Siemens Mammomat 1000-3000 - Service Manual
Short Description
Wiring diagrams...
Description
MAMMOMAT 1000/3000 Nova
Wiring Diagrams from serial no. 7100
© Sieme ns AB 2000 The reproduction, transmission or use of this document or its contents is not permitted without express written authority. Offenders will be liable for damages. All rights, including rights created by patent grant or registration of a utility model _or_ design,_are_ reserved.
Register 6 Print No.: SPB7-230.051.07.02.02
English Doc. Gen. Date: 03.00
Replaces: SPB7-230.051.07.01.02
65 59 111
0-2
Revision
Chapter
Page
All
All
M1000/3000 Nova Wiring Diagrams
Revision 02
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 2 of 4 SPS-UD
Siemens-Elema AB Solna, Sweden
Contents
0-3 Page
This document is valid from serial No. 7000 1 _______System Overview ______________________________________________ 1 - 1 System Overview. . . . . . . . . . . . . . . . . . . MAMMOMAT 1000 . . . . . . . . . . . . . . . . MAMMOMAT 1000 WITH REMOTE CONTROL . MAMMOMAT 3000 Nova . . . . . . . . . . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. . . .
. 1-1 . 1-1 . 1-2 . .1-3
2 _______Stand Overview _______________________________________________ 2 - 1 Placement of PC-boards and Components, Stand MAMMOMAT 1000 . . . . . . . . . . . . . . MAMMOMAT 3000 Nova. . . . . . . . . . . . List of Boards and Fuses, Stand . . . . . . . . . PCB Overview . . . . . . . . . . . . . . . . . Fuses Overview . . . . . . . . . . . . . . . . List of Switches and Components, Stand . . . . . Switches . . . . . . . . . . . . . . . . . . . . Potentiometers . . . . . . . . . . . . . . . . . Motors . . . . . . . . . . . . . . . . . . . . . Miscellaneous . . . . . . . . . . . . . . . . . List of Signals and Test Points, Stand . . . . . . . List of Voltages and Test Points, Stand . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
.2-1 .2-1 .2-2 .2-4 .2-4 .2- 4 .2-5 2-5 .2- 6 .2-6 .2-6 .2-8 2 - 12
3 _______Stand Functional Diagrams ______________________________________ 3 - 1 Block Diagram Cable Connections. . . . . . . . . . . . Grounding Connections . . . . . . . . . . . . . . . . . Mains Connection, Power Supply CPU . . . . . . . . . Grounding Connections . . . . . . . . . . . . . . . . . Power Supply Motor Control . . . . . . . . . . . . . . . Display . . . . . . . . . . . . . . . . . . . . . . . . . . CPU Board Internal, Generator Interface . . . . . . . . Tube, Temperature Monitoring . . . . . . . . . . . . . Lift and Rotation . . . . . . . . . . . . . . . . . . . . . Lift and Rotation Motor Drive . . . . . . . . . . . . . . Lift and Rotation Switches . . . . . . . . . . . . . . . . Lift and Rotation Switches, M1000 with Remote Control Compression Measurement Signals . . . . . . . . . . . Compression Motor Drive . . . . . . . . . . . . . . . . Tube Angle Measurement, Pot. Return,Tilt Signal . . . Collimator 1 . . . . . . . . . . . . . . . . . . . . . . . Collimator 2 . . . . . . . . . . . . . . . . . . . . . . .
Siemens-Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
Page 3 of 4 SPS-UD
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . .
.3-1 .3-2 3-3 3-3 .3-4 .3- 5 .3-6 .3-7 3-8 .3- 9 3 - 10 3 - 11 3 - 12 3 - 13 3 - 14 3 - 15 3 - 16
M1000/3000 Nova Wiring Diagrams
0-4
Contents Page Object Table 1 + 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 - 17 Automatic Exposure Control (AEC) . . . . . . . . . . . . . . . . . . . . . . . . . .3 - 18
4 ______ Generator Overview ____________________________________________ 4 - 1 Mains Voltage Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . List of PC-boards and Components, Generator . . . . . . . . . . . . . . . . Subassembly and PC board overview/Baugruppen und Platinenübersicht . Control Panel Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . Fuses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . List of Switches and Components, Generator . . . . . . . . . . . . . . . . . Control Panel Functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . List of Switches and Components, Generator . . . . . . . . . . . . . . . . . Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Potentiometers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Component Overview (Generator)/Bauteileübersicht (Generator) . . . . . List of Signals and Test Points, Generator . . . . . . . . . . . . . . . . . . . Signal Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . .
. . . . . . . . . . . . .
. 4-1 . 4-2 . 4-2 . 4-3 . 4-3 . 4-4 . 4-5 . 4-6 . 4-6 . 4-6 . 4-7 . 4-8 .4 - 14
5 ______ General Functional Diagrams_____________________________________ 5 - 1 Block Diagram . . . . . . . . . . . . . . . . . . . Ground, 0V and Protection Ground Distribution . . . . Line Input . . . . . . . . . . . . . . . . . . . . . . Back Plane D700 . . . . . . . . . . . . . . . . . . Principle Diagram, Master . . . . . . . . . . . . . . Principle Diagram, Tube Filament . . . . . . . . . . Principle Diagram, Focus Selection Board . . . . . . Principle Diagram, Inverter Control and kV Regulation Principle Diagram, Inverter . . . . . . . . . . . . . Principle Diagram, Control Panel . . . . . . . . . . Principle Diagram, AEC . . . . . . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. . . . . . . . . . .
. 5-1 . 5-2 . 5-3 . 5-4 . 5-5 . 5-6 . 5-7 . 5-8 . 5-9 . 5 - 10 .5 - 11
6 ______ Generator PC Board Overview ____________________________________6 - 1 Contact Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 1
M1000/3000 Nova Wiring Diagrams
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 4 of 4 SPS-UD
Siemens-Elema AB Solna, Sweden
X041E
1-1
SYSTEM OVERVIEW MAMMOMAT 1000
0
MAM00702
MAMM OMAT 1000
Fig. 1 Mammomat 1000 with generator with integrated control panel and radiation shield.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 1 of 4 SPS-UD
M1000/3000 Nova Wiring Diagrams
1-2
X041E
SYSTEM OVERVIEW
1
MAMMOMAT 1000 WITH REMOTE CONTROL
0
MAM00703
MAMMOMAT 1000
Fig. 2
Mammomat 1000 generator with integrated control panel and radiation shield.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 2 of 4 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
1-3
SYSTEM OVERVIEW
1
MAMMOMAT 3000 Nova
MAM00663
0
Fig. 3
MAMMOMAT 3000 Nova installation with pivoted object-table arm and generator with integrated control panel and radiation shield. Alternatively, the control panel and the radiation shield can be separated from the generator, see overleaf.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 3 of 4 SPS-UD
M1000/3000 Nova Wiring Diagrams
1-4
X041E
SYSTEM OVERVIEW
1
MAMMOMAT 1000/3000 Nova
Fig. 4
MAM00706
MAM00423
SIEMENS
Free-standing radiation shield with separate controle console
Fig. 5
Separate generator
MAMMOMAT 3000 Nova
Counterweight
MAM00707
Fixed object-table arm
Fig. 6
Stand with fixed object-table arm
Pivoted object-table arm (“flying wing”) replaced by fixed object-table arm and counterweight.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 4 of 4 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
2-1 PLACEMENT OF PC-BOARDS AND COMPONENTS, STAND MAMMOMAT 1000
0
D813****
X877 X878**
M6 D812**** D805
Tube
M1 (Lift), X887, R807
K7-K9 S867* m5* D807 Right side D807 Left side S865* S866* m4* m7*
R871 S882 MAMMOMAT 1000
D813****
Lamp, X894 S897 S868* R861 m8* X874 R863
D801 D809 S880
S881 S869
D811****
M3 (Rotation) X888 D802
M2 (Compression) Strain gauge
D808 Right side D808 Left side
D804 D813**** S861 S862
S892 X892
R803 X898, R806
X858*** X870
R805 S883 S884
X881 X885 X880, X803 T802 T801 X899 F801-805
D803 X801 * not fitted with one filter collimator ** not used with one filter collimator
MAM00708
Object table S1 S2 M
Z801 Incoming mains
*** not used **** option, remote control
Fig. 7
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 1 of 16 SPS-UD
M1000/3000 Nova Wiring Diagrams
2-2
X041E
PLACEMENT OF PC-BOARDS AND COMPONENTS, STAND MAMMOMAT 3000 Nova
0
M6 D805
Tube
X877 X878
D810 M1 (Lift), X887, R
K7-K9 R871
S867, M5 D807 Right side D807 Left side
D801 D809 S880 S896 S881
Lamp, X894 S897 S868 R861 m8 X874
S892 X892 R863
S869 M3 (Rotation) X888 D802 S894 D808 Right side D808 Left side
M2 (Compression) Strain gauge D804 Object table S1 S2 M
S890 S861 S862
S883
S896 S895 S891 X891
R803 S860 X898, R806 R805
X858 X870
X880, X803 X881 X885 T802 T801
S884 D803 X801
X899 F801-805
Z801
Fig. 8
Siemens Elema AB Solna, Sweden
MAM00709
S865 S866 M4 M7
S882
Incoming mains
Stand with pivoted object-table arm
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 2 of 16 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
2-3 PLACEMENT OF PC-BOARDS AND COMPONENTS, STAND
Counterweight
MAM00707
Fixed object-table arm
Fig. 9
Stand with fixed object-table arm
Pivoted object-table arm (“flying wing”) replaced by fixed object-table arm and counterweight
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 3 of 16 SPS-UD
M1000/3000 Nova Wiring Diagrams
2-4
X041E
LIST OF BOARDS AND FUSES, STAND PCB Overview
0
D801
CPU BOARD
D802
MOTOR CONTROL BOARD
D803
DISPLAY BOARD
D804
FORCE AMPLIFIER BOARD
D805
WING BOARD
D807
BOARD FOR LIFT, ROTATION AND LAMP SWITCHES (NOT FITTED IN M1000)
D808
BOARD FOR LIFT AND ROTATION SWITCHES
D809
THICKNESS ADAPTER BOARD
D810
TILT SWITCH BOARD (Not fitted in M1000)
Option, remote control (MAMMOMAT 1000 only) D811
REMOTE CONTROL TRANSMITTER (2 INCLUDED)
D812
REMOTE CONTROL RECEIVER (1 INCLUDED)
D813
REMOTE CONTROL DETECTOR (4 INCLUDED)
Fuses Overview
0
0
PCB
FUSE
FUSED VOLTAGE
D801
F1 2 AT
+5V, +5V_REF, +5V_DSP, +7V
D801
F2 1 AT
+5V_MPS
D802
F1 5 AT
+5V, +5V_M, +14V, D805/+5V
D802
F2 3.15 AT
+24VF, +15V
D802
F3 6.3 AT
+24V
D802
F5 5AT
17VAC (LAMP)
D802
F4 1 AT
24VACF (FAN)
F801 2 AT
11 VAC
F802 1 AT
11 V_MPS
F803 5 AT
14 VAC
F804 5 AT
17 VAC
F805 6.3 AT
24 VAC
Chassis-mounted fuses
NOTE! See spare parts list for replacement fuses.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 4 of 16 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
2-5 LIST OF SWITCHES AND COMPONENTS, STAND Switches
0
Switch
Page
Description
S1/D801
3-6/1D
Reset switch for stand CPU.
