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Sensors
detect a physical event then translate to a representative analog signal.
See Also: Measurement, Detectors, Meters, Transducers
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Analysis Tool for ECU Networks and Distributed Systems
CANape
The primary application area of CANape is in optimizing parameterization (calibration) of electronic control units. During a measurement process, you can simultaneously calibrate parameters and record signals. The communication between CANape and the ECUs takes place via protocols such as XCP or via microcontroller-specific interfaces with the VX1000 measurement and calibration hardware. CANape supports various ADAS sensors such as radar, LIDAR and video. Combined with high-performance hardware, CANape can store multiple gigabytes of data per second. Calibration data management and convenient measurement data evaluation including data management as well as reporting make CANape a complete tool for ECU calibration. Of course, CANape also provides access to bus data, diagnostic data and analog measurement data.
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Expertise In QA And IoT Testing Services
Internet of Things Testing (IoT) is the fastest growing sector in the Testing World. According to a report from McKinsey, by 2020 there will be over 30 M devices through IoT (Internet of Things). The IoT is essentially a web of physical objects that are embedded with sensors; various software that interact with each other by collecting and exchanging data. For over two decades, organizations and businesses have been adopting IoT solutions to offer benefits like cost optimization, improved efficiency and enhanced user experience, but in the last decade or so, the innovative onslaught of IoT has come to the forefront with things like self-driving cars, home automation solutions, smart medical devices, etc. catching the attention of end users.
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Combination Board Tester
Qmax Test Technologies Pvt. Ltd.
Combination Board Tester capable of testing highly complex and dense PCBs employing various test techniques on a single platform. It can perform Board Level Functional Test through edge connectors of a PCB, and guided probe diagnostics utility to reliably repair Digital/Analog and Mixed Signal PCBs of various complexities and conventional PCBs. An In –Circuit device test by configuring Pin Drivers to High Current Pin Driver mode and interface to the UUT either through Clips / Probes or nail bed and on board clock disable HW feature are the all time favorite . The in-built high frequency 14bit Analog Driver / sensors synchronized with digital drivers for covering analog / mixed signal devices with high degree of accuracy.
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ZIPLEVEL EZDepth
The revolutionary ZIPLEVEL EZDepth is an inexpensive alternative to costly cab based digital depth instruments. EZDepth is built from the core of the quarter century proven ZIPLEVEL PRO-2000…the world’s only pressurized, bubble free High Precision Altimeter. Unlike conventional technologies, EZDepth installs in minutes to directly display depths over unlimited ranges without line-of-sight, satellite horizons or complex arrays of inclinometer sensors. Its optional ZIPLEVEL SmartLink sends data to smart devices on your panel or up to 100’ away for real time profiles and tables or elevations plotted on site photos (Pat. Pend. ZIPLOT) for instant sharing of documentation before, during and at the end of your project.
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Aurora®
The Aurora® electromagnetic tracking solution provides unobstructed real-time tracking of micro sensors that can be embedded into rigid and flexible OEM medical instruments such as ultrasound probes, endoscopes, catheters, guidewires – even at the tip of a needle. With the Aurora® electromagnetic tracking solution, no line-of-sight is needed for in-vivo tracking of instruments through twisting anatomical tracts. When integrated as a component into the workflow of OEM image-guided surgery or interventional systems, the Aurora acts as the link between patient image sets and 3D space, enabling the instruments’ positions and orientations to be instantly localized and visualized within the operative field. It does so with the exceptional speed, accuracy, and precision required by today’s most demanding minimally invasive approaches.
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16-bit, 200KHz, 16SE/8DIFF Isolated AI, 4 12-bit AO, 8 Optically Isolated Dig. I/O, 24V, 24 TTL I/O
APCI-3116-16
The APCI-3116 is a 16-bit multifunction board for 3.3 V and 5 V PCI systems, with optical isolation up to 1000 V and a high throughput rate of 200 kHz. The PCI board has additional types of conversion: Sequence RAM, Auto Refresh, scan, timer or external event.Furthermore, the board has a PCI DMA, 2 watchdogs, 4 digital inputs and 4 digital outputs. Sensors, which allow to supply current signals instead of voltage signals, also can be acquired with the APCI-3116, as this board offers up to 16 current inputs. The board is protected against overvoltage and input filter and it is protected against high frequency emmission. With the free calibration tool you can do the fine adjustment on-site.
