NiMH battery charger circuit diagram using LTC4060

The LTC4060 integrated circuit can be utilized to create a straightforward smart NiMH battery charger electronic project. This charger circuit functions as a complete fast charging system for NiMH or NiCd batteries. It requires only a few external components and boasts high efficiency. The backup termination includes a programmable timer and a battery overvoltage detector. An optional external NTC thermistor may be employed for temperature-based qualification. The schematic indicates that this fast charger can deliver a maximum charge current of 2 Amperes and requires a 5 volts DC input voltage.

The LTC4060 is a highly integrated battery charger IC designed specifically for charging NiMH and NiCd batteries. It incorporates features that enhance charging performance while ensuring safety and efficiency. The circuit configuration typically involves connecting the LTC4060 to a power source of 5 volts DC, which serves as the input voltage for the charging process.

The primary function of the LTC4060 is to manage the charging cycle of the battery, controlling the charge current and voltage to optimize battery life and performance. The programmable timer serves as a safeguard to terminate charging after a predetermined period, thus preventing overcharging, which can lead to battery damage. Additionally, the built-in battery overvoltage detector monitors the battery voltage during the charging process, ensuring that the voltage does not exceed safe limits.

For enhanced safety and performance, the circuit can incorporate an external NTC thermistor. This thermistor provides temperature feedback to the LTC4060, allowing the charger to adjust the charging parameters based on the battery's temperature. This feature is particularly useful in preventing overheating, which can occur during rapid charging, thereby extending the lifespan of the battery.

The maximum charge current of 2 Amperes allows for efficient charging of the battery, making this circuit suitable for applications that require quick turnaround times. The simplicity of the design, requiring only a few external components, makes it accessible for hobbyists and professionals alike. The overall efficiency of the charger is a significant advantage, as it minimizes energy loss during the charging process, contributing to a more sustainable operation.

In summary, the LTC4060-based smart NiMH battery charger represents a robust solution for fast charging applications, combining efficiency, safety features, and ease of implementation in a compact design.Using the LTC4060 integrated circuit, can be designed a very simple smart NiMH battery charger electronic project. This electronic charger circuit project is a complete fast charging system for NiMH or NiCd batteries.

This NiMH battery charger circuit require few external components and it has a very high efficiency. Backup termination consists of a programmable timer and battery overvoltage detector. An optional external NTC thermistor can be used for temperature-based qualification of As you can see in the schematic circuit this fast charger electronic project will provide a maximum charge current of 2 Amperes and require an input voltage of 5 volts DC. 🔗 External reference