Microchip Technology's AT27C4096-55JU EEPROM

The AT27C4096-55JU is a high-performance 4-Megabit OTP (One-Time Programmable) EPROM (Erasable Programmable Read-Only Memory) from the industry-leading manufacturer, Microchip Technology. This integrated circuit is designed for high-speed applications requiring a reliable non-volatile memory solution. With its large storage capacity and fast access time, the AT27C4096-55JU is an ideal choice for a wide array of computing, embedded systems, and telecommunications applications.

With an access time of 55 ns, the AT27C4096-55JU allows for rapid data retrieval, ensuring efficient operation in critical applications where speed is essential. This product operates within the industrial temperature range, making it suitable for environments that are subject to extreme conditions. Its robust design ensures stable performance and longevity, even in the most demanding situations.

The AT27C4096-55JU comes in a 44-lead, J-leaded Ceramic Chip Carrier (JU suffix) package, offering a compact footprint and high durability. This packaging is designed to withstand harsh environments and is compatible with standard PCB (Printed Circuit Board) assembly processes, facilitating easy integration into a wide variety of systems.

Key features of the AT27C4096-55JU include:

• 4-Megabit (256K x 16) memory capacity
• One-Time Programmable (OTP) technology
• Fast access time: 55 ns
• Low power consumption
• High-reliability CMOS technology
• Industrial temperature range
• 44-lead Ceramic Chip Carrier (JU) package

Microchip Technology's commitment to quality ensures that the AT27C4096-55JU meets the highest standards of reliability and performance. This product is backed by Microchip's customer support and comprehensive technical resources, making it a secure choice for designers and engineers looking for a dependable memory component. Whether used in sophisticated industrial machines, critical medical devices, or advanced communication systems, the AT27C4096-55JU stands out as a superior memory solution.