S1/Object table
3-16/2A
Grid out switch located in the object table.
S1-1-4/D802
3-9/3D
Current limit switches: 1=+3%, 2=+6%, 3=+12%, 4=+24%.
S1-5/D802
3-9/3D
Tacho On/Off switch for rotation motor drive.
S1-S6/D807*
3-10/2A
Control switches for lamp, lift- and rotation movement. Left and right side.
S1-S6/D811****
Control swithces and transmitter for lamp, lift- and rotation movement. Left and right side. 2 provided.
S1-S4/D808
3-10/4B
Control switches for lift- and rotation movement. Left and right side.
S2/Object table
3-16/2A
Cassette inserted switch.
S860*
3-16/3C
Stereo lever switch*.
S861
3-12/2G
Compression limit switch, compression unit.
S862
3-12/2G
Decompression limit switch, compression unit.
S865**
3-15/2E
18 x 24 Collimator optoswitch**.
S866**
3-15/3E
24 x 30 Collimator optoswitch**.
S867**
3-15/4E
Filter position, optoswitch**.
S868**
3-15/5E
Focus position optoswitch**.
S869
3-8/3G
Tacho optoswitch
S880
3-4/2B
Emergency stop, switches off 24VAC and 14VAC, machine blocked.
S881
3-9/2G
Lift up limit switch, rotating unit.
S882
3-4/2A
Limit switch, distance tube head - floor Y
X869
X871
C_PWM
X859
0V
0V
+15V
D805
(OVERCURRENT)
&
COMP_SP
K5
+24VF
+14V
E
SEE PAGE 3-2 5
8
7
4
6
COMP_OK
X822 24
0V
+24VF
S3
COMP.
COMPRESSION PEDALS
X824 X856 3 COMPRESS 33
8
12
9
+24VF
3
2
X875 1
3
2
X876 1
1
2
X873
C801
C802
C803
L805
M2 BK COMP MOTOR
M
DECOMP_LIMIT L804 GN
S862
S861
COMP_LIMIT
COMPRESSION UNIT
G
NOT USED
BK
RD
DECOMPRESSION BUTTON (ONLY ON SEPARATE CONTROL CONSOLE)
4
3
2
X803 1
4
3
2
X880 1
+24 VF
WH WH
RD RD
BK
BK
X856 31 32
+24VF
3 4
1
X872 2
2 DECOMP_LIMIT 1
+14V
D805 X823 X860 1 COMP_LIMIT 3
X822 23
F
4
0V1
C_PWM
PU COMP_PROT 0V
V16
COMP_D +15V COMP_SP
*COMP_
SPEED 20 20
D802
0VD2
0VD
0VD1
COMP_SP
1
(LOW = COMPRESS) X812 X822 COMP_D *COMP_ 9 9 DIR
+14V
D
3
COMP_SP
D801
(SEE PAGE 3-14)
TABLE_CONFIG
(x4)
TABLE IN PLACE
COMP_OK
20KHz PWM
CPU
D802
COMP_PROT
C
2
X813
X812 24
27
DECOMPRESS
COMPRESS
D801
B
1
X813 29
PRES_FORCE 4
THICKNESS
X814 COMP_FORCE 8
X812 23
A
X041E 3-13
COMPRESSION MOTOR DRIVE 5
SEE PAGE 3-11
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
RD
SPB7-230.051.07 Rev. 02 03.00
2
X862 1
Page 14 of 18 SPS-UD
4
5
6
BN
BU
3
WH
+5V
D810**
V8
TILT X81
X82
+24VF X83
0V_M
4
3
X861 1
X860 2
4
X868 9 +24VF
D805
ROT_POS
POT_RETURN
(SEE PAGE 2-3)
X856 17 TILT
8
X813 6
3
15
9
TILT
X813 35
0VA
36
0V_M
ROT_POS
0VD
0VA
0VA
+5V_M
+5V_REF
1
1
5V_REF
** Not fitted in M1000
* D806 not used with software v2.1 or higher
0VA
20
POT_RETURN
+5V_REF
D801
A/D
CPU
3
X83
D810
D806
X82
X861
1
X863
X801 1-20
X860
X856
X855
D805
X816 1-20
E
LED
X81
X862
OPCOM
D803
X868
X80
1
FORCE
F
S1 RESET SWITCH
V7
0VD1 5V
V6
5V_REF 0VD2 5V_DSP
0VA1 7V V5
CPU
PROM
F1
X811
X814
X809
D809
X816
X813
TESTPOINTS AND LED’s
ROT_POS
D801
ANGLE
OK
THICKNESS
G
4
YE
2
X80 1
0V
5
THICKNESS
2
3
PRES_FORCE
RD BK
D806*
R863 2k
X874 1
3
1
17
2
18
5
X814 1
D
3
S896**
YE
+/- 10°
R861 10k
TUBE_ANGLE
4
5
POT_RETURN
10
PRESET_ANGLE
2
X855 6
POT_RETURN
+5V_REF
C
2
0°, ±10°
M3
5
7
6
X868 8
1
2
D805
B
1
COMPRESSION UNIT
2k
R803
TUBE ANGLE
R871 PRESET ANGLE
10k
X863 3
A
3-14 X041E
TUBE ANGLE MEASUREMENT, POT. RETURN, TILT SIGNAL 5
M1000/3000 Nova Wiring Diagrams
A
B
Siemens-Elema AB Solna Sweden
**
LAMP
LAMP
SPB7-230.051.07 Rev. 02 03.00
29
LAMP
D801
T801
Page 15 of 18 SPS-UD
OG
12
X886 11
X812 12
X812
9
X821 7
X822 12
X822
F5 5AT
0V
1 2 3 4 5 6 8
D802
-V_L
0V_L
0V_L
0V
X860
X856
+ RMS /DC URMS –
0V
angle
0V_L
SET LAMP_V R131
17VACF
FOCUS_ST FOCUS_D FILT_ST FILT_D COLL_ST COLL_D STEP_ENV
5AT
F804
*LAMP_CTRL
0V_M
15
X856 7
X851
-V_L
Phase angle control
V52
0V
LAMP_V
LAMP
MIRROR
X813
X812
17VAC_RET
+24VF
COLL_P2 COLL_P1
FILT_P FOCUS_P
COLL_ST
D801
18
X823 16
X824 6
X823 12
3
X894 1
2
X878 1
MIRROR
0V
D802
50ms/DIV
L1
*
2
1
MIRROR MAGNET
COLLIMATOR
LAMP
17VAC_RET F5 X821
5V/DIV
M7
LAMP
17VACF
X823
MIRROR
X822
G
4
12
X886A 11
24VF
LAMP
+5V_R
D805
F
* NOT FITTED IN M1000 WITH ONE FILTER
E
3
17VAC
YE
CPU
X860 4
7
X865 1
X807 1
7
7
X851 1
7
X807 1
D
2
SEE PAGE 3-11
X813 13
RIGHT SIDE BOARD
S6
D807
**
D805
C
1
COMPRESS
LAMP ON
S6
D807
LEFT SIDE BOARD
** NOT FITTED IN M1000 WITH REMOTE CONTROL, SEE LIFT AND ROTATION SWITCHES, M1000 WITH REMOTE CONTROL
X041E 3-15
COLLIMATOR 1 5
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
26
5 26 24
12
SPB7-230.051.07 Rev. 02 03.00
Page 16 of 18 SPS-UD
FOCUS_D
FOCUS_ST
STEP_EN
COLL_ST
STEP MOTOR DRIVE
STEP MOTOR DRIVE
STEP MOTOR DRIVE
FILT_P
0V
+14V
+14V
+14V
FOCUS_P
(X4)
(TABLE IN PLACE)
0V
0V
COLL_ST
0V
BN GN
2 C_LB 3
2
1
4
5
FO_LB 6
3
7
1
2
FO_PB2 FO_PB1
4
5
FO_PA2
FO_PA1
GN
BN
BK
OG
YE
GN
OG
BN
BK
YE
X879 8 RD
7 8
FI_LB 3
FO_LA
+14V
FI_PB1
FI_PB2
FI_PA2
FI_PA1
X867 FI_LA 6 RD
+14V
7 8
BK
1
C_PB2 C_PB1
OG
YE
4
5
C_PA2
C_PA1
30
21
20 17 18
X813 28 22
X854 C_LA 6 RD
+14V
*COLL STEP *COLL DIR
*STEP_ENABLE
*FILTER STEP *FILTER DIR
*FOCUS STEP *FOCUS DIR
FILTER
FOCUS
*
* M8
*
M5
M4
COLLIMATOR
*
FOCUS S868
*
*
*
FILTER S867
24 X 30 S866
18 X 24 S865
GN
BU
WH
0V
FOCUS_POS
+5V
0V
LED_4
0V
GN
RD BK
4
FILT_POS BU
6
5
4
3
X890 1 2
6
5
3 +5V
WH
1 2
X866
6
5
4
3
0V
LED_3
0V
COLLPOS_24X30
+5V
1 2
X853
6
RD BK
GN
BU
WH
0V
LED_2
0V
GN
RD BK
4
COLLPOS_18X24 5
3
+5V
X852 1 2
BU
0V
LED_1
WH
RD BK
F
0V
0V
+5V
0V
0V
+5V
0V
0V
+5V
0V
0V
+5V
D805
* NOT FITTED IN M1000 WITH ONE FILTER
E
+5V
+5V
+5V
+5V
16
S897
COLLIMATOR
2
X877
COLL_POS_18X24
FOCUS_POS
+5V
FILTER_POS
+5V
COLL_POS_24X30
+5V
+5V
+24VF
X856
1
X877
EXTERNAL
13 12
X855 8 7 16
G
4
35
24
19
FILT_ST FILT_D
COLL_D
D805
COLL_P1
COLL_P2
STEREO COLL
CPU
D
3
28
23
X856 21
SEE PAGE 3-16
TABLE_CONFIG
X813 15
D801
C
BN BK OG YE
B
2
BN BK OG YE
1
OG BN BK YE
A
3-16 X041E
COLLIMATOR 2 5
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
S1 GRID_OUT
GRID_MOTOR_N
SPB7-230.051.07 Rev. 02 03.00
+24VF
7
1
Page 17 of 18 SPS-UD
24V
24V
X _ _
NC
NC
24V _ _
NC
NC
24V
NC
NC
NC
NC
NC
24V
NC
NC
NC
2
3
X _ _
NOT USED _ _
MAGNIFICATION 1.8
X812
STEREO (OPTION)
GRID_0
0VD2
GRID_SP
D801
25
X885 1
SEE PAGE 3-11
25
X893 1
9
7
S891 **
X813
S890 **
8
8
SELECT_WING_1
SELECT_WING_2
STEREO_LEVER
+24VF
0V
GRID_M
GRID_SP
D802
X824
0V
AEC_POS
K1
X822
X856 11 GRID_MOTOR_N
S894* **2
**3
S895*
**1
S860
X868 10
X859 1
10
11
6
7
6
1
X860
X857
X856
X855
D805
X859
4
8
X860 7
18
9
X873
X871
X872
X868
X822 19
1
D802
K8
0V_W
GRID_SP
SELECT_WING_1 11
23
2
1
3
16
33 34
STEREO_LEVER
9 14
29 30
X875 X876 X869
0V
AEC_POS
GRID_OUT
CASS_LOADED
TABLE_CONFIG_3
10
27
25
6
8
5
3
TABLE_CONFIG_2
TABLE_CONFIG_1
X813 7
D801
0V
+24VF
0V
GRID_O
0V
0V
0V
+24VF
20KHz PWM
0V
+24VF
A
0V
GRID_M
GRID_MOTOR_N
*GRID_SPEED
GRID_SP
0VD
0VD2
-1.25
X _ _
24V
STEREOTAXI MOUNTED (18x24)
MAGNIFICATION 1.5
24X30 WITHOUT GRID
18X24 WITHOUT GRID
24X30 WITH GRID
18X24 WITH GRID
NO TABLE LOCKED IN PLACE
TABLE TYPE
5
5 CASS_LOADED
0
1
X856 4 TABLE_CONFIG_0
2
G
U
I 0V
X824 12
X812 19
CONNECTOR X892 WITH CABLING, S892, S894 AND S895 ARE OMITTED. X868-2 IS JUMPERED TO X868-10. ** M1000 OBJECT TABLE 1, CONNECTOR X891 WITH CABLING, S890, S891, S860, S894, S895 ARE OMITTED. X868-1, X868-3 ARE JUMPERED TO X868-10.
