Manufacturer Part Number
DAC0832LCWMX
Manufacturer
Texas Instruments
Introduction
The DAC0832LCWMX is an 8-bit multiplying digital-to-analog converter offering high-speed performance and low power consumption, ideal for a wide range of data acquisition and control applications.
Product Features and Performance
8-bit resolution
1 DAC channel
Fast settling time of 1µs
Unbuffered current output
Supports differential output
Parallel data interface for quick data transfer
External reference type for flexible voltage references
Multiplying DAC architecture allows variable output scaling
Works with 5V to 15V analog and digital supply voltages
Designed for 0°C to 70°C operating temperature range
20-SOIC package optimized for surface mount technology
Product Advantages
High-speed conversion enables real-time applications
Multiplying feature allows easy scaling of output
Offers both current and differential voltage output options for flexibility in design
Compatible with a range of supply voltages for versatile use across systems
Well-suited for control and automation tasks due to its quick response features
Key Technical Parameters
Number of Bits: 8
Number of DACs: 1
Settling Time: 1µs typical
Output Type: Current, unbuffered
Differential Output: Yes
Data Interface: Parallel
Reference Type: External
Voltage Supply, Analog: 5V to 15V
Voltage Supply, Digital: 5V to 15V
Architecture: Multiplying DAC
Package / Case: 20-SOIC
Quality and Safety Features
Reliable performance within specified operating temperature range
Compatibility
Designed for use in systems requiring parallel input data interfaces and external voltage references
Application Areas
Industrial automation and control systems
Data acquisition systems
Closed-loop servo-controls
Process control equipment
Product Lifecycle
Obsolete – check for product replacements or upgrades
Several Key Reasons to Choose This Product
Fast settling time ideal for applications requiring quick response
Adaptable for various applications due to multiply feature
Texas Instruments' reputation for quality and support in semiconductor products
Versatility given by a wide range of supply voltage compatibility
Ease of system integration with parallel data interface design
Proven reliability within specified operating environments