RADIOGRAPHY
LIST OF DOCUMENTATION IN THIS BINDER: Manual bucky bucky DIAGNOST TS ⊗ Subsystem Manual INALFA non non sensing bucky bucky unit
Collimator Ralco Manual Collimator
Note:
indicates document present
E
W
Philips Medical Sys System tem s D evelop evelopment ment and Manufacturing Manufacturing Centr e
INTRODUCTION AND TECHNICAL DAT
SERVICE MANUAL 704 SUBSYSTEM INSTALLATION
bucky DIAGNOST TS 9848 600 00061
Fi x
9848 600 00071
Elevation
9848 600 00081
Tomo
FAULT FAULT FINDING
REPLACEMENT
E
W
Philips Medical Sys System tem s D evelop evelopment ment and Manufacturing Manufacturing Centr e
INTRODUCTION AND TECHNICAL DAT
SERVICE MANUAL 704 SUBSYSTEM INSTALLATION
bucky DIAGNOST TS 9848 600 00061
Fi x
9848 600 00071
Elevation
9848 600 00081
Tomo
FAULT FAULT FINDING
REPLACEMENT
Bucky DIAGNOST TS
SERVICE MANUAL -- SUBSYSTEM Bucky DIAGNOST TS
Type ype No: No:
9848 9848 600 600 0006 00061 1 9848 600 00071 9848 600 00081
In case there are any questions concerning this manual, please send this LOPAD via fax to 49/(0)40/5078 2481
Author: V.
bucky DIAGNOS 2-0.1
(99.0)
2-1 2-1 ...2 ...2-- 36
(99. (99.0) 0)
2Z-- 2.0
(01.0)
A4
2Z--10 - 10 (b/03.0) A3 4512 983 06151 __________ ________________ ____________ ___________ ___________ ____________ ________ __ 3-0.1
(99.0)
3-1 ... ... 3-9 (99.0) .0) __________ ________________ ____________ ___________ ___________ ____________ ________ __ Z0-- 1
(99.0)
Z1-- 1 Z1-- 1.1
(99.0) (99.0)
A3 A3
Z1-- 2 Z1-- 2.1
(99.0) (99.0)
A3 A3
bucky DIAGNOST TS
INTRODUCTION INTRODUCTIO N AND TECHNICAL
INTRODUCTION AND TECHNICAL DATA TEXT Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1. 1.1. 1.1.1. 1.1.2. 1.1.3. 1.1.4. 1.2. 1.3. 1.3.1. 1.3.2. 1.4. 1.4.1. 142
Technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . System bucky DIAGNOST TS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Standard Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tomography table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . X-ray generator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tubes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Movements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Electrical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . X ray generator OPTIMUS 50 / 65 / 80
INTRODUCTION AND TECHNICAL DATA
bucky DIAGNO
6.
Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1
7. 7.1.
Installation materials required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1
DRAWINGS bucky DIAGNOST TS elev elevat ated ed or tomo tomo vers versio ion n for for wall wall stand stand left, left, mech mechan anic ical al dime dimens nsio ions ns . . . . . . . . . bucky DIAGNOST TS elev elevat ated ed or tomo tomo vers versio ion n for for wall wall stand stand righ right, t, mech mechan anic ical al dime dimens nsio ions ns . . . . . . . . OPTIMUS L 50, mechanical dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . bucky DIAGNOST TS fixe fixed d tab table vers versio ion n for for wall sta stand left left,, mech mecha anica ical dimen mensio sions . . . . . . . . . . . . . . . bucky DIAGNOST TS fixe fixed d tab table vers versio ion n for for wall sta stand rig right, mech mecha anical cal dimen mensio sions . . . . . . . . . . . . . . bucky DIAGNOST TS elevated or tomo version, wall clearance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . bucky DIAGNOST TS fixed table version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1Z1Z1Z 1Z1Z1Z 1Z
bucky DIAGNOST TS
1.
Technical data
1.1.
System bucky DIAGNOST TS
1.1.1. Standard Table
The bucky DIAGNOST TS is installed with the X-ray generator OPTIMUS L 50. The bucky DIAGNOST TS is characterized by: -- X-ray exposures at the horizontal patient with bucky unit. -- X-ray exposures at the horizontal patient without bucky unit. -- Patient area of table top 2400mm x 600mm (excl. the Alu profile) -- SID 1000mm to 1250mm.
INTRODUCTION AND TECHNICAL
INTRODUCTION AND TECHNICAL DATA
1.2.
bucky DIAGNOS
Tubes
Versions of the X-ray generator OPTIMUS L 50 50kW 3phase generator for 1 tube. Recommended standard tubes: RO 17 50
0.6 / 1.3 mm
R type stators only for low speed rotor control. Compatible tube housings: ROT 350 Optional tubes:
1.3.
Mechanical data
SRO 33 100 / ROT350 (for U.S.A. only) SRO 33 100 / ROT350 SRO 25 50 / ROT350 SRO 09 51 / ROT350 ”SRO” in combination with High Speed Rotor Control
9874 005 9874 005 9874 004 9890 000 9848 600
bucky DIAGNOST TS
INTRODUCTION AND TECHNICAL
1.4.2. X-ray generator OPTIMUS 50 / 65 / 80 OPTIMUS 50 Power data Mains voltage
OPTIM
3 x 400 V ±10% ( 380 V --5%, 415 V +6%) 3 x 400/440/460 V ±10% 3 x 480 V --10% +6% 3 x 190...343 V ± 10%
Mains frequency Max. mains current -- at 400 V -- at 440 V -- at 460 V -- at 480 V -- at 190 V
OPTIMUS 65
with external transformer, max. 50 kW (o 49 ... 61 Hz
145 A 135 A 125 A 120 A 300 A
190 A 180 A 170 A 160 A --
23 21 21 20
INTRODUCTION AND TECHNICAL DATA
1.5.
bucky DIAGNOS
Power supply
1.5.1. Type of power supply
For 50 kW X-ray generator a three-phase system is needed. The three-phase system must be balanced, i.e. the external conductor voltages against earth must be ab see sketch.
For reasons of operational safety and compliance with international rules, operation on three-phase mains floating or unbalanced to earth (e.g. with one phase earthed instead of the neutral point) is impermissible adequate adaptation measures have been taken! Check that the sequence of phases is correct correspon the designations L1, L2, L3. L1 3 phase WYE
X-ray installation
-- Working range 400 ... 480V measured between phases:
bucky DIAGNOST TS
INTRODUCTION AND TECHNICAL
1.5.2. Calculating the mains resistances
If possible, the sum of R1, R2 andR3 should besmaller than the RXG required.
R0
+
With higher internal mains resistances the generator output is reduced respectively.
L1
Note that the cross section of lead 25mm2.
L3
l3 must not exceed
R1 + l1
R2
+ R3 l3
< MEX
L2
-- R0 designates the mains resistance on the distributor transformer.
-- R1 is dependent upon the length of lead l1 between distributor transformer and main distributor and up cross section selected, so: R 1 = l1 x RCu -- R2 is estimated to be 15mΩ
RCu from table
INTRODUCTION AND TECHNICAL DATA
1.7.
bucky DIAGNOS
Emergency-OFF device
To be provided depending upon local regulations. There are 2 possibilities:
1. All the EMERGENCY-OFF buttons are connected in series and looped into the starting circuit (12V DC generator. 2. The EMERGENCY-OFF circuit acts on an external main contactor which switches off the power befo into the generator.
1.8.
Heat emission
Table: X-ray generator:
2.
Environmental conditions
530W 500W (the generator is air cooled using natural co
bucky DIAGNOST TS
INTRODUCTION AND TECHNICAL
3.
Measurements and weights
3.1.
Pre-installed system
Table / column (standard) Weights (kg) with shipping box
Box 1 Contents: manuals, table, table top, rails, SPS, set of cable, covers, tube, control handle, column, set of tomo devices (option)
870
Dimensions (cm) (L/W/
without shipping box
750
with shipping box
270 x 97 x 196
without shipp
265 x 89
INTRODUCTION AND TECHNICAL DATA
3.2.
bucky DIAGNOS
Transport data
3.2.1. Box dimensions
Weight Gross
870kg
Loading
816kg
Net
750kg
870kg
Dimension (L x W x H) Box
270cm x 97cm x 196cm
Pallet including loadin
265cm x 89cm x 190cm
bucky DIAGNOST TS
INTRODUCTION AND TECHNICAL
3.2.3. Unpacking
The following steps should be done by four persons. Unpacking s
Dismantle the box, remove the foil.
s
1 Remove the rails from the pallet.
s
0.5 h 0.5 h
0.5 h
2 Remove from the column the box with documents and distance tool. 1 2
s
3 Erect the column.
-- 3a Move the column approximatly 15cm to foot direction of the column.
Documents and distance tool
INTRODUCTION AND TECHNICAL DATA
s
4 Remove the box including cables from the table.
s
5 Remove the optional tomo devices from the pallet.
bucky DIAGNOS
The pallet is deviable
6
4 7
s
s
6 Remove the tube assembly from the pallet.
Remove the wooden items by removing the colored screws.
Note The gross pallet can be splitted in two sub-pallets. s
5
7 Remove the table from the pallet. Use the shoulder straps. Do not lift the table by means of the table top frame. 8 After unscrewi
the sub–pallets from the pallet
7
4 Cables
8
Table top delivered in the pallet bottom
bucky DIAGNOST TS
4.2.
