The MAX6697UP99+T is a high-performance temperature sensor from Maxim Integrated, designed to provide precise temperature monitoring for complex systems. This device features a combination of eight temperature sensors—seven remote and one local sensor—that enable accurate temperature measurements across different parts of a system, such as in computing devices, telecommunication systems, and industrial equipment.

Key Features

• Multiple Sensors: Seven remote diode-connected transistors and one local sensor provide comprehensive thermal monitoring.
• High Accuracy: The temperature readings from the remote sensors are accurate to ±1°C, while the local sensor offers ±3°C accuracy, ensuring reliable and precise temperature control.
• Programmable Resolution: The device offers programmable resolution for the remote channels, ranging from 8-bits to 11-bits, allowing users to optimize the trade-off between resolution and conversion time.
• Flexible Alert System: The MAX6697UP99+T includes programmable overtemperature alarms for all sensors, which can be configured to alert the system in case of abnormal temperature readings.
• SMBus/I²C-Compatible Serial Interface: The sensor supports SMBus 2.0-compatible and I²C-compatible serial interface, making it easy to integrate into most system architectures.
• Wide Temperature Range: The device operates over a wide temperature range of -40°C to +125°C, suitable for various operating environments.
• Low Power Consumption: Designed for energy efficiency, the MAX6697UP99+T is suitable for power-sensitive applications.

Applications

The MAX6697UP99+T is ideal for a variety of applications where precise temperature monitoring is critical, including:

• Desktop and Notebook Computers
• Servers and Storage Systems
• Networking and Telecommunication Equipment
• Industrial Controllers
• Test and Measurement Systems

With its combination of precision, flexibility, and low power consumption, the MAX6697UP99+T from Maxim Integrated stands out as a robust solution for temperature monitoring in advanced electronic systems.