0V
24V
NC
24V
NC
24V
NC
24V
NC
0
4
4
3
1
F
4
24V
NC
NC
24V
24V
NC
NC
1
TABLE_CONFIG
9
3
3
3
2
GRID_OUT
2
2
1
X857 1
7 X871 1
10
11
X891** 1
7 6 9
8
8
E * ONE TABLE OPTION (FIXED OBJECT-TABLE ARM): OBJECT TABLE 2,
3
TABLE CONFIGURATION
OBJECT TABLE CONNECTOR REAR VIEW
*
D805
D
2
MOTOR AND GRIDOUT SWITCH OMITTED IF NO GRID
M
TABLE CONFIG (SEE BELOW)
S892
5
4
0 5
4
3
3
3
2
2
X869 1
2
*
1
X892
C
1
GRID_MOTOR_N
TABLE CONFIG (SEE BELOW)
+24VF
B
1
S1 GRID_OUT
CASS LOADED
S2
OBJECT TABLE 1**
M
CASS LOADED
S2
OBJECT TABLE 2 *
A
X041E 3-17
OBJECT TABLE 1 + 2 5
UREG
M1000/3000 Nova Wiring Diagrams
B
C
D
Siemens-Elema AB Solna Sweden
SPB7-230.051.07 Rev. 02 03.00
Page 18 of 18 SPS-UD *
5
P15V_ION
0V_RDL
N15V_ION
3 4
TRA2
2
RDL2
OPTION
7
8
6
1 6
4 4
2
5
X11 3
7
1
2
5
X870 3
6 8
1
C24
TRA2
RDL2
N15V_ION C23
P15V_ION B25
0V_TRA
0V_RDL
TRA1
RDL1
A25
B24
B23
A24
X701 A23
D701
4
+15V
0V_RDL
-15V
TRA
RDL
X884 1
5
6
4
1
4
P15V_ION
0V_RDL
4
2
2
N15V_ION
3
5
X10 3
TRA1
5
X858 3
2
RDL1
D700
G
3
+15V
0V_RDL
-15V
TRA
RDL
X883 1
F
2
DETECTOR WING 2 *
DETECTOR WING 1**
GENERATOR
E
1
STAND
* ONE TABLE OPTION (FIXED OBJECT-TABLE ARM): DETECTOR WING 2 AND X894 WITH CABLING ARE OMITTED. ** M1000 DETECTOR WING 1 AND X883 WITH CABLING OMITTED.
A
3-18 X041E
AUTOMATIC EXPOSURE CONTROL (AEC) 5
M1000/3000 Nova Wiring Diagrams
X041E
4-1 MAINS VOLTAGE CONNECTION The system is factory connected for 400V 2-phase mains. For other voltages see note below and page 5-3. Note For 1-phase connection:
• Move wire N/L2 from X899 L2 to X899 N (stand). Connect incoming phase to L1 and 0V to N.
• F20 in the generator must be short circuited with the jumper included in the installation kit.
• D711/F5 must be short circuited with the brass plug included in the installation kit. For 240V mains connection:
• The fuse in position D711/F2 (4AT) shall be moved to position D711/F3. F2 shall be left open. Caution: When changes are made, the fuse values must be changed to the correct values with labels included in the installation kit. A triangle shall be placed adjacent to each open or short circuited fuse and shall cover any existing fuse value.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 1 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
4-2
X041E
LIST OF PC-BOARDS AND COMPONENTS, GENERATOR Subassembly and PC board overview/Baugruppen und Platinenübersicht0 H1
High-voltage generator Hochspannungserzeuger
V1V4
Transistor module Transistormodul
C51
Phase shift capacitor for rotary anode Phasenschieberkondensator für Drehanode
D700
Back plane board Rückwand
D701
AEC board AEC
D702
Master board Master
D704
Power supply board Netzteil
D705
Filament control board Heizung
D706
Focus selection board
D710
Inverter board (without V1-V4) Wechselrichter (ohne V1-V4)
D711
Power input board Netzeingang
D740
Control panel board Bediendeck
D741
Power switch board
T1
Transformer for power supply Transformator für Spannungsversorgung
T2
Transformer for power supply Transformator für Spannungsversorgung
T3
Transformer for power supply of D740
T10
Line voltage transformer Netzspannungstransformator
Z1
Mains filter Netzfilter
Z2
Mains filter Netzfilter
Z3
Transient protection filter
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 2 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
4-3 CONTROL PANEL FUNCTIONS
Fuses
0
LOCATION
FUSE
FUSED VOLTAGE
Incoming mains
F10
20 AT (35 AT) /500 V
L1
Incoming mains
F20
20 AT/500 V
L2
D711
F1
Not used
D711
F2
4 AT/250 V
230V_T1
D711
F3
4 AT/250 V
240V_T1
D711
F4
4 AT/250 V
230V_STAND
D711
F5
4 AT/250 V
N_T1
D711
F6
1.5 AT/250 V
PRIM1_T2
D711
F7
1 AT/250 V
19V_T1
D711
F8
1.5 AT/250 V
UZ
D711
F9
1.5 AT/250 V
N_UZW
T2
F3
6.25 AT/250 V
U1_HEIZ
T2
F4
0.5 AT/250 V
U2_24V
T2
F5
1 AT/250 V
U2_13V
T2
F6
1.5 AT/250 V
U2_+5V
T2
F7
1.5 AT/250 V
U2_+15V
T2
F8
1.5 AT/250 V
U2_-15V
T3
F1
1 AT/250 V
24V_AC1
1) 1)
1) 1)
1)
NOTE! See spare parts list for replacement fuses. 1)See
Siemens Elema AB Solna, Sweden
note on page 4-1.
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 3 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
4-4
X041E
LIST OF SWITCHES AND COMPONENTS, GENERATOR
D740 *
H1 C51/R51
D710
V4
V3
V1
X9
V2
S2
D711
S1
s1 X42
F9
F8
F7 F6
X14
F1...F5
X40
X41
Z2
D706
D705
D704
D702
D701
T3 F1
F8...F5
T1
X998
X1
X999
X5
X32
X10 X11
T2 X8
F3 F4
D700
Z1
Z3 6544 3211
* Included in the separate control console, if generator separately installed.
D741 *
F10
F20
T10
Fig. 10
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 4 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
4-5 CONTROL PANEL FUNCTIONS
1
15
14
kV
16
mAs
AEC
WARNING
2
3
4
18
17
Mo Mo Mo Rh
6
5
20 21
19
W Rh
Auto
Program
8*
7**
Lim.
9* 10* 11
2
12 13
Fig. 11
1
Mammomat 3000 Nova ON/OFF
2
Exposure release buttons with green lights. Both buttons must be pressed during the entire exposure. This is to ensure that the operator is standing behind the radiation shield during the exposure.
3
+/- kV selection and display
4
+/- mAs selection and display. In AEC mode (Automatic Exposure Control), the display remains dark before exposure. After the exposure, the mAs value reached during radiography is indicated.
5
+/- film density adjustment and display.
6
AEC. These buttons are used to activate AEC mode (Automatic Exposure Control) and to select screen/film system. H stands for high speed and D for detail screens.
7
Buttons for selection of anode/filter combination in manual mode.**
8
Buttons for selection of one of four pre-programmed exposure parameter settings.*
9
Button for storing exposure parameter (see 8).*
10
Button to select/deselect auto mode.*
11
Button to select/deselect automatic decompression after exposure. When off, use foot switch or the knobs for manual decompression.
12
Limit button (acknowledgement). Serves to reset the system after errors, indicated by an error code, or faulty exposures (limit errors), indicated also by the limit lamp and acoustic signal (e.g limit mAs, dose monitoring, interrupted exposure).
13
Limit lamp. Flashing: Tube temperature is above normal. Lit: Limit error (see 12).
14
Cassette is missing or needs to be replaced (it has already been exposed).
15
Object table or object table arm is not locked in position.
16
Risk of collision between tube head and floor (limit switch is actuated). In stereotactic mode: The tube head is not in 0° or ± 10° position.
17
AEC detector not in chest wall position (only in stereotactic mode).
18
Diaphragm not in correct position. In stereotactic mode: External diaphragm not in position.
19
Focal spot indication. Indicates focus in operation. Small focus is automatically selected, when a magnification table is used.
20
Green light indicates that the unit is ready for exposure. This indicator has the same function as the green lights on the stand display and the exposure release buttons.
21
Yellow light and an acoustic signal indicate radiation ON. Decompression button (only on separate control console, see overview on next page).
