Texas Instruments

LM75BIM-5/NOPB

LM75BIM-5/NOPB Description

The LM75BIM-5/NOPB by Texas Instruments is a high-precision digital temperature sensor with an I2C interface, designed for surface-mount applications. It operates within a 3V to 5.5V supply range, making it suitable for low-power and embedded systems. With a resolution of 9 bits, it delivers accurate temperature readings from -55°C to +125°C, featuring an accuracy of ±2°C (highest) and ±3°C (lowest). The sensor is housed in an 8-SOIC package and complies with ROHS3 and REACH environmental standards.

LM75BIM-5/NOPB Features

• Digital Output (I2C): Enables easy integration with microcontrollers and digital systems.
• Programmable Limit & Output Switch: Allows customizable temperature thresholds for system protection.
• Shutdown Mode: Reduces power consumption when inactive, ideal for battery-operated devices.
• High Accuracy (±2°C): Ensures reliable performance in critical applications.
• Wide Operating Range (-55°C to +125°C): Suitable for extreme environments.
• Moisture Sensitivity Level (MSL 1): Unlimited shelf life, making it robust for storage and handling.

LM75BIM-5/NOPB Applications

• Industrial Control Systems: Monitors equipment temperature to prevent overheating.
• Consumer Electronics: Used in smart devices, laptops, and gaming consoles for thermal management.
• Automotive Systems: Ensures stable operation in harsh temperature conditions.
• Medical Devices: Provides precise temperature tracking in diagnostic and monitoring equipment.
• Embedded Systems: Ideal for IoT and low-power applications requiring compact, reliable sensing.

Conclusion of LM75BIM-5/NOPB

The LM75BIM-5/NOPB stands out for its high accuracy, programmable features, and low-power operation, making it a versatile choice for diverse temperature-sensing needs. Its I2C interface and shutdown mode enhance system efficiency, while its wide operating range ensures reliability in demanding environments. Though marked as Last Time Buy, it remains a robust solution for designers seeking a proven digital temperature sensor.