ON Semiconductor LE25FW406ATT-TLM-H-D Flash Memory

The LE25FW406ATT-TLM-H-D is a high-performance, 4-Mbit serial Flash memory device from ON Semiconductor, designed to provide a reliable and efficient storage solution for a wide range of applications. This non-volatile memory chip is an ideal component for systems that require fast access to data, low power consumption, and a small form factor.

The device operates on a single 2.7V to 3.6V power supply, making it suitable for battery-powered applications and portable devices. Its serial peripheral interface (SPI) ensures compatibility with most microcontrollers, offering a simple and straightforward communication protocol. The LE25FW406ATT-TLM-H-D supports high-speed clock frequencies up to 104 MHz for rapid read operations, ensuring quick data retrieval when performance is critical.

With its sector erase and program capabilities, the LE25FW406ATT-TLM-H-D provides flexibility in data management. Users can erase and program data in 4 KB, 32 KB, or 64 KB sectors, allowing for efficient use of memory space and minimizing the time required for data updates. The device also features a write protection mechanism to safeguard stored data, ensuring data integrity in the face of unintended write operations or during power fluctuations.

The LE25FW406ATT-TLM-H-D is packaged in an 8-pin SOP (Small Outline Package), which is known for its compact footprint and suitability for space-constrained applications. The device's operating temperature range of -40°C to +85°C ensures reliable performance across various environmental conditions, making it a versatile choice for industrial, automotive, and consumer electronics.

ON Semiconductor's commitment to quality is evident in the LE25FW406ATT-TLM-H-D, with features such as Endurance of 100,000 program/erase cycles and Data retention of 20 years at 85°C. This flash memory is not only robust but also designed with longevity in mind, providing a dependable storage solution that engineers and designers can trust for their critical applications.