Siemens Mammomat 1000-3000 - Service Manual

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MAMMOMAT 1000/3000 Nova

Register 6

English

© 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.

from serial no. 7100

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Chapter

Page

Revision

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This document is valid from serial No. 7000

1 _System Overview ________________________________________ 1 - 1

System Overview. . . 1 - 1

MAMMOMAT 1000 . . . 1 - 1

MAMMOMAT 1000 WITH REMOTE CONTROL . . . 1 - 2

MAMMOMAT 3000 Nova . . . . 1 - 3

2 _Stand Overview _________________________________________ 2 - 1

Placement of PC-boards and Components, Stand . . . . 2 - 1

MAMMOMAT 1000 . . . . 2 - 1

MAMMOMAT 3000 Nova. . . . 2 - 2

List of Boards and Fuses, Stand . . . . 2 - 4

PCB Overview . . . . 2 - 4

Fuses Overview . . . . 2 - 4

List of Switches and Components, Stand . . . . 2 - 5

Switches . . . 2 - 5

Potentiometers . . . . 2 - 6

Motors . . . . 2 - 6

Miscellaneous . . . . 2 - 6

List of Signals and Test Points, Stand . . . . 2 - 8

List of Voltages and Test Points, Stand . . . 2 - 12

3 _Stand Functional Diagrams ________________________________ 3 - 1

Block Diagram Cable Connections. . . . 3 - 1

Grounding Connections . . . . 3 - 2

Mains Connection, Power Supply CPU . . . 3 - 3

Grounding Connections . . . 3 - 3

Power Supply Motor Control . . . . 3 - 4

Display . . . . 3 - 5

CPU Board Internal, Generator Interface . . . . 3 - 6

Tube, Temperature Monitoring . . . . 3 - 7

Lift and Rotation . . . 3 - 8

Lift and Rotation Motor Drive . . . . 3 - 9

Lift and Rotation Switches . . . 3 - 10

Lift and Rotation Switches, M1000 with Remote Control . . . 3 - 11

Compression Measurement Signals . . . 3 - 12

Compression Motor Drive . . . 3 - 13

Tube Angle Measurement, Pot. Return,Tilt Signal . . . 3 - 14

Collimator 1 . . . 3 - 15

Collimator 2 . . . 3 - 16

Page

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Object Table 1 + 2 . . . .3 - 17

Automatic Exposure Control (AEC) . . . .3 - 18

4 Generator Overview ______________________________________ 4 - 1

Mains Voltage Connection . . . 4 - 1

List of PC-boards and Components, Generator . . . 4 - 2

Subassembly and PC board overview/Baugruppen und Platinenübersicht . . . . 4 - 2

Control Panel Functions . . . 4 - 3

Fuses . . . 4 - 3

List of Switches and Components, Generator . . . 4 - 4

Control Panel Functions. . . 4 - 5

List of Switches and Components, Generator . . . 4 - 6

Switches . . . 4 - 6

Potentiometers . . . 4 - 6

Component Overview (Generator)/Bauteileübersicht (Generator) . . . 4 - 7

List of Signals and Test Points, Generator . . . 4 - 8

Signal Diagram . . . .4 - 14

5 General Functional Diagrams_______________________________ 5 - 1

Block Diagram . . . 5 - 1

Ground, 0V and Protection Ground Distribution. . . 5 - 2

Line Input. . . 5 - 3

Back Plane D700 . . . 5 - 4

Principle Diagram, Master

. . . 5 - 5

Principle Diagram, Tube Filament

. . . 5 - 6

Principle Diagram, Focus Selection Board

. . . 5 - 7

Principle Diagram, Inverter Control and kV Regulation . . . 5 - 8

Principle Diagram, Inverter

. . . 5 - 9

Principle Diagram, Control Panel

. . . . 5 - 10

Principle Diagram, AEC

. . . .5 - 11

6 Generator PC Board Overview ______________________________ 6 - 1

Contact Location . . . 6 - 1

Page

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MAMMOMAT 1000

0

Fig. 1 Mammomat 1000 with generator with integrated control panel and radiation shield.

MAM00702

MAMMOMAT 1000

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MAMMOMAT 1000 WITH REMOTE CONTROL

0

Fig. 2

Mammomat 1000 generator with integrated control panel and radiation shield.

MAM00703

MAMMOMAT 1000

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SYSTEM OVERVIEW

1

MAMMOMAT 3000 Nova

0

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

gen-erator, see overleaf.

Fig. 3

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Fig. 6 Stand with fixed object-table arm

Pivoted object-table arm (“flying wing”) replaced by fixed object-table arm and

counter-weight.

Fig. 4 Free-standing radiation shield with separate controle console

Fig. 5 Separate generator

MAM00423 SIEMENS MAM00706

MAMMOMAT 1000/3000 Nova

MAM00707 Counterweight

Fixed object-table arm

MAMMOMAT 3000 Nova

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PLACEMENT OF PC-BOARDS AND COMPONENTS, STAND

MAMMOMAT 1000

0 Fig. 7 M6 D805 Tube K7-K9 S867* m5* Lamp, X894 S897 R861 S868* m8* X874 M2 (Compression) Strain gauge D804 Object table S1 S2 M X858*** X870 S892 X892 S883 S884 D803 X801 M1 (Lift), X887, R807 R871 S882 D801 D809 S880 S881 S869 M3 (Rotation) X888 D802 D808 Right side D808 Left side R803 X898, R806 R805 X881 X885 X880, X803 T802 T801 X899 F801-805 Incoming mains MAM00708 MAMMOMAT 1000 D807 Right side D807 Left side X877 X878** S865* S866* m4* m7* R863 S861 S862 Z801 * not fitted with one

filter collimator

** not used with one filter collimator

*** not used

**** option, remote control

D813**** _D812****

D813****

D811****

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MAMMOMAT 3000 Nova

0

Fig. 8 Stand with pivoted object-table arm

M6 D805 Tube K7-K9 S867, M5 D807 Right side D807 Left side S865 S866 M4 M7 Lamp, X894 S897 R861 S868 m8 X874 M2 (Compression) Strain gauge D804 Object table S1 S2 M S890 S896 _X858 X870 S891 X891 S895 S883 S884 D803 X801 D810 M1 (Lift), X887, R R871 S882 D801 D809 S880 S896 S881 S869 M3 (Rotation) X888 D802 S894 D808 Right side D808 Left side R803 S860 X898, R806 R805 X880, X803 X881 X885 T802 T801 X899 F801-805 S892 X892 Incoming mains MAM00709 X877 X878 S861 S862 R863 Z801

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PLACEMENT OF PC-BOARDS AND COMPONENTS, STAND

Pivoted object-table arm (“flying wing”) replaced by fixed object-table arm and

counter-weight

Fig. 9 Stand with fixed object-table arm

MAM00707

Counterweight

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PCB Overview

0

Option, remote control (MAMMOMAT 1000 only)

0

Fuses Overview

0

NOTE! See spare parts list for replacement fuses.

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 FIT-TED IN M1000)

D808 BOARD FOR LIFT AND ROTATION SWITCHES D809 THICKNESS ADAPTER BOARD

D810 TILT SWITCH BOARD (Not fitted in M1000)

D811 REMOTE CONTROL TRANSMITTER (2 INCLUDED) D812 REMOTE CONTROL RECEIVER (1 INCLUDED) D813 REMOTE CONTROL DETECTOR (4 INCLUDED)

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 Chassis-mounted fuses 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

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LIST OF SWITCHES AND COMPONENTS, STAND

Switches

0

*

Not fitted in M1000

**

Not fitted in M1000 with one filter

***

Not fitted in M3000 Nova one wing

****

M1000 option, remote control 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 <50 mm, switches off 24VAC, machine blocked.

S883 3-8/4B Collision protection switch, risk of collision when tubehead is less than 120 mm from the floor.

S884 3-9/2G Lift down limit switch, rotating unit. S890* 3-16/3C AEC in position switch (Wing 1)

*.

S891* 3-16/3C Object table locked in position (Wing1)

*.

S892 3-16/2C Object table locked in position (Wing 2)

***.

S894* 3-16/3C Select wing 1 switch

*, ***.

S895* 3-16/3C Select wing 2 switch

*, ***.

S896* 3-13/5B Tilt opto-switch. 0° or ±100 used with stereo option

*.

S897 3-15/2G Diaphragm switch.

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Potentiometers

0

Motors

0

*

Not fitted in M1000 with one filter

Miscellaneous

0

Potentiometer Page Description R803 3-13/2A Tube angle, 2k. R861 3-11/3E Preset force, 10k. R863 3-11/3E Thickness, 2k. R871 3-13/2A Preset angle, 10k.

Motor Page Description

M 3-16/2A Grid motor, placed in object table with grid. M1 3-9/2G Lift motor.

M2 3-12/2G Compression motor. M3 3-9/3G Rotation motor.

M4* 3-15/3D Collimator stepping motor

*

. M5* 3-15/4D Filter stepping motor

*

. M6 3-7/4E Fan, tube cooling. M7* 3-14/4G Mirror magnet

*

. M8* 3-15/5D Focus stepping motor

*

. M9 3-9/5G Rotation brake. M10 3-9/5G Rotation brake.

Misc. Page Description

COMP. UNIT 3-11, 3-12 Compression unit.

CABLE DUCT 3-2/3A Generator to stand cable protection. GROUND RAIL 3-2/1E System grounding terminal.

K7 3-7/4E Fan thermostat.

K8 3-7/4E Tube overtemperature thermostat. K9 3-7/4E Tube housing overpressure switch. L804 - L809 3-9/SG

3-12/2G

VHF choke (EMC) LAMP 3-14/5G Field light lamp. R805 3-9/5G Brake resistor, 6.2Ω. R806 3-9/5G Brake varistor R807 3-9/2G Lift motor varistor.

R860 3-11/2A Strain gauge (R=300-400 Ω) T801 3-3/2C Mains transformer.

