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Related Manuals for Varex Imaging Azure 3131Z
Summary of Contents for Varex Imaging Azure 3131Z
- Page 1 Azure 3131Z & 4131Z X-ray Detectors Before using the X-ray detector, be sure to read this manual thoroughly along with any other manuals for the software and other system components. Keep this manual where it is easily accessible. Making the Invisible Visible...
- Page 2 • In no event is Varex Imaging liable for direct, indirect, or consequential injury, damage, or loss of equipment operation time or image data arising from the use of the X-ray detectors, their components, and/or accessories.
- Page 3 Azure 3131Z - 4131Z Reference Manual Before You Begin Meaning of Alerts and Notes This indicates a potentially hazardous situation which, if ignored, DANGER will result in severe personal injury, death, or substantial product damage. This indicates a potentially hazardous situation which, if ignored,...
- Page 4 Before You Begin Azure 3131Z - 4131Z Reference Manual Installation and Environment of Use The X-ray detector should be installed, maintained, and used by qualified professional personnel who are trained and qualified in the installation, WARNING maintenance, and use of X-ray equipment.
- Page 5 Azure 3131Z - 4131Z Reference Manual Before You Begin Connection of the X-ray Detector to the hospital (clinical) network that includes other equipment could result in previously unidentified risk to patients, operators or third parties. The responsible organization WARNING should identify, analyze, evaluate and control these risks. Subsequent changes to the hospital (clinical) network could introduce new risks and require additional analysis.
- Page 6 Before You Begin Azure 3131Z - 4131Z Reference Manual An Image Quality Test or Customer Acceptance test should be performed before the X-ray detector is used for the first time with Caution patients. All parts of the X-ray detector are suitable for use within the patient Note environment.
- Page 7 Azure 3131Z - 4131Z Reference Manual Before You Begin Accessory or optional equipment connected to the analog and digital interfaces must be certified to the respective IEC standards (i.e. IEC 60950-1 for data processing equipment and IEC 60601-1 for medical equipment).
- Page 8 Before You Begin Azure 3131Z - 4131Z Reference Manual Do not exceed the maximum uniform load weight of 150 kg Caution distributed across the surface of the X-ray detector. Do not exceed the maximum load weight of 100 kg distributed on an Caution area of 40 mm in a diameter of the X-ray detector surface.
- Page 9 Azure 3131Z - 4131Z Reference Manual Before You Begin Maintenance and Inspection Turn off the power of the X-ray detector when the inspections indicated in this manual are going to be performed. Ignoring this WARNING warning may result in electric shock, which may result in severe personal injury, death, or substantial product damage.
- Page 10 Before You Begin Azure 3131Z - 4131Z Reference Manual This page intentionally left blank. www.vareximaging.com...
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Page 11: Table Of Contents
Table of Contents Scope ............. . . 1 Intended Purpose. - Page 12 Table of Contents Azure 2121Z / 3131Z Reference Manual 14.0 Image Acquisition with Viva Pro ......... 20 15.0 Mounting the X-ray Detector –...
- Page 13 Disposing of the X-ray Detector ......... 54 28.0 After-sales Service for Varex Imaging Products......55 29.0 Safety .
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- Page 15 Table 8 Azure 3131Z/4131Z Ethernet Accessories ....... . . 11 Table 9 X-ray Detector Interface Requirements.
- Page 16 List of Tables Azure 2121Z / 3131Z Reference Manual This page intentionally left blank. www.vareximaging.com...
- Page 17 Azure 3131Z Heat Sink Locations ........
- Page 18 List of Figures Azure 2121Z / 3131Z Reference Manual This page intentionally left blank. xviii www.vareximaging.com...
