ON Semiconductor NCV7513FTG Hex Half-Bridge Driver
The NCV7513FTG from ON Semiconductor is a versatile, high-performance integrated circuit designed to handle a wide range of driving applications. It is a hex half-bridge driver that incorporates six independent half-bridge drivers into a single package, making it an ideal solution for automotive and industrial applications where multiple outputs need to be driven simultaneously.
This robust driver is capable of operating at a voltage range from 5.5V to 50V, which allows it to support a variety of loads, including DC motors, stepper motors, and other inductive loads. The NCV7513FTG is particularly suited for the automotive environment, as it is designed to withstand the harsh conditions often encountered in automotive applications, including load dump and reverse battery protection.
One of the key features of the NCV7513FTG is its programmable current sense ratio, which provides flexibility in monitoring the load current. This feature enables precise control and diagnostics, which is critical for ensuring the safety and efficiency of the driving application. Additionally, the device includes overcurrent protection, which safeguards the IC and the load from damage due to excessive current.
The NCV7513FTG also boasts a low quiescent current, which is an essential attribute for power-sensitive applications. The low power consumption helps in reducing the overall energy usage of the system, thus contributing to the longevity of the application it is used in.
ON Semiconductor has packaged the NCV7513FTG in a heat-dissipating QFN package, ensuring that the device can operate reliably even under high-power conditions. The compact form factor of the package allows for a more space-efficient design in the end application.
In summary, the NCV7513FTG hex half-bridge driver from ON Semiconductor is a highly integrated and efficient solution for driving a multitude of loads. With its wide operating voltage range, built-in protection features, and low power consumption, it stands out as a reliable choice for both automotive and industrial driving applications.