NCV7702DWR2 - ON Semiconductor's Compact Dual H-Bridge Driver

The NCV7702DWR2 is a high-performance dual H-Bridge driver designed by ON Semiconductor, tailored specifically for automotive applications. This integrated circuit (IC) is engineered to control small DC motors efficiently and is suitable for a wide range of automotive applications, including but not limited to, mirror adjustment, headlight positioning, and HVAC flap control.

With its robust design, the NCV7702DWR2 is capable of delivering up to 1 A of continuous current per channel, and it can handle peak currents up to 3.2 A, making it an ideal choice for driving small motors that require precise control. The device operates over a wide voltage range from 5.5 V to 28 V, providing flexibility in various automotive electrical systems.

The NCV7702DWR2 comes in a compact SOIC-20 wide body package, which not only saves space on the PCB but also ensures reliable thermal performance and ease of integration into automotive designs. Its small footprint is particularly beneficial in applications where space is at a premium.

Key features of the NCV7702DWR2 include its low standby current, which is crucial for minimizing power consumption when the device is not actively driving a load. It also boasts built-in protection features such as overcurrent protection, thermal shutdown, and under-voltage lockout, ensuring safe and reliable operation under various conditions.

ON Semiconductor has equipped the NCV7702DWR2 with a simple logic interface that allows for easy control of motor direction and speed. The device can be controlled with standard logic level signals, making it compatible with a wide range of microcontrollers and other control systems used in automotive applications.

In summary, the NCV7702DWR2 from ON Semiconductor is a versatile and reliable solution for automotive motor control applications. Its compact size, robust performance, and comprehensive protection features make it a top choice for designers looking to enhance the functionality and reliability of their automotive systems.