MAX6604 (4)
MAX6604 is available from Analog Devices at Xecor. Designed for precision temperature monitoring in DDR memory modules, the MAX6604 offers ±1°C accuracy, a 2.7V to 3.6V operating voltage range, and an SMBus/I²C-compatible interface. Available in 8-pin TSSOP and 8-pin TDFN packages, it is ideal for desktop computers, memory modules, networking equipment, notebook computers, and workstations. Whether used in thermal management for high-performance computing or memory module monitoring, this series ensures reliable temperature monitoring and scalability for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX6604 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX6604AAHA+ | MAX6604AAHA+ TSSOP-8 Temperature Sensors: Capable of monitoring temperatures from -20℃ to +125℃ with an accuracy of ±3℃. Conforms to ROHS regulations | TSSOP-8 | 6,891 | |
| MAX6604AATA+ | Compact temperature sensor for precise reading | TDFN EP-8 | 3,962 | |
| MAX6604AATA+T | 8-pin TDFN EP temperature sensor with digital serial interface (2-Wire, I2C, SMBus), packaged for tape and reel | WFDFN-8 | 7,132 | |
| MAX6604AAHA+T | 604AAHA+T, sorted: | TSSOP-8 | 3,813 |
Key Featrues
High-Precision Temperature Monitoring: The MAX6604 offers ±1°C accuracy, ensuring reliable thermal monitoring for DDR memory modules. This precision enhances system stability and prevents overheating, which is critical for high-performance computing environments like desktops, notebooks, and workstations.
SMBus/I²C-Compatible Interface: The 2-wire serial interface allows seamless integration with existing systems, enabling efficient communication and control. This feature simplifies design and enhances compatibility across various applications, including networking equipment and memory modules.
Programmable Overtemperature Interrupt: The device includes an overtemperature interrupt with a programmable threshold, allowing users to set custom temperature limits. This feature provides proactive thermal management, reducing the risk of system failure and improving overall reliability.
Low Power Consumption: With a typical operating current of 300µA and a shutdown current of 3µA, the MAX6604 is highly energy-efficient. This low power consumption is ideal for battery-powered devices and contributes to longer operational life in portable applications like notebooks.
Wide Operating Temperature Range: The sensor operates reliably from -20°C to +125°C, making it suitable for diverse environments and applications. This broad range ensures consistent performance in both extreme and standard conditions, enhancing its versatility across industries.
SMBus/I²C-Compatible Interface: The 2-wire serial interface allows seamless integration with existing systems, enabling efficient communication and control. This feature simplifies design and enhances compatibility across various applications, including networking equipment and memory modules.
Programmable Overtemperature Interrupt: The device includes an overtemperature interrupt with a programmable threshold, allowing users to set custom temperature limits. This feature provides proactive thermal management, reducing the risk of system failure and improving overall reliability.
Low Power Consumption: With a typical operating current of 300µA and a shutdown current of 3µA, the MAX6604 is highly energy-efficient. This low power consumption is ideal for battery-powered devices and contributes to longer operational life in portable applications like notebooks.
Wide Operating Temperature Range: The sensor operates reliably from -20°C to +125°C, making it suitable for diverse environments and applications. This broad range ensures consistent performance in both extreme and standard conditions, enhancing its versatility across industries.
Applications
DDR Memory Thermal Management: The MAX6604 is ideal for monitoring and managing the temperature of DDR memory modules in high-performance computing systems. Its high-precision temperature sensing and SMBus/I²C interface ensure accurate thermal data, making it suitable for applications in desktops, notebooks, and workstations where memory reliability is critical.
Networking Equipment Thermal Monitoring: The MAX6604 is perfect for thermal monitoring in networking equipment, such as routers and switches. Its ±1°C accuracy and programmable overtemperature interrupt ensure reliable operation in environments where thermal management is essential for maintaining performance and longevity.
Industrial Memory Module Monitoring: The MAX6604 is well-suited for industrial applications requiring precise temperature monitoring of memory modules. Its wide operating temperature range (-20°C to +125°C) and low power consumption make it ideal for use in harsh industrial environments where reliability and efficiency are paramount.
Embedded Systems Thermal Control: The MAX6604 is an excellent choice for embedded systems that require accurate temperature monitoring and control. Its compact 8-TSSOP package and SMBus/I²C interface allow for easy integration into space-constrained designs, making it ideal for applications in automotive, aerospace, and IoT devices.
Networking Equipment Thermal Monitoring: The MAX6604 is perfect for thermal monitoring in networking equipment, such as routers and switches. Its ±1°C accuracy and programmable overtemperature interrupt ensure reliable operation in environments where thermal management is essential for maintaining performance and longevity.
Industrial Memory Module Monitoring: The MAX6604 is well-suited for industrial applications requiring precise temperature monitoring of memory modules. Its wide operating temperature range (-20°C to +125°C) and low power consumption make it ideal for use in harsh industrial environments where reliability and efficiency are paramount.
Embedded Systems Thermal Control: The MAX6604 is an excellent choice for embedded systems that require accurate temperature monitoring and control. Its compact 8-TSSOP package and SMBus/I²C interface allow for easy integration into space-constrained designs, making it ideal for applications in automotive, aerospace, and IoT devices.
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