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Showing results: 8176 - 8190 of 9890 items found.

  • PXI 8-Slot BRIC Matrix, 88x4 2-Pole (2 sub-cards)

    40-562B-122-88X4 - Pickering Interfaces Ltd.

    The 40-562B-122-88X4 is a high density BRIC8 matrix module with a size of 88x4 with 2-pole switching. It is part of a range of BRIC matrices available in 2, 4, 8 or 12-slot formats to suit high performance PXI matrix requirements and is constructed using instrumentation quality reed relays.

  • PXI 8-Slot BRIC Matrix, 88x16 2-Pole (8 sub-cards)

    40-562B-122-88X16 - Pickering Interfaces Ltd.

    The 40-562B-122-88X16 is a high density BRIC8 matrix module with a size of 88x16 with 2-pole switching. It is part of a range of BRIC matrices available in 2, 4, 8 or 12-slot formats to suit high performance PXI matrix requirements and is constructed using instrumentation quality reed relays.

  • PXI 8-Slot BRIC Matrix, 88x8 1-Pole (4 Sub-cards)

    40-562B-121-88X8 - Pickering Interfaces Ltd.

    The 40-562B-121-88X8 is a high density BRIC8 matrix module with a size of 88x8 with 1-pole switching. It is part of a range of BRIC matrices available in 2, 4, 8 or 12-slot formats to suit high performance PXI matrix requirements and is constructed using instrumentation quality reed relays.

  • PXI 8-Slot BRIC Matrix, 99x16 2-Pole (9 sub-cards)

    40-562B-122-99X16 - Pickering Interfaces Ltd.

    The 40-562B-122-99X16 is a high density BRIC8 matrix module with a size of 99x16 with 2-pole switching. It is part of a range of BRIC matrices available in 2, 4, 8 or 12-slot formats to suit high performance PXI matrix requirements and is constructed using instrumentation quality reed relays.

  • IR Radiation Systems And Systems

    BF Engineering GmbH

    Irradiation systems with infrared are used in test applications when a high heat input to the test object is required. In our portfolio you will find a wide range of different designs and areas of application for IR systems. From simple radiation modules to highly complex radiation systems.

  • Embedded BACnet Stack For 32 Bit Processors

    FreeRange VSB - PolarSoft Inc.

    PolarSoft FreeRange is a set of modular software component modules that provide BACnet client and server application layer, network layer and media access (MAC) layer communications services to embedded systems programs. FreeRange is written entirely in the C language for ease of portability to various platforms.

  • Fibre Channel Software Development Kit

    Fibre Channel SDK - Avionics Interface Technologies

    Software Drivers for Windows, Linux, VxWorks, and other Operating Systems (on request) - Compatible with all Fibre Channel Interface Modules - Includes documented APIs with source code examples for ANSI C, C++, and LabVIEW - Support provided by AITs industry leading applications engineering team

  • PXI/PXIe Very High Density Versatile 2 A Multiplexer

    40-612B-002 - Pickering Interfaces Ltd.

    The 40-612B (PXI) and 42-612B (PXIe) Very High Density Versatile Multiplexer module features a wide range of software selectable switching configurations. It is especially useful where a number of high density multiplexers are required with the option of easily altering the channel count as a test system evolves.

  • PXI/PXIe Very High Density Versatile 2 A Multiplexer

    42-612B-002 - Pickering Interfaces Ltd.

    The 40-612B (PXI) and 42-612B (PXIe) Very High Density Versatile Multiplexer module features a wide range of software selectable switching configurations. It is especially useful where a number of high density multiplexers are required with the option of easily altering the channel count as a test system evolves.

  • Modular RF Systems

    Becker Nachrichtentechnik GmbH

    Flexible modular system for customer specific system solutions without the effort of development and construction. The range of module types covers from active multicouplers, programmable attenuators, delay lines, RF switches, switching matrices, BIAS-Ts, RF filters up to bi-directional splitters and combiners.

  • Image Intensifiers

    Inframet

    Image intensifier tubes (IITs) are vacuum tubes that amplify a low light-level image to observable levels. Image intensifier tubes are the most important modules of night vision devices that play crucial role in defense/security/industrial applications.Technology of manufacturing of image intensifier tubes is very difficult and performance parameters of modern IITs varies even within the same technological process. Next, test report offered by manufacturers cannot be fully trusted because there are some differences in test methods used by different manufactures. Further on, there are literature sources presenting conflicting claims of different manufacturers. It is quite common to find on the world market two night vision devices (or two image intensifier tubes) of the same data sheet parameters but of totally different image quality. Inverse situation is possible, too. Due to reasons mentioned above testing image intensifier tubes is of critical importance for both their manufacturers, manufacturers of night vision devices (NVDs) and final users of NVDs.

