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Olympus Panametrics OmniScan MX 16:128 Ultrasonic Phased Array PA Flaw Detector

$ 8392.56

Availability: 100 in stock
  • All returns accepted: Returns Accepted
  • Return shipping will be paid by: Buyer
  • Condition: Seller refurbished
  • Refund will be given as: Money back or replacement (buyer's choice)
  • Restocking Fee: No
  • Item must be returned within: 30 Days
  • Brand: Olympus
  • MPN: Does not apply

    Description

    ebay template
    The Following Items Are Included:
    Olympus OmniScan MX 16:128 Ultrasonic Phased Array Flaw Detector (BC# -L/T*)
    Battery Pack
    AC Adapter/Charger
    Power Cord
    User Manual On Cd-ROM
    Carrying Case (G)
    BE SURE TO CHECK OUR EBAY STORE FOR OTHER ITEMS!
    This Item Has A Current Calibration!
    Olympus OmniScan MX 16:128 Ultrasonic Phased Array Flaw Detector
    This phased array system is qualified to inspect tubes with diameters ranging from 48 mm to 1524 mm and thicknesses from 5 mm to 25 mm in compliance with ASME Boiler and Pressure Vessel Code Section V.
    Includes Carrying Case & Accessories As Listed Above!
    Working Condition: Excellent
    Condition: Refurbished
    Calibrated: Yes
    Warranty: 1 YEAR WARRANTY
    Olympus OmniScan MX Phased Array Flaw Detector
    With hundreds of units used throughout the world, the R/D Tech OmniScan MX is Olympus NDT’s most successful modular and portable phased array and eddy current array test unit. The OmniScan family includes the innovative phased array and eddy current array test units, as well as the eddy current and conventional ultrasound modules, all designed to meet the most demanding requirements of NDT. The OmniScan MX offers a high acquisition rate and powerful software features in a portable, modular mainframe to efficiently perform manual and automated inspections.
    Rugged, Portable, and Battery-Operated
    The OmniScan is built to work in the harshest field conditions. Its solid polycarbonatebased casing and rubber bumpers make it a rugged instrument that can withstand drops and shocks.
    The OmniScan is so compact and lightweight (only 4.6 kg) that it can be carried easily and handled anywhere inside or outside. The OmniScan will run 6 hours with its two Li-ion batteries.
    User Interface
    The highly legible 8.4-inch real-time display (60-Hz A-scan refresh rate) with a SVGA resolution of 800 x 600 allows you to clearly see defects and details under any light conditions. A scroll knob and function keys make it easy to browse through and select functions. A mouse and a keyboard can also be plugged in for users looking for a more PC-like interface.
    Modular Platform
    The instrument is a modular platform that allows you to switch among its different test modules on location. The platform detects the new module and the technology supported so that the configuration and test environment are set automatically.
    OmniScan Connector
    The OmniScan connector has a probe ID feature that enables physical detection and recognition of the probe connected to the mainframe.
    Sets the probe to an appropriate frequency to prevent probe damage
    Sets C-scan resolution of ECA probes
    Loads the correct probe parameters
    Typical Applications
    Girth Weld Inspection
    Olympus NDT has developed a circumferential weld inspection system based on the OmniScan PA for the oil and gas industry. This phased array system is qualified to inspect tube with diameters ranging from 48 mm to 1524 mm and thicknesses from 5 mm to 25 mm in compliance with ASME Boiler and Pressure Vessel Code Section V. The semiautomated system offers better inspection speed and detection, and makes the interpretation of the indications significantly easier.
    Pressure Vessel Weld Inspection
    The combination of time-of-flight diffraction (TOFD) and pulse-echo techniques means that the complete inspection is done in a single scan, significantly reducing the inspection time when compared to conventional raster scanning or radiography. Inspection results are available instantaneously, allowing you to spot a problem with the welding equipment and fix it right away. Based on our vast experience in the nuclear and petrochemical industries, this system includes all the functions that are needed for code-compliant weld inspections.
