ON Semiconductor ADT7461AARMZ(T1L) Temperature Sensor

The ADT7461AARMZ(T1L) is a high-performance, dual-channel digital temperature sensor from ON Semiconductor, designed to offer precise temperature monitoring in a variety of applications. This advanced sensor provides a digital output that corresponds to the temperature of the device and the temperature of a remote thermal diode.

The ADT7461AARMZ(T1L) operates over a -40°C to +120°C temperature range for the local channel and a -40°C to +150°C range for the remote channel, making it versatile for monitoring both ambient temperatures and those of specific components, such as CPUs or GPUs. It boasts an impressive accuracy of ±1°C for the local temperature and ±3°C for the remote temperature, ensuring reliable readings for critical applications.

This temperature sensor communicates via a two-wire serial interface which is compatible with SMBus 2.0, allowing for easy integration into existing systems. Its low operating voltage, ranging from 3.0V to 3.6V, and low supply current make it an energy-efficient choice for portable and battery-powered devices.

The compact 8-lead MSOP package of the ADT7461AARMZ(T1L) allows for space-saving installation, which is particularly beneficial in applications where board space is at a premium. Furthermore, it features a programmable overtemperature alarm and hysteresis, which can be configured to trigger system protection mechanisms in the event of abnormal temperature conditions.

ON Semiconductor's commitment to quality ensures that the ADT7461AARMZ(T1L) is a reliable choice for thermal monitoring. Its wide temperature range, high accuracy, and low power consumption make it an ideal solution for a variety of applications, including PC hardware monitoring, environmental control systems, and thermal management within electronic equipment.

Whether you are developing a sophisticated industrial system or a high-performance computing platform, the ADT7461AARMZ(T1L) from ON Semiconductor provides the precision and reliability needed to maintain optimal temperature conditions and protect your valuable electronic components from thermal risks.