飞利浦巴基诊断 X 射线系统-4
飞利浦巴基诊断 X 射线系统-4
飞利浦巴基诊断 X 射线系统-4
W
HISTORY, RECORD
SERVICE INFORMATION 6
DMC Hamburg
This document and the information contained in it is proprietary
and confidential information of Philips Medical Systems
(”Philips”) and may not be reproduced, copied in whole or in part,
adapted, modified, disclosed to others, or disseminated without
PACKING LIST 10
the prior written permission of the Philips Legal Department.
This document is intended to be (a.) used by customers and is
licensed to them as part of their Philips equipment purchase or
(b.) used to meet regulatory commitments as required by the
FDA under 21 CFR 1020.30 (and any amendments to it) and
other local regulatory requirements. Use of this document by
unauthorized persons is strictly prohibited.
Printed in Hamburg
SOFTWARE + CERTIFICATES 11
Federal Republic of Germany
(09.0)
ã 2009 Koninklijke Philips Electronics N.V.
ALL RIGHTS RESERVED
Proprietary Notice:
This document and the information contained in it is proprietary and
confidential information of Philips Medical Systems (”Philips”) and
may not be reproduced, copied in whole or in part, adapted, modi-
fied, disclosed to others, or disseminated without the prior written
permission of the Philips Legal Department. Use of this document
and the information contained in it is strictly reserved for current
Philips personnel and Philips customers who have a current and
valid license from Philips for use by the customer’s designated in−
house service employee on equipment located at the customer’s
designated site. Use of this document by unauthorized persons is
strictly prohibited. Report violation of these requirements to the Phil-
ips Legal Department. This document must be returned to Philips
when the user is no longer licensed and in any event upon Philips’
first written request.
Blank page
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Section 12:
Contents
1. General information
2.
1-1...1-2 (09.1)
General information
1. Introduction
2. Abbreviations
Abbreviation
General
AGenT Access Generator Tool
APR Anatomically Programmed Radiography
AWS Acquisition Workspot
BIST Build In Self Test
BWLM Basic Worklist Management
BWS Bucky Wall Stand
CAN Control Area Network
COM Serial port
DICOM Digital Imaging and Communication in Medicine
DiDi DigitalDiagnost
FCO Field Change Order
FRU Field Replaceable Unit
MPPS Modality Performed Procedure Step
MSB Mini System Bus
MTP Move To Position
PCB Printed Circuit Board
PDU Power Distribution Unit
PCR Philips Computerised Radiography
PMS Philips Medical Systems
POST Power On Self Test
RGDV Registration Device (auxiliary unit)
UPS Uninterruptible Power Supply
Abbreviation Explanation
Documentation
SMI System Manual Installation (Level 0 Documentation Part 1)
SRM System Reference Manual (Level 0 Documentation Part 2)
System names
DigitalDiagnost TH table and optional VM or VS wall stand
DigitalDiagnost VM VM wall stand and optional a TH-S table or TA-M trolley
DigitalDiagnost VM Compact VM Compact wall stand and optional a TA-M or Traumob-X trolley
DigitalDiagnost VR VS wall stand and optional a TA-M trolley
Essenta DR FF-M stand and optional a TA-M or Traumob-X trolley
Subsystem names
CS 2/4 Ceiling Suspension (2 = short longitudinal carriage / 4 = long longitudinal carriage)
FS fix Floor Stand fixed
TH Table Height adjustable
TH-S Table Height adjustable Single side suspended
TF-M Trolley Fixed Moveable
TA-M Trolley Height adjustable Moveable
VM Vertical Multipurpose stand moveable
VM Compact Vertical Multipurpose stand fixed
VS Vertical stand with fixed bucky module
VS tilting Vertical stand with tiltable bucky module
FF-M Floor-mounted Fixed stand Motorized
FF Floor-mounted Fixed stand
Unit names
BUF Bucky Unit Family
RO Rotalix tube (RO 1750)
SCU Segment control unit
SRO Super Rotalix tube (SRO 0951, SRO 2550, SRO 33100)
Contents
2.
Contents
NOTE
These DigitalDiagnost specific program settings are already done in the factory !
Data Set B
Used for tomo no yes no no no
Used for flouroscopy no no no no no
CT add on no no no no no
NOTE
These DigitalDiagnost specific program settings are already done in the factory !
correction factor ® 1
3. APR programs
NOTE
These DigitalDiagnost specific program settings are already done in the factory !
NOTE
For the data transfer the CAN bus cables EZX42, EZX43 and the signal bus EZX23 must be disconnected !
After successful download reconnect the CAN bus cables EZX42, EZX43 and the signal bus EZX23.
Restart the generator.
NOTE
The APR-files in the following table can only be used in the system configuration DigitalDiagnost VR-E with
BuckyDiagnost FS fix !
NOTE
For the data transfer the CAN bus cables EZX42, EZX43 and the signal bus EZX23 must be disconnected !
After successful download reconnect the CAN bus cables EZX42, EZX43 and the signal bus EZX23.
Restart the generator.
J
Contents
1.
Contents
2.
Contents
1. DigitalDiag. TH/VR/VM/VM Comp. sys. with one ceil. susp. CS or fl. stand FS 4−2
1.1. Control handle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−2
1.2. Nicol Collimator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−2
1.3. Vertical Tracking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−3
1.3.1. Tracking controller (”sandwich” PCB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−3
1.3.2. Tracking 2 controller (4512 133 02004) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−3
1.4. Longitudinal motor controller CS2/4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−4
1.5. Alpha motor controller CS2/4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−4
1.6. Bucky tray motor controller TH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−5
1.7. Bucky controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−5
2. DigitalDiagnost TH with SECOND CS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−6
2.1. Control handle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−6
2.2. Nicol Collimator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−6
2.3. Vertical tracking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−7
2.3.1. Tracking controller (”sandwich” PCB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−7
2.3.2. Tracking 2 controller (4512 133 02004) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−7
2.4. Tomo controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−8
2.4.1. Longitudinal motor controller CS2/4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−8
2.4.2. Alpha motor controller CS2/4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−8
2.4.3. Bucky tray motor controller TH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−9
2.5. Bucky controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−9
2.6. X-Scope . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4−10
Jumper UE2 W1
Pins 2−3 bridged (room 1)
CAN node name: CSU_HD1
X9
UE2 H1
3
2
1
W1 W2 W3
The jumper LA1 W1 is located behind the ruler side plate in the collimator.
Jumper LA1 W1
Pins 1−2 bridged (room 1)
CAN node name: BLD1DV1
X6
1
1
2 W1
LA1 3
MP1 −
MP2 −
X2
MP3 −
MP4 −
Jumper UAD X7
Pins 1, 2, 3, 4, 6, 7 bridged
Pins 5, 8 open
CAN node name: SLSCSD1
X6
Jumper
UAD
X7
1
1
Jumper UBN2 X7
Pins 1, 2, 3, 4, 5, 6, 7, 8 bridged
no pins open
CAN node name: TomoDv1
X6
Jumper
UBN2
X7
1 1
Jumper UFN1 X7
Pins 1, 2, 4, 5, 6, 8 bridged
Pins 3, 7 open
CAN node name: AlphDv1
X6
Jumper
UFN1
X7
1 1
Jumper SAN1 X7
Pins 1, 2, 3, 4, 5, 6, 7 bridged
Pin 8 open
CAN node name: TrayDv1
X6
Jumper
SAN1
X7
1 1
Jumper VSZ1 S1
Dip-switch 1 set to closed (room 1)
Dip-switch 2 set to open (CAN slave)
Dip-switch 3 set to closed (X-Scope)
CAN node name: RADCtl1
O
P
E
N
SZ1 8
7
6
5
4
VT−100 3 X−Scope
slave 2 master
room 2 1 room 1
S1
NOTE
All settings are only applicable in a DigitalDiagnost system with two ceiling suspensions (bucky controllers) !
X9 X9
UE2 H1 UE2 H1
3 3
2 2
1 1
W1 W2 W3 W1 W2 W3
X6 X6
1 1
1 1
2 W1 2 W1
LA1 3 LA1 3
MP1 − MP1 −
MP2 − MP2 −
X2 X2
MP3 − MP3 −
MP4 − MP4 −
X6 X6
8 8
Jumper Jumper
UAD UAD
X7 X7
1 1 1
1
Jumper UBN2 X7
Pins 1, 2, 3, 4, 5, 6, 7, 8 bridged
no pins open
CAN node name: TomoDv1
X6
Jumper
UBN2
X7
1 1
Jumper UFN1 X7
Pins 1, 2, 4, 5, 6, 8 bridged
Pins 3, 7 open
CAN node name: AlphDv1
X6
Jumper
UFN1
X7
1 1
Jumper SAN1 X7
Pins 1, 2, 3, 4, 5, 6, 7 bridged
Pin 8 open
CAN node name: TrayDv1
X6
Jumper
SAN1
X7
1 1
O O
P P
E E
N N
SZ1 8
SZ1 8
7 7
6 6
5 5
4 4
VT−100 3 X−Scope VT−100 3 X−Scope
slave 2 master slave 2 master
room 2 1 room 1 room 2 1 room 1
S1 S1
2.6. X-Scope
Differences in the programming to a DigitalDiagnost system with one ceiling suspension:
Contents
2.