    Scribe Marks Inspection with No Paint Removal
    The Flight Standards Information Bulletin for Airworthiness (FSAW 03-10B), issued on November 2003, report damage along fuselage skin lap joints, butt joints, and other areas of several aircraft caused by the use of sharp tools used during paint and sealant removal.
    The OmniScan allows the scribe marks inspection to be done without paint removal which is a huge time saver. The inspection is done in a single pass using 60º to 85º SW sector scans. OmniScan PA is now referenced in the Boeing NTM manuals, 737 NDT Manual, Part 4, 53-30-06, July 2005.
    Aircraft Fuselage Inspection
    The OmniScan ECA (eddy current array) provides the ability to detect hidden corrosion and cracks in multilayer structures. Currently, material loss of 10% of the lap splice thickness can be detected in aluminum at a depth of 0.2 in. Surface and subsurface cracks can be detected in the skin, at the fastener, or at the lap joint edges.
    Ultrasound Inspection
    Time-of-Flight Diffraction (TOFD) Testing
    TOFD is a technique that uses two probes in pitch-and-catch mode. TOFD detects and records signals diffracted from defect tips for both detection and sizing. The TOFD data is displayed in a grayscale B-scan view. TOFD offers wide coverage and amplitudeindependent sizing compliant with the ASME-2235 code.
    One-line scan for full-volume inspection
    Setup independent of weld configuration
    Very sensitive to all kinds of defects and unaffected by defect orientation
    Time-of-Flight Diffraction (TOFD) and Pulse-Echo Testing
    While TOFD is a very powerful and efficient technique, it suffers from limited coverage resulting from two dead inspection zones: one dead zone is near the surface, the other is at the backwall.
    OmniScan UT allows inspections simultaneously combining TOFD with conventional pulse echo. Pulse echo complements TOFD and covers the dead zones.
    TOFD inspection
    45º pulse-echo for weld cap inspection on either sides of the weld
    60º pulse-echo for weld root inspection on either sides of the weld
    0-Degree Testing (Corrosion and Composite)
    The 0-degree testing measures time-offlight and amplitude of ultrasonic echoes reflecting from the part into gates in order to detect and measure defects.
    C-scan imaging
    Full A-scan recording with C-scan postprocessing
    Ultrasound Transducers
    Olympus NDT offers thousands of transducers in standard frequencies, element diameters, and connector styles.
    Contact and immersion transducers
    Dual transducers
    Angle beam transducers and wedges
    Replaceable delay line transducers
    Protected-face transducers
    Normal incidence shear wave transducers
    Phased Array Inspection
    Phased Array Technology
    Phased array technology generates an ultrasonic beam with the capability of setting beam parameters such as angle, focal distance, and focal point size through software. Furthermore, this beam can be multiplexed over a large array. These capabilities open a series of new possibilities. For instance, it is possible to quickly vary the angle of the beam to scan a part without moving the probe itself. Phased arrays also allow the replacement of multiple probes and even mechanical components. Inspecting a part with a variable-angle beam also maximizes detection regardless of the defect orientation, while optimizing signalto-noise ratio.
    Benefits of Phased Arrays
    Phased array technology offers the following capabilities:
    Software control of beam angle, focal distance, and spot size
    Multiple-angle inspection with a single, small, electronically-controlled multielement probe
    Greater flexibility for the inspection of complex geometry
    High-speed scans with no moving parts
    Eddy Current Inspection
    Eddy Current Technology
    Eddy current (ECT) technology is a noncontact method for the inspection of metallic parts. In this technique, the probe, which is excited with an alternating current, induces eddy current in the part being inspected. Any discontinuities or material property variations that change the eddy current flow in the part are detected by the probe as a potential defect.
    Over the years, probe technology and data processing have continuously progressed so that the eddy current technique is now recognized to be fast, simple, and accurate. This is why the technique is widely used in the aerospace, automotive, petrochemical, and power generation industries for the detection of surface or near-surface defects in material such as aluminum, stainless steel, copper, titanium, brass, Inconel®, and even carbon steel (surface defect only).
