Manufacturer Part Number
IS61LV12816L-8TL
Manufacturer
Integrated Silicon Solution
Introduction
The IS61LV12816L-8TL is a high-speed, 2Mbit SRAM chip designed for fast access and high-performance data storage and retrieval.
Product Features and Performance
Memory Type: Volatile SRAM Asynchronous
Memory Size: 2Mbit
Memory Organization: 128K x 16
Memory Interface: Parallel
Write Cycle Time Word, Page: 8ns
Access Time: 8 ns
Operating from a power supply range of 3.135V to 3.6V
Operating Temperature range of 0°C to 70°C
Surface Mount mounting type
44-TSOP (0.400", 10.16mm Width) package
Product Advantages
Fast access and write speeds enhance system performance
Wide operating temperature and voltage range suitable for various applications
High memory density facilitates substantial data storage
Key Technical Parameters
Memory Size: 2Mbit
Access Time: 8 ns
Write Cycle Time: 8 ns
Voltage Supply: 3.135V 3.6V
Temperature Range: 0°C to 70°C
Quality and Safety Features
Reliable surface mount package for secure attachment and durable use
Consistent performance across specified voltage and temperature ranges
Compatibility
The IS61LV12816L-8TL features a standard parallel memory interface, making it compatible with a variety of microcontrollers and processors that support this interface.
Application Areas
This product is suitable for applications requiring high-speed data access and storage such as:
Embedded systems
Communications equipment
Industrial control systems
High-performance computing applications
Product Lifecycle
Product Status: Obsolete
Note: Users should seek replacement models or upgrades, as this product may no longer be in production or supported by the manufacturer.
Several Key Reasons to Choose This Product
Ultra-fast 8ns access and write cycle speed improve overall system responsiveness.
Ease of integration with many existing systems due to standard parallel interface.
High reliability and operational safety in a wide range of environments.
Suitable for high-performance and demanding applications where speed and data integrity are critical.