INTRODUCTION AND TECHNICAL
Height adjustable 9848 600 00071 bucky DIAGNOST TS with floating table and elevator
-- Table, including column and X-ray tube carriage -- Set of floor fixing material incl. dowels for standard concrete floors -- X-ray generator OPTIMUS L 50 including operating panel -- Complete set of cables incl. plugs at both sides -- Grid -- X- tube -- Collimator -- Control handle
4.3.
Tomography 9848 600 00081 bucky DIAGNOST TS with floating table and elevator and tomo extension
-- Table including tomography attachment, column and X-ray tube carriage
INTRODUCTION AND TECHNICAL DATA -- OPTIMUS 40
bucky DIAGNOS
single or three phase
-- X-ray tube RO 17/50
9874 001 16002
-- grid 36/08 110F TS
9848 600 00821
-- grid 40/12 110F TS
9848 600 00831
-- H.V. cable, lengths = xx m
9806 402 6xx02
-- set of cables generator-- column 14 m
9848 600 01871
-- set of cables generator--table 20 m
9848 600 01901
-- set of cables table--column 20 m
9848 600 01911
-- set of cables table--column 25 m
9848 600 01921
-- TS control grip tomo and laser
9848 600 02081
-- TS control grip standard and laser
9848 600 02071
-- table top Getalit PUR (2.4m)
9890 010 02194
-- table top Getalit (2m)
9890 010 81371
4.4.2. bucky DIAGNOST VE / VT
bucky DIAGNOST TS
5.
Site planning
5.1.
Planning data
INTRODUCTION AND TECHNICAL
The preliminary planning work is restricted to the selection of the suitable room. The outfit of the room ha equipped with the conduits and pipes required and, in cases where the loading capacity of the bearing are weight of patient insufficient, the floor preparation for the table. For detailed information about loading area see Z--5. Where DIN specification are not applicable the minimum wall clearances should be determined in complia the national regulations concerned.
5.2.
Determining the site of installation
The choice of the suitable room should be based on the layout plan. For detailed information see Z--3.1, Z--3.2, Z--4.1, Z--4.2
5.3.
Floor fixing
INTRODUCTION AND TECHNICAL DATA
6.
bucky DIAGNOS
Tools
-- Groof key set for column base and transversal tube carriage
4512 590 30362
-- 25mm aluminium for AMPLIMAT adjustment -- chip-ejector for service 2422 487 89772 -- Multimeter -- Mirror (about 30 x 40 cm) -- Spring balance 0 ... 200N -- Standard set of tools -- Fork lift -- ESD antistatic kit -- Hammer drill with 12mm carbide drillbits. -- Spirit level 1m -- Service-PC -- IBM-compatible, 640 kB RAM, 3.5” floppy disk drive, with 1 serial port
bucky DIAGNOST TS
7.1.
INTRODUCTION AND TECHNICAL
Cables
Cables supplied with the system. Cable length must be ordered via catalogue depending from outfit of the H.V. cables
9806 402 6xx02
plugs:
75kVp federal standard female connectors O
length:
6 ... 20m in steps of 2 m
capacity:
155pF/m
diameter:
16.5mm
The cable length is indicated at the 9th and 10th digits of the code No. Thermal contact cable
2-wire screened for one excess temperature switch
4512 100 66151
10-wire screened for additional supervision like temperature alarm switch, buzzer, selection indicator.
0722 215 19005
Stator cable 3 x 1.31 mm 2 , screened
0722 215 02054
S XA C
E
PMA
VE
M9f
6J2
M6f
6J3A
supply
M12f 6J3B D9f
communication
7A2:J4 22 3TS1 22 23 3TS1 23 24 3TS1 24 36 3TS1 36 37 3TS1 37 51 3TS1 51 52 3TS1 52 53 3TS1 53 4 4TS2 4 5 4TS2 5
J1
AEC
interface
D9m
J3
D15m
J5
D9m
J2
D25f
basic
L1
earth lekage
switch controller
circuit breaker
by emergency switch X23
mains fuses
PMA
emergency switch
L1
X22
X23
X7 X8
N(L2) 4
Power ON bucky TS
7X11 7
7X11
(door contact)
8 10
da
X13
L2 (N) X22
power supply
230V AC
L1/N
SNX16
M6
X14
supply 4TS2:3
(bk)
4TS2:1
(rd)
4TS2:2
(wt)
XA
tube housing U V W
XA 1 1
1
2
2
3
3
db
stator cable, screened
dc
temperature switch
XF 7020
H.V. cables
XA 1
4TS2:4 4TS2:5 9HT1
O3 plugs
X-ray tube D15m 7A2:J1
SA
X1
dd
amplimat chamber
df
release
PHX1 SZ1X1
D15f
VP
S XA
Table
SN X16
4,00 mm
2
4,00 mm
2
4,00 mm
2
4,00 mm
2
4,00 mm2 4,00 mm
2
6,00 mm
2
T1 T2 61 Z1
VA SA (right) UB
6,00 mm
2
U
2,50 mm2
4,00 mm2
UE UF
2
2,50 mm
4,00 mm
XA
2
LA
bucky DIAGNOST TS
INSTALLA
INSTALLATION TEXT Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Safety regulations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.
Transport data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.1. 1.2.
Box dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Roadway . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.
Unpacking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.1.
Removal of column base from column . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.
Mounting the rails . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tomo option only . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Coarse Adjustment Tomo option only . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1. 3.2.
Insertion of column to long rail . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installation of tube arm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
bucky DIAGNOST TS
INSTALLA
Safety regulations
Only technically qualified personnel who has received the appropriate instructions and traini radiography equipment in medical applications and in particular for the installation and commiss of the bucky Diagnost TS are allowed to install, maintain and service this equipment. Therefore, instructions in this chapter are considered as a supplementary guideline for installation of the bucky Diagnost TS and are kept very briefly.
Furthermore, all personnel involved must be instructed on safety precautions with respect to radio and the related high voltage devices as well as to all other electrical low-voltage equipment. All re standards and regulations must be complied with.
The local service organisation is responsible for the safety and training of personnel and preven material damage.
INSTALLATION
bucky DIAGNOS
1.
Transport data
1.1.
Box dimensions
Weight Gross
870kg
Loading
816kg
Net
750kg 870kg
Dimension (L x W x H) Box
270cm x 97cm x 196cm
Pallet including loadin
265cm x 89cm x 190cm
bucky DIAGNOST TS
2.
INSTALLA
Unpacking
The following steps should be done by four persons. Unpacking
S
0.5 h
0.5 h
0.5 h
0.5 h
0.5 h
Dismantle the box, remove the foil.
1. Remove the rails from the pallet. Note For transportation in insufficient rooms only. See 2.1 ”Removal of column base from column”.
The column is supplied with an inserted counterweight. For transport, thecounterweight and the transverse arm are secured by a screw.
Unpacking 0.5 h
1
2 Documents and distance tool
INSTALLATION
bucky DIAGNOS
4. Remove the box including cables from the table.
The pallet is deviable
5. Remove the optional tomo devices from the pallet. 6. Remove the tube assembly from the pallet.
6
4 7
5
Remove the wooden items by removing the colored screws. Note The gross pallet can be splitted in two sub-pallets.
7
4 Cables
7. Remove the table from the pallet. Note Use the shoulder straps. Do not lift the table by means of the table top frame.
8. After unscrewing the sub-pallets from the pallet
8
Table top delivered in the pallet bottom
bucky DIAGNOST TS
INSTALLA
1.3. Release the pressure on the Beta grid (measure the distance “X” between nut and screwhead. Dimensions needed by the adjustment of reassembling).
P2
1.4. Remove the 2 Imbus (M5) screws and plate
INSTALLATION
bucky DIAGNOS
1.8. Clean running surface and thread with Isopropyl alcohol (see P4). For transport cover running surface and thread.
3
Note The stop pin pos. 3 can be removed in case of the movement of the column is impaired. (This stop pin will not be needed any longer.)
2
P4
bucky DIAGNOST TS
3.
INSTALLA
Mou Mounti nting the rails Before starting, refer to your planning room layout! (see PRB.)
S
S
S
Assemble main main rail. Depending Depending on the installation installation of the bucky wall stand (right (right or left), place the the extensio extension n rail right right or lefthand lefthand side to the main rail (see Z--1.1, Z--1.2 and Z--5).
position position of extension extension rail for bucky wall stand left
main rail
Insert Insert the screw screw (supp (supplie lied d with with system system)) with with a washe washerr and tighten with a spanner. pencil
Tomo option only
position ofextensio ofextensio for bucky bucky wall stand
INSTALLATION S
S
Place the short rail parallel to the long rail. rail. Insert the tool (1 Rail distance tool) (supplied with system) to adjust the distance of the rails.
S
Measure the distance of the rails using a rule. rule.
S
Mark the 2 fixing points points on the floor. floor.
S
Remove the rail.
S
S
S
S
S
bucky bucky DIAGNOS
Drill Drill the the 8 mm hole holess appr approx oxim imat atel elyy 75 mm deep deep inthe middle of the marked area.
position for bucky wall stand left
1
extension rail
long short
716 mm
Insert Insert the2 ancho anchorr dowel dowelss (supp (supplie lied d with with system system)) into into the holes. Move the rail back to the installation position. position. Level Level the rail using using a spirit spirit level. Use the spacer spacer if necessary. Insert Insert the screw screw only only with with washe washerr (supp (supplie lied d with with system) to the opposite side where the column is to
position for bucky wall stand right
1
extension extension rail
short
bucky DIAGNOST TS
3.1.. 3.1
INSTALLA
Insertio Insertion n of column column to long rai raill
S
Remove buffer buffer (1) from long rail.
