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DE-F SERIES
Mask-less, New Matrix Beam scan method Suitable for general PWB process with excellent cost-performance
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Rudolph Technologies provides automated wafer edge top and edge normal inspection with throughputs of greater than 80 WPH (300 mm). The Class 1 certified system has an approximate 10 minute set-up time to be fully optimized and production ready. Featuring on-the-fly color defect image capture and intrinsic ADC capabilities, the E25 System can automatically detect and classify defects on the entire wafer edge, from the edge exclusion area to the bottom bevel. Both brightfield and darkfield illumination are available.
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The Rudolph Wafer device combines both edge and backside inspection into one enclosure. It retains all the capabilities of the proven E25 and B20 System in one small footprint. The Class 1 certified system can automatically detect defects on the entire edge, from zone 1 to 5, and the entire backside. The ability to inspect the entire backside allows for faster root-cause analysis of zone 5 defects since such defects can migrate from the wafer interior.
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Portable shearography (Q-810)
Non-Destructive Inspection
* Fast inspection of composite structures
* Field inspection
* Portable system
* Easy operation
The Portable Shearography System Q-810 is a fully portable and compact inspection system for fast inspection of components made from composite structures like aircraft fuselages and components, rocket shell parts, marine ship hulls, pipes, etc..
The system is fully portable and is designed for field inspection services. The Portable Shearography Inspection System Q- 810 consists of a vacuum hood with flexible sealings, which can be attached to the component to be inspected.
Inside the hood a vacuum up to 150 mbar can be pulled in order to stress the material underneath the hood. Any debonding or structural defect will be detected by the integrated shearography camera. The camera image is analyzed by the software package ISTRA for Windows® and displayed on a computer monitor and head up display.
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GE Inspection Technologies is a leading developer of eddy current instruments, testing machines, and sensors for industrial applications requiring surface and sub-surface crack detection and metal sorting. GE Inspection Technologies' non destructive eddy current testing equipment and solutions will meet the critical requirements of your unique application and deliver productivity, quality, and safety.
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Verimation’s Verimet® 7700 Portable Eddy Current Tester is a portable micro processor-based eddy current instrument for heat verification, alloy sorting, hardness inspection and case depth testing of ferrous metal parts. Versatile and accurate it offers improved capabilities for a wide range of applications. The instrument is compact, lightweight and battery equipped so it is very easy to use.
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The modular design is common to all systems: Host PC, measuring channels and interface module are separate from each other. The measuring channel execute the measurement and pass the measuring results to the Host PC whereas the interface module control the communication between Host PC and the equipment PLC. These testing equipment structures have resulted in very cost-effective solutions.
Applications: Quality control by non- destructive testing during the production of wires, cables, rods, bars, tubes and coils.
Material thickness: All metals
Measuring method: Eddy current measurement
Functional principle: When the material passes / transits the sensor, irregularities (welding faults like cracks, pores or circumferential faults) will be detected by changes of the eddy currents within the material.
Special features: Modular design based on the separation of measurement channels, interface module and Host PC.
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Magneto Optic Imaging technology has made major contributions to the nondestructive inspection of aging aircraft for cracking and corrosion. The MOI was developed for imaging anomalies in ferrous and non-ferrous materials using magneto-optic visualization. The MOI produces real time images of surface and subsurface defects and subsurface corrosion in metals. Major aircraft manufacturers have approved the technology for use. The US Air Force and Navy, major airlines and maintenance facilities are using the MOI for inspection of their aircraft. It is also being used in inspections for hidden corrosion in various aircraft skins and coverings such as de-icing tape. This non-destructive testing method gives the inspector the ability to quickly generate real-time eddy current images of large surface areas.
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The shearography technology is an interferometric test method with which damage or defects can be identified on components under load. This measuring technique even allows detecting deformations of only a few micrometers in size. Already a relatively low component load can thus yield unambiguous measuring results, which are mandatory particularly for NDT testing.
The test object is illuminated with laser light and observed through a CCD camera equipped with the so-called shearing optics. These shearing optics project the object image onto the camera chip twice; each object point is thus represented twice on the CCD chip. When the test object deforms under load, the laser light reflected by the component changes. By superimposing an image showing the unloaded object state with an image taken in the loaded state, the change of an image point can be determined. The optimum test load type (thermal load or pressure and vacuum load) for the individual component depends on the fault type and fault depth and is ideally determined before serial testing by trial measurements using sample components.
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High quality, flexible and handheld Digital Video Microscope with side viewing BGA zoom lens (4x zoom factor) and brilliant image quality for Visual Inspection, Digital Image Recording and Dimensional Measurement of BGA, uBGA, CSP and Flip-Chip packages and all other SMT or Through-Hole components on printed circuit boards.
