Manufacturer Part Number
MAX6604AATA+T
Manufacturer
Analog Devices
Introduction
The MAX6604AATA+T is a precision temperature monitoring system from Analog Devices, tailored for DIMM DDR memory applications. It operates within a -20°C to 125°C range and provides temperature readings through a 2-Wire Serial I2C/SMBUS interface. Enclosed in a 8-WFDFN Exposed Pad package, this device is suitable for surface mounting.
Product Features and Performance
Temperature monitoring for DIMM DDR Memory
Internal sensor type ensures direct measurement from the source
Measurement range from -20°C to 125°C
Provides digital output through I2C/SMBUS
Includes an output alarm feature
High accuracy level with ±3°C maximum deviation
Product Advantages
High precision monitoring enhances system reliability
Compact package suitable for space-constrained applications
Easy integration with I2C/SMBUS output
Alarm feature for proactive thermal management
Key Technical Parameters
Sensing Temperature: -20°C ~ 125°C
Accuracy: ±3°C(Max)
Voltage - Supply: 2.7V ~ 3.6V
Operating Temperature: -20°C ~ 125°C
Output Type: 2-Wire Serial, I2C/SMBUS
Quality and Safety Features
Designed for robust performance within specified temperature ranges
Complies with standard safety regulations for thermal management devices
Compatibility
Compatible with systems requiring I2C or SMBUS communication protocols
Suitable for DIMM DDR Memory thermal sensing
Application Areas
DDR memory modules in computing systems
Electronic devices requiring temperature monitoring within the specified range
Product Lifecycle
Currently in active production with no indications of discontinuation
Availability of replacement or upgrade options will be supported as per industry standards
Several Key Reasons to Choose This Product
High precision and reliability ensure optimal thermal management
Compact form factor and surface mount compatibility ease the design process
Alarm feature provides immediate alerts on temperature threshold breaches
Broad operating voltage and temperature ranges enhance versatility in applications
Direct integration through widely used I2C/SMBUS communication protocols