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Home > products > 24V Lithium Iron Phosphate Battery > Lithium Iron Phosphate 25.6V 60AH Battery With Smart BMS EWT Factory Wholesale Online

Lithium Iron Phosphate 25.6V 60AH Battery With Smart BMS EWT Factory Wholesale Online

Product Details

Place of Origin: China

Brand Name: EWT

Certification: MSDS

Model Number: LFP 24V 60AH

Payment & Shipping Terms

Minimum Order Quantity: 10

Price: 287USD/pc for 10-100pcs

Packaging Details: carton box+paper box

Delivery Time: 7-12 delivery days

Payment Terms: T/T

Supply Ability: 100pcs for 25-30 days

Get Best Price
Highlight:
Efficiency:
High
Self-Discharge Rate:
Low
Cycle Life:
Long
The Charging Ratio:
0.2C
Battery Model:
32700
Operating Temperature:
Wide
Discharge Rate:
Low
Charging Time:
Fast
Maintenance:
Free
Size:
Compact
Environmental Impact:
Low
Bms:
Yes
Environmental Friendliness:
Eco-friendly
Efficiency:
High
Self-Discharge Rate:
Low
Cycle Life:
Long
The Charging Ratio:
0.2C
Battery Model:
32700
Operating Temperature:
Wide
Discharge Rate:
Low
Charging Time:
Fast
Maintenance:
Free
Size:
Compact
Environmental Impact:
Low
Bms:
Yes
Environmental Friendliness:
Eco-friendly
Lithium Iron Phosphate 25.6V 60AH Battery With Smart BMS EWT Factory Wholesale Online

Lithium Iron Phosphate 25.6V 60AH Battery With Smart BMS EWT Factory Wholesale Online

 

 

species

 

Lithium Iron Phosphate

 

Voltage

32700-24V

 

capacity

60AH

 

Batteries

IFR32700 3.2V 6Ah

 

size

195*131*185mm

 

weight

14KG

 

Maximum charging current

30A

 

Maximum discharge current

100A

 

Display screen

No

 

Communication support

No

 

As an important part of new energy vehicles, the structural design and technological innovation of power batteries have always attracted much attention. In recent years, two different design concepts, CTP (Cell-to-Pack) and CTC (Cell-to-Chassis), have sparked heated discussions inside and outside the industry around the structural design of power batteries. This article will compare and analyze the two power battery structure design concepts, CTP and CTC, and discuss their advantages and disadvantages and their impact on the power battery industry.

 

CTP(Cell-to-Pack)

CTP is a design concept that integrates a single cell directly into a battery pack. In the CTP structure, the battery cell is specially designed and assembled to directly become a battery module, eliminating the traditional module assembly process. This design concept reduces the complexity of the battery system, reduces the loss of energy density, and improves the overall energy efficiency. The CTP structure of the battery pack can be more compact, reduce space waste, and at the same time have certain advantages in safety and heat dissipation.

 

CTC(Cell-to-Chassis)

CTC is to directly embed the battery cell into the chassis structure of the vehicle to realize the integrated design of the battery and the chassis. This design concept can make the battery cell more compactly installed in the vehicle chassis, improving the structural strength and stability of the whole vehicle. Compared with traditional on-board batteries, the CTC structure can effectively reduce the weight of the vehicle and improve the energy efficiency and performance of the vehicle. In addition, the CTC structure is also conducive to the thermal management and heat dissipation of the battery, and improves the safety and stability of the battery system.

 

CTP VS CTC

In the design concept of CTP and CTC, each has its own unique advantages. The CTP structure design is simple and compact, which is conducive to the overall energy efficiency improvement and space utilization of the battery system. The CTC structure pays more attention to the integrated design of the whole vehicle, which can improve the performance and safety of the whole vehicle.

 

However, CTP and CTC structures also have their own challenges and limitations. For example, the CTP structure still needs to solve technical problems in terms of battery cell thermal management and heat dissipation, while the CTC structure requires a higher level of vehicle design and manufacturing to achieve the perfect combination of battery and chassis.