Overview of MTFC16GAPALBH-AAT by Micron Technology Inc.
The MTFC16GAPALBH-AAT by Micron Technology Inc. is a flash memory card that operates within a robust temperature range of -40 to 105 degrees Celsius. Suitable for high-demand applications, this particular model features a NAND type memory with a substantial 128Gbit capacity. It employs a parallel interface, ensuring compatibility with numerous standard industrial systems. The device is encapsulated in a TFBGA (Thin Fine Pitch Ball Grid Array) package with 153 pins and supports clock frequencies up to 200 MHz providing high-speed data transfer capabilities. Noteworthy attributes include industrial-grade environmental tolerances and an organizational structure of 16G x 8Bit, making it a versatile choice for demanding storage solutions.
Given the specifications, the MTFC16GAPALBH-AAT is designed to balance performance, capacity, and resilience. It meets stringent compliance standards such as RoHS, REACH, and is classified under the EAR99 category by ECCN, indicating it has relatively straightforward global trade applications. The factory lead time as of the current writing is 26 weeks, suggesting planning well in advance is beneficial for procurement strategies.
Industry Applications for MTFC16GAPALBH-AAT
The versatile features of MTFC16GAPALBH-AAT theoretically make it applicable to a variety of industry sectors. However, below are a few industrial contexts wherein the part might find potential utility:
- Consumer Electronics: Devices such as smartphones, tablets, or other portable devices could potentially benefit from the high-density storage provided by the MTFC16GAPALBH-AAT. Considering the high temperature tolerance and the robust 128Gbit NAND memory, these devices might use this component for storing large quantities of data such as media files and applications.
- Internet of Things (IoT): IoT devices, which often operate in diverse environmental conditions, might use such memory components. The industrial temperature range and the durability coded into its design could be potentially ideal for outdoor IoT devices that require consistent performance over wide temperature variations.
- Computing and Data Storage: Systems that require a massive amount of memory storage such as servers or data centers might find the memory configuration and the high clock frequency of the MTFC16GAPALBH-AAT suitable. Hardware requiring rapid access to a large volume of data could potentially leverage this flash memory to enhance their operation efficacy.
It’s critical to note these potential industry applications are conceptual and would need rigorous analysis and verification by engineering and design teams to ensure compliance with specific industry standards and application requirements.
About Micron Technology Inc.
Micron Technology Inc. is a front-runner in the memory and storage solutions industry, with a specific prowess in the development of Flash Memories. MTFC16GAPALBH-AAT is a testament to their commitment to providing advanced memory solutions that cater to a broad range of technological needs. Micron’s portfolio is rich with memory products that are utilized across various devices, from consumer electronics to industrial applications. Micron continuously invests in research and development, aiming to advance the performance and capacity of their memory offerings, ensuring they remain compatible with evolving technological demands.
Where to Find MTFC16GAPALBH-AAT by Micron Technology Inc
To source the MTFC16GAPALBH-AAT, it’s advisable to visit findchips.com, where current stock levels and pricing can be discovered. Historically, this part has been available at several notable distributors including Win Source Electronics, New Advantage Corporation, LCSC, and DigiKey among others. However, inventory status can vary, and for accurate availability and competitive pricing, checking at findchips.com is recommended. Additionally, for alternate parts or different offerings from Micron Technology Inc. or other manufacturers, you can search amongst a wider range of Flash Memories.