inspeXio™ 7000 - Features

Microfocus X-Ray CT System

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High-Resolution CT Image

Maximum 14 Megapixel Input Resolution

The large high-resolution flat panel detector achieves an offset scan input resolution of up to 14 megapixel.

512 x 512 Pixel Cross-Sectional Image
Low-Resolution Cross-Sectional Image
4096 x 4096 Pixel Cross-Sectional Image
High-Resolution Cross-Sectional Image (14 Megapixel Input Resolution)

High-Contrast CT Image

High-Contrast Detector with Wide Dynamic Range

Cesium iodide (CsI), which has excellent sensitivity characteristics in the long wavelength region, is employed as the scintillator material.
The use of carbon (C) for the detector window material enables imaging on low-density materials. Furthermore, the wide dynamic range (16-bits) enables small contrast differences to be displayed.

High-Contrast CT Image

Improved X-Ray Generator

The Shimadzu-made microfocus X-ray generator unit now includes a newly developed irradiation window. Due to the larger proportion of soft X-rays in the X-ray output, it offers significantly improved contrast when scanning low-density materials that easily transmit X-rays.

Comparison of Transmission Images from Non-Woven Fabric

Previous Transmission Image
 
Previous Cross-Sectional Image
New System Transmission Image
 
New System Cross-Sectional Image

Easy and Fast CT Scanning

Intuitive User Interface

The new user interface features a simpler arrangement for intuitive operation.

  • Main System Window
    Main System Window

    Displays the stage position, scan field of view, equivalent voxel length, and other information in real time, making (the yellow box), it easy to scan images with the specified resolution and field-of-view size.

  • MPR Window
    MPR Window

    Displays slice, oblique, and double-oblique images, enabling the easy observation of cross-sections.

Recommend Scanning Function ANALYTICAL INTELLIGENCE

The new recommend scanning function enables scan parameters to be specified easily. Simply select the material, the desired CT image resolution, and the contrast level, and the system automatically optimizes the CT scanning parameter settings accordingly.

Recommend Scanning Function

HPCinspeXio High-Performance Computing System ver. 3.0

The new HPC inspeXio high-performance computing system is around 50 times faster* than the previous version.

* When the fast acquisition mode is configured and the CT image size is set to 1,024 × 1,024 pixels

HPCinspeXio ver. 3.0

Advanced 3D image Reconstruction

It is possible to enlarge only the focused areas in images once acquired and perform the reconstruction calculation. High-magnification cross-sectional images can be obtained even in the works that enlargement ratio is difficult to be improved. Equipped with a high-resolution at panel detector, clear cross-sectional images can be obtained even when performing reconstruction. It is not necessary to perform the CT scanning once again when performing reconstruction only.

Advanced 3D Image Reconstruction

Obtain CT Images in Three Easy Steps

No calibration process is necessary before scanning. Scans can be started immediately after sample placement.

  • Step1: Place the sample

    Maximum sample and CT scan size are 400 mm in diameter and 300 mm in height.

  • Place the sample

  • Step2: Determine the scan position

    Samples are positioned using the camera mounted on the rotation axis.

  • Determine the scan position

  • Step3: Start the scan

    Scans can be started immediately without prior calibration.
    In normal scan (600 view), data acquisition can be done in as short as 33 seconds.
    Due to the high-performance computing system, MPR images are displayed 10 seconds or less after scanning is finished.

  • Start the scan

3D CT Scan Region Display Function

As the CT stage moves, the corresponding CT scan region is displayed and overlaid in real-time on the MPR display. Based on the previous CT scan image, additional CT scans for areas of interest can be obtained.

3D CT Scan Region Display Function

Unique Functions

  • Extended Filament Lifetime
    The expected lifetime of filament is extended by 2.5 times by automatically adjusting the current value.
  • Acquisition Mode Switching Function
    Long or short scan times can be specified by combining acquisition mode and exposure time settings.
  • Anti-Pinch Prevention Mechanism
    A finger-pinch prevention mechanism is provided to prevent accidents when closing the sliding door.
  • Door Interlock Mechanism
    The sliding door is equipped with redundant interlock circuits. These ensure X-rays are never emitted when the sliding door is open. In addition, these stop the CT stage from moving when the sliding door is open.
  • CR Scan

    • Computed radiography (CR) can be used to obtain transmission images without distortion in the CT-Z direction by acquiring data only along the vertical center line of the X-ray detector while moving the CT-Z axis vertically.

    • Computed radiography
  • DICOM Conversion Function
    CT Image data can be converted to the DICOM format, which is the world standard for medical imaging. Consequently, this function is essential for analyzing data with medical image analysis software.
  • Collision Sensor

    • The expected lifetime of filament is extended by 2.5 times by automatically adjusting the current value.

Improvement of S/N Ratio by SID Switching Function

Source to Image Distance (SID) can be switched among three settings. Depending on the size and area of the object to be imaged, the flat panel detector can be positioned closer to the X-ray generator to obtain a stronger signal and thereby reduce data noise.

sid-switching-function

4680-type lithium-ion rechargeable battery

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