Manufacturer Part Number
DS28E01P-100+
Manufacturer
analog-devices
Introduction
The DS28E01P-100+ is a 1Kbit non-volatile EEPROM memory chip with a unique 1-Wire interface, designed for secure storage and data authentication in a wide range of applications.
Product Features and Performance
Non-Volatile EEPROM memory
1Kbit (256 x 4) memory organization
1-Wire interface for simple, low-pin-count integration
2 µs access time for fast data retrieval
Operating voltage range of 2.85V to 5.25V allows for flexible power supply options
Designed for operation in harsh conditions with an operating temperature range of -40°C to 85°C
Product Advantages
Secure data storage with unique serial number for each device
Low power consumption suitable for battery-powered applications
High integration capability due to minimal pin requirement
Robust design enables reliable operation in diverse environments
Key Technical Parameters
Memory Size: 1Kbit
Memory Organization: 256 x 4
Memory Interface: 1-Wire
Voltage Supply: 2.85V ~ 5.25V
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Built to meet high-quality standards of analog-devices
Rigorous testing ensures reliability and stability of data storage
Compatibility
Compatible with any MCU or processor that supports 1-Wire protocol
Flexible integration into existing systems due to wide voltage range
Application Areas
Data authentication
Secure token or key storage
Electronic identification
Access control systems
Industrial automation systems
Product Lifecycle
Status: Active
The product is currently in active production with no announced discontinuation, ensuring long-term availability.
Several Key Reasons to Choose This Product
Robust memory storage solution with EEPROM technology
Unique 1-Wire interface simplifies connection and reduces system complexity
Designed for secure applications, adding an extra layer of data security
Flexible power requirements accommodate a wide range of designs
Suitable for a diverse set of application areas due to its reliability and durability in extreme conditions