T802 3-3/3C Insolation transformer Z801 3-3/4C Stereo mains filter, stand C801 - C803 3-12/5G EMC capacitors

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LIST OF SIGNALS AND TEST POINTS, STAND

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“

_*

SIGNAL” = “SIGNAL” active low

**plus decompression button on separate control console.

Page Signal Name Origin Via Destination Testpoint LED 3-9/1C ACT_SPEED TACHO D802 ACT_SPEED

3-16/3C AEC_POS S890 D801 D801 3-10/2A ANGLE_MEM A.M. -pot D807 D801

3-6/2B AR VH D801 GENERATOR D801 AR

3-11/3B BR_OPEN D804 D804.X843 pin 8 V2

3-11/3B BR_RET D804 D804.X843 Pin 7

3-9/4B

_*

BRAKE D801 D802

3-9/4E

_*

BRAKE_RET D802 M9, M10 D802 3-9/4E

_*

BRAKE_RELAY D802 not used

3-15/3C C_LA D805 M4 3-15/3C C_LB D805 M4 3-9/4E C_LIM D802 V11 3-15/3C

_*

C_PA1 D805 M4 3-15/3C

_*

C_PA2 D805 M4 3-15/3C

_*

C_PB1 D805 M4 3-15/3C

_*

C_PB2 D805 M4 3-12/2D C_PWM D802 M2 D802

3-16/1A CASS_LOADED OBJ. TABLE D805 D801

3-16/2C

_*

COLL_DIR D801 D805 D805 COLL_D 3-16/2C

_*

COLL_STEP D801 D805 D801, D805 COLL_ST 3-16/3E COLL_POS_18X24 18x24 switch D805 D801 COLL_P1

3-16/4E COLL_POS_24X30 24x30 switch D805 D801 COLL_P2 3-12/1E COMP_LIMIT D802 D805 COMP. UNIT

3-12/1B

_*

COMP_DIR D801 D802 D802 COMP_D 3-11/2F COMP_FORCE D804 D801 D804.X843 pin 5 3-12/3E COMP_OK D802 D801 D802 V2 COMP_ERR 3-12/1E COMP_PROT D802 D801 D802 3-12/1B

_*

COMP_SPEED D801 D802 D801, D802 COMP_SP 3-12/4F COMPRESS PEDAL D805 D801, D802 3-9/2D D_PWM D802 D802

3-12/1E DECOMP_ LIMIT D802 D805 COMP. UNIT 3-12/4F DECOMPRESS PEDAL / ** D801 3-9/3B

_*

DIR D801 D802 D802 3-9/4F DRIVE_OK D802 D801 D802 V24DRIVE_ERR 3-9/1E DRIVE_PROT D802 D801 D802 3-15/3D FI_LA D805 M5 3-15/3D FI_LB D805 M5 3-15/3D

_*

FI_PA1 D805 M5

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LIST OF SIGNALS AND TEST POINTS, STAND

Signal Name Description

ACT_SPEED Test point for frequency to voltage converted tacho signal. AEC_POS AEC-detector in position near breast.

ANGLE_MEM Operator control signal for preset stop angle.

AR Signal given to generator as exposure request. If grid used, grid has started. BR_OPEN Bridge open, compression force strain gauge not working correctly.

BR_RET Compression force strain guage return line (appr. 0V) *BRAKE Control signal to brake reversing relay.

*BRAKE_RET Output to the brakes for max or min braking when active.

*

BRAKE RELAY Output to brake reversing relay, max brake if

*

BRAKE_RET active.

C_LA Output line A. Collimator stepping motor M4 C_LB Output line B. Collimator stepping motor M4 C_LIM Rotation and fast-acting current limit

*

C_PA1 Output Phase A1. Collimator stepping motor M4

*

C_PA2 Output Phase A2. Collimator stepping motor M4

*

C_PB1 Output Phase B1. Collimator stepping motor M4

*

C_PB2 Output Phase B2. Collimator stepping motor M4

C_PWM Pulse Width Modulated power output to compression motor. CASS_LOADED Cassette inserted in object table.

*

COLL_DIR Direction Control signal . For the filter stepping motor.

*

COLL_STEP Step control signal for the collimator stepping motor.

COLL_POS_18X24 Signal from the 18 x 24 collimator optoswitch COLL_POS_24X30 Signal from the 24 x 30 collimator optoswitch

COMP Power output via compression limit switch to compression motor.

*

COMP_DIR Controls compression motor to compress (moving down)

COMP_FORCE Analog signal indicating compression force.

COMP_OK Compression motor working correctly, no over current.

COMP_PROT Compression relay K4 is working correctly, checked 1s after pedal release.

*

COMP_SPEED Pulse Width Modulated signal to control speed of compression motor (20kHz).

COMPRESS Operator control signal to move compression plate down. D_PWM Pulse Width Modulated power output to rotation or lift motor. DECOMP Power output via decompression limit switch to compression motor. DECOMPRESS Operator control signal to move compression plate up.

*

DIR Selecting direction of rotation or lift motor.

DRIVE_OK Rotation and lift motor are working correctly, no over current, approx. 1.5 s delay. DRIVE_PROT DMG relay K6 is working correctly, checked 3s after rot/lift button is released. FI_LA Output line A. Filter stepping motor M5

FI_LB Output line B. Filter stepping motor M5

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“

_*

SIGNAL” = “SIGNAL” active low ** M1000 option, remote control, D807 not fitted Page Signal Name Origin Via Destination Testpoint

3-15/4C

_*

FI_PA2 D805 M5

3-15/4C

_*

FI_PB1 D805 M5

3-15/4C

_*

FI_PB2 D805 M5

3-15/2C

_*

FILTER_DIR D801 D805 D805 FILT_D

3-15/2B FILTER_POS Filter switch D805 D801 FILT_P 3-15/2C

_*

FILTER_STEP D801 D805 D805 FILT_ST 3-15/5C FO_LA D805 M8 3-15/5C FO_LB D805 M8 3-15/5C

_*

FO_PA1 D805 M8 3-15/5C

_*

FO_PA2 D805 M8 3-15/5C

_*

FO_PB1 D805 M8 3-15/5C

_*

FO_PB2 D805 M8 3-15/1C

_*

FOCUS_DIR D801 D805 D805 FOCUS_D

3-15/1B FOCUS_POS Focus switch D805 D801 FOCUS_P

3-15/1C

_*

FOCUS_STEP D801 D805 D805 FOCUS_DT

3-16/3B GRID_MOTOR_N D802 D805 OBJ. TABLE D802 GRID_M 3-16/2A GRID_OUT OBJ. TABLE D805 D801 D801 GRID_O

3-16/2G

_*

GRID_SPEED D801 D802 D801 GRID_SP 3-11/3D I1_OUT D804 D804.X843 pin 6 3-6/2B

_*

KVA D801,D701 D702, D705 D700 (GENERATOR) D801 (D705, X715) 3-14/5G LAMP D807, D812** D805 D801 3-14/4C

_*

LAMP_CTRL D801 D802

3-14/5F LAMP_V D802 LAMP D802 LAMP

3-8/3D LED D802 TACHO switch

3-15/2E LED_1 D805 18 x 24 switch 3-15/3E LED_2 D805 24 x 30 switch 3-15/4E LED_3 D805 Filter switch

3-15/5E LED_4 D805 Focus switch

3-10/2A LIFT_DOWN D807, D808, D812** D805 D801, D802 3-10/2A LIFT_UP D807, D808, D812** D805 D801, D802

3-14/4F

_*

MIRROR_MAGNET D802 M7 D802 MIRROR

3-6/3B MPS D801 GENERATOR D801

3-7/4C OKT1_ TUBE/K8 GENERATOR

3-7/4C OKT2_ TUBE/K9 GENERATOR

3-9/2C PGM_SPEED D802 PGM_SPEED

3-13/2D POT_RETURN POT D801

3-11/2E PRES_FORCE R861 D801

3-13/1A PRESET_ANGLE R871 D805 D801

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LIST OF SIGNALS AND TEST POINTS, STAND

*

FI_PA2 Output phase A2. Filter stepping motor M5

*

FI_PB1 Output phase B1. Filter stepping motor M5

*

FI_PB2 Output phase B2. Filter stepping motor M5

*

FILTER_DIR Control signal . For the filter stepping motor.

FILTER_POS Signal from the filter pos collimator optoswitch

*

FILTER_STEP Step control. For the filter stepping motor.

FO_LA Output line A. Focus stepping motor M8 FO_LB Output line B. Focus stepping motor M8

*

FO_PA1 Output Phase A1. Focus stepping motor M8

*

FO_PA2 Output Phase A2. Focus stepping motor M8

*

FO_PB1 Output Phase B1. Focus stepping motor M8

*

FO_PB2 Output Phase B2. Focus stepping motor M8

*

FOCUS_DIR Control signal for the focus stepping motor.

FOCUS_POS Signal from the focus pos collimator optoswitch.

*

FOCUS_STEP Step control signal for the focus stepping motor.

GRID_MOTOR_N Grid motor return line.

GRID_OUT Active when the grid is not in end position.

*

GRID_SPEED Pulse Width Modulated signal control speed of grid motor.

I1_OUT Output signal from compression force preamplifier.

*

KVA Signal to terminate exposure. WIRED-OR line, see generator.

LAMP Operator control signal for the field light lamp.

*

LAMP_CTRL Signal to switch on the field light lamp.

LAMP_V Output to the field light lamp.

LED Output to the LED in the tacho opto switch in the rotation motor. LED_1 Output to the LED in the 18 x 24 collimator opto switch. LED_2 Output to the LED in the 24 x 30 collimator opto switch. LED_3 Output to the LED in the filter collimator opto switch. LED_4 Output to the LED in the focus collimator opto switch. LIFT_DOWN Operator control signal to move compression plate down. LIFT_UP Operator control signal to move compression plate up.

*

MIRROR_MAGNET Output to mirror magnet. Enabled via

*

LAMP_CTRL.

