Product Overview: DAC084S085CISD/NOPB

The DAC084S085CISD/NOPB is a highly-efficient, 8-bit micro-power octal digital-to-analog converter (DAC) from Texas Instruments. Designed for those applications requiring a low power consumption and a small footprint, this device offers an excellent solution for portable and compact systems.

Key Features

• Resolution: The DAC084S085CISD/NOPB provides an 8-bit resolution, allowing it to convert digital values with precision, making it suitable for fine-grained analog control tasks.
• Channel Count: As an octal DAC, it features eight independent channels, offering versatility for multi-channel applications or systems requiring multiple analog outputs.
• Interface: It supports a 3-wire SPI serial interface which operates at clock rates up to 40 MHz, making it compatible with a variety of microcontrollers and digital systems.
• Supply Voltage: The device operates from a single 2.7V to 5.5V supply, accommodating a range of power environments and ensuring ease of integration into both 3.3V and 5V systems.
• Power Consumption: With its low power design, it consumes just 208 µA at 3V, optimizing battery life for portable applications.
• Package: The DAC comes in a small 16-lead WSON package, which is ideal for space-constrained applications.
• Temperature Range: It is specified for operation from -40°C to 105°C, ensuring reliable performance across a wide range of environmental conditions.

Applications

The DAC084S085CISD/NOPB is well-suited for a variety of applications, including:

• Battery-operated equipment
• Data acquisition systems
• Digital gain and offset adjustment
• Portable instrumentation
• Process control and servo loops

Quality and Reliability

Texas Instruments is known for its commitment to quality, and the DAC084S085CISD/NOPB is no exception. The device is lead-free and RoHS compliant, ensuring that it meets current environmental standards. It also comes with the reliability and support expected from a leading semiconductor manufacturer, making it a trustworthy choice for critical applications.