5-1 (07.0)
4512 983 11451 (07.0)
4512 983 10541 (06.0)
4512 983 10551 (06.2)
4512 983 11461 (06.0)
4512 983 10571 (06.2)
Introduction:
The system status report DigitalDiagnost shows an overview of factory settings and adjustments for a specific
system.
During installation at the customer the status report must be completed by the field service engineer.
Contents:
factory field
side side
2. Programmings and adjustments
2.1. Generator
Labelling on the generator desk according to the order
Hardware key options according to the order (e.g. APR, AEC, ADC, TDC)
Jumper setting Basic Interface EZ150 and software programming AMPLIMAT sensitivity:
BuckyDiagnost CS 2/4:
Sensing function is tested
in longitudinal direction -
transversal direction -
BuckyDiagnost FS:
Sensing function is tested. -
Test images for sensing is enclosed to the report. (not for DigitalDiagnost systems) -
Correlation of X-ray field and light field is factory-set and whitin the following tolerances. ĺ
NOTE
W1 W2
The tolerances in the table are valid for a
SID+100 cm.The tolerances are linearly depending
on the SID.
In case the light field is smaller than the X-ray field
minus signs are used. L2
Edge of film
Edge of the light field
Edge of the X−ray field
min. = ............ mm
max. = ............ mm
Amplimat field rotation checked (UI and Amplimat field display) according to the user side.
Angle Tomo time in s Layer height in mm Layer height deviation " 3mm
CS / FS
40_ 1.2 / 2.0 50
40_ 1.2 / 2.0 approx. 130
40_ 1.2 / 2.0 approx. 199
Layer height
Measured deviation by 130 mm layer height (max. deviation is ±3 mm)
nominal layer height = ........ mm actual layer height = .......... mm -
Note
The layer height is adjustable with ”tid” under X-Scope. tid= .......... mm -
tid for INALFA = 69 mm
tid for ACL = 70 mm
tid for BU2 = 74 mm
tid for digital detector (750 mm table top) = 75 mm
tid for digital detector (850 mm table top) = 85 mm
jAj − jBj = v 6 mm
ÏÏÏÏÏ
A = .......... mm
B = .......... mm
ÏÏÏÏÏ
ÏÏÏÏÏ
Maximum extent of the X-ray beam
jAj + jBj = v 40 mm
ÏÏÏÏÏ
Center beam
A ........ mm B ........ mm
factory field
side side
Symmetry -
jCj − jDj = v 5 mm
C = .......... mm
D = .......... mm
C D
..........mm ..........mm
3.2. Tracking
All end stops are installed, especially at the CS rails and VM rails. -
Alignment of collimator light field and X-ray field (Modul code no.: 4512−983−10591 in the SMI) -
X-ray field limitation and positive beam limitation (Modul code no.: 4512−983−10601 in the SMI) -
X-ray field center alignment (Modul code no.: 4512−983−10611 in the SMI) -
Functional test of tube and geometry (Modul code no.: 4512−983−10621 in the SMI) -
Protective earth conductor resistances (Modul code no.: 4512−983−10661 in the SMI) -
NOTE
The requirements listed in this section may differ from the requirements of national regulations (e.g. RÖV).
Measured values outside this status report must be inside the limitation of national regulations.
Contents
3.
Country :_____________________
City :_____________________
Customer :_____________________ Room: _______________
Additional material sent with the defective DETECTOR ( mark like this : )
The detector
consists of 4
panels.
Examples:
There are 13
readout amplifiers
on each panel.
Sketch:
Comment
Detector Ser# : ..................
Date : ..................
sketch
X
WWW
Logo Address Environmental
Type No. Electr. data CE
or
DigitalDiagnost 1.x
Essenta DR
Essenta DR Compact
System labeling
Contents
3.
NOTE
All other combinations of software, firmware and PCB are not tested / released and will lead to malfunction or
do not work at all.
___________________
DigitalDiagnost
4512−983−10831_2
7−2 Application SW Workstation 1.2.3 1.3 1.3.1 1.4 1.4.1 / 2 / 3 1.5 1.5.1 SP1 1.5.2 SP1 1.5.3.1(1.5.3) 1.5.3.1
First delivery from factory Aug May May Oct May 2005 Nov 2006 March 2007 Oct 2007 Juni (April) Aug 2009
2002 2003 2004 2004 2008
NOTE
Within application SW DigitalDiagnost rel. 1.5.1 SP1 / 1.5.2 SP1 the motor controllers of a VS wallstand also
work with the firmware version rel. 2.0.3 !
___________________
NOTE
Please be aware of the different jumper- and DIP-switch settings between the PCB- and related firmware
version !
___________________
LIST OF PAGES AND MODULES ...............................................MODULE CODE NUMBER: 4512 983 11801
CONTENTS
1 Introduction ............................................................................................................................ 3
1.1 Manual history .......................................................................................................................... 3
1.2 Software CDROMs (upgrade 1.5.x 1.5.3.1)......................................................................... 3
1.3 SW Release & FW overview .................................................................................................... 4
1.4 Options 1.5.x (overview)........................................................................................................... 5
2 Compatibility........................................................................................................................... 5
2.1 Hardware .................................................................................................................................. 5
2.2 Upgrades via FCOs.................................................................................................................. 5
2.3 Backups restored to 1.5.3.x...................................................................................................... 5
2.4 Licenses ................................................................................................................................... 6
2.5 TH-S Table with new TH-S controller ( 4512-133-26541 or higher) ........................................ 6
2.6 SUN Ultra 25 (supported since release 1.5.2) ......................................................................... 7
2.6.1 Monitor connection via XVR-300 Graphics Accelerator........................................................... 7
2.6.2 PCI Interfaces (NEW type of boards only with release 1.5.2/3)............................................... 8
3 Improvements......................................................................................................................... 9
3.1 Improvements Release 1.5.3.x & BUCO 14.2 & TH-S 1.1.0/ 3.0.1 ......................................... 9
4 Known Restrictions.............................................................................................................. 12
4.1 Known Restrictions Release 1.5.3.1 only............................................................................... 12
4.2 Known Restrictions Release 1.5.3 / 1.5.3.1 ........................................................................... 12
9 Appendix ............................................................................................................................... 41
9.1 Special: Replacement Workstation SUN U10 with the SUN Ultra 25 .................................... 41
9.2 Open Boot Prom update Sun Workstation (ONLY Blades).................................................... 43
1 INTRODUCTION
Factory systems are delivered with the installed Release 1.5.3.x including customization and basic set-ups.
• Backup CD
• DIDI S+ Reader CD 1.7 (4512-133-46461)
• DVD service documentation (4512 977 00006 AA)
• FLASHit UNIT manual (4512 988 02462 AA)
All other FW versions are un-changed. Refer to the FW/SW overview page.
System delivery from Aug May May Oct May Nov 2006 Mar 2007 Oct 2007 April/june 2008
factory 2002 2003 2004 2004 2005
CAN 1.5
Tracking
Controller Motor 1.5
(CS+FS)
FW - 1.0.0
Tracking
Controller II * PCB - 4512 133 02004
(CS+FS)
FW - 2.10
Motor single
Contr. III ** PCB - 4512 130 23491 (Replacement KIT: 4512 130 23165**)
(TH+CS+FS)
Control 3.2 3.3 4.1
Handle
(CS+FS)
* Replaces the “sandwich” Vertical Controller. Sandwich (2.2/2.7) is still valid for 1.5.1/2/3.
** Replaces the “sandwich” Motor (Tomo) Controller. Sandwich (2.2/2.7) is still valid for 1.5.1/2/3.
*** For TH-S tables without CAN interface (replaces the version 1.0.0) Only required for 4512 133 26543 controllers)
**** For TH-S tables with CAN interface
• PCR S+ Reader support (Compano replaced by S+ Reader for new deliveries 2007++).
• VM horizontal motorized supported (upgrade only when CS2/4 is prepared with tomo or motorized
prepared).
• DigitalDiagnost TH-M (Height Adjustable Trolley)
• Automatic Stitching.
• Stitching Accessory (for Automatic Stitching).
• TH-S table with new TH-S Controller / CAN connected. (TH-S non CAN is also supported).
2 COMPATIBILITY
2.1 HARDWARE
Release 1.3.1:
+ FCO 712 00012/11 (=> 1.4.1) + FCO 712 00017/21 (=>1.5.1/1.5.2) + FCO 712 00028
Release 1.4.1: + FCO 712 00017/21 (=> 1.5.1 / 1.5.2) + FCO 712 00028
Release 1.5.1/1.5.2: + FCO 712 00028
SUN Blade & U25 (1.5.1/2/3) : Backups can be restored from the CDROM / USB stick or “TRANSFER”.
