Manufacturer Part Number
MX29GL256FHXGI-90Q
Manufacturer
Macronix
Introduction
The MX29GL256FHXGI-90Q is a high-performance, high-density NOR Flash memory device from Macronix. It offers a large 256Mbit storage capacity, parallel interface, and fast access times, making it well-suited for a variety of embedded applications that require non-volatile memory.
Product Features and Performance
256Mbit memory capacity
Parallel interface with 32M x 8 organization
Fast 90ns access time and 90ns word/page write cycle time
Wide 2.7V to 3.6V operating voltage range
Extended operating temperature range of -40°C to +85°C
Supports sector erase, page program, and chip erase operations
Product Advantages
High-density storage capacity for data-intensive embedded applications
Rapid read and write speeds for efficient system performance
Wide voltage and temperature range for versatile system integration
Reliable NOR Flash technology for non-volatile data retention
Key Reasons to Choose
Robust, high-performance memory solution for demanding applications
Extensive operating parameters enable design flexibility
Trusted Macronix quality and reliability
Cost-effective, scalable memory solution
Quality and Safety Features
100% probe tested to ensure product quality
Designed and manufactured in ISO-certified facilities
RoHS and Halogen-free compliant for environmental safety
Compatibility
The MX29GL256FHXGI-90Q is compatible with a wide range of embedded systems and microcontrollers that require high-density, high-performance NOR Flash memory.
Application Areas
Industrial automation and control systems
Automotive electronics
Networking and communications equipment
Consumer electronics and home appliances
Medical devices and instrumentation
Product Lifecycle
The MX29GL256FHXGI-90Q is an active, in-production part. There are several equivalent or alternative models available from Macronix, such as the MX29GL512 and MX29LV series. For more information on alternative options or product end-of-life status, please contact our website's sales team.