Manufacturer Part Number
IS61LF6436A-8.5TQLI
Manufacturer
integrated-silicon-solution
Introduction
The IS61LF6436A-8.5TQLI is a high-performance, low-power 2Mbit SRAM memory chip. It features a synchronous, SDR (Single Data Rate) interface with a clock frequency of up to 90MHz, providing fast data access and transfer rates. This SRAM is designed for a wide range of applications, including consumer electronics, industrial automation, and telecommunications equipment.
Product Features and Performance
2Mbit memory capacity
64K x 36 memory organization
Parallel memory interface
Synchronous, SDR (Single Data Rate) technology
Clock frequency up to 90MHz
Fast access time of 8.5ns
Operating voltage range of 3.135V to 3.6V
Wide operating temperature range of -40°C to 85°C
Product Advantages
High-performance, low-power design
Reliable and stable operation
Broad compatibility with various systems and applications
Suitable for demanding industrial and consumer electronics use cases
Key Reasons to Choose This Product
Exceptional speed and responsiveness for time-critical applications
Exceptional power efficiency for extended battery life or reduced cooling requirements
Proven reliability and durability for mission-critical applications
Broad temperature range for use in harsh environments
Quality and Safety Features
Rigorous quality control and testing procedures
Compliance with industry safety and regulatory standards
Compatibility
The IS61LF6436A-8.5TQLI is compatible with a wide range of electronic systems and devices that require high-performance, low-power SRAM memory.
Application Areas
Consumer electronics
Industrial automation and control systems
Telecommunications equipment
Embedded systems
Medical devices
Military and aerospace applications
Product Lifecycle
The IS61LF6436A-8.5TQLI is an active, in-production product. There are currently no plans for discontinuation. However, as technology evolves, customers are advised to check with our website's sales team for the latest information on available options and any potential alternative models.