*Not used in M1000
Siemens Elema AB Solna, Sweden
**Not used in M1000 with one filter.
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 5 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
4-6
X041E
LIST OF SWITCHES AND COMPONENTS, GENERATOR
Decompression button Fig. 12 Separate Control Console
Switches
0
Switch
Page
Origin
Description
S1
5-11/3D
D701
Test switch for factory use
Reset
5-11/2D
D701
Reset of D701
S1
5-5/2D
D702
UZW OFF/ON ON=Upper position
S2
5-5//2D
D702
SS OFF/ON ON=Upper position
S3
5-5/3D
D702
For service PC connection: ON= Upper position For serial printer connection: OFF=Lower position
S1
5-7/1E
D706
Manual activation of Power aid unit
S1
5-3/2F
D711
System ON (Parallell with D741/S2)
S2
5-3/2F
D711
System OFF (Parallell with D741/S1)
S27A, S27B
5-10/3A
D740
Preparation and exposure release buttons
S1
5-3/2G 5-10/1B
D741
System OFF
S2
5-3/2G 5-10/1B
D741
System ON
S3
3-12/5F
Separate control console
Decompression button
Potentiometers
0
Potentiometers
Page
Origin
Description
R5
5-7/3D
D706
Adjustment of bias voltage for Molybden (Mo)
R4
5-7/3D
D706
Adjustment of bias voltage for Tungsten (W)
R43
5-5/4D
D702
Adjustment of kV
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 6 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
4-7 LIST OF SWITCHES AND COMPONENTS, GENERATOR Component Overview (Generator)/Bauteileübersicht (Generator) Component Page
Origin
Description
K1
5-6/3F
D705
Small/large focus changeover Umschalten kleiner/großer Fokus
K2
5-8/2D
D705
Inverter frequency changeover Umschalten der Wechselrichterfrequenz
K3
5-8/3D
D705
Control for brakes Ansteuerung für Bremsen
K1
5-7/3D
D706
MO/W bias voltage changeover
K2
5-7/3D
D706
Connects bias voltage to tube
K3
5-7/4E
D706
MO/W filament current changeover for large focus
K4
5-7/2E
D706
Bias voltage monitoring
K5
5-7/4E
D706
MO/W filament current changeover for small focus
K6
5-7/1D
D706
Relay output for xray indication
K1
5-9/3E
D710
SS relay SS-Relais
K2
5-9/1C
D711
By-passes intermediate circuit charging resistors Überbrückt Zwischenkreis Ladewiderstände
K3
5-3/2E
D711
Switches on generator and stand Schaltet Generator und Stativ ein
K4
5-9/3F
D711
Starting rotary anode Anlauf Drehanode
K5
5-9/3F
D711
Starting and braking, rotary anode Anlauf und Bremsen Drehanode
K6
5-3/2E
D711
System ON System EIN
K7
5-3/2E
D711
System supply OFF System AUS
K8
5-6/3C
D711
Filament intermediate circuit ON Heizungs-Zwischenkreis EIN
K9
5-6/3C
D711
By-passes charging resistors of the heating Überbrückt Ladewiderstände Heizung
K10
5-3/2E
D711
Switches on P24V Schaltet Trafo P24V ein
K11
5-9/1B
D711
Intermediate circuit ON Zwischenkreis EIN
K12
5-9/1B
D711
Intermediate circuit ON Zwischenkreis EIN
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 7 of 14 SPS-UD
0
M1000/3000 Nova Wiring Diagrams
4-8
X041E
LIST OF SIGNALS AND TEST POINTS, GENERATOR
Page
Signal name
Origin
Destination
5-5/1E 5-7/3C
ANODE_W_
X702.A19
=>
X706.B8
5-5/2E 5-7/3E
ANST2_
X702.B16
=>
X705.B15
5-5/2C
AR
X1.4 STAND
=>
X702.C13
5-5/3E 5-8/1B
BRAKE_
X702.C8
=>
X705.C6
D705.X717
5-5/1E
BS_
X702.B8
=>
D711.X3.12
D702.X984.BS
5-8/4E
CNT
X705.A11
=>
X702.A13
D702.X966.CNT
5-5/1E
DS_
X702.C7
=>
D711.X3.13
D702.X982.DS
5-5/2E
FOKUS_
X702.B10
=>
X705.B8
5-5/3E
IHREG
X702.A11
=>
X705.A9
D702.X968.IHREG
5-5/4F 5-6/4B
IHSOLL
X702.C23
=>
X705.C27
D705.X705 IHref. 1V=1A
5-5/4C 5-6/4B
IHIST
X705.C28
=>
X702.C24
D705 .X704 IHact. 1V=1A
5-8/2E
IMAX_WR
D710.X2.10
=>
X705.C12
5-8/4E
ISCHWING1
D710.X2.18
=>
X705.A12
5-5/4E 5-8/1B
KVA_
5-5/4E 5-8/1B
KVE_
X702.B9
=>
X701.B9 X705.B15
D705.X714
5-8/3C
KVIST
D710.X73
=> X702.A24
X705.B11
D705.X711 kVact. 1V = 5kV
X701.C9 X702.C9 X705.C7
Testpoint
LED
D702.V2.GN D702.V4.GN
D705.V40.GE WRA U S TA S T D705.X710 I Swing 1V=10A D705.X715
D702.V3.GN
“SIGNAL_” = ”SIGNAL” is active low
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 8 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
4-9 LIST OF SIGNALS AND TEST POINTS, GENERATOR
Signal name
Explanations
ANODE_W_
Activates relays K1, K3 and K5 on D706. Selects filament current and bias voltage for tungsten (W)
ANST2
Blocks V2 and V3 of the inverter at braking. Blockiert V2 und V3 des Wechselrichters beim Bremsen.
AR
Signal given to generator as exposure request. If grid used, grid has started. Rasterkontrakt vom Aufnahmetisch zum Einschalten der Aufnahme.
BRAKE_
Anode braking after exposure end. Abbremsen der Drehanode nach dem Ende der Aufnahme.
BS_
Controls the relay K5 on D711 for braking. K5 is also energized at boost of anode rotation. Steuert Relais K5 auf D711 an zum Abbremsen. K5 ist aber auch beim Anlauf det Drehanode angesteuert.
CNT
Enables the MASTER to count the periods of the inverter at anode rotation boost. Ermöglicht dem MASTER das Zählen der Schwinungen des Wechselrichters beim Hochlauf.
DS_
Controls the relay K4 on D711 to start anode rotation boost. Steuert Relais K4 auf D711 an zum Anlassen der Drehanode.
FOKUS_
Controls the relay K1 on D705 to select, large focus. Steuert Relais K1 auf D705 an zur Anwahl, großer Fokus.
IHREG
Turns the filament regulator on. The regulator is on at standby, preparation and exposure, i.e. always after the power-on initialisation of the generator. Schaltet den Heizungsregler ein. Der Regler ist EIN in STANDBY, Vorbereitung und Aufnahme, das heißt immer, wenn der Generator initialisiert hat.
IHSOLL
The reference value for the filament current is given from the MASTER to the regulator. Der Heizstrom - Sollwert wird vom MASTER zum Regler gegeben.
IHIST
The actual value for the filament current can be read by the MASTER. Der Heizstrom - Istwert kann vom MASTER gelesen werden.
IMAX_WR
The maximum current of one of the 4 POWER MOS-FET modules is exceeded. Der maximale Strom von einem der 4 POWER MOS-FET in dem Wechselrichter ist überschritten.
ISCHWING1
The output current in the inverter is measured at anode rotation boost, exposure and braking. Der Schwingstrom im Wechselrichter wird gemessen bei Hochlauf, Aufnahme, Bremsen.
KVA_
WIRED-OR line is “1” during the exposure and can be pulled to “0” at any time during the exposure by D701 or D702, or D705. During the anode rotation boost, exposure, braking the KVA signal is “1” to enable the inverter. ATTENTION: The signal is inverted at measuring point D705.X715
WIRED-OR Leitung ist “1” während der Aufnahme und kann jederzeit von D701 oder D702 oder D705 “0” gezogen werden zum Abschalten der Aufnahme. Während Hochlauf, Aufnahme, Bremsen ist KVA “H” damit der Wechselrichter freigegeben ist. ACHTUNG: Am Meßpunkt D705. X715 ist das Signal invertiert. KVE_
Output signal from the MASTER start the exposure. Signal ausgegeben von MASTER zum Einschalten der Aufnahme.
KVIST
The kVactual value is given by the D710 to the MASTER and to the regulator D705.
Der kVist Wert wird vom D710 zum MASTER gegeben und zum Regler D705.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 9 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
4-10
X041E
LIST OF SIGNALS AND TEST POINTS, GENERATOR
Page
Signal name
Origin
Destination
Testpoint
5-5/4F 5-8/2B
KVSOLL
X702.A23
5-5/3C 5-8/3D 5-11/1C
KV>17
5-5/3C 5-7/4E
=>
X705.A27
D705.X712 kVref. 1V = 5kV
X705.B10
=>
X702.B12 X701.B12
D705.V39.GE
KV>50
X705.C10
=>
X702.C12
D705.V41.GE
5-6/5B
MAIST
D710.X2.22
=>
X705.B28
5-5/5C 5-65B
MAIST_CAL
X705.B29
=>
X702.B25
5-5/3E 5-6/4B
MAREG
X702.B11
=>
X705.B9
D702.X969.MAREG
5-5/4F 5-6/4B
MASOLL
X.702.B23
=>
X705.B27
D705.X706 mAref. 1V=40mA
5-5/5E
MPS
MASTER: X702.A17(Master)
LED
D705.X707 mAact. 1V = 40mA
SLAVES: X5.4 (Control Panel) X701.A17 (AEC) X1.2 (Stand)
5-5/2E
NSE1_
X702.A7
=>
X711.X3.11
D702.X980
5-5/1E
NSE 2_
X702.B7
=>
D711.X3.7
D702.X981
5-5/1C
OKT1_
X1.9 STAND
VIA D706
X702.A15
5-5/1C
OKT2_
X1.8 STAND
VIA D706
X702.B15
5-5/2C
PH1_
D710.X2.2
=>
X702.A14
5-11/4D 5-11/4D
RDL_1 RDL_2
X10.3 X11.3
=>
X701.A23 X701.C23
5-5/3E 5-8/4B
RESET_FF_
X702.C11
=>
X705.C9
5-5/2E 5-8/2E
SS_
X702.A8
=>
X705.A6 D710.X6.1
D701.SEL_RDL
D702.X983
“SIGNAL_” = ”SIGNAL” is active low
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 10 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
4-11 LIST OF SIGNALS AND TEST POINTS, GENERATOR
Signal name
Explanations
KVSOLL
The kVreference value is given by the MASTER to the regulator D705. Der kVsoll Wert wird vom MASTER zum Regler D705 gegeben.
KV>17
As soon as kVactual value exceeds 17kV, this will be considered as “X-Ray on” and is reported to the MASTER. Sobald kVist 17 kV überschritten hat, wird dies als “Strahlung vorhanden” bewertet und dem MASTER gemeldet.
KV>50
If kVactual value exceeds 50 kV this is considered as a faul and latched on the D705 in a FLIPFLOP. Überschreitet kVist 50 kV so wird dies als Fehler bewertet und auf der D705 in einem FLIPFLOP gespeichert.
MAIST
The actual value of the tube current is given to the regulator D705. Der mA ist wert wird zum Regler D705 gegeben.
MAIST_CAL
This value is fed to the MASTER and it calculates the mAs-product for exposure termination, when the requested mAs are reached. For AEC mode the mAs product is calculated.
Dieser Wert wird dem MASTER zugefürhrt und dieser bildet daraus das mAs-Produkt zum Abschalten wenn die gewünschten mAs erreicht wurden, respektiv zur mAs-Nachanzeige bei lontomat Betrieb. MAREG
If X-rays are present, an tube current regulator is additionally connected to the filament regulator. Sobald Strahlung vorhanden ist, wird dem Heizstromregler noch zuzätzlich der Röhrenstromregler aufgeschaltet.
MASOLL
The reference value for mA is given from the Master to the regulator D705. Der mA-Sollwert wird vom Master zum Regler D705 gegeben.
MPS
Multi processor serial communication interface. For information exchange Master-Slaves.
Serieller Datenaustausch Master-Slave. NSE1_
Power-on of the intermediate voltage UZ by relays K11 and K12 through damping resistors. Einschalten der Zwischenkreisspannung UZ durch Relais K11 und K12 über Dämpfungswiderstände.
NSE 2_
Controls the relay D711. K2, bypassing the damping resistors. Steuert das Relais D711. K2, welches die Dämpfungswiederstände überbrückt.
OKT1_
Overtemperature of the tube housing is announced to the MASTER. Übertemp. Strahlergehäuse wird dem MASTER gemeldet.
OKT2_
Overpressure of the tube housing is announced to the MASTER. In serial with door switch and bias voltage monitoring. (D706). Überdruck im Strahlergehäuse wird dem MASTER gemeldet.
PH1_
Overpressure of the HT generator tank is announced to the MASTER. Überdruck Hochspannungstrafo wird dem MASTER gemeldet.
