Showing results: 76 - 90 of 92 items found.
-
786672-01 -
NI
PXIe, Kintex-7 325T FPGA, 16-Channel AI, 1 MS/s, PXI Multifunction Reconfigurable I/O Module - The PXIe-7862 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 16 analog input channels connected directly to a Kintex-7 325T FPGA, you have ample space to design applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7862 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7862 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
-
785571-01 -
NI
Kintex-7 325T FPGA, 18-AO Channels, 1 MS/s, PXI Multifunction Reconfigurable I/O Module—The PXIe-7868 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 18 analog output channels connected directly to a Kintex-7 325T FPGA, you have ample space to design applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7868 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7867 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
-
784147-01 -
NI
Kintex-7 325T FPGA, 1 MS/s, DRAM PXI Multifunction Reconfigurable I/O Module—The PXIe‑7858 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals to ensure complete flexibility of system timing and synchronization. You can customize these devices with the LabVIEW FPGA Module to develop applications requiring precise timing and control such as hardware‑in‑the‑loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe‑7858 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7856 also includes peer‑to‑peer streaming for direct data transfer to other PXI Express modules.
-
784144-01 -
NI
Kintex-7 160T FPGA, 500 kS/s, DRAM PXI Multifunction Reconfigurable I/O Module—The PXIe‑7847 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals to ensure complete flexibility of system timing and synchronization. You can customize these devices with the LabVIEW FPGA Module to develop applications requiring precise timing and control such as hardware‑in‑the‑loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe‑7847 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7847 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
-
785570-01 -
NI
Kintex-7 160T FPGA, 18-Channel AO, 1 MS/s, PXI Multifunction Reconfigurable I/O Module—The PXIe-7867 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 18 analog output channels connected directly to the FPGA, you can quickly design for applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7867 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7867 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
-
784145-01 -
NI
Kintex-7 160T FPGA, 1 MS/s PXI Multifunction Reconfigurable I/O Module—The PXIe‑7856 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals to ensure complete flexibility of system timing and synchronization. You can customize these devices with the LabVIEW FPGA Module to develop applications requiring precise timing and control such as hardware‑in‑the‑loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe‑7856 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7856 also includes peer‑to‑peer streaming for direct data transfer to other PXI Express modules.
-
784143-01 -
NI
Kintex-7 160T FPGA, 500 kS/s PXI Multifunction Reconfigurable I/O Module—The PXIe‑7846 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals to ensure complete flexibility of system timing and synchronization. You can customize these devices with the LabVIEW FPGA Module to develop applications requiring precise timing and control such as hardware‑in‑the‑loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe‑7846 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7846 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
-
784146-01 -
NI
Kintex-7 160T FPGA, 1 MS/s, DRAM PXI Multifunction Reconfigurable I/O Module—The PXIe‑7857 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals to ensure complete flexibility of system timing and synchronization. You can customize these devices with the LabVIEW FPGA Module to develop applications requiring precise timing and control such as hardware‑in‑the‑loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe‑7857 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7856 also includes peer‑to‑peer streaming for direct data transfer to other PXI Express modules.
-
EXC-4000P104plus -
Excalibur Systems, Inc.
The EXC-4000P104plus is a multiprotocol P104plus interface board for embedded applications or avionics test and simulation applications. Each board holds up to five independent modules. Two on-board modules use the MIL-STD-1553 communications protocol (M4K1553Px); another on-board module uses the ARINC-429 communications protocol; two additional detachable modules can be any one of the following types:M4K1553PxS (Single Function - RT validated) This module operates as a Bus Controller, Remote Terminal or a Bus Monitor. This module qualifies for airborne applications.M4K1553Px (Multi Function) This module operates as a Bus Controller, up to 32 Remote Terminals and as a Bus Monitor. Supports an Internal Concurrent Monitor in RT and BC/RT modes.M4K1553Px(S)-1760 Same as M4K1553Px(S) plus MIL-STD-1760 options.M4KMMSI Mini Munitions Store Interface module. Supports RT, BC/Concurrent-RT/Concurrent Monitor and Bus Monitor modes. Up to 8 hub ports EBR-1553 [10 Mbps 1553 protocol using RS-485 transceivers] and 1 monitor output.M4KH009 Based on our H009 family. This module operates as a Central Computer Complex (CCC) and/or up to 16 Peripheral Units (PUs) simultaneously, or as a Bus Monitor. In addition, a Concurrent Bus Monitor enables concurrent monitoring of the bus during CCC and PU simulation.M4K429RTx Based on our ARINC 429RxTx board. This module supports either five or ten ARINC 429 channels each of which can be configured in real time as a receive or transmit channel.M4K708 This module supports two channels of ARINC 708/453, each one selectable as either transmit or receive.M4KSerial This module supports up to 4 independent channels of serial communications, each of which can be selected as RS485, RS422 or RS232.M4KDiscrete This module supports 20 selectable input/open collector output discretes. The module supports TTL (0 to 5 volts) or avionics (0 to 32 volts) voltage levels.M4KCAN This module supports up to 6 independent channels of CAN 2.0B protocol with standard and extended message frames and message identifiers.
