Manufacturer Part Number
CYD09S36V18-200BBXI
Manufacturer
Infineon Technologies
Introduction
This is a high-performance, dual-port synchronous SRAM memory.
Product Features and Performance
Dual Port, Synchronous SRAM Technology
High clock frequency support up to 200 MHz
Fast access time of 3.3 ns
Supports a wide range of supply voltages: 1.42V ~ 1.58V and 1.7V ~ 1.9V
Large memory size of 9Mbit, organized as 256K x 36
Parallel memory interface for efficient data handling
Operates effectively at a temperature range of -40°C to 85°C
Product Advantages
Quick data access and processing with 3.3 ns access time
Adaptable to various power supplies for versatile usage
Ample storage capacity for complex applications
Supports high-speed operations with 200 MHz clock frequency
Durable and reliable in a variety of environmental conditions
Key Technical Parameters
Memory Type: Volatile SRAM
Memory Format: SRAM Dual Port, Synchronous
Memory Size: 9Mbit
Memory Organization: 256K x 36
Memory Interface: Parallel
Clock Frequency: 200 MHz
Access Time: 3.3 ns
Voltage Supply: 1.42V ~ 1.58V, 1.7V ~ 1.9V
Operating Temperature: -40°C ~ 85°C
Mounting Type: Surface Mount
Package / Case: 256-LBGA
Quality and Safety Features
Built to withstand operating temperatures from -40°C to 85°C
Comprehensive quality assurance for reliable and consistent performance
Compatibility
Designed for surface mount technology, enhancing compatibility with modern PCB designs
Application Areas
Telecommunications
Networking equipment
High-speed computing systems
Industrial control systems
Product Lifecycle
Obsolete status, indicating discontinuation of the product
Potential for replacements or upgrades should be explored through Infineon Technologies
Several Key Reasons to Choose This Product
Exceptionally fast access time suitable for high-speed applications
Versatile power supply compatibility increases system design flexibility
Large memory capacity supports extensive data storage and processing needs
Reliable performance over a wide range of operating temperatures for robust applications
Obsolescence adds potential for acquiring the component at reduced prices for legacy system maintenance