RDL_1 RDL_2
Power of dose signal, comes from the double detector, is only used on board D701. Signal Dosisleistung, kommt vom Doppeldetektor, wird nur auf der D701 Platine verarbeitet.
RESET_FF_
Reset of the fault latching flip-flop kV>50 by the MASTER. Zurücksetzen des Fehlerspeicher - FLIP-FLOP kV>50 durch den MASTER
SS_
On board D705 the relay K2 switches the frequency to ROT - ANODE 160Hz. On board D710 the relay K1 disconnects the H. V. transformer. Auf D705 schaltet K2 die Frequenz um auf Rot - Anode 160Hz. Auf D710 schaltet K1 den Hochspannungstrafo ab.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 11 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
4-12
X041E
LIST OF SIGNALS AND TEST POINTS, GENERATOR
Page
Signal name
Origin
Destination
Testpoint
5-11/5D 5-11/5D
TRA_1 TRA_2
X10.5 X11.5
=>
X701.A24 X701.C24
D701.X342 (TRA)
5-5/2C 5-8/5E
U_ANST_
D710.X2.26
=>
X702.A18
5-8/1F
UZIST
D710.X2.8
=>
X702.A29 X705.A25
D705.X713 UZ IST 1V = 50V
5-5/2C
VH
X702.B13
=>
X1.5 GERÄT
D702.X967.VH
5-5/3E 5-6/4B
WENDEL_
X702.A10
=>
X705.A8
5-8/3E
WR_ANST1
X705.A13
=>
D710.X6.14
5-8/3E
WR_ANST2
X705.B13
=>
D710.X6.15
5-5/3C 5-8/1E
WR_AUSTAST_
X705.A10
=>
X702.A12
5-5/3E 5-8/1B
ZBL_
X702.A9
=>
X705.A7
5-5/2E 5-6/3B
ZK_HEIZ1_
X702.C10
=>
D711.X3.1
5-5/2E 5-6/3B
ZK_HEIZ2_
X702.A16
=>
D711.X3.4
LED
D710.V24.RT
D705.V40.GE D705.X716
D702.V1.GN
“SIGNAL_” = ”SIGNAL” is active low
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 12 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
X041E
4-13 LIST OF SIGNALS AND TEST POINTS, GENERATOR
Signal name
Explanations
TRA_1 TRA_2
Not used.
Nicht verwendet. U_ANST_
Check if +15V to control the POWER - MOS modules is present. Überwachung ob +15V zum Ansteuern der POWER MOS - Module vorhanden ist.
UZIST
Actual value of the inverter intermediate voltage. The LED V24 on board D710 is on at UZ>30V. Ist - Wert Zwischenkreisspannung Wechselrichter. LED V24 auf D710 ist an bei UZ>30V.
VH
The stand is informed that the generator has completed its preperation. Dem Gerät wird mitgeteilt, daß der Generator die Vorbereitung beendet hat.
WENDEL_
The filament regulator on board D705 is informed which filament is connected. From this results the limitation of IHmax to 5,8A or 8,3A.
Dem Heizungsregler auf D705 wird mitgeteilt welcher Heizfaden angeschlossen ist. Daraus ergibt sich die Bergrenzung von IHmax bis 5,8A oder 8,3A. WR_ANST1
Control of POWER - MOS module V1 and V4. Ansteuerung POWER MOS - Module V1 und V4.
WR_ANST2
Control of POWER - MOS module V2 and V3. Ansteuerung POWER MOS - Module V2 und V3.
WR_AUSTAST_
By exceeding of Imax in the inverter, the inverter control is disabled during 200ms. Bei Überschreiten von Imax im Wechselrichter wird die Ansteuerung für 200ms unterbrochen.
ZBL_
The MASTER enables the power section (e. i. inverter) to make preparation. Der MASTER gibt den Leistungsteil (d. h. Wechselrichter) zu Vorbereitung frei.
ZK_HEIZ1_
The relay K8 switches the filament intermediate circuit on through damping resistors. Relais K8 schaltet den Heizungszwischenkreis über Dämpfungswiderstände ein.
ZK_HEIZ2_
The relay K9 bypasses the damping resistors. Relais K9 überbrückt die Dämpfungswiderstände.
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 13 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
4-14
X041E
SIGNAL DIAGRAM
POWER-ON SEQUENCE EINSCHALTSEQUENZ MEASURING POINT MESSPUNKT
SIGNAL
D702 X980
NSE1
D702 X981
NSE2
___
ZKH1
___
ZKH2
Power on 50ms 90ms
LED
490ms
550ms
MEASURING POINT SIGNAL MESSPUNKT
___
D702 X984
BS
___
D702 X982
DS
___
D702 X983
SS
D702 V1 GN D705 X716
ZBL
___
___
ANST2
___
D702 X967
VH
___
D705 X715
KVA
D702 V4 GN D705 X717 D702 V2 GN
BRAKE
___
AR
D702 V3 GN D705 X714 D705 V39 YE ___
KVE
___
kV>17
D702 X969
mA REG ~40ms
___
D702 X966
CNT
Stand-by Ruhezustand
Preparation
Exposure
Braking
Stand-by
Vorbereitung
Aufnahme
Bremsen
Ruhezustand
Grid contact Rasterkontakt
Fig. 13
Siemens Elema AB Solna, Sweden
Register 6
SPB7-230.051.07 Rev. 02 03.00
Page 14 of 14 SPS-UD
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
L3
L2
L1
N
PE
STAND
F20
=
N15V
=
=
=
T2
D701 U F
µP
=
=
D702
FILAMENT CONTROL BOARD (5-6)
D705
SPB7-230.051.07 Rev. 02 03.00 IHSOLL OUTPUT
MASOLL
KVSOLL
Page 1 of 12 SPS-UD MASTER BOARD (5-5)
24V_AC
A D
INVERTER BOARD (5-8, 5-9)
D710
µP
µP
D A
KVIST
MAIST
X10
CONTROL PANEL BOARD (5-10)
D740
INPUT
AEC BOARD (5-11)
POWER INPUT BOARD (5-3)
208V
230V
240V
D711
POWER INPUT BOARD (5-3, 5-9)
D711
E
RS 232C
0
I
II
STAND
µP
SERVICE-PC
IHIST
H1
F
24V_FOC
STEP UP CONVERTER FOCUS SELECTION BOARD (5-7)
D706
40-80V
G
4
OBJECT TABLE 2
ARRESTER
D
3
OBJECT TABLE 1
DOUBLE DETECTOR
24V_AC
T3
T1
Z1
Z3 SURGE-
VARISTOR
V
V
C
2
24V_FOC
=
=
P15V
VCC
POWER SUPPLY BOARD
~230 V TO STAND
1
2
110V
208V
20AT
20AT
6 5 4 3
277V 230V
400V
T10
B
1
(5-3)
D704
L2/N
L1
F10
INCOMING MAINS 110, 208, 230, 240, 277 OR 400V SINGLE OR TWO PHASE
A
X041E 5-1
BLOCK DIAGRAM 5
X11
M1000/3000 Nova Wiring Diagrams
D700
Siemens-Elema AB Solna Sweden
SPB7-230.051.07 Rev. 02 03.00
X30
3
TOP COVER
Page 2 of 12 SPS-UD
T1
T2
T10
Z1
h3
8
GROUND RAIL
STAND
7
H1
6
X6
INVERTER BOARD
D710
3
X1
1
13
12
6
3
X6 3 16
3
ALTERNATIVE 0V CONNECTION
11
X2
X2
1
1
3
3
5
5
7
7
9
9
11
11
13
13
0V_SHIELD
15
15
17
17
19
19
G
21
21
23
23
24
24
25
25
4
0V_LAST GENERATOR CHASSIS
PE
X899
X896
3
D801
X815 1
GENERATOR CHASSI
X5
AGND
X701...X706
F
3
TRANSFORMER CONNECTION
← REMOTE CONTROL CONSOLE (OPTION)
=
0V_LAST_T1
3
6
4
P
X30
6
X2
0V_PWR
CONTROL 0V_P PANEL BOARD
6
D741 0V_REL
3 4
11
0V_24V
D740
POWER INPUT BOARD
D711
X6
X32
4
AGND
0V_SHIELD
E
2
GND
0V_FIL
6
0V_INV
3
0V_TUBE 3
X701...X706
D
0V_SHIELD
X5
0V_REL 8 X32 3 4 X6 6 X1 1
0V_REL
9
X104
GND
10
X702
GND
GND
X3
0V
GND
12
0V_REL_T1
X103
GND
3
0V
C
GND
X6 13
X102
B
1
X8
X705 0V_FIL
X706 0V_BIAS
X704, X706 0V_FOC
BACK PLANE BOARD
A
5-2 X041E
GROUND, 0V AND PROTECTION GROUND DISTRIBUTION 5
0V_SIGNAL
0V_SIGNAL
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
20AT
20AT
F10
SPB7-230.051.07 Rev. 02 03.00
Page 3 of 12 SPS-UD
20AT
F10
20AT
Z1
Z1
X82
X81
X82
X81
X82
X81
X82
X81
X82
X81