MPS Multi processor serial communication for information exchange Master - Slaves. OKT1_ Signal from temperature switch K8 on the tube.

OKT2_ Signal from the over pressure switch K9 on the tube.

PGM_SPEED Test point for duty cycle to voltage converted programmed speed signal. POT_RETURN Return line for potentiometers connected to 0VA via a 20Ω resistor. PRES_FORCE Analog signal as preset value for maximum compression force. PRESET_ANGLE Analog signal as preset value for requested rotation angle.

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“*SIGNAL” = “SIGNAL” active low. ** Not used with software v2.1 or higher.

*** M1000 option, remote control, D807 not fitted

Page Signal Name Origin Via Destination Testpoint LED

3-12/2D PU D802 PU 3-9/4B

_*

RELEASE D801 D802 D802 3-6/1E

_*

RESET D801 3-6/1E

_*

RESET_HW D801 3-6/1E RESET_SW D801 3-10/3A ROT_CW D807, D808, D812*** D805 D801, D802 3-10/3A ROT_CCW D807, D808, D812*** D805 D801, D802 3-13/4A ROT_POS** D806** D801 3-6/3D RXD GEN. D801 D801 3-9/3B

_*

SEL_ROT D801 D802 D802 SEL_ROT 3-16/3C SELECT_WING1 S891 D801 3-16/4C SELECT_WING2 S892 D801 3-9/2B

_*

SPEED D801 D802 D801, D802 SPEED 3-15/2C

_*

STEP_ENABLE D801 D805 D805 STEP_EN 3-15/1B STEREO_COLL S897 D801 3-16 STEREO_LEVER S860 D805 D801 3-14/1B TABLE_CONFIG OBJ.TABLE D805 D801

3-8/3G TACHO Tacho switch D802 D802 TACHO 3-11/3E THICKNESS R863 D801

3-11/5E THICKNESS_B THICKNESS D809 3-11/5F THICKNESS_STE-REO D809 X885 3-13/5B TILT S896/D810 D805 D801 D810 V8 3-13/2A TUBE_ANGLE R803 D801 3-6/4D TXD D801 GENERATOR D801 TXD 3-6/3B VH GEN. D801 3-11/3C ZERO D804 D804.X843 pin 4

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LIST OF VOLTAGES AND TEST POINTS, STAND

PU Pull up signal for error comparators = +15V, +5V, +24V voltages OK.

*

RELEASE Control signal to release the brakes from min or max to permanent magnet braking.

RESET Reset signal to the CPU.

RESET_HW Reset signal from the CPU to the reset cicuit, caused by slave restart and CPU watchdog reset.

RESET_SW Signal from the reset switch to the CPU via the reset circuit. ROT_CW Operator control signal to rotate the x-ray system clockwise. ROT_CCW Operator control signal to rotate the x-ray system counter clockwise. ROT_POS Low level signal pulse indicating +10 or -10 degrees of rotation. RXD Input for receiving data via MPS.

*

SEL_ROT Low level signal selects the rotation drive to be controlled.

SELECT_WING1 Signal from select wing 1 switch. Wing 1 selected. SELECT_WING2 Signal from select wing 2 switch. Wing 2 selected.

*

SPEED Pulse Width Modulated signal to control speed of rotation or lift motor (20 kHz).

*

STEP_ENABLE Control signal to enable all stepping motors.

STEREO_COLL External diaphragm switch, diaphragm in place. For stereo or spot diaphragm, 18 x 24 collimator in M1000 with one filter.

STEREO_LEVER Signal from stereo lever switch, indicating lever not in stereo position. TABLE_CONFIG 4 inputs from object table, see table configuration .

TACHO Signal from rotation motor tachometer.

THICKNESS Analog signal indicating the compression thickness.

THICKNESS_B Buffered output to the thickness adapter board D809 (Stereo option)

THICKNESS_STE-REO Isolated analog signal indicating compression thickness for stereo evaluation unit. TILT Indicates that the stereo angle is 0° or ±10°. Visible through vent opening behind tube. TUBE ANGLE Analog signal indicating the rotation angle.

TXD Output for sending data via MPS.

VH The stand is informed that the generator has completed its preparation. ZERO Used for adjusting offset of the compression force amplifiers.

(22)

Page Voltage Origin Supplied from Supply for Test LED Fuse 3-3/4E +5V D801 11V Digital IC,

+5V_REF 5V V7 D801/F1 F801 3-3/4E 3-11/3B +5V_REF D801 +5V Pots. D804 5V_REF X843 pin 2 D801/F1 F801 3-3/3E +5V_DSP D801 11V D803, Display 5V_DSP V6 D801/F1 F801 3-3/2E 3-10/3B +7V D801 11V Analog IC, D804 7V X843 pin1 V5 D801/F1 F801 3-3/3E +5V_MPS D801 11V_MPS Generator interface 5V_MPS V26 D801/F2 F802 3-3/3D 0VD GND D801/X811 Digital IC 0VD1,OVD2 3-3/3D 3-10/3B 0VA 0VD D801 Analog IC D804 0VA1 X843 pin 3 3-6/5D 0V_MPS D700/GND Generator inter-face ground D801 MPS 3-3/2C 11V T801 230VAC +5V, +5V_DSP, +7V D801/F1 F801 3-6/5B 11V_MPS T801 230VAC +5V_MPS D801/F2 F802 3-4/3D +5V D802 14VAC Digital IC 5V V57 D802/F1 F803 3-4/4E +5V_M D802 +5V D801-D802 opto interface V57 D802/F1 F803 3-2/5C 0V_W D801 D805/X856 Optointerface 3-2/4C 0V_M D801 D802/X822 Optointerface 3-4/3D +14V D802 14VAC +5V, D805 14V D802/F1 F803 3-4/2D +15V D802 +24VF Transistor drivers M1,M3 15V V16 D802/F2 3-4/2C +24V D802 24VAC +15V D802/F3 F805 3-4/2D +24VF D802 +24V Switches, relays, etc 24VF D802/F2

3-4/3A 14VAC T801 230VAC +14V D802/F1 F803

3-14/5B 17VAC T801 230VAC LAMP 17VACF D802/F5 F804 3-14/4E 17VACF D802 17VAC LAMP 17VAC_RET D802/F5 F804 3-14/4D 0V_L D802 D802 Lamp control

3-14/5D -V_L D802 17VACF Lamp control

3-4/2A 24VAC T801 230VAC D802/F3 F805

3-4/2E 24VACF D802 24VAC Fan D802/F4

3-4/3B 0V GND D802/X821 Ground 0V, 0V1

3-4/2F +5V D805 D802/+14V Digital IC 5V V17 D802/F1 F803 3-4/2G +5V_R D805 +5V User switches D802/F1 F803

(23)

LIST OF VOLTAGES AND TEST POINTS, STAND

Voltage Description ( typical value)

+5V Regulated DC voltage, 4.75V < +5V < 5.25V +5V_REF DC voltage, +5V -5% < +5V_REF < +5V

+5V_DSP Regulated DC voltage, 4.75V < +5V_DSP < 5.25V +7V Regulated DC voltage, 6.60V<+7V<7.25V

+5V_MPS Regulated DC voltage, 4.75V < +5V_MPS < 5.25V 0VD Digital ground

0VA Analog ground

0V_MPS Generator interface ground. Floating, grounded by generator. 11V AC supply voltage, 11VAC 1) 2)

11V_MPS AC supply voltage, 11VAC 1) 2)

+5V Regulated DC voltage, 4.75V < +5V < 5.25V

+5V_M Regulated DC voltage, 4.75V < +5V_M < 5.25V for optointerface D801-D805 0V_W Digital ground optointerface D801 - D805

0V_M Digital ground optointerface D801 - D802 +14V Unregulated DC voltage, 18V 1)

+15V Regulated DC voltage, 14.25V < +15V < 15.75V +24V Unregulated DC voltage, 32V 1)

+24VF Unregulated DC voltage, 32V 1) 14VAC AC supply voltage, 14 VAC 1) 2) 17VAC AC supply voltage, 17 VAC 1) 2) 17VACF AC supply for lamp 1)2)

0V_L Floating ground for LAMP voltage regulation 1)2) -V_L Unregulated supply voltage for lamp control circuit 1)2) 24VAC AC supply voltage, 24VAC 1) 2)

24VACF AC supply voltage for the fan 1)2) 0V Circuit ground

+5V Regulated DC voltage, 4.75V < +5V < 5.25V +5V_R Regulated DC voltage, 4.40V < +5V_R < 5.25V

(24)

1)_{STANDBY TYPICAL VALUE, 230VAC INPUT}

2)_{Floating voltage. Measure with digital multimeter or differential amplifier.} Page Voltage Origin Supplied

from

Supply for Test LED Fuse 3-3/2B 230VAC Generator D711/X14 Stand X881/2,3

3-3/1C P.E. Stand X899 Inc. mains voltage Whole system X899/PE 3-3/1C N Stand X899 Inc. mains voltage Whole system X899/N 3-3/1C L1 Stand X899 Inc. mains voltage Whole system X899/L1 3-3/1C L2 Stand X899 Inc. mains voltage Whole system X899/L2 3-3/1C L3 Stand X899 Not used X899/L3

Voltage Description ( typical value)

230VAC Stand mains voltage input, 207VAC < 230VAC < 253VAC P.E. Protective earth terminal, incoming mains

N Neutral line terminal, incoming mains L1 Line 1 terminal, incoming mains voltage L2 Line 2 terminal, incoming mains voltage

L3 Not used

(25)

1 2 3 4 5 ABCDEFG X8 2 4 X8 2 3 X8 2 6 X8 6 8 X8 6 8 X8 5 1 X8 5 7 X8 5 9 X8 6 5 X8 6 9 X8 7 1 X8 8 9 Z8 01 T8 02 St er eo ( opt ion) X8 8 5 X8 9 3 X8 9 1 X8 9 2 X8 8 3 X8 8 4 X8 0 8 X8 0 7 230 V A C Tos te reo .