S
Insert the column into the rail system (2). Apply extreme care when handling the ball bearings and be careful not to damage damage the microswitc microswitches hes and optical sensor B1 positioned in area 3.
S
S
S
S
Install buffer (1) to the rail system. Check Check the leveling leveling of the column column in both direction directionss using a spirit level. Use the spacers if necessary. necessary. Che Check ck whet whethe herr the the colu column mn move movess easi easily ly and and
1
INSTALLATION
S
S
bucky DIAGNOS
Route the cables from the top of the column to the left and right of the column (1). Open top cover (2) of the transversal tube arm by removing the 4 screws 1 (Allan key, 2,5 mm). Do not remove the screws (2) on top of the cover. These screws are fixing the brake rail!
1 2 1
S
S
Place the pallet with transverse arm, including tube housing and collimator, next to the column.
1
1 1
Lift up the arm and insert it into column (3).
2
bucky DIAGNOST TS
S
Fasten the cable (4) by using a Ty--Rap.
S
Connect UFX38 (3)
S
Install the cover of transverse arm (3).
S
INSTALLA
5 4
3
Install the front cover of transverse arm (5) (see previous page).
6
INSTALLATION
S
S
S
S
Route the cables on the column as shown in the figure 1. Replace top cover of the transversal tube arm. Connect X20 / X22 on stand control UB1 for standard version. Connect X20 / X21 / 22 / 23 / 24 on stand control UB1 for tomo version.
bucky DIAGNOS
bucky DIAGNOST TS
3.3.
S
S
INSTALLA
Final alignment of the column (tomo only)
Move the column to the left end position. Check the alignment of the rails by moving the column smoothly to the other end. The column must remain steadily upright over the whole length. If necessary, adjust the level of the front rail with spacers as described in Section “Mounting the rails”.
The alignment can be done either with the spirit level or with the following method:
(6) (5)
INSTALLATION
3.4.
Installation of bucky table
Note Four (4) persons are necessary to lift the table.
The bucky table is supplied as a complete unit. S
S
Remove the wooden blocks from the longitudinal side of the pallet and place them at the rear of the pallet. Remove the 4 transport screws and push them down.
Do not lift the table by means of the tabletop frame structure.
bucky DIAGNOS
bucky DIAGNOST TS S
S
INSTALLA
Remove the red screws (2) of the transport securing device of the tabletop carrier on both sides. Remove the tie-wraps form the Bucky device (1)
2
i
Figure 1
1
INSTALLATION
3.5.
S
Installation of Tomo pivot tower (tomo only)
Position tomo pivot tower towards the corresponding mounting holes at the rear side of the table.
bucky DIAGNOS
bucky DIAGNOST TS
3.6.
S
Installation of bucky-device extension (tomo only)
Mount the bucky-device extension and insert the 4 screws with washers and tooth lock washers (supplied with system). Do not support or level the free hanging end of the bucky-device extension while tightening the screws. It will self-align to the film level in a slightly tilted position when the screws are installed.
INSTALLA
INSTALLATION
Move column with extreme care in order not to damage or shear off the microswitches and the magnetic sensor while passing the cams of the tomo switch rail.
S
Adjust microswitches for center position and safety end: -- The microswitches (2) (center position) and (3) (safety limit switch) must trigger when passing their respective cams, as shown in the figure below.
S
Adjust the proper alignment of the magnetic measuring sensor: Slowly move the column along the tomo switch rail:
bucky DIAGNOS
bucky DIAGNOST TS
3.8.
INSTALLA
Installation of OPTIMUS The following items are different from the OPTIMUS generator: - Firmware TDL file - PCB low speed rotor control For further information contact the Service Innovation Department in Hamburg.
S
Place the X-ray generator cabinet in the position shown in the room layout.
S
Place the keyboard in the position shown in the room layout.
For detailed information see manual “Installation of OPTIMUS generator”. S
Check cable connectors on all PCBs (Column Controller UB1, Table Controller SZ1).
S
Route the cables from the wall connection box of the column to the X-ray generator cabinet.
S
Route the cables from the bucky table to the X-ray generator cabinet.
INSTALLATION
bucky DIAGNOS
3.8.2. Programming of APR data
The generator is pre-programmed at factory site. For RGDV programming see 2Z--2.0. If special APR assignements are needed, please, proceed as follows: S
Optimus / Program / Human interface / Predefined assignments -- without vario focus: AR 46 ENG.TDL AR 46 DEU.TDL AR 46 FRA.TDL AR 46 ESP.TDL
= = = =
English German French Spanish
-- with vario focus for RO 1750: AR 46 V ENG.TDL = English AR 46 V DEU.TDL = German
bucky DIAGNOST TS
3.9.
INSTALLA
Installation of tabletop
In rooms with sufficient space on the longitudinal side of the table: S
S
S
1
Install the tabletop from the longitudinal side. Remove end cover (1) and stoppers from one side of the tabletop. Push the tabletop along the transverse carriage.
Figure 1 Apply extreme care when handling the ball bearings.
INSTALLATION
bucky DIAGNOS
3.10. Setting to work The system is supplied fully prefabricated by thefactory. Before switching on the X-ray generator: Switch off the auxiliary mains breaker for table.
For detailed information see manual installation of the OPTIMUS X-ray generator.
S
Check the power supply for the table on the PCB SN. Always remove cassette tray before you open the tabletop Tilting the
1
bucky DIAGNOST TS S
INSTALLA
Follow the setting-to-work procedure described in the manual OPTIMUS X-ray generator XRG 90.
Programming S
Select Registration Devices
-- RGDV1 ( = registration device of the place for tables 1) -- RGDV2 ( = registration device free exposure) -- RGDV3 ( = registration device wall stand) -- RGDV4 ( = registration device free exposure)
1
INSTALLATION S
Check the functions of the bucky unit: -- bucky exposure delay
S
Check delay time of grid release with test exposure time = 4 ... 6 msec.
There must not be visible any grid line. Note:
The X-ray tube has been adjusted at factory site. Do not ADAPT the X-ray tube. In case the generator was not powered on during a longer period -- e.g. more than 2 months --, we recommend to recondition the X-ray tube. See OPTIMUS manual, section Installation, 10.1 Tube conditioning. Check coincidence of X-ray beam and light.
bucky DIAGNOS
bucky DIAGNOST TS
3.11. Adjustment procedure for tomo 3.11.1. Adjustment of the table level
S
Check whether the table-top is precisely levelled.
S
Turn on light and laser beam.
S
Adjust laser beam levelling: -- Raise the table to a position somewhat below maximum level. The distance from the laser beam to front and to rear frame of the table-top must be equal, i.e. the laser beam must be plane-parallel to the table-top. -- If not, turn laser diode slightly with adjusting screw (1).
S
Raise table-top precisely to laser beam level
INSTALLA
INSTALLATION
bucky DIAGNOST TS
3.11.3. Adjustment of tomo layer height indication S
Set the service switch (1) on thecolumn control board to service. The following message will appear on the control panel display: Service mode Diagnosis: 0
1 S
Press the key on the control panel (1). This will start the calibration menu. Now follow the instructions on the display: Service mode Move to h=0
bucky DIAGNOST TS S
INSTALLA
Leave the service switch on the column control board in position service to enter the display language.
3.11.4. Setting the display language
S
4
The service switch should be in mode service.
3 Service mode Diagnosis: 0 S
Press the key on thecontrol panel (3). The following message will appear on the control panel display:
T
T
Service mode /V
INSTALLATION
bucky DIAGNOS
3.11.5. Adjustment of the tomo axis S
S
S
S
S
S
Prerequisite: Alignment of standard equipment has been completed. Select tomo on control handle. Move column, table-top and bucky tray to the center position (the center position is reached if the 4 LED-indicators on the control handle are lit). Move transverse arm to normal position. Insert the coupling bar into central and lower swivels (1, 2). Fit the coupling bar to the column (3). The locking bolt (4) will be pushed upwards (which will unlock the ß-movement axis of the transverse arm).
4
3 2 1
bucky DIAGNOST TS
S
S
INSTALLA
Bucky device, light beam localiser and coupling bar must be aligned in a vertical plane. If necessary, align the system by adjusting central swivel (1), lower swivel (2) and position control bar.
2 1
3
INSTALLATION
S
S
bucky DIAGNOS 1
Test the safety limit switches: Move the column manually to the left and right limit switch positions. The limit switch must be triggered (I/O--LED 35 on tomo controller (PLC) lits) and the system be switched off. Initiate a tomo test cycle on the control panel: Select mode with 40° /4s. Press the key until the cycle is completed and check the following items: -- the column moves first to the left (1). -- the column moves at constant speed and without jerks (otherwise check: cable routing, rail alignment, dirt on rail surface, spring pressure, driving axle). -- the eccentric disk operates correctly (otherwise ch k li to (M 3) d siti itch UB
Coupling motor
bucky DIAGNOST TS
INSTALLA
3.12. Tomo adjustment under exposure conditions (tomo only) 3.12.1. Measurement of X-ray zone
Two exposures are to be taken on the same film. First exposure = Bucky S
Set the parameters for exposure 1 (without tomo): -- Small focus -- SID
= tomo SID
-- X-ray area
= 200 mm x 200 mm
-- Exposure values
=
40 kV / 6.3 mAs
Second exposure = Tomo S
Set the parameters for exposure 2 (with tomo):
a
1
b
INSTALLATION
bucky DIAGNOS
3.12.2. Symmetry of tomo axis
S
Position the lead plate - 100mm above the X-Ray cassette.
