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NDT: X-ray inspection machines
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X-ray imaging machine - Xsight+
As a general purpose, large area (15 x 20 mm) X-ray beam imager, Rigaku offers the Xsight+ system to provide real time visualization of X-ray beams at synchrotron beamlines or in academic and industrial...
X-ray imaging machine - Xsight+
As a general purpose, large area (15 x 20 mm) X-ray beam imager, Rigaku offers the Xsight+ system to provide real time visualization of X-ray beams at synchrotron beamlines or in academic and industrial X-ray laboratories.
Beam imaging with intensification
Utilizing the latest in high performance image intensification technology, the X-sight+ provides high sensitivity for imaging even low-flux beams. The system consists of a sensor module connected by cable to a control box with integrated LCD image display. In the sensor module, X-rays are converted into visible light by use of a scintillator; the light is then amplified by an intensifier and imaged by a video camera lens coupled to the output of the intensifier. The video signal it then fed to a control and display console.
Beam imaging with intensification
Utilizing the latest in high performance image intensification technology, the X-sight+ provides high sensitivity for imaging even low-flux beams. The system consists of a sensor module connected by cable to a control box with integrated LCD image display. In the sensor module, X-rays are converted into visible light by use of a scintillator; the light is then amplified by an intensifier and imaged by a video camera lens coupled to the output of the intensifier. The video signal it then fed to a control and display console.
X-ray imaging machine - 8 - 30 keV | Xsight Mneme
High dynamic range
Suiting a wide range of applications, Rigaku offers the Xsight Mneme system to provide real time visualization for general purpose X-ray imaging applications in academic and industrial settings. The standard version utilizes a phosphor...
Suiting a wide range of applications, Rigaku offers the Xsight Mneme system to provide real time visualization for general purpose X-ray imaging applications in academic and industrial settings. The standard version utilizes a phosphor...
X-ray imaging machine - 8 - 30 keV | Xsight Mneme
High dynamic range
Suiting a wide range of applications, Rigaku offers the Xsight Mneme system to provide real time visualization for general purpose X-ray imaging applications in academic and industrial settings. The standard version utilizes a phosphor optimized for imaging energies in the range 8-30 keV but versions are available suitable for higher and lower energy ranges.
High sensitivity
Utilizing the latest in CMOS imagers fiber-optically coupled with high performance image intensification, the Xsight Mneme provides high sensitivity for imaging even low-flux X-ray beams or images in real time. The system’s ability to adjust video frame rate, integration time and intensifier gain allows the Xsight Mneme to image X-rays over a wide range of input illuminations.In the sensor module, X-rays are converted into visible light by use of a scintillator. The light is then amplified by an intensifier and imaged by a CMOS video camera fiber-optically coupled to the output of the intensifier.
Suiting a wide range of applications, Rigaku offers the Xsight Mneme system to provide real time visualization for general purpose X-ray imaging applications in academic and industrial settings. The standard version utilizes a phosphor optimized for imaging energies in the range 8-30 keV but versions are available suitable for higher and lower energy ranges.
High sensitivity
Utilizing the latest in CMOS imagers fiber-optically coupled with high performance image intensification, the Xsight Mneme provides high sensitivity for imaging even low-flux X-ray beams or images in real time. The system’s ability to adjust video frame rate, integration time and intensifier gain allows the Xsight Mneme to image X-rays over a wide range of input illuminations.In the sensor module, X-rays are converted into visible light by use of a scintillator. The light is then amplified by an intensifier and imaged by a CMOS video camera fiber-optically coupled to the output of the intensifier.
Inspection device X-ray
X-weigh enables the X-ray system to weigh the product whilst simultaneously inspecting for foreign body contaminants in one compact and easy to use format. The combination of the two technologies ensures that food manufacturers produce is safe and products are consistent in weight, size and shape.
X-weighs operation is through a single...
X-weighs operation is through a single...
