1. Voltage consistency: When used in the battery pack, the voltage consistency of
prismatic aluminum shell lithium battery is good.
2. Long cycle life: prismatic aluminum shell lithium battery supports multiple charge and discharge cycles,
generally up to more than 1000 times, some high-quality batteries can even reach 2000 times or more.
3. High voltage platform: the nominal voltage is 3.7V, which makes the prismatic aluminum shell lithium battery
much higher than the conventional nickel-cadmium or nickel-metal hydride battery (1.2V).
4. No memory effect: Unlike nickel battery, prismatic aluminum shell lithium battery has no memory effect
and can be charged at any time without affecting the capacity and life of the battery.
5. Fast charging capability: Many prismatic aluminum shell lithium batteries support fast charging technology,
which can charge a large amount of electricity in a short time.
6. Safety performance: The high-quality prismatic aluminum shell lithium battery is equipped with a safety protection circuit,
such as overcharge, overdischarge, overheating and short circuit protection,
to prevent the battery from causing danger in abnormal situations.
7. Low temperature performance: Prismatic aluminum shell lithium battery models are specially designed
to maintain good performance in low temperature environment, and are suitable for equipment in cold areas.
8. Generality: Prismatic aluminum shell lithium battery has a high versatility because of its standardized design,
and can be used in a variety of electronic devices, such as flashlights, power tools, notebook computers,
electric bicycles, etc.
9. Customisability: Prismatic aluminum shell lithium battery can be combined into a battery pack in series and in parallel
to meet the voltage and capacity requirements of specific applications.
10. Environmental protection: Prismatic aluminum shell lithium battery does not contain toxic substances,
and its high energy density helps to reduce the use of batteries, with little impact on the environment.
11Lithium Iron Phosphate VS. Lithium Ion Batteries
11Lithium Iron Phosphate VS. Lithium Ion Batteries
Guangdong Jiawei New Energy Technology Co.,Ltd. is a high-tech company integratingresearch
and development, manufacturing and sales of rechargeable battery products.
Since its inception, we adhere to the "integrity-based, service-oriented, sincere communication,
equality and attentiveness" as the core business philosophy , adhering to the "responsibility,innovation,
resilience" corporate culture, relying on high-quality requirements for the backing ofthe spirit of openness
and innavation in the lithium new energy industry.
FACTORY & WAREHOUSE
CERTIFICATES
JW1.5Ah 2.0Ah 2.2Ah 2.6Ah 3.7V IEC62133
JW1.5Ah-2.0Ah-2.2Ah-2.6Ah-3.7V-IEC62133 Certificate
JW5Ah-2.0Ah-2.2Ah-2.6Ah-3.7V-IEC62133 Test Report
JW18650-2600mAh-3.7V-BIS Test Report
JW18650-2600mAh-3.7V-BIS Certificate
JW18650-2600mAh-3.7V-PSE-Table 12 Report-MCM
Faq
Q:
Will high temperature lithium batteries explode?
A:
High temperature lithium batteries have a certain risk of explosion, but not all high temperature lithium batteries will explode.
The safe use temperature of lithium batteries is between 20 degrees Celsius and 60 degrees Celsius. Using lithium batteries
in a high temperature environment may trigger a chemical reaction inside the battery, resulting in the release of chemicals
inside the battery, thus increasing the risk of battery explosion.
However, most lithium batteries can still be used safely even at high temperatures. In order to ensure the safe use
of lithium batteries, you need to pay attention to the following points during use:
Avoid exposing lithium batteries to high temperatures for long periods of time, such as prolonged exposure to the hot sun or use in airtight electronic product cases.
2. Avoid mixing lithium batteries of different brands, specifications and capacities, as this may lead to short-circuiting
of the battery management chip, thus triggering an explosion.
3. Avoid overcharging or over-discharging during use, which may damage the battery management chip and increase
the risk of battery explosion.
4. In the process of using the battery should be kept well ventilated and heat dissipation, to avoid overheating of the battery.
In short, high-temperature lithium batteries have a certain risk of explosion, but as long as they are used correctly and cared for, this risk can be reduced.
Q:
What is the auto repair function of low temperature lithium battery?
A:
The automatic repair function of low temperature lithium battery means that the battery can still work normally in
low temperature environment and can be repaired automatically when failure occurs. This function is very important
for electronic products used in extreme environments, such as outdoor equipment in cold regions, automotive
electronics, spacecraft and so on.
The main principle of the low-temperature lithium battery auto-repair function is to add a special chemical substance
inside the battery in order to increase the conductivity of the battery in a low-temperature environment so as to
improve the efficiency of the battery. At the same time, this chemical substance can also be in the battery failure,
automatically repair the battery damage, to ensure the service life of the battery.
In conclusion, the low temperature resistant lithium battery auto-repair function is a technology that improves
the efficiency and lifespan of batteries in low temperature environments through special chemicals. This technology
plays an important role in improving the performance and reliability of electronic products and is widely used in various fields.
Q:
There are several welding methods for lithium batteries?
A:
Lithium battery welding methods are mainly the following:
Laser welding: laser welding uses a high-energy laser beam to irradiate on the battery cell, causing it to melt to form a welded joint. This welding method can realize efficient and precise welding, and will not cause thermal damage to the battery.
2. ultrasonic welding: ultrasonic welding uses high-frequency vibration energy to weld the battery cells together.
This welding method can realize efficient and precise welding, and will not cause thermal damage to the battery.
3. Resistance Welding: Resistance welding utilizes high voltage, low current electrical energy to generate heat through
the welding electrodes, melting the battery cells to form a welded joint. This welding method can realize efficient and
precise welding, but may cause thermal damage to the battery.
4. Laser spot welding: Laser spot welding utilizes a high-energy laser beam to irradiate the battery cells, causing them
to melt and form a welded joint. This welding method can realize efficient and precise welding, and will not cause thermal
damage to the battery.
In short, the welding method of lithium battery needs to be selected according to different product requirements and
material properties. When selecting the welding method, it is necessary to take into account the welding quality, production
efficiency, cost control and other factors.
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