Manufacturer Part Number
LTC2600IGN#PBF
Manufacturer
Analog Devices
Introduction
The LTC2600IGN#PBF is a digital to analog converter (DAC) designed for precise data acquisition in embedded systems.
Product Features and Performance
16-bit resolution
8 D/A converters integrated
Fast settling time of 10µs
Buffered voltage output
SPI data interface
External voltage reference required
Capable of operating within a wide power supply range from 2.5V to 5.5V for both analog and digital circuits
Operates efficiently in temperatures ranging from -40°C to 85°C
Product Advantages
High resolution enhances accuracy in digital-to-analog conversion.
Multiple DACs increase output capability.
Rapid settling time enables quick response to system changes.
Buffering provides stability in output signal.
Key Technical Parameters
Number of Bits: 16
Number of D/A Converters: 8
Settling Time: 10µs
Output Type: Voltage Buffered
Data Interface: SPI
Voltage Supply, Analog: 2.5V ~ 5.5V
Voltage Supply, Digital: 2.5V ~ 5.5V
INL/DNL (LSB): ±12, ±1 (Max)
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Operates reliably within specified temperature ranges
Precision manufacturing mitigates Integral and Differential Non-Linearity errors.
Compatibility
Compatible with systems requiring SPI interface for DAC operations
Application Areas
Embedded systems
Industrial control systems
Communication equipment
Precision instrumentation
Product Lifecycle
Currently active product status
No reported discontinuation or plans for upgrades
Several Key Reasons to Choose This Product
High-resolution output ensures superior accuracy in digital-to-analog conversion.
Quick settling time allows the DAC to react and adjust swiftly.
The ability to operate across a broad range of temperatures and voltage supplies makes it adaptable to various environmental conditions.
Eight integrated DACs facilitate multiple outputs simultaneously, enhancing system capability.
Reliable operation and compatibility with standard SPI interface provide easy integration into existing systems.