WARNING:
The restore of backups to another system may produce incompatibilities and as worst case sw crashes.
Different RGDVs
Different options (i.e. VarioFocus / Tomo etc)
Different APR sets (make sure to correct the generator)
Different language
2.4 LICENSES
License files of 1.5.(0) / 1.5.1 / 1.5.2 are valid for 1.5.3.x.
Systems with SCU (Segment Control Unit). TH-S table without CAN connection:
”FLASHit_THS_1_1_0.exe”
TH-S-Tables connected to DIDI Application Release 1.4.x / 1.5.x
Systems with SCU 2 (Segment Control Unit 2). TH-S table with CAN connection:
“FLASHit_THS_2_0_0.exe”
TH-S-Tables connected to DIDI Application Release 1.4.x/1.5.1 & 1.5.2
“FLASHit_THS_3_0_1.exe”
TH-S-Tables connected to DIDI Application Release 1.5.3 or higher / DiDi 2.0 or higher
The FLASHIT CDROM (4512-133-2667x) is delivered with every TH-S table & every TH-S controller.
A special rs232 adapter for the PC is used to connect via the X-Scope/AgenT cable to the TH-S controller.
This adapter is delivered with every TH-S CAN table. The FLASHit manual (4512 988 024x) contains a
pin/cable plan to manufacture the adapter locally. The content of the FLASHit cdrom can be downloaded from
INCENTER.
The delivered monitor can be connected via the DVI split-cable as VGA (adapter) or directly as DVI.
The new SUN Ultra 25 workstation (1.5.2/1.5.3++) can handle the DVI connection as well as VGA connection.
With the workstation / graphics accelerator (XVR-300) a set of adapters is delivered.
Y-Cable (splitter cable) to separate the two monitor DVI outputs to single connectors. The DIDI monitor can
be connected to any of the two outputs. (VGA requires the DVI-HD15 adapter)
Monitor connected as DVI (recommended) Monitor connected as VGA (with DVI-HD15 adapter)
2.6.2 PCI Interfaces (NEW type of boards only with release 1.5.2/3)
FOL: 4512 108 1040x/CAN: 4512 108 1038x
The CAN and FOL interface boards have a new design. They are compatible for SUN Blades and SUN Ultra25.
The connectors have the same position and are of the same type.
The old type of PCI boards (FOL: 4512 108 1010x / CAN: 4512 108 1014x) are NOT compatible with
the new U25 workstation!!!
Network cable
The network is connected to TPE0, the upper Ethernet port.
3 IMPROVEMENTS
3.1 IMPROVEMENTS RELEASE 1.5.3.X & BUCO 14.2 & TH-S 1.1.0/ 3.0.1
Acceptance Tool screen only shows the FIELD relevant tests & calibrations.
Factory related items are switched off.
Optimus 3.8 Area Dose display & transfer with 2 digits behind the comma.
S+ Reader Software update via “DIDI S+ Reader CDROM 1.7” incl. language
The S+ Reader is originally delivered with FUJI software 1.7.
The CDROM installs the “1.7 FUJI software” and creates the relevant files on the DIDI hard disk.
Reader language and the cassette units (metric/inch) can be selected during sw installation.
TH-S table loses adjustment settings (FW 2.0.0 on single board controller)
When switching off the table in most lower position, adjustment settings are temporary lost until the
table is switched off/on in a position above approx. 650 mm position. Solved with 3.0.1
Error description:
o Cassette is in the Reader Reader symbol “yellow”.
o Message: "IP read out".
o Pop-up window Acquisition data is displayed select & confirm.
o The system generates the error: “GRABBER/DISTRIBUTOR error” is displayed.
o After a short time, "storing the image" (red field in status bar).
o System is blocked for read out.
Hidden queues can be deleted manually via WFM Viewer (Work File manager)
This WFM viewer is a monitor for queues to check and delete jobs if required.
(can be partly used remotely via VNC)
Patient data inconsistencies on printed film (patient data & image data)
Solved with 1.5.3
DICOM Printer: Gray level re-calibration now produces the correct calibration image.
Auto Stitching: “Out of memory” when printing multiple composite images with DICOM print
Solved with 1.5.3
Clear Calibration does NOT requires a second re-start of the system software.
Stitching annotations
When using the annotation tool within a stitched image followed by a right-mouse click, the system
answers with a pop-up and needs to be restarted by Ctrl-Alt-Del.
Solved with 1.5.3.
4 KNOWN RESTRICTIONS
Conclusion:
OLD type RC: Limited frequency range of 2433 to 2480 MHz
Mixed RCs : Limited frequency range of 2433 to 2480 MHz
NEW type RC: Full range of 2402 to 2480 MHz
5 SOFTWARE INSTALLATION
General SW installation sequence:
User service
Password ************
Exit the Service Tool & Logout the application software from the Status Bar & login as “install”
System Logout Login: install & password Inst. Manager Re-Inst. of the application
User install
Password ************
NOTE:
Upgrading from 1.5.3 to 1.5.3.1 ONLY requires the re-installation of the Application CDROM !
_____________________________
After automatic switch OFF: WS switch ON wait for the “rotating cursor” stop & a
<OK> boot9cdrom
Proceed with the Language CDROM (if required). If the local language is English this is not required.
This procedure needs to be performed only for 1.5.2/3 systems using the Barcode Reader in combination with a
Type 7 keyboard.
The following description is only relevant if a COMPANO Reader is connected to the DIDI system.
If the connected Reader still runs the A09/A08 software it must be upgraded via the known upgrade process
from DigitalDiagnost.
IMPORTANT NOTE:
ONLY use the described sequence below to upgrade the reader software.
The upgrade via the Installation Manager cannot be used !!!
Upgrading via the original FUJI CDROM is not possible !
• Service Tool: Select “PCR Reader MUTL”. This will start a TELNET session.
mutl 0.QUIT
MAINTENANCE UTILITY FOR CR- 1.DISPLAY VERSION
IR346. 2.DETAIL
Escape INPUT/AUTO mode: VER>1
[CTRL+C] [ENTER]
If the current COMPANO software is A10 the next steps can be skipped!!
5.3.2 Install the COMPANO software from the DigitalDiagnost hard disk.
• Service Tool: Select “PCR Reader MUTL”. This will start a TELNET session.
-> mutl
MAINTENANCE UTILITY FOR CR-IR346.
Escape INPUT/AUTO mode: [CTRL+C]
[ENTER]
0.QUIT
1.LOG
2.VERSION
3.TEST
4.ELECTORICAL UTILITY
5.SCANNER UTILITY
6.MECHANICAL UTILITY
7.SOFTWARE UTILITY
8.BACKUP MEMORY INITIALIZE
9.HV OFF
>2
0.QUIT
1.DISPLAY VERSION 0.QUIT
2.DETAIL 1.LOAD SOFTWARE FROM FTP-SERV
ver> 2 2.LOAD CONFIGURATION FROM FTP-SERV
3.COMPARE SOFTWARE WITH FTP-SERV
VER>DETAIL>1 0.QUIT
1.MAIN CPU IPL
2.MAIN CPU APPL
3.MAIN CPU FT
4.SUB CPU IPL
5.SUB CPU APPL
VER>DTL>LDSFT>
• It is required to install item 1 to 5 (one after the other) from that list.
• For more details concerning the PCR Reader mutl tool please refer to the Reader Release Bulletins.
• Quit the mutl tool.
• Re-Start the PCR Reader !
5.4.1 Installation
The mechanical & electrical installation has to be performed according to the SMI and the Release Bulletin of the
S+ reader.
The reader software 1.7 is installed via the delivered “DIDI S+ Reader CD 1.7”. It not integrated anymore in the
DIDI Application package.
NOTE
Every time the DIDI Application software is re-installed, the S+ Reader sw needs to be re-installed also,
to re-create the required settings within the DIDI file system.
________________________________
Any further maintenance or service actions are to be performed via the service PC using the delivered FUJI
CDROM. This (communication-) software needs to be installed on the service laptop (CLIENT PC).
The PC needs to be connected via a switch/hub to the same network as the reader is connected.
Client
Service Laptop
For more details refer to the PCR ELEVA Release Bulletin and the original FUJI Reader documentation.
Select: S+ Reader
PCR Reader
License
READERs IP
The CDROM 4512 201 05762 installs the complete Release 1.7 S+ Reader software with a selectable language
package (English/French/Spanish/German). It is possible to select the required cassette type (units: inch/metric).
This CDROM is delivered with every S+ Reader or can be ordered separately. A download from InCenter is in
preparation (ISO Image).
Important NOTE
• Make sure the S+ Reader is connected with the DIDI system via network.
Basic IP / network addressing of S+ Reader & DIDI Workstation needs to be set correctly:
• Never switch “OFF” the S+ Reader during the update until you are asked to do so.
• Select the S+ Reader in the Customization Manager
• This procedure needs to be re-performed at anytime the IP addressing (Reader/DIDI) is changed.
