Lithium Battery Chargers & Inverters

Redodo offers a wide range of LiFePO4 battery chargers. These include 14.6V chargers with various amperage options such as 10A, 20A, and 40A, which are ideal for 12V LiFePO4 batteries. Additionally, Redodo provides a 29.2V lithium ion battery charger for 24V battery setups. These batteries chargers feature a three-stage constant current/constant voltage (Pre-charging/CC/CV) charging modes, ensuring fast and safe charging. Each lithium battery charger is built with multiple safety features to protect both the charger and the battery during the process.

To select the appropriate LiFePO4 battery charger, it’s essential to match the charger to your battery’s nominal voltage and capacity. For example, if you have a 12V LiFePO4 battery, a 14.6V lithium battery charger with the appropriate amperage should be used. If you have a 24V LiFePO4 battery, consider a 29.2V battery charger to match it. It’s also crucial to consider the charger’s current output, which determines the charging time. A 20A li ion battery charger can fully charge a 100Ah battery in 5 hours. For larger batteries or faster charging times, Redodo offers LiFePO4 battery chargers with higher amperage. These chargers offer efficient charging within the specified maximum charging current range, which ensures safe and fast charging performance.

Yes, Redodo’s LiFePO4 battery chargers come equipped with multiple safety features to ensure reliable and safe charging. These chargers offer multiple protection including over-voltage protection, over-temperature protection, output short-circuit protection, low-voltage protection, and inverse line protection. Each lithium ion battery charger can protect both the charger and the battery during the charging process, making them safe and efficient for each use. Additionally, Redodo’s batteries chargers provide a pre-charging stage which is designed to activate the battery and prolong battery lifespan while delivering high performance.

While Redodo's lithium batteries charger incorporates smart technology that halts charging once the battery reaches full capacity, it’s still advisable to disconnect the charger after charging is complete. Continuous connection of the lithium battery charger could result in unnecessary damage on both the charger and the battery. To maintain optimal battery health, it’s best to unplug the lithium iron phosphate battery charger once the charging cycle has ended, ensuring the battery remains in good condition for extended use.

Yes, you can connect multiple batteries in series or parallel to form a battery system for a single lithium battery charger, but it's essential to ensure these batteries are of the same brand, type, BMS, capacity, and make sure they are purchased in near time (within one month). Ensure that the charger specifications meet the charging voltage or current requirements of the connected battery system. For instance, if you have two 100Ah batteries in parallel, the charger should deliver sufficient current for both. Monitoring the voltage levels during the charging process is essential to ensure that each battery is charging at the same rate.

A modified sine wave mimics a standard AC waveform but may cause issues with sensitive devices. In contrast, a pure sine wave inverter generates a true sine wave, which is smoother and more stable than a modified sine wave. This makes pure sine wave inverters ideal for delicate electronics, medical devices, and other equipment that require clean power. Redodo’s pure sine wave battery inverters are designed to deliver the highest efficiency, providing stable power to various types of appliances, ensuring both safety and performance.

Yes, Redodo’s inverters are suitable for lithium batteries and other battery types, including lead-acid. However, it is crucial to ensure the battery voltage (within 12V voltage range) matches the inverters, whether it’s a lithium iron phosphate battery charger setup or another type. Users should consult the product specifications to ensure the battery inverter operates efficiently and without causing damage to the batteries. Please consult us for compatibility check if you have any questions.

Redodo provides a range of pure sine wave inverters with varying power outputs, from 1000W to 3000W. For example, our 1000W inverter is capable of powering small household appliances like microwaves and refrigerators, while the higher-wattage models can handle larger loads such as air conditioners or multiple devices simultaneously. The output power of the battery inverter must be greater than or equal to the total wattage of the devices you plan to run. Redodo’s inverters ensures efficient power conversion for any off-grid or backup power application.

Redodo’s battery inverters are versatile and can power a wide variety of devices, from small electronics like laptops and smartphones to larger appliances such as refrigerators, microwaves, and televisions. Inverters can also power high-demand tools and equipment in workshops or during outdoor activities. Whether you're looking to power everyday household devices or need a reliable power source for camping or off-grid setups, Redodo’s inverters can handle multiple needs.

Yes, it’s important to use the correct cables when connecting a lithium battery inverter. The cable size should meet or exceed the output current that all loads require from the battery. Always check the manufacturer’s recommendations for cable gauge, as using cables that are too thin could result in energy loss or potential damage to the system. Properly rated cables are essential for both safety and performance during power conversion.