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OP300. Technical training presentation Installation. OP 300 delivery content. OP 300 is delivered in 2 boxes. BOX 1 contains - Column and carriage - Accessories Wall bracket Manuals. BOX 2 contains Main Support Rotating unit. Pre-installation requirements. Installation room
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OP300 Technical training presentation Installation
OP 300 delivery content OP 300 is delivered in 2 boxes • BOX 1 contains • - Column and carriage • - Accessories • Wall bracket • Manuals • BOX 2 contains • Main Support • Rotating unit
Pre-installation requirements Installation room Check minimum room size from pre-sales check-list. Physical environment specs in the pre-sales check-list. Unit mounts to the floor and wall with mounting hardware (not supplied). PC minimum requirements Windows XP Professional with SP2 (32-bit) 2.4 GHz Core 2 Duo dual core processor or equivalent 2 GB RAM 500 GB HDD or larger Gigabit Ethernet (CAT6) One available PCI-Express x16 bus slot for a GPU card 2 available USB ports (hardware key locks) 19" LCD display, 1280 x 1024 Time and persons For complete installation 1 day and 2 persons are needed • Radiation shielding • Local requirements must be met
Product dimensions Range: 54.5” to 56.1” (78.9”)
Installation overview Connect all cables and attach exposure button and touch panel Stand up the column Attach unit to the wall and / or to the floor Install and configure Cliniview Carry out calibration procedure for the unit Lift the carriage and hang it on the column. For detailed instructions please refer to Installation manual Check leveling of the unit
Three mounting variations: With one wall mounting bracket and bolting unit to the floor With two wall mounting brackets -- no floor drilling is needed With one wall mounting bracket and base plate Note: Base plate and second wall mounting bracket has to be ordered separately
For the Wall Mounting Bracket: Prior to mounting column to the mounting bracket, ensure that the bracket has room to adjust forward and back, otherwise there will be no room to level the unit front-to-back. Leveling is done after the overhead is mounted onto the column, using levels built into the overhead.
Configure the rotation stop • Remove rotation stop bracket • Rotate the tubearm 90 degrees CCW, as seen from above • Reinstall rotation stop bracket
Level the unit • Levels located in overhead • Use column bracket to set level
Configuring the mains power jumpers • Default 220V configuration • 100V, 115V jumpers stored on side panel
Host computer video card C A • Reconstruction video card packed in column box • Open host computer, remove old video card from PCI slot (A) • Locate “Y” power adapter (B) • Install “Y” power adapter (C) • Plug in reconstruction video card • Ensure that two power plugs are connected to video card (D) • Locate reconstruction dongle, plug into available USB port on the host computer B D
Configure Driver • Left-ctrl/right click on driver icon to open the driver setup script • Enter the IP address of the unit to be controlled
Calibration of the unit • How to start: • Patient record must be active • select in the control panel • select “Service” in the control panel • check to see if any items have red exclamation points on them – those items must be recalibrated
Alignment and QA Tools Leveling base Pan alignment cone assembly QA Phantom CT Geometry tool
Acceptance limits Passed Calibration program is successfully done. Move on to next calibration. Not passed Adjustment is still needed. Follow the instructions the image (if any) and take another exposure. Some calibration programs are iterative and demands a few repetitions. Failed System could not decide what adjustment should be done in order for the calibration to succeed. This calibration status is always the result of some error condition. Taking another exposure will not help. The image may give a hint on what the problem is (e.g. no radiation, collimator severely tilted, image data corrupted…).
Pan geometry calibration Purpose: Panoramic geometry position calibration Acceptance limits: Passed / Not passed / Failed GUI informs if calibration has passed
CT Geometry calibration Purpose: Calibrates ct geometry, needed only with 3D units Acceptance limits: Passed / Not passed / Failed GUI informs if calibration has passed
Pan pixel calibration Pan pixel calibration Purpose: Panoramic sensor pixel calibration Acceptance limits: Passed / Not passed / Failed GUI informs if calibration has passed
CT pixel calibration Purpose: Performing pixel gain and dead pixel correction Acceptance limits: Passed / Not passed / Failed GUI informs when calibration is passed