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16-bit, 200KHz, 8SE/4DIFF Isolated AI, 4 12-bit AO, 8 Optically Isolated Dig. I/O, 24V, 24 TTL I/O
APCI-3116-8
The APCI-3116 is a 16-bit multifunction board for 3.3 V and 5 V PCI systems, with optical isolation up to 1000 V and a high throughput rate of 200 kHz. The PCI board has additional types of conversion: Sequence RAM, Auto Refresh, scan, timer or external event.Furthermore, the board has a PCI DMA, 2 watchdogs, 4 digital inputs and 4 digital outputs. Sensors, which allow to supply current signals instead of voltage signals, also can be acquired with the APCI-3116, as this board offers up to 16 current inputs. The board is protected against overvoltage and input filter and it is protected against high frequency emmission. With the free calibration tool you can do the fine adjustment on-site.
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12-bit, 200KHz, 16SE/8DIFF Isolated AI, 4 12-bit AO, 8 Optically Isolated Dig. I/O, 24V, 24 TTL I/O
APCI-3110-16
The APCI-3110 is a 12-bit multifunction board for 3.3 V and 5 V PCI systems, with optical isolation up to 1000 V and a high throughput rate of 200 kHz. The PCI board has additional types of conversion: Sequence RAM, Auto Refresh, scan, timer or external event.Furthermore, the board has a PCI DMA, 2 watchdogs, 4 digital inputs and 4 digital outputs. Sensors, which allow to supply current signals instead of voltage signals, also can be acquired with the APCI-3110, as this board offers up to 16 current inputs. The board is protected against overvoltage and input filter and it is protected against high frequency emmission. With the free calibration tool you can do the fine adjustment on-site.
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12-bit, 200KHz, 8SE/4DIFF Isolated AI, 4 12-bit AO, 8 Optically Isolated Dig. I/O, 24V, 24 TTL I/O
APCI-3110-8
The APCI-3110 is a 12-bit multifunction board for 3.3 V and 5 V PCI systems, with optical isolation up to 1000 V and a high throughput rate of 200 kHz. The PCI board has additional types of conversion: Sequence RAM, Auto Refresh, scan, timer or external event.Furthermore, the board has a PCI DMA, 2 watchdogs, 4 digital inputs and 4 digital outputs. Sensors, which allow to supply current signals instead of voltage signals, also can be acquired with the APCI-3110, as this board offers up to 16 current inputs. The board is protected against overvoltage and input filter and it is protected against high frequency emmission. With the free calibration tool you can do the fine adjustment on-site.
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Clock Drivers
Multiple timing signals ("clocks") are required by CCDs, IR FPAs, and some CMOS image sensors to transport electrical charge across the array to a sense amplifier for conversion into image data. Pulse Instruments offers a line of "clock drivers" for generating these timing signals. The parameters of these clocks (clock rate, pulse width, pulse amplitude, rise- and fall-times, etc.) greatly influence the behavior and performance of the imaging device. Our products take logic-level inputs from a pattern generator and allow the user to adjust the output parameters to suit their device and testing requirements. Clocks can be "tweaked" in real-time to determine optimal operating parameters for a particular device, or else programmed in accordance with a test plan for automated production test.
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Logger version 2-D electro-magnetic current meter for deep ocean
INFINITY-Deep AEMD-USB
INFINITY-Deep is an autonomously deployable data logger for current speed measurements in the deep oceans. The currents in the deep oceans are very weak. It is too hard to accurately measure the deep water currents by some ADVs (Acoustic Doppler Velocimeters) that detect the Doppler-effect by scatter with the suspended particles in the water, because the concentration is very low. INFINITY-Deep measures 2-D current data through a magnetic field according to Faraday's law. Therefore, even if the suspended particles do not exist around the sensor, it can provide the accurate current data. The depth rating is 6,000m. Compared to INFINITY-EM, the instrument has a depth and a tilt sensors to monitor mooring status. Also, the battery capacity doubles for long-term current velocity measurements.
