1. High energy density: up to 420WH/kg and 800WH/dm3
2. High operation voltage, 3.3V~3.6V upon loading resistance
3. Excellent storage life, less than 1% of self-discharging rate per year and self-life is more than 10 years under the room temperature.
4. Wide operating temperature range, -55 ~+85.
5. Be safe for transportation and general shock. No leakage problem.
Li-SoCL2 Battery deliver a voltage of 3.6 V and with cylindrical, prismatic and wafer in shape, which has a high energy density and the widest operating temperature range of -55C to + 150oC. especially self-discharge is extremely low (less than 1% per year), so it support long storage periods and achieve a service life of 8 to 10 years.
Principle and Reactions:
The Li-SOCl2 battery uses liquid Thionyl Chloride (SOCl2) as its positive active material, and Lithium (Li) as its negative active material. The reactions of the batteries are shown below.
Positive reaction: 2SOCl2 + 4Li+ + 4e- 4LiCl + S + SO2
Negative reaction: Li Li+ + e-
Total reaction: 2SOCl2+4Li 4LiCl+ S + SO2
1. High operating voltage
2. Extension of temperature range up to +150
3. Superior shelf life and high reliability.
4. Smaller in capacity more than 10 years under the room temperature.
5. Wide operating temperature range, -55 ~+85.
6. Be safe for transportation and general shock. No leakage problem.
Li-SoCL2 Battery deliver a voltage of 3.6 V and with cylindrical, prismatic and wafer in shape, which has a high energy density and the widest operating temperature range of -55C to + 150oC. especially self-discharge is extremely low (less than 1% per year), so it support long storage periods and achieve a service life of 8 to 10 years.
1. High operating voltage
2. Extension of temperature range up to +150.
3. Superior shelf life and high reliability.
4. Smaller in capacity.
The Li-SOCl2 battery uses liquid Thionyl Chloride (SOCl2) as its positive active material, and Lithium (Li) as its negative active material. The reactions of the batteries are shown below.
Positive reaction: 2SOCl2 + 4Li+ + 4e- ?4LiCl + S + SO2
Negative reaction: Li Li+ + e-
Total reaction: 2SOCl2+4Li 4LiCl+ S + SO2
1) High Voltage: 3.0V per cell.
2) High Capacity or High rate cell construction
3) High Capacity for longer running time
4) Low self-discharge for long life
5) A wide temperature range. -40 to +85
6) Stable discharge characteristics.
7) Superior leakage resistance.
Li-MnO2 Battery deliver a voltage of 3.0 V and with cylindrical, button and polymer in shape, which has a High Capacity or High rate cell construction. Focused on the requirements of backup of safety critical electronic data in the metering and security market, MINAMOTO offers a complete range of highly reliable Primary Lithium Batteries.
Principle and Reactions:
The coin-type and cylindrical Li-MnO2 battery uses Manganese Dioxide (MnO2) as its positive active material, Lithium (Li) as its negative active material.
Positive reaction: MnO2 + Li+ + e? MnOOLi
Negative reaction: Li Li+ + e?
Total reaction: MnO2 + Li MnOOLi
Li-MnO2 Battery deliver a voltage of 3.0 V and with cylindrical, button and polymer in shape, which has a High Capacity or High rate cell construction. Focused on the requirements of backup of safety critical electronic data in the metering and security market, MINAMOTO offers a complete range of highly reliable Primary Lithium Batteries.
Features:
1) High Voltage: 3.0V per cell.
2) Low self-discharge rate and long life.
Self-discharge rate: less than 2% per year at room
3) Stable discharge characteristics.
4) a wide temperature range. -20 to +60.
5) Superior leakage resistance
Voltage : 3.0V
Capacity : 210mAh
Max Continuous Discharge current
3mAh
Max Pulse
Discharge current : 15mA
Dimension(mm) : 20.2x3.5
Weight : 3.1g
Specifications
Hign-concerned Chemical
None
Certification
CE
Max Output
25W
Shell Material
Plastic
Features
Digital Display,Charger & Battery in 1,With Led Lamp,Wireless Charge
Support Quick Charge Technology
Two-way Quick Charge
Input Interface
USB Type C,USB
Output Interface
Double USB,USB-Type C,Wireless Charger
Brand Name
MIJIA
Battery Type
Lithium Battery
Origin
Mainland China
Type
Portable Power Bank
Lead powder and lead concentrate are different forms of lead that serve various industrial purposes. Here's an overview of each:
Lead Powder: Form: Lead powder refers to finely ground particles of lead metal, typically in powder or granular form.
Uses:
Battery Manufacturing: Lead powder is often used in the production of lead-acid batteries.
Radiation Shielding: Lead is known for its ability to absorb and shield against radiation, and lead powder can be used in various applications where radiation protection is required.
Ammunition: Lead powder is a component in the production of ammunition and bullets.
Metal Coatings: It may be used in the manufacturing of certain types of paints and coatings.
Lead Concentrate:
Form: Lead concentrate is a raw material derived from the mining and processing of lead ores. It is not a pure form of lead but rather a mixture containing lead and other minerals.
Composition: Lead concentrate typically contains lead sulfide (galena) as the primary mineral, along with other sulfide minerals.
Processing: The lead concentrate is further processed through smelting to extract pure lead metal.
Uses: Lead concentrate is a crucial intermediate product in the production of refined lead.
It is an essential raw material for lead smelters, where the lead is separated from impurities and processed into the desired forms.
Lead concentrate may also contain valuable by-products such as silver and zinc.
