CP502495 lithium manganese primary soft pack battery
- Omnergy
- China
- 15 days
- 750 million per year
The size is 5.0×24×95mm (thickness×width×length), and the weight is only 23g, which is lighter than the steel shell battery of the same capacity. It supports 5mm ultra-thin customization and is suitable for scenes that are sensitive to thickness, such as bank cards and flexible electronic patches.
1. Core product features: miniaturization and extreme environment adaptability
Model | Nominal Voltage (V) | Nominal Capacity (mAh) | Standard Current (mA) | Max Continuous Current (mA) | Max Pulse Current (mA) | Max Dimensions (mm) | The Electrode Structure | Weight Approx (g) |
| CP114752 | 3.0 | 520mAh | 1mA | 50mA | 100mA | 1.15*47*52 | Laminating Structure | 4.8 |
| CP223830 | 3.0 | 400mAh | 2mA | 100mA | 200mA | 2.2*39*30 | Winding Structure | 3.6 |
| CP224147 | 3.0 | 900mAh | 5mA | 200mA | 400mA | 2.2*45*48 | Winding Structure | 7.5 |
| CP224642 | 3.0 | 920mAh | 2mA | 50mA | 150mA | 2.2*46*42 | Laminating Structure | 7.5 |
| CP255083 | 3.0 | 2400mAh | 5mA | 800mA | 1500mA | 2.5*50*83 | Winding Structure | 18.0 |
| CP262030 | 3.0 | 260mAh | 1mA | 16.5mA | 50mA | 2.6*20*30 | Laminating Structure | 2.5 |
| CP301330 | 3.0 | 180mAh | 1mA | 50mA | 100mA | 3.0*13*30 | Winding Structure | 1.8 |
| CP302525 | 3.0 | 400mAh | 1mA | 16.5mA | 50mA | 3.0*25*25 | Laminating Structure | 3.5 |
| CP302752 | 3.0 | 1030mAh | 2mA | 66mA | 100mA | 3.0*27*52 | Laminating Structure | 7.5 |
| CP302775 | 3.0 | 1450mAh | 5mA | 300mA | 500mA | 3.0*27*75 | Winding Structure | 10.5 |
| CP305050 | 3.0 | 2000mAh | 3mA | 66mA | 200mA | 3.0*50*51 | Laminating Structure | 14.0 |
| CP332544 | 3.0 | 750mAh | 5mA | 150mA | 300mA | 3.3*25.5*44 | Winding Structure | 6.0 |
| CP332544 | 3.0 | 900mAh | 1mA | 50mA | 90mA | 3.3*25.5*44 | Laminating Structure | 7.0 |
| CP352865 | 3.0 | 1500mAh | 5mA | 400mA | 800mA | 3.5*28*65 | Winding Structure | 11.0 |
| CP383047 | 3.0 | 1300mAh | 5mA | 400mA | 800mA | 3.9*30*47 | Winding Structure | 9.5 |
| CP403555 | 3.0 | 1600mAh | 5mA | 400mA | 800mA | 4.0*35*55 | Winding Structure | 12.0 |
| CP405050 | 3.0 | 2500mAh | 10mA | 800mA | 1500mA | 4.0*50*51 | Winding Structure | 18.5 |
| CP405060 | 3.0 | 3200mAh | 10mA | 1000mA | 2000mA | 4.0*50*60 | Winding Structure | 24.0 |
| CP502030 | 3.0 | 900mAh | 1mA | 16.5mA | 50mA | 5.0*20*30 | Laminating Structure | 7.0 |
| CP502525 | 3.0 | 600mAh | 2mA | 100mA | 200mA | 5.0*25*25 | Winding Structure | 4.8 |
| CP502440 | 3.0 | 1200mAh | 5mA | 300mA | 500mA | 5.2*24*41 | Winding Structure | 9.0 |
| CP502495 | 3.0 | 3500mAh | 3mA | 100mA | 300mA | 5.0*24*95 | Laminating Structure | 23.0 |
| CP5024110 | 3.0 | 4000mAh | 5mA | 120mA | 350mA | 5.0*24*110 | Laminating Structure | 29.0 |
| CP505050 | 3.0 | 3300mAh | 10mA | 1000mA | 2000mA | 5.0*50*51 | Winding Structure | 23.5 |
| CP505070 | 3.0 | 5000mAh | 10mA | 1500mA | 2500mA | 5.0*50*70 | Winding Structure | 34.5 |
| CP552723 | 3.0 | 850mAh | 1mA | 16.5mA | 50mA | 5.5*27*23 | Laminating Structure | 7.0 |
| CP583083 | 3.0 | 4000mAh | 10mA | 1000mA | 2000mA | 5.8*30*83 | Winding Structure | 27.0 |
| CP583083 | 3.0 | 4500mAh | 5mA | 120mA | 350mA | 5.8*30*83 | Laminating Structure | 27.0 |
| CP601967 | 3.0 | 1800mAh | 5mA | 300mA | 500mA | 6.0*19*65 | Winding Structure | 13.5 |
| CP602429 | 3.0 | 1100mAh | 2mA | 16.5mA | 50mA | 6.0*24*29 | Laminating Structure | 8.0 |