Application:
Visual Inspection of:
- Solder joints of BGA, m BGA, CSP and Flip-Chip packages
- Solder joint of SMT and through-hole components
- Assembled PCBs
- Pads
- Solder paste and flux mixtures
- Cuts and scores
- Digital Image Recording
- Software Analysis
- Non-contact Dimentional Measurements
- Documentation and Archiving
- Real time presentation
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Marposs non-destructive testing technologies offer solutions based on the eddy current method for 100-percent inspection of critical components required to meet today's safety and reliability concerns.
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COMPACT HIGH RESOLUTION DIGITAL RADIOSCOPY SYSTEM.
- Real time high resolution digital radioscopy
- Dense material inspection thanks to large energy range
- Horizontal flat sample holder
- Motorized zoom axis
- Single image inspection of parts up to 24 cm long
- Very small footprint
- Ergonomic, fast and easy to use
Our equipements are customed-designed to best meet you needs.
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Designed to meet a wide range of rigorous needs of the electronics, automotive, telecom, medical devices, military and aerospace industries, the versatile Y.Cheetah offers unmatched high-level performance at previously unknown ease of operation. The comprehensive expertise acquired by Feinfocus - the pioneer of microfocus X-ray inspection technology with more than 2500 system installations worldwide - steered the development of the high-end versatile inspection solution, the Y.Cheetah. The result is a high performance X-ray solution that is easily adapted to continuously changing inspection needs. An unmatched manipulation concept supported by smart technological solutions for 1-click operation lead to ultimate system flexibility and highest quality imaging. The Y.Cheetah system is the most efficient solution for advanced yet effortless real-time microfocus inspection ranging from manual single part to automated series applications.
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Portable X-ray systems made by YXLON are compact, low weight, constant potential X-ray systems.
The portable X-ray systems are extremely well designed for rough in-field X-ray inspection, but can equally well be used for applications in exposure rooms and in real-time X-ray cabinet systems. Our portable X-ray systems are optimized for industrial inspection purposes. Due to high frequency technology, the portable X-ray systems produce an extremly stable X-ray output. At the same time, the portable X-ray units are characterized by high ease of use.
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Remote RadEye™ Detachable X-Ray Sensor
The Remote RadEye detachable x-ray sensor is designed to fit into small spaces where a complete imaging camera won’t fit. Available with either a RadEye1, RadEye2 or RadEye HR sensor head, the Remote RadEye module sits at the end of a detachable cable that can reach into tight corners. The camera electronics are mounted in a separate enclosure which can be placed up to one meter away. While designed for portable NDT applications, the Remote RadEye can also be used in fixed installations.
The Remote Sensor head consists of a rugged, light-tight enclosure that is only slightly larger than the sensor itself. All standard versions of the RadEye1 and RadEye2 sensors are available, covering both the 10-50kV and 10-160kV energy ranges. A special high-resolution sensor - the RadEye HR - is also available for use with x-rays up to 90kV. A shielded 1m cable (or a pair of cables for the RadEye2) connects the sensor head to the electronics module, which contains either a high-speed digital frame grabber interface or a microprocessor-controlled USB interface.
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This self-contained, PFI-type pulp beater subjects pulp to a specific beating schedule to process pulp prior to forming hand sheets.
APPLICATIONS
Pulp Preparation
SPECIFICATIONS
* Conforms to CPPA C7, TAPPI T-248 and ISO 5264-2.
* Paprican certification available.
FEATURES
* Integrated wash cycle
* Roll, bedplate and all external panels are 316
* Stainless Steel for easy cleaning
* Automatic raising and lowering of beater roll for safety and convenience
* Front panel LED indicators show control sequence status for convenient monitoring and troubleshooting
* All controls and sequences are on conveniently located touch pad control panel.
* Digital counter
* End of cycle alarm
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The Standard Sheet Former includes all of the accessories required to prepare 159 mm hand-sheets in accordance with the appropriate standards. This stainless steel device produces laboratory hand sheets to allow the test and evaluation of the physical properties of pulp.
APPLICATIONS
Pulp, Paper, Recycled Paper
SPECIFICATIONS
* Complies with TAPPI T-205 & T-218, PAPTAC C.4 & C.5, ISO 5269/1, SCAN C26
FEATURES
* Durable, 316 Stainless steel construction
* Polymer sump
* Manual stirrer and inlet valve
* Unique latch system that ensures a proper seal of the deckle
* Complete with grid plate, stirrer, couch roll, 2 couch plates
* White Water Return System available (option)
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Canadian Standard Freeness Tester determines the rate of drainage of a dilute pulp suspension and express it in terms of freeness. The rate of drainage is related to the work done on the fibre during beating or refining. Two models are offered: Wall mounted (brass), and stand model (stainless steel).
