Manufacturer Part Number
AD5663RBRMZ-5REEL7
Manufacturer
Analog Devices
Introduction
The AD5663RBRMZ-5REEL7 is part of Analog Devices' nanoDAC® series, designed for data acquisition systems requiring high precision and speed. Encased in a surface mount package, this DAC is active in serving high-performance conversion from digital to analog signals.
Product Features and Performance
16-bit resolution
Two D/A converters
Settling time of 7µs
Buffered voltage output
SPI and DSP-compatible data interface
Operates with both external and internal reference types
Suited for both analog and digital 5V supply voltages
String DAC architecture ensuring high precision and linearity
Product Advantages
High resolution and rapid settling time enhance real-time performance
Dual DAC channels facilitate multi-task operations
Buffered output prevents signal distortion from load changes
Flexible interfacing options compatible with mainstream digital systems
Key Technical Parameters
Number of Bits: 16
Number of D/A Converters: 2
Settling Time: 7µs
Output Type: Buffered Voltage
Reference Type: External, Internal
Voltage - Supply, Analog/Digital: 5V
INL/DNL (LSB): ±8, ±1 (Max)
Operating Temperature Range: -40°C ~ 105°C
Quality and Safety Features
Robust operating temperature range from -40°C to 105°C ensures reliability in various environments
Precision engineering reduces error rates (INL/DNL)
Compatibility
Compatible with systems requiring SPI or DSP communication protocols
Supports both external and internal reference voltages for versatile system design requirements
Application Areas
Industrial automation
Telecommunications
Aerospace and defense systems
Medical instrumentation
Product Lifecycle
Current product status: Active
Not nearing discontinuation, with ongoing support and replacements available
Several Key Reasons to Choose This Product
High precision with 16-bit resolution ensuring accurate data output
Quick response with a settling time of only 7µs, suitable for time-critical applications
Supports a wide range of system designs with multiple interfacing and reference options
Operational stability across diverse and extreme temperature conditions
Reliable performance with stringent quality measures, minimizing error rates in applications