Showing results: 2146 - 2160 of 2272 items found.
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CP32108 -
LinkedHope Intelligent Technologies Co.,Ltd.
CP32108 is a compact modular 3U CPCI single board computer compliant with CompactPCI specification. Based on Intel® 6th Skylake-H platform, CP32108 supports a variety of processors. On CP32108, there are rich interfaces like SATAIII, USB3.0, GbE, PCIe2.0, etc. In addition, CP32108 can provide up to 1TB SSD storage with mSATA interface.CP32108 applies high-speed CPCI connector on J2, in order to transmit PCIe2.0, USB3.0, SATAIII signals. CP32108 supports up to x4 PCIe to rear with flexible PCIe configuration including 1 x4, 2 x2, 1 x2+2 x1 or 4 x1.CP32108 integrates Intel® Gen9 HD Graphics P530 display controller, and supports various display outputs like eDP, DP and HDMI(with resolution up to 2560x2160 @24Hz, 24 bpp).
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CP32109 -
LinkedHope Intelligent Technologies Co.,Ltd.
Based on Intel® Bay Trail platform E3800 CPU and Celeron CPU, CP32109 is a compact 3U CPCI single board computer compliant with CompactPCI® specification.On CP32109, there is a CFast interface for system installation, and several peripheral interfaces include SATAII, USB2.0 and GbE.CP32109 integrates Intel® HD Graphics display controller, and supports VGA output.CP32109 has high-performance and low power consumption, and can provide better bandwidth for data transmission. With better bandwidth, ruggedized design and extended operation temperature, CP32109 is extremely suitable for fields and applications that have high requirements on product reliability and applicability.Besides, LinkedHope® provides CP32109 with a wealth of software drivers and BSP, including VxWorks, Linux, Windows, etc., which reduce the workloads of system integrators and product developers, and greatly shorten the time-to-market.
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tBOX322-882-FL -
Axiomtek Co., Ltd.
The tBOX322-882-FL fanless railway embedded PC is based on 4th generation Intel® Core™ i7 or i3 processor with wide temperature capability from -40°C to +70°C. Certified with EN50155, EN50121 and complied with the standard of railway vehicles fire protection – PrCEN TS 45545-2, the railway PC is well suited for IoT & M2M-related applications such as onboard devices controller, train management, gateway, security surveillance and rolling stock environments. To keep all cables tightly secured, the railway pc has standard M12 connectors for Ethernet ports, USB ports, power input, and audio port. What is notable is that the graphics performance is now merely up to two times higher than previous generation, with the latest quad core processor, allowing faster and better information display.
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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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eBOX560-512-FL -
Axiomtek Co., Ltd.
The eBOX560-512-FL is powered by the Intel® Core™ i5-7300U/i3-7100U or Celeron® 3965U processor. To enhance system efficiency, the embedded box PC supports one 260-pin DDR4-2133 SO-DIMM socket with up to 16 GB system memory. Two HDMI ports with up to 4K resolution are supported for dual independent display applications. The palm-sized fanless embedded system is dedicated to smart factory automation, thin clients, industrial controller system, digital signage and retail equipment. Axiomtek's eBOX560-512-FL was designed to operate reliably in industrial and embedded application environments. It is enclosed in IP40-rated heavy-duty aluminum extrusion and steel enclosure and offers a wide operating temperature range from -10°C ~ +50°C (+14°F ~ +122°F) and up to 3G vibration endurance.
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JT 2127/Flex Socket Test Module -
JTAG Technologies Inc.
The JT 2127/Flex STM memory socket tester is a family of hardware adapters specifically designed for the testing of of PCB-mounted DIMM & SODIMM sockets using a JTAG/boundary-scan controller and supporting software. The testing of memory sockets has always been troublesome for test and production engineers using JTAG/boundary-scan systems. Even when it is possible to create memory writes/reads from a boundary-scan compliant access device on the UUT (Unit Under Test), the initialization process may fail leaving you with little diagnostics information. What’s more it can still be uncertain whether fault lays with the DIMM module itself or the socket. Using the new JT 2127-Flex system from JTAG Technologies you get pin-point diagnostics from a known-good test interface so you can be certain that your socket is soldered correctly.
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HFM-D-301A / HFC-D-303A -
Teledyne Hastings Instruments
Mass flow techniques provide RELIABLE, REPEATABLE AND ACCURATE gas flow rate measurements.HFM-D-301A/HFC-D-303A mass flow instruments have flow ranges from 0-25 slm to 0-1000 slm; provide analog and digital outputs, and are constructed of stainless steel. Easy, user friendly digital communications with windows based software interface available. Available with a variety of elastomer seals for maximum flexibility.Self diagnostics of the sensor, valve and overflow are included in the digital features. Also of interest is the auto zero feature which detects when the valve is closed and automatically resets the zero. These mass flow meters and controllers can store up to 10 calibrations of different ranges and gases. Another feature is the built in totalizer for monitoring gas usage under user set conditions.
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781630-05 -
NI
The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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781630-07 -
NI
Ethernet GPIB Instrument Control Device - The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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781630-12 -
NI
The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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781630-10 -
NI
The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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781630-09 -
NI
The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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781630-02 -
NI
The GPIB‑ENET/1000 is an IEEE 488 controller device for computers with an Ethernet port. You can use this device to share a single GPIB system among many networked users or to control several test systems from a single networked host. The GPIB‑ENET/1000 features a password-protected web interface for easy configuration. It can also control IEEE 488 devices from anywhere on an Ethernet‑based (LAN) TCP/IP network (Gigabit, 100BASE‑TX, 10BASE‑T). Each device interfaces to and shares up to 14 GPIB devices from several network hosts, and you can control up to 100 GPIB‑ENET/1000 interfaces with a single computer. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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778512-01 -
NI
16-Bit, 8-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6733 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response tests (including acoustic distortion testing) and simulation (such as three-phase power simulation). In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6733 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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778999-01 -
NI
13-Bit, 8-Channel, 800 kS/s PXI Analog Output Module—The PXI‑6722 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6722 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.