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Showing recent results 1 - 13 of 13 products found.

  • Particle Impact Noise Detection

    P.I.N.D. - Spectral Dynamics, Inc.

    For over thirty years the PIND Products Group of SPECTRAL DYNAMICS, INC. has given users a simple, reliable, and inexpensive method of ParticlePIND Impact Noise Detection (PIND) testing to increase the reliability of electronic components. Our non-destructive high frequency acoustic test monitors for loose particles moving inside high reliability internal cavity electronic components such as relays, transistors, hybrids, integrated circuits, and switches – particles that have the potential of causing short circuits and serious malfunctions in system operations. A shaker is used to excite loose particles within the component cavity.

  • Reticle / Mask Particle Detection System

    PR-PD2HR - HORIBA, Ltd.

    In semiconductor plants, where high performance and demanding functionality are required, the HORIBA PD Series'' high operating rate and long-term dependability have earned it a solid reputation. Inheriting a transfer system that has proven to provide stable, high performance and superior throughput over long operating periods, the PR-PD2HR now offers the most sensitive detection in the series with exclusive signal processing that can detect particles as small as 0.35 m.

  • Particle Impact Detection System 10

    BW-LPD-DAQ4000HD - B&W Engineering Corp.

    This system is capable of vibration testing up to 10 pounds and detecting defects that produce noise, such as loose screws, particles, etc. Right from the start of PIND testing, B&W patented the first MIL-STD compliant system outperforming the competition by over 30% better detection rate as tested by the NBS (now National Institute of Science and Technology) in a well known 1978 study (NBSIR 78-1590 NASA).

  • Nanoparticle Analyzer

    nCS1 - Spectradyne llc

    Gives particle size distribution and absolute concentration. Particle sizes: 40 nm to microns. Concentration range: approx. 106 — 1012 particles/mL. Counts & sizes individual particles. High resolution size distributions. Max particle detection rate: approx. 10,000 particles/s. Can measure any material type (transparent & opaque, conducting & insulating).

  • Fast Mobility Particle Sizer

    Spectrometer 3091 - TSI Inc.

    The Fast Mobility Particle Sizer 3091 (FMPS™) spectrometer measures particles in the range from 5.6 to 560 nm, offering a total of 32 channels of resolution (16 channels per decade). It uses an electrical mobility measurement technique similar to that used in our SMPS. However, instead of a CPC, the FMPS spectrometer uses multiple, low-noise electrometers for particle detection

  • Ultrafine Particle Monitor

    Model 651 - Teledyne Advanced Pollution Instrumentation

    Ultrafine particle (those less than 100nm, or 0.1µm in size) are produced through combustion activities and are persistent in all ambient air. Concentrations of these tiny particle can be very high near emissions sources (for example, near busy roads), and both acute and chronic exposure are believed to lead to health problems. As part of the new US EPA near-road ambient monitoring network, ultrafine particles (UFPs) will be monitored to determine concentration levels and further study health effects related to exposure.The Model 651 Ultrafine Particle Monitor provides a simple and reliable solution for the real time monitoring of UFP concentrations in ambient air. The instrument uses a condensation particle counting technique, using water as the condensing fluid followed by laser detection. UFPs down to 7nm in size are detected, with time resolution down to 1-second. Sample collection, preparation, and analysis occur continuously, with a routine maintenance interval of 30 days.

  • Dynamic Imaging Particle Analysis Technology

    FlowCam® 8100 - Fluid Imaging Technologies

    The new FlowCam 8100 particle imaging and analysis system from global laboratory instrumentation manufacturer Fluid Imaging Technologies, Scarborough, Maine, features the company''s most advanced camera with the fastest imaging speed and double the image capture area to increase throughput, increase detection rates, and reveal more images and data. Imaging at up to 120 frames per second, the new FlowCam 8100 automatically detects thousands of individual particles and microorganisms in seconds, takes a high-resolution, digital image of each one detected and measures them in real-time based on their actual size and shape, not by an inference of their size and shape. Sampling at up to 100% efficiency with limited sample volumes as small as 200L, the company said, the FlowCam 8100 measures more than 30 different parameters from basic particle size, count and concentration to color, grayscale and advanced morphological characteristics such as circularity, elongation and fiber curl.