F2
4AT
F5
4AT
F2
4AT
F5
(F2)
F3
4AT
F5
4AT
F2
4AT
F5
4AT
F2
(F5)
4AT
230V
D711
240V
4AT
D711
230V
D711
230V
D711
230V
D711
Z3
230V
0V
YE
T801 YE
STAND
ARRESTER
SURGE-
VARISTOR
V
V
NOTE: READ PAGE 4-1 BEFORE CHANGING MAINS CONNECTION
F20
6 T10 5 4 3 2 1
6 T10 5 4 3 2 1
Z1
Z1
Z1
20AT
20AT
T10
1
F6
M1000/3000 Nova Wiring Diagrams F5
31
F3
F8
37
F7
35
5
T1
F4
33
7
1
3
X31
T2
2
1
X886
31
19V
32
Z1
3
2
ϑ
7
X4
1 T3
5
13
14
X13
1
3
X14
3
11
7
9
X13
34
1 AT
32
6.25 AT
6
1.5 AT 6
38
5
1.5 AT 4
36
3
1.5 AT 2
1
0.5 AT 8
8
X881
1
2
3
4
X82
X81
∼
F4
F5
F2
(F3)
(5-8/5C)
(5-6/2B)
U2_-15V
U1_-15V
U2_+15V
U1_+15V
U2_+5V
U1_+5V
U2_24V
U1_24V
D700
1 AT
F1
PRIM2_T2
PRIM1_T2
19V_T1
ABC21
ABC19
ABC15
ABC13
ABC9
ABC7
ABC25
ABC23
X704
F6
F7
0V_WECHSEL_T1
N_STAND
230V_STAND
N_T1
208V_T1
230V_T1
240V_T1
230V(240V)
D711
∼
∼
∼
D704
2
1
X30
1.5AT
1AT
4AT
K3
K3
4AT
4AT
=
=
=
24V_AC2
24V_AC1
∼
0V_LAST
K6
5-10/3A
D740
RD
V9
+24V X21
U REG -15V
U REG +15V
U REG +5V
V40 24V YE
2
1
X30
=
K3 K10
K10
E
K6
K6
YE
YE
-15V
V39 +15V
GND X15
5V X14
X11
N15V X13
AGND X12
-15V
AGND
+15V
GND
5V
ABC30
ABC32
ABC31
ABC1,2
ABC3,4
ABC29
ABC27
X704
0V_LAST_T1
X16
P15V
S1
0V_LAST
S2
YE
0V_24V X17
24V
K7
V13
V38
YE
YE
GND/0V X22
V41 +5V
K7
K7
V11
P24V
10
9
8
5
6
16
X3
F
N15V
AGND
P15V
GND
VCC
ABC30
X701
ABC32
X701
ABC31
X701
ABC5
X701
ABC29
X706
ABC27
ABC3,4
ABC30
X702
ABC32
X702
ABC31
X702
ABC5
X702
3
2
1
X32
5
X6
ABC30
X705
ABC32
X705
ABC31
X705
ABC5
X705
ABC1,2
X705
X5 1
ABC30
X706
ABC32
X706
ABC31
X706
ABC5
X706
2
4
X6
3
X6
X6
X5 ABC1,2 3, 6
X706
ABC3,4
X706
S1
(5-10/1B)
S2
D741
P24V (5-9/3D)
D710
ABC3,4
X705
ABC1,2
X702 ABC1,2
X701
3
2
1
X32
5
X6
X706
X702 ABC3,4
X701
0V_FOC
0V_REL
* OFF
* ON
ABC27 24V_REL
24V_FOC
D700
10
9
8
5
6
16
X3
X702
D700
G
4
2/1 PHASE
277V
20AT
F20
2/1 PHASE
20AT
20AT
F20
F10
6 5 4 3 2 1
D
3
240V
F10
F20
2/1 PHASE
6 T10 5 4 3 2 1
6 T10 5 4 3 2 1
6 5 4 3 2 1
T10
L2(N)
L1
2 PHASE
400V
C
2
230V
20AT
F20
2/1 PHASE
208V
F10
(F20)
1 PHASE
35AT
L3
L2
L1
N
PE
STAND
B
1
110V
F10
INCOMING MAINS 110, 208, 230, 240, 277 OR 400V SINGLE OR TWO PHASE
A
X899
X041E 5-3
LINE INPUT 5
Siemens-Elema AB Solna Sweden
B30 B31 B32
Double detector X10 1 P15V_ION 2 N15V_ION 3 RDL1 4 0V_RDL 5 TRA1 6 0V_RDL 7 0V_TRA 8 0V_RDL
A30 A31 A32
B25
B24
C23
C30 C31 C32
C24
Double detector X11 1 P15V_ION 2 N15V_ION 3 RD2 4 0V_RDL 5 TRA2 6 0V_RDL 7 0V_TRA 8 0V_RDL
N15V P15V AGND
SPB7-230.051.07 Rev. 02 03.00
Page 4 of 12 SPS-UD
X4 1 2 3 4 5 6 7 8 9 10
B27 B29 B30 B31 B32
B25
B23
B19
U1_+5V U2_+5V U1_+15V U2_+15V U1_-15V U2_-15V U1_24V U2_24V U1_13V U2_13V
T2
C25 C27 C29 C30 C31 C32
C24
C23
C17
C16
C13
C12
C11
C10
C9
C8
C7
X1 1 2 3 4 5 6 7 8 9 10 11 12 GND MPS GND GND VH AR D15V_EXT OKT2_TUBE_ OKT1_TUBE_ D15V_EXT GND KVA_
Stand
C
D710 Inverter board X2 1 0V_SHIELD 2 PH1_ 3 0V_SHIELD 4 GND 5 0V_SHIELD 6 TH1_ 7 0V_SHIELD 8 UZIST 9 0V_SHIELD 10 IMAX_WR 11 0V_SHIELD 12 IMAX_0V 13 0V_SHIELD 14 KVIST_+ 15 0V_SHIELD 16 KVIST_17 0V_SHIELD 18 ISCHWING1 19 0V_SHIELD 20 ISCHWING2 21 0V_SHIELD 22 MAIST 23 0V_SHIELD 24 0V_SHIELD 25 0V_SHIELD 26 U_ANST_
D702 Master Board RS232C Interface X990 1 2 RXD 3 TXD 4 DTR 5 GND 6 DSR 7 8 9
A29 A30 A31 A32
A27
A25
A23
A21
A19
A15
A13
A9
A7
X704 A1 A2 A3 A4 A5
D
B29 B30 B31 B32
B27
B25
B23
B21
B19
B17
B15
B13
B9
B7
B1 B2 B3 B4 B5
0V_FOC N15V P15V AGND
24V_FOC
U2_24V
U1_24V
U2_-15V
U1_-15V
RES_P15V RES_N15V
U2_+15V
U1_+15V
U2_+5V
U1_+5V
GND GND VCC VCC D15V
D710 Inverter board X6 1 SS_ 2 P15V 3 AGND 4 N15V 5 24V_REL 6 0V_REL 7 U1_13V 8 U2_13V 9 FOKUS_ 10 11 0V_SHIELD 12 0V_TUBE 13 0V_INV 14 WR_ANST1 15 WR_ANST2 16 0V_SHIELD
C29 C30 C31 C32
C27
C25
C23
C21
C19
C17
C15
C13
C9
C7
C1 C2 C3 C4 C5
D704 Power supply board
B30 B31 B32
B29
B28
B27
B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25
B13
B12
B11
B10
B9
B8
B7
B1 B2 B3 B4 B5
X102 0V X103 0V X104 GND
A30 A31 A32
A29
A28
A27
A16 A17 A18 A19 A20 A21 A22 A23 A24 A25
A13
A12
A11
A10
A9
A8
A7
X705 A1 A2 A3 A4 A5 A6
E
C29 C30 C31 C32
C28
C27
C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26
C13 C14
C12
C11
C10
C9
C8
C7
C6
C1 C2 C3 C4 C5
X8 1 2 3 4 5 6
D711 Power input board X3 1 ZK_HEIZ1_ 2 ZK_HEIZ+ 3 ZK_HEIZ4 ZK_HEIZ2_ 5 * OFF 6 * ON 7 NSE2_ 8 0V_REL 9 0V_REL_T1 10 0V_REL_T1 11 NSE1_ 12 BS_ 13 DS_ 14 15 16 24V_REL
D740 Control panel board X5 1 VCC 2 ZB_HW 3 GND 4 MPS 5 6 GND
D706 Focus selection board X706 A1 B1 C1 GND A2 B2 C2 GND A3 B3 C3 VCC A4 B4 C4 VCC A5 B5 C5 D15V A6 B6 C6 nc A7 B7 nc C7 DS_ A8 SS_ B8 ANODE_W_ C8 nc A9 FOKUS_ B9 nc C9 POWER_AID_ A10 OKT2_ B10 OKT2_TUBE_ C10 D15V_EXT A11 OKT1_ B11 OKT1_TUBE_ C11 nc A12 B12 C12 SM_FOC1 A13 B13 C13 SM_FOC1 A14 B14 C14 SM_FOC2 A15 B15 C15 SM_FOC2 A16 B16 C16 LG_FOC1 A17 B17 C17 LG_FOC1 A18 B18 C18 LG_FOC2 A19 B19 C19 LG_FOC2 A20 B20 C20 SM_FOC A21 B21 C21 SM_FOC A22 B22 C22 LG_FOC A23 B23 C23 LG_FOC A24 B24 C24 nc A25 B25 C25 BIAS A26 B26 C26 nc A27 B27 C27 24V_FOC A28 B28 C28 0V_BIAS A29 B29 C29 0V_FOC A30 B30 C30 N15V A31 B31 C31 P15V A32 B32 C32 AGND
F
D741 Power switch board X32 1 * ON 2 * OFF 3 0V_REL 4 0V_REL
POWER AID X42 2 PA1 3 PA2
XRAY INDICATION X41 1 X_IND1 3 X_IND2
D706 Focus selection board DOOR SWITCH X40 1 DOOR_ 3 OKT2_DOOR_
G
4
SM_FOC1 LG_FOC1 OV_FIL BIAS SM_FOC2 LG_FOC2
H11 (Filament)
GND GND VCC VCC D15V SS_ BRAKE_ ZBL_ KVE_ KVA_ WENDEL_ FOKUS_ ZB_HW IHREG MAREG RESET_FF_ WR_AUSTAST_ KV>17 KV>50 CNT KVIST_+ KVIST_ISCHWING1 ISCHWING2 IMAX_WR WR_ANST1 WR_ANST2 IMAX_0V SINGLE_PULS_ ANST2_ ZK_HZ+ ZK_HZ+ ZK_HZZK_HZ0V_FIL 0V_FIL SM_FOC SM_FOC LG_FOC LG_FOC IHMAX KVSOLL MASOLL IHSOLL KVIST MAIST IHIST UZIST MAIST_CAL ISCHWING N15V P15V AGND
D705 Filament control board
3
A27 A29 A30 A31 A32
A25
A24
A23
A18 A19
B17
B16
B15
B14
B13
B12
B11
B10
B9
B8
B7
NSE1_ NSE2_ DS_ SS_ BS_ BRAKE_ ZBL_ KVE_ KVA_ WENDEL_ FOKUS_ ZK_HEIZ1_ IHREG MAREG RESET_FF_ WR_AUSTAST_ KV>17 KV>50 CNT VH AR PH1_ TH1_ OKT1_ OKT2_ ZK_HEIZ2_ ANST2_ SINGLE_PULS_ MPS RES_P15V RES_N15V U_ANST_ ANODE_W_ POWER_AID_ KVSOLL MASOLL IHSOLL KVIST IHIST UZIST MAIST_CAL IHMAX 24V_REL 0V_REL N15V P15V AGND
GND GND VCC VCC D15V
D702
2
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