BLOCK DIAGRAM CABLE CONNECTIONS

ST AND G E NERA T O R U S E R I N T E RF AC E OBJ E CT T A B L E 1 T ABLE BA SE 1 O B J EC T T ABLE 1 T . IN P O S CASS I N PL AC E GR ID OU T GR ID CO M P DE C O M P RO T C W R O T CCW LI F T U P LI F T D O WN LAM P AN GLE M E M +5 V _ R GEN X1 0 X1 1 X1 X8 1 5 X8 1 3 X8 1 4 X 812 _X813 _X814 X 855 X 856 X 860 X 858 X 870 X 856 X 863 X 868 X 816 +7V +5V +5V _ MP X 811 23 0V F R OM GE N E R A T O R T801 X 886 X 886 X 899 IN CO M ING M A IN S 1 1 0 , 208, 230, 240, 27 7 O R 400V SIN G LE OR T W O PH ASE X8 8 6 +24 V +15V +14 V +5V 17V A C X8 2 1 X8 0 1 D 802 M O T O R CO NT R O L D 805 WI N G BO AR D X 822 X 823 X 824 X8 2 3 X8 2 4 X8 2 5 X8 2 4 D8 0 3 DI S P L A Y F D 804 C O M P RESS IO N FO R C E C O M P RESS IO N COM P R ESSION PRE SET FO R C E X8 7 4 X8 4 1 X8 6 1 X8 8 8 D 806 * AN G L E DE T E C T O R R O TA TI O N R O TA TI O N M2 M3 M6 M1 FA N L IF T T U BE T E M P , PRES SUR E X8 9 5 X8 9 5 X8 8 7 X8 5 3 X8 9 4 LA MP CO LLI M A T O R D 801 C P U BO ARD 80 C 5 3 5 M OBJ E C T T ABLE 2 ST EREO SE T W IN G 1 AE C I N _ P O S +5 V +/ 4V M4 M7 M8 M5 X8 7 7 X 852 X8 6 6 X 879 X 890 X8 6 7 X8 7 8 SPO T ST ER EO TI LT ST ER EO L EVER TA C H O BR AKE M9, M10 FO C U S FI LTE R MI R R OR 18 X 2 4 24 X 3 0 X 854 X8 0 9 * D 8 06 n o t used w it h sof tw a re v2. 1 or h igh er . X8 0 2 D8 0 9 D 810 ** REM O TE C O NTROL O P TION X1* * X3 ** X 864 *

(26)

1 2 3 4 5 ABCDEFG X8 8 5 25 24 23 22 FERRIT SLEEVE 4 6 4 6 X1 4 L2 L1 F O R FOO T SW ITCHES 87

GROUNDING CONNECTIONS

LI F T CAR R IAGE X8 9 9 1 UPPER GEN E RA T O R CAB L E ST AND CABLE DUCT X 880 4 P. E . ST AND INCOM ING MAI N S CUR T A IN GRO UND R A IL LO WER COM P RESSI ON UNIT FI LAM E N T RO TATI O N X 896 H3 X897 TUBE HOU S ING REA R CO VER FR O N T CO V E R Ster e o op ti on DETECTOR 0V _R D L 4 X8 8 4 WI N G 1 X1 D 805 WI N G BOARD X8 5 9 X 8 55 ₁₂ X8 5 6 25 27 29 30 0V S H LD _1 X 855 3 4 5 X8 6 8 5 6 X8 6 3 1 SH L D NO T E DO T T E D C O NN ECT IO N S I N DI CAT E SHI E L D ED CAB L ES WI T H O U T 0 V CO NN ECT IO N TUBE_AN GLE PRESET_ANGLE R8 0 3 2k R8 7 1 10 k D8 0 2 MOT O R BOARD 2 58 X8 2 1 X 822 1 2 3 4 5 6 8 0V X 812 1 2 3 4 5 6 8 _X81 3 1 2 33 34 X8 1 4 14 16 15 9 17 0V _ W 20 0V D PO T _ R E T R8 6 1 10k R 863 2k 0V A X 874 7 2 6 X8 4 1 2 D 804 CO M P R ESSI O N F O RCE COM P RESSIO N UNI T PR ES_ F O R C E TH IC K -NE SS X8 1 1 3 4 X 815 1 3 7 8 X 801 15 16 17 18 0V D 0V X8 1 3 36 0V _ M P S D 806* D 803 DIS P L A Y D8 0 1 CPU 0V _A X 816 15 16 17 18 X1 1 3 6 ₁₁ GN D X1 1 X9 X8 P ANGLE DETECTOR 4 6 8 X8 6 1 ₄ WI N G 2 X 891 X8 7 1 X8 2 3 8 5 4 X8 8 3 X1 0 0V _R D L 4 6 8 X8 7 0 X8 5 8 0V 0V _ M X8 6 0 X8 9 2 X8 0 9 0V 0V _A D809 X8 0 9 3 7 13 13 X8 8 5 X8 9 3 13 TUBE PLATE TUBE CHAS S IS PATIEN T HANDL E PATIENT HANDL E * D 806 not used wi th s o ft wa re v2. 1 or hi gher FERRIT SLEEVE X893 25 24 23 22 X2 D8 1 0 X81 0V N O T FI TTE D IN M 1 00 0 X 860 2 M10 00 OP T ION D8 1 2 X81 0V

(27)

1 2 3 4 5 ABCDEFG 0V _ M P S V2 6

MAINS CONNECTION, POWER SUPPLY CPU

=

GENERA T O R S T A ND TW O PHASE IN C O MIN G MA IN S 208 ,2 30, 24 0, 277 , OR 4 00 V P. E . N L 1 L 2 L 3 X 899 F10 F20 T1 0 D7 1 1 X1 4 3 1 3 X8 8 6 3 X8 8 6 1 2 YE YE 230 V AC T801 11 V 48 X 811 9 6 7 GN D P. E. GR OU N D R A IL RD GN D8 0 1 F1 2A T 0V A 0V D 11 V _ M P S (SEE PAG E 3 -6 ) D8 0 1 7V 7V 0V A 1 V5 0V A 0V D V6 +5V _ D S P 0V D 2 5V _ D S P +5 V _ R E F 5V _ R E F 0V D V7 +5 V 6. 8 5V 0V D 1 0 VA1 7V 0V D 1 5V F1 _2AT F2 _1AT X 811 V5 V6 V7 GENERA T O R S T A N D SING LE PHASE IN C O MI N G MA IN S 11 0, 208 ,2 30, 24 0 OR 27 7V P. E . L 1 L 3 X 899 F10 P. E . G R OU N D R A IL NL 2 X 881 1 0V D 2 5V _R E F 5V _D S P 0V D 2 5V _MP S X 886 A 3 ₄ F8 01 X 886 A 1 2 2 A T 2 3 X8 8 1 2 Z3 S URGE -ARR EST ER VA R IS T O R V V X8 0 2 3 X 802 X8 8 0 -4 42 2 1 1 T802 Z801

~

(28)

1 2 3 4 5 ABCDEFG 14 V A C R X 8 2 1 2 0 V F 4 1 A T

POWER SUPPLY MOTOR CONTROL

~

=

~

=

5V 15V V5 7 V1 6 X8 2 1 X8 2 4 X8 2 3 X 855 X 856 X 857 X8 5 9 X 860 F1 F2 F3 F4 F5 X8 2 2 3.15AT 5AT 6.3AT 1AT 5AT X 868 X8 6 9 X8 7 2 X8 7 1 X8 7 3 X 864 X8 6 5 X8 6 6 D 802 D 805 0V +5 V _ R 50 +5 V V3 5 5V +1 4V + 2 4 V F UR E G 5V D 805 X8 6 0 4 6 X8 2 4 9 18 24 V A C F 2 4V A C F R + 2 4 V F X 823 12 14 X 822 7 + 2 4 V F + 2 4 V F + 2 4 V F M O T OR _ V O L T X 823 8 0 V X 823 9 + 1 4 V + 5 V _ M + 5 V X 822 10 X 824 11 + 5 V 5 V V 5 7 0 V 1 4 V U R E G 5V 0 V 0 V 0 V 0 V 1 1 5 V + 1 5 V V 1 6 0V U R E G 1 5 V 2 4 V F + 2 4 V 0 V F 2 3 .1 5 A T F 1 5 A T 1 4 V A C R F 3 6 .3 A T X 8 2 1 6 1 X 8 2 1 4 3 S 8 8 0 X 8 8 6 A 9 10 B K W H 1 4 V AC 1 7 V AC (S E E P A G E 3 -1 3 ) S 8 8 0 E M E RG E N C Y S T O P X 8 8 6 A 1 3 X 8 8 6 A 1 4 V T G Y T8 0 1 S 8 8 2 2 4 VA C 8 8 6 1 2 Y E E E P A G E 3 -3 ) Y E D 8 0 2 11 17 0V 5 8 0 V 5 14V V3 5 X 8 8 6 1 4 F 8 0 5 6 .3 A T X 8 8 6 1 3 X 8 8 6 9 10 F 8 0 3 5 A T 0V 0V 1 0V 24 V F 0 V 5V

(29)

1 2 3 4 5 ABCDEFG

DISPLAY

D 803 0V D D0 D1 D2 D3 D4 D5 D6 D7 3 4 5 6 7 8 9 10 X 801 EN C1 1D DA T A x8 OK OPCO M D8 0 3 _OPC O M FO R C E X 801 T H IC KNES S OK AN G L E 0V D 1 5V _D S P V6 X8 1 6 D 801 B IN /OC T 0 1 2 3 4 5 6 7 1 2 4 & 0V D AD DR ESS +5V _ D S P ST R O BE A3 A2 A1 14 11 12 13 ADD R ESS ST R O BE A3 A2 A1 14 11 12 13 ADD R ES S +5V _ D S P 3 4 5 6 7 8 9 ₁₀ X8 1 6 D0 D1 D2 D3 D4 D5 D6 D7 DA T A PO WE R SU PPL Y 0V 15 16 17 18 1 2 19 20 15 16 17 18 1 2 19 20 0V DAT A CPU D 801 x8 0V D 1 5V _ D S P