  • Nanoparticle Detector

    partector - Naneos Particle Solutions gmbh

    The naneos partector is the world''s smallest nanoparticle detector. It''s easy to use, small, light-weight, has a great battery life and high time resolution. It measures the lung-deposited nanoparticle surface area, the most health-relevant physical particle metric. It uses a novel contactless electrical detection that makes it nearly maintenance-free. LDSA measurement with a time resolution of 1 second (internal instrument time constant 4s; faster on request)

  • Charged Particle Detector

    IDS2030 - OI Analytical

    The IDS 2030 is a true charge detector and is independent of particle energy (thermal to keV), particle mass, and incident angle.Designed for positive charge detection the detector will also detect negative ions and electrons.The ion detector functions pressure independent over at least a range of 9 decades (1 Torr to 1 kTorr).The detector allows a read-out speed from 0.2 frames per second (fps) up to 360 fps.Spectra acquisition can be synchronized with an ionization using a trigger pulse.High Density Detector Array featuring 2126 active pixels over 51 mm. With a pixel width of 21 m and a height of 1500 m the detector features an effective area of 88%.Typical applications are in Mass Spectrometry, Ion Mobility Spectrometry, beam profiling, and ion source characterization.The IonCCD is mounted on ceramic printed circuit board and delivered in an aluminum enclosure for easy mounting and protection.The IDS 2030 is CE certified (FCC, RoHS, WEEE).

  • Sensor Solutions for IoT

    imec

    Imec is a reference in the design of ultra-low power electronics, low-power algorithms to increase intelligence and data security, and in all aspects of data science. Our multi-sensor environmental monitoring platform features sensors for temperature, relative humidity, NO2, CO2, VOC (volatile organic compounds), particle matter, ambient light, sound, vibrations and presence detection. Our test platform is suitable for indoor and outdoor air quality monitoring and control, and can be used in smart buildings, smart cities and more.

  • Equipment Fault Simulator for Electric Equipment

    Hangzhou Xihu Electronic Institute

    Integration: Built-in non-PD test variations and coupling capacitors.Detection of diversification: can be used to test pulse current, UHF, ultrasonic, high frequency and other PD detection technology.No PD design: the entire apparatus pressure PD levels below 1pC. Discharge Simulator: simulate tip, suspended particles and other air-gap discharge within the GIS common defect site, to implement two and two or more discharge models coexist, and can control the discharge starting voltage, and discharge extinction voltage strength.Continuous use of good: each model can withstand tens of thousands of times the discharge is not damaged.

  • Non Destructive Testing (NDT)

    Keighley Laboratories LTD

    NDT covers a wide group of testing techniques used to evaluate the properties of a material, part, product, weld or system without causing damage. NDT carried out at KLL includes:Liquid Penetrant Testing (LPT) is used for the detection of surface breaking discontinuities on magnetic and non-magnetic metallic materials.Fluorescent and colour contrast penetrants are available to be used in the following methods:-Water washableSolvent removablePost emulsifiableMagnetic Particle Inspection (MT/MPI) is used for the detection of surface breaking and slightly sub-surface (up to 2mm) discontinuities.Bench type crack detectors and portable units are employed producing various waveforms (i.e. A.C, HWDC and induced magnetic flow) to give both circular and longitudinal magnetism.On-site testing is carried out using electro magnetic yokes and permanent magnets producing induced magnetic flow.Ultrasonic Flaw Detection (UT), also known as Ultrasonic Inspection, is used for the detection of volumetric discontinuities in ferrous and non-ferrous products (forgings and castings etc.), and welds in magnetic and non-magnetic materials.UT is capable of penetrating metals, dependent on the material characteristics, up to 10m in length.Some thickness and depth checks can also be carried out using ultrasound.Radiography services are available through sub-contract booked in advance. Notice is required for on-site work.Personnel are available at short notice for in-house or on-site work in the UK and overseas.All inspectors undertaking non destructive testing (LPT, MT/MPI and UT) are qualified to, and meet a minimum of, PCN Level 2.PCN Level 3 supervision is available in-house for LPT, MT/MPI, UT offering consultancy services including procedure writing and commentary, auditing of techniques and Level 3 Supervisor cover.We can assist clients in product qualification, material testing, quality assurance and audit programmes.

  • Bearing Testers

    Anderon Meters - M.E.A. Testing Systems Ltd.

    *Measures the anderon value in an assembled bearing.*Detects slight surface irregularities arising from machining imperfections and other factors.*Detects displacement in a radial direction caused by rolling surface irregularities.*Provides the “anderon” value, a numerical expression of the degree of vibration and noise in the bearing, allows quantitative assessment of bearing performance.*Enables the discovery of the causes of vibrations (scratches on the raceways of outer and inner races made during machining, scratches on ball surfaces, contamination by dust particles, etc.).*Enables the sorting of bearings by precision class and more accurate assessment of bearing quality.*Development of high-quality products: aids in the development of high-quality, durable bearings that generate minimal vibration and noise.*Assurance of product quality: allows data to be gathered that can be used for objective assessment of quality, particularly vibration and noise characteristics.*Optimal management of products by quality: High-sensitivity detection of minute but critical variations in product characteristics, allowing to sort bearings accurately by quality for optimal product management.*Improved productivity: allows inspection of bearings before installation in high-precision, high-performance products susceptible to vibration, minimizing defects in assembled products and improving productivity.*Optimal parts control in the open market environment: permits high-accuracy acceptance inspections of delivered parts, allowing to test various samples obtained from both domestic and overseas manufacturers to help secure parts that offer optimal quality.