Micron Memory Part Number Decoder «PREMIUM | 2026»
: 256 Megabits total capacity, configured with a 16-bit wide data bus.
Micron’s Dynamic Random-Access Memory (DRAM) includes DDR3, DDR4, DDR5, and Low-Power DDR (LPDDR) modules. A typical DRAM component part number looks like this: .
TLC (Triple-Level Cell) technology or specific architecture marker AB: Multi-die package configuration layout A: Generation revision WP: TSOP package type The Micron FBGA Code (The 5-Digit Solution)
While Micron’s documentation is incredibly vast, here is a quick-glance cheat sheet for modern DDR generations: Memory Generation Common Prefix/Family Example Speed Codes Standard Voltages MT41J / MT41K -125 (DDR3-1600) 1.5V / 1.35V DDR4 -075 (DDR4-2666), -062 (DDR4-3200) DDR5 -48BA (DDR5-4800), -56BC (DDR5-5600) Summary of Best Practices for Part Identification micron memory part number decoder
These characters are not random. They form a highly structured part number that contains everything you need to know about the chip’s architecture, capacity, voltage, speed, and generation.
Let us dissect the DRAM example:
Stands for Micron Technology. Virtually all standard Micron components begin with these letters. 2. Product Family / Core Technology : 256 Megabits total capacity, configured with a
: Memory chips are very small. The long standard part number cannot fit on the tiny plastic case. Micron prints a short five-digit code on the chip instead. This short text is called an FBGA code.
Micron's part numbers follow a standardized format, which consists of several segments that convey specific information about the product. The format typically consists of 8-12 characters, depending on the product type. The following is a breakdown of the typical Micron part number format:
Micron’s NAND Flash numbering system is represented by part numbers such as MT29F2G08ABAEAWP-IT:E . Key fields include: Virtually all standard Micron components begin with these
A short identifier (e.g., D9WDL ) found on the component.
In the world of computer hardware, memory modules play a crucial role in determining the performance and capabilities of a system. Among the leading manufacturers of memory modules, Micron Technology stands out for its high-quality products and innovative solutions. However, for many users, deciphering the part numbers of Micron memory modules can be a daunting task. This is where the Micron Memory Part Number Decoder comes into play. In this article, we will explore the intricacies of Micron memory part numbers, the functionality of the Micron Memory Part Number Decoder, and how it can help users make informed decisions when selecting memory modules for their systems.
Once you have the full part number from the decoder, you can break it down to understand its specifications. The structure varies slightly between DRAM and Flash memory. Let's explore both.
Because of physical space constraints on small memory packages, Micron cannot print the entire MPN on the chip. Instead, they use a five-digit alphanumeric code
As technology advances, DDR5 module part numbers have updated to reflect higher speeds and new power management features. MT : Micron C : DDR5 SDRAM 40 : Density (e.g., 40 = 16Gb/32Gb) F : Voltage/Die Revision S1 : Speed (e.g., 48B = DDR5-4800B) C : Module Type (e.g., C = SODIMM) 5. Summary Table for Quick Reference Code Examples Description Product 40/41/42/53 DDR4/DDR3/LPDDR2/LPDDR4 Voltage 1.2V / 1.35V / 1.8V / 1.0V Speed -25 / -187E / -093E Higher number = slower cycle time Temp IT / AT / (Blank) Industrial / Automotive / Commercial Revision :A / :B / :C Indicates die revision level