Showing results: 166 - 171 of 171 items found.
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NI
Digital Modules for Remote I/O provide 24 V digital inputs or outputs and offer 1‐, 2‐, 3‐, and 4‐wire spring terminal connection options. You can use inputs as counters or standard digital inputs, and you can adjust filter time to improve measurement quality. Inputs can include a built‐in power supply for sensors. Output modules feature circuit and overload protection and can drive up to 500 mA per channel, up to 8 A per module.A remote I/O system consists of an EtherCAT bus coupler and individual modules mounted on a DIN rail. You control the Digital Module for Remote I/O from a NI real‐time 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.
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PUMA -
ADVINT, LLC
- 18-slot PXI / 4-slot SCXI Chassis- 1.2 GHz Embedded Controller- 4-axis Motion Controller/Simulation- 8-port RS-232 Serial Module- 4-port RS-485 Serial Module- 48 bit Isolated Digital I/O- Reconfigurable multi-function I/O FPGA Module- 5 1/2 digit DMM- 200 MHz 2-channel Scope/Digitizer- Multi-function Data Acquisition (DAQ)- 8-channel Analog Input Module- 6-channel Analog Output Module- General Purpose Switching- RF suite (optional)
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Renishaw Inc.
An optical encoder is an electromechanical device which produces an electrical signal output proportional to the linear displacement of a linear guide or the angular position of an input shaft.Open encoders are exposed and feature no external integrated enclosure. The advantages of open optical encoders include the effective elimination of backlash, shaft wind-up (torsion) and other mechanical hysteresis errors.A rotary open optical encoder consists of a position measurement readhead and an accurate rotary scale marked either on the periphery of a ring or on the face of a disc.The readhead measures position by optically sensing the regularly-spaced scale markings and outputs this information as an analogue or digital signal.The signal is subsequently converted into a position reading by a digital readout (DRO) or motion controller.
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MCL-NSOM -
Mad City Labs Inc.
The MCL-NSOM is a fully operational near field scanning optical microscope. It has been built on Mad City Labs versatile RM21™ inverted optical microscope which allows users to convert between NSOM, SPM, and fluorescence optical microscopy techniques. The MCL-NSOM builds on our successful resonant probe SPM and incorporates common elements such as the MadPLL® phase lock loop controller. The NSOM also exploits our expertise in precision motion control by including six axes of motorized positioning, for the sample and NSOM probe, and three axes of closed loop nanopositioning to provide exceptional position resolution and accuracy. The MCL-NSOM also includes a 635nm laser excitation source, fiber launch, oil immersion objective lens (100x, 1.25 N.A.), CMOS alignment camera and avalanche photodiode detector. The microscope configurable design allows researchers to tailor the instrument for many different optical microscopy techniques including near field spectroscopy. The MCL-NSOM is operated in aperture mode with shear force feedback. The standard 5 modes are supported: illumination, collection, illumination and collection, reflection and reflection collection. We supply a LabVIEW™ based software package which automates the motion control features.
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784959-01 -
NI
The IC‑3120 is a compact and rugged industrial controller that withstands the harsh environments common in automation, supervisory control, distributed control, and industrial embedded OEM applications. The IC‑3120 offers two Gigabit Ethernet ports with Power over Ethernet (PoE) technology, FPGA-based I/O capabilities, and network connectivity for distributed control applications. The advanced features include the ability to synchronize image inspection results with industrial I/O and configure hardware-timed network triggers to trigger camera acquisition, motion control, or data acquisition. You can use the advanced FPGA personality that is shipped with the system or customize the FPGA functionality using the LabVIEW FPGA Module.
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EPS Series -
ADLINK Technology Inc.
The ADLINK complete EtherCAT solution, from hardware to middleware to software, with every element tailored for dedicated EtherCAT functionality, includes PCIe-833X Series master controllers, EPS slave systems, and remote monitoring and control providers. As well, ADLINK’s Softmotion one-stop control kernel delivers flexible and easy-to-use intelligent platforms for driving next-generation modern Smart Factories. ADLINK's EPS slave system brings the power the flexibility to EtherCAT environments. State-of-the-art modular construction allows the EtherCAT slave to be configured to fulfill the needs of both small local applications and expansive distributed platforms. The EPS system with comprehensive and high-density I/O modules that include DI/O, pulse-chain motion modules. Leveraging ARM and FPGA technologies, the EPS slave is able to monitor and report system integrity via EtherCAT communication, while relay module lifecycle and signal integrity of analog output are monitored cyclically, and hot swappability reduces downtime significantly. Uniquely designed for full operability in conditions from -20°C to 60°C,the EPS slave system is also fully compliant with the EN 60068-2 standard for shock and vibration and EN 61000-6 for heavy industrial EMC protection, as well as emission certification. Corresponding ESI files for each EPS system can be generated thru ADLINK's Windows-based EtherCAT slave utility, LinkMasterPro™.