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Page 19: Scope
Intended Purpose Varex Imaging Azure X-ray detectors and their accessories are designed to be integrated into systems by X-ray system manufacturers. The Azure 3131Z and 4131Z Ethernet X-ray detectors are specifically designed to meet the imaging needs of cardiovascular and angiography imaging applications. -
Page 20: Abbreviations
Azure 3131Z - 4131Z Reference Manual Abbreviations Table 1 includes a list of abbreviations used in this manual and a description of each abbreviation. Table 1 Abbreviations Abbreviations Descriptions Application Program Interface Cesium Iodide Detector Update Tool Electromagnetic Compatibility Field of View... -
Page 21: References
Azure 3131Z - 4131Z Reference Manual References Table 2 includes a list of documents referred to in this manual. To obtain the Detector specification reference document, contact your Varex Imaging representative. Table 2 References References Document Number or Location Z-Platform Installation Guide Included in the software SDK ZIP file in the \docs folder. -
Page 22: Definition Of Symbols
Azure 3131Z - 4131Z Reference Manual Definition of Symbols Table 3 displays a list of typical symbols used on the Varex Imaging labels. Table 3 Definition of Symbols Symbol Description Serial Number Temperature Limits Pressure Limits Humidity Limits Protective Earth Ground... -
Page 23: Standards And Regulations
Azure 3131Z - 4131Z Reference Manual Standards and Regulations The Azure 3131Z and 4131Z Ethernet X-ray detectors are designed to be compliant with the requirements detailed in Table 4. All regulatory certificates are valid only if the original accessories as listed in Table 8 on page 11 are used. -
Page 24: Storage And Use Conditions
Azure 3131Z - 4131Z Reference Manual 10.0 Storage and Use Conditions Varex Imaging Azure X-ray detectors can be used or stored within the conditions listed in Table 5. Environments outside the specification reduce the lifetime and may irreparably cause damage to the X-ray detector. -
Page 25: Description Of The X-Ray Detector
The X-ray detectors described in this manual are components meant for cardiovascular and angiography applications. As a component, these X-ray detectors require integration into an X-ray system to produce images. The Azure 3131Z and 4131Z Ethernet X-ray detectors do not function as stand-alone devices. -
Page 26: X-Ray Detector Specifications
Azure 3131Z - 4131Z Reference Manual 11.1 X-ray Detector Specifications The specifications of the Azure 3131Z and 4131Z Ethernet X-ray detectors are listed in Table Table 6 X-ray Detector Specifications Detector Scintillator Pixel Matrix Pixel Pitch Active Area Interface 3131Z 3072 ×... -
Page 27: X-Ray Detector Surfaces And Features
Figure 2 X-ray Detector Bottom Surface and Connectors Figure 3 X-ray Detector Connectors To find pixel 0,0 (Column/Row) location on the Azure 3131Z and 4131Z Note Ethernet X-ray detector please see “Mechanical Drawings” on page a. Mounting holes and size of the detector will vary depending on the X-ray detector. Figures are only a sample representation of the actual X-ray detector. -
Page 28: Table 7 Description Of The X-Ray Detector Connections And Surface
Azure 3131Z - 4131Z Reference Manual Figure 4 X-ray Detector Top Surface Table 7 Description of the X-ray Detector Connections and Surface Number Description Power Connector Micro-USB Service Communication Port - Factory Use only External Sync Port Ground Lug RJ-45... -
Page 29: Accessories
Azure 3131Z - 4131Z Reference Manual 11.4 Accessories Table 8 shows a complete list of accessories available for Azure 3131Z and 4131Z Ethernet X-ray detectors. It is recommended to use the X-ray detector with is approved Varex Imaging accessories and replacement parts. -
Page 30: Getting Started
Azure 3131Z - 4131Z Reference Manual 12.0 Getting Started This section describes everything needed to get started using the Varex Imaging Azure 3131Z and 4131Z X-ray detectors. 12.1 Shipment Contents Inspect the shipment and its contents against the Delivery Note for evidence of damage or missing components. -
Page 31: Minimum Computer Requirements
Azure 3131Z - 4131Z Reference Manual 12.3 Minimum Computer Requirements Varex Imaging recommends the following minimum desktop computer requirements for use with the Azure 3131Z and 4131Z X-ray detectors: • OS: Microsoft Windows 10 & 11 (Version 21 H2 or later) •... -
Page 32: Connecting The Cables
