and usability of lithium battery modules, making them more convenient and efficient for various applications.
  1. Improved Charging Efficiency: Fast plug technology enhances the charging efficiency of lithium battery modules. It allows for more efficient energy transfer during the charging process, minimizing energy losses and maximizing the amount of energy stored in the battery.
  2. Rapid Charging: One of the significant benefits of fast plug technology is the ability to charge lithium battery modules at a much faster rate. This technology reduces the charging time significantly, making it more convenient for users who require quick charging solutions.
  3. Enhanced Performance and Usability: By enabling rapid charging, fast plug technology enhances the overall performance and usability of lithium battery modules. It allows for more frequent use of devices or equipment powered by lithium batteries, without the need for long charging intervals.
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