303450 3.7V 500mAh Lithium Rechargeable Battery

Additional information

Rated Voltage


Rated Capacity


Battery Size


Charge Temperature


Discharge Temperature



Digital Products

Lithium Battery Process Work Flow

We are a professional lithium battery factory in China. Now we briefly introduce how to produce lithium batteries. It starts from cathode & anode mixing, coating, baking, calendering, automatic slitting & cutting, winding, top & side sealing, electrolyte injection, pressing formation, forming, capacity grading, OCV1 & OVC2, cell to PCB, insulation and shipping. Welcome to contact and ask for the workflow table list.

Product Details

Product number: HLC303450
Cell model:303450/3.7V/500mAh
Battery specification: 303450-1S1P/3.7V/500mAh(lithium battery)
Nominal voltage:3.7V
Nominal capacity:500mAh
Charging voltage: 4.2V
Charging current: ≤500mA
Discharging current: ≤500mA
Instant discharging current: 500mA
End-off voltage: 3V
Internal resistance: ≤80mΩ
Battery weight: 10g
Product dimension: 30*34*50mm
Charging temperature:0~45℃
Discharging temperature: -20~60℃
Storage temperature: -20~45℃
Battery case: Aluminum plastic pouch cell
Application field: Digital Products

Polymer Battery Description:

The 303450/500mAh polymer battery contains anode, cathode, electrolyte, tab, aluminum plastic film and others. We use A-grade materials to ensure good performance. Of course, the production process is the key to achieve well charge & discharge performance. It shall not have expansion, interior short-circuit, low-capacity, high resistance, leak issues.

Apart from cell, we can discuss the PCM(protection board). It is a pre-equipped IC chip and moseft. it is applied to the protection of lithium-ion battery from overcharge、over discharge over current and short-circuit. Its main organ: IC/UI, Moseft/U4. Following is our battery safety performance:

  1. Over-charge protection:
    At 20±5℃ conditions, after fast-charging, use an external 5V power to charge the battery and last for 24 hours, then check the appearance of battery. The appearance is normal, no explosion, no fire, no smoking, no leakage.
  2. Over-discharge protection:
    At 20±5℃ conditions, discharge battery to 2.5V with 0.2 C5A constant current, then discharge with 30Ω loading for 24 hours. Check the appearance of battery. The appearance is normal, no explosion, no fire, no smoking, no leakage.
  3. Short-circuit protection:
    After fast-charging, use a cable of 0.1Ω resistance to short the battery for 24 hour. Then check the appearance of battery. Cut circuit of resistance test the battery’s voltage after charging with 1 C5A constant current for 5 seconds. The appearance is normal, no explosion, no fire, no smoking, no leakage.
  4. Forced discharge
    Discharge the cell to the cut-off voltage with 0.2C current and then reverse charge the cell for more than 90 mins with 1 C5A current. No fire, no explosion.
  5. Overcharge
    After discharged with 0.2 C5A to the cut-off voltage, charge the cell with 1.0 C5A /4.6V for 7.0hrs. No explosion, no fire
  6. Vibration
    The fully charged cell is vibrated from 90 to 100 minutes at three mutually perpendicular planes with excursion of 0.8mm, and change the frequency from 10 to 55 HZ with 1Hz/min speed. No leakage, no fire, no explosion.
  7. Short test
    Short circuit the fully charged cell by connecting the positive and negative terminals with resistance load 80±20 mΩ at room temperature 20~25℃. The cell remains on test for 24 hrs or until the surface temperature declines by 20 % of the maximum temperature rise, whichever is the sooner. No fire, no explosion.The temperature of the cell surface not exceeds 150 ℃.
  8. Soak test
    Put the fully charged cell into pure water, soaked for 24 hours. No broken, no fire.
  9. Crush test
    A fully charged cell is to be crushed between two flat surfaces. The force for the crushing is to be applied by a hydraulic ram or similar force mechanism. The flat surfaces are to be brought in contact with the cell and the crushing is to be continued until an applied force of 13 ±1kN is reached. Once the maximum force has been obtained it is to be released. No fire, no explosion
  10. Free fall
    The cell free falls from a height of 1m into the cement floor from X,Y,Z front and opposite direction of each direction. Then discharge the cell to 3.0*n(V) cut-off voltage with 1.0C current. No leakage, no fire, no explosion.

Lithium battery advantage:

  • High safety: It is undeniable that polymer batteries are safer than 18650 batteries, or the harm is not too great.
  • Large capacity: Compared with ordinary batteries, the capacity of polymer is relatively large, and the gram capacity is as high as 100/115mAh/g.
  • Flexible shape: Since the polymer is wrapped in aluminum film, there is no fixed shape, it can be made into a flat battery, or it can be customized with different shapes according to the needs of different customers to meet different needs, which is very flexible.
  • Fast charging speed: Compared with other types of batteries, polymer batteries charge fast and discharge current is relatively stable.
  • Lightweight: The polymer battery is lighter than the 18650 battery because it is protected by a hard case.


  • Which certificates will we provide?
    We will provide the MSDS, UN38.3, IEC62133, UL1642, KC, PSE certificates.
  • How long will customers get samples?
    7~10 days for samples. We will also privde the testing report.
  • What’s the MOQ?
    Generally 7~10 days. Must do capacity grading before delivering.
  • Which countries did you work with?
    We have been working with USA, German, Japan, Korean and other countries.

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