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What are the benefits of using lithium-ion batteries?
Lithium-ion batteries have many advantages in terms of safety and functionality compared to other batteries such as lead-acid batteries. The key benefits include:
Lithium-ion batteries are smaller and more powerful than other batteries.
Comparing the characteristics of these batteries at the same size, the maximum voltages lithium-ion batteries can produce are 2.1V for lead-acid batteries, 1.2V for nickel-metal hydride batteries, and 1.25V for nickel-cadmium batteries. Lithium-ion batteries, on the other hand, can produce voltages as high as 3.2 to 3.7V.
Lithium-ion batteries stand up well to repeated charging and discharging.
Lithium-ion batteries do not utilize chemical reactions like other secondary batteries when making electricity. Therefore, compared to other secondary batteries, their electrodes deteriorate less, allowing them to stand up very well to repeated charging and discharging.
Lithium-ion batteries can be fast-charging.
A major feature of lithium-ion batteries is that they can be charged quickly. But fast charging, or charging done in a short time, is something that secondary batteries other than lithium-ion batteries can also do. However, with nickel-metal hydride batteries and nickel-cadmium batteries, it was difficult to determine when charging was finished, so fast charging was not put to practical use. Fast charging of lithium-ion batteries has been implemented because the charger can determine when charging is finished.
Lithium-ion batteries support wireless charging.
Wireless charging, or charging without a charging cable, is also possible with secondary batteries other than lithium-ion batteries, just like fast charging. Research is being conducted into a system that will make it possible in the future to charge electric vehicles simply by parking them in a parking lot.
Lithium-ion batteries are resistant to natural discharge (self-discharge).
Batteries display a phenomenon called “self-discharge,” the natural discharge of a battery even when it is not in use. For example, if you want to start the engine of a car that has not been driven for more than a month, you may not be able to turn the starter over because of low voltage. This so-called “dead battery” condition is caused by self-discharge.
Self-discharge occurs when a chemical reaction progresses little by little even when a battery is just left in inactive storage. This is why lithium-ion batteries, which use a slightly different reaction from the battery reaction that occurs in other secondary batteries, hardly self-discharge at all.
SPECIFICATIONS
Inverter
Rated Power | 4000w |
Output Voltage | 120v / 220V |
Output Frequency | 50HZ / 60HZ |
Output Waveform | Pure Sine Wave |
Conversion Time AC/DC | <8ms |
Battery (Lithium Iron Phosphate Battery)
Nominal Voltage | 51.2V |
Nominal Capacity | 100Ah * 2/3/4/5/6 |
Discharge Cut-Off | 42.4V |
Charge Cut-Off | 58.4V |
Charge Temperature | 0℃ – 45℃ |
Discharge Temperature | -20℃ – 60℃ |
Charge Method | CC/CV |
Life Cycle | 2000+ |
BMS Communication Baud Rate | 125kbps |
BMS Communication Protocol | RS485, RS232, CAN BUS |
Size (mm) | 530 * 420 * 1220 (20KWH) |
Certain applications benefit greatly from custom battery solutions. Watercraft, aircraft and other vehicles, for instance, have weight and balance specifications to meet, and customizing your battery helps meet those requirements. Our custom lithium battery packs offer turnkey solutions that combine lithium battery cells, a battery management system, mechanicals, communications and safety certifications.
Customized logo(Min. Order 100 Pieces)
Customized packaging(Min. Order 100 Pieces)
APPLICATION SCENARIOS
As local storage technologies for household use, they are smaller relatives of battery-based grid storage and support the concept of distributed generation. When combined with on-site generation, they can virtually eliminate power outages in off-grid lifestyles.
Lithium-ion batteries power a variety of devices—power tools, laptops, tablets, cell phones, and electric vehicles. They have some distinct advantages over wet cell lead-acid batteries, such as those you find in cars. Rapidly falling prices and developments in lithium-ion batteries and related technologies are changing all that. The new generation of solar storage is cheaper, more cost-effective, leaner and better looking.
