Manufacturer Part Number
CY7C1371D-100AXI
Manufacturer
Infineon Technologies
Introduction
The CY7C1371D-100AXI is a high-performance, 18Mbit SRAM device developed by Infineon Technologies, utilizing the NoBL syncronous technology for fast access and high-speed operation.
Product Features and Performance
High-speed synchronous SRAM
18Mbit memory size with a 512K x 36 organization
Clock Frequency of 100 MHz enabling quick data processing
Access Time of 8.5 ns for rapid data retrieval
Operating Temperature range from -40°C to 85°C, suitable for various industrial applications
Surface Mount 100-LQFP package for compact integration
Product Advantages
Fast data access and processing speed enhances performance in critical applications
Wide operating temperature range makes it suitable for harsh environments
High memory capacity ideal for complex programs and data-intensive operations
Key Technical Parameters
Memory Type: Volatile SRAM Synchronous, SDR
Memory Size: 18Mbit
Memory Organization: 512K x 36
Memory Interface: Parallel
Clock Frequency: 100 MHz
Access Time: 8.5 ns
Voltage Supply: 3.135V ~ 3.6V
Quality and Safety Features
Manufactured under stringent quality controls to ensure reliability and durability
Meets various industrial-standard safety requirements for electronic components
Compatibility
Compatible with systems requiring high-speed, high-capacity volatile memory
Designed for parallel memory interfaces
Application Areas
Telecommunications
Networking
Industrial control systems
High-performance computing applications
Product Lifecycle
Currently marked as Obsolete by Infineon Technologies
Replacement products or upgrades should be considered for long-term projects
Several Key Reasons to Choose This Product
Exceptional speed and responsiveness from its high clock frequency and low access time
High reliability and durability tailored for demanding industrial conditions
Large memory capacity suitable for complex data storage and operations
Obsolescence status necessitates consideration of future-proof alternatives in system design planning