Master Board X702 A1 B1 C1 A2 B2 C2 A3 B3 C3 A4 B4 C4 A5 B5 C5
B
1
A25
A24
RDL1 0V_RDL RDL2 TRA1 0V_TRA TRA2 P15V_ION N15V_ION
KV>17
KVE_ KVA_
GND GND VCC VCC D15V
A23
B23
C9
C1 C2 C3 C4 C5
MPS
B12
B9
B1 B2 B3 B4 B5
A17
X701 A1 A2 A3 A4 A5
D701 AEC board
A
5-4 X041E
BACK PLANE D700 5
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
1
2
P
X102
X101
SPB7-230.051.07 Rev. 02 03.00
Page 5 of 12 SPS-UD
(5-5/4B)
B29
C24
SERVICE PC
9
1V⇔100mA B25
C28
U
U
M1000/3000 Nova Wiring Diagrams
X962
X961
ZBL
R43
D
D
D
A
A
A
KVE
BRAKE
S2
SS
S1
UZW
>1
>1
BS_
DS_
NSE2_
NON V.RAM
IHREG MAREG
MPS
J50
I1
J39
D702 C
KVA_
KVE_
BRAKE_
ZBL_
RESET_FF_
X969
X968
CALENDER
TIMER
32 K RAM
FOKUS_
ANST2_
SS_
NSE1_
WENDEL_
X983
X980
128 K EPROM
GN
GN
GN
X984
X982
X981
ANODE_W_
ZK_HEIZ1_ ZK_HEIZ2_
>1
E POWER_AID_
NOTE: POTENTIOMETERS R11, R13 AND R43 ARE FACTORY ADJUSTED
F
F
X965
X964
RD
V7
GN
CPU
D
A17
C23
B23
A23
MPS
IHSOLL 1V⇔1A
MASOLL 1V⇔40mA
KVSOLL 1V⇔5KV
2
X1
4
X5
A17
X701
C27
B27
A27
C7
10 X705
C9 X1
B9
X701
B7
C6
C9
B9
A9
C8
C9
D701
4
X5
D740
D701
D705
B8 A8
K1
K2
K1
(5-9/3E)
(5-9/1B)
(5-9/1B)
(5-6/3C)
(5-6/3C)
(5-9/3F)
(5-9/3F)
(5-9/1C)
(5-7/1D)
(5-6/3F)
(5-8/3D)
(5-8/2D)
P24V
P24V
K6
K2
(5-7)
(5-7/3D)
D15V
S1
G
(5-10/5B)
(5-11/1C)
(5-6/4B)
(5-6/4B)
(5-8/2B)
(5-8/1B)
(5-11/2G)
(5-8/1B)
(5-8/1B)
(5-8/1B)
(5-8/4B)
(5-6/4B)
(5-6/4B)
(5-6/4B)
D710
K11 K12
K9
K8
K5
K4
K2
D711
K3
A7
B9
D705
1
X6
11
4
1
12
13
7
X3
K1,K3,K5
D706
B15
A6
X705
1
X6
11
4
A9
C11
B11
A11
A10
B10
B16
A8
A7
A16
1
12
B8 C10
13
7
X3 C7
B7
A9 C7 A8
B8
X706 C9
KVA_
F
A19
D700
B19
X702
STAND
PA2
STAND
3
X42 2 PA1
4
X990
R13
X960
R11
X963
RD
V7
RS 232C INTERFACE
MUX
ANA
MAIST_CAL
+10V
IHIST
ANA MUX
RD
V6 REC.DATA
(5-6/5B)
1V⇔1A
A24
KVIST
K.TEST
A28
A25
UZIST
RD
V6
X966
S3
V2
TEST
TR.DATA
1V⇔5kV
1V⇔50V
GN
V5
CNT
kV>50
kV>17
WR_AUSTAST_
U_ANST_
PHI_
STATUS
A29
X705
8
X2
A13
C12
B12
A12
A18
A14
X867
PR.RUN
(5-8/3C)
8
X2
A11
C10
B10
A10
OVER PRESSURE H .V.TANK H1
VH
AR
OKT1_
OKT2_
D702
C
3
(5-9/1G)
D705
(5-9/1F)
D710
(5-8/4E)
(5-8/4E)
X705
4
26
26
X2
2
4
D700
B13
5
A15
B15
A10 X702
3
C13
2
X2
K4
X706 C10 B10 B11 A11
1
6
9
8
10
7
X1
X40
DOOR SWITCH
2
(5-8/3E)
(5-8/1E)
D705
(5-7/5E)
D710
OKT1_TUBE_
OKT2_TUBE_
D15V_EXT
D15V_EXT
STAND
D706
D15V
B
1
H1
A
X041E 5-5
PRINCIPLE DIAGRAM, MASTER 5
Siemens-Elema AB Solna Sweden
F20
F10
INCOMING MAINS see page 5-3
L2
L1
4AT
(5-3/2E)
4AT
SPB7-230.051.07 Rev. 02 03.00
Page 6 of 12 SPS-UD
(5-9/5F)
22
X2
22
X2
B25
B23
B11
A10
3
1
5
MAIST 1V⇔200mA
MASOLL 1V⇔40mA MAIST_CAL 1V⇔100mA
MAREG
IHSOLL 1V⇔1A WENDEL_ 0⇔8.3A
IHREG
IHIST
ZK_HEIZ2_
6
X13
B28
B29
B27
B9
A8
C27
A9
C28
X705
4
1
X3
4
1
X3
16
6.25 AT 15
F3
ZK_HEIZ1_
D700
1
5
T2
D705
K8
U2_HEIZ K8
U1_HEIZ K8
D711
1V⇔1A
5.8A 8.3A
X705
ZK_HEIZ+
ZK_HEIZ-
RD
V16
IHMAX LIMIT M300 P49-8.3A
1V⇔1A
IHSOLL
X704
IHIST
P24V
X121
X707 1V⇔40mA mAIST
X706
MASOLL 1V⇔40mA
K9
P24V
K9
K9
3
2
X3
3
2
X3
ABC19
ABC18
ABC17
ABC16
PWM 30kHz
FOKUS_
D705
IHIST
GR_FOK
KL_FOK
D15V
0.022R R4
K1
K1
F
X705
ABC21
ABC20
ABC25
ABC24
ABC23
ABC22
0V_FIL
LG_FOC
SM_FOC
D700
SEE PAGE 5-7
G
4
D710
(5-5/5C)
(5-5/4F)
X969 (5-5/3E)
(5-5/3E)
C23
A11
C24
A16
C10
X702
1.5AT
X13
B8
B10 X705
X705
D700 X702
E
3
(5-5/4F)
(5-5/4C) X968 (5-5/3E)
(5-5/2E)
K3
K3
F6
(5-5/2E)
D702
D
2
(5-5/2E)
D702
F5
F2
D711
SEE PAGE 5-3 (1C)
C
1
T10 6 Z3/Z1 X81 5 4 3 2 1 X82
B
=
A
5-6 X041E
PRINCIPLE DIAGRAM, TUBE FILAMENT 5
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
SPB7-230.051.07 Rev. 02 03.00
SEE PAGE 5-6
Page 7 of 12 SPS-UD
R4
K1
B8
B10
LG_FOC
ABC24
ABC23
ABC22
ABC21
X706 ABC20
A9
X706 B8 FOKUS_
ANODE_W_
0V_FOC
K1
U REG +15V
R4
D15V
W
24V_FOC R5
MO
V1
0V
0V_FOC
40-80V
0V_FOC
P15V_FOC
STEP UP CONVERTER
0V_FOC
P15V_FOC
K6
K2
K2
K3
K3
K5
K5
D15V
D15V
D15V
0V_FOC
0V_BIAS
24,9k
BIAS
0V_FOC
K4
P15V_FOC
S1
D700
0V_FIL
3
0
BK
6 ABC19
2
2 LG_FOC2
3
1
LG_FOC1
*
0V_FOC
ABC18
5
1
X8 4
BN
WH
BU
GY
YE
PK
R4 (W)
R5 (MO)
X40
X41
S1
X42
P15V_FOC
V1
BIAS
1
1
1
F
ABC17
ABC16
SM_FOC2
ABC14 ABC15
0V
5-5/1C
SM_FOC1
0V_BIAS
BIAS
OKT2_
OKT2_TUBE_
ABC13
ABC12
ABC29
ABC28
ABC25
X706
A10
X706 B10
3
X40 1
Exposure light
DOOR SWITCH
X_IND2
X42 PA1 2 PA2 3
1
X41 3 X_IND1
E
*
h2M h1W h3 h2W
h1M
X896 G
ALTERNATIVE CABLING
D706
G
X706
1
4
ABC21
ABC20
ABC25
SM_FOC
ABC23
D15V X705 ABC22
A19
29
24V_FOC
24V_FOC
POWER_AID_
SS_
DS_
K6
D15V
D
3
D705
X705
X702
5-3/?
27
C9
A8
C7
X706
D706
C
2
5-5/2E
B19
A8
C7
X702
D700
B
1
5-5/1E
5-5/1E
5-5/2E
5-5/1E
D702
A
X041E 5-7
PRINCIPLE DIAGRAM, FOCUS SELECTION BOARD 5
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
20K
SPB7-230.051.07 Rev. 02 03.00
(5-5/3E)
C11
X702
14
14
16
X2
X2
RESET_FF_
KVIST_-
1V⇔10kV
KVIST_+
KVSOLL
ZBL_
KVE_
BRAKE_
KVA_
D700
C9
C11
B11
A27
A7
B7
C6
C7
X705
X716
X714
X717
X715
0VD 0VA
X709 X708
D705
&
KVSOLL
(5-3/5D)
T2
>50kV
KVIST
1V⇔5kV
X711
X712
1V⇔5kV
>1
R
U
Q
Q
Page 8 of 12 SPS-UD 31 F5
1V⇔10A
F
32 1AT
X710
kV>50
kV>17
K3
K3
R136
K2
50R
YE
YE
P15V
Fmax HT
Fmax
BLOCK
A18
X702
10
9
X4
B12
A12
A11
C10
B10
A28
B15
B13
A13
A6
C13
C12
A10
X705
U_ANST_
U2_13V
U1_13V
ISCHWING2
ISCHWING1
CNT
KV>50
KV>17
KVIST
ANST2_
WR_ANST2
WR_ANST1
SS_
IMAX_0V
IMAX_WR
26
X2
26
X2
8 8
X6
20
18
X2
15
14
X6
12
10
X2
7
(5-5/3C)
(5-5/3C)
(5-5/3C)
(5-5/4C)
(5-5/2E)
D702
(5-5/2E)
D702
(5-5/3C)
D702
7
X6
20
18
X2
A13
C12
B12
A24
B16
X702
15
14
X6
A8
X702
12
10
X2
A12
WR_AUSTAST_ X702
D700
E
X5
D710
F
OSC
S3 X32
G3 X31
S2 X22
G2 X21
S4 X42
G4 X41
S1 X13
G1 X11
3
BU
RD
3
BU
RD
3
BU
RD
3
BU
RD
IMAX4
IMAX3
IMAX2
IMAX1
V3
V2
V4
V1
4
4
4
4
(5-9/2F)
(5-9/2D)
(5-9/1F)
(5-9/1D)
G
+15V
(5-9/2D)
1
2
(5-9/1F)
1
2
(5-9/2F)
1
2
(5-9/2D)
1
2
4
(5-5/2C)
D702
F ANODE ROT. 160Hz FACTORY ADJUSTED
P15V
K2
WR_AUSTAST_
D
3
ISCHWING
KVA_
C
2
D702
(5-8/4F)
R+
A23
A9
B9
C8
C9
X702
B
1
X73
D710 H1
(5-5/4F)
(5-5/3E)
(5-5/4E)
(5-5/3E)
(5-5/4E)
D702
A
5-8 X041E
PRINCIPLE DIAGRAM, INVERTER CONTROL AND KV REGULATION 5
M1000/3000 Nova Wiring Diagrams
L1
F10
Siemens-Elema AB Solna Sweden
D702
(5-5/1E)
(5-5/2E)
L2
B7
A7
X702
F20
INCOMING MAINS see page 5-3
T10
7
K12
K11
K12
4
1
D711
24A
1
K11
4
SPB7-230.051.07 Rev. 02 03.00
Page 9 of 12 SPS-UD
D705. ISCHWING BREMSEN P49 MO-G BRAKING
2ms
T0 =6.25ms
10A
84A
P24V
LINE
Z2
X86
