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MX30LF4G28AD-XKI

MX30LF4G28AD-XKI

Macronix
FLASH - NAND (SLC) Memory IC 4Gbit Parallel 63-VFBGA (9x11)
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Overview

The Macronix MX30LF4G28AD-XKI is a 4Gbit SLC NAND Flash memory IC. It features a parallel interface, making it suitable for applications requiring high-density non-volatile storage. Packaged in a 63-VFBGA, it operates across a wide temperature range of -40 degrees C to 85 degrees C and a supply voltage of 2.7V to 3.6V.

Why Choose This Part

This SLC NAND Flash offers excellent endurance and data retention characteristics compared to MLC or TLC NAND, making it ideal for critical applications. Its parallel interface allows for straightforward integration with many microcontrollers and ASICs. The 63-VFBGA package is compact for space-constrained designs, and the wide operating temperature range supports robust industrial use.

Applications

Embedded Systems Data Storage
Provides high-density non-volatile storage for operating systems, application code, and user data in various embedded devices.
Industrial Control Systems
Used for storing firmware, configuration parameters, and logging data in industrial automation equipment where reliability is crucial.
Networking Equipment
Ideal for storing firmware images, bootloaders, and network configuration in routers, switches, and other network infrastructure.
Consumer Electronics
Suitable for data storage in devices such as set-top boxes, digital cameras, and portable media players, offering good endurance and data retention.

Key Specifications

Technology FLASH - NAND (SLC)
Memory Size 4Gbit
Memory Type Non-Volatile
Memory Format FLASH
Mounting Type Surface Mount
Package / Case 63-VFBGA
Memory Interface Parallel
Voltage - Supply 2.7V ~ 3.6V
Memory Organization 512M x 8
Operating Temperature -40degC ~ 85degC (TA)
Supplier Device Package 63-VFBGA (9x11)
Write Cycle Time - Word, Page 20ns

Getting Started

To get started with the MX30LF4G28AD-XKI, engineers should refer to Macronix's detailed datasheet for command sets and timing diagrams. Hardware integration typically involves connecting the parallel I/O lines to a host controller capable of managing NAND Flash. Software development will require implementing a Flash File System (FFS) or a dedicated NAND driver to handle wear leveling and error correction (ECC).

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