-
783485-01 -
NI
Kintex 7 160T FPGA, 128 DIO, 512 MB DRAM, PXI Digital Reconfigurable I/O Module—The PXIe‑7821 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PXIe‑7821 supports peer‑to‑peer streaming for direct data transfer between PXI Express modules. The PXIe‑7821 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in-‑the‑loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
-
783484-01 -
NI
Kintex 7 160T FPGA, 128 DIO, PXI Digital Reconfigurable I/O Module—The PXIe‑7820 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PXIe‑7820 supports peer‑to‑peer streaming for direct data transfer between PXI Express modules. The PXIe‑7820 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in‑the‑loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
-
783486-01 -
NI
Kintex 7 325T FPGA, 128 DIO, 512 MB DRAM, PXI Digital Reconfigurable I/O Module—The PXIe‑7822 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PXIe‑7822 supports peer‑to‑peer streaming for direct data transfer between PXI Express modules. The PXIe‑7822 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in‑the‑loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
-
AIM GmbH
AIM’s STANAG3910/EFEX test, simulation, monitoring and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with multiple processors for real time bus protocol and application support, massive memory and IRIG-B time code encoder/decoder functions are standard. The latest versions also support avionics discrete I/O. Configurations with dual redundant concurrent HS/LS Bus Controller (BC), Multiple Remote Terminals, and Chronological/Mailbox Bus Monitor operation with full HS/LS protocol error injection/detection, multi-level triggering, advanced capture/filtering and real time bus recording, time stamping and physical bus replay ensure your bus integrity. Support for EFAbus Direct Digital Links (DDL), Fibre Optic DDL (FODDL) and EFAbus Express extensions (Mixed Mode and Dual Mode operation) are available. To support the French ‘Rafale’ aircraft, modules are available with an Electrical Front End. Single Function variants support cost effective solutions. Each module is delivered with a Board Support Package (BSP) containing the onboard driver software, a full Application Programming Interface (API) and detailed getting started and programming guides. Powerful PBA.pro databus test and analysis software is optionally available for all our STANAG3910 modules.
-
LE-1500R -
LINEEYE Co., Ltd.
"LE-1500R" is a protocol analyzer (line monitor) dedicated for asynchronous communication monitoring with affordable pricing. LE-1500R can run as a stand- alone by the internal battery for long time and can be remotely controled by a PC or a smart phone via Wi-Fi (Wi-Fi function is available only in USA, Canada, Japan, and EU). The analyzer has a TTL measurement port (which supports UART communication) as its standard port besides RS-232C, RS-422, and RS-485. It can monitor communication data of max 500Kbps for up to 32MB (8,000,000 data) in real time and also can execute a simulation testing of send/receive data. It also has a BERT function (which is not equipped with the analyzers of this pricing level) as its standard function. The correct time stamp, the measurement of idel time (which are the difficult for other software analyzers), and the capturing ability (without missing data) are the best options for trouble shooting and development test of a communication sytem which requires a reliablity.
-
AIM GmbH
AIM’s Fibre Channel test, simulation and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with one dual core RISC processor per port, massive and scalable DDR3 memory and IRIG-B time encoder/decoder functions are standard. The new ultra high performance intelligent 4-lane PCIe 2.0 interface modules offer 2 ports with full function test, simulation, monitoring and analyzer functions for Fibre Channel networks. The dual core processor provides onboard processing and data transfer capabilities for the most demanding Fibre Channel applications including upper layer protocol support done on board level. Large and high data throughput DDR3 RAM is accessible for the onboard processor as is a high performance FPGA implementing the customized Fibre Channel interfaces enabling the board to analyze incoming and modify outgoing data in real time. Each module provides 2 Fibre Channel compliant full duplex ports, implementing the full link level services. SFP cages make it suitable for different media types as optical or electrical network technologies. Ports operate either in Traffic Simulator or Analyzer/Monitor mode with support for port related Frame Statistics. Sophisticated packet capturing mechanism and monitoring features are complimented with powerful triggering and filtering capabilities.