(30)

1 2 3 4 5 ABCDEFG D8 0 1 TESTPOI N TS AN D LED’ s X8 1 2 X8 1 3 X8 1 6 PRO M CPU J1 V1 V2 V3 V4 AR KV A C O LL_ S T GR ID _S P CO M P _ S P SP EED FI LT_P GR ID _0 TX D RX D 0 VA1 _7V _5V_R E F 5V _D S P X8 1 4 X8 1 1 F1 0V D 1 5V MP S X8 1 5 F2 V7 V6 V5 S1 R ESET SWI T CH

CPU BOARD INTERNAL, GENERATOR INTERFACE

~

=

6 5 4 1 3 7 8 2 X 811 1 2 X1 12 5 6 3 1 4 11 ₂ GENERATOR S TAND D 700 BACKPLANE D8 0 1 * KVA VH AR 0V _MP S MP S GN D C O M M U NI CAT IO N T8 01 BU BN 11V_MPS X8 8 6 A 56 F2 1A T GENERATOR IN T E RFACE FL O A TING, GR OUNDED BY G E NERATOR V2 6 0V _MP S 0V _MP S +5V _ MP S 5V _ M P S TX D RX D +5V _ MP S 0V _MP S MP S 0V _MP S 0V D 1 0V D 80 C 5 3 5 CPU 0V A * AR * KV A J1 X1 12 M H z ST AT US L E D’ s V1 V2 V3 V4 DAT A AN D AD DR ESS PR OM RAM EEPROM 12 8k x 8 32k x 8 8 k x 8 * R ESET R ESET 0V D S1 * RESE T SW * RES E T _ H W +5 V * R ESET CO M P <4. 6 V STATUS L E D ’ s DUR ING STARTUP: PROM /RAM TEST V1, V4 LIT. V2 , V3 L IT IF P R OM CHECKSUM ERRO R . V3 , V4 L IT IF R A M ER ROR . ALL TESTS PASSED, V1-V 4 AR E DARK. X8 1 5 0V _M P S _5V_ M P S V2 6 FO C U S _ P RO T _ PO S C O LL_ P 2 C O L L_P 1 0V D 2 X 886 56 _F802 1A T I9

(31)

1 2 3 4 5 ABCDEFG F4 _1AT LG_ F OC 1 K5 0V _FI L SM _ F O C 1 BI A S h2 W h1 W h2 M h1 M H3 G 4

TUBE, TEMPERATURE MONITORING

ϑ ϑ

~

G E NER A TO R S TAND H1 HIG H VO L T A G E GE N E R A T O R X9 8 12 C5 1 K4 9 X9 5 1 2 1 0 2 1 0 RO TATI O N 1 X8 3 2 5 6 1 2 3 4 0 FI LAM E N T 9 X1 3 8 GN D OK T 2 _ T U B E _ OK T 1 _ T U B E _ 7 ₁₀ + 15V _E X T + 15V _E X T D 801 0V _ M P S D 802 6 X 821 1 F3 6. 3A T S8 8 0 EM ERGENCY STOP S8 8 2 13 X8 8 6 A 14 2 4 VAC 2 4 VAC RN T801 +24 V 0V 9 X8 2 4 18 6 X 8 95/ H 11. X 1 4 5 3 2 1 M6 D8 0 1 X 815 FAN 2 X 895 /H 11. X 1 1 K7 K8 K9 P D 802 F3 F4 X8 2 4 TUB E FAN TUBE FR O N T V IE W I O II T O P VI EW K7 K8 K9 START F A N START W A RNIN G BLINK ON PANEL IN HIBI T EXPOSUR E K8 K9 K7 TO H 1 X8 9 7 0 I II X8 9 6 h1M h3 h2M G K8 K7 K9 TUBE H1 1 X 815 3 4 X8 2 1 G 0 2 1 1 h1W h2 W M W SM _ F O C 2 LG _FOC 2 F805 6.3A T X8 8 6 14 13 VT GR BN YE WH BN YE BU PK GY WH

*

YE WH BN RU PK GY WH BN

*

AL T E R N AT IV E C ABL IN G

*

(32)

1 2 3 4 5

ABCDEFG

LIFT AND ROTATION

25 X826 GND 1 2 3 4 5 RD BK WH BU GN DRIVE_ERR T A CHO

PGM_SPEED ACT_SPEED *DIR *SPEED *SEL_R

O T DRIVE_PR O T 0V X825 X822 V24 K2 K3 X823 BRAKE_RET LAMP D_PWM D802 S1 0V1 T A CHO S869 M X888 L808 R O T A TION M OTO R M3 L809 BK RD 2 1 RD BK WH BU GN M L806 GN L807 M1 RD R807 UP LIMIT DO WN LIMIT S881 S884 X887 2 LIFT MO T O R X887 1 DRIVE_PR O T X812 21 T ABLE_CONFIG X814 COMP_FORCE TUBE_ANGLE X813 X813

COLLISION ANGLE_MEM LAMP DRIVE_OK

X812 25 8 31 13 22 LIFT_UP LIFT_DO W R O T_CCW R O T_CW 25 26 13 16 (X4) 20 KHz PWM (T ABLE IN PLA CE) *SPEED CPU 0VD D801 0VD1 *SPEED *SPEED T A CHO PGM_SPEED X825 X822 X812 4 17 17 D802 A CT_SPEED *DIR *DIR *SEL_R O T *SEL_R O T 14 14 11 11 S1 0V1 0V 1 2 3 +3%+6%+12%+24% SER V O 0V 0V X824 5 10 1 2 M1/M3 S883 +24VF COLLISION R O T_CCW R O T_CW

LAMP ANGLE_MEM _{LIFT_UP} _{LIFT_DO}

WN X822 16 13 21 DRIVE_PR O T X822 X823 4 D_PWM 13 10 7 3 6 17 15 x825 4 5 CURRENT LIMIT (F A C T O R Y ADJUSTED) BRAKE_RET LED +5V +24VF 24VF 0V 0V +5V DRIVE_OK 1 2 3 5 X824 26 22 8 T A CHO *BRAKE_RETURN R805 X898 RD 1 2 R806 M9 _M10 BRAKE BU D801 *SPEED X812 X813 0VD1 SEE P A GE 3-10 SEE P A GE 3-14

(33)

1 2 3 4 5

ABCDEFG

LIFT AND ROTATION MOTOR DRIVE

25 X824 5 10 1 2 X822 16 13 26 PWM MUX F/V R805 _X898 RD 1 2 R806 M9 M10 BRAKE BU 20 KHz PWM CPU M X888 L808 R O T A TION M OTO R M3 L809 BK RD 2 1 0V COMP Y X X>Y D > C1 R 0VD 0VD1 M D801 *SPEED & L807 RD M1 GN L806 R807 X887 S884 DO WN LIMIT UP LIMIT 2 X887 1 S881 LIFT MO T O R T A CHO *BRAKE_RELA Y X824 8 15 +24VF *BRAKE_RETURN 17 22 6 3 7 10 13 X823 4 X822 21 +24VF K3 +24VF K2 +5V DRIVE ERR OR V24 (O VERCURRENT) +24VF DRIVE_OK 0V +5V C_LIM V11 BRAKE_RET 0V 0V 0V 0V 0V 0V +5V 0V PU 4 3 +24VF K7 +24VF K6 D_PWM 0V +24VF +24V (O VER-CURRENT) S1 1 2 0V +3% +6% +12% +24% CURRENT LIMIT +5V +24VF +24VF 0V DRIVE_OK +5V 0V 0V PGM_ SPEED A CT_SPEED T A CHO *SPEED X825 4 X812 X822 17 17 D802 0V *SEL_R O T SER V O S1 *DIR 5 *RELEASE 11 14 14 18 18 11 15 15 *BRAKE LIFT_UP LIFT_DO WN R O T_CCW R O T_CW CPU SEE P A GE 3-8 T A CHO CPU SEE P A GE 3-8 DRIVE_PR O T

(34)

1 2 3 4 5 ABCDEFG LA MP 36 LA MP LA M P X8 0 8 1 X8 5 1 X8 8 9 X 856 X8 6 5 D 805

LIFT AND ROTATION SWITCHES

RO T _ C W F U N C T IO N AL T ABL E F O R S 1 -S 6 O N D 807 , D 8 08 PO SI T IO N S1 LIFT_ A S2 LIFT_B S 3 S4 S5 (NO T USED ) S6 LE FT S .B . L_ D O W N L_U P R OT_ C W R OT_C C W A N GLE _ M E M L A M P RI G H T S. B. L _ U P L _ D O W N R O T _ C W R O T _ CCW ANG L E_ M E M L AM P S3 S4 S1 S2 S3 S4 S1 S2 S6 S5 X8 0 7 X8 0 8 D8 0 7 D 808 RO T _ CC W LI FT_ D O W N LI FT_ U P RO T _ CW 20 10 12 22 TO D 8 0 1 , D 802, S88 3 SEE PAG E 3 -8 X 851 1 2 3 4 5 6 7 8 +5 V _ R LI FT_ D O W N LI FT_ U P RO T _ CW RO T _ CC W X8 6 5 1 2 3 4 5 6 7 8 +5 V _ R LI FT_D O W N L IFT_ U P RO T _ CW RO T _ CCW X 889 1 2 3 4 5 6 7 8 +5V _ R LI FT_D O W N LI FT_U P RO T _ C W RO T _ C C W +5V _ R LI FT_A LI FT_B RO T _ CW RO T _ CC W X8 0 8 1 3 5 7 9 11 13 15 S PARE 1 S PARE 2 S PARE 3 +5V _ R LI FT_A LI FT_B RO T _ C C W AN G L E_ M E M LA MP S PARE S1 S2 S3 S4 S5 S6 X 807 1 2 3 4 5 6 7 8 LEFT SIDE BOAR D D 807 +5V _ R LI FT_A LI FT_B RO T _ C C W AN G L E_ M E M LA MP SP ARE S1 S2 S3 S4 S5 S6 X8 0 7 1 2 3 4 5 6 7 8 RIG H T SID E BOARD D8 0 7 RO T _ C W +5 V _ R LI F T _ A LI F T _ B RO T _ C C W SPAR E 1 S1 S2 S3 S4 RO T _ C W SPAR E 2 SPAR E 3 S1 S2 S3 S4 X8 0 8 2 6 4 8 10 12 14 16 3 5 7 9 11 13 15 X 808 2 6 4 8 10 12 14 16 D 808 D 808 RI GHT SI DE BO ARD L EFT SIDE BOARD D 805 34 AN G L E_ M E M SPA RE AN G L E_ M E M +24 V F X 856 +24VF SPAR E AN G L E_ M E M 7 14 16 15 13 0V

