China Stacked Battery Manufacturers, Suppliers and Factory - Custom Stacked Battery

Your Professional Stacked Battery Supplier!

Zhejiang Shengyang New Energy Co., Ltd., a new energy company established in 2004, specializes in energy storage battery packs, portable power supplies, home energy storage systems, inverters, and other products. Shengyang has established long-term strategic partnerships with thousands of overseas new energy industry clients. We are committed to creating maximum value for our clients and sincerely look forward to collaborating with related companies and industries both domestically and internationally.

Stacked Household Lithium Battery
The system is composed of 100Ah modules, supports a maximum of 20 parallel groups, and the capacity can be expanded to 102kWh. Matched with main stream brands of inverters, the system can be applied
Floor-Mounted Household Lithium Battery
SUN-HP-S stacked high voltage system adopts the whole module designconcept. The battery module and the main control module are connectedin series, together with the compatible high voltage inverter
Stacked Household High Voltage Lithium Battery
SUN-HP-S stacked high voltage system adopts the whole module design concept. The battery module and the main control module are connected in series, together with the compatible high voltage inverter
Ultra-thin Stacked Household Lithium Battery
SUN-HP-S Pro ultra-thin stacked household high voltage lithium battery products, using the whole module design concept, through the battery module, energy control box series to form a complete
ALL-in-one ESS
Integrate solar charge controller, system controller and inverter, lithium battery and lithium battery special management system-BMS into one, effectively use the energy storage system to convert
Stacked Energy Storage All in One Series
Stacked energy sto rage al l-in-one, using modular batteries.. Easy to install , integ rated PV inverter module, complete energy storage solution for household energy storage.

Why Choose Us

Patent Certificate

We have obtained eight patents and ISO 9001 quality management system certification. Our products have received numerous international certifications, including CE, MSDS, and IEC, fully demonstrating our comprehensive strength in technology development and quality management.

Sales Market

Our customers span over 70 countries and regions worldwide, demonstrating our strong market expansion capabilities. We have established a comprehensive service system encompassing technology development, manufacturing, customized solutions, and localized after-sales service, enabling us to provide efficient and professional support to our global customers.

Customization Services

We offer a variety of configuration options to meet our customers' personalized needs. Through scientific system design, rational equipment selection, standardized installation procedures, and comprehensive maintenance services, we ensure a stable and reliable power supply for communications equipment, allowing for flexible adjustments to suit diverse application scenarios.

Specification

Model	HP10-Box5 Pro	HP10-Box10 Pro	HP10-Box15 Pro	HP10-Box20 Pro
Battery Module	Box5Pro*N
Cell Type	100Ah LFP Prismatic Cell
Number of Modules	1	2	3	4
Nominal Voltage	51.2V
Operating Voltage Range	45.0~56.4V
System Nominal Energy	5.12kWh	10.24kWh	15.36kWh	20.48kWh
Available System Nominal Energy	4.86kWh	9.72kWh	14.6kWh	19.45kWh
Max.Output Power	5kW	10kW	15kW	20kW
Peak Output Power	5.4kW, 10s	10.5kW, 10s	15.5kW, 10s	20.0kW, 10s
Max. Charging Current	50A	100A	150A	200A
Max. Discharge Current	100A	180A	270A	270A
Charge and Discharge Efficiency	≥97%

Advantages of Stacked Battery

High Energy Capacity

By stacking multiple battery modules, users can achieve greater energy storage capacity, ensuring a reliable power supply for energy-intensive applications or prolonged usage periods.

Enhanced Power Output

The stackable design allows for parallel connections of multiple battery modules, delivering higher power output to meet demands for instant high-power applications.

Scalability and Flexibility

One of the key advantages of a stacked battery is its modularity. Users can add or remove battery modules as needed, allowing flexible expansion and capacity adjustments according to specific power requirements.

Improved System Stability

Stackable batteries ensure better battery balancing and temperature management. This reduces the risk of overheating and enhances overall system performance and longevity.

