STMicroelectronics M28W160CB90N1 Flash Memory

The M28W160CB90N1 is a high-performance 16-megabit (Mb) non-volatile flash memory module from the industry-leading semiconductor manufacturer, STMicroelectronics. This memory device is designed to deliver fast read and write speeds, making it an ideal storage solution for a wide range of applications, including embedded systems, automotive electronics, and telecommunications infrastructure.

Featuring a 16-bit data bus and operating at a speed of 90 nanoseconds, the M28W160CB90N1 provides a seamless and efficient interface for high-speed data transactions. Its boot block architecture is optimized for both reliability and flexibility, with the memory array divided into uniform blocks that can be individually erased and programmed. This allows for easy firmware updates and data management without affecting the integrity of the stored information.

The device supports a broad supply voltage range from 2.7V to 3.6V, making it suitable for use in systems with varying power requirements. Additionally, the M28W160CB90N1 is equipped with advanced security features, including hardware protection for the boot block, ensuring critical data remains safe from unauthorized modifications.

In terms of endurance, the M28W160CB90N1 is built to last, with each memory block capable of withstanding a minimum of 100,000 program/erase cycles. This level of durability, coupled with a data retention period of 20 years, guarantees long-term reliability for applications that demand consistent performance over an extended period.

To ease the integration process, STMicroelectronics provides extensive technical support for the M28W160CB90N1, including detailed datasheets, application notes, and programming guides. The device is also available in a standard TSOP48 package, ensuring compatibility with a wide range of PCB layouts and existing designs.

Overall, the M28W160CB90N1 from STMicroelectronics represents a robust and versatile flash memory solution that combines speed, reliability, and security to meet the rigorous demands of modern electronic applications.