  • 76kWh Lithium Battery 384V 200AHSolar Energy Storage LiFePO4 battery System

    SPVLI-76KWH - Zhejiang Sandi Electric Co., Ltd

    SANDI ESS lithium battery system is composed of lithium battery modules, BMS system, PV charge controller, AC/DC Charger, central control unit CCU, temperature detector, integrated structure and other parts; the solar panels in the system are battery storage and power for output; BMS module completes the detection and control of voltage, current, temperature, SOC, SOH and charging and discharging related parameters of power battery pack; PV controller and inverter realize bidirectional AC/DC function to meet the charging and discharging conversion demand of power battery pack; each detector is used to monitor the ambient temperature in real time to ensure the safety of the system.Features1. Standardized components, modular architecture, easy for expansion2. High energy density, small footprint, short construction period, strong environmental adaptability3. Battery module within the layered stack design, with more than 10 years of long design life4. Long Cycle Life LiFePO4 Lithium ion Battery system from 20KWH-500KWH optional5. The use of international advanced Mitsubishi IPM module and intelligent power module, with high power fast adjustment capability6. BMS battery management system with SOC automatic calibration and high current active balance function, combined with the perfect operation control and management strategies to achieve accurate and efficient management7. The combination of software and hardware protection, with alarm protection and automatic diagnostic functions, improve the protection strategy to ensure safe and efficient operation of the system8. Product communicates with the monitoring platform in real time through RS232, CAN communication interface, and reports various records in time to ensure real-time monitoring of the battery pack of the monitoring platform9. PV charge controller adopts three charging stages (buck charging, equalize charging and float charging) which can maximize the utilization of PV modules and batteries10. Colorful LCD display all module working information and statusSpecificationModel SPVLI-76.8KWHType of cell LiFePO4 (Lithium iron phosphate)Battery configuration 3.2V 200AH 120PCSRated capacity (KWH) 76.8kwhNominal capacity (AH) 200AHNominal voltage (VDC) 384VOperating voltage range (VDC) 312-438VRecommended Charge Voltage (VDC) 420VRecommended discharge cutoff voltage (VDC) 360VRecommended charge current(A) 100AMax Charge Current (A) 200ARecommended discharge current (A) 100AMax Discharge Current (A) 200ACharge temperature range 1~45℃Discharge temperature range -10~45℃Solar Charge Controller InputMaximum. Input voltage of solar array(Vdc) <750VdcBattery system voltage 384VDCMaximum power of solar array 40KWMaximum charge current(A) 100AEqualization charging voltage (Vdc) 426VEqualize charging recovery voltage (Vdc) 405.6VOver voltage disconnect voltage (Vdc) 438VOver voltage recovery (Vdc) 432VWorking temperature -20~50℃Protection level IP20Communication interface CAN2.0, BMSDisplay 5" LCD, EnglishCooling system Fan coolingWorking Altitude (m) ≤3000mReference Weight (Kg) 920KgReference size (W*D*H mm) 900*1100*1700mm

  • Infrared Array Sensor

    Grid-EYE Evaluation Kit - Panasonic Automotive & Industrial Systems Europe GmbH

    Panasonic Automotive & Industrial Systems has launched this evaluation kit for its Grid-Eye infrared array sensor, which integrates a ”nanopower” Bluetooth Smart module and a microcontroller. The kit is intended for prototyping the Grid-EYE sensor which is a 64 pixel IR camera in a surface mount package measuring 11.6mm x 8mm x 4.3mm, which integrates the MEMS sensor, lens and I2C interface. The integrated Bluetooth module in the evaluation kit, the PAN1740, draws 4.9mA in transmit or receive operating modes, which means it can be powered by coin cell batteries. The IR sensor has 64 thermopile elements in an 8×8 grid format that detect absolute surface temperature without any contact.

  • cDAQ-9179, 14‑Slot, USB 3.0 CompactDAQ Chassis

    783597-01 - NI

    14‑Slot, USB 3.0 CompactDAQ Chassis - The cDAQ‑9179 is a CompactDAQ USB chassis designed for small, portable sensor measurement systems. The chassis provides the plug‑and‑play simplicity of USB to sensor and electrical measurements with the higher performance data streaming of USB 3.0. It also controls the timing, synchronization, and data transfer between C Series I/O modules and an external host. You can use this chassis with a combination of C Series I/O modules to create a mix of analog I/O, digital I/O, and counter/timer measurements. The cDAQ‑9179 also has four 32‑bit general-purpose counters/timers. You can access these counters, as well as share clocks and triggers, through two built-in BNC connectors.

  • ISC-1782, 2 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera

    785151-01 - NI

    The ISC‑1782 is a high-performance smart camera for machine vision and is powered by a 1.58 GHz dual-core Intel Celeron processor. The combination of the onboard processor with a CMOS image sensor provides an easily distributed all-in-one system. In addition to high-performance image acquisition and processing, you can use built-in digital I/O and industrial communication options for dynamic, real-time communication and integration with industrial automation devices including programmable logic controllers (PLCs), human machine interfaces (HMIs), robotics, sensors, and industrial machinery. You can configure NI Smart Cameras with the included Vision Builder for Automated Inspection (AI) software or program the camera with the LabVIEW Real‑Time Module and the Vision Development Module.

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