ON Semiconductor NCV2250SN2T3G Voltage Detector

The ON Semiconductor NCV2250SN2T3G is a high-precision voltage detector designed for the automotive industry, offering a robust solution for voltage monitoring in a variety of applications. This device is specifically engineered to meet the stringent requirements of automotive applications, providing reliable performance under extreme conditions.

Key Features:

• Voltage Threshold Accuracy: The NCV2250SN2T3G boasts a precision voltage threshold accuracy of ±1%, ensuring reliable detection and consistent performance.
• Low Current Consumption: With a quiescent current of typically 5 µA, this voltage detector is optimized for applications where power efficiency is crucial.
• Wide Operating Voltage Range: The device operates over a broad voltage range from 1.0 V to 10 V, accommodating a variety of automotive circuits and battery-operated devices.
• Operating Temperature Range: It is designed to operate over the extended temperature range of -40°C to +125°C, making it suitable for harsh automotive environments.
• Output Type: The NCV2250SN2T3G features an open-drain output, which allows for flexible interfacing with other components and systems.
• Packaging: The device is available in a small, lead-free TSOP-5 package, which is ideal for space-constrained applications.

Applications:

The NCV2250SN2T3G is designed for a wide range of automotive applications, including:

• Battery management systems
• Microprocessor reset circuits
• Power-on reset circuits
• Power failure detection
• System power monitoring

ON Semiconductor's commitment to quality ensures that the NCV2250SN2T3G voltage detector meets the rigorous standards of the automotive industry. Its compact size, low power consumption, and high accuracy make it an excellent choice for designers looking to enhance system reliability and performance in their automotive applications.

Overall, the NCV2250SN2T3G is a versatile and reliable component that offers peace of mind for automotive electronics designers, knowing their systems are guarded against undervoltage conditions with a high degree of precision.