APPLICATIONS
Pulp, Synthetic fibres
STANDARDS
Meets TAPPI T227, ISO 5267/2, AS/NZ 1301, 206s, BS 6035 part 2, and CPPA C1
FEATURES
* Calibrated and traceable to industry standards
* Easy to operate
* Extremely accurate
* Durable, heavy construction
* Stand model is constructed of corrosion resistant stainless steel and Wall model is constructed of brass
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GE Inspection Technologies is the world's leading developer of ultrasonic instruments, testing machines, transducers, and software for industrial applications requiring internal defect detection and sizing. GE Inspection Technologies' nondestructive ultrasonic testing solutions will meet the critical requirements of your unique application and deliver productivity, quality, and safety.
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The first combined X-ray inspection system that fulfils all Weights and Measures regulations
The X-ray CombiWeigher represents a breakthrough in modern product inspection offering exceptionally high quality standards to meet the needs of the food processing and pharmaceutical industries. It is a complete product inspection combination system which not only performs highly accurate over and underweight checkweighing but also simultaneously inspects your products for foreign bodies – such as glass, metal, stone and high density plastic – using the very latest state-of-the-art X-ray and checkweighing systems.
The innovative and highly versatile XS3 AdvanCheK X-ray CombiWeigher is built to the highest safety standards in the industry and is compliant with IRR 1999. The HACCP compliant stainless steel (V2A) design, with sealing up to IP65, meets strict hygiene standards and requirements, making this system suitable for use in harsh working environments with a regular hygiene cycle.
A time and money saving combination
The effective combination of the two technologies in one system ensures that you will save both time and money in your production processes: the single multilingual 15” colour touchscreen user interface, with multi-level passwords and user profiles, is the central point for set-up and article management for both technologies, helping reduce possible operator errors and ensure faster production changeover thus minimising downtime. In addition, by using one compact system instead of two separate units, the time and costs associated with line integration, operator training and documentation are also vastly reduced.
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The TapTone 4000-DSC - Dual Sensor Compression (DSC) system is designed to inspect a wide variety of flexible containers for micro leaks. The design incorporates our patented dual sensor technology and high speed compression belts for improved accuracy and container handling. The system was designed for harsh, wet environments, like those found in the dairy industry. When combined with the optional X-ray sensor, the system can also perform fill level inspection.
X-ray Technology - measures the product fill level in steel, aluminum, glass, plastic and paper containers. An X-ray tube is used to produce a low-energy X-ray beam. The X-ray beam penetrates the side of the container in the area of the fill level. An X-ray detector is positioned on the opposite side of the container to measure the intensity of the beam after it goes through the container. The intensity of the beam is then compared to acceptable energy levels to determine the relative fill level of each container. The X-ray sensor is used to measure both overfilled and under filled products in all types of containers.
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The TapTone 100 on-line inspection system incorporates various sensors for detecting defects in cans, bottles and jars. The system has a simple design and is extremely cost effective. A single conveyor mount configuration houses the control electronics and plug-in connectors to accommodate up to seven different inspections. The “all-in-one” design requires minimal line space and no floor space, which is especially important for crowded production lines. A menu driven keypad with 6 keys provides a simple-to-use interface. Self-diagnostics are utilized for continuous monitoring of machine performance. This system can be used as a dud detector but has many other features due to its multi-sensor capabilities.
Proximity Technology - The TapTone 100 utilizes a proximity sensor to measure vacuum in containers by measuring the lid deflection. The proximity sensor produces a continuous magnetic field that monitors the distance to the metal lid and produces a proportional analog voltage. The continuous proximity signal is digitally sampled to produce a merit value of the lid profile. The profile value is then compared to user-set limits. Containers with lid deflection outside these limits are rejected. This technology can be utilized on metal cans, glass jars and bottles.
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ATLAS70 is a multi-sensor system for comprehensive mapping of tunnel walls. It includes a visible channel (laser), an infrared channel, a laser profilometer and an odometer.
The aim is to precisely locate and record possible cracks, water infiltrations and electrical cable overheating.
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The Case Tracker pressure/vacuum monitoring system is used to test the integrity of a wide variety of food and beverage products. This user friendly system is designed for non-contact, non-destructive, 100% automatic container inspection through a sealed cardboard and/or shrink wrapped case.
