Manufacturer Part Number
MCP4652T-103E/UN
Manufacturer
microchip-technology
Introduction
The MCP4652T-103E/UN is a dual digital potentiometer integrated circuit designed for data acquisition and control applications, offering precise resistance adjustments.
Product Features and Performance
Linear taper for straightforward resistance changes
Dual circuit configuration enhances versatility
257 taps for fine resolution adjustments
I2C interface for easy digital communication
Features mute function and selectable address for improved control
Supports a wide supply voltage range (1.8V ~ 5.5V)
Volatile memory type
High temperature tolerance with operational range from -40°C to 125°C
Optimized for surface mount technology
Product Advantages
Fine resolution allows for precise adjustment
Dual rheostat configuration offers flexible usage in a single package
Easy integration with digital systems through I2C interface
Wide voltage compatibility supports diverse applications
Enhanced control with mute function and address selectability
Key Technical Parameters
Resistance: 10k Ohms
Taps: 257
Supply Voltage: 1.8V ~ 5.5V
Tolerance: ±20%
Temperature Coefficient: 150ppm/°C
Operating Temperature: -40°C ~ 125°C
Wiper Resistance: 75 Ohms (Typ)
Quality and Safety Features
Meets rigorous microchip-technology manufacturing standards
Designed for reliability across a wide range of operating conditions
Compatibility
I2C interface ensures compatibility with a broad spectrum of digital controllers
Application Areas
Data acquisition systems
Automated control systems
Industrial process control
Consumer electronics adjustment controls
Product Lifecycle
Status: Active
No current indication of discontinuation, ensuring long-term availability and support
Several Key Reasons to Choose This Product
High-resolution adjustments enhance precision in control applications
Dual potentiometer design in a single package reduces space and component requirements
Wide voltage range support offers flexibility in power design
Robust construction ensures performance reliability in extreme conditions
Easy to integrate and use with existing I2C-compatible devices and systems