Overview of MAX811LEUS+T by Analog Devices Inc.
The MAX811LEUS+T by Analog Devices Inc. is a microprocessor (µP) voltage monitor with a manual reset input. This component is packaged in a small-outline, low-profile plastic/epoxy casing under the design specification 4-SOT_23. It is structured with 4 pins and operates within a temperature range of -40 to 85°C. The voltage monitor is designed for surface mounting (SMD) with a specific package code of LSOP, which corresponds to the physical dimensions of 2.92 mm in length and 1.3 mm in width, with a seated height of 1.22 mm.
The part is noted for its fixed threshold voltage of +4.63V, with its operational supply voltage ranging from 1.2V to 5.5V, while the nominal supply voltage is set at 5V. The MAX811LEUS+T effectively utilizes a minimal supply current of 0.015 mA, which is a significant feature for power-sensitive applications. In terms of durability and robust manufacturing standards, it has a moisture sensitivity level of 1 and can endure a peak reflow temperature of
260°C for up to 30 seconds.
The part’s qualification status is ‘Not Qualified’ and it does not integrate additional features such as overvoltage detection or battery backup switch, focusing solely on its primary function as a voltage detector. It’s important to note that as of the current writing, this part is actively manufactured and supplied in compliance with REACH and RoHS environmental standards, highlighted by its JESD-609 Code: e3.
Industry Applications for MAX811LEUS+T
The MAX811LEUS+T has potential applications across various industries, primarily wherever stable voltage monitoring is critical. Below are some industries and possible uses for this voltage monitor, highlighting its adaptability to different environments:
- Industrial Automation: In the automation industry, stable and reliable voltage monitoring is crucial to protect sensitive electronics from voltage fluctuations. The MAX811LEUS+T could potentially be used to monitor the power supply voltage to programmable logic controllers (PLCs) and other control equipment, enhancing system reliability.
- Robotics: Robotics systems require precise voltage levels to operate efficiently. The MAX811LEUS+T might be utilized to monitor the power supply in robotic systems to avoid damage caused by voltage irregularities, contributing to prolonged operational life and reliability.
- Drones: For drones, maintaining the correct operating voltage is essential for flight stability and safety. The MAX811LEUS+T could be used to monitor battery voltage directly, possibly triggering safety protocols if voltage levels fall outside of designated parameters.
Note: The above potential applications are conceptual illustrations. Actual incorporation and deployment of MAX811LEUS+T in these applications require detailed analysis and verification by engineering and design teams to ensure compliance with specific industry standards and operational requirements.
About Analog Devices Inc.
Analog Devices Inc. is a leading manufacturer in the electronics industry, particularly known for its innovative approach in designing and producing Power Management Circuits. The company excels in developing components that enhance the performance, efficiency, and capability of electronic systems for a broad spectrum of applications. The MAX811LEUS+T is one example of their commitment to offering high-quality, reliable monitoring solutions tailored to the rigorous demands of advanced electronics.
Where to Find MAX811LEUS+T by Analog Devices Inc
To procure the MAX811LEUS+T, prospective buyers are recommended to explore various distribution channels listed on findchips.com. This component has historically been available through distributors like TME, Quest Components, Analog Devices Inc., Mouser Electronics, and Farnell. However, current stock levels and pricing may vary, and engineering or procurement professionals should utilize findchips.com for the most up-to-date availability and competitive pricing.
To find alternative parts by Analog Devices Inc. or other manufacturers that might meet specific requirements, utilizing the Power Management Circuits link accessible on findchips.com will facilitate further exploration.