Manufacturer Part Number
TLV5632IDWR
Manufacturer
Texas Instruments
Introduction
The TLV5632IDWR is a high-performance 8-bit digital-to-analog converter (DAC) featuring 8 channels, designed for data acquisition applications.
Product Features and Performance
8-bit resolution with 8 D/A converters
Fast settling time of 7µs
Buffered voltage outputs
Supports SPI data interface
External and Internal reference voltage options
Compatible with 2.7V ~ 3.3V and 5V supplies for both analog and digital sections
String DAC architecture for high accuracy
Operates in temperatures ranging from -40°C to 85°C
Product Advantages
Offers high speed and precision for digital-to-analog conversion tasks
Flexible power supply options to accommodate different system requirements
Minimal integral and differential non-linearity errors (INL/DNL ±0.3, ±0.1 LSB) for accurate outputs
Multi-channel output capability enhances application flexibility
Robust design suitable for harsh environments
Key Technical Parameters
Number of Bits: 8
Number of D/A Converters: 8
Settling Time: 7µs
INL/DNL (LSB): ±0.3, ±0.1
Voltage Supply, Analog/Digital: 2.7V ~ 3.3V, 5V
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
String DAC architecture ensures accurate and reliable outputs
Built to meet industry-standard quality and safety requirements
Compatibility
SPI interface for easy integration into existing digital systems
Flexible voltage supply compatibility aids in system design
Application Areas
Data acquisition systems
Industrial automation
Analog signal processing
Embedded systems requiring precision DAC
Product Lifecycle
Status: Active
The TLV5632IDWR is currently in active production with no immediate discontinuation notices. Replacements and upgrades are readily available.
Several Key Reasons to Choose This Product
High-speed operation with a settling time of just 7µs facilitates rapid data processing.
The high level of integration, with eight 8-bit DACs, reduces system complexity and component count.
Flexible reference voltage options (external/internal) accommodate various application requirements.
Low integral and differential non-linearity errors enhance accuracy.
Wide operating temperature range makes it suitable for industrial environments.
Compatibility with both 3.3V and 5V systems offers design flexibility.