1
Lead p
The X-ray cassette ist positioned on the table-top. S
S
Collimate the X-ray field (1) as far as the ”hole” will be exposed during the whole tomo sweep.
¯∅
100mm
Take an exposure in center position (bucky mode) = 70 kV / 10 mAs
S
Take an exposure in tomo mode. 70 kV 2 sec 5 mA 40 . °
X-ray cassette
Table to
bucky DIAGNOST TS S
INSTALLA
Programming of symmetriy (please fill out the table) -- The following programming is selected: U On T2
High speed
Low speed
R=O ON SZ2
37V
O
33V
O
31V
O
c = .....................mm ................ O
17.5V O 15.5V O Þ
= coarse adj.
d =.......................mm c = .....................mm
................ O
13.5V O Remarks:
value for c and d in mm:
= fine adj.
d =.......................mm tested with 40 ° 40°
4 sec and 2 sec
INSTALLATION
bucky DIAGNOS
3.12.4. Tomo layer height
(Use TOMO test phantom) S
Take the following test exposures with inclined bucky tray.
Tomo angle
Tomo time
TOMO layer height -default = nominal value
Measured TOMO layer height = actual value
Deviation (+/-- 3mm max.) nom.--actual va
40°
4 seconds
45 mm
mm
40°
4 seconds
130 mm
mm
40°
4 seconds
200 mm
mm
If thedeviati
is
re tha +/- 3m
pl
te
bucky DIAGNOST TS
3.14. Acceptance test See national regulations as e.g. Röv / DOD / VA
3.15. Handing over to customer The modified system is handed over on
( date)
...................
to
( customer)
................................................
by
(system engineer)
................................................
INSTALLA
INSTALLATION
bucky DIAGNOS
3.16. Installation for tomo bar parking frame
Tomo bar
8 V D G R
7 V D G R
6 V D G R
5 V D G R
p e t 4 s e V s o D 1 1 1 e n e 0 0 n o
e e e e l o b n n n n a o o o 0 0 0 0 0 0
o n
t n e l a v i u % % % % 0 s o 0 0 e n q 5 5 5 2 n o
: : : : 5 6 7 8 e e e e m i m i m i m i t t t t o o o o m m m m o o o o : T T T T ] s [ e m i t o m o T \ A W 1 o : : : : m 1 2 3 4 o T e e e e / i m i m i m i m y t t t t k o o o o c m m m m u o o o o B T T T T
bucky DIAGNOST TS
FAULFIN
FAULTFINDING TEXT Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1. 1.1. 1.2. 1.3. 1.4. 1.4.1. 1.4.2. 1.4.3. 1.5. 1.5.1. 1.5.2. 1.6. 1.6.1.
Trouble shooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Safety regulations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Software and PLC faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Hardware and tomographic image problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Specific instructions for fault elimination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . EPROM replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Setting EPROM configuration jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Test exposure with inclined bucky tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . PLC input / output allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Digital inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Digital outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Indicator LED’s on table control board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Standard version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
bucky DIAGNOST TS
1.
Trouble shooting
1.1.
Safety regulations
FAULTFIN
Only technically qualified personnel who have received the appropriate instruction and training for radiog equipment in medical applications and for the bucky Diagnost TS in particular are allowed to install, mainta service this equipment. It is presumed that all personnel involved with trouble shooting are familiar with fault finding and repair of radiography equipment. Therefore only topics related to the process controller (PLC) and tomo specific are treated in this chapter.
Furthermore, all personnel involved must be instructed on safety precautions with respect to radiography a related high voltage devices as well as to all other electric low voltage equipment. All relevant standar regulations must be complied with.
The local service organisation is responsible for the safety and training of personnel and prevention of m damage.
FAULTFINDING
1.2. s
bucky DIAGNOS
Software and PLC faults
In order to display software error messages, set the service switch on the column control board to servic following message indicating an error code will appear on the control panel display: Service mode Diagnosis: nn
s
Follow the relevant suggestions in the table below to eliminate the disturbance.
s
Clear error message by pressing
. If the system is o.k., he following message will appear:
Service mode Diagnosis: 0 s
Contact the Help--Desk of your local service organization if the fault cannot be corrected.
M1
M2
tomo tomo motor coupling
40 20 8 °
°
8 20 40
°
°
B1
°
°
1 Format contact Tomo mode
1 2 3 4
bucky DIAGNOST TS
Code
Fault description
Possible cause
1
Communication timeout: no -- Cable to table conanswer from PIC--procestrol not correctly sors on table controller (deconnnected centralized I/O) -- Interface module on PLC defective -- RS485 bus nor correctly connected -- Jumpers on RS485 interface board not set correctly -- PIC--processors or interface module defective -- EPROM defective
FAULTFIN Suggested remedy
No
1. Check cable and plugs 2. Check position of jumpers on RS485 interface board (must be set to CLOSED, see wiring diagram Z2--6) 3. PLC--reset: s
Turn PLC off
s
Disconnect power supply cable of PLC (on the bottom, to the left of the 3 LED)
s
Switch PLC on
s
Wait a few seconds
s
Reconnect the supply cable
power
FAULTFINDING
bucky DIAGNOS
Code
Fault description
Possible cause
Suggested remedy
104
PLC Program EPROM test -- EPROM defective failure -- EPROM not correctly installed
1. Replace EPROM
PLC serial interface test fail- -- Interface module deure fective
1. Replace interface module in PLC
2. Check EPROM position (see Section EPROM replacement) -- PLC configuration incorrect 3. Check EPROM configuration (see Section Setting EPROM configuration jumper)
120
-- PLC hardware fault
2. Replace PLC
140
PLC system EPROM test -- PLC hardware fault failure
1. Replace PLC
252
Error flag is set
-- Error in PLC applica- 1. Check program release tion program (must match PLC version
No
bucky DIAGNOST TS
1.3.
FAULTFIN
Hardware and tomographic image problems
Fault description
Possible cause
Suggested remedy
Tomo sequence aborted
-- Tomo speed too low
1. See error code 30 in Section Software and PLC faults
-- see error code 30 in Section Software and PLC faults Underexposure (indication on generator control desk)
Tomo speed too high
Mains voltage too high
Objective plane level not correct
1. Check supply voltage and change transformer tap, if necessary 1. Install transductor or voltage stabilizer (contact service organization to order)
-- Calibration maladjust- 1. Check laser alignment (see ment Section Adjusting table level) Laser misalignment
2. Calibrate level sensor (see
No
FAULTFINDING
1.4.
Specific instructions for fault elimination
1.4.1. EPROM replacement s
Switch off PLC power supply.
s
Wait 1 minute, then remove the cover. Protection against static electricity: an earth strap must be connected between the wrist and the base of the columnbefore the EPROM is removed. The EPROM could otherwise be destroyed by static electricity.
s
s
Replace EPROM, pins 1 and 2 of the socket (see Figure) must be left unused. Replace cover and switch power on.
bucky DIAGNOS
bucky DIAGNOST TS
1.5.
FAULTFIN
PLC input / output allocation
1.5.1. Digital inputs Signification when LED ON Operation mode
Service mode
¡ 0
Tomo on
Calibration
¡ 1
Tomo test
Confirmation of language/level
¡ 2
Set tomo angle
Language select
¡ 3
Set tomo time
Error reset
¡ 4
Raise table top
Raise table top
¡ 5
Lower table top
Lower table top
EA--0
FAULTFINDING
bucky DIAGNOS
1.5.2. Digital outputs Signification when LED ON Tomo mode
Standard mode
¡ 32
Radiation ON command 1 (redundant)
(permanently on)
¡ 33
Radiation ON command 2 (redundant)
(permanently on)
EA--32
¡ 34
Unlock b --movement axis
¡ 35
Activate brake y-axis (column movement)
¡ 36
Release brake y-axis (column movement)
¡ 37
Disable center position locks
¡ 38
spare
¡ 39
spare
bucky DIAGNOST TS
1.6.
Indicator LED’s on table control board
1.6.1. Standard version 1.6.1.1. Signal exchange between generator and table control H12 (yellow)
Signal XG_RD_EX (Exposure) from generator (LED on = signal low)
H15 (yellow)
Signal RG_DV (device active) from generator (LED on = signal low)
H16 (red)
Signal RQ_XG_EX (Radiation on) to generator (LED on = signal low)
1.6.1.2. Power supply H17 (green)
Supply electronics 24VDC
H18 (green)
Supply light beam localiser 24VAC
H20 (green)
Supply motors 24VDC
FAULTFIN
bucky DIAGNOST TS
Drawings
Block diagram standard version
Z1--1
Block diagram tomo version
Z1--1.1
Power supply standard version
Z1--2
Power supply tomo version
Z1--2.1
Table control standard version
Z1--3
Table control tomo version
Z1--3.1
Bucky control standard version
Z1--4
EX1100
stator cable, screened
EZX3
temperature switch
H.V. cable
EG
H.V. cable
Laser (option) X41
UE
X49
brakes X35
LCD display amplimat chamber 1
EZX21
SX..
