Part | RoHS | Manufacturer | Converter Type | Temperature Grade | Terminal Form | No. of Terminals | Package Code | Package Shape | Package Body Material | Maximum Analog Output Voltage | Surface Mount | Maximum Supply Voltage | Maximum Analog Input Voltage | No. of Functions | Technology | Screening Level | No. of Bits | Maximum Settling Time | Maximum Supply Current | Nominal Supply Voltage | Minimum Negative Supply Voltage | Maximum tracking rate | Power Supplies (V) | Nominal Negative Supply Voltage | Package Style (Meter) | Package Equivalence Code | Sub-Category | Minimum Supply Voltage | Terminal Pitch | Maximum Operating Temperature | Signal or Output Frequency | Minimum Operating Temperature | Terminal Finish | Terminal Position | Maximum Negative Supply Voltage | JESD-30 Code | Moisture Sensitivity Level (MSL) | Maximum Seated Height | Width | Qualification | Additional Features | JESD-609 Code | Maximum Time At Peak Reflow Temperature (s) | Peak Reflow Temperature (C) | Maximum Angular Accuracy | Length |
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Data acquisition (DAQ) ADCs and DACs are specialized analog-to-digital converters (ADCs) and digital-to-analog converters (DACs) used in data acquisition systems to measure and control analog signals. These devices play a critical role in collecting and processing data from sensors, transducers, and other sources, and in generating control signals for actuators, motors, and other devices.
DAQ ADCs convert analog signals into digital signals with high resolution and accuracy, and they often include features such as programmable gain, filtering, and signal conditioning, to improve the quality of the measured signal. DAQ DACs, on the other hand, convert digital signals into analog signals with high precision and stability, and they often include features such as voltage and current output ranges, programmable output settings, and output buffering.
DAQ ADCs and DACs are used in a wide range of applications, from industrial automation and process control, to scientific research and test and measurement systems. They can be integrated into DAQ systems, which typically include analog signal conditioning circuits, digital signal processing circuits, and data storage and communication interfaces.
DAQ ADCs and DACs are designed to provide high accuracy, low noise, and fast conversion rates, to meet the demands of real-time data acquisition and control applications. They may also include features such as hardware triggering, synchronous sampling, and signal averaging, to improve the performance and the flexibility of the DAQ system.