(35)

1 2 3 4 5 ABCDEFG 8 7 6 5 4 3 2 X8 6 5 1 LA MP 36 LA MP LA M P X8 0 8 1 X8 5 1 X8 8 9 X 856 X8 6 5 D 805

LIFT AND ROTATION SWITCHES,

M1000 WITH REMOTE CONTROL

FU N C TI O N A L T A B L E FO R S 1 -S 4 ON D 8 08 PO SI T IO N S1 LIF T _ A S2 LIFT_B S3 S4 LE FT S .B . L_ D O W N L _ U P R OT _ C W R O T _C C W R IGH T S .B . L _ U P L_D OW N R O T _C W R OT _ C C W S3 S4 S1 S2 X8 0 8 D 808 RO T _ CC W LI FT_ D O W N LI FT_ U P RO T _ CW 20 10 12 22 TO D 8 0 1 , D 802, S88 3 SEE PAG E 3 -8 X8 6 4 1 2 3 4 5 6 7 8 +5 V _ R LI FT_ U P LI FT_ D O W N RO T _ CW RO T _ CC W +5 V _ R LI FT_D O W N L IFT_ U P RO T _ CW RO T _ CCW X 889 1 2 3 4 5 6 7 8 +5V _ R LI FT_D O W N LI FT_U P RO T _ C W RO T _ C C W +5V _ R LI FT_A LI FT_B RO T _ CW RO T _ CC W X8 0 8 1 3 5 7 9 11 13 15 S PARE 1 S PARE 2 S PARE 3 X3 8 7 6 5 4 3 2 1 D 812 +5 V _ R LI F T _ A LI F T _ B RO T _ C C W SPAR E 1 S1 S2 S3 S4 RO T _ C W SPAR E 2 SPAR E 3 S1 S2 S3 S4 X8 0 8 2 6 4 8 10 12 14 16 3 5 7 9 11 13 15 X 808 2 6 4 8 10 12 14 16 D 808 D 808 RI GHT SI DE BO ARD L EFT SIDE BOARD D 805 34 AN G L E_ M E M SPA RE AN G L E_ M E M +24 V F X 856 +24VF SPAR E AN G L E_ M E M 7 14 16 15 13 X8 5 1 1 2 3 4 5 6 7 8 SO L D ER E D +5 V +5 V X8 1 0V X8 6 0 0V 0 5 +5 V 0V +5 V AD R SW 1 D8 1 3 D8 1 3 D 813 D8 1 3 I 2 I 1 X1 D X1 C X1 B X1 A +5V 0V 0 D8 1 1 LI FT_ U P RO T _ CW LI FT_D O W N RO T _ CC W LA MP I 4 I 3 1 2 3 4 5 6 X2 B 10 9 8 7 6 5 4 3 2 1 10 9 8 7 6 5 4 3 2 1 5V S1 S2 S5 S4 S6 + D811 JP1 0 5 AD R +

_

0 5 LE D I 1, 2,3 OR 4 X1 (A ,B ,C OR D) D81 3 SW 1 0 5 X2B X2A X81 X3 9 7 31 X 860 X8 6 4 0V 5V R5 0 0 OH M +5V _ R AD R X2 A D8 1 1 D8 1 3 D8 1 2 + -

(36)

1 2 3 4 5 ABCDEFG 0V T H IC KNE SS_ ST ERE O +5 V X 885 X8 9 3 s e e pag e 3-1 6 13 13 7 7 1 1 D8 0 9 CM R SH IE L D T H IC KN ESS_ B 7 8 6 5 3 4 1 2 X 809 X8 0 9 0V A 0V A 0V A 5V _R E F

COMPRESSION MEASUREMENT SIGNALS

D8 0 3 OP C O M FO R C E T H IC KNES S OK X8 1 6 D 801 C O M P RESSI ON UNIT +5 V _ R E F R RR R F S T R A IN G A U G E O FFS E T 20 k X 842 1 4 2 3 D 804 0V A + 5 V _R E F +5 V _ R E F 0. 1V +5V _ R E F +5V _ R E F +7 V 0V A GA IN 20 k V2 (B R O PEN ) X 841 2 1 3 4 BR_RET X8 4 3 2 71 3 8 5 6 +5V_REF +7V 0VA BR_OPEN ZERO COMP_FORC 11_OUT BR_OPEN BR_RET I1_OUT COMP_FORCE ZERO 0VA 5V_REF +7V X8 4 1 GA IN OF F S E T V2 X 842 D8 0 4 T EST CO NN ECT O R +5V _ R E F X 874 6 7 8 1 4 3 5 2 P O T_ R E TU R N PR ES_ F O RCE TH IC K N E S S 10 k 2k R8 6 3 R8 6 1 X 801 _1-20 X8 4 3 0 VA1 _7V X 814 CO M P _ F O R CE R 860 P O T _ RE T U RN S E E P A G E 3-13 4 0V A +5 V _ R E F +7 V 0V A 10 3 8 4 6 15 X8 1 4 16 0V D CPU A/D 1 1 1 20 P O T_R E TU R N X8 1 6 1-20 D 801 1 +7 V X8 1 4 11 13 12 + -+ D8 0 9 X 809

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1 2 3 4 5 ABCDEFG 0V S3 D E CO M P R ESSI O N BU T T O N ( O N L Y O N SEPAR AT E C O NT RO L C O N S O L E) +2 4 V F 4 3 2 1 X8 0 3 C8 0 1 C8 0 2 C 803 1 1 2 BK GN L 805 L80 4 X8 6 0 3 V1 6 X8 1 2 20 * CO M P _ DI R * CO M P _ SPEE D

COMPRESSION MOTOR DRIVE

X8 1 2 23 X8 1 4 8 6 4 X8 1 3 29 CPU D 801 CO M P RE S S IC K N E S S M P _ F O R CE _ F O R C E 20 K H z PW M CO M P _ S P CO M P _ S P CO M P _ D X8 2 2 ₂₀ 1 _& D 802 CO M P _ P RO T 0V D 0V D 1 +5 V +15 V 0V (O V E RC UR REN T ) 27 D E CO M P RE SS CO M P _ O K T A B L E I N PL ACE (x 4) X8 1 2 24 X8 1 3 T ABL E_ CO NF IG (SEE P A G E 3 -1 4 ) X8 1 2 CO M P _ S P CO M P _ D CO M P _ S P PU CO M P _ P RO T X 824 X8 2 3 C_ PW M 0V 1 0V D 2 X8 1 4 X 880 1 2 3 4 10 D 801 D 802 D 805 X855 X856 X857 X860 X8 5 9 X8 7 1 X 873 X8 7 2 X8 6 9 X8 6 8 X 880 WH WH RD RD BK BK C O M P RES S IO N PEDA L S 2 3 4 CO M P . CO M P _ O K X 8 56 31 32 CO M P _ O K DE C O M P RE S S C O M P RESS +24 V F +2 4V F +24V F +24 V F +24V F +5V V2 PU PU ( SEE PAG E 3 -8 ) 0V 0V 0V 1 0V Y X X> Y Y X X> Y CO M P CO M P D C1 R 0V +5V C_ PW M + 14V K4 K5 0V 0V +2 4V F +14V + 14V CO M P _ P R O T X 823 1 2 9 12 X8 2 4 3 7 X8 5 6 33 1 6 4 C O M P _L IM IT DE CO M P _ L IM IT CO M P RES S X8 2 2 24 +14V X8 7 2 2 1 3 4 X8 7 6 1 2 3 C O MP _LI MI T S8 6 1 S8 6 2 DE C O M P _ L IM IT BK RD M2 CO M P MOTOR X 822 23 D8 0 5 C O M P RES S IO N UNI T X8 7 5 1 2 3 M X 8 23 1 4 (L O W = CO M P RE SS) 0V CO M P ER RO R (O VER CU RR ENT ) SE E PA G E 3-2 X8 2 2 0V +5 V 8 8 0V 5 X8 7 3 +1 5V 9 9 0V D 0V D 2 0V NO T US ED

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1 2 3 4 5 ABCDEFG D8 0 9 D8 1 0 LE D X8 0 X8 1 X8 2 X8 3 TI L T 8 0° , ± 1 0 ° D 805 D 810* * 17 TI LT +24 V F X8 1 X8 2 X8 3 X 856 X8 6 0 2 4 9 6 5 4 3 2 X8 0 1 X 868 +24 V F TI LT V8 S 896 **