X1
UE
PH
X32
amplimat chamber
UB
brakes
tomo drive release 1
1WAX1
X1
X3
X2
See table control format contacts bucky 1
1WAX11
X40
X36
X38
VA bucky module
X2
centered
UE1
X20
X11
UF
X22
X23
brakes
X37
light
X31
X4
brakes and table height
X31
X22
X24
see Z1-7
X7
SA
UE2
UB1
X4
brakes
stand control
X21
X30
UB1
control handle
stand control
X9
SZ1 table control
X10
centered
SA
X5
See table control
footswitch
SC
2 3 2
RS 485
XP1
X5
S R
EA16/32
stand bucky DIAGNOST TS EA0
M X6
table height
see Z1-7
PLC
PGU
tomo control
SNV see Z1-2 mains 230V~
ENX2100
X16
X8
X5
SN
table height
tomo height
power supply
XA
SNV LA table bucky DIAGNOST TS
Upgrade kit Center La
UF
UE
EX1100
stator cable, screened
EZX3
temperature switch H.V. cable
EG
H.V. cable
Laser (option) X41
UE
brakes X35
LCD display
X49
UE amplimat chamber 1
EZX21
SX..
X1
X32
PH amplimat chamber
MEDIO CP release adapter (option) release 1 format contacts bucky 1
1WAX1
X1
X2
UB X3
X2
X40
X36
X38
VA bucky module
SZ3 1WAX11
brakes
tomo drive X1
X2
centered
UE1
X20
X11
UF
X22
X23
brakes
X37
light
X31
X4
brakes and table height
X31
X22
X24
see Z1-7
X7
SA
UE2
UB1
X4
brakes
stand control
X21
X30
UB1
control handle
stand control
X9
SZ1 table control
X10
X5
centered
SA
footswitch
RS 485
XP1
X5
EA16/32
SC tomo speed control
stand bucky DIAGNOST TS EA0
M X6
table height
see Z1-7
PLC
PGU
tomo control
1/2
SZ2
SNV
see Z1-2 mains 230V~
ENX2100
X16
X8
X5
SN
Upgrade kit Center La
table height
UF tomo height
power supply
XA
SNV LA table bucky DIAGNOST TS
UE
EX1100
stator cable, screened
EZX3
temperature switch H.V. cable
EG
H.V. cable
Factory adjusted Z1 ENX2100:L1
X16:1
F11
X16:1.1
L1
5A slow
mains 230V~ ENX2100:N
X16:2
F12
L1.1
X16:3
mains filter X16:2.1
N
F14
T1 230VAC
30VAC
X8:2
28VAC
1.6A slow
F5 6.3A slow
26VAC N.1
X16:4
0VAC
0VAC
X11:06
X20:06
X22:04
X31:04
X32:4
X11:08
X20:08
X22:07
X31:07
X32:3
X22:01
X31:01
X11:01
X20:01
X11:12
X20:12
H18
X8:3
5A slow X49:1
G1 L1
1
X8:4
N
F6
X49:2
+24V 4A slow
switching power supply 24VDC/5A
H17 X22:12
5
+24V
+24V
X31:12
X8:5
F2 230VAC
24VAC
X8:6
6.3A slow 24VAC
H20 0VAC
E
generator
SN
power supply
0VAC
X8:8
0VAC
SZ
table control
UB
stand control
UE
control handle
EX1100
stator cable, screened
EZX3
temperature switch H.V. cable
EG
H.V. cable
+24VDC GND
PLC
tomo control
Factory adjusted F14 ENX2100:L1
X16:1
F11
X16:1.1
L1
ENX2100:N
X16:2
F12
L1.1
X16:3
T1
6.3A slow 230VAC
30VAC
X8:2
28VAC
5A slow
mains 230V~
mains filter X16:2.1
N
F5 6.3A slow
26VAC N.1
X16:4
0VAC
0VAC
X11:06
X20:06
X22:04
X31:04
X32:4
X11:08
X20:08
X22:07
X31:07
X32:3
X22:01
X31:01
X11:01
X20:01
X11:12
X20:12
H18
X8:3
5A slow X49:1
G1 L1
1
X8:4
F6 H17
X22:12
24VDC/5A N
5
T2
X49:2
+24V 4A slow
switching power supply
+24V
+24V
X31:12
X8:5
F2 37VAC
X8:6
6.3A slow 31VAC
34VAC 230VAC
H20
31VAC 17.5VAC
F1 X8:7
6.3A slow 15.5VAC
15.5VAC 0VAC
E
generator
H19
13.5VAC 0VAC
X8:8
UB 0VAC
stand control
UE
control handle
X10:3
+24V
X10:2 X4:07
D13
SAH5 footswitch inactive SAS5
footswitch
SCS4
X4:10
U6
1
X4:11
1b
X4:12
X4:09
A
X7:7
X4:08
4 3
X7:5 X5:03
2 1
X5:02
+24V
1a
SAS21
ENABLE +24V
& JP1
U7
X7:2
ENABLE
1
X7:3
1b
X7:4
X4:02
D4 D5
2 down
DOWN
DOWN
X6:05
1
U7
K1
1
K2
1
DOWN
2 table on 1
X6:02
K4
+24V
Q7
Q9 Q9
JP3
K1 3
2
0VAC
GL1 down
4
table height on
4
off
5 0VAC
1 X6:11
4
X8:8
X6:10
24VAC
H20
2 1 Z
+24V
Q3
F2 24VAC
X9:3
X9:4
X6:06
6.3A slow
D9 D22
X6:04
X8:6
X4:05
DK 1.2 X4:03
4
safety
X4:04
D10
X6:07
SNVS9
X9:2
U1
2
2 down
ENABLE
2 1
release bucky brake
Q11
1
ENABLE
ENABLE &
SNVS8
SAS2 U6
U6
1
X9:1
Q10 +24V
X6:03
2
Q6
SWGND
+5V
+24V
+24V
ENABLE
JP2B DOWN
SNVS7
U6
+5V
1a
SAS22
X4:06
X7:6 B
5
K2
3
K4
X6:08
+
M
-
SNVM1
brake table motor
SNVY7
U6
7 1 ) e Z i v e r e d s o d m n o t a ( t s o t
X11:02
data -
16 RS485 X11:03
data +
Dk3
k3
X10:2 X4:07
D13
F4 polyswitch RXE185
SAH5
I =2A
footswitch inactive 1
1
SAS5
footswitch 1
1 3
Jumper
SCS4
U6
X10:3
+24V
X4:06
X7:6
X4:09
X7:7
X4:08
B A 4 3
X7:5 X5:03
2 1
X5:02
+ +24V
X4:10
1
Dk5
K5
U6
1a
SAS21
-
ENABLE
X4:11
1b
1
1
1
1
t s a f
4
&
w o l s
+24V
X4:12
U7
X7:2
+5V
1a
SAS22
U6
JP1
ENABLE
1
X7:3
1b
X7:4
SWGND
Q10
+5V
1
X9:1
U6
U6 up
ENABLE
ENABLE
DOWN
DOWN
&
Q6
0.5
0.5
+24V
+24V
X4:02
ENABLE
JP2B DOWN
X6:03
1
1
D4 D5
1
release bucky brake
2 down
K1
1
SAS2
1
Dk1.2 2 down
1
K6
K2
2
Q11
1
X9:2
U1
2
X4:04
SZ2
+24V
X6:05
SNVS7
2
SNVS8
down
1
on 4 1
2
off 5
X6:04
X11:07
3
K3 X11:10
4
safety
1
Tomo Motor
2 table on 1
X6:06 X6:02
K4
+24V
X8:7
6.3A slow
31VAC
H19 F2 31VAC
X8:6
slow 4 fast 5
Q9
3
down 4 up
K1 3
0VAC
+
0VAC
GL1 down 4
SNVY7
A
X5:06 X5:07 X5:08
D +5VDC
table height on 4 5
K2
2
table motor
3
K4
X6:08
+
M
-
SNVM1
X5:04 X5:05
r e l l o r t n o C C I P
brake 1
polyswitch RUE700 off
5 X8:8
X6:10
X6:11
F3
17.5VAC
H20 2 1 Z
+24V
Q7
Q9
K5
JP3
6.3A slow
X9:3
X9:4
7 1 ) e Z i v e r e d s o d m n o t a ( t s o t
Q3 F1
17.5VAC
M2
M
X6:07
SNVS9
X4:05
D9 D22
ENABLE DOWN
2
1
D10
X5:09 X5:10
EZX21:11
SX11:11
FD L CH
X1:01
EZX21:12
SX11:12
FD C CH
X1:02
EZX21:03
SX11:03
FD R CH
