NI PXIe-4844 is a control pulse card module mainly used for high-precision and high-speed pulse generation and counting applications. The following are the main product features of this module:
High speed pulse generation and counting: The PXIE-4844 module has the ability to generate and count high-speed pulses. It can generate and count pulse signals at a fast rate, suitable for applications that require high-speed counting and precise pulse generation, such as timing, frequency measurement, and timing control.
Multi channel pulse generation and counting: This module provides multiple independent pulse generation and counting channels, typically including 8 or more channels. Each channel can independently generate and count pulses, making the module suitable for multi-channel counting and generation applications, such as multi-channel frequency measurement and multi-axis control systems.
High precision counting and generation function: The PXIE-4844 module has high-precision pulse counting and generation functions. It has low noise, high resolution, and precise clock control, which can achieve accurate pulse counting and generation, meeting high precision requirements for applications.
Flexible triggering and synchronization functions: This module 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.
Wide range pulse output and counting function: The PXIE-4844 module supports wide range pulse output and counting function. It can generate and count various types of pulse signals, including square waves, pulses, timers, and counters, to meet the needs of different application scenarios.
Software support: This 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.