Definitions:
Installation procedure:
enter: 1 <Return>
If “yes” :
Do you want to upgrade the FUJI IPL on the S-Plus (yyy.yyy.yyy.yyy) [y/n/q]
Select “yes” if you want to upgrade to 1.7 (“q” or “no” exits the sequence)
Choose language:
1: English (inch)
2: French (metric)
3: German (metric)
4: Spanish (metric)
Choose 1,2,3 or 4
Select the required language. Inch cassettes are default for English. Metric is default for the other languages.
1: Change to "Metric"
2: Keep unit (default)
S+ Reader IP
Output of the selected settings:
DIDI Workstation IP
Summary:
S-Plus IP: yyy.yyy.yyy.yyy Selected S+ Language
FTP-Server IP: xxx.xxx.xxx.xxx Cassette type (units)
Language: ENGLISH
Unit: Metric Reader APL SW
Fuji-APL: APL_V1.7
Fuji-IPL: was not upgraded. Using old one
If “YES” Output:
The installation is completed when this message is displayed (RU = Reader Unit)
# ####################### #
# Install is complete. #
# Please RU power off. #
# ####################### #
Press any key.
If the S+ Reader is used for INCH cassettes it is necessary to modify the unit mechanically.
Refer to the FUJI/PCR Eleva manuals to do so.
Installation of the
DIDI S+ Reader CD
1.7
Check &
Do you want to install: correct the
S+ network
1) FUJI Firmware APL_V1.7 settings
2) Switch into S+ Service Mode, as required
for "Client PC-Tool"
3) Quit [Default]
Select: 1
Choose language:
1: English (inch)
2: French (metric)
3: German (metric)
4: Spanish (metric)
Choose 1,2,3 or 4
The MUTL tool and the MONintor tool can be used according to the FUJI documentation with restrictions.
An improved DIDI S+ Reader Tool CDROM for DIDI is in preparation and will be released separately.
Systems with SCU (Segment Control Unit). TH-S table without CAN connection:
”FLASHit_THS_1_1_0.exe”
TH-S-Tables connected to DIDI Application Release 1.4.x /1.5.1/1.5.2/1.5.3
Systems with SCU 2 (Segment Control Unit 2). TH-S table with CAN connection:
“FLASHit_THS_2_0_0.exe”
TH-S-Tables connected to DIDI Application Release 1.4.x/1.5.1 & 1.5.2
“FLASHit_THS_3_0_1.exe”
TH-S-Tables connected to DIDI Application Release 1.5.3 or higher / DiDi 2.0 or higher
A special TH-S rs232 adapter for the PC is used to connect via the X-Scope/AgenT/XRG cable to the TH-S
controller (X23).
This adapter is delivered with every TH-S CAN table. The FLASHit manual (4512 988 024x) contains a
pin/cable plan to manufacture the adapter locally.
TH-S Controller
Laptop Direct connection on
PC X-Scope/XRG Cable TH-S Adapter the controller board
Connector: X23
PC D-sub 9 D-sub 25 D-sub 25 TH-S D-sub 9 D-sub 9 pin female.
female female male male
6.2 CALIBRATIONS
6.2.1 Detector Calibration
It is recommended to re-calibrate the detectors.
Upgrades from 1.5.x do not require the detector calibration, but it is recommended.
Required tools:
After software installation the Display Calibration Tool is already activated. If not please re-activate the tool in
the service tool.
The button :Display Calibration is now available in the Service Tools screen.
Click on Display Calibration to start the tool.
Ambient Light
6.2.3.2 Preparation
• Dim the room light as it is usually used while working with the system.
(Depends on the “normal” working conditions.)
• Set the monitors brightness & contrast to a basic position as the user works with the system.
• Make sure the settings of brightness & contrast are not changed !! This requires a re-calibration.
• No test image is required to perform the calibration !
• Sliders cannot be used ! Only keyboard inputs are allowed. (Note: “NUM PAD” is usually de-activated).
• Click on <return> / <enter> at the keyboard to enter the values.
1. Manually
This calibration is required when the light measurement is made directly on the monitor surface
(No room light influence).
Calibration Verification
1. Calibration
1. Select the first input field with the cursor.
2. Measure the light in the center of the monitor
screen / keep the probe a that position
3. Enter the measured value
4. A return lets the cursor jump to the next input field
5. Proceed with this measurement until all calibration
steps are measured.
6. Click on “Apply Calibration”.
2. Verification
7. Select the first “verification” input field with the
cursor.
8. Measure the light in the center of the monitor screen / keep the probe a that position
9. Enter the measured value
10. A return lets the cursor jump to the next input field
11. Proceed with this measurement until all verification steps are measured.
12. Click on “Apply Verification”.
Service
Terminal Raw Image
Application
Logfiles
Package Info.
Improved screen
TRANSFER
directory to
connected USB
7.1.1 Service Terminal replaces Command Tool stick.
The Service Terminal has a similar functionality as the command tool.
Use the right mouse button to enter the terminal menu.
With the right upper window button you get full screen window size.
This new tool is able to view and handle jobs / queues. The shown
jobs can be filtered by “source” / request or patient. With “delete” the
job is deleted from the queue. No patients or images are deleted.
WARNING:
When deleting storage / printing jobs, make sure that images are re-printed or restored to avoid that
non stored/printed images could be deleted during TIDY UP !!!
Re-submit:
Transfer:
The USB stick can also be used to store the zipped content of the TRANSFER directory.
Service Tools Assistance Transfer Dir to USB Stick
There is no need to mount the USB stick when using this function! The system will scan all possible ports - this
may take some seconds.
The system takes care not to delete the TRANSFER content before the data is saved to the USB stick !!
Since 1.5.3 it is possible to set-up additional default router. This is required when the (hospitals) RSN router can
not access DIDI via the standard default router.
If yes:
This menu step could not be cancelled by quit or exit. If necessary enter a DUMMY router, e.g. the primary
default router (Customization Manager).
The inserted router will be checked if it could be reached. If not, enter the primary default router from the
Customization Manager. Delete the invalid routers or redundant routers via this menu.
Important NOTE:
When changing Stitching APRs on the generator, it is extremely important to perform the APR update.
If not, the stitching sequence will be interrupted due to APR inconsistencies.
If YES: Lines indication the borders of the single images are displayed
Overlap Lines Default (going from left to right in the images).
(default= NO) The side brackets are ALWAYS visible and cannot be de-activated !
OverlapLines
Image 1 Brackets
(always visible)
Image 2
Image 3
Application re-start.
SHIFT & ALT & ESC
Officially tested & released printer prototype files (.xml) can be copied manually to this directory. This directory is
NOT part of the backup process.
Every time a Backup is re-stored a “Recovery Point” is created by the system automatically. It reverts to the
last RP when the re-store could not be completed successfully. Reverting to earlier RPs is NOT possible. The
system restore 4 times a BACKUP. When the fifth recovery is reached, the user is forced to create a NEW RP
manually or revert to the last RP.
When the system software may not start-up or crashes, it re-boots automatically up to five times.
If this is not successful a menu is shown to give you three choices to proceed:
1. Login as service:
This opens the remote service menu and gives some additional changes to solve the problem or to save several
log-files.
The separate collection of log files has bee suspended – Instead it is recommended to create a remote backup.
This backup does not include calibration data. It is zipped to “TRANSFER”
1. Login : service
2. type in : rservice
The collection/download of log files is also possible remotely via the remote menu !
Access via RSN / Network via PUTTY or WINSCP.
Mount CDROM:
1. cdrom <return>
Change pointer to the cdrom directory (1.5.2++)
2. cd /EOD <return>
Change pointer to the cdrom directory (1.5.1)
3. cd /cdrom <return>
Leave the CDROM:
4. cd <return>
Umount CDROM:
5. cdrom umount <return>
Input:
echo9“\q“9 | 9 sabredb9 ; 9date <return>
Output (example):
Mon May 26 14:25:00 2008 = INGRES Date/ Time
Mon May 26 14:25:00 CEST 2008 = UNIX Date/Time/Timezone
Both time/date settings need to be the same.
To adapt the settings always select the correct time zones first before changing the system time.
4512-983-11801 CSIP Level 0 (08.3) 7-35
(c) 2008 Koninklijke Philips Electronics N.V.
ALL RIGHTS RESERVED
DigitalDiagnost Systems Release Bulletin 1.5.3/1.5.3.1
7.15 NETWORK SET-UP (NET TAB) IN CASE OF IPS STARTING WITH 128….
Known restriction:
The (local) Customization Manager (1.5.3.x) cannot handle IP addresses starting with 128. . . . (128.xxx.xxx.xxx)
When entering this IP range, the Network IP remains empty, and the settings cannot be stored.
Probability:
The IP range starting with 128 is un-usual and expected to be very seldom. We expect a rate of less than 0,5%
of our installed base.
Workaround/solution:
A separate stand-alone Customization Manager (on CD) bypasses the locally installed CM and customizes the
system as usual. This solution will be distributed via an ISO image download. This offers the possibility to create
the required CD locally. The CD does not change the DIDI software – it is a configuration tool. Instructions will be
part of that CD image.