X1:03
EZX21:04
SX11:04
REL CH
X1:04
EZX21:05
SX11:05
PO 15/40V
X1:05
EZX21:06
SX11:06
NG 15V
X1:06
EZX21:07
SX11:07
SIGN CH
X1:07
PH
EZX21:08
SX11:08
RF 0V CH
X1:08
amplimat measuring chamber
EZX21:13
SX11:13
0V PW
X1:09
EZX21:01
SX11:01
PO 400V
X1:11
housing
housing
screen
X1:10
VA bucky module
X23 +15V
X22 4
RY2
E/WA
delay new
P1
CASS_PR
P2
generator R2 release 1 "bucky" +26V XG
WAX1:04
W1 X1:04
+26V XG
H16
+26V XG
8 +26V XG
+5V
X1:05
ACTIVE +26V XG
X3:1
+26V XG
X2:1
X20
timer ~20s
RY2
2
D1
RY1
1
T2
+15V
R8
RESET
X24
D2 +24V
X25 +24V
X3:5
+15V
X26
X2:5
+15V
XG
D5
X1:03
H11
SYNC
H15
+5V
L4 RQ_XG_PR
IC1B
timer
C7
DC/DC
WAX1:03
IC1A
FREE EXPOSURE
6
X2:7
RG_DV
7
X28 X21
3
X30
3
X2:9
L5 WAX1:05
2
+24V
+24V
R4 1
5
+26V XG
X3:6
X2:6
D3
R11
R12
C8
R13
X27
T3
R13
RQ_XG_PR
& START
+26V XG
+5V
X3:4
X2:4
OC1
D4 +24V
+15V
X29 X31
L7 XG_RD_EX
WAX1:02
JP4
X1:02
X3:3
H12
XG_RD_EX
GND XG
WAX1:01
X1:01
WAX1:07
X1:07
D6 4
5 3
JP5 RQ_XG_EX
2
X2:3
X3:2
RY1
X2:2
VA1
bucky 1
X32 X33
SYNC
bucky control XG
RY2
1 CASS_PR
EZX21:11
SX11:11
FD L CH
X1:01
EZX21:12
SX11:12
FD C CH
X1:02
EZX21:03
SX11:03
FD R CH
X1:03
EZX21:04
SX11:04
REL CH
X1:04
EZX21:05
SX11:05
PO 15/40V
X1:05
EZX21:06
SX11:06
NG 15V
X1:06
EZX21:07
SX11:07
SIGN CH
X1:07
PH
EZX21:08
SX11:08
RF 0V CH
X1:08
amplimat measuring chamber
EZX21:13
SX11:13
0V PW
X1:09
EZX21:01
SX11:01
PO 400V
X1:11
housing
housing
Screen
X1:10
VA bucky module
+15V 4
RY2
E/WA
delay new
P1
CASS_PR
P2 delay old
generator R2 release 1 "bucky" +26V XG
WAX1:04
W1 X1:04
+26V XG
H16
+26V XG
RG_DV
8 +26V XG
7
ACTIVE
timer ~20s
X3:1
+26V XG
X2:1
FREE EXPOSURE
6
RY1
1
T2
SYNC +15V
X3:5
X2:5
X3:6
X2:6
+24V
timer ~2s
+15V
XG
D3
R11
R12
C8
R13
+24V
IC2
+15V
D5 T3
R13
RQ_XG_PR +26V XG
R8
D2
X1:03
H11
2
D1
RESET
H15
+5V
L4 WAX1:03
IC1B
timer
C7
DC/DC
RQ_XG_PR
IC1A
+5V
X1:05 +26V XG
3
X2:9
X2:7
WAX1:05
2
+24V
+24V
R4 1
5 3
& START
+26V XG
+5V
X3:4
X2:4
OC1
D4 +24V
L7 XG_RD_EX
WAX1:02
JP4
X1:02
X3:3
H12
GND XG
WAX1:01
X1:01
WAX1:07
X1:07
5 3
X3:2
WAX11:01
X2:01
RY2 1 CASS_PR
RY1 SYNC
X2:2
VA1
bucky 1 SW SF CF
D6 4
JP5 RQ_XG_EX
2
X2:3
XG_RD_EX
+15V
bucky control
SCP EZX1/2 4
MEDIO CP EMX2/5/12/22 4
MEDIO CP-H EZAX1/2/3/4 4
0V
X1:4
X2:4 10R
C1
Generator 7
5
7
7
-(24)V
5
5
RDGV
100 m 63V
X1:7
X1:4
C2
100n
100n
7924 1µF 40V
K4
X1:5
0V
K4
10R
100 m X2:7 63V
X2:5
-(24)V
X1:7
RDGV
X1:5
PREP
X1:3
1N5060
3
3
3
PREP
1µF 40V
K3
X1:3
K3
10R
X2:3
1N5060
2
1
2
1
X1:2
2
1
EXP
X1:1
1µF 40V
K2 1N5060
10R
K1
K2 K1
SZ3 Interface SCP: Programming for EZ X1/2 see EZ106 and EZ102 see B22 and B23 for W40/W41
X2:2
X1:2
10R EXP X2:1
X1:1
SCP EZX1/2 4
MEDIO CP EMX2/5/12/22 4
MEDIO CP-H EZAX1/2/3/4 4
0V
X1:4
V1
MP1 0V
R1
C5 100 m 63V
Generator 7
7
7
-(24)V
X1:7
X2:4 C1 100 m 63V
C2 100n 63V
A1
V2
2 MP2 -24V AC
5
5
5
RDGV
X1:5
3
3
3
PREP
X1:3
2
X1:2
2
EXP
V10
K1
V6
V5
MP6 PREP
K3
V4
K2 R8
MP5 RGDV
K4
X2:5
RDGV
X2:3
PREP
R4
C8
H3 2
MP4 -24V DC
K3 R7
V9
-(24)V
R5
C7
H2
R10 X2:7
K4 R9
V8
H5
C3 100 m 63V
V7
C6
H4
1 GND 3 Vin Vout
C4 100n 63V
0V
MP7 EXPout
K2
X2:2
R3
K1
H1
V3
X1:2
b b
UES21
+5V
U5
+24V
X35:3
z
x
X36:1
X38:1
X36:2
X38:2
X36:3
X38:3
X36:4
X38:4
X36:5
X38:5
X36:6
X38:6
X36:7
X38:7
X36:8
X38:8
U3
+5V
U7
H2
D1
X1:02
X40:02
U6
LED_Y
+24V
driver
a +5V
UES26
+5V
y
X1:12
X40:12
X1:24
X40:24
X1:21
X40:21
+5V +24V +5V
UES25
U3
+5V X35:7
U5
U8
U6
S25 +24V
UES20
+5V X35:2
U5
DC/DC
+24V
X31:9
+24V
U6
U7 D1
X1:01
X40:01
1
+5V
S20
+5V
H1
1
X37:1
U3 X37:2
LED_X
clock
driver
generator
UES23
+5V X35:5
U6
U5
+24V
X37:3
1
X37:4
S23
U4 +5V
U7
H4
D1
X1:04
X40:04
LED_Z
driver
UES24
+5V
r e l l o t n o c
U5
o r c i m t i b 6 1
X35:6
+5V X1:05
X40:05
LED_ a
UES22
+5V see Z1-2
X35:4
X22:11
X31:02
X22:02
X31:10
X22:10
X31:09
X22:09
JP1
U6
U5
S22
+5V
U7
H3
D1
X1:03
X40:03
LED_ b
UB1 stand c
LED_ b
driver +5V
H7
X31:11
U3
U7
H5
Upgrade kit Center Laser
LED_ b
U7 active
D1
X1:07
X40:07
LED_ACTIVE
ACTIVE = Tube select
driver
X49:1
X1:1 5V DC
X49:2
0V X1:2
X32:5
X1:5
M4
X32:6
X1:6
M3
Laser *
+5V
time
Q1/Q2
S8 X1:08
X40:14
LIGHT ON
LIGHT ON
UE1
timer X35:1
b b
UES21
+5V X35:3
U5
+24V
S21
X36:1
X38:1
X36:2
X38:2
X36:3
X38:3
X36:4
X38:4
X36:5
X38:5
X36:6
X38:6
X36:7
X38:7
X36:8
X38:8
U3
x
z
X41:14
a
X41:01
U6
LED_Y
+24V
VCL +24V
UES26
U3
X41:09
y UES25
+5V X35:7
U5
UES20
+5V
U6
U8
S25 +24V
X35:2
U5
DC/DC
+24V
1
+5V X31:9
S20 +24V
X41:15
1
U6
LED_X
X37:1
U3 X37:2
clock
UES23
+5V X35:5
generator
U5
U6
S23
+24V
X37:3
1
X37:4
U4 X41:11
UES24
LED_Z
tomo control handle
+5V X35:6
U5
S24 EPLD LED_b
X41:13
Upgrade kit Center Laser
X31:11
X22:11
X31:02
X22:02
X31:10
X22:10
X31:09
X22:09
LED_a
U3
UES22
+5V see Z1-2
X35:4
U5
JP
S22
U6 X41:12
LED_b
X41:13
LED_ACTIVE
X41:08
LIGHT ON
LED_b
ACTIVE = Tube select
UB1 stand c
X41:07
(2x10)
X41:06
UE1
X34
Laser *
X49:1
X1:1 DC
X49:2
0V X1:2
signal converter X41:03
time
MAX 232
LIGHT ON
X32:5
X1:5
M4
X1:6
M3
timer X35:1
X32:6 X41:04
X41:05
X41:02
n o o
b b
UES21
+5V X35:3
U5
+24V
S21
X36:1
V
X36:1
1
U3 X36:2
X36:2
X36:3
X36:3
X36:4
X36:4
X36:5
X36:5
