Micron Memory | Part Number Decoder Updated
MT40A512M16LY-075E:E → DDR4 family; 512M x16 (8Gb die); LY = package/IO; -075 = speed grade (~DDR4-2400–2666 class); E = commercial; final :E = revision.
Compare two different to see which is better for your build. Find the datasheet for a specific Micron component. Which of these would be most helpful for your project?
A standard Micron part number is a string of characters divided into distinct fields. While the exact position can shift slightly between legacy DRAM, modern LPDDR5, and NAND flash, the structure generally follows this sequence:
If you have a specific code you are trying to read, tell me the or the 5-digit chip marking , and I will break down its precise specifications for you. Share public link micron memory part number decoder
To decode this, you cannot use a static chart. You must use Micron’s official online lookup tool. Visit the website. Enter your 5-digit code into the "FBGA Code" search box.
A short identifier (e.g., D9WDL ) found on the component.
The Micron Memory Part Number Decoder is an intuitive and user-friendly tool that can be accessed through Micron's website. Once you enter the part number, the decoder provides a breakdown of the part number, including: MT40A512M16LY-075E:E → DDR4 family; 512M x16 (8Gb die);
: Defines the specific memory architecture (e.g., DDR4, DDR5, LPDDR5).
While the part number may seem like a random combination of letters and numbers, it actually contains vital information about the memory module. However, decoding these part numbers can be challenging, especially for users who are not familiar with Micron's naming conventions. The complexity of the part numbers can make it difficult to determine the specifications and features of a memory module, which can lead to compatibility issues and poor system performance.
Micron DRAM component part numbers typically look like this: . Which of these would be most helpful for your project
: Once the full part number is retrieved, the tool often provides direct links to the relevant data sheets for technical specifications like voltage, density, and speed. Comprehensive Database
Understanding Micron memory components often requires navigating a complex system of alphanumeric codes. Because physical space on high-density chips is limited, Micron uses two primary methods for identification: full and abbreviated FBGA Codes (often called "D9 codes"). 1. What is the Micron FBGA Part Marking Decoder?