What are the benefits of using lithium-ion batteries?
Lithium-ion batteries have many advantages in terms of safety and functionality compared to other batteries such as lead-acid batteries. The key benefits include:
Lithium-ion batteries are smaller and more powerful than other batteries.
Comparing the characteristics of these batteries at the same size, the maximum voltages lithium-ion batteries can produce are 2.1V for lead-acid batteries, 1.2V for nickel-metal hydride batteries, and 1.25V for nickel-cadmium batteries. Lithium-ion batteries, on the other hand, can produce voltages as high as 3.2 to 3.7V.
Lithium-ion batteries stand up well to repeated charging and discharging.
Lithium-ion batteries do not utilize chemical reactions like other secondary batteries when making electricity. Therefore, compared to other secondary batteries, their electrodes deteriorate less, allowing them to stand up very well to repeated charging and discharging.
Lithium-ion batteries can be fast-charging.
A major feature of lithium-ion batteries is that they can be charged quickly. But fast charging, or charging done in a short time, is something that secondary batteries other than lithium-ion batteries can also do. However, with nickel-metal hydride batteries and nickel-cadmium batteries, it was difficult to determine when charging was finished, so fast charging was not put to practical use. Fast charging of lithium-ion batteries has been implemented because the charger can determine when charging is finished.
Lithium-ion batteries support wireless charging.
Wireless charging, or charging without a charging cable, is also possible with secondary batteries other than lithium-ion batteries, just like fast charging. Research is being conducted into a system that will make it possible in the future to charge electric vehicles simply by parking them in a parking lot.
Lithium-ion batteries are resistant to natural discharge (self-discharge).
Batteries display a phenomenon called “self-discharge,” the natural discharge of a battery even when it is not in use. For example, if you want to start the engine of a car that has not been driven for more than a month, you may not be able to turn the starter over because of low voltage. This so-called “dead battery” condition is caused by self-discharge.
Self-discharge occurs when a chemical reaction progresses little by little even when a battery is just left in inactive storage. This is why lithium-ion batteries, which use a slightly different reaction from the battery reaction that occurs in other secondary batteries, hardly self-discharge at all.
SPECIFICATIONS
Inverter
Rated Power | 4000w |
Output Voltage | 120v / 220V |
Output Frequency | 50HZ / 60HZ |
Output Waveform | Pure Sine Wave |
Conversion Time AC/DC | <8ms |
Battery (Lithium Iron Phosphate Battery)
Nominal Voltage | 51.2V |
Nominal Capacity | 100Ah * 2/3/4/5/6 |
Discharge Cut-Off | 42.4V |
Charge Cut-Off | 58.4V |
Charge Temperature | 0℃ – 45℃ |
Discharge Temperature | -20℃ – 60℃ |
Charge Method | CC/CV |
Life Cycle | 2000+ |
BMS Communication Baud Rate | 125kbps |
BMS Communication Protocol | RS485, RS232, CAN BUS |
Size (mm) | 530 * 420 * 1220 (20KWH) |
Certain applications benefit greatly from custom battery solutions. Watercraft, aircraft and other vehicles, for instance, have weight and balance specifications to meet, and customizing your battery helps meet those requirements. Our custom lithium battery packs offer turnkey solutions that combine lithium battery cells, a battery management system, mechanicals, communications and safety certifications.
Customized logo(Min. Order 100 Pieces)
Customized packaging(Min. Order 100 Pieces)
APPLICATION SCENARIOS
As local storage technologies for household use, they are smaller relatives of battery-based grid storage and support the concept of distributed generation. When combined with on-site generation, they can virtually eliminate power outages in off-grid lifestyles.
Lithium-ion batteries power a variety of devices—power tools, laptops, tablets, cell phones, and electric vehicles. They have some distinct advantages over wet cell lead-acid batteries, such as those you find in cars. Rapidly falling prices and developments in lithium-ion batteries and related technologies are changing all that. The new generation of solar storage is cheaper, more cost-effective, leaner and better looking.