Microchip Technology AT29C256-20JC Product Overview

The AT29C256-20JC is a high-performance, 256-Kilobit parallel flash memory component manufactured by Microchip Technology. This device is designed to offer a flexible and reliable storage solution for a wide array of electronic applications, ranging from embedded systems to personal computers. With its quick access time and low power consumption, the AT29C256-20JC is an ideal choice for designers looking to enhance their systems with non-volatile memory that does not require a battery to maintain the data.

Key Features:

• Memory Capacity: The device provides a storage capacity of 256 kilobits, organized as 32,768 words of 8 bits each.
• Access Time: It offers a fast access time of 20 nanoseconds, enabling quick data retrieval which is crucial for high-speed applications.
• Programming Voltage: The AT29C256-20JC operates at a standard programming voltage, making it compatible with most system designs without the need for additional voltage conversion components.
• Package Type: This memory component comes in a 32-lead PLCC (Plastic Leaded Chip Carrier) package that ensures robust physical protection and reliable connectivity.
• Temperature Range: The device operates within an industrial temperature range, making it suitable for use in environments that experience extreme temperatures.
• Endurance: Microchip Technology guarantees a minimum of 10,000 write/erase cycles, ensuring long-term reliability for applications that require frequent data updates.

Applications:

The AT29C256-20JC is versatile and can be used in various applications, such as:

• Embedded control systems
• Boot memory for computers and processors
• Telecommunications equipment
• Automotive electronics
• Portable devices
• Industrial control systems

Why Choose the AT29C256-20JC?

Opting for the AT29C256-20JC from Microchip Technology means selecting a memory component that is renowned for its reliability, durability, and performance. Engineers and designers can depend on this chip to retain critical data and operate efficiently under a wide range of conditions. Its fast access time and low power consumption make it a preferred choice for systems where speed and energy efficiency are paramount.