    Benefits of Eddy Current
    Eddy current offers the following capabilities:
    A quick, simple, and reliable inspection technique to detect surface and near-surface defects on conductive material
    Can be used to measure electrical conductivity of the material.
    Measurement of nonconductive coating
    Hole inspection with the use of highspeed rotating scanner and surface probe
    Eddy Current Probes
    Olympus NDT standard eddy current probes are available in different configurations:
    Bolt hole probes
    Surface probes, in various shapes and configurations
    Low-frequency Spot and Ring probes
    Sliding probes
    Wheel probes
    Conductivity probes
    Speciality probes made for specific applications
    Specifications:
    Overall dimensions
    321 mm x 209 mm x 125 mm
    (12.6 in. x 8.2 in. x 5 in.)
    Weight
    4.6 kg (10.1 lb) (including module and one battery)
    Data storage
    Storage devices
    CompactFlash® card, most standard USB storage device, or through fast Ethernet™ Internal 32 MB DiskOnChip®
    Data file size
    160 MB
    I/O ports
    USB ports
    3
    Speaker out
    Yes
    Microphone input
    Yes
    Video output
    Video out (SVGA)
    Video input
    Video input (NTSC/PAL)
    Ethernet™
    10/100 Mb/s
    I/O lines
    Encoder
    2-axis encoder line (quadrature, up, down, or clock/direction)
    Digital input
    4 digital inputs TTL, 5 V
    Digital output
    4 digital outputs TTL, 5 V, 10 mA
    Acquisition on/off switch
    Remote acquisition enable TTL, 5 V
    Power output line
    5 V, 500 mA power output line (short-circuit-protected)
    Alarms
    3 TTL, 5 V, 10 mA
    Analog output
    2 analog outputs (12 bits) ±5 V in 10 kΩ
    Pace input
    5 V TTL pace input
    Display
    Display size
    8.4 in. (diagonal)
    Resolution
    800 x 600 pixels
    Number of colors
    16 million
    Type
    TFT LCD
    Power supply
    Battery type
    Smart Li-ion battery
    Number of batteries
    1 or 2 (battery chamber accommodates two hot-swappable batteries)
    Battery life
    Minimum 6 hours with two batteries; minimum of 3 hours per battery in normal operation conditions
    DC-in voltage
    15 V – 18 V (min. 50 W)
    Environmental specifications
    Operating temperature
    0°C to 40°C (35ºC with 32:128 PA)
    Storage temperature
    –20°C to 70°C
    Relative humidity
    0–95% non condensing. No air intake, splashproof design.
    Ultrasound Module Specifications
    Overall dimensions
    244 mm x 182 mm x 57 mm (9.6 in. x 7.1 in. x 2.1 in.)
    Weight
    1 kg (2.2 lb)
    Connectors
    LEMO® 00 (2, 4, or 8)
    Pulser/Receiver
    Number of pulsers/receivers
    2, 4, or 8
    Pulser
    Pulse output
    50 V, 100 V, 200 V, 300 V ±10% (variable pulse width)
    Pulse width
    Adjustable from 30 ns to 1000 ns ±10%, resolution of 2.5 ns
    Fall time
    Less than 7 ns
    Pulse shape
    Negative square wave
    Output impedance
    Less than 7 Ω
    Receiver
    Receiver gain range
    0–100 dB, by steps of 0.1 dB
    Maximum input signal
    20 V p-p (screen at 128%)
    Minimum sensibility
    200 µV p-p (screen at 128%)
    Noise referred to input
    160 µV p-p (26 µV RMS) (128%)
    Input impedance
    50 Ω
    Input filter (100% bandwidth)
    Centered at 1 MHz (1.5 MHz),
    centered at 2 MHz (2.25 MHz),
    centered at 5 MHz (4 MHz),
    centered at 10 MHz (12 MHz),
    centered at 15 MHz,
    centered at 20 MHz,
    0.25–2.5 MHz, 2–25 MHz BB
    Bandwidth of the system
    0.25–32 MHz (–3 dB)
    Rectifier
    Both, positive, negative
    Mode
