Overview of MAX706EUA+T by Analog Devices Inc.
The MAX706EUA+T is a low-cost, microprocessor (µP) supervisory circuit featuring an 8-mini small outline package with 8 pins. It is designed to monitor the power supplies in µP and digital systems, providing a significant function in ensuring system reliability and operation by resetting the processor when necessary. With an operating temperature range from -40°C to 85°C and encapsulated in a plastic/epoxy package material, this part offers robustness suitable for industrial applications.
Manufactured by Analog Devices Inc, a leader in precision high-performance electronics in multiple categories, including Power Management Circuits, this supervisory circuit integrates features such as a fixed threshold voltage of +4.4V, a maximum supply current of 0.5 mA, and an input voltage range of 1.2 V to 5.5 V. Notably, the package design is noted as MICRO, MAX-8, emphasizing its compact form factor and suitability for space-constrained applications.
Other noteworthy specifications include a CMOS technology build, a supply voltage-nominal of 5 V, and compliance with Rohs and REACH standards, ensuring environmental consideration in its use and disposal. With its moisture sensitivity level marked at 1, special care must be taken in handling during the assembly to prevent moisture-induced damage.
Industry Applications for MAX706EUA+T
The MAX706EUA+T’s application range covers different sectors due to its essential role in managing system stability and restarting in event of failures or errors. Its application utility in sectors like Industrial Automation, Energy and Power Systems, and Renewable Energy is considerable, though considerations for specific uses should be subjected to analysis and verification against particular industry standards and requirements. The potential industries include:
- Industrial Automation: The supervisor circuit could potentially be used in monitoring critical microprocessor operations in manufacturing equipment, ensuring that operational parameters remain within safe limits.
- Energy and Power Systems: Systems that require dependable uptime and immediate recovery from power interruptions might use these µP supervisory circuits to enhance system reliability in power distribution networks.
- Renewable Energy: In renewable energy applications such as solar inverters or wind turbine controllers, reliable monitoring of control systems is crucial. The MAX706EUA+T could potentially ensure the consistent operation of these devices, even under varying environmental conditions.
These potential applications underscore the part’s importance but require further targeted analysis and testing to ensure compliance with specific operational demands and safety standards of each industry.
About Analog Devices Inc.
Analog Devices Inc (ADI) is highly integral to the development of Power Management Circuits. With a robust portfolio that includes a variety of supervisory circuits, voltage regulators, and converters, ADI supports a wide range of power management requirements across the electronics industry. The MAX706EUA+T represents just one of the critical components in ADI’s extensive lineup catering to industrial, commercial, and consumer markets. ADI’s commitment to high-quality, reliable products ensures that their components, like the MAX706EUA+T, provide crucial functionalities aligned with modern electronics standards. Their continued innovation in component design reflects their broad expertise in handling complex power management solutions.
Where to Find MAX706EUA+T by Analog Devices Inc.
For purchasing the MAX706EUA+T, prospective buyers should consider researching on findchips.com. This part has historically been available at major distributors like Analog Devices Inc and Mouser Electronics. However, to access the most current stock levels and competitive pricing, using the comprehensive search engine at findchips.com is advisable.
On findchips.com, you can also browse other alternatives to MAX706EUA+T that might be offered by Analog Devices Inc or other manufacturers in the category of Power Management Circuits.