Azure 3131Z - 4131Z Reference Manual Table 10 Cables & Descriptions Cable Description Provides DC power to the X-ray detector. Power supplies available from Varex Imaging are listed in Table 8 on page 11. If a different power supply External Power Supply is used, the requirements listed in See “Alternative Power Supply... -
Page 33: Connecting To The Detector For The First Time
Client PC. Connect and download the T01_<Major_Version>.<Minor_Version>.zip file from the Varex Imaging SharePoint site or contact your Varex Imaging Applications Engineering team for more information. Create a folder for this ZIP file on your local drive and Extract All the files to this folder on your computer. -
Page 34: Connecting To The X-Ray Detector Using Viva Pro
Viva Pro User Manual in the folder. \docs Viva Pro is a software application included by Varex Imaging to connect to a detector. It has its own documentation and instructions on how to run this Note application. Please see the Viva Pro documents for detailed information. -
Page 35: Viva Pro Acquisition Settings
Azure 3131Z - 4131Z Reference Manual 13.0 Viva Pro Acquisition Settings Adjusting the Viva Pro acquisition modes, systems settings, or to do any custom setups, please see the Viva Pro Manual, applications documentation, or help files for further assistance. For detector modes and corrections information, see “Modes Of Operation and Corrections”... -
Page 36: Gain Calibration
Azure 3131Z - 4131Z Reference Manual • Offset calibration should not be performed during X-ray. • For optimal results, Varex recommends 128 frames for offset calibration. • Varex recommends refreshing the offset calibration as often as possible for optimal image quality. - Page 37 Azure 3131Z - 4131Z Reference Manual • Performing a Gain Calibration sequence is used to: • an offset calibration prior to To ensure the X-ray detector is properly calibrated, perform gain calibration. • It is critical for gain calibration to acquire the flat field image(s) within a range that is large enough to be higher than the background noise created by the X-ray source and readout electronics of the detector, but lower than the saturation point of the detector.
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Page 38: Image Acquisition With Viva Pro
Azure 3131Z - 4131Z Reference Manual 14.0 Image Acquisition with Viva Pro Click on the Acquisition Settings button to apply settings for acquisition. Once all settings have been configured, click on the Acquire button to start acquiring images. See the VivaPro User Manual for the various configuration settings. -
Page 39: Mounting The X-Ray Detector - Oem System
Azure 3131Z - 4131Z Reference Manual 15.0 Mounting the X-ray Detector – OEM System The X-ray detector must be used horizontally on a flat, stable surface, or if the detector is placed vertically or in any tilted position, the detector must be securely fastened in that position. Use the mounting holes provided on the X-ray detector to mount the detector securely to the system platform. -
Page 40: External Power Supply
Azure 3131Z - 4131Z Reference Manual 16.0 External Power Supply The 3131Z and 4131Z X-ray detectors require an external DC power supply. Electrical ratings for the external power supply, supplied by Varex Imaging, are shown in Table Table 13 19V External Power Supply... -
Page 41: Sdk X-Ray Detector Software
Once the active connection is terminated, other workstations may try to connect to the X-ray detector. Detector software is pre-loaded before it leaves the Varex Imaging factory. Installation is not required. Detector software is provided in a detector update package ZIP file. -
Page 42: Modes Of Operation And Corrections
Pulsed X-ray is available on the Azure X-ray detector and the frame rate depends on the Readout time and the X-ray window chosen. The Azure 3131Z Ethernet X-ray detector has the ability to modify the Region of Interest (ROI) for selected modes (these includes the description “Programmable FOV”). In a programmable mode, the user can modify the ROI in both directions, to increase the fps. -
Page 43: Table 15 3131Z Ethernet X-Ray Detector Operational Modes Example
Note for setting ROI are not available in VSP2Express. • Table 15 for an example of the Azure 3131Z X-ray detector mode parameters and features. • Table 16 on page 26 for an example of the Azure 4131Z X-ray detector mode parameters and features. -
Page 44: Image Corrections
