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Brand Name: | RESKY |
Model Number: | LP403048 |
MOQ: | 100pcs |
Price: | Negotiable |
Packaging Details: | Paper box |
Payment Terms: | Western Union,T/T |
Lithium Ion Polymer Battery 403048 3.7V 600mAh 2.22wh Lipo Battery Cell For Pet Gps Tracker
NO. | Items | Specifications |
1 | batteries | 3.7v 600mah lipo battery |
2 | Charge voltage | 4.2V |
3 | Nominal voltage | 3.7V |
4 | Nominal capacity | 600mAh 0.2C Discharge |
5 | Charge current |
Standard Charging:0.5C Rapid charge: 1.0C |
6 | Standard Charging method | 0.5C CC(constant current)charge to 4.2V, then CV(constant voltage 4.2V)charge till charge current decline to ≤0.05C |
7 | Charging time |
Standard Charging:2.75hours(Ref.) Rapid charge: 2hours(Ref.) |
8 | Max.charge current | 0.5C |
9 | Max.discharge current | 1.0C |
10 | Discharge cut-off voltage | 2.5V0.25V(0.2C) |
11 | Operating temperature | Charging: 0 °C ~45 °C Discharging:0 °C ~45 °C |
12 | Storage temperature | -10°C~ +45 °C |
13 | Dimension | Length: 48±2mm (not including tabs) Width: 30±0.5mm Thickness:4±0.2mm |
14 | Drop Test | The cell is to be dropped from a height of meter twice onto concrete ground. No fire, no leakage |
15 | cycle time | ≥500times |
Application:
Consumer Electronics:
Smartphones and Tablets: Li-poly batteries are the primary power source for these devices, enabling long battery life and compact designs.
Wearable Devices: From smartwatches to fitness trackers, Li-poly batteries provide the necessary power for extended use without adding significant weight.
Cameras: Digital cameras, especially mirrorless and DSLR models, often use Li-poly batteries to support high-energy operations like continuous shooting and video recording.
Military and Aerospace:
Portable Military Electronics: Li-poly batteries are used in various military devices for their high energy density and reliability.
Satellites and Spacecraft: In aerospace applications, Li-poly batteries are carefully engineered to meet strict safety and performance requirements.
Production steps for lithium polymer battery cell:
Positive electrode material preparation:
Using ternary materials (composite oxides of nickel, cobalt and manganese) as active materials, positive electrode plates are made through stirring, coating and other processes.
Negative electrode materials: Carbon materials such as graphite are usually used, and negative electrode plates are made through coating and rolling.
Electrolyte: It is a mixture of lithium salt (such as lithium hexafluorophosphate) and organic solvent, which directly affects the performance of the battery.
Key production steps:
Slurry preparation: The positive and negative active materials are mixed with the binder to form a uniform slurry, which is then coated on metal foil (such as copper foil or aluminum foil) after being stirred by a vacuum mixer without bubbles.
Pole plate processing: The coated pole plates are dried, rolled (densified) and cut to form pole plates of specific sizes.
Battery assembly: The positive and negative pole plates, separators, etc. are assembled into a battery cell and injected with electrolyte.
Formation and testing: Activate battery performance through charge and discharge cycles and screen out unqualified products
Pictures:
![]() |
Brand Name: | RESKY |
Model Number: | LP403048 |
MOQ: | 100pcs |
Price: | Negotiable |
Packaging Details: | Paper box |
Payment Terms: | Western Union,T/T |
Lithium Ion Polymer Battery 403048 3.7V 600mAh 2.22wh Lipo Battery Cell For Pet Gps Tracker
NO. | Items | Specifications |
1 | batteries | 3.7v 600mah lipo battery |
2 | Charge voltage | 4.2V |
3 | Nominal voltage | 3.7V |
4 | Nominal capacity | 600mAh 0.2C Discharge |
5 | Charge current |
Standard Charging:0.5C Rapid charge: 1.0C |
6 | Standard Charging method | 0.5C CC(constant current)charge to 4.2V, then CV(constant voltage 4.2V)charge till charge current decline to ≤0.05C |
7 | Charging time |
Standard Charging:2.75hours(Ref.) Rapid charge: 2hours(Ref.) |
8 | Max.charge current | 0.5C |
9 | Max.discharge current | 1.0C |
10 | Discharge cut-off voltage | 2.5V0.25V(0.2C) |
11 | Operating temperature | Charging: 0 °C ~45 °C Discharging:0 °C ~45 °C |
12 | Storage temperature | -10°C~ +45 °C |
13 | Dimension | Length: 48±2mm (not including tabs) Width: 30±0.5mm Thickness:4±0.2mm |
14 | Drop Test | The cell is to be dropped from a height of meter twice onto concrete ground. No fire, no leakage |
15 | cycle time | ≥500times |
Application:
Consumer Electronics:
Smartphones and Tablets: Li-poly batteries are the primary power source for these devices, enabling long battery life and compact designs.
Wearable Devices: From smartwatches to fitness trackers, Li-poly batteries provide the necessary power for extended use without adding significant weight.
Cameras: Digital cameras, especially mirrorless and DSLR models, often use Li-poly batteries to support high-energy operations like continuous shooting and video recording.
Military and Aerospace:
Portable Military Electronics: Li-poly batteries are used in various military devices for their high energy density and reliability.
Satellites and Spacecraft: In aerospace applications, Li-poly batteries are carefully engineered to meet strict safety and performance requirements.
Production steps for lithium polymer battery cell:
Positive electrode material preparation:
Using ternary materials (composite oxides of nickel, cobalt and manganese) as active materials, positive electrode plates are made through stirring, coating and other processes.
Negative electrode materials: Carbon materials such as graphite are usually used, and negative electrode plates are made through coating and rolling.
Electrolyte: It is a mixture of lithium salt (such as lithium hexafluorophosphate) and organic solvent, which directly affects the performance of the battery.
Key production steps:
Slurry preparation: The positive and negative active materials are mixed with the binder to form a uniform slurry, which is then coated on metal foil (such as copper foil or aluminum foil) after being stirred by a vacuum mixer without bubbles.
Pole plate processing: The coated pole plates are dried, rolled (densified) and cut to form pole plates of specific sizes.
Battery assembly: The positive and negative pole plates, separators, etc. are assembled into a battery cell and injected with electrolyte.
Formation and testing: Activate battery performance through charge and discharge cycles and screen out unqualified products
Pictures: