Showing results: 226 - 240 of 245 items found.
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785153-01 -
NI
The ISC‑1783 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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785146-01 -
NI
The ISC‑1781 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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785149-01 -
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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785148-01 -
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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785150-01 -
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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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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785144-01 -
NI
The ISC‑1781 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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785145-01 -
NI
The ISC‑1781 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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785147-01 -
NI
The ISC‑1781 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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Optilab, LLC.
Is a variable, pulsed high power laser source, a building block ideal for MOPA, LIDAR, OTDR laser systems development and applications. This fully integrated compact module contains a Distributed Feedback (DFB) laser and built-in optical amplifier stage, and a variable nanosecond pulse generation circuits. It provides up to 200 mW optical peak power in 1064 nm wavelength region, with a programmable pulse width from 10 ns to 1000 ns, and a selectable pulse repetition rate from 100 Hz to 1 MHz The optical pulse generation can alternatively be controlled via an external electrical trigger. In a compact design, NPL-CWDM-M is applicable for OEM integration or as a stand alone pulsed laser source. Contact Optilab for more information.
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MD-AWD-500-AC/EC-100/250 -
Mustang Dynamometer
The key to designing an AWD dynamometer properly is to understand the methods currently being used by manufacturers in the field of AWD drivetrain technology. A dynamometer that can accommodate various types of AWD vehicle transmissions and wheelbases without excessive complication and, more importantly, without risking damage to a client’s AWD system is paramount. Full time AWD vehicles are designed to provide maximum performance regardless of road conditions. In cases where traction is less than ideal, a vehicle may be designed to improve stability and traction at the expense of power. This means adding torque to a spinning wheel or retarding of timing. In order to properly test an AWD vehicle for peak performance, an AWD chassis dynamometer must be able to simulate ideal road-load conditions to the vehicle. This approach allows the vehicle to be evaluated under “optimum” operational conditions; whereby torque is distributed to the vehicle’s tires in the same manner that would normally occur when a vehicle has equal traction at all four drive wheels, and is therefore operating at peak efficiency. To achieve this, Mustang’s AWD-500 Series incorporates an internal drive system that synchronizes the front and back rollers to simulate a flat, dry road condition. Synchronization, or linkage, insures that the front and rear rollers are always spinning at precisely the same road speed. This process eliminates the possibility of activating a vehicle’s traction control system and also insures that a vehicle’s torque management system is operating under the assumption that the vehicle is not skidding, turning or slipping. Mustang’s AWD-500 can be operated in AWD Mode while testing two-wheel drive vehicles. This process allows the non-driven axle to be spun by the dynamometer rollers at the same speed as the driven axle, eliminating the speed differential that occurs on two-wheel drive dynamometers – problem solved.
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786425-01 -
NI
1.33 GHz Dual-Core CPU, 4 GB Storage, -20 °C to 55 °C, Artix 7 100T FPGA, 4-Slot CompactRIO Controller - The cRIO-9054 is a rugged, deployable controller for data acquisition and control applications. It offers Intel Atom dual-core processing, an Artix-7 FPGA, and four slots for C Series modules. It runs the NI Linux Real-Time operating system with access to the I/O through NI-DAQmx drivers or with the LabVIEW FPGA module. The controller provides precise, synchronized timing and deterministic communications over the network using TSN, ideal for distributed measurements and control. This controller offers two Gigabit Ethernet ports, one USB 3.1 host port, one USB 2.0 device port, a trigger line, and a μSD card slot for storing data locally. 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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786426-01 -
NI
1.33 GHz Dual-Core CPU, 4 GB Storage, -20 °C to 55 °C, Artix 7 75T FPGA, 8-Slot CompactRIO Controller - The cRIO-9056 is a rugged, deployable controller for data acquisition and control applications. It offers Intel Atom dual-core processing, an Artix-7 FPGA, and eight slots for C Series modules. It runs the NI Linux Real-Time operating system with access to the I/O through NI-DAQmx drivers or with the LabVIEW FPGA module. The controller provides precise, synchronized timing and deterministic communications over the network using TSN, ideal for distributed measurements and control. This controller offers one Gigabit Ethernet port, one USB 3.1 host port, one USB 2.0 device port, a trigger line, and a μSD card slot for storing data locally. 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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786424-01 -
NI
1.33 GHz Dual-Core CPU, 4 GB Storage, -20 °C to 55 °C, Artix 7 50T FPGA, 4-Slot CompactRIO Controller - The cRIO-9053 is a rugged, deployable controller for data acquisition and control applications. It offers Intel Atom dual-core processing, an Artix-7 FPGA, and four slots for C Series modules. It runs the NI Linux Real-Time operating system with access to the I/O through NI-DAQmx drivers or with the LabVIEW FPGA module. The controller provides precise, synchronized timing and deterministic communications over the network using TSN, ideal for distributed measurements and control. This controller offers one Gigabit Ethernet port, one USB 3.1 host port, one USB 2.0 device port, a trigger line, and a μSD card slot for storing data locally. 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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786427-01 -
NI
1.33 GHz Dual-Core CPU, 4 GB Storage, -20 °C to 55 °C, Artix 7 100T FPGA, 8-Slot CompactRIO Controller - The cRIO-9057 is a rugged, deployable controller for data acquisition and control applications. It offers Intel Atom dual-core processing, an Artix-7 FPGA, and eight slots for C Series modules. It runs the NI Linux Real-Time operating system with access to the I/O through NI-DAQmx drivers or with LabVIEW. The controller provides precise, synchronized timing and deterministic communications over the network using TSN, ideal for distributed measurements and control. This controller offers two Gigabit Ethernet ports, one USB 3.1 host port, one USB 2.0 device port, a trigger line, and a μSD card slot for storing data locally. 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.
