Polymer Lithium ion batteries

Polymer Lithium ion batteries are developed based on liquid lithium ion battery,Main applications are:Portable DVDs, laptop computers, mobile phones, blue-tooth devices, MP3/MP4 players, PDA's, R/C planes, power-driven tools & toys, battery-operated bicycles/cars have already adopted GMB's polymer technology.

Polymer Lithium ion batteries

MarkynCurvedTM lithium polymer batteries

MarkynCurvedTM lithium polymer batteries can be made at clients requirement, and it is one of our hit products, Bendable, rechargeable, thin, light, and with long shelf life

MarkynCurvedTM lithium polymer batteries

3.6V Lithium Batteries, i.e. ER14250 Batteries or More...

Quality Primary 3.6V lihtium batteries, including ER14250 battereis, LS14505, ER34615 and their high C-rate type and temperature type.

3.6V Lithium Batteries, i.e. ER14250 Batteries or More...

Thin battery, Both rechargable and Primary

Apart from samllest lipo batteries, you may also looking for ultra thin batteries, primary or rechargeable lithium thin batteries. And batteries that work at extremely high temperature(as high as 85°C) or low temperature(-40°C) for your special equipment? We are here at your service.

Thin battery,  Both rechargable and Primary

How battteries are made?

A. Lithium Polymer Battery




1. Mixing 
      ●Mix solvent and bond separately with positive and negative active materials. Make into positive and negative pasty materials after stirring at high speed till uniformity.

 2. Coating

      ●Coat metal foils uniformly with the made-up pasty materials on two sides. Then make sheets dry.


 3. Pressing

      ● Press the above positive and negative sheets till they become flat.


 4. Cutting

      ● Cut a roll of positive and negative sheet into smaller sheets according to battery specification and punching requests.


 5. Pole pieces

      ●Cut the pole pieces, solder poles, and plate adhesive tape automatically according to technical parameters.


 6. Winding

      ●Separate the positive and negative plate with separator, wind into battery cells along central spindle, and then plate terminate tape.


 7. Insulation Test 1

      ●After separate anode and cathode by separator paper; a battery cell has formed, then test its insulation.


 8. Sealing 1

      ●Seal the upside after putting the naked cell into soft aluminum foil .


9. Sealing 2

      ●Seal the left side.


 10. Insulation Test 2

      ●Test insulation of the terminal of the battery and the  aluminum foil.


 11. Insulation Test 3

      ●Test battery cell’s insulation again after sealing.


 12. Vacuum Drying

      ●Dry battery by vacuum, eliminate humid air gas completely, to make sure battery’s quality.


 13. Electrolyte filling

      ●Fill with electrolyte in a dry glove box, relative humidity must be under 1%.


14. Sealing 3

      ●Seal the filling opening in the glove box.


15. Detection
      ●Test battery’s internal resistance and the amount of electrolyte, see if it meets design requirements.




 16. Activiting

      ●Charge and discharge the battery for the first time or more times, connect it to computer, monitor and record its performance indicators.


 17. Air exhausting

      ●Air will exit inside battery after charging, draw it away until vacuum.


 18. Sealing 4

      ●Seal the right side, to insure good sealing performance.


19. Folding

      ●Cut the redundant soft aluminum foil and fold it automatically with an automatic folding machine.


20. Capacity testing

      ●Sort batteries according to their capacity with high-precision sorting equipments, which is watched and recorded their performances by computers at all times.


 21. Aging testing


      ●Store batteries in batches in warehouse after inspecting their internal resistance, voltage, capacity and size in the conditions of 10~45℃ and relative humidity of 65±20%. 30 days is needed. Batteries will be re-inspected regularly every 8 days.


 22. Assembly

      ●Assemble according to customers’ requests after aging. (The assembly ways can be different to meet the customer’s requests). The operator must inspect every batch battery's voltage, internal resistance and all aspect of performance before assembly.


 23. Final inspection

      ●Inspect performance indexes of finished batteries according to GB/T18287-2000, strictly in accordance with GB/T2828.1 to make outgoing quality control, every single battery must pass sampling inspection before leaving factory.


 24. Packaging

      ●Packaging consists of inner plastic tray and outer double corrugated carton, make them a whole pallet, strap them, wrap with stretch film to insure transportation safety, the packaging comply the regulation of packing storage graphic symbol GB191-1990.




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