Azure 3131Z - 4131Z Reference Manual Table 16 4131Z Ethernet X-ray Detector Operational Modes Example Readout Time Max Linear Dose Mode Description Pixel Binning Matrix Size [ms] [µGy/frame] 1 × 1 9µGy MLD 27.6 1 × 1 4096 × 3072 Full FOV 2 ×... -
Page 45: Defect Correction
Azure 3131Z - 4131Z Reference Manual 18.1.1 Defect Correction The X-ray detectors are provided with a defect correction map to correct defective pixels/lines. The map used by the detector is composed by two parts: a base map and auxiliary map. -
Page 46: Oem/System Integrator User Interfaces
Varex Imaging hardware connections and SDK APIs. This section is for advanced users of the Varex Imaging X-ray detectors. If you have any questions please contact your Varex Imaging representative for detailed assistance. -
Page 47: External_Sync Input Signal
Azure 3131Z - 4131Z Reference Manual 20.2 External_Sync Input Signal The detector will start a frame readout at the rising edge of the signal present at the External_Sync input. External_Sync mode must be selected via the API, vsp2_set_user_sync(), prior to starting acquisition. Pulses must be greater than 10μs to start a new frame read-out. -
Page 48: Expose_Ok Output Signal
Azure 3131Z - 4131Z Reference Manual 20.3 Expose_OK Output Signal Expose_ OK is a detector driven signal to the system integrator. This signal indicates when it is safe to deliver X-rays to the X-ray detector in a pulsed exposure. The detector's Expose_OK output is present on pins 1 (EXP_OK) and 2 (USER_5V) of the male... -
Page 49: Disable Expose_Ok Input Signal
Azure 3131Z - 4131Z Reference Manual 20.4 Disable Expose_OK Input Signal Disable_Expose_OK is a system integrator driven signal to the detector. Disable_Expose_OK allows the integrator to control when Expose_OK is issued from the detector. When Disabel_Expose_OK is enabled, Expose_OK cannot be ON. This signal can be used to ensure dark frames are captured before an exposure or to block X-ray in a fault state. -
Page 50: Detector_Ready_Out Signal
Azure 3131Z - 4131Z Reference Manual 20.5 Detector_Ready_Out Signal Detector_Ready_Out is a detector driven signal to the system integrator. Detector_Ready_Out indicates when the detector is ready to receive software commands and accept External_Sync inputs. If Detector_Ready_Out is inactive, the detector will not respond to External_Sync inputs and software commands may be delayed. -
Page 51: Acquisition Timing
Azure 3131Z - 4131Z Reference Manual 20.6 Acquisition Timing This section contains a description of acquisition sequences. It is possible to calculate the timing for each sequence considering the readout time of the detector in the chosen mode. See Information on readout time and mode details can be found in the dedicated detector specifications. -
Page 52: Standard Acquisition Api
Azure 3131Z - 4131Z Reference Manual 20.7 Standard Acquisition API For each sequence, standard timings have been calculated to help customers understand the timing of the acquisition cycle. Acquisition is initiated by calling function . The fluoro vsp2_fluoro_acquisition_start() acquisition start function specifies the acquisition mode and whether acquisition is continuous or for a number of frames. -
Page 53: Acquisition Disable_Expose_Ok
10 µs Disable_Expose_OK before turning ON the external trigger and held for 10 µs after the turning ON the external trigger. Varex Imaging recommends that the Note signal be settled 100 µs before turning ON the external Disable_Expose_OK trigger and held for 100 µs after the turning ON the external trigger to add... -
Page 54: Acquisition Stop
Azure 3131Z - 4131Z Reference Manual 20.9 Acquisition Stop Acquisition is stopped using the software API call . After vsp2_fluoro_acquisition_stop() the acquisition has stopped the X-ray detector is returned to an idle state waiting for the next action. While in an idle state, the X-ray detector will scrub charge that has accumulated on the pixel through flush frames using internally generated frame sync signals. -
Page 55: 20.10 Acquisition Started With External_Sync Input
Azure 3131Z - 4131Z Reference Manual 20.10 Acquisition Started with External_Sync Input While the X-ray detector is in an idle state or during the mode switch (indicated when Detector_Ready is OFF), the rising edge of the Detector_Ready_Out signal indicates when the detector is ready to receive the first External_Sync signal. -
Page 56: 20.11 Mode Switch While Acquisition In Progress