X36:6
X36:6
X36:7
X36:7
X36:8
X36:8
X36:9
X36:9
R1
x
z
X41:14
a
X41:01
U6
LED_Y
+24V
VCL +24V
UES26
UES25
+5V X35:7
U5
UES20
+5V
U6
U8
S25 +24V
X35:2
U5
DC/DC
+24V
R2
+5V
S20 +24V
X41:15
V2
U3
X41:09
y
U6
LED_X
X37:1
UE3
U3
Brake amplifier
X37:2 clock
UES23
+5V X35:5
generator
U5
U6
S23
+24V
X37:3 X37:4
U4 X41:11
UES24
LED_Z
tomo control handle
+5V X35:6
U5
S24 EPLD LED_b
X41:13
Upgrade kit Center Laser
X31:11
X22:11
X31:02
X22:02
X31:10
X22:10
X31:09
X22:09
LED_a
U3
UES22
+5V see Z1-2
X35:4
U5
JP
S22
U6 X41:12
LED_b
X41:13
LED_ACTIVE
X41:08
LIGHT ON
LED_b
ACTIVE = Tube select
UB1 stand c
X41:07
(2x10)
X41:06
UE1
X34
Laser *
X49:1
X1:1 DC
X49:2
0V X1:2
signal converter X41:03
time
MAX 232
LIGHT ON
X32:5
X1:5
M4
X1:6
M3
timer X35:1
X32:6 X41:04
X41:05
X41:02
n o o
EZX22:11
X4:11
FD L CH
X1:01
EZX22:12
X4:12
FD C CH
X1:02
EZX22:03
X4:03
FD R CH
X1:03
EZX22:04
X4:04
REL CH
X1:04
EZX22:05
X4:05
PO 15/40V
X1:05
EZX22:06
X4:06
NG 15V
X1:06
EZX22:07
X4:07
SIGN CH
X1:07
PH
VA
EZX22:08
X4:08
RF 0V CH
X1:08
amplimat measuring chamber
EZX22:13
X4:13
0V PW
X1:09
bucky unit "Inalfa"
EZX22:01
X4:01
PO 400V
X1:11
housing
housing
screen
X1:10
X23
VA2 sensing
X22
RY2
+15V
4
5
CASS_PR
E/WA
VP
generator
delay new
wall connection box
R2
tilt switch X20
2
3
IC1A timer
C7 release 2 "BWS" +26V XG
WAX2:04
WAX2:07
2
IC1B
D1
timer ~20s
T2
RY1
1
SYNC +15V
R8
RESET
X24 X1:1
X2:1
D2
4 +24V
X1:5
X2:6
X1:4
X2:4
X1:3
X2:3
timer ~2s
+15V
D3
R11
R12
C8
R13
X25
2
S1 1
X26
X2:5
X1:6
+24V
IC2
+15V
DC/DC GND XG
X30
+24V
R4
1
X28 X21
P2 delay old
P1
W1
+24V
3
1
D5
Y1 X27
T3
R13
2
& START
XG_RD_EX
WAX2:02
OC1
D4
+15V
+24V
X29
X31 4
RQ_XG_EX
WAX2:01
X1:2
X2:2
5 3
RY1 SYNC
2
D6 1
VA2 sensing
RY2 CASS_PR
X32
shielding
UB1
X11:01
X20:09
X11:02
X20:02
X21:03
X11:03
X20:03
X21:04
XS:12
X11:04
X20:04
X21:05
EA32:0
X11:05
X20:05
X21:06
EA32:1
X11:06
X20:06
X11:08
X20:08
X11:01
X20:01
X11:12
X20:12
stand control
RS485 data RS485 data + Rad on1 Rad on2 U finder 1 U finder 2 24VDC GND
X11:07
device active
XS:11
data data +
EA32:8
W28
EA32:9
Rad on1 Rad on2
PGU:1
PGU:3 PGU:8 PGU:9
24VDC GND
24V
EA0:0 EA0:1
GND
X20:07
Umt 2+ Umot 2-
W27
W27
X21:02
XPI:+
24VDC
X11:10
X20:10
X21:15
XPI:-
X11:11
X20:11
X21:07
XPI:INB1
X21:08
XPI:INB2
X21:09
EA32:2
X21:10
EA32:3
X21:01
EA32:4
X21:14
EA32:5
W20
SZ1
GND interrupt1 interrupt2 release clutch
table control
EA0:2 EA0:3 EA0:4 EA0:5 EA0:6 EA0:7
K2 finder 4061.9024
EA0:8 brake Y
EA0:9
EA16:9 X21:11
EA16:8
X21:12
S1
service switch Nikkai/SS-12 SDP2
PLC tomo control
X21:13
EA16:1 EA16:3 EA16:0
W28
R2
R1
1R (1W)
1R (1W)
C1
C2
1.5U 100V
1.5U 100V
K1
X22:04
W30
X31:04
X22:07
X31:07
X22:01
X31:01
X22:12
X31:12
U finder 1 U finder 2 24V GND
JP1
Jumper
F1
R3 (1W)
PS 102R (DO-41)
C4
C3
1.5U 100V
1.5U 100V
GL1
X22:06
D1
polyswitch 1.85A
R 1
R 1
R4
(1W)
~ ~ rectifier + -
W31
X31:06
X22:08
X31:08
X22:02
X31:02
X22:03
X31:03
X22:05
X31:05
X22:10
X31:10
X22:11
X31:11
X22:09
X31:09
release brakes locks off brake Y spare device active sensor Y sensor beta shielding
UE control handle
X23:01
X23:02
X23:03
X23:04
X23:05
X23:06
X23:08
X23:07
X23:09
X23:10
X23:11
X23:12
X24:1
X24:2
X24:3
X24:4
X24:5
X24:6
X24 1
X24 2
X24:3
X24:4
X24 5
X24 6
bucky DIAGNOST TS
Drawings
Survey of components tomo version
Z2--1
Wiring diagram table standard version
Z2--2.1
Wiring diagram table tomo version
Z2--2.2
Wiring diagram stand standard version
Z2--3.1
Wiring diagram stand tomo version
Z2--3.2
Wiring diagram stand standard version
Z2--3.3
Wiring diagram control handle tomo version
Z2--4.1
Wiring diagram control handle standard version
Z2--4 2
XA
UE
LA
SB SA
PH
VA
SA
SAY2a
SAY2b
SAS22 1a 1 1b
SZ1X7:2 SZ1X7:3 SZ1X7:4
GY PK BU
2
1
7 0 : 4 X 1 Z
6 0 : 4 X 1 Z
S
PH
VA
3 B 4
VAX2
bucky module
S
SAY1 SZ1X7:5 SZ1X7:6 SZ1X7:7
2
1
3 : 0 1 X 1 Z
2 : 0 1 X 1 Z
WH BN GN
WH BN
SZ1X9:1 SZ1X9:2
SAS21
S
SZ1X3
transverse carriage
S3
4
S
1 8 0 : 4 X 1 Z
SAS2/H2
SA
1
2 9 0 : 4 X 1 Z
S
S
SAS5/H5
SAY3
generator
X1
2
2
1
3 : 9 X 1 Z
4 : 9 X 1 Z S
S
Identitication of LED´s see chapter 4 "Trouble shooting" GY
SZ1X6:06
1 4
PK
SZ1X6:07
S9
H12
2
10
H15
H11
09
JP2B
JP2A H17 X8 BN
SZ1X6:03
1 4
WH
SZ1X6:02
SNT1:24VAC
2
SNT1:0VAC
S7
SNG1:+24V
1
SNG1:0V SNT2:37VAC SNT2:17.5VAC SNT2:0VAC
2 3 4
H18
+24V
07 06
24VAC
F5
X2
6.3A slow
6
10A slow
05
1WAX2
3 : 6 1 X
4 : 6 1 X
04
H16
03
+26V XG
02
JP5
01
F6 4A slow
F2
8
08
JP1
5 7
H11 = RQ_XG_PR H12 = XG_RD_EX H15 = ACTIVE
X11
UB1X20 1
JP4
SZ1
F1
N.1
Z1
table control
10A slow
N
X10
H20 24VAC
YE
GN
SZ1X6:04
X9
2 : a 2 Y A S
1
2
3
4
1
2
3
4
1 : 3 S A S
4 : 3 S A S
2 : 1 Y A S
1 : 1 Y A S
S8
X6
7
0 1
4
8
8
9
4
5
6
1
2
3
1 1
2 1
LINE L1
5 9
3 : 4 : : 6 6 6 1 1 1 X X X
1 . . : 1 2 6 1 : : 6 1 6 1 X 1 X X
10
X3
09
L1 N
08
VAX2
07
G1
06 05
X5
X1
3 1
4 1
5 1
3 1
4 1
5 1
0 1
1 1
2 1
0 1
1 1
2 1
04 03
7
8
9
7
8
9
7
8
9
4
5
6
4
5
6
4
5
6
1
2
3
1
2
3
1
2
3
1WAX1 3 : 4 : 6 6 1 1 X X
02 01
JP6
1
3 7
1
X7
yw SZ1X6:10 SZ1X6:11 gn
2
6
X4
2 4
1
1 : a 2 Y A S
JP3
SZ1X6:05
L1.1 LOAD
6 : 8
