The NISCXI-1325 is a high-voltage screw-terminal block for NI SCXI chassis, engineered to safely connect and route high-voltage signals to SCXI measurement modules while protecting the system from overvoltage damage. The NISCXI-1325 supports 26-14 AWG wiring via secure screw terminals, ensuring reliable connections in industrial and lab environments. It is fully compliant with SCXI modular standards, enabling seamless integration with NI SCXI-1000/1001/1002 chassis and modules like SCXI-1125, making the NISCXI-1325 a versatile building block for high-voltage test systems. The NISCXI-1325 provides robust electrical isolation between channels and the chassis, safeguarding sensitive measurement circuitry from high-voltage transients. Its compact form factor fits standard SCXI chassis slots, optimizing space in test racks. With a humidity range of 5% to 90% (non-condensing) and durable construction, the NISCXI-1325 delivers consistent performance in power electronics testing, automotive battery validation, and industrial process monitoring. It also simplifies high-voltage signal routing, reducing setup time and enhancing measurement safety for engineers and technicians.
The NI SBRIO-9607 is a high-performance embedded control and acquisition device from National Instruments, falling under their reconfigurable I/O (RIO) platform. More specifically, it is a Single-Board RIO device, integrating a real-time processor, a user-reconfigurable FPGA (Field-Programmable Gate Array), and a variety of analog and digital I/O directly onto a single, rugged printed circuit board. The NI SBRIO-9607 is engineered for demanding applications that require deterministic control, high-speed signal processing, and custom hardware timing, all in a compact, standalone form factor. It is designed to operate as the core of a sophisticated machine controller, rapid control prototyping system, or hardware-in-the-loop (HIL) test unit. The integration of the FPGA allows engineers to implement custom digital logic, high-speed control loops, and precise timing that are impossible with standard PLCs.
The NI PXI-8186 is a high-performance embedded controller from National Instruments, designed specifically for the PXI (PCI eXtensions for Instrumentation) modular instrumentation platform. This controller is the central computing brain of a PXI system, housing the processor, memory, and operating system to execute test, measurement, and control applications. The NI PXI-8186 integrates a powerful Intel processor and standard PC interfaces into a rugged, compact form factor that slides directly into a PXI chassis, enabling the creation of robust, integrated automated systems. As a key component of NI’s modular instrumentation strategy, this controller allows engineers to build sophisticated data acquisition, automated test, and real-time control systems with high determinism and throughput. The reliability and processing power of the NI PXI-8186 make it suitable for demanding applications in R&D and production environments. The design of the NI PXI-8186 emphasizes both computational performance and seamless integration within the PXI ecosystem.
The NI SCXI-1104C is a high-performance, high-accuracy signal conditioning module from National Instruments’ SCXI platform. Designed as a multichannel instrumentation amplifier, it is engineered to reliably interface sensitive, low-voltage analog sensors with data acquisition (DAQ) systems, making it a crucial component for precision measurement and test applications in both industrial and laboratory environments.
Описание продукта Модуль NI PXI-4462 представляет собой высокоточный измерительный прибор для динамического сигнального анализа (Dynamic Signal Analyzer – DSA), выполненный в форм-факторе платформы PXI/CompactPCI. Этот модуль не является компонентом ПЛК в классическом понимании, а относится к классу оборудования для сбора и обработки аналоговых сигналов в задачах тестирования, контроля и измерений (Test & Measurement). Модуль NI PXI-4462 оснащен высококачественными 24-битными аналого-цифровыми (АЦП) и цифро-аналоговыми (ЦАП) преобразователями, что делает его идеальным для работы со звуковыми, вибрационными и другими низкочастотными динамическими сигналами. Он используется для построения высокопроизводительных измерительных систем, стендов для испытаний и систем мониторинга состояния, где требуется прецизионная запись и генерация аналоговых сигналов.
The NI SCXI-1141 is a high-performance signal conditioning and digitizer module from National Instruments (NI) designed for use within the SCXI (Signal Conditioning eXtensions for Instrumentation) platform. Primarily used in high-precision data acquisition (DAQ) and automated test systems rather than traditional real-time PLC control, this module excels at acquiring and conditioning high-frequency analog signals. The NI SCXI-1141 functions as a high-speed front-end, providing programmable gain, anti-aliasing filtering, and analog-to-digital conversion for up to eight simultaneous input channels. It is engineered for applications requiring accurate measurement of dynamic signals such as vibration, acoustics, and transient events. The modular architecture of the SCXI system, centered around components like the NI SCXI-1141, allows for scalable and flexible test and measurement setups.
SCXI-1125 is a significant component in the field of PLC automation systems, playing a crucial role in enhancing the functionality and performance of industrial automation processes.
Overall dimensions: 44.5mm x 213.4mm x 281.9mm
Weight: 1.25kg
Power requirements: 100-240 VAC, 50/60 Hz, automatic adaptation
Maximum sampling rate: 10 KS/s
Number of channels: 96 differential /192 single-ended
Input type: Support voltage, current, resistance, capacitance, thermocouple, thermistor, strain gauge and other input types
The NI – 9174 is a 4 – slot USB CompactDAQ chassis designed by National Instruments1. It offers plug – and – play simplicity for sensor and electrical measurements, controlling the timing, synchronization, and data transfer between C series I/O modules and an external host
Interface: Up to 8 different high-speed CAN bus interfaces are supported.
Protocol: Supports a variety of different CAN communication protocols.
Data transfer rate: Maximum 1 Mbps.
Operating temperature range: 0°C to 55°C.
Power supply requirements: +3.3 VDC, +5 VDC, +12 VDC, -12 VDC.
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