How to use the “Stand Alone Customization Manager 1.5.3.1” from CD:
4. Check & correct the required CM settings and press SAVE & EXIT
IMPORTANT NOTEs
When the Stand Alone CM 1.5.3.1 was used once, it is recommended NOT to use the “normal”
Customization Manager anymore. This may create internal SW conflicts.
The Stand Alone CM MUST ONLY be used for this special network situation.
_______________________________
IMPORTANT NOTE
Always use high quality blank CDROMS (high UV & scratch resistance)
_______________________________
Via the Internet Explorer you can display & print the html license paper to manually enter the licenses
into the Customization Manager.
You can burn a license CD ( Service Laptop) for direct restore via the Customization Manager.
It is sufficient to have only the customization.dat file on the CDROM to restore the licenses.
Use:
Service Tools Assistance TRANSFER to USB stick
Service Tools Assistance TRANSFER to storage medium
to store the screenshot to USB stick or CDROM.
http://pww.xray.ms.philips.com/cmt_gxr_mktg/
Direct link to Automatic Stitching (Application Guide) download from Philips IntraNet.:
http://pww.xray.ms.philips.com/cmt_gxr_mktg/attachments/pk4_966/AG_Autostitching_low_241106.pdf
The upgrade takes about 3 h including backup & restore procedures (average timing).
The upgrade keeps the detector, printer & monitor calibrations valid.
Release 1.5.3.1 corrects the “date&time bug” for 1.5.3 systems (Customization Manager).
This upgrade (FCO 71200028 installed for 1.5.3 systems) only requires installing the Application Package.
No need to install the Operating System and/or FW.
Short checklist:
9 APPENDIX
9.1 SPECIAL: REPLACEMENT WORKSTATION SUN U10 WITH THE SUN ULTRA 25
For this replacement it is helpful to transfer the U10 BACKUP (1.4.1/1.4.2/1.4.3 on OD/MOD) to the SUN U25
workstation via the procedure described in the next section.
The U25 workstation is “connector” compatible to the U10 = the existing system connectors/cables can be
plugged in directly.
Main HW differences:
1. New PCI interface boards (PCI FOL: 45121081040x / PCI CAN: 45121081038x).
2. The U25 requires min. Solaris 9 & DIDI Application 1.5.2 or higher.
3. Different mechanical size. (refer to the PRD for details)
4. Higher electrical power consumption. (refer to the PRD for details)
5. Monitor connection via DVI .
Before replacing the SUN U10 workstation by the SUN ULTRA 25, the 1.4.1/2/3 BACKUP needs to be
transferred to the SUN U25 workstation.
General procedure:
1. Disconnect the workstation from the local network. (Or use the hospital network if possible & allowed).
2. Connect both workstations via a network CROSS cable.
3. Set-Up the workstations according to the table (s) below.
4. Create a backup on the U10 (DOR) 1.4.x and keep the DOR mounted.
5. Transfer the backup via ssh / scp (U10 DOR Ultra 25 “TRANSFER”).
6. Restore the SUN U10 BACKUP (1.4.1/2/3) from the SUN U25 “TRANSFER” directory.
7. Create a new 1.5.3++ BACKUP from the SUN U25.
Note:
If the two workstations are already connected to the customers
network it is possible to perform the BACKUP transfer via that
network. You may use the already programmed IP .
If only ONE monitor for both workstations is available it needs to be connected to the workstation currently used.
Temporary, a second monitor could make it easier but is not required.
Set-Up the IP for the Use the CM Manager to set-up Set-Up the IP for the SUN U25 (Blade)
SUN U10 IP addresses & netmasks.
The U10 DOR must be Copy contents of U10 DOR / MOD (backup)
mounted !
from U10 (DOR) SUN U25 / Blade (TRANSFER)
NOTE
The OBP CDROM is not part of 1.5.3.x. This should have been installed already
by previous upgrades or FCOs.
Some SUN Blades workstation (red & silver) are delivered with an OBP (Open Boot Prom) version ≤ 4.17.1.
With Release 1.5.x an OBP Flash CDROM is delivered (12NC: 4512-133-45732). The flash procedure needs to
be performed before any new application software is installed. It is also applicable for older Releases
(1.3.x/1.4.x).
The new OBP version makes the workstation compatible with type7 keyboards and new memory types.
This procedure can be skipped when the workstation is already working with the OBP version required.
NOTE
Because of incompatibility of Sun keyboards “type7” and additional memory the OBP must be updated to
version 4.17.1. The CD-ROM contains an OBP flash procedure to update the SUN Blade 2500 red & silver. The
update takes place like the installation of an Extension Level.
NOTE
BLADEs:
Check jumper J7 to be inserted for the
flash process. Default the jumper is
inserted.
The flash process of the Open Boot Prom starts now. This takes about 2 min .
After the OBP is flashed the systems reboots. During reboot the actual OBP version 4.17.1 is displayed.
Contents
1. smit röntgen grid data sheet
2.
Absorber material:
Grid expose factor B: (Bucky−factor)
Q+K Tp
The interspace material is fiber
Table 2
Ratio 6 : 1 Grid Width
f0 18 cm 24 cm 30 cm 36 cm 43 cm
80 cm 50 − 196 cm 55 − 144 cm 59 − 124 cm 62 − 114 cm 64 − 106 cm
100 cm 57 − 386 cm 64 − 225 cm 69 − 180 cm 73 − 159 cm 76 − 145 cm
140 cm 69 − ∞ cm 79 − 630 cm 86 − 371 cm 92 − 291 cm 98 − 247 cm
180 cm 77 − ∞ cm 90 − ∞ cm 100 − 90 cm 108 − 540 cm 116 − 407 cm
Contents
10.
DigitalDiagnost
TH with 2nd CS
VM Compact
VM / VM 2
VR
TH
Overview Tube positions
Z−1.4 DigitalDiagnost VM Compact
with Single Sided Trolley TA−M X
Z−1.5 DigitalDiagnost TH (BUF)
with DigitalDiagnost VM X
Z−1.6 DigitalDiagnost VM / VM 2
with Single Sided Table TH−S X
DigitalDiagnost
TH with 2nd CS
VM Compact
VM / VM 2
VR
TH
Overview Cable lenghts
Z−4.2 DigitalDiagnost TH with SECOND CS,
BuckyDiagnost CS, BuckyDiagnost VS digital X
and Optimus RAD
Z−4.2 DigitalDiagnost VR,
BuckyDiagnost CS, BuckyDiagnost VS digital X
and Optimus RAD
Z−4.2 DigitalDiagnost VM Compact,
BuckyDiagnost CS X
and Optimus RAD
Z−4.2 DigitalDiagnost VM / VM 2
Single Sided Table TH-S, BuckyDiagnost CS X
and Optimus RAD
Z−4.2 DigitalDiagnost TH,
BuckyDiagnost CS, BuckyDiagnost VS digital X
and Optimus RAD
Z−4.4 DigitalDiagnost VR,
BuckyDiagnost VS digital, BuckyDiagnost FS Fix X
and Optimus RAD
Z−4.4 DigitalDiagnost TH,
DigitalDiagnost VM X
and Optimus RAD
DigitalDiagnost
TH with 2nd CS
VM Compact
VM / VM 2
VR
TH
Overview System connection diagrams
Z−27.1 DigitalDiagnost TH (BUF)
X
Z−27.5.1 DigitalDiagnost VM
with SCU 2, single sided table TH-S CAN X
Z−27.5.2 DigitalDiagnost VM
with SCU 2, single sided trolley TA-M X
Z−27.7 DigitalDiagnost VM Compact
with SCU 2, single sided trolley TA-M X
Z−27.8.1 DigitalDiagnost VM 2
with SCU 2, single sided table TH-S CAN X
Z−27.8.2 DigitalDiagnost VM 2
with SCU 2, single sided trolley TA-M X
Z−27.9.1 DigitalDiagnost VM 2 Upgrade
with SCU, single sided table TH-S X
Z−27.9.2 DigitalDiagnost VM 2 Upgrade
with SCU, single sided trolley TF-M X
Z−27.10 DigitalDiagnost TH (DDF),
with BuckyDiagnost VS digital X
Z−27.11 DigitalDiagnost TH (BUF),
with DigitalDiagnost VE/VT moveable X
Z−27.12 DigitalDiagnost TH (BUF),
with BuckyDiagnost VS digital X
Z−27.13 DigitalDiagnost TH (BUF),
with DigitalDiagnost VM X
Z−27.14 DigitalDiagnost VR,
with BuckyDiagnost VS digital X
Z−27.15.1 DigitalDiagnost TH (BUF) with “Second CS”,
with BuckyDiagnost VS digital X
Z−27.15.2 DigitalDiagnost TH (BUF) with “Second CS”,
with BuckyDiagnost VS digital X
S XA
basic
EZX4:1
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2' continued power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 SI
L2 switched bn
X50
from earth lekage
T1
T2
L2´ continuous power blk
N
L2 switched bn 3 SF1 X52
mains fuses N bl 5
Surge arrester
mains feeder (option) X53
L1 L1 L1
L2 ENF1:1 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3 X55 da power supply M3f
N 9890 000 02301 is ordered
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
SB1 FPCB1
digital table (TRIXELL) FOL (fibre optic link)
from
Hospital
local mains 230V/115V 50/60Hz 16A
CPCX1 D9f
R
D9f EZX42-1 CPCX11 D9m
SUN workstation dd CAN
A2 07-11-14 Kö
DigitalDiagnost TH (BUF),
