MIC2025-2YM-TR by Microchip Technology Inc

Overview of MIC2025-2YM-TR by Microchip Technology Inc.

The MIC2025-2YM-TR is a 1-channel power supply support circuit housed in an SOIC-8 package. This high-side power load switch from Microchip Technology Inc. is designed for robust control of power delivery within electronic circuits. The part is characterized by a small outline package, specifically a plastic/epoxy SOIC-8 with a lead-free design, adhering to RoHS and REACH compliance for environmental safety.

This component features an industrial temperature grade, capable of operating between -40 °C and 85 °C, with a nominal supply voltage of 5 V. The maximum supply current is quite low, at only 0.16 mA, making it an economical choice in terms of power consumption. The MIC2025-2YM-TR’s specifications, including a moisture sensitivity level of 1 and a peak reflow temperature of 260 °C, are indicative of its reliability and durability in demanding conditions. The absence of an adjustable threshold points towards a fixed operational setting, optimizing ease of use in applications requiring stable power management.

The factory lead time for this component is listed as 4 weeks as of the current writing, suggesting moderate availability for project planning purposes.

Industry Applications for MIC2025-2YM-TR

The Power Management Circuits such as the MIC2025-2YM-TR play vital roles across various industries, enabling electronic devices to operate reliably and efficiently. Here are some potential industry applications, which should be analyzed and verified by engineering teams:

  • Consumer Electronics: Devices such as smartphones, tablets, and laptops might integrate this type of power load switch to manage power distribution within the system efficiently and safely. Its features could potentially enhance battery management and device longevity.
  • Telecommunications: Telecommunication equipment, including modems and routers, could utilize the MIC2025-2YM-TR to ensure stable power supply during data transmission, which is crucial for maintaining connection stability and device performance.
  • Industrial Automation: In automated systems where precise power control is necessary, such as in assembly robots or automated testing equipment, this component might serve to protect sensitive electronics from power fluctuations and overcurrent conditions.
  • Computing and Data Storage: Servers and storage devices that require consistent power management solutions may benefit from integrating this power load switch to help manage different power states and reduce overall power consumption.

Note that these potential applications are conceptual and should be substantiated with specific industry standards and thorough testing conditions.

About Microchip Technology Inc.

Microchip Technology Inc. is a prominent manufacturer in the semiconductor industry, known for its microcontroller, mixed-signal, analog, and Flash-IP integrated circuits. Within the realm of Power Management Circuits, Microchip Technology provides a range of solutions designed to enhance the efficiency and reliability of electronic systems. The MIC2025-2YM-TR is an example of Microchip’s commitment to high-quality and precision in power management technology. Such components are integral in various electronic applications, from simple consumer gadgets to complex industrial systems.

Where to Find MIC2025-2YM-TR by Microchip Technology Inc

To obtain the MIC2025-2YM-TR, potential buyers should consider researching availability through platforms like findchips.com. There, one can access real-time information about stock levels and pricing. Historically, distributors such as Master Electronics, Sensible Micro Corporation, Avnet Americas, and Mouser Electronics have stocked this part. Nonetheless, current availability and pricing should be verified on findchips.com. This site also provides alternatives within the Power Management Circuits subcategory that may be suitable substitutes.

Compare pricing for MIC2025-2YM-TR and other Power Management Circuits / Power Circuits at findchips.com