Showing results: 1561 - 1575 of 1682 items found.
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eBOX660-872-FL -
Axiomtek Co., Ltd.
A high-performance fanless embedded system with 3rd Generation Intel® Core™ processor (Ivy Bridge), the eBOX660-872-FL, is presented by Axiomtek earnestly. It incorporates the 3rd Generation Intel® Core™ processor (i7/ i5/ i3) or Intel® Celeron® processor with Intel® HM76 Express chipset, propelling computing with better processing. With the great graphics computing capability and dual view support, this fanless embedded box computer is especially suited for automatic optical inspection, digital signage (DS), digital surveillance, gaming, automation control and POS/Kiosk. In addition, this application-ready compact rugged platform also targets for nearly any field of industrial embedded applications like embedded controller, factory automation and more fields.
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Dione S 640 CAM Series -
Xenics
The Dione S 640 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 640 × 480 resolution and NETD of less than 40 mK (available upon request) and 50 mK. The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione S 640 CAM is lightweight and small with mechanical shutter. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione S 640 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione S 640 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M24/M34 lens (optional).The ultra-compact Dione S 640 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Dione S 1024 CAM Series -
Xenics
The Dione S 1024 CAM series is based upon the Dione 1024 OEM thermal imaging core with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz.Dione S 1024 CAM is a LWIR uncooled thermal imaging SWaP module with housing supporting M34/M45 lens (optional).Dione S 1024 CAM series benefit from Xenics image enhancement for advanced image processing while keeping power consumption low. Moreover, GenICam compliance and the availability of multiple lenses provide a high level of tunability for optimal integration into many systems.The compact Dione S 1024 CAM series find applications in safety and security, transportation and industrial process monitoring.
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Dione 1280 CAM Series -
Xenics
The Dione 1280 CAM series is based on the Dione 1280 OEM thermal imaging core with 1280 x 1024 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 60 Hz.The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione 1280 CAM is both lightweight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.Dione 1280 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M34/M45 lens (optional).The ultra-compact Dione 1280 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Dione 320 CAM Series -
Xenics
The Dione 320 CAM series is based on an uncooled state-of-the-art 12 μm pitch detector with 320×240 pixels and NETD of less than 40 mK (available upon request) or 50 mK.The camera cores are optimized for low SWaP (Size, Weight, and Power). The Dione 320 CAM is both light weight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione 320 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione 320 CAM is a LWIR uncooled thermal imaging camera SWaP module with housing supporting M24/M34 lens (optional)The compact Dione 320 CAM series find applications in industrial machine vision, medical, scientific and advanced research, safety and security systems.
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Dione S 1280 CAM Series -
Xenics
The Dione S 1280 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 1280 × 1024 resolution and NETD of less than 40 mK (available upon request) and 50 mK.The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione S 1280 CAM is lightweight and small with mechanical shutter. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione S 1280 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione S 1280 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M34/M45 lens (optional).The ultra-compact Dione S 1280 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Dione 1024 CAM Series -
Xenics
The Dione 1024 CAM series is based upon the Dione 1024 OEM thermal imaging core with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz.Dione 1024 CAM is a LWIR uncooled thermal imaging SWaP module with housing supporting M34/M45 lens (optional).Dione 1024 CAM series benefit from Xenics image enhancement for advanced image processing while keeping power consumption low. Moreover, GenICam compliance and the availability of multiple lenses (optional) provides a high level of tunability for optimal integration into many systems.The compact Dione 1024 CAM series find applications in safety and security, transportation and industrial process monitoring.
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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.
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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.
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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.
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786853-01 -
NI
44 GHz, 1 GHz Bandwidth PXI Vector Signal Transceiver - The PXIe-5831 supports validation and production test into mmWave frequency bands. The PXIe-5831 incorporates a vector signal generator, vector signal analyzer, and high-speed serial interface with FPGA-based real-time signal processing and control. The PXIe‑5831 combines fast measurement speed and the small form factor of a production test box with the flexibility and high performance of R&D-grade box instruments, making it an ideal solution in both the lab and the production floor. The PXIe-5831 meets the stringent challenges of 5G New Radio, but it is also able to test a variety of cellular and wireless standards such as Wi-Fi 6. In addition, you can easily expand a test system in the PXI Express form factor to support multiple input, multiple output (MIMO) configurations with phase-coherent synchronization.
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784750-01 -
NI
4-Channel Thermocouple, 1-Channel Voltage, Temperature Input Module for Remote I/O - The REM‑11120 is a temperature input module for remote I/O. Remote I/O systems are low-cost, modular systems for simple machine control and measurements. A remote I/O system consists of an EtherCAT bus coupler and individual modules mounted on a DIN rail. You control the REM‑11120 from a real-time controller such as a CompactRIO Controller or an Industrial Controller. You can use remote I/O hardware to add low-cost I/O for simple tasks while your controller handles advanced tasks such as image processing, motion control, and high-speed or specialty measurements. The REM‑11120 also has an adjustable filter time for improved measurement quality and optional external cold junction compensation (CJC) or PT100 resistance temperature detector (RTD) measurements.
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784749-01 -
NI
4-Channel, 2-Wire Analog Output Module for Remote I/O - The REM‑11115 is an analog output module for remote I/O. Remote I/O systems are low-cost, modular systems for simple machine control and measurements. A remote I/O system consists of an EtherCAT bus coupler and individual modules mounted on a DIN rail. You control the REM‑11115 from a real-time controller, such as a CompactRIO Controller or an Industrial Controller. You can use remote I/O hardware to add low-cost I/O for simple tasks while your controller handles advanced tasks such as image processing, motion control, and high-speed or specialty measurements. You can use the REM‑11115 for voltage or current output, and it features a 2‑wire spring terminal connection method. The REM‑11115 has selectable output ranges and short-circuit-proof output channels.
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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.