X85
4
1 K2 X88
X87
P24V
K2
(5-5/2E)
D702
D15V
(5-8/2D)
(5-8/4C) 50R
X710 1V⇔10A
ISCHWING
D705
2
K2
3
K2
F9 1.5AT
F8 1.5AT
A8
X702
A6
B12
A12
X705
X89
24V
D700
X810
1,4 7,10
1,4 7,10
1
5
5 1
X6
20
18
X2
X6
20
18
X2
3, 6 3, 6 9, 12 9, 12
X7
X7
X13
RD
X11
1
V1
1
X10 2
BU
X32
RD
X31 3
2
SS_
1
K1
2
1
V3
K1
X100
T10
X100
1
2
1
4
2
1
X71
U
V X72
E
200M
C48 C49 C50
DA2
DA1
X62
WR2
UZ 300V..330V
HIGH VOLTAGE GENERATOR
H1
24V
ISCHWING2
ISCHWING1
S3
G3
(5-7/4G)
X61
1 WR1
2
UZ>30V
RD
V24
BU Imax3 4 X30 X201 X202
S1
G1
(5-7/2G)
Imax1
D710
D
N
S
R+
4
2
N
X75
S
X74
R+
BU
X42
BU
3 X41
1
X40
BU
X22
K5
2
K5
3
P24V
X4
1
P X6
II
12
X8 3 0V
B28
B11
X705
12
D700
1V⇔200mA
MAIST
1V⇔10kV
*
*
0
1
2
C7
B8
X702
BN
YE
WH
X897
(5-5/1E)
(5-5/1E)
X707
MAIST
1V⇔40mA
(5-8/3C)
D705
H11
H11
0
I
II
(5-5/4C)
1V⇔50V
UZIST X713
D702
D702
A25
X702
A29
X705
D705
ALTERNATIVE CABLING
D700
KVIST_+
D700
C51
13
12
X3
8
X2
X6
22 22
14
X2
5
9
8
12
X2
0
I
I
1
X9
13
12
X3
8
X2
X2
14
X2
K4
4
K4
1 CPH
K4
DS_
BS_
S4
G4
Imax4
S2
G2
Imax2
D700
G
4
5R
X3
mAs
20k
3
2
4
K5
D711
V4
V2
RD
3 X21
2
X73 KVIST_+
1
3
3
1
X12
X12
1
2
1
2
1
X20
UZIST
F
3
500mV
D705. ISCHWING AUFNAHME 3,6kW P49 MO-G EXPOSURE
20µs
X84
X83
C
2
2V
T0=6.25ms D705. ISCHWING HOCHLAUF P49 MO-G ANODE ROTATION RUN-UP
2ms
NSE2_ 11
X3
7
NSE1_
X82
X81
11
X3
Z3/Z1
B
1
500mV
D700
6 5 4 3 2 1
SEE PAGE 5-3 (1C)
=
A
X041E 5-9
PRINCIPLE DIAGRAM, INVERTER 5
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
ϑ
SPB7-230.051.07 Rev. 02 03.00
Page 10 of 12 SPS-UD
GND
GND
6
3
1
6
3
1
2
1
GND
VCC
MPS
24V_P
0V_P
S1
S2
=
24V_P
1
X32
S2
TXD
RXD
EXP
U REG +5.1V
D741
5V_P
RESET
S1
V4
CPU 80C535
5V_P
X27A
LIM
OK
V6
V2
DECOMP
XRAY
D740
RAM ROM CPU
V3
0V_P
0V_P PWR
5V_P
PWR
S1
AUTO
LED_0
J1
KV_0
12MHz
EPROM 128K x 8
KV_1
PROG_3
S1
X4
RAM 32K x 8
MAS_2 MAS_1
0V_P
PROG_2
FOC_S
CAS TBL TILT AEC COLL FOC_L FOC_S
PROG_4
FOC_L
AF_3
AF_1
COLL
DEN_2
EEPROM 8K x 8
MAS_0
LED_1
X1
DEN_1
PROG_1 PROG_2 PROG_3 PROG_4 AUTO
1
9 10
8
5 6 7
11
12
MEM S17
LIM S20
P2 S14
P1 S13
3
2
D+ S8
DS7
LED_2
AEC_H AEC_D AF_1 AF_2 AF_3
AEC_H
AEC
4
DEN_0
X5
AEC_D
PROM V2 V3 V4 V6 RAM CPU VCC GND MPS 5V_P
PWR
PROG_1
AF_2
P3 S15
OV_P
UREG +18V
EN
MAS_2
TBL
120R
R113
OK XRAY LIM DECOMP
MAS_0
LED_3
X30
MAS_1
P4 S16
AEC_D S10
KV+ S4
AUTO S18
AF< S11
KVS5
CAS
AF> S12
KV+ S6
DEC S19
X27B
X27B.4
X27A.4
X27A.3
X27B.3
KV_0 KV_1
MEMBRANE SWITCH PANEL
AEC_H S9
KVS3
TILT
DEN_2
24V_P
OK
DEN_0
DEN_1
G
S27A
X1
1
S27B
4
5-3/4G
VCC
4
2
4
2
MPS
2
1
X27B
X5
S27B
3
2
1
X27A
TOP PLATE
24V_AC2
S27A
3
2
1
ZB_HW X5
1AT
D740
D741
F
3
5-5/5F
D700
CONSOLE
4
3
2
1
X32
E
2
*SEPARATE CONTROL
(5-3/3D)
0V_REL
*OFF
*ON
F1 X30 24V_AC1 X30
4
2
1
X32
D
* S3, DECOMPRESSION SWITCH INCLUDED IN THE SEPARATE CONTROL CONSOLE, SEE 3-12/5F.
C
1
T3
(5-3/2G)
D700
B
EPROM
A
5-10 X041E
PRINCIPLE DIAGRAM, CONTROL PANEL 5
M1000/3000 Nova Wiring Diagrams
A
Siemens-Elema AB Solna Sweden
5
2
2
3
6
OBJECT * TABLE 2
+15V
0V_RDL
5
4
SPB7-230.051.07 Rev. 02 03.00
6
1
4
8
7
6
1
4
2
5
5
2
2
3
1
3
3
X870
X884
X11
8
kV>17
D700 KVE_
MPS
C
Page 11 of 12 SPS-UD TRA2
TRA1
TEST
V3
V4
V1
V2
NOT USED
J1
VOSCTL_
J3
&
+ OFFSET TEST
& J2
A=4
S1 FACTORY USE ONLY
SEL_RDL
-
MUX
EOSM_
-0.9V
-100 µV
RDL2
RDL1
STATUS LED’S
KVE_
N15V_ION
P15V_ION
0V_TRA
& VOSCTL1
VOSCTL1 1
HUM FILTER
VOSCTL1_
EPROM
PLD
I2
A4_RDL
KVA_EXP_DONE
VOSCTL1_
MUX
EEPROM (FLASH)
I1
KVA_ABORT_EXP
A=1-128
A3_RDL
PLD CONTROL
I7
AEC µP-BUS
U F
I60
4
2
I59
VOSCTL1
S&H
OFS_RDL
V24
V11
V10
V9
V8
PLD STATUS LED’S
PLD PROM
0VA 0VA1
G
0VD=GND, 0VA IS CONNECTED TO 0VD JUMPERS J1, J2, J3 NOT MOUNTED
VOSCTL1_
FRDL
AD_RDL
V5
V6
V7
1
VOSCTL_ EOSM_
GAIN
VOSCTL1
1
1
RAM
F
(5-5/4E)
C9
X701 KVA_
4
C24
X114
OVD RESET
0V_RDL
CPU
TX
2 3
RX
I18
1
1-2 NORMAL 2-3 NO DOSE MONITOR
kV>17
D701
E
3
A24
C23
A23
B9
B25
A25
B24
B23
B12
A17
X701
D
2
-15V
TRA
RDL
DOUBLE DETECTOR
ARM): OBJECT TABLE 2 AND X894 WITH CABLING OMITTED.
7
1
6
4
2
5
3
X10
GENERATOR
B10
B9 X705
A17
X702
1
*ONE TABLE OPTION (FIXED OBJECT-TABLE
5
4
3
1
4
X858
X883
STAND
(5-8/4E)
D705
(5-5/4F)
(5-5/5F)
D702
B
1
OBJECT ** TABLE 1
+15V
0V_RDL
-15V
TRA
RDL
DOUBLE DETECTOR
CABLING OMITTED.
** M1000 OBJECT TABLE 1 AND X883 WITH
X041E 5-11
PRINCIPLE DIAGRAM, AEC 5
M1000/3000 Nova Wiring Diagrams
5-12
X041E 1
2
3
4
5
A
B
C
D
E
F
G
This page intentionally left blank.
Siemens-Elema AB Solna Sweden
SPB7-230.051.07 Rev. 02 03.00
Page 12 of 12 SPS-UD
M1000/3000 Nova Wiring Diagrams
A
Siemens-Elema AB Solna Sweden
SPB7-230.051.07 Rev. 02 03.00
V5 V6 V7
R136
X701
N15V 0VAI
X703
BRA KE STATUS
AR KVE
ZBL
Page 1 of 2 SPS-UD
0V
24V
GND
5V
V40
V41
V38
-15V AGND
V39
+15V
X990
1
V1 V2 V3 V4 V5 VH N SE1 N SE2 DS SS BS GND X967 X980 X981 X982 X983 X984 X985
S3
TEST V6 V7
S2
SS
I1
R43
R11
D704
X963 R13
X960
J50
CALENDAR CHIP
X965
X961
RAM
X964
X962
D702 C
EPROM
J39
D702
F
MAREG
IHREG
X966
X1
X702
X969
X968
G
4
X714 X715 X716 X717 X709
X706 X707 X705 X704 X713 X710 X712 X711 X708
V41
V40
WR_AUS
D705
V24
PLD PROM
I59
PLD
I60
S1
UZW
E
3
MASOLL MAIST IHSOLL IHIST UZIST ISCHWING KVSOLL KVIST 0VA
V39
kV>17
Gain V3 V4 V1 V2
0VA
V11 V10 V9 V8 J1
J2
RAM
I2
D
2
kV>50
KVA_ABORT_EXP SI (All closed)
A3_RDL A4_RDL OFS_RDL FRDL AD_RDL
EPROM
I7
EEPROM
I1
D701
C
1
X114
CPU
I18
RX
VCC
TX
KVA.EXP. DONE
OVD RESET
J3
B
X041E 6-1
CONTACT LOCATION 5
P15V
SEL_RDL VOSCTL1
PLD
M1000/3000 Nova Wiring Diagrams
Siemens-Elema AB Solna Sweden
X102
X103
X104
1
SPB7-230.051.07 Rev. 02 03.00
X12
3
X9
X998
X999
X1
X5
X7
10
12
16
1
X88
X810
X4
X706
X705
X704
X702
X701
X87
X89
Page 2 of 2 SPS-UD
X83
16
1
S2 V13
S1
V9
X86
X3
x84
x85
X22
x81
1
F2
GND/0V
V16
F1
X82
X3
F3
16
F4
F7
F6
F5
3
2
x2
26
16
X13
1
X14 1
16
x6
1
1
25
25
1
X2
1
26
2
X5
TH1
COM
PH1
X4
0V-SIGNAL
X103
X102
X101
X3
mAs
E
X6
S
X74
N
X75
R+
X73
X1
16
v24
X41 G4
S
D
S
D
X21 X22 G2 S2
V2
X30
X201
U
X42 X20 S4
V4
X71 V
X12 X72
D710
F
S
D V1
12
X7
1
3
X31 X32 X10 G3 S3
V3
X202
X61
X11 X13 G1 S1
D
S
G
4
+24V
X21
V11
F8
F9
A B C
A B C
A B C
A B C
D711
10
1
1
1
1
A B C
D
3
1
3
32
32
32
32
1
D700
C
2
1
1 X8 2
14
1
5 6
26
14
1
1
10
1
1 X32
1 X11
1 X10
2
3
12
8
8
32
B
1
25
13
A
6-2 X041E
CONTACT LOCATION 5
M1000/3000 Nova Wiring Diagrams
View more...
Comments