| CP602446 | 3.0 | 1600mAh | 5mA | 400mA | 800mA | 6.0*24*46 | Winding Structure | 12.0 |
| CP602446 | 3.0 | 1900mAh | 3mA | 66mA | 200mA | 6.0*24*46 | Laminating Structure | 13.0 |
Ultra-thin flexible design
The size is 5.0×24×95mm (thickness×width×length), and the weight is only 23g, which is lighter than the steel shell battery of the same capacity. It supports 5mm ultra-thin customization and is suitable for scenes that are sensitive to thickness, such as bank cards and flexible electronic patches.
The aluminum-plastic film packaging structure has better anti-vibration performance than hard shell batteries and is suitable for wearable devices and industrial sensors.
Military-grade environmental tolerance
The operating temperature range is extended to -20℃~+60℃, and the discharge platform can still be maintained above 2.5V in low temperature environment, meeting the extreme needs of cold area logistics trackers, high-altitude drone power supplies, etc.
Passed IEC60086-4 and UL safety certification, the product quality is guaranteed.
Environmental protection and long-term storage
No heavy metals such as lead and mercury, in compliance with the RoHS directive; the annual self-discharge rate is less than 1%, the storage life at room temperature is long, and the equipment supports maintenance-free deployment.
2. Performance parameters: high pulse capability and energy efficiency optimization
Capacity and discharge characteristics: nominal capacity 3500mAh, supports 100mA continuous current and 300mA pulse current, suitable for RFID tag burst communication.
Voltage stability: the discharge curve is flat, and the voltage in the 90% capacity release interval is maintained at 2.7-3.0V, ensuring the stable operation of the MCU and RF module.
3. Innovative application scenarios: from consumer electronics to cutting-edge technology
Smart IoT terminal
Dynamic anti-counterfeiting label: powering luxury NFC chips to achieve traceability verification; ultra-thin design embedded in the packaging layer, non-sensing integration.
Medical disposable equipment: driving wireless body temperature patches, insulin injection recorders.
Industrial special equipment
Oilfield sensor nodes: -20℃ low temperature resistance ensures continuous operation of downhole pressure sensors in extremely cold conditions.
Military individual system: provides instantaneous high pulse current for night vision GPS modules, and the weight is reduced by 50% compared with traditional batteries.
Breakthroughs in emerging fields
Degradable electronic devices: Combined with environmentally friendly substrates to achieve overall biodegradation of batteries, used in agricultural monitoring sensors.
Redefining energy standards for micro devices
CP502495 has become the preferred power supply for high-reliability IoT nodes with its military-grade environmental adaptability, 10-year maintenance-free life and pulse response advantages. With the acceleration of the industrialization of lithium-rich manganese-based materials and the reduction of soft package customization costs, this model will open up a new application paradigm in scenarios such as implantable medical care and deep space exploration. For developers, its "install-and-use" feature significantly reduces the full-cycle operation and maintenance costs of remote devices, helping to implement distributed intelligent systems.
