NI PXIe-4300 is a high-performance data acquisition module that provides the following main functions:
High speed data acquisition: This module supports high-speed data acquisition and can collect analog and digital data at a high rate from external signal sources. It has fast sampling speed and high resolution, which can meet applications with high requirements for fast changing signals and accuracy.
Multi channel input: The PXIe-4300 module has multiple channel inputs, typically providing 8 or more input channels, each of which can independently collect signals. This makes it suitable for applications that require simultaneous acquisition of multiple signals, such as multi-sensor data acquisition and multi-channel testing systems.
High precision measurement: This module provides high-precision measurement functions with low noise and distortion characteristics, and can accurately measure parameters such as amplitude, frequency, and phase of input signals. It is suitable for applications that require high signal quality, such as sound analysis, vibration analysis, and sensor calibration.
Flexible triggering and synchronization functions: PXIe-4300 supports multiple triggering modes and synchronization functions, and can be triggered externally, software, or internally as needed. This enables the module to synchronize with other devices, achieving highly accurate time correlation and data synchronization.
High speed data transmission: This module uses PCI Express technology to quickly transmit data to the host computer, achieving high-speed data collection and processing capabilities. It can transmit a large amount of data in real-time in a high bandwidth environment, suitable for applications with high real-time requirements.
Software support: The NI PXIe-4300 acquisition module is equipped with powerful software support, including NI-DAQmx driver and LabVIEW programming environment. These tools and interfaces enable users to easily configure, control, and analyze data, improving the efficiency of development and debugging.