BuckyDiagnost CS2/CS4
OPTIMUS RAD
System connection diagram
UXA
S
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101
VSI
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
L2 switched bn 3 VSF1
N
N bl 5
X52 da power supply SX1 M3
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VPX53 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3f da power supply
N X55
N* N ENX1101 9890 000 02301 is ordered
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
DigitalDiagnost VM
CPCX1 D9f
SUN workstation
A2 08-04-01 Kö
UXA
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 VSI
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
N
L2 switched bn 3 VSF1 X52
N bl 5
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VPX53 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3f da power supply
N X55
N* N ENX1101 9890 000 02301 is ordered
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
VP
D15m EZX31 dd amplimat chamber dd amplimat chamber VP3X31 D15f
DigitalDiagnost VM
from
Hospital
local mains 230V/115V 50/60Hz 16A
local mains 230V/115V 50/60Hz 16A
local mains 230V/115V 50/60Hz 16A
CPCX1 D9f
SUN workstation
A2 08-04-01 Kö
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 VSI
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
N
L2 switched bn 3 VSF1 X52
N bl 5
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VPX53 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3f da power supply
N X55
N* N ENX1101 9890 000 02301 is ordered
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
from
DigitalDiagnost VM
Hospital
local mains 230V/115V 50/60Hz 16A
CPCX1 D9f
SUN workstation
A2 08-04-01 Kö
UXA
S
basic
EZX4:1
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 VSI
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
L2 switched bn 3 VSF1
N
N bl 5
X52
da power supply SX1 M3
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VL1 X1 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 required if the mains transformer M3f da power supply
M3 VL1 X2 VPX53
N
ENF1:5
9890 000 02301 is ordered
X55 power supply M3
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
Safety
MIV10 VL1 X21 connection VP5X41 MIV10
from
Single Sided Table TH-S CAN
Hospital
local mains 230V/115V 50/60Hz 16A
local mains 230V/115V 50/60Hz 16A
CPCX1 D9f
SUN workstation
A2 08-04-01 Schr./Kö
UXA
basic
EZX4:1
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 VSI
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
N
L2 switched bn 3 VSF1 X52
N bl 5
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VL1 X1 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 required if the mains transformer M3f da power supply
M3 VL1 X2 VPX53
N
ENF1:5
9890 000 02301 is ordered
X55 power supply M3
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
Safety
MIV10 VL1 X21 connection VP5X41 MIV10
CPCX1 D9f
SUN workstation
A2 08-04-01 Kö
UXA
S
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101
VS
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
L2 switched bn 3 VSF1
N
N bl 5
X52 da power supply SX1 M3
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VL1 X1 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3f da power supply M3 VL1 X2 power supply VPX53 M3
N X55
N* N ENX1101 9890 000 02301 is ordered
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
Safety
MIV10 VL1 X21 connection VP5X41 MIV10
DigitalDiagnost VM 2
SUN workstation
A2 07-11-14 Kö
UXA
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101
VS
L2 switched bn X50
from earth lekage
T1
T2
L2´ continuous power blk
X51
Hospital circuit breaker T3
N bl da power supply
L2´ continuous power blk 1
N
L2 switched bn 3 VSF1 X52
N bl 5
mains fuses Surge arrester X53
mains feeder (option)
L1 L1 L1
ENF1:1 da power supply VL1 X1 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3f da power supply M3 VL1 X2 power supply VPX53 M3
N X55
N* N ENX1101 9890 000 02301 is ordered
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
DigitalDiagnost VM 2
from
Hospital
local mains 230V/115V 50/60Hz 16A
local mains 230V/115V 50/60Hz 16A
SUN workstation
A2 07-11-14 Kö
S XA
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2' continued power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 S
L2 switched bn
X50
from earth lekage
T1
T2
L2´ continuous power blk
N
L2 switched bn 3 SF1 X52
mains fuses N bl 5
Surge arrester
mains feeder (option) X53
L1 L1 L1 ENF1:1 da power supply VPIX7 M3
L2 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3 X55 da power supply M3f
N 9890 000 02301 is ordered
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
SB1 FPCB1
digital table (TRIXELL) FOL (fibre optic link)
VPX50 FPCB2
digital wall stand (TRIXELL)
FOL (fibre optic link)
from
Hospital
local mains 230V/115V 50/60Hz 16A
DigitalDiagnost TH (DDF)
with BuckyDiagnost VS digital,
BuckyDiagnost CS2/CS4
OPTIMUS RAD
System connection diagram
S XA
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2' continued power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 SI
L2 switched bn
X50
from earth lekage
T1
T2
L2´ continuous power blk
N
L2 switched bn 3 SF1 X52
mains fuses N bl 5
Surge arrester
mains feeder (option) X53
L1 L1 L1 ENF1:1 da power supply VPX53 M3
L2 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3 X55 da power supply M3f
N 9890 000 02301 is ordered
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
D9f VP3X2
R
DigitalDiagnost TH (BUF)
with DigitalDiagnost VE/VT moveable
with BuckyDiagnost CS2/CS4
OPTIMUS RAD
System connection diagram
S XA
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2' continued power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 SI
L2 switched bn
X50
from earth lekage
T1
T2
L2´ continuous power blk
N
L2 switched bn 3 SF1 X52
mains fuses N bl 5
Surge arrester
mains feeder (option) X53
L1 L1 L1 ENF1:1 da power supply VPIX7 M3
L2 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3 X55 da power supply M3f
N 9890 000 02301 is ordered
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
SB1 FPCB1
digital table (TRIXELL) FOL (fibre optic link)
VPX50 FPCB2
digital wall stand (TRIXELL)
FOL (fibre optic link)
from
Hospital
local mains 230V/115V 50/60Hz 16A
CPCX1 D9f
R
D9f EZX42-1 CPCX11 D9m
SUN workstation dd CAN
A2 07-11-14 Kö
DigitalDiagnost TH (BUF)
with BuckyDiagnost VS digital,
BuckyDiagnost CS2/CS4
OPTIMUS RAD
System connection diagram
S XA
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2' continued power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 SI
L2 switched bn
X50
from earth lekage
T1
T2
L2´ continuous power blk
N
L2 switched bn 3 SF1 X52
mains fuses N bl 5
Surge arrester
mains feeder (option) X53
L1 L1 L1 ENF1:1 da power supply VPX53 M3
L2 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3 X55 da power supply M3f
N 9890 000 02301 is ordered
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
UBN1X4 M6f
M4f safety tomo
SB1 FPCB1
digital table (TRIXELL) FOL (fibre optic link)
VPB1 FPCB2
digital wall stand (TRIXELL)
FOL (fibre optic link)
from
Hospital
local mains 230V/115V 50/60Hz 16A
local mains 230V/115V 50/60Hz 16A
CPCX1 D9f
DigitalDiagnost TH (BUF)
with DigitalDiagnost VM,
BuckyDiagnost CS2/CS4
OPTIMUS RAD
System connection diagram
Emerg.
off
EZX4:2
MEX
L2 switched bn
T1 ENK2:3/L2
L2´ continuous power blk
T2 ENF2:4/T2
T3
N
N bl
ENX1101 VSI
L2 switched bn
X50
from earth lekage
T1
T2
L2´ continuous power blk
N
N bl da power supply L2 switched bn 3 VSF1 X52
N bl 5
mains fuses Surge arrester
mains feeder (option) X53
L1 L1 L1
ENF1:1 power supply VPIX7 M3
L2 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3f da power supply X55
N 9890 000 02301 is ordered
N* N ENX1101
* X56
supply
tube housing
EX1100 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
X-ray tube
VP
D15m EZX31 dd amplimat chamber dd amplimat chamber VP3X31 D15f
CPCX1 D9f
R
D9f EZX42-1 dd CAN CPCX11 D9m
SUN workstation
A2 07-11-14 Kö
DigitalDiagnost VR
with BuckyDiagnost VS digital, BuckyDiagnost CS2/CS4 or FS fix
OPTIMUS RAD
System connection diagram
VS
XA XA
S
basic
EZX4:1
Emerg.
