Manufacturer Part Number
TLV5625ID
Manufacturer
Texas Instruments
Introduction
The TLV5625ID is a dual 8-bit digital-to-analog converter (DAC) designed for easy interfacing to microcontroller systems.
Product Features and Performance
Dual 8-bit DAC channels
10µs settling time ensures rapid response to signal changes
Voltage-Buffered Output allows direct connection to load
SPI Interface for simple communication with most microcontrollers
Internal precision bandgap reference for high accuracy
Low power consumption suitable for battery-operated devices
Product Advantages
Accurate 8-bit resolution per channel enhances quality of analogue output
Buffered voltage output improves drive capacity without external op-amp
Small 8-SOIC package saves space in circuit design
Wide operating temperature range (-40°C to 85°C) ensures reliability in extreme conditions
Versatility with both 2.7V to 3.3V and 5V operation
Key Technical Parameters
Number of Bits: 8
Number of D/A Converters: 2
Settling Time: 10µs
Output Type: Voltage - Buffered
Data Interface: SPI
Reference Type: External
Voltage - Supply, Analog: 2.7V ~ 3.3V, 5V
Voltage - Supply, Digital: 2.7V ~ 3.3V, 5V
INL/DNL (LSB): ±0.3, ±0.07
Architecture: String DAC
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Built with internal thermal overload protection
Laser-trimmed for high precision
Ensures stability and reliability through its design robustness
Compatibility
Compatible with SPI protocol for easy integration with most microcontrollers
Suitable for use in both 3.3V and 5V systems
Application Areas
Portable battery-powered devices
Digital gain and offset adjustment
Motor control circuits
Industrial process control
Consumer electronics
Product Lifecycle
The product status is active
No indication of nearing discontinuation
Availability of replacements or upgrades not specified
Several Key Reasons to Choose This Product
Robust design for reliable performance in various environments
Rapid response rate necessary for real-time systems
Precision control with minimal differential nonlinearity
Compact form factor ideal for size-sensitive applications
Ease of interface with common digital systems using SPI