TUBE ANGLE MEASUREMENT, POT. RETURN, TILT SIGNAL

P O T_R E TU R N P O T_R E TU R N 4 2 5 D8 0 1 TESTPOI N TS AN D LED’ s X8 1 3 X8 1 6 PRO M CPU 0 VA1 _7V _5V_R E F 0V D 2 5V _D S P X8 1 4 X8 1 1 F1 0V D 1 5V _V7 V6 V5 S1 R ESET SWI T CH X 855 X 868 D 805 D 803 OP C O M FO R C E T H IC KNES S OK AN G L E X 816 _1-20 X8 0 1 1-20 CPU A/ D 1 1 +5 V _ R E F P O T_R E TU R N 0V A 0V D 0V A 20 +5V _ R E F X 814 1 5 18 2 17 9 15 X 8 1 3 6 3 0V _ M + 5 V _ M X 8 13 35 3 6 X 861 X 862 D 806 M3 +/ - 10° RD YE 0V 0V _M X8 6 2 1 2 X 861 1 3 4 RO T _ PO S D 806* X 874 1 PRE S _ F O R CE T H IC KN ESS R8 6 1 10k R8 6 3 2k 3 5 2P O T _ R E T U R N (SEE PAG E 2 -3 ) C O M P RESS IO N UN IT D 805 10 k R8 7 1 R8 0 3 2k T U BE A N G L E P R ESE T AN G L E P R ESE T _ AN G L E T U BE_ ANG L E +5 V _ R E F X 863 3 2 1 6 7 5 X 868 8 X8 5 5 6 10 1 3 D 801 X8 6 3 RD BK WH BN YE BU 5V _ R E F _0VA 0 V A RO T _ P O S X8 5 6 X860 31 1 RO T _ P O S * D 806 not u s ed w it h s o ft w a re v2 .1 or hi gher +5 V X8 0 9 ** No t fi tt e d in M 1 0 0 0

(39)

1 2 3 4 5 ABCDEFG M IRRO R X8 2 2 X8 1 2 0V 0V _M 1 7 VA C_ RET X 812 12

COLLIMATOR 1

S6 S6 LA MP LA MP M P O N LA MP 24V F D 807 D 807 X8 0 7 1 7 X8 5 1 1 7 X8 0 7 1 7 X8 6 5 1 7 X8 6 0 4 X8 5 6 7 D 805 D8 0 1 X 813 13 LA MP CP U 29 CO M P R E SS SEE PAG E 3 -1 1 * LA MP _C TR L X8 2 2 12 D8 0 2 X8 2 3 16 18 2 1 LA MP L1 CO L L IM A T O R X 822 X 823 F5 X8 1 3 X 812 D 801 D 802 X8 5 1 X8 5 6 X8 6 0 D 805 +5V _ R LEF T SIDE BOARD RIGHT SIDE BOARD + RM S /D C – 12 X 886 A 11 T801 1 7 VAC YE OG Ph a s e a ngl e co n tr o l X8 2 1 7 1 7 VAC _ R ET LA M P LA M P _V V5 2 0V 17 V A C F 0V _ L R 131 a ngl e 0V _L 0V _L -V _ L 0V 0V +2 4V F F5 _5AT X8 9 4 1 3 MI R R O R MA G N E T M7 * X8 2 3 12 _X82 4 6 2 X8 7 8 1 MIR R O R 5V /D IV 0V 15 S E T LA MP _V U RM S -V _ L 9 X8 2 1 MIR R O R LA M P 17 V A C F 50 m s /D IV FOCUS_ST FOCUS_D FILT_ST FILT_D COLL_ST COLL_D STEP_ENV C O LL _S T FI LT_ P FO C U S _ P C O LL _P 2 C O LL _P 1 12 X8 8 6 11 F80 4 5A T 1 2 3 4 5 6 8 * N O T FI T T ED I N M 1 0 0 0 W ITH ON E F IL T ER ** N O T FI TT ED I N M1 00 0 W ITH R E MO TE C O N T R O L , SE E L IFT AND RO T A T ION S W IT CH E S , M 1 0 0 0 WIT H REM O T E CON T RO L ** **

(40)

1 2 3 4 5 ABCDEFG * N O T FI TT ED I N M1 00 0 W ITH O N E F IL T ER 18 X 24 S 8 6 5 * 24 X 30 S 8 6 6 * CO L L IM A T O R C_ PA1 C_ L A FI _L B F I_ PB1 F I_ PB2 F I_ PA2 F I_ PA1 FI _ L A FI LTE R F IL T ER S8 6 7 * FO _ L B F O _ PB1 FO _ P B 2 F O _ PA2 F O _ PA1 FO _LA FO C U S F O C U S S8 6 8 * 16 X 856 EX T E RN AL BK OG BN YE OG YE BK BN +14 V +14 V BN BK YE C O LL_ P 1

COLLIMATOR 2

RD BK WH BU GN ST EREO CO L L CP U D8 0 1 C O L L_P 2 FI LT _P FO C U S _ P * CO L L S T EP * F IL T ER S T EP * FI LTE R D IR * ST EP_ ENA B L E * CO L L D IR * F O CU S ST EP * FO C U S D IR 12 LE D _ 1 0V +5 V C O LL P O S _ 18X 2 4 0V RD BK WH BU GN LE D _ 2 0V +5V CO LLP OS _2 4X 30 0V RD BK WH BU GN LE D _ 3 0V +5 V FI LT_ P O S 0V RD BK WH BU GN LE D _ 4 0V +5 V F O CUS _ P O S 0V X 852 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6 +5 V +5V +5V 0V 0V +5V +5V +5 V 0V 0V +5V +5 V +5 V 0V 0V +5V +5 V +5 V 0V 0V C O L L_P OS _1 8X 24 F O C U S_ PO S FI LT E R _P OS C O L L_P O S _ 24X 30 X8 5 6 0V 0V 0V 0V OG ST EP MOTOR DR IV E ST EP MOTOR DR IV E ST EP MOTOR DR IV E X8 7 9 8 5 4 2 1 7 3 6 RD YE BK BN OG GN +14 V 6 7 8 3 7 8 X8 5 4 + 24V F C O LLI MA TOR S8 9 7 RD YE OG BK BN GN RD YE OG BK BN GN 5 4 1 2 3 _X86 6 5 4 1 2 7 +1 4V +14 V +14V 5 ₂₆ 8 X 855 7 16 13 12 X8 7 7 X8 7 7 2 1 21 23 2 6 ₂₈ ₁₉ 2 4 3 5 28 22 20 X 813 17 18 ₂₁ ₃₀ C O LL_ D C O LL _S T FI LT_ D FI LT_S T ST EP _ E N FO C U S _ S T FO C U S _ D D 805 D8 0 5 M4 * M5 * M8 * T ABL E_ CO NF IG SEE PAG E 3 -1 6 (T ABL E I N PL AC E) (X 4) 24 X 813 15 C O LL _S T X8 5 3 X 866 _X890 C _LB C_ PB1 C_ PB2 C_ PA2

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1 2 3 4 5 ABCDEFG SEE PAG E 3-1 1 ST ER EO (O P T ION ) 2 3 1 S8 9 4 * S8 9 5 * S 860 GR ID _MO T OR _N SEL ECT _ WI NG _ 1 SEL EC T _ W IN G _ 2 ST ER E O _ L EV E R +2 4V F 23 S T E R EO _ L EV ER 0V 11 SEL ECT _ WI NG _ 1 8 0V 7 8 7 T ABL E CO NF IG (SEE BE L O W) 1 2 3 0 CA SS LO A D E D +2 4V F S2 9 X 859 1 GR ID _OU T 8 X 875 7 T A BL E T YPE 1 0 C NC NC N C N O T ABL E L O C KED I N PL A C E C N C N C 24V 18X 24 W ITH GR ID C N C 2 4 V N C 24X 30 W ITH GR ID C N C 2 4 V 24V 18X 24 W ITH O U T GR ID C 24 V N C N C 24X 30 W ITH O U T GR ID C 2 4 V N C 2 4 V M A GN IF IC A T IO N 1. 5 C 2 4 V 2 4 V N C S T EREO T AXI M O UN T E D (1 8x 24 ) C 2 4 V 2 4 V 2 4 V M A GN IF IC A T IO N 1. 8 X _ _ X _ _ X _ _ NO T U S ED _ _

OBJECT TABLE 1 + 2

I D8 0 1 GR ID _O 0V D 2 0V D GR ID _S P X8 1 2 19 X 813 7 10 9 14 4 16 3 GR ID _M X 824 12 X 822 19 +24 V F +24 V F + 24V F GR ID _S P D 802 * G R ID _ SPE ED GR ID _M O T O R _ N 0V 0V 0V 0V 0V 0V 0V A 1 K8 -1.25 0V UREG U D8 0 5 D 802 D 801 X8 5 5 X8 5 6 X8 5 7 X8 6 0 X8 7 3 X8 5 9 X 871 X8 7 2 X 868 X8 6 9 GR ID _S P GR ID _M X 824 X8 2 2 X 812 X8 1 3 GR ID _S P GR ID _0 0V D 2 E CT TABLE 1* * MOT O R AND GRIDO U T SW IT CH O M IT T E D IF N O G R ID S1 GR ID _ O U T X 891 ** 1 2 3 4 5 6 X8 5 7 1 2 3 4 5 7 8 11 10 _X85 6 11 K1 1 1 1 2 3 4 5 8 11 10 X8 5 6 4 1 2 3 5 8 6 D 805 T ABL E_ CO NF IG _ 0 T ABL E_ CO NF IG _ 1 T ABL E_ CO NF IG _ 2 T ABL E_ CO NF IG _ 3 CA SS_ L O AD ED GR ID _O U T AEC _ P O S X8 6 0 7 9 18 E_ CO NF IG G URATI O N 20K H z PW M 0V CAS S _ L O A DE D S 891 ** 3 1 9 7 E CT TABLE _NECT O R 25 27 29 30 0V _W 1 2 33 34 E CT TABLE 2 * T ABL E CO NF IG (S EE BEL O W ) 1 2 3 0 CAS S L O AD ED +24V F S2 S 892 * 1 2 3 4 5 6 X 892 * X 869 0V X8 7 6 M GR ID _MOT O R _ N GR ID _M OT OR _N 9 1 X8 7 1 6 S8 9 0 ** X8 6 8 10 AE C _ P O S S1 GR ID _O U T M X8 9 3 25 25 X 885 1 1 * O N E T ABL E O P T IO N ( F IXED O B JECT-T A B L E ARM ): O B JECT TABL E 2 , CO N N ECT O R X8 9 2 WI TH C A BL IN G , S8 9 2 , S8 9 4 AND S8 9 5 ARE O M IT TED. X8 6 8 -2 I S J U M PERED TO X 8 6 8 -1 0 . ** M 1 0 0 0 O B JECT T ABL E 1 , CO NNECTO R X8 9 1 WI TH CABL IN G , S8 9 0 , S8 9 1 , S8 6 0 , S8 9 4 , S8 9 5 ARE O M ITTE D . X8 6 8 -1 , X8 6 8 -3 ARE JUM PERED TO X8 6 8 -1 0 . ** ** **

