Manufacturer Part Number
S26KL512SDABHA020
Manufacturer
Infineon Technologies
Introduction
The S26KL512SDABHA020 is a high-performance, high-density NOR Flash memory device from Infineon Technologies. It offers a large 512Mbit storage capacity, parallel interface, and industrial-grade temperature range, making it suitable for a variety of automotive and industrial applications.
Product Features and Performance
512Mbit (64M x 8) memory capacity
Parallel interface with 100MHz clock frequency
Fast access time of 96ns
Wide operating voltage range of 2.7V to 3.6V
Wide operating temperature range of -40°C to +85°C
AEC-Q100 qualified for automotive applications
24-pin VBGA package
Product Advantages
Large memory capacity for storing complex firmware and data
High-speed parallel interface for fast read/write operations
Flexible voltage and temperature range for diverse application environments
Automotive-grade qualification for mission-critical systems
Key Reasons to Choose
Proven reliability and performance from a leading semiconductor manufacturer
Scalable memory solution for evolving application needs
Comprehensive technical support and long-term product availability
Cost-effective solution for high-volume production
Quality and Safety Features
Robust ESD protection
Built-in error detection and correction mechanisms
Rigorous automotive-grade qualification and testing
Compatibility
The S26KL512SDABHA020 is pin-compatible with other HyperFlash™ KL series devices, allowing for easy design migration and product substitution.
Application Areas
Automotive electronics (ECUs, infotainment, ADAS)
Industrial control systems
Embedded computing and IoT devices
Medical equipment
Aerospace and defense systems
Product Lifecycle
The S26KL512SDABHA020 is an active, in-production product from Infineon Technologies. There are several equivalent or alternative models available, such as the S26KL256SDABHA020 (256Mbit) and S26KL128SDABHA020 (128Mbit). For the latest product information and availability, please contact our website's sales team.