- Product Details
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Quick Details
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Brand Name:
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E-lary
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Model Number:
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EDY-SZ03
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Place of Origin:
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Zhejiang, China
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Weight:
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15KG
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The charging ratio:
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0.5C
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The discharge rate:
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3C
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Capacity:
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32Ah
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Size:
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Customzied
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Voltage:
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48V
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Cycle life:
-
3000 Cycles
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Operating Temperature:
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Charging: 0~45 Discharging:-20~60
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OEM/ODM:
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Acceptable
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Type:
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LiFePO4 Battery
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Color:
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Customers' Demand
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Battery cell:
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18650
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Apllication:
-
Stacker AGV Tow Tractor/Forklift
Quick Details
-
Storage Type:
-
UN38.3
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Anode Material:
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LFP
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Application:
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Electric Forklifts, AGV
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Brand Name:
-
E-lary
-
Model Number:
-
EDY-SZ03
-
Place of Origin:
-
Zhejiang, China
-
Weight:
-
15KG
-
The charging ratio:
-
0.5C
-
The discharge rate:
-
3C
-
Capacity:
-
32Ah
-
Size:
-
Customzied
-
Voltage:
-
48V
-
Cycle life:
-
3000 Cycles
-
Operating Temperature:
-
Charging: 0~45 Discharging:-20~60
-
OEM/ODM:
-
Acceptable
-
Type:
-
LiFePO4 Battery
-
Color:
-
Customers' Demand
-
Battery cell:
-
18650
-
Apllication:
-
Stacker AGV Tow Tractor/Forklift
Product Description
Specification
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Item
|
E-lary 48V 32Ah AGV Lithium Battery Parameter
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|
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Specification
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Model Number
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EDY-SZ03
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|
|
|
Product Size
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300*255*155mm
|
|
|
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Capacity
|
32Ah
|
|
|
|
Voltage
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48V
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|
|
|
Operating Temperature
|
-10℃~60℃
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|
|
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Cycle Life
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≥ 3000 Cycles
|
|
|
Payment
|
Terms Of Payment
|
TT
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|
|
Usage
|
AGV, Forklift, Stacker AGV Tow Tractor
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|
|
Details Images
Advantages Of Custom Lithium-ion Battery
Flexible Form Factors: Custom lithium-ion batteries can be designed to fit specific shapes and sizes, allowing them to be integrated into devices where standard-sized batteries wouldn’t fit. This flexibility enables innovation in product design.
Optimized Performance: Tailoring the battery to a particular device or application allows for optimized performance. This includes adjusting capacity, voltage, and discharge rates to meet the specific power requirements of the device, leading to improved efficiency and longevity.
Enhanced Safety Features: Custom batteries can incorporate specialized safety features tailored to the device’s needs. This can include advanced protection circuits, thermal monitoring, and improved chemical compositions to minimize the risk of overheating, overcharging, or short circuits.
Higher Energy Density: By customizing the battery’s internal components and materials, manufacturers can achieve higher energy density. This means the battery can store more energy in a smaller space, offering longer runtimes without increasing size or weight.
Longer Lifespan: Customized lithium-ion batteries can be engineered for longevity, using higher-quality materials and design strategies that reduce degradation over time. This results in a longer lifespan and more reliable performance, reducing the frequency of replacements.
Tailored for Specific Applications: Custom batteries can be developed for specialized applications such as medical devices, aerospace equipment, or electric vehicles. These batteries can be optimized for the unique demands of these industries, ensuring reliability and safety in critical scenarios.
Improved Charging Efficiency: Custom battery designs can incorporate features that enhance charging efficiency, such as rapid charging capabilities or compatibility with specific charging protocols, reducing downtime for users.
Environmental Impact: Custom lithium-ion batteries can be designed with eco-friendly materials and manufacturing processes, contributing to reduced environmental impact compared to standard off-the-shelf batteries.
The Difference Between Custom Copper-nickel Packaging Casing Cell Lithium Batteries And Conventional Shell Packaging
1. **Material Composition:** Customized copper-nickel packaging uses a combination of copper and nickel as the casing material. This blend provides improved thermal conductivity, better resistance to corrosion, and enhanced mechanical strength compared to conventional shell packaging made of materials like aluminum or steel.
2. **Thermal Conductivity:** Copper-nickel casings offer superior thermal conductivity, enabling better heat dissipation from the battery cells. This helps in maintaining optimal operating temperatures and mitigating risks associated with overheating, which can be a concern in conventional shell packaging.
3. **Corrosion Resistance:** Copper-nickel alloys have a higher resistance to corrosion compared to some materials used in conventional shell packaging. This resistance can contribute to longer battery lifespan and reliability, especially in harsh environmental conditions.
4. **Mechanical Strength:** The customized copper-nickel casing provides increased mechanical strength and durability, offering better protection to the internal components of the battery against physical damage or external pressure compared to conventional shells.
5. **Manufacturing Process:** The manufacturing process for customized copper-nickel packaging might differ from conventional shell packaging methods, potentially leading to a more intricate or specialized production process. This could impact cost, scalability, and feasibility for large-scale production.
6. **Specific Applications:** Customized copper-nickel casings might be tailored for specific applications where higher performance, reliability, or safety standards are required, whereas conventional shell packaging may be more widely used in general applications due to cost-effectiveness.
Lithium batteries find extensive use across various industries and applications due to their high energy density and rechargeable nature. Some common applications include:
Consumer Electronics: Lithium batteries power numerous devices like smartphones, laptops, tablets, cameras, and wearable tech due to their high energy-to-weight ratio and long life cycle.
Electric Vehicles (EVs): Lithium-ion batteries are crucial in the automotive industry, powering electric cars, buses, and bikes due to their ability to store large amounts of energy efficiently.
Renewable Energy Storage: They play a significant role in storing energy generated from renewable sources like solar panels and wind turbines, providing a consistent power supply even when the primary source is unavailable.
Medical Devices: Lithium batteries are used in medical equipment such as pacemakers, defibrillators, and portable medical devices due to their reliability and long-lasting power.
Aerospace and Aviation: They are utilized in satellites, aircraft, and space missions due to their lightweight nature and ability to provide reliable power in extreme conditions.
Power Tools: Cordless power tools like drills, saws, and trimmers often use lithium batteries for their high energy density, allowing for longer usage between charges.
Energy Storage Systems (ESS): Large-scale lithium-ion batteries are employed in grid-scale energy storage systems to manage power demand fluctuations and provide backup during peak loads.
Marine and Maritime: Lithium batteries are increasingly being used in marine applications such as electric boats and submarines due to their energy density and potential for clean energy solutions.
Backup Power Systems: They serve as backup power sources for critical infrastructure, data centers, and telecommunications during power outages.
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