1. Digital Cameras

The operation of digital cameras requires a continuous supply of energy and high energy density power supply, so almost all digital SLR cameras and mirrorless cameras will choose to use lithium-ion batteries for energy supply. In order to meet the photographer’s requirements for low weight, small size and excellent performance of digital cameras, many battery companies are now designing and manufacturing smaller and lighter lithium-ion batteries.

2. Emergency power reserve system

When the total power grid needs to be overhauled or a power instability problem occurs, a power outage may occur. And lithium-ion batteries are often used for emergency storage power. Distinguished from other standby energy systems and standby generators, the use of lithium-ion batteries as a standby power source can be realized to provide power instantly in the event of a power outage, with almost no waiting time. Because lithium-ion batteries can provide power at any time, they are particularly suitable for use in hospitals, science and technology departments, and other places where power must be maintained in order to function properly.

At the same time, lithium-ion batteries have a higher energy density, storage capacity, even if the power outage for a longer period of time, but also be able to have sufficient power to support the restoration of power supply, which means that lithium-ion batteries as a back-up power supply can be stable, continuous power supply.

3. Solar energy storage

With the popularization and development of solar power systems, more and more companies recognize that the presence of battery packs in the solar system largely determines the power supply capacity of solar power generation systems at night or in bad weather.

First of all, lithium-ion batteries are superior in their own performance: higher capacity density and longer cycle life. Using it as the battery pack of the solar system can store the excess power produced by the solar panels during the day, and then use it at night to supply energy directly to the family through the battery.

And the current choice to use lithium-ion batteries as solar system storage lies in their compatibility with solar panels. First of all, the charging characteristics of lithium-ion batteries and solar panels are compatible: lithium-ion batteries have the ability to charge quickly, and the charging resistance of solar panels is very low, so the characteristics of the two are compatible with each other to achieve the optimal charging and storage effects.

4. Monitoring and Alarm System in Remote Areas

For monitoring and alarm systems in remote areas, the cost of directly drawing power from the main grid is too high. The use of compact size, long life, small self-discharge rate of lithium-ion batteries for monitoring equipment power supply will obviously save a lot of power supply costs.

5. Electric Vehicle

First of all, we need to know that the engine of the electric vehicle, as well as the important power components, safety components, etc. are required by the power battery to provide operating energy. Thanks to the high capacity density of lithium-ion batteries and low self-discharge rate and other excellent performance, the current field of electric vehicles are lithium-ion batteries as the first choice for battery packs. The use of lithium-ion batteries as power packs enables higher discharge rates, lighter weight, and longer service life for accelerating electric vehicles. At the same time, using batteries to power vehicles can reduce greenhouse gas emissions and provide clean and efficient energy for transportation.

6. Medical Pacemakers

Lithium-ion batteries have a long service life, high energy density, and the ability to maintain a low draw current while increasing the operating voltage. These battery characteristics have led to lithium-ion batteries being widely used in other medical devices such as pacemakers. It is worth noting that the lithium-ion batteries installed in medical pacemakers are usually special miniature batteries weighing only a few tens of grams, with a service life of about ten years and a loss of only about ten percent of their capacity within five years, making them ideal for use in medical devices.

7. Mobile power for RVs

Caravan as a special model, its demand for electricity is larger, in the caravan traveling out of the caravan usually do not have access to charging places, and caravans are more likely to be idle for a long time compared to the situation.

In order to realize the continuous power supply to the caravan, it is very necessary to support the mobile power battery pack in the caravan. Ordinary lead-acid batteries are heavy and large, which is not a wise choice for the limited space of the caravan. Lithium-ion batteries can store a large amount of power in a small space, and can supply the RV with a longer driving distance. Lithium-ion batteries also have a longer lifespan, which saves money in the long term. It’s also worth noting that lithium-ion batteries are more chemically stable and offer greater safety in use. Therefore, considering the cost, longevity, and safety, the use of lithium-ion batteries as a mobile power source for motorhomes may be the best choice.

8. Battery packs used as mobile power sources

With the gradual increase in the use of cell phones and laptops in people’s lives, the advent of mobile power has largely eliminated much of the downtime in order to prevent keeping electronics on at all times.

Lithium-ion batteries are smaller than conventional lead-acid batteries and offer better performance. And when it comes to charging electronic products, lithium-ion batteries charge faster than lead-acid batteries. Secondly, the lithium-ion battery mobile power can withstand a greater degree of movement collision and temperature changes. From this, we can know that using lithium-ion batteries as the battery pack for mobile power is a cost-effective choice.