Azure 3131Z - 4131Z Reference Manual 20.11 Mode Switch While Acquisition in Progress The VSP2 API uses function vsp2_fluoro_acquisition_start() to control the beginning and end of Continuous acquisition vsp2_fluoro_acquisition_stop() (for a specified mode). A parameter of the start function (... -
Page 57: 20.12 Alternative Power Supply Requirements
Figure 17, on page A Lemo FGG.0B.304.CLAD52Z (19V) connector is used on Varex Imaging supplied power supplies and is suggested as the mating connector for customer supplied power. If an alternate external power supply is used or the power is supplied in some other way, the EMC and safety test results in this manual are not applicable. -
Page 58: Table 19 External Power Supply Requirements
Azure 3131Z - 4131Z Reference Manual During initial power up, the X-ray detector’s internal DC-DC converters present a low impedance load, and it is therefore important that the power Note supply can maintain its limiting current without voltage drop. Ripple and Noise should not go beyond (20Mhz bandwidth) < 150 mVp-p. -
Page 59: Diagnostic Frame Data
Azure 3131Z - 4131Z Reference Manual 21.0 Diagnostic Frame Data In the SDK, diagnostic data pertinent to the running acquisition is returned to the OEM software through the delivered to the acquisition callback during acquisition which VSP2_FRAME_PACKET provides frame-by-frame information (i.e. counters, frame details, etc., along with actual frame pixel data). -
Page 60: Diagnostic Logs
PC. If a customer discovers an issue or problem with the detector, or the embedded software running on the detector, Varex Imaging will request logs to be collected for troubleshooting and diagnostic purposes. In these situations, customers should submit logs with steps to duplicate a problem to Varex Imaging Customer Support. -
Page 61: Troubleshooting
Azure 3131Z - 4131Z Reference Manual 22.0 Troubleshooting Some possible occurrences and their solutions are shown in Table Table 20 Problems and Solutions Problem Solution • Reorient or relocate the receiving device. • Increase the separation between the equipment. Detector causes Electro-Magnetic •... - Page 62 Azure 3131Z - 4131Z Reference Manual Table 20 Problems and Solutions (Continued) • Ensure that the tube dose is set to the correct settings. • Acquire another image at the recommended median count as stated in “Section 13.2, Gain Calibration” on page •...
- Page 63 Re-establish a link. • Acquire an image from the detector and inspect for regions Detector dropped of missing data. Note: If the detector has been dropped and is not returned to Varex Imaging, a new gain calibration must be performed. www.vareximaging.com...
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Page 64: Heat Sink Locations
Azure 3131Z - 4131Z Reference Manual 23.0 Heat Sink Locations Heat Sink locations are shown in Figure 18 for the 3131Z and in Figure 19for the 4131Z. Figure 18 Azure 3131Z Heat Sink Locations www.vareximaging.com... -
Page 65: Figure 19 Azure 4131Z Heat Sink Locations
Azure 3131Z - 4131Z Reference Manual Figure 19 Azure 4131Z Heat Sink Locations www.vareximaging.com... -
Page 66: Mechanical Drawings
Azure 3131Z - 4131Z Reference Manual 24.0 Mechanical Drawings Drawings are for reference only. For up-to-date drawings, please contact Note your Varex Imaging representative. Mechanical drawings of the 3131Z can be found below in Figure 20. The 4131Z drawings can be... -
Page 67: Figure 21 Mechanical Drawings For 4131Z - Dimensions In Mm And [Inches]
Azure 3131Z - 4131Z Reference Manual Figure 21 Mechanical Drawings for 4131Z - Dimensions in mm and [inches] www.vareximaging.com... -
Page 68: Programmable Roi With Viva Pro
Azure 3131Z - 4131Z Reference Manual 25.0 Programmable ROI with Viva Pro “Section 18.0, Modes Of Operation and Corrections” on page 24, the 3131Z detector has the possibility to modify the ROI of selected modes (programmable modes). Please refer to the Varex Smart Panel (VSP2) - Software Interface Note Specification for more general information on the programmable ROI. -
Page 69: Roi Rules
Azure 3131Z - 4131Z Reference Manual Selecting the Custom Size, it is possible to change the mode ROI. The new ROI selected must fol- low precise rules (see Section ROI Rules). When a new ROI is selected, the max frame rate will automatically be adjusted. - Page 70 Azure 3131Z - 4131Z Reference Manual Rules for ROI top-left location: • Starting location X must be divisible by 4. Rules for ROI dimensions: • The width of the ROI must be divisible by 8. • The width of the ROI must be at least 192 pixels.