The primary function of the Case Tracker is to inspect containers in closed cardboard or shrink-wrapped cases for loss of pressure or vacuum. Any case with a container(s) that fall outside user set limits will be rejected. In many applications, the Case Tracker will detect defects other than low pressure or vacuum. Some examples are gross swollen cans, missing containers, dented cans, missing lids, popped safety buttons, or broken bottles.
There are two configurations from which to choose. The first style is an on-line system, which mounts to an existing conveyor usually located after the case packer system. This system is compact and easy to integrate to an existing conveyor. An optional rejection system is available as well as an optional spray marker system to mark the location of defective containers on the outside of the case for easy identification and rework.
The second configuration is a self-standing system with a six-foot inspection conveyor. A typical application for this system is in the warehouse area. This system may have wheels for easy movement to remote areas of the warehouse. There are optional infeed and exit conveyors for ease of palletizing and depalletizing. An optional case rejection system with high speed push rejector is also available for this system.
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Error spectrum
- Cracks and scratches
- Spirals, chatter marks and burn marks
- Pores, blowholes and scrapings
- Dull areas
- Polishing shades
- Impact damages
- Chromium plating error
- Simple handling and steady classification
- Error type classification regarding size, shape, position and any combination thereof
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BGA.Inspector
The endoscopic inspection system BGA.Inspector permits really easy control of BGAs to flip chips.
The comfortable and easy to assemble XY-table with sample holder facilitates fast inspection. The modular HD design for various types of endoscopes delivers images in brillant quality. The high-power LEDs can be adjusted to exactly illuminate the inspection object with individual settings for front and back light respectively.
Advantages
• for various types of endoscopes
• endoscope may be rotated independently of back light
• XY-table with fine adjustment
• magnetic sample holder
• high-tech camera system for high resolution images
• illumination by high-power LEDs (front and back light)
• all degrees of freedom
• upgrade to professional system possible
• safe investment thanks to modular design
• for use with standard PC*
Options
• various camera systems
• special lenses
• traceability software
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Full case inspection to be installed after the packer on the conveyor for crates, cartons, trays and six packs.
The Case X-ray system is a non-contact inspection for detecting completely packed cartons or crates, missing bottles or cans, inspection for broken bottles, empty carton inspection after the unpacker, and rough fill level inspection of bottles and cans inside the closed cartons.
How it Works: The Case X-ray system scans the cartons with an extremely compact X-ray tube. The system consists of a sensor bridge with height adjustment and a control unit. The sensor bridge is equipped with an Z-ray source and a higly advanced detector. While passing the sensor bridge the carton or crate is scanned by low level X-rays. The evaluation of the sensor signals is performed by the control unit. Any case with a container(s) that fall outside user set limits will be rejected. An audible or optical alarm can also be activated to alert the user to the faulty case.
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The LOTIS® 400-N is a high-speed rotating laser-based inspection system primarily used in the nondestructive evaluation of boilers, heat exchangers and steam generators. The system provides an accurate and detailed computer-graphic map of the tube inside surface and is useful for detecting and quantifying flaws caused by corrosion, erosion and deformation. Features such as I.D. pits, cracks and dents and be accurately located and measured prior to failure. The system is provided with a variety of probe sizes from 0.46 inch (11.7mm) up to 3.94 inches (100 mm) and greater. LOTIS® has found wide application for the inspection of boilers in fossil fired power plants and pulp and paper mills as well as for heat exchangers in petrochemical plants
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AutoPoint DT is a fixtureless, gridless flying probe with a unique power-off impedance analysis measurement system. Excellent for Manufacturing Defect Analysis (MDA) testing and Field Return Failures.
Supplied as a Stand Alone System or integrated with the PinPoint II Advanced Diagnostic Test System System
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Through work with EPRI and various utilities, Foster-Miller has designed a specialty minimally invasive system for performing difficult visual inspections in gas turbines. Most gas turbine operators have used borescopes or videoscopes to inspect their equipment and are well aware of their limitations. Borescopes are too stiff to do a variety of inspection tasks, and videoscopes are too flimsy to be pushed very far into combustion cans or up rows of blading. Our custom-engineered tool overcomes these difficulties to provide access to the entire turbine from a few easily accessed ports, resulting in cost savings and reduced downtimes.
To perform a complete combustion system inspection, for example, conventional systems require a great deal of combustor disassembly, making them impractical. Our inspection system can be maneuvered throughout the entire combustion system through the easily accessed flame detector and spark plug ports.
From these access points, the tool can then be maneuvered up and down each combustion can from the fuel nozzles at one end to the first stage nozzles at the other end. The tool can go from can to can by using the cross-fire tubes connecting them. No other tool has the combination of stiffness and flexibility required.
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