    PE (pulse-echo), PC (pitch-and-catch), TT (through-transmission). In P-C mode the maximum number of pulsers equals the number of channels/2
    Smoothing
    Digital
    DAC
    Number of points
    16
    DAC range
    Up to 40 dB
    Maximum gain slope
    20 dB/µs
    Data acquisition
    A-scan acquisition rate
    6000 A-scans/s (512-point A-scan)
    Maximum pulsing rate
    1 channel at 12 kHz (C-scan)
    Data processing
    Real-time averaging
    2, 4, 8, 16
    Gates
    Quantity
    3: I (synchro), A and B (measure)
    Synchronization
    I, A, B referenced on main bang, A and B referenced on gate I (postsynchronization)
    Data storage
    A-scan recording (TOFD)
    6000 A-scans/s (512-point A-scan) (3 MB/s transfer rate)
    C-scan type data recording
    12 000 (A1, A2, A3, T1, T2, T3) (3 gates) 12 kHz (lower frequency for corrosion mapping)
    Data visualization
    Refresh rate
    60 Hz
    Data synchronization
    On time
    1 Hz–12 kHz
    On encoder
    On 1 or 2 axes divided into 1 to 65,536 steps
    Alarms
    Number
    3
    Conditions
    Any logical combination of gates
    Signal
    Amplitude or TOF of gate A or B
    Phased Array Module Specifications
    Overall dimensions
    244 mm x 182 mm x 57 mm
    (9.6 in. x 7.1 in. x 2.1 in.)
    Weight
    1.2 kg (2.6 lb)
    Connectors
    1 OmniScan connector for phased-array probes 2 BNC connectors (1 pulser/receiver, 1 receiver for conventional UT) (BNC not available on models 32:32 and 32:128)
    Number of focal laws
    256
    Probe recognition
    Automatic probe recognition and setup
    Pulser/Receiver
    Aperture
    16 elements*
    Number of elements
    128 elements
    Pulser
    Voltage
    80 V per element
    Pulse width
    Adjustable from 30 ns to 500 ns, resolution of 2.5 ns
    Fall time
    Less than 10 ns
    Pulse shape
    Negative square wave
    Output impedance
    Less than 25 Ω
    Receiver
    Gain
    0–74 dB maximum input signal 1.32 V p-p
    Input impedance
    75 Ω
    System bandwidth
    0.75–18 MHz (–3 dB)
    Beam forming
    Scan type
    Azimuthal and linear
    Scan quantity
    Up to 8
    Active elements
    16
    Elements
    128
    Delay range transmission
    0–10 µs in 2.5-ns increments
    Delay range reception
    0–10 µs in 2.5-ns increments
    Data acquisition
    Digitizing frequency
    100 MHz (10 bits)
    Maximum pulsing rate
    Up to 10 kHz (C-scan)
    Acquisition depth
    29 meters in steel (L-wave), 10 ms with compression. 0.24 meter in steel (L-wave), 81.9 µs without compression
    Data processing
    Number of data points
    Up to 8000
    Real-time averaging
    2, 4, 8, 16
    Rectifier
    RF, full wave, halfwave +, halfwave –
    Filtering
    Low-pass (adjusted to probe frequency), digital filtering (bandwidth, frequency range)
    Video filtering
    Smoothing (adjusted to probe frequency range)
    Data storage
    A-scan recording (TOFD)
    6000 A-scans per second (512-point 8-bit A-scan)
    C-scan type data recording
    I, A, B, up to 10 kHz (amplitude or TOF)
    Maximum file size
    Limited by memory size
    Data visualization
    A-scan refresh rate
    Real-time: 60 Hz
    A-scan refresh rate
    Up to 40 Hz
    Data synchronization
    On internal clock
    1 Hz – 10 kHz
    On encoder
    On 1 or 2 axes
    Programmable time-corrected gain (TCG)
    Number of points
    16 (1 TCG curve per channel for focal laws)
    Alarms
    Number of alarms
    3
    Conditions
    Any logical combination of gates
    Analog outputs
    2
    For full Olympus OMNIScan MX Ultrasonic Flaw Detector product specifications, please click here:
    Olympus OMNIScan MX
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