DAC6573IPW - Texas Instruments

Manufacturer Part Number

DAC6573IPW

Manufacturer

Texas Instruments

Introduction

The DAC6573IPW by Texas Instruments is a high-performance Digital to Analog Converter (DAC) designed for data acquisition and control systems, offering multiple outputs and precision in signal conversion.

Product Features and Performance

Four 10-bit D/A Converters

9µs Settling Time allowing quick response for real-time applications

Buffered Voltage Output ensuring drive capability

I2C Data Interface for easy communication

External Reference Voltage for flexible integration

String DAC Architecture for high accuracy

Wide Voltage Supply Range (2.7V ~ 5.5V) accommodating various power supplies

Operational across a Broad Temperature Range (-40°C ~ 105°C) for reliability in different environments

Product Advantages

High precision with INL/DNL of ±0.5 LSB and ±0.1 LSB, respectively

Low power consumption suitable for battery-powered devices

Easy integration into existing circuits due to I2C interface

Versatile use across various applications due to wide operational temperature range

Key Technical Parameters

Number of Bits: 10

Number of D/A Converters: 4

Settling Time: 9µs

Voltage Supply, Analog: 2.7V ~ 5.5V

Voltage Supply, Digital: 2.7V ~ 5.5V

INL/DNL (LSB): ±0.5, ±0.1

Quality and Safety Features

The DAC6573IPW is designed following stringent quality standards ensuring high reliability and performance under diverse conditions.

Compatibility

With standard protocols (I2C) and a wide supply voltage range, the DAC6573IPW is compatible with a broad array of microcontrollers and digital systems.

Application Areas

Industrial control systems

Data acquisition systems

Digital signal processing

Portable instrumentation

Product Lifecycle

Active; this component remains in production with no immediate threat of discontinuation, providing long-term availability for new designs and maintenance of existing ones.

Several Key Reasons to Choose This Product

High precision and speed for demanding applications

Low power for efficient, battery-friendly designs

Easy to interface with and integrate into systems

Broad compatibility and application scope

Reliable operation over a wide range of conditions

Long-term availability ensuring future-proofing of designs