off
MEX EZX4:2
L2 switched bn
T1 ENK2:3/L2
L2' continued power blk
T2 ENF2:4/T2
T3
N bl
N ENX1101
SI VSI
L2 switched bn da power supply X50 X50
T1
earth lekage L2´ continuous power blk
T2
circuit breaker L2´ continuous power blk 1 X51 L2 switched bn 1 X51
T3
N bl da power supply L2 switched bn 3 SF1 X52
L2´ continuous power blk 3 VSF1 X52
N
N bl 5 N bl 5
mains fuses Surge arrester
mains feeder (option) X53 X53
L1 L1 L1 ENF1:1 da power supply VPIX7 M3
L2 X54 M3 X54
L2 L2 WN ENF1:3 * A neutral conductor is not
UZX9 UZX9
L3
L3 L3 ENF1:5 required if the mains transformer M3 X55 da power supply M3f M3f da power supply
N X55
from N* N
*
ENX1101 9890 000 02301 is ordered
X56 X56
Hospital
local mains 230V/115V 50/60Hz 16A
supply
tube housing
EWGK11 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
VS
XA XA
S
tube housing
EWGK12 XA 1
1 U
1 U 1 1
2 V
2 V 2 2
XA 3 W
3 db stator cable W
3 3
DigitalDiagnost
TH with 2nd CS
VM Compact
VM / VM 2
VR
TH
Overview System earthing diagrams
Z−28.4 DigitalDiagnost VM
with TH-S CAN or TA-M X
Z−28.6 DigitalDiagnost VM Compact
with TA-M X
Z−28.8 DigitalDiagnost VM 2
with TH-S CAN or TA-M X
Z−28.12 DigitalDiagnost TH,
with BuckyDiagnost VS digital X
Z−28.13 DigitalDiagnost TH,
with DigitalDiagnost VM X
Z−28.14 DigitalDiagnost VR,
with BuckyDiagnost VS digital X
Z−28.15 DigitalDiagnost TH with “Second CS”,
with BuckyDiagnost VS digital X
PE8
E CPE
DigitalDiagnost VM
with TH-S CAN or TA-M,
CS2/CS4 and OPTIMUS RAD
System earthing diagram
Z-28.4
4512 983 08681 CSIP Level 0 (07.0)
C Koninklijke Philips Electronics N.V.
ALL RIGHTS RESERVED
red black
UZ V
E UA
ME C VP Work-
station
VS
UXA
PE8
E CPE
DigitalDiagnost VM Compact
with TA-M,
CS2/CS4 and OPTIMUS RAD
System earthing diagram
Z-28.6
4512 983 10901 CSIP Level 0 (07.0)
C Koninklijke Philips Electronics N.V.
ALL RIGHTS RESERVED
red black
V
E UA
VL
ME C VP Work-
station
VS
UXA
S
PE8
E CPE
PE8
UXA
gn/yw PE8
UAX11
PE8
VSX13
VLX11
PE8
VPX11
PE8
SX11
DigitalDiagnost VM 2
with TH-S CAN or TA-M,
CS2/CS4 and OPTIMUS RAD
System earthing diagram
Z-28.8
4512 983 11771 CSIP Level 0 (07.0)
C Koninklijke Philips Electronics N.V.
ALL RIGHTS RESERVED
red orange
UA
E V
ME C VP Work-
station
S XA
PE8
E CPE
Digital Diagnost
with BuckyDiagnost CS2/CS4, BuckyDiagnost VS digital
OPTIMUS RAD
System earthing diagram
S XA
PE8
E CPE
Digital Diagnost
with BuckyDiagnost CS2/CS4, DigitalDiagnost VM
OPTIMUS RAD
System earthing diagram
PE8
E CPE
DigitalDiagnost VR
with BuckyDiagnost VS digital, BuckyDiagnost CS2/4 or FS Fix
OPTIMUS RAD
System earthing diagram
VS
XA XA
S
PE8
E CPE
DigitalDiagnost
TH with 2nd CS
VM Compact
VM / VM 2
VR
TH
Overview CAN / MSB Connections
Z−30.4 DigitalDiagnost VM
with SCU X
Z−30.5 DigitalDiagnost VM
with SCU 2 X
Z−30.6 DigitalDiagnost VM Compact
with SCU X
Z−30.7 DigitalDiagnost VM Compact
with SCU 2
X
Z−30.8 DigitalDiagnost VM 2
with SCU 2 X
Z−30.9 DigitalDiagnost VM 2 Upgrade
with SCU X
Z−30.10 DigitalDiagnost TH (DDF)
with BuckyDiagnost VS digital X
Z−30.11 DigitalDiagnost TH (BUF)
with DigitalDiagnost VE/VT (moveable) X
Z−30.12 DigitalDiagnost TH (BUF)
with BuckyDiagnost VS digital X
Z−30.13 DigitalDiagnost TH (BUF)
with DigitalDiagnost VM X
Z−30.14 DigitalDiagnost VR
with BuckyDiagnost VS digital X
Z−30.15 DigitalDiagnost TH (BUF)
with ”SECOND CS” X
UAD
Tracking drive
X4 X3
CAN
UE
Control
handle
LA1
X9 X10 Collimator UF
X1 X11 X3
Optimus generator
R
DigitalDiagnost VM
CAN CAN
EZ X42 X43
DigitalDiagnost
Workstation
rear
side Segment Control Unit (SCU)
CPC
CAN PCI
Card
BUF Tilt arm Vertical Remote
X11 controller controller controller controller
CAN
X1 VA X1 VP2 X3 VP1 X3 VP4 X1
X111
MSB MSB
MSB MSB
X2 X3 VS
X12 Z1 X11 X12 X13 X14
X112 Bucky
controller
X10
MSB
R
VP5 MSB connector board
A3 06-10-06 Schr.
DigitalDiagnost VM
with SCU
CAN / MSB connections
UAD
Tracking drive
X4 X3 CAN
SX9
X4 SZ1
TH-S
Controller
UE
Control
handle
LA1
X9 X10 Collimator UF
X1 X11 X3
R
DigitalDiagnost VM
Optimus generator
DigitalDiagnost CAN CAN
Workstation rear
X42-1
X43-1
EZ
side Insulation
interface X43-2 MSB
CPC Remote
Vertical Tilt arm BUF
CAN PCI
Card Segment Control Unit 2 controller controller controller controller
X11 (SCU 2) VP1 X3 VP2 X3 VA X1 VP4 X1
EZ X43
X1 Backpanel
R VS CAN
MSB MSB
MSB MSB
X2 X3 X2 X90 X1
I X13 X12 X11 X14
Z1 IF Main SCU 2
endnode
endnode
bridged, if no TH-S CAN
table is installed. S1
no endnode DigitalDiagnost VM
with SCU 2
CAN / MSB connections
UAD
Tracking drive
X4 X3
CAN
UE
Control
handle
LA1
X9 X10 Collimator UF
X1 X11 X3
Optimus generator
R
DigitalDiagnost VM Compact
CAN CAN
EZ X42 X43
DigitalDiagnost
Workstation
rear
side
CPC
CAN PCI
Card
BUF Tilt arm Vertical
X11 controller controller controller
CAN
X1 VA X1 VP2 X3 VP1 X3
X111
MSB MSB
VS MSB
Segment
X2 X3 Control
Unit (SCU)
R
X12 Z1
X11 X12 X13 X14
Bucky
X112 controller
X10
MSB
VP5 MSB connector board
A3 06-10-06 Schr.
DigitalDiagnost VM Compact
with SCU
CAN / MSB connections
UAD
Tracking drive
X4 X3 CAN
UE
Control
handle
LA1
X9 X10 Collimator UF
X1 X11 X3
R
DigitalDiagnost VM Compact
Optimus generator
DigitalDiagnost CAN CAN
Workstation rear
X42-1
X43-1
EZ
side Insulation
interface X43-2
CPC
Vertical Tilt arm BUF
CAN PCI
Card Segment Control Unit 2 controller controller controller
X11 (SCU 2) VP1 X3 VP2 X3 VA X1
EZ X43
X1 Backpanel
R VS CAN
MSB MSB
MSB
X2 X3 X2 X90
I X13 X12 X11 X14
Z1 IF Main SCU 2
endnode
Bucky controller S1
X10
W1 X4 MSB
no endnode
W11
VP5 MSB connector board
A3 07-07-06 Schr.
endnode
S1
no endnode DigitalDiagnost VM Compact
with SCU 2
CAN / MSB connections
UAD
Tracking drive
X4 X3 CAN
SX9
X4 SZ1
TH-S
Controller
UE
Control
handle
LA1
X9 X10 Collimator UF
X1 X11 X3
R
DigitalDiagnost VM 2
Optimus generator
DigitalDiagnost
CAN CAN
Workstation rear
X42-1
X43-1
EZ
side Insulation
interface X43-2 MSB
CPC Remote
Horizontal Vertical Tilt arm BUF
CAN PCI
Card Segment Control Unit 2 controller controller controller controller controller
X11 (SCU 2) VL2 X3 VP1 X3 VP2 X3 VA X1 VP4 X1
EZ X43
X1 Backpanel
R
VS CAN
MSB MSB
MSB MSB MSB
X2 X3 X2 X90 X1
I X11 X13 X12 X11 X14
Z1 IF Main SCU 2
endnode
Bucky controller S1
X10 X12 X10
W1 MSB MSB
X4 no endnode
VL1 IF Main HDU VP5 MSB connector board
W11
W1 + W11 must be
A3 07-01-22 Schr.
endnode
bridged, if no TH-S CAN
table is installed. S1
no endnode DigitalDiagnost VM 2
with SCU 2
CAN / MSB connections
UAD
Tracking drive
X4 X3
CAN
UE
Control
handle
LA1
X9 X10 Collimator UF
X1 X11 X3
Optimus generator
R
DigitalDiagnost VM 2
CAN CAN
EZ
X42 X43
DigitalDiagnost
Workstation
rear
side
CPC
CAN PCI
Card
Horizontal BUF Tilt arm Vertical Remote
X11 controller controller controller controller controller
CAN
X1 Segment Control Unit (SCU) VL2 X3 VA X1 VP2 X3 VP1 X3 VP4 X1
X111
VS MSB MSB
MSB MSB MSB
X2 X3
X120
X12
Z1 X11 X11 X12 X13 X14 endnode
Bucky
controller
X112 X10 X12 X10 S1
MSB MSB
no endnode
VL1IF Main HDU VP5 MSB connector board
A3 06-10-09 Schr.
