Showing results: 571 - 585 of 678 items found.
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783765-01 -
NI
The NI‑7932 features a programmable FPGA and embedded processor optimized for deployment in the field for reliable, extended operation for applications requiring advanced I/O capability with embedded signal processing. It includes a Xilinx Kintex‑7 K325T FPGA, 2 GB of onboard DDR3 DRAM, a dual‐core ARM Cortex‑A9 processor running NI Linux Real‑Time, and 2 SFP+ ports for data streaming. The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.
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783766-01 -
NI
The NI‑7935 features a programmable FPGA and embedded processor optimized for deployment in the field for reliable, extended operation for applications requiring advanced I/O capability with embedded signal processing. It includes a Xilinx Kintex‑7 K410T FPGA, 2 GB of onboard DDR3 DRAM, a dual‐core ARM Cortex‑A9 processor running NI Linux Real‑Time, and 2 SFP+ ports for data streaming. The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.
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783690-01 -
NI
The PXIe‑5170 high-density PXI oscilloscope has eight simultaneously-sampled channels with flexible settings for coupling and voltage range. PXI oscilloscopes also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for applications with many channels that require up to 250 MS/s or 100 MHz of analog bandwidth and advanced PXI synchronization. The PXIe‑5170 also features a programmable Kintex‑7 325T FPGA that can be used for custom acquisition, triggering, signal processing, and data streaming.
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785646-01 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785647-01 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785647-02 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785646-02 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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784661-01 -
NI
1- or 2-Port, High-Speed/FD, USB CAN Interface Device—The USB-8502 is a high-speed controller area network (CAN) interface for developing applications with the NI‑XNET driver. The USB‑8502 is powered over the USB bus and does not require external power. It excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals such as bus monitoring, automation control, and more. The NI‑XNET device‑driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex applications. The USB‑8502 is available with a three‑pin COMBICON synchronization connector for triggering and synchronizing the internal hardware timebase with other devices.
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784662-01 -
NI
1- or 2-Port, High-Speed/FD, USB CAN Interface Device—The USB-8502 is a high-speed controller area network (CAN) interface for developing applications with the NI‑XNET driver. The USB‑8502 is powered over the USB bus and does not require external power. It excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals such as bus monitoring, automation control, and more. The NI‑XNET device‑driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex applications. The USB‑8502 is available with a three‑pin COMBICON synchronization connector for triggering and synchronizing the internal hardware timebase with other devices.
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RZ/A -
Renesas Electronics Corp.
The high-performance RZ/A Series MPUs retain the ease-of-use of Renesas microcontrollers (MCUs), while combining Renesas' proprietary technologies and the Arm® ecosystem. RZ/A devices offer up to 10 MB of on-chip SRAM, which can buffer up-to WXGA resolution graphics without the need for external SDRAM. This capability is married with the device’s ability to execute code in-place (XIP) from QSPI flash, which greatly simplifies board design. Coupled with its high-bandwidth 128-bit wide parallel data bus, the RZ/A supports faster graphics, digital audio signal processing, device control, and more.
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NI
PXI FlexRIO Digitizers feature high-performance analog-to-digital converters with lightweight analog front-ends designed to maximize sample rate, bandwidth, and dynamic range. These modules use FPGAs from Xilinx alongside LabVIEW and Vivado programming options for custom algorithm implementation and real-time signal processing. For applications that require high channel counts, PXI FlexRIO Digitizers use the NI-TClk API and the timing and synchronization capabilities of PXI to achieve sub-sample synchronization between multiple modules in a chassis. These modules also feature an auxiliary I/O connector with GPIO for triggering or digital interfacing and the option for high-speed serial communication.
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NI
RF Adapter Modules for FlexRIO feature frequency coverage from 200 MHz to 4.4 GHz, with up to 200 MHz instantaneous bandwidth. When paired with a PXI FPGA Module for FlexRIO or the Controller for FlexRIO, you can program the FPGA using LabVIEW to implement custom signal processing, including modulation and demodulation, channel emulation, spectral analysis, and even closed-loop control. These modules are all based on a direct conversion architecture and feature an onboard local-oscillator which can be shared with adjacent modules for synchronization. RF adapter modules also provide digital I/O capability for interfacing with external hardware.
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MX 256 -
Teledyne Gas & Flame Detection
The MX 256 is a digital control unit intended for the detection and measurement of gases present in the atmosphere and more generally for the processing of any digital signal from digital sensors (OLCT 10N types), relay module, analog output module, logic input module. Thanks to its new option, an industrial controller module or remote HMI, it is possible to add analog input modules for sensor-transmitter connection (4-20 mA) and / or relay modules, this allows to not only extend the capacities but also to have event recordings (Location, Alarms,.....) and to have access to the data via the embedded web page.
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DMTH4 -
Lectrosonics, Inc.
The DMTH4 integrates telephone lines, video codecs and external audio sources into the digital bus structure of DM Series processors so these sources operate as though they are another microphone or audio input in the sound system. The unit is much more than just a telephone interface. Instead, it is a complete DM Series digital matrix processor, with a 3-in/24-out digital matrix, automatic mixing and comprehensive signal processing on every input and output. In essence, it simply connects to telephone lines, video codecs and external audio sources instead of mic/line inputs and outputs and integrates seamlessly with DM Series matrix processors.
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CPCI-ADDA -
ALPHI Technology Corporation
The CPCI-ADDA module offers a complete solution forhigh performance data acquisition applications. Boththe ADC’s and the DAC’s use 10 mS converters thatwill support up to 100khz signals. The CPCI-ADDAsupports P.I.D. loop closure frame rates of up to 4 KHzper channel. The CPCI host can download gain andsetpoint changes on the fly. The CPCI host can readback the current values for feedback, error, setpointand output drive on each channel. The local DSPprocessor can be used for data processing such asdigital filters and FFT’s. The DSP can also be used asa waveform generator to drive the 16 bit DAC.