Земля NI cRIO-9057 прочный 8-слотовый встраиваемый контроллер CompactRIO designed for distributed measurement, industrial automation, machine monitoring, and deterministic real-time control. It combines an Двухъядерный процессор Intel Atom, Artix-7 100T FPGA, NI Linux Real-Time, модульный Ввод-вывод серии C, и TSN synchronization into one industrial platform.
Типичные применения включают:
- Распределенный сбор данных
- Промышленная автоматизация
- Мониторинг состояния оборудования
- Дистанционные системы измерений
- Встраиваемые тестовые системы
- Промышленные IoT-узлы периферийных вычислений
- Мониторинг энергопотребления
- Synchronized industrial control
Архитектура процессора и ПЛИС
The cRIO-9057 is built around:
- Двухъядерный процессор Intel Atom E3805
- 1,33 ГГц частота ЦП
- 2 ГБ ОЗУ
- 4 ГБ встроенной памяти
- Xilinx Artix-7 100T FPGA
- 8-slot CompactRIO architecture
- NI Linux Real-Time OS
Земля Artix-7 100T FPGA provides hardware-level timing, deterministic trigger logic, digital processing, encoder handling, and custom FPGA control logic. NI lists the FPGA resources as 126,800 flip-flops, 63,400 6-input LUTs, 240 DSP slices, 4,860 kbits block RAM, 16 DMA channels, и 32 logical interrupts.
TSN и синхронизация
The cRIO-9057 supports TSN deterministic communication synchronization, making it suitable for multi-node measurement and control systems.
This is useful for:
- Multi-controller synchronization
- Распределенный мониторинг машин
- Remote data acquisition
- Industrial Ethernet automation
- Синхронизированные тестовые системы
- Energy and facility monitoring
Compared with older CompactRIO controllers, the cRIO-9057 is better suited for distributed systems that require network-based timing coordination.
Модульное расширение серии C
The cRIO-9057 supports up to 8 модулей серии NI C, allowing engineers to configure the system around specific signal and control requirements.
Основные типы модулей включают:
- Аналоговый ввод/вывод
- Цифровой ввод-вывод
- Измерение температуры
- Измерение деформации и растяжения
- Вибрация и сбор данных IEPE
- CAN / CAN FD связь
- LIN-коммуникация
- Промышленные коммуникационные интерфейсы
The 8-slot architecture makes the cRIO-9057 better suited than 4-slot models for systems requiring more sensor channels, mixed I/O types, or expanded monitoring points.
Data Acquisition and Real-Time Performance
The cRIO-9057 supports hardware-timed analog and digital tasks through НИ-DAQmx and LabVIEW workflows. In NI-DAQmx mode, analog input timing resolution is listed as 12,5 нс, timing accuracy as 50 ppm, and the maximum sample rate depends on the installed C Series modules.
This makes the controller suitable for:
- Synchronized sensor acquisition
- Deterministic digital triggering
- Embedded measurement systems
- Machine monitoring
- Test stand automation
Связь и промышленный дизайн
The cRIO-9057 provides:
- 2 Ethernet controller ports
- USB connectivity
- microSD storage support
- GigE Vision support
- 8 C Series slots
Industrial characteristics include:
- -20 °C to 55 °C operating temperature
- Rugged CompactRIO construction
- Compact 8-slot embedded design
- Suitable for industrial cabinets and distributed measurement stations
Прикладные варианты использования
Мониторинг состояния оборудования
With vibration, IEPE, temperature, and analog input modules, the cRIO-9057 can be used for equipment health monitoring, bearing diagnostics, rotating machinery analysis, and predictive maintenance systems.
Distributed Measurement
Its TSN support and Ethernet connectivity make it useful as a synchronized remote acquisition node in factories, energy systems, laboratories, and large test facilities.
Промышленная автоматизация
The controller can run deterministic control tasks through NI Linux Real-Time while using FPGA resources for low-latency timing, triggering, and custom digital control.
Embedded Test Systems
The cRIO-9057 is suitable for test stands that require mixed analog measurement, digital control, sensor acquisition, and real-time execution in one rugged embedded controller.
Сравнение с аналогичными моделями
| Модель | Основное различие | Типичное использование |
|---|---|---|
| cRIO-9056 | 8-slot, Artix-7 75T FPGA, 1 GB DRAM | Cost-sensitive 8-slot systems |
| cRIO-9057 | 8-slot, Artix-7 100T FPGA, 2 GB DRAM | Mid-range distributed control |
| cRIO-9058 | 8-slot, Artix-7 100T, extended temperature | Harsh industrial environments |
| cRIO-9054 | 8-slot, UltraScale FPGA | Higher FPGA processing |
| cRIO-9049 | 8-slot, Kintex-7 325T FPGA | Advanced FPGA applications |
Compared with cRIO-9056, the cRIO-9057 provides more FPGA resources and more memory, making it better for larger distributed measurement and control tasks.
Compared with cRIO-9058, the cRIO-9057 is more suitable for standard industrial temperature environments, while the cRIO-9058 is better for extended-temperature deployment.
Compared with cRIO-9054 или cRIO-9049, the cRIO-9057 is not intended for the most FPGA-intensive applications, but it offers a practical balance of 8-slot expansion, TSN synchronization, real-time control, and deployment cost.
Заключение
Земля NI cRIO-9057 прочный 8-slot CompactRIO controller for distributed measurement, industrial automation, machine monitoring, and embedded real-time control.
Его сочетание:
- Двухъядерный процессор Intel Atom
- Artix-7 100T FPGA
- TSN synchronization
- NI Linux Real-Time
- 8-слотный модуль расширения серии C
- Прочный промышленный дизайн
makes it a practical choice for engineers building synchronized acquisition systems, remote monitoring platforms, embedded test systems, and distributed industrial control nodes.









