Manufacturer Part Number
IDT71V416S12PHI
Manufacturer
renesas-electronics-america
Introduction
The IDT71V416S12PHI is a high-speed SRAM device designed by Renesas Electronics America, catering to the demands of high-performance memory requirements.
Product Features and Performance
Volatile memory type employing SRAM Asynchronous technology
Memory size of 4Mbit with an organization of 256K x 16, optimizing storage and retrieval efficiency
Parallel memory interface enhancing data processing speeds
A quick write cycle time and access time of 12ns, facilitating rapid data management
Supports a voltage supply range from 3V to 3.6V, offering flexibility in power management
Designed for surface mount technology, ensuring compact and reliable integration
Product Advantages
Fast data access and write speeds improve system performance
High storage capacity meets extensive data handling needs
Versatile voltage operation supports a wider range of applications
Compact TSOP packaging enables efficient use of board space
Key Technical Parameters
Memory Size: 4Mbit
Memory Organization: 256K x 16
Write Cycle Time Word, Page: 12ns
Access Time: 12 ns
Voltage Supply: 3V ~ 3.6V
Operating Temperature: -40°C ~ 85°C (TA)
Quality and Safety Features
Manufactured to meet rigorous quality standards of Renesas Electronics America
Operates reliably within a wide range of temperatures for robust applications
Compatibility
Ideal for applications requiring high-speed and high-density memory interfaces
Surface mount design compatible with various PCB technologies
Application Areas
Embedded systems
High-performance computing
Communications infrastructure
Advanced consumer electronics
Product Lifecycle
Obsolete status, with potential limitations in availability
Customers may need to seek replacements or upgrades for future applications
Several Key Reasons to Choose This Product
Manufactured by Renesas Electronics America, a leader in semiconductor solutions
Fast access and write speeds enhance system responsiveness
High memory capacity suited for demanding applications
Broad compatibility with existing and emerging technologies
Though obsolete, its performance characteristics remain relevant for specific legacy applications