Microchip Technology's 27C128 EPROM

The 27C128 is a high-performance, 128-kilobit UV erasable and programmable read-only memory (EPROM) device from Microchip Technology. Designed for applications that demand reliable and durable non-volatile memory storage, this EPROM is a perfect solution for a wide range of electronic systems, including but not limited to, embedded systems, microcontroller-based applications, and various types of programmable logic devices.

This device offers a generous storage capacity of 128 kilobits, which is organized as 16,384 words by 8 bits. The 27C128 EPROM is renowned for its exceptional quality and reliability, with a typical erase and program cycle of 1000 times and a data retention period of 10 years, ensuring that your data remains secure over extended periods.

Featuring a fast access time of as little as 45 ns, the 27C128 allows for quick data retrieval, making it an ideal choice for high-speed applications. Furthermore, it is compatible with industry-standard programming equipment, allowing for seamless integration into existing development environments and facilitating easy programming and reprogramming processes.

The 27C128 operates over a wide power supply range, typically from 4.5V to 5.5V, and includes safety features such as static prevention and TTL-level compatible inputs, which contribute to its robustness in various operational conditions. It is available in several package types, including the popular Ceramic Dual In-line Package (CERDIP) and Plastic Leaded Chip Carrier (PLCC), providing flexibility for hardware designers to choose the best fit for their specific requirements.

Microchip Technology's commitment to quality and long-term availability makes the 27C128 a trusted choice for applications that require stable and reliable memory storage solutions. With its combination of high density, fast access time, and programming versatility, the 27C128 EPROM continues to be a popular choice among engineers and developers looking to incorporate a dependable memory component into their designs.