Course Outline
Siemens Revelation/Inspiration
Overview
The Siemens Inspiration 3D Tomo training course will provide engineers with the necessary knowledge to maintain Dimensions 2D or 3D Tomo systems. This course is designed to give the service professional the insight to evaluate image quality problems, determine if the mammographic unit is the source of the image problem and take the appropriate steps to correct the deficiency.
Given today’s regulatory environment maintaining the system at peak performance is of the utmost importance. At the completion of this course students will be able to perform all Dimensions system maintenance procedures including:
- Calibration (including Tomo)
- Gantry maintenance
- AWS (Acquisition Workstation) maintenance
- Imaging chain maintenance
- Detector pixel calibration
- Troubleshooting
Prerequisites
To attend this course, the service professional must have attended Phase I and possess fundamental knowledge and understanding of the principles of X-ray and basic electronics.
Objectives
- Identify the major components of the Inspiration 3D Tomo system
- Describe the functional characteristics of each sub-system of the Inspiration 3D Tomo system
- Describe the factors that affect digital mammographic image quality
- Describe how those factors are optimized to produce the highest quality digital mammographic
images - Complete all operator, administration, and application/Syngo tasks
- Describe the function of the basic components of the Inspiration 3D Tomo mammographic unit
- Perform the necessary tests to reproduce the results of the physicist’s report to confirm corrective action
- Perform all system calibrations and adjustments to maintain the highest quality images and compliance with MQSA requirements
- Perform detector related maintenance and Pixel calibration procedures to maintain detector image quality
- Demonstrate OS competence to be able to handle AWS maintenance, backup, restore, and calibrations
- Perform complete Preventive Maintenance procedures as performed by the OEM
- Evaluate circuit functions to facilitate troubleshooting
Tuition: $5995
Course Length: 2.5 Days
Dates:
- Apr 7-10, 2026
- Dec 1-4, 2026
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Course Outline
Day 1
- Course introduction
- Inspiration 3D Tomo system
- Components
- Terms/acronyms
- System documentation
- Manual set overview
- System logins
- Mammographic regulatory
overview - Digital mammography technology
overview - Direct vs. indirect digital capture
- Digital image quality factors:
- DQE
- Noise/SNR
- Contrast
- MTF
- Spatial resolution
- Documentation
- Service Access & Service Keys (AIAT)
- Inspiration 3D Tomo quality control
- Functional checks
- Lab Activities
- Major system component
identification- STU – Single Tank Unit
- MFI – Multi Freq Inverter
- CBA – Controller Board Arm
- CBS – Controller Board Stand
- PSU – Power Supply Unit
- Major system component
- Inspiration 3D Tomo basic
operation- System power-on
- System logins
- Technologist QC checks
- Image quality
- Flat field/Phantom IQ
- Physicist QC checks
- Lab Activities
- X-Ray to light congruence
- kVP accuracy
- HVL
- AEC accuracy
- Tube output
- Phantom image quality
- System power
- System communications
- AWS
- Syngo computer
- Fiber optic interface
- Gantry
- Detector
- X-Ray controls
- Inspiration 3D Tomo operations
- AWS acquisition software
- Operators console
- User interface/application/Syngo
- Lab Activities
- Remove and replace covers and
system panels - Component identification
- AWS
- Gantry
- Detector
- Component location
- Schematic location
- Physical location
- Connector locations
- Fuse location/identification
- Selecting output devices
- Acquiring images
- Remove and replace covers and
- Calibration overview
- Required tools and test equipment
- Required software
- Site planning/pre-installation
- AWS configuration
- Network configuration
- Output devices
- Lab Activities
- Configure AWS
- Configure output devices
Day 2
- Backups
- AWS
- User preferences
- Gantry/tubehead calibration data
- Generator/AEC calibration data
- Restore system components from
backup - Operating system installation
procedure - AWS application/Syngo installation
procedure - Lab Activities
- Backup AWS
- Backup user preferences
- Backup gantry/tubehead
calibration data - Backup generator/AEC calibration
data - Complete restore from backup
- Clean OS install
- Application/Syngo install
- System restore from previous
backup
- System service
- System calibration
- kV regulation
- Filament control
- Motor controls
- Collimator
- AEC calibration
- Detector calibration
- Lab Activities
- kV calibration
- mA calibration
- Tubehead Adjustments
- AEC calibration
- Detector flat field calibration
- Pixel mapping
Day 3
- Preventive maintenance
- Review system diagrams and
communication - Review workstation utilities and
service tools - System schematics
- AWS
- Gantry
- Imaging chain
- Lab Activities
- PM worksheet
- Troubleshooting
- Detector troubleshooting
- Error codes
- Download error logs from
generator to service laptop
- Download error logs from
- System diagnostics
- Lab Activities
- Troubleshooting using
defective/bug boards
- Troubleshooting using
- Course review
- Course evaluation
- Final exam