DigitalDiagnost VM 2 Upgrade
with SCU
CAN / MSB connections
LA1
X9 X10 Collimator UF
X1X11 X3
Optimus generator
CAN
BUF Tilt Vertical Remote EZ X43 X42
controller controller controller controller
VAVA X1 VT1 X3 VP1 X3 VP4 X1
X3 X4
X11 X12 X13 X14 Jumper X15
8 4
X10
CAN
A3 06-10-09 Schr.
Note
no tomo: The connector SX90 is
plugged into SZ1 X3 DigitalDiagnost TH (DDF)
on the bucky controller
with BuckyDiagnost VS digital
CAN/ MSB connections
UFN R
X4
UE X3
Control Alpha
handle drive
LA1
X9 X10 Collimator UF
X1X11 X3
Notes DigitalDiagnost
no tomo: 1. The connector UBN2 X3
is plugged into UAD X4 (plug to plug)
VE/VT (moveable)
2. The terminator (R) is
plugged into UF X3 Optimus generator
VP3
IR / CAN
Controller
EZ X43 X42 X3
X2
R
DigitalDiagnost TH (BUF)
X4 MSB SAVAX1
SAI
IF Carriage BUF controller
CAN SAN1X3
X5 X3 Tray drive
MSB
X1
SI IF Main TH SZ1
Bucky controller
A3 06-10-09 Schr.
DigitalDiagnost TH (BUF)
with DigitalDiagnost VE/VT (moveable)
CAN / MSB connections
DigitalDiagnost
Workstation
UAD
X3 rear
X4
Notes side
Tracking
drive no tomo: 1. The connector UBN2 X3 CPC
is plugged into UAD X4 (plug to plug) X1
2. The terminator (R) is X11 R
plugged into UF X3
UFN R
X4
UE X3
Control Alpha
handle drive
LA1
X9 X10 Collimator UF
X1X11 X3
BuckyDiagnost VS digital
Optimus generator
CAN
X43-1
EZ X42-1
Insulation
interface X43-2
EZ X43
Backpanel
Remote
controller
BUF
controller
Tilt
controller
Vertical
controller
DigitalDiagnost TH (BUF)
VP4 X1 VA X1 VT1 X3 VP1 X3
X4 MSB SAVAX1
SAI
IF Carriage BUF controller
MSB MSB
CAN SAN1X3
MSB MSB X5 X3 Tray drive
MSB
X1
Jumper X15 X14 X11 X12 X13
8 4 X90
X2 CAN X3 X2 CAN
A3 07-01-22 Schr.
DigitalDiagnost TH (BUF)
with BuckyDiagnost VS digital
CAN / MSB connections
DigitalDiagnost
Workstation
UAD
X3 rear
X4
Notes side
Tracking
drive no tomo: 1. The connector UBN2 X3 CPC
is plugged into UAD X4 (plug to plug) X1
2. The terminator (R) is X11 R
plugged into UF X3
UFN R
X4
UE X3
Control Alpha
handle drive
LA1
X9 X10 Collimator UF
X1X11 X3
CAN CAN
X43-1
EZ X42-1
Insulation
interface X43-2
EZ X43
Backpanel
SAI X4 MSB SA X1
IF Carriage BUF controller
MSB MSB
CAN SAN1X3
MSB MSB X5 X3 Tray drive
MSB
X14 X11 X12 X13 X1
endnode
X90
S1 X2 CAN X3 X2 CAN
A3 07-01-22 Schr.
DigitalDiagnost TH (BUF)
with DigitalDiagnost VM
CAN / MSB connections
DigitalDiagnost
CAN
Workstation
X3
UAD
X4 rear
Tracking
drive
side
CPC
X1
X11 R
UE
Control
handle
LA1
X9 X10 Collimator UF
X1X11 X3
BuckyDiagnost VS digital
Optimus generator
CAN CAN
X43-1
EZ X42-1
Insulation
interface X43-2
EZ X43
Backpanel
VS
Jumper X15 X14 X11 X12 X13 X90
8 4
X2 CAN X3 X2 CAN
A3 07-01-22 Schr.
X10 MSB X4
I Z1
5 1
VPI Interface wall IF Main SCU 2
Bucky controller
W1
W11
endnode
DigitalDiagnost VR
with BuckyDiagnost VS digital
S1
and SCU 2
no endnode CAN / MSB connections
451298310791 CSIP Level 0 (a/07.0) Z-30.14
C Koninklijke Philips Electronics N.V.
ALL RIGHTS RESERVED
BuckyDiagnost CS UBN2
Longitudinal BuckyDiagnost CS "Second CS"
drive
CAN DigitalDiagnost
X4 X3 Workstation Segment Control Unit 2(SCU 2)
rear
UAD side VS
X3 CPC X2 X3 X2 X90
CAN CAN CAN
X4 X1 UAD
Tracking
drive X11
CAN
Z1 I X3
IF Main SCU 2 X4
Bucky Tracking
controller W1 drive
W11 CAN
endnode
UFN R
X4 S1
UE X3 UE
Control
handle
Alpha
drive no endnode X4 Control
handle
LA1 LA1
X9 X10 Collimator UF Collimator
MSB X9 X10 UF
X1X11 X3 X1 X11 X3
Notes R
EZ X43
Backpanel
MSB
X1 X13 X12 X11 X14 Jumper X15
8 4
CAN X90 X2 CAN X3 X2 CAN
X10
SZ1 MSB
SI IF Main TH Interface wall 5 1
Bucky controller
VPI
A3 07-01-22 Schr.
DigitalDiagnost TH (BUF)
with "Second CS"
and SCU 2
CAN / MSB connections
SA film plane 1
15 15
30
UA column (bucky DIAGNOST Floor Stand) 15
UB ceiling crane longitudinal carriage (bucky DIAGNOST CS)
65 15 43 38 38
UZ ceiling crane transverse carriage (bucky DIAGNOST CS)
43
VE/VT vertical DIAGNOST
VP wcb vertical DIAGNOST 12
WS wallstand
XA X-ray tube crimp pin male 2422 034 11636
wcb wall connection box 11BNC-connector crimp pin female 2422 034 11632
2432 020 00272 distance piece (M3, 11mm) 2422 034 20331
cable delivered
Cables
A68 A68 AMPLIMITE 050 68 pins
Type Description Diameter Codenumber
9f 9m gender changer 9 pins MINI-DIN 6 pin
Connection blocks da 3+1 x 1.38 mm2 8.0 mm 0722 207 03044
db 3 x 1.3 mm2 screened + yl 9.2 mm 0722 215 02054
MEX designation of connection block
1 1 dc 2 x 0.8 mm 2 6.2 mm 0722 300 01011
2 2 connection block
3 3 dd 5x2 x 0.22 mm2 screened 7.4 mm 0722 215 62001
4 4 screw junction
5 5 50 de 12x2 x 0.22 mm2 screened 9.6 mm 0722 215 51007
terminal number
df 10 x 0.5 mm 2 7.3 mm 4512 100 66451
dg 10 x 0.5 mm2 screened 7.8 mm 0722 997 07248
Earthing dh 8x2 x 0.22 mm2 screened + yl 8.4 mm 0722 215 33008
earth connection block
dk 8 x 0.75 mm 2 screened 9.6 mm
MEX designation of connection block
16 mm2
dm 6x2 x 0.75 mm2 screened 12.6 mm
5 25 2 5 earthing strip
dn 2x2 x 0.22mm2 screened com.chan. 5.6 mm 0722 215 29006
A3 03-05-12 DP/Kö
Contents
1.
Contents
2. Software License CD
3. Backup CD-R
− Workstation
− Generator
4. Service Documentation CD
6. Certificates
− CE certificate DigitalDiagnost system
− CE certificate Optimus R/F generator
− CE certificate 5-Field amplimat chamber
− ”Stammkarte“ Optimus generator