Inspection device X-ray
X-weigh enables the X-ray system to weigh the product whilst simultaneously inspecting for foreign body contaminants in one compact and easy to use format. The combination of the two technologies ensures that food manufacturers produce is safe and products are consistent in weight, size and shape.
X-weighs operation is through a single operator user interface, which is designed to enable product set up in seconds. Not only is the system simple and quick to configure, but it is also highly accurate, with accuracies comparable to traditional checkweighers.
Unlike traditional checkweighers, the X-weigh is unaffected by pack rate, speed, vibration, air turbulence, pack orientation or stability and requires little maintenance. Loma equipment is designed to survive even the harshest of manufacturing environments and the X-weigh is no exception, incorporating a heavy duty conveyor design.
The new X-weigh software complies with national weights and measures legislation and automatically calculates the correct reject set points for European and Canadian Average Weight legislation and American Minimum or MAV weight control. X-weigh supports a comprehensive reports package showing trends, give-away and batch analysis. The statistical information that the software provides can be networked via Ethernet to a central plant computer or SCADA system.
X-weighs operation is through a single operator user interface, which is designed to enable product set up in seconds. Not only is the system simple and quick to configure, but it is also highly accurate, with accuracies comparable to traditional checkweighers.
Unlike traditional checkweighers, the X-weigh is unaffected by pack rate, speed, vibration, air turbulence, pack orientation or stability and requires little maintenance. Loma equipment is designed to survive even the harshest of manufacturing environments and the X-weigh is no exception, incorporating a heavy duty conveyor design.
The new X-weigh software complies with national weights and measures legislation and automatically calculates the correct reject set points for European and Canadian Average Weight legislation and American Minimum or MAV weight control. X-weigh supports a comprehensive reports package showing trends, give-away and batch analysis. The statistical information that the software provides can be networked via Ethernet to a central plant computer or SCADA system.
X-ray fill level sensor - NEMA 4X, IP65
X-ray Sensor for Fill Level Inspection
The Fill_xr sensor is a non-contact sensor used to measure the product fill level in steel, aluminum, glass, plastic and paper containers. An x-ray tube energized at high voltage is used to produce a low energy x-ray beam. This x-ray beam is focused to look through the container in the expected...
X-ray fill level sensor - NEMA 4X, IP65
X-ray Sensor for Fill Level Inspection
The Fill_xr sensor is a non-contact sensor used to measure the product fill level in steel, aluminum, glass, plastic and paper containers. An x-ray tube energized at high voltage is used to produce a low energy x-ray beam. This x-ray beam is focused to look through the container in the expected fill level region. As the x-ray beam penetrates the container, it is attenuated by the amount of product blocking the beam. 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. User set rejection limits defines the high or low fill threshold.
The TapTone Fill_xr sensor uses low energy X-ray technology to inspect steel, aluminum, plastic and glass containers for proper fill level. The system can be configured to detect underfilled and overfilled containers. The sensor mounts on a remote variable height stand and requires no modifications to the existing production conveyor. The Fill_xr sensor can be added to existing TapTone systems as an optional inspection.
Fill_xr requires a User Interface for operation and is compatible with the T550, T4000 HMI,T4000 PC, and PRO Series User Interfaces.
The Fill_xr sensor is a non-contact sensor used to measure the product fill level in steel, aluminum, glass, plastic and paper containers. An x-ray tube energized at high voltage is used to produce a low energy x-ray beam. This x-ray beam is focused to look through the container in the expected fill level region. As the x-ray beam penetrates the container, it is attenuated by the amount of product blocking the beam. 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. User set rejection limits defines the high or low fill threshold.
The TapTone Fill_xr sensor uses low energy X-ray technology to inspect steel, aluminum, plastic and glass containers for proper fill level. The system can be configured to detect underfilled and overfilled containers. The sensor mounts on a remote variable height stand and requires no modifications to the existing production conveyor. The Fill_xr sensor can be added to existing TapTone systems as an optional inspection.
Fill_xr requires a User Interface for operation and is compatible with the T550, T4000 HMI,T4000 PC, and PRO Series User Interfaces.