DAC8830 (6)
TIDAC8830 is available from TI at Xecor. Designed for precision voltage output in digital-to-analog conversion, the DAC8830 offers 16-bit resolution, ultra-low power consumption (15 µW at 3 V), and fast settling time (1.0 µS). Available in an SO-8 package, it is ideal for applications such as portable equipment, industrial process control, data acquisition systems, and optical networking. Whether used in automatic test equipment or energy-efficient designs, this series ensures high accuracy, low noise, and scalability for demanding applications. Xecor is an authorized distributor for TI. Please view our extensive selection of the DAC8830 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| DAC8830ICD | Digital DAC with voltage output | SOIC-8 | 7,256 | |
| DAC8830IBD | DAC 1-CH Segment 16-bit 8-Pin SOIC Tube | SOIC-8 | 8,043 | |
| DAC8830ID | DAC 1-CH Segment 16-bit 8-Pin SOIC Tube | SOIC-8 | 7,414 | |
| DAC8830MCDEP | DAC 1-CH Segment 16-bit 8-Pin SOIC Tube | SOIC (D)-8 | 8,636 | |
| DAC8830ICDR | DAC 1-CH Segment 16-bit 8-Pin SOIC T/R | SOIC (D)-8 | 9,344 | |
| DAC8830IBDR | DAC 1-CH Segment 16-bit 8-Pin SOIC T/R | SOIC (D)-8 | 6,992 |
Key Featrues
16-Bit Resolution - The DAC8830 and DAC8831 offer 16-bit resolution, providing high precision and fine granularity in voltage output. This ensures accurate signal generation, making it ideal for applications requiring detailed control, such as industrial process control and data acquisition systems.
Ultra-Low Power Consumption - With a power consumption of just 15 µW at 3 V, these DACs are highly efficient, making them suitable for portable and battery-powered devices. This low power usage extends battery life and reduces energy costs in energy-sensitive applications.
Fast Settling Time (1.0 µS) - The DACs achieve a fast settling time of 1.0 µS to 1/2 LSB of full-scale output, enabling rapid response in dynamic systems. This feature is critical for high-speed applications like optical networking and automatic test equipment, where quick signal updates are essential.
Unbuffered Voltage Output - The unbuffered output reduces power consumption and minimizes errors introduced by a buffer, enhancing overall accuracy. This design choice is particularly beneficial for low-power and precision-critical applications, such as portable equipment and industrial control systems.
SPI Interface (up to 50 MHz) - The high-speed SPI interface supports clock speeds up to 50 MHz, facilitating efficient communication with microprocessors or DSPs. This feature ensures compatibility with modern digital systems and enables seamless integration into complex electronic designs.
Ultra-Low Power Consumption - With a power consumption of just 15 µW at 3 V, these DACs are highly efficient, making them suitable for portable and battery-powered devices. This low power usage extends battery life and reduces energy costs in energy-sensitive applications.
Fast Settling Time (1.0 µS) - The DACs achieve a fast settling time of 1.0 µS to 1/2 LSB of full-scale output, enabling rapid response in dynamic systems. This feature is critical for high-speed applications like optical networking and automatic test equipment, where quick signal updates are essential.
Unbuffered Voltage Output - The unbuffered output reduces power consumption and minimizes errors introduced by a buffer, enhancing overall accuracy. This design choice is particularly beneficial for low-power and precision-critical applications, such as portable equipment and industrial control systems.
SPI Interface (up to 50 MHz) - The high-speed SPI interface supports clock speeds up to 50 MHz, facilitating efficient communication with microprocessors or DSPs. This feature ensures compatibility with modern digital systems and enables seamless integration into complex electronic designs.
Applications
Precision Industrial Process Control: The DAC8830 and DAC8831 are ideal for precision industrial process control systems, where accurate voltage outputs are required to control actuators, valves, or other analog components. Their 16-bit resolution and low noise ensure precise control, while the fast settling time and low power consumption make them suitable for continuous operation in harsh industrial environments.
Portable Medical Devices: These DACs are well-suited for portable medical equipment, such as infusion pumps or portable diagnostic devices, where ultra-low power consumption and high accuracy are critical. The single-supply operation and small package size make them ideal for battery-powered, space-constrained medical applications.
Optical Networking Systems: The DAC8830 and DAC8831 can be used in optical networking systems to control laser drivers or other analog components. Their fast SPI interface and high-speed operation (up to 50 MHz) enable quick adjustments, while the low glitch and high linearity ensure stable and accurate signal transmission in high-speed communication networks.
Data Acquisition Systems: These DACs are perfect for data acquisition systems that require high-resolution analog outputs for signal generation or calibration. The unbuffered voltage output reduces power consumption and minimizes errors, making them suitable for high-precision data acquisition in scientific research or automated test equipment.
Portable Medical Devices: These DACs are well-suited for portable medical equipment, such as infusion pumps or portable diagnostic devices, where ultra-low power consumption and high accuracy are critical. The single-supply operation and small package size make them ideal for battery-powered, space-constrained medical applications.
Optical Networking Systems: The DAC8830 and DAC8831 can be used in optical networking systems to control laser drivers or other analog components. Their fast SPI interface and high-speed operation (up to 50 MHz) enable quick adjustments, while the low glitch and high linearity ensure stable and accurate signal transmission in high-speed communication networks.
Data Acquisition Systems: These DACs are perfect for data acquisition systems that require high-resolution analog outputs for signal generation or calibration. The unbuffered voltage output reduces power consumption and minimizes errors, making them suitable for high-precision data acquisition in scientific research or automated test equipment.
Popular DAC8830 Products comparison