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High Speed And High Resolution Cameras (PCI Cameras)
XiB
*High speed interface with bandwidth of 20 GBit up to 64 Gbit / sec*CMOSIS / ams sensors: CMV12000, CMV20000, CMV50000*High image resolution and high throughput with 12 Mpix, 20 and 50 Megapixel*Speed of 133 - 333 Fps, 33 and 30 Fps respectively*Fast speed models with 1 Mpix at 3500 and HD at 2500 Fps*Robust PCI Express and Power/GPIO connectors*Integrated Canon EF-mount control with dynamic aperture and focus control*Support for Windows, macOS, Linux, ARM*Suitable for OEM customization and Embedded vision systems*Distances up to 300m over fiberoptic cable*Compact housing: 60 x 60 x 38 mm
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ISC-1782, 2 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785151-01
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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ISC-1782, 2 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785150-01
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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ISC-1782, 2 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785149-01
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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ISC-1782, 2 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785148-01
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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ISC-1783, 5 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785155-01
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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ISC-1783, 5 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785154-01
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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ISC-1783, 5 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785152-01
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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product
ISC-1783, 5 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785153-01
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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ISC-1780, VGA, 1.58 GHz Processor, Monochrome/Color Smart Camera
785140-01
The ISC‑1780 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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ISC-1780, VGA, 1.58 GHz Processor, Monochrome/Color Smart Camera
785143-01
The ISC‑1780 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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ISC-1780, VGA, 1.58 GHz Processor, Monochrome/Color Smart Camera
785142-01
The ISC‑1780 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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ISC-1781, 1.3 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785146-01
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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ISC-1781, 1.3 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785144-01
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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ISC-1781, 1.3 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785145-01
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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ISC-1781, 1.3 MP, 1.58 GHz Processor, Monochrome/Color Smart Camera
785147-01
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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9025 VXI - 25 Module Solution for VXI
The 9025 VXI Receiver is a 25-module solution designed for use with VPC pre-wired interconnect adapters, but can also accommodate a combination of pre-wired interconnect adapters and discrete-wired modules using retainer blocks.1-4 modules attach to an interconnect adapter which in turn is attached to the VXI card. This connector “funnel” forms a complete VXI module, which is easily inserted or removed from the VXI mainframe for maximum flexibility in testing applications. The interconnect adapter also provides room for driver sensors. External cabling to the card is done with a cable clamp or connector located on the top or bottom of the adapter. The positioning of funnels and use of discrete wiring modules can affect the performance of the product. Please contact us for technical assistance.
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Wastewater Samplers – Stationary
The ECD Analyzers range of automatic stationary, refrigerated wastewater samplers consists of three models, the AQUAS200, the AQUA-S320 and the rugged outdoor AQUA-S320H. At the heart of each is the well proven AQUA Sampling Module, a robust and reliable unit proven in thousands of applications worldwide and trusted by users as diverse as food manufacturers, water companies and the Environment Agencies. The air pump vacuum sampling system featured within the AQUA Module provides for an extremely accurate, reliable, representative and repeatable sample. Programming set-up and daily operation have been designed to be as simple and intuitive as possible for the user. Sample extraction can be time based or triggered by external sources such as flow meters, level sensors, pH meters, PLC’s etc.
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Radar Solutions for Shipping
Our reliable and high-precision radar sensor solutions are suitable for a wide range of applications in the shipping and offshore industries: from position control and collision avoidance of port, gantry or container cranes to the detection and passage control of vehicles and 3D collision avoidance of automated guided vehicles (AGVs) for container terminals. The innovative OndoSense radar technology always works flawlessly, even outdoors in smoke, fog, snow, dirt, dust, complicated lighting conditions or extreme temperatures. With our robust radar sensors, you can increase the productivity and safety of crane movements and ship unloading and automate work processes in the port area. You too can benefit from the advantages of the reliable OndoSense radar technology for the shipping industry.