PXI-8145RT RT系列嵌入式控制器

PXI-8145RT RT系列嵌入式控制器

NI PXI-8145RT 实时 嵌入式 控制器 的 主要 特性 包括 ：

高性能英特尔酷睿 i7 处理器：为要求苛刻的实时应用提供卓越的处理能力。

实时操作系统：在实时操作系统上运行，为时间关键型任务提供确定性性能。

精确的定时和同步：提供高精度定时和同步功能，这对于需要精确计时和同步数据采集的应用至关重要。

坚固的结构：PXI-8145RT采用坚固的组件，可承受恶劣环境，包括极端温度、振动和电磁干扰。

灵活的 I/O：提供多种 I/O 接口，包括千兆以太网、USB 3.0、USB 2.0、RS-232 和 SPI，可实现与各种外设和设备的无缝连接。

应用：

NI PXI-8145RT 实时 嵌入式 控制器 广泛 应用 在 各种 实 时 应用， 包括 ：

高频数据采集：高速采集和处理来自传感器和仪器的大量数据，例如在国防、航空航天和工业自动化应用中。

实时控制系统：通过精确的定时和同步实时控制执行器和设备，例如在机器人、运动控制和过程自动化应用中。

模拟器和仿真器：开发用于培训、测试和研究目的的实时模拟器和仿真器。

科研：为需要精确计时和同步的科学实验和研究项目获取和分析数据。

好处：

确定性实时性能：实时操作系统可确保关键应用的可预测和一致的时序行为。

精确的定时和同步：高精度定时和同步功能支持需要精确计时和同步数据采集的应用。

坚固的结构：可承受恶劣环境，确保在苛刻条件下可靠运行。

灵活的 I/O 连接：可连接各种外设和设备，实现多种应用。

高性能加工：强大的处理器可高效处理要求苛刻的实时任务。

PXI-8145RT RT系列嵌入式控制器

The main features of the NI PXI-8145RT real-time embedded controller include:

High-performance Intel Core i7 processor: Delivers superior processing power for demanding real-time applications.

Real-time operating system: Runs on a real-time operating system to provide deterministic performance for time-critical tasks.

Precise timing and synchronization: Providing high-precision timing and synchronization capabilities is essential for applications that require accurate timing and synchronous data acquisition.

Rugged construction: The PXI-8145RT features rugged components that can withstand harsh environments, including extreme temperatures, vibration and electromagnetic interference.

Flexible I/O: Multiple I/O interfaces, including Gigabit Ethernet, USB 3.0, USB 2.0, RS-232, and SPI, enable seamless connectivity with a wide range of peripherals and devices.

Applications:

NI PXI-8145RT real-time embedded controllers are used in a wide variety of real-time applications, including:

High-frequency data acquisition: High speed acquisition and processing of large amounts of data from sensors and instruments, such as in defense, aerospace and industrial automation applications.

Real-time control systems: Control actuators and devices in real time through precise timing and synchronization, for example in robotics, motion control and process automation applications.

Simulators and simulators: Development of real-time simulators and simulators for training, testing and research purposes.

Scientific research: Acquiring and analyzing data for scientific experiments and research projects that require accurate timing and synchronization.

Benefits:

Deterministic real-time performance: A real-time operating system ensures predictable and consistent timing behavior for critical applications.

Precise timing and synchronization: High-precision timing and synchronization features support applications that require accurate timing and synchronous data acquisition.

Robust construction: Withstands harsh environments and ensures reliable operation in harsh conditions.

Flexible I/O connectivity: A wide range of peripherals and devices can be connected for a wide range of applications.

High Performance processing: Powerful processors efficiently handle demanding real-time tasks.