Optimized Space Utilization

The compact, stackable design maximizes space efficiency, making it suitable for applications with limited installation areas, such as residential energy storage and commercial power backup systems.

Stacked Battery Structure and Components

Battery Cells: At the core of the stacked battery, you'll find individual cells that are responsible for storing energy. Each cell typically consists of a positive terminal (cathode), a negative terminal (anode), and an electrolyte that allows ions to flow between them. In a lithium-ion stacked battery, the cells are often made of lithium metal oxide for the cathode, graphite for the anode, and lithium salts as the electrolyte.

Battery Separator: A separator is placed between the layers of cells to prevent short circuits. It allows ions to pass through but keeps the positive and negative terminals apart.

Conductive Connectors: These connectors link the individual cells, allowing the battery to transfer energy between them. They play a crucial role in maintaining efficient electrical conductivity and ensuring that the stacked battery works as a single unit.

Thermal Management System: Stacked batteries, especially lithium-ion variants, generate heat during charging and discharging. A thermal management system, including heat sinks or liquid cooling, helps dissipate heat and maintain an optimal operating temperature.

Protective Circuitry: To prevent overcharging, overheating, or deep discharging, stacked batteries are often equipped with battery management systems (BMS). These systems monitor the health of the battery and ensure safe operation.

Basic Principles of Stacked Battery

The technology behind stacked batteries, especially lithium-ion stacked batteries, relies on a basic principle of electrochemical reactions.

Energy Storage:

During charging, lithium ions move from the cathode (positive terminal) to the anode (negative terminal), where they are stored. The flow of electrons through the external circuit provides the electric current needed to charge devices or vehicles.

Energy Release:

When the battery discharges, the stored lithium ions move back from the anode to the cathode, releasing energy in the form of electrical current. This process powers your device or vehicle.

Stacked Household High Voltage Lithium Battery

Applications Of Stacked Battery

Residential Energy Storage

Homeowners use stacked batteries to store excess solar energy generated during the day for use at night. This reduces dependence on the grid and lowers electricity bills.

Commercial and Industrial Use

Businesses with high energy demands leverage stacked batteries to manage peak loads, ensure power reliability, and optimize energy costs.

Off-Grid Systems

In remote areas without access to the main power grid, stacked batteries serve as the backbone of off-grid solar or wind energy systems, providing a reliable and consistent power supply.

Backup Power Solutions

Stacked batteries are widely used for emergency backup power in hospitals, data centers, and critical infrastructure to prevent downtime during outages.

Order Process

Contact Customer Service

Submit Order

Obtain a Quote

Confirm Order

Arrange Payment

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Packaging and Shipping

Packaging	Carton, plastic bag
Transportation methods	Road transport, rail transport, sea transport, air transport

FAQ

Q: What happens when you stacked batteries?

A: Stacked batteries in series increases the amount of voltage. It doesn't increase the ampere capacity. But two batteries connected in series means their positive and negative terminals will work together. If you connect two 12V 30Ah batteries in series, you get a combined voltage of 24V.

Q: What is a stacked battery?

A: Stacked batteries are unique in the way that they may be readily joined or separated to meet the demands of a certain application. They are a relatively novel technology but are already widely used in a variety of industries such as electric cars, backup power grids, and portable energy systems.

Q: How do you stacked batteries?

A: Make the first layer of batteries level and as close together as possible. If some of the batteries are shorter, they should be placed in the center of layers. Any taller batteries should be placed on the top layer.

Q: How to put in stacked batteries?

A: When you're stacking batteries, the positive end of one battery touches the negative end of the other, and vice versa. So with coin cell batteries, insert the first battery with the positive side face-up.

As one of the leading stacked battery manufacturers and suppliers in China, we warmly welcome you to buy custom made stacked battery from our factory. Good service and quality products are available.

5ah Power Stack Battery, Flex Stacked Battery, Stacked Lithium Battery