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Page 71: Cleaning The X-Ray Detector
Azure 3131Z - 4131Z Reference Manual 26.0 Cleaning the X-ray Detector This section provides details on how to clean the detector. The X-ray detector and connector cables are likely to be contaminated during use. The specific material most likely to become contaminated is the X-ray grade carbon fiber input window and housing. -
Page 72: Disposing Of The X-Ray Detector
If the Azure X-ray detector is activated by high-energy X-rays, gamma rays, or neutrons follow the local radiation protection regulation. Contact your supplier or your Varex Imaging representative and check the terms of conditions of the purchase contract. This product can not be mixed with other commercial waste for disposal. -
Page 73: After-Sales Service For Varex Imaging Products
0 to be connected to an operator. For product returns, contact your distributor or device manufacturer for shipping and packaging instructions. Do not return products to Varex Imaging for repair or service without advance noti- fication. Include all required papers in the shipment. -
Page 74: Safety
29.1 Electromagnetic Compatibility Varex Imaging 3131Z and 4131Z X-ray detectors generate, use, and radiate radio frequency (RF) energy. If not installed and used in accordance with the instructions, they may cause harmful interference to other devices or may be affected by other equipment in the vicinity. There are no guarantees that installation does not cause interference, regardless of whether everything is used appropriately. -
Page 75: Electromagnetic Emissions
Azure 3131Z - 4131Z Reference Manual 29.2 Electromagnetic Emissions Radiated/conducted emissions, harmonics, voltage, fluctuations and flicker characteristics are shown in Table Table 21 Radiated/Conducted Emissions, Harmonics, Voltage, Fluctuations, & Flicker IEC 60601-1-2 Emissions test Compliance Electromagnetic environment test level The X-ray detector uses RF energy... -
Page 76: Electromagnetic Immunity
Azure 3131Z - 4131Z Reference Manual 29.3 Electromagnetic Immunity ESD, transient/burst, surge, voltage variation and magnetic Fields are described in Table Electronic Immunity Test Levels are described in Table 23 on page Table 22 ESD, Transient/Burst, Surge, Voltage Variation, Magnetic Fields... -
Page 77: Table 23 Test Specs For Enclosure Port Immunity To Rf Wireless
Azure 3131Z - 4131Z Reference Manual Table 23 Test Specs for Enclosure Port Immunity to RF Wireless Communications Equipment for Azure detectors. Test Immunity Band Max Power Distance Frequency Modulation Test Level Service (MHz) (MHz) (V/m) Pulse Modulation 380-390 TETRA 400... -
Page 78: Rf Immunity
Azure 3131Z - 4131Z Reference Manual 29.4 RF Immunity Conducted/radiated RF are described in Table Table 24 Conducted/Radiated RF IEC 60601-1-2 Immunity test Compliance Electromagnetic environment test level 3 Vrms 3 Vrms 150 kHz to 80 150 kHz to 80... - Page 79 Azure 3131Z - 4131Z Reference Manual Use of this equipment adjacent to or stacked with other equipment could result in improper operation. If such use is necessary, ALL WARNING equipment should be observed to verify that they are operating normally.
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- Page 81 Azure 2121Z / 3131Z Reference Manual Index Numerics Interface and Power Unit and Cables Safety Note 3131Z Heat Sink Ionizing Radiation, Protection Against 4131Z Heat Sink LED Behavior Abbreviations Limitation of Use/Intended Users Accessories Alerts and Notes, Meaning of Maintenance and Inspection Safety Note Audience Meaning of Alerts and Notes auxiliary map...
- Page 82 Index Azure 2121Z / 3131Z Reference Manual Maintenance and Inspection Safety, For Your Scope SDK library Shipment Contents Standards and Regulations Storage and Use Conditions Supporting Files Surfaces and Features T01SDK Detector Software temperature sensors European Union (EU) Varex Image Viewing and Acquisition Pro Varex Smart Panel (VSP2) - Software Interface Specification Viva Pro...
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- Page 84 ©2023 Varex Imaging All rights reserved. The Varex Imaging logo and design are registered trademarks of Varex Imaging or its subsidiaries, in the United States and other countries. VivaPro is a trademark of Varex Imaging. All other trademarks not owned by Varex Imaging or its subsidiaries that are depicted herein are the property of their respective owners.