Manufacturer Part Number
93LC46T/SN
Manufacturer
microchip-technology
Introduction
The 93LC46T/SN is a 1Kbit Electrically Erasable Programmable Read-Only Memory (EEPROM) device, designed for storing small amounts of data.
Product Features and Performance
Non-Volatile memory type
1Kbit Memory size, organized as 128 x 8 or 64 x 16
Microwire Memory interface for simple communication
Supports clock frequency up to 2 MHz for fast data access
Write cycle time of 10ms for word or page, ensuring efficient data management
Operates over a voltage supply range of 2.5V to 5.5V
Product Advantages
Maintains data integrity without power
Flexible organization allows for varied application use
Compatible with many microcontroller interfaces
Low power consumption enhances device longevity
Suitable for a wide range of operating temperatures (0°C ~ 70°C)
Key Technical Parameters
Memory Type: EEPROM
Memory Size: 1Kbit
Memory Organization: 128 x 8, 64 x 16
Memory Interface: Microwire
Clock Frequency: 2 MHz
Voltage - Supply: 2.5V ~ 5.5V
Operating Temperature: 0°C ~ 70°C
Quality and Safety Features
Robust operation in standard temperature ranges
Designed to meet industry standard quality and safety certifications
Compatibility
Supports a wide array of microcontrollers and processors through Microwire interface
Application Areas
Used in settings requiring small data storage, such as device configuration, calibration data, and user settings in consumer electronics, industrial automation, automotive systems, and smart devices
Product Lifecycle
Active product status indicating ongoing production and availability
Not nearing discontinuation, ensuring long-term availability and support
Several Key Reasons to Choose This Product
Non-volatile storage retains data without power
Flexible for both small-scale data storage formats (128 x 8 or 64 x 16)
High compatibility with devices and systems through Microwire interface
Operates across a broad voltage range catering to different power supplies
Ensures data reliability and device longevity in varied temperature environments