X 1 N S
C C C A A A V V V 0 5 0 3 1 2 1
C A V 0 3 2
T2
Y1
2
SNV
X7:1 X7:2
screen SAS22:1a SAS22:1
X6:01 X6:02
screen SNVS7:1 SNVS7:2
X4:01 X4:02
screen SAS2:1 SAS2:2
X5:01 X5:02
screen SCS4:1 SCS4:2
8 : 8
X 1 N S
C A V 0
SAY2b
SAY2a
SAS22 1a 1 1b
SZ1X7:2 SZ1X7:3 SZ1X7:4
gy pk bl
SZ1X7:5 SZ1X7:6 SZ1X7:7
wt bn gn
2
1
7 0 : 4 X 1 Z S
6 0 : 4
PH
VA
3 B 4
VAX2
bucky module
X 1 Z S
SAS5/H5
SAY1 wt bn
SZ1X9:1 SZ1X9:2
1
2
1
2 : 0 1 X 1 Z S
9 0 : 4 X 1 Z S
8 0 : 4
SAS21
X 1 Z S
SZ1X3
transverse carriage
S3
4
2 3 : 0 1 X 1 Z S
SAS2/H2
SA
1
SAY3
generator
X1
2
2
1
3 : 9
X 1 Z S
4 : 9
X 1 Z S
Identitication of LED´s see chapter 4 "Trouble shooting" gy
SZ1X6:06
1 4
pk
SZ1X6:07
S9
H1
H3
H5
H7
H9
H10
H12
H14
2
H2
H4
H6
H8
H11
H13
10
H15
09
JP2A H17 X8 bn
SZ1X6:03
4 wt
SZ1X6:02
SNT1:24VAC
2
SNT1:0VAC
S7
SNG1:+24V
1
SNG1:0V SNT2:37VAC SNT2:17.5VAC SNT2:0VAC
1 2 3 4 5 6 7 8
JP2B
H11 = RQ_XG_PR H12 = XG_RD_EX H15 = ACTIVE
H18
wt
bn gn
SZ1X5:09
06
F5
X2
6.3A slow
SZ1X5:10
P1
X11
UB1X20
SZ1X6:05
10A slow
1
SZ1X6:04
10A slow
X10
H19
X9
gn
SZ1X6:11
1
1
1 : a 2 Y A S
2 : a 2 Y A S
1
2
3
4
1
2
3
4
1 : 3 S A S
4 : 3 S A S
2
6
JP5
01
S8
X6
8
9
5
6
1
2
3
JP6
4
8
N.1
L1.1 LOAD
Z1
N
LINE L1
1 . 2 :
1 . 1 :
5 9
10
: 6 6 1 1 X X
09
3 : 4 : : 6 6 6 1 1 1 X X X
6 1 X
L1 N
08
VAX2
07 2 1 : : 1 1 Y Y A A S S
G1
06 05
X5
X1
3 1
4 1
5 1
3 1
4 1
5 1
0 1
1 1
2 1
0 1
1 1
2 1
0 1
1 1
2 1
7
8
9
7
8
9
7
8
9
4
5
6
4
5
6
4
5
6
1
2
3
1
2
3
1
2
3
1
4
3 7
X3
X4
7
SZ1X6:10
3 : 6 1 X
4 : 6 1 X
1WAX2
table control
X7
yw
02
JP4
SZ1
F1
2 4
gn
03
F2
24VAC
yw
H16 +26V XG
F6 4A slow
H20
2
05 04
3 1
07
2 4V AC
JP3 SZ1X5:08
08
JP1 + 24 V
1WAX1
04
3 : : 4 6 6 1 1 X X
03 02 01
C A V 0 3 2
6 : 8
X 1 N S
C C A A V V 5 0 1 1
C A V 0 3 2
T2
Y1
2
SNV
X7:1 X7:2
screen SAS22:1a SAS22:1
X6:01 X6:02
screen SNVS7:1 SNVS7:2
X4:01 X4:02
screen SAS2:1 SAS2:2
X5:01 X5:02
screen SCS4:1 SCS4:2
8 : 8
X 1 N S
C A V 0
X38:7 X38:8 1
4
wt bn
2
S14 1 : 8 3 X
2 : 8 3 X
X38 1
Y4:1
2
Y4:2
3
S12:1
4
S12:4
5
Y6:1
6
Y6:2
1
UE2X37:3 GN UE2X37:4 YE
2
1
7
S14:1
8
S14:4
Y4
4
1 : 7 3 X 2 E U
2 : 7 3 X 2 E U
1
2
2
S13
a Y5 X38:3 X38:4 1
UE2X36
4
wt bn
x
5 : 8 3 X
x
UF
2
S12
UE
tube arm
control handle
see Z2-4
6 : 8 3 X
a 1
2
Y6
UF tube arm
z
SZ1X11
UB1X24:2 UB1X24:1
UB
1
4
2
wt bn
UE2X31
0 1
1 1
2 1
0 1
1 1
2 1
7
8
9
7
8
9
4 1
5 2
6 3
4 1
5 2
6 3
X20
UB1X24:6 WH UB1X24:5 BN
X22 UB
1
4
3 : 4 2 X 1 B U
4 : 4 2 X 1 B U
1
2
UBY8
2
y
X38:7 X38:8 1
4
wt bn
2
S14 1 : 8 3 X
2 : 8 3 X
X38 1
Y4:1
2
Y4:2
3
S12:1
4
S12:4
5
Y6:1
6
Y6:2
1
UE2X37:3 GN UE2X37:4 YE
2
1
7
S14:1
8
S14:4
Y4
4
1 : 7 3 X 2 E U
2 : 7 3 X 2 E U
1
2
2
S13
a Y5 X38:3 X38:4 1
UE2X36
4
wt bn
x
5 : 8 3 X
x
UF
2
S12
UE
tube arm
control handle
see Z2-4
6 : 8 3 X
a 1
2
Y6
UF tube arm
z
SZ1X11
UE2X31
a : 3 M B U
0 1
1 1
2 1
7
8
9
4 1
UB
1
4
2
wt bn
5 2
X20
6 3
2 : 0 2 S B U
1 B B U
1 4
7
10
13
2 5
8
11
14
6
9
3
UB1X24:2 UB1X24:1
2 : 6 1 S B U
12
15
1 : b a 4 : 1 : : : 6 0 b : 6 3 2 1 2 2 1 1 1 S M M S S M B B B B B B B B B B U U U U U U U U 4 : 2 3 A
2 1 : S X
1 B N
3 : 2 3 A
8 : 6 1 A
X23
0 1
1 1
2 1
7
8
9
4 1
5 2
6 3
UB1X24:6 WH UB1X24:5 BN
X22 UB
1
4
3 : 4 2 X 1 B U
4 : 4 2 X 1 B U
1
2
UBY8
2
y
0
UEX30:04
1
UEX30:05
2
UEX30:06
3
UEX30:07
4
UEX30:08
5
UEX30:09
UB1X21:07
6
UEX30:10
UB1X21:08
7
UEX30:11
XPI 1 2 B B + - N I N I
PLC
UB1X21:02
EA16
UB1X21:15
8 9
UB1X21:05
0
UB1X21:06
1
PGU D-SUB 9P. Jumpers (bottom side)
2 3 4 5
9
CLOSED OPEN
5
8 4
7 3
6 2
UEX30:15
1
UB1X21:11
2 3
1
RS485
EA32
0
UB1X21:12
4
EA16
Interface Board
6 7 8
X5
9
1 2 1 1
3 : 1 2 X 1 B U
2 1 : 0 3 X B U
2 0 : 0 3 X B U
3 0 : 0 3 X B U
1 0 : 0 3 X B U
5 6 7 8
EPROM
UB1X21:13
9
4 : 1 2 X 1 B U
0 1 2 1 : 1 : 1 : 3 3 3 2 2 2 X X X 1 1 1 B B B U U U
n g 1 0 : 3 2
w y 2 0 : 3 2 X 1 B U
X 1 B U
UB1X23:9 wt UB1X23:7 bn 1
4
2
1
4
UB1X23:3 GY UB1X23:5 PK UB1X23:4 BU 2
+ d r
t w 6 0 : 3 2 X 1 B U
n b 8 0 : 3 2 X 1 B U
-
a
+ b
M3
n g
D R
-
a
b
M2
UB M3 UB S20
UB B1
UB S16
UB M2
N G
X31
UB1X22
X30 X36
1
X37 4 3
UFX38
2 1
1
UFS13:4
X41
UFS13:1 UFY5:2
1
UFY5:1
X32 X35 LAX1
5
UE2
1
control handle basic X40
1 : 3 2 S
4
3
2 7
1
9
8
6
1 : 2 2 S
1 : 1 : 1 : 1 : 4 : 1 5 0 4 0 2 2 2 2 2 S S S S S
UE1X1
S8 H6 H1
H5
UE1
H2
H4
control handle LED's
X1
H3
UE2X40 6 : 5 3 X 2 E U
4 : 4 : 6 3 2 2 S S
4
S24
2
5 : 5 3 X 2 E U
4 : 4 : 4 2 2 2 S S
4 : 5 3 X 2 E U
4 : 4 : 3 1 2 2 S S
1 4
S23
2
4
1 4
S22
2
1
S21
1 : 5 3 4 : X 1 2
3 : 5 3 X 2 E U
4 : 4 : 2 0 2 2 S S
2
1
2 : 5 3 X 2 E U
2 E S U
4
S20
2
1
X34 X31 Display
UB1X22
X30 X36
1
X37 4 3
UFX38
2 1
1
UFS13:4
X41
UFS13:1 UFY5:2
1
UFY5:1
UE1 x 1
X32
Tomo control handle
X35 LAX1
5
UE2
1
control handle basic X40
1 : 3 2 S
4
3
2 7
1
9
8
6
1 : 2 2 S
1 : 1 : 1 : 1 : 4 : 1 5 0 4 0 2 2 2 2 2 S S S S S
UE1X1
S8 H6 H1
H5
UE1
H2
H4
control handle LED's
X1
H3
UE2X40 6 : 5 3 X 2 E U
4 : 4 : 6 3 2 2 S S
4
S24
2
5 : 5 3 X 2 E U
4 : 4 : 4 2 2 2 S S
4 : 5 3 X 2 E U
4 : 4 : 3 1 2 2 S S
1 4
S23
2
4
1 4
S22
2
1
S21
1 : 5 3 4 : X 1 2
3 : 5 3 X 2 E U
4 : 4 : 2 0 2 2 S S
2
1
2 : 5 3 X 2 E U
2 E S U
4
S20
2
1