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1 2 3 4 5

ABCDEFG

OPT

ION

AUTOMATIC EXPOSURE CONTROL (AEC)

A2 4 5 4 1 6 8 7 B2 3 C2 4 B2 4 A2 5 B2 5 C2 3 RD L 1 P 1 5V _I ON 6 2 5 X8 5 8 4 1 X1 0 3 2 _X11 3 5 2 4 1 6 X 870 3 5 2 4 1 6 TR A 1 N 1 5V _I ON 0V _ R D L RD L 2 TR A 2 N 1 5V _I ON 0V _R D L P1 5 V _ IO N D 700 D 701 X7 0 1 A2 3 TR A 2 RD L 2 N 15V _I ON P 15V _ IO N 0V _T R A TR A 1 RD L 1 X8 8 4 * 1 2 3 4 5 0V _R D L -15V TR A +15 V DETECTOR W ING 2 * RDL X8 8 3 1 2 3 4 5 0V _R D L -15V TR A +1 5V DETECTOR W ING 1 ** RDL 0V _R D L 8 7 3 * O N E TABLE O P T IO N ( F IXED O B JEC T -T ABLE AR M ): D E TEC T O R WI N G 2 AN D X894 W ITH C ABL IN G AR E O M ITTED . ** M 1000 D E TEC T O R WI N G 1 AN D X883 WI TH C ABLI N G O M ITTED . S T AN D G EN E R AT OR

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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.

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Subassembly and PC board overview/Baugruppen und Platinenübersicht

0 H1 High-voltage generator Hochspannungserzeuger V1-V4 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

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CONTROL PANEL FUNCTIONS

Fuses

0

NOTE! See spare parts list for replacement fuses.

1)

_{See note on page 4-1.}

LOCATION FUSE FUSED VOLTAGE

Incoming mains F10 20 AT (35 AT) /500 V L1 1) Incoming mains F20 20 AT/500 V L2 1)

D711 F1 Not used D711 F2 4 AT/250 V 230V_T11) D711 F3 4 AT/250 V 240V_T1 1) D711 F4 4 AT/250 V 230V_STAND D711 F5 4 AT/250 V N_T1 1) 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

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Fig. 10 s1 X3 2 X5 X4 0 X 998 X9 9 9 X1 1 X8 D740

*

H1 D710 C51/R51 X9 V4 V2 V3 V1 S2 S1 D711 F9 F8 Z2 F7 F6 F8...F5 T2 F 1 ...F 5 X1 4 T3 F1 D70 6 D70 5 D704 D7 02 D7 01 D700 X1 0 X1 F3 F4 Z1 T10 6 5 4 4 3 2 1 1 _F10 _F20 D741

*

X4 1 X4 2 T1 Z3

*

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(47)

CONTROL PANEL FUNCTIONS

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 magnifica-tion 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).

Auto Lim. Program Mo Mo Mo Rh Rh W AEC mAs WARNING kV 4 5 6 7** 8* 9* 10* 11 2 12 14 15 21 1 13 16 17 18 19 20 3 2

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Switches

0

Potentiometers

0

Fig. 12 Separate Control Console

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 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

Decompression button

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LIST OF SWITCHES AND COMPONENTS, GENERATOR

Component Overview (Generator)/Bauteileübersicht (Generator)

0 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

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“SIGNAL_” = ”SIGNAL” is active low

Page Signal name Origin Destination Testpoint LED 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 D702.V2.GN 5-5/3E 5-8/1B BRAKE_ X702.C8 => X705.C6 D705.X717 D702.V4.GN 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 D705.V40.GE WR_{A U S TA S T}

5-8/4E ISCHWING1 D710.X2.18 => X705.A12 D705.X710 I Swing 1V=10A 5-5/4E 5-8/1B KVA_ X701.C9 X702.C9 X705.C7 D705.X715 5-5/4E 5-8/1B KVE_ X702.B9 => X701.B9 X705.B15 D705.X714 D702.V3.GN 5-8/3C KVIST D710.X73 => X702.A24 X705.B11 D705.X711 kVact. 1V = 5kV

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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 überschrit-ten.

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

expo-sure by D701 or D702, or D705. During the anode rotation boost, expoexpo-sure, braking the KVA sig-nal 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.

(52)

“SIGNAL_” = ”SIGNAL” is active low

Page Signal name Origin Destination Testpoint LED 5-5/4F

5-8/2B

KVSOLL X702.A23 => X705.A27 D705.X712 kVref. 1V = 5kV 5-5/3C 5-8/3D 5-11/1C KV>17 X705.B10 => X702.B12 X701.B12 D705.V39.GE 5-5/3C 5-7/4E KV>50 X705.C10 => X702.C12 D705.V41.GE 5-6/5B MAIST D710.X2.22 => X705.B28 D705.X707 mAact_. 1V = 40mA 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: SLAVES:

X702.A17(Master) <=> 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 D701.SEL_RDL 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 D702.X983

(53)

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 FLIP-FLOP.

Überschreitet kVist 50 kV so wird dies als Fehler bewertet und auf der D705 in einem FLIP-FLOP 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 Röhrenstromre-gler 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 Dämpfungswider-stände.

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 Hoch-spannungstrafo ab.

Siemens Mammomat 1000-3000 - Service Manual

MAMMOMAT 1000/3000 Nova

Register 6

English

© Sieme ns AB 2000

from serial no. 7100

Chapter

Page

Revision

This document is valid from serial No. 7000

1 _______System Overview ______________________________________________ 1 - 1

System Overview. . . 1 - 1

MAMMOMAT 1000 . . . 1 - 1

MAMMOMAT 1000 WITH REMOTE CONTROL . . . 1 - 2

MAMMOMAT 3000 Nova . . . . 1 - 3

2 _______Stand Overview _______________________________________________ 2 - 1

Placement of PC-boards and Components, Stand . . . . 2 - 1

MAMMOMAT 1000 . . . . 2 - 1

MAMMOMAT 3000 Nova. . . . 2 - 2

List of Boards and Fuses, Stand . . . . 2 - 4

PCB Overview . . . . 2 - 4

Fuses Overview . . . . 2 - 4

List of Switches and Components, Stand . . . . 2 - 5

Switches . . . 2 - 5

Potentiometers . . . . 2 - 6

Motors . . . . 2 - 6

Miscellaneous . . . . 2 - 6

List of Signals and Test Points, Stand . . . . 2 - 8

List of Voltages and Test Points, Stand . . . 2 - 12

3 _______Stand Functional Diagrams ______________________________________ 3 - 1

Block Diagram Cable Connections. . . . 3 - 1

Grounding Connections . . . . 3 - 2

Mains Connection, Power Supply CPU . . . 3 - 3

Grounding Connections . . . 3 - 3

Power Supply Motor Control . . . . 3 - 4

Display . . . . 3 - 5

CPU Board Internal, Generator Interface . . . . 3 - 6

Tube, Temperature Monitoring . . . . 3 - 7

Lift and Rotation . . . 3 - 8

Lift and Rotation Motor Drive . . . . 3 - 9

Lift and Rotation Switches . . . 3 - 10

Lift and Rotation Switches, M1000 with Remote Control . . . 3 - 11

Compression Measurement Signals . . . 3 - 12

Compression Motor Drive . . . 3 - 13

Tube Angle Measurement, Pot. Return,Tilt Signal . . . 3 - 14

Collimator 1 . . . 3 - 15

Collimator 2 . . . 3 - 16

Page

Object Table 1 + 2 . . . .3 - 17

Automatic Exposure Control (AEC) . . . .3 - 18

4 ______ Generator Overview ____________________________________________ 4 - 1

Mains Voltage Connection . . . 4 - 1

List of PC-boards and Components, Generator . . . 4 - 2

Subassembly and PC board overview/Baugruppen und Platinenübersicht . . . . 4 - 2

Control Panel Functions . . . 4 - 3

Fuses . . . 4 - 3

List of Switches and Components, Generator . . . 4 - 4

Control Panel Functions. . . 4 - 5

List of Switches and Components, Generator . . . 4 - 6

Switches . . . 4 - 6

Potentiometers . . . 4 - 6

Component Overview (Generator)/Bauteileübersicht (Generator) . . . 4 - 7

List of Signals and Test Points, Generator . . . 4 - 8

Signal Diagram . . . .4 - 14

5 ______ General Functional Diagrams_____________________________________ 5 - 1

Block Diagram . . . 5 - 1

Ground, 0V and Protection Ground Distribution. . . 5 - 2

Line Input. . . 5 - 3

Back Plane D700 . . . 5 - 4

Principle Diagram, Master

. . . 5 - 5

Principle Diagram, Tube Filament

. . . 5 - 6

Principle Diagram, Focus Selection Board

. . . 5 - 7

Principle Diagram, Inverter Control and kV Regulation . . . 5 - 8

Principle Diagram, Inverter

. . . 5 - 9

Principle Diagram, Control Panel

. . . . 5 - 10

1 _System Overview ________________________________________ 1 - 1

2 _Stand Overview _________________________________________ 2 - 1

3 _Stand Functional Diagrams ________________________________ 3 - 1

4 Generator Overview ______________________________________ 4 - 1

5 General Functional Diagrams_______________________________ 5 - 1

6 Generator PC Board Overview ______________________________ 6 - 1

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