sire mobil 2000

GE MEDICAL SYSTEMS MVS DI EUROPE SI.S2000

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Alignment Component Error Functional Logic/Block Preventive Software Theory Service Reference Notes

g GE Medical Systems MVS DI EUROPE

Technical Publications SIREMOBIL 2000 2352376-100 Revision 3

sm Service Manual Do not duplicate Copyright 2006 GE Medical System

Calibration Locations Codes Checks Diagrams Maintenance Diagnostics notes Materials

Written by: E. de Schuttelaere / P. Bodelet Controlled by: J. Aupied 1 of 247 date 29- May-2006


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CONTENTS

CHAPTER TITLE Pages / links ALIGNEMENT / CALIBRATION Testing the DC voltages PAGE 13 of 247

Calling the error memory PAGE 16 of 247 Displaying the error memory PAGE 17 of 247 Deleting the error memory PAGE 18 of 247 TV camera switchs PAGE 19 of 247 Calling the service menu PAGE 20 of 247 Camera rotation PAGE 21 of 247 Setting the 220 nGy/s dose PAGE 22 of 247 Setting the 130 nGy/s dose PAGE 24 of 247 Setting the 435 nGy/s dose PAGE 25 of 247 Setting the dose rate for radiography PAGE 26 of 247 Programming the camera iris values for zoom… PAGE 27 of 247 Setting the iris collimator PAGE 28 of 247 Setting the zoom format at the control panel PAGE 29 of 247 Setting the semi-transparent slot diaphragms PAGE 30 of 247 Calibrate the XR Tube (Cuckoo SW) PAGE 31 of 247




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CONTENTS

CHAPTER TITLE Pages / links COMPONENT LOCATION System Overview PAGE 32 of 247




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CONTENTS

CHAPTER TITLE Pages / links ERROR CODE General error information. PAGE 33 of 247

Host CPU errors from 01 to FF PAGE 34 of 247 S3C errors from 11 to 3C PAGE 36 of 247 Interco errors from 0003 to 10EF PAGE 40 of 247 Memoskop from 2101 to 2841 PAGE 57 of 247 TV system from 3001 to 310C PAGE 74 of 247 Console and D112TV from 4001 to 420E PAGE 80 of 247 Memoskop D1 from 4314 to 4371 PAGE 84 of 247 Memoskop D2 from 4414 to 4471 PAGE 87 of 247 Generator from 5002 to 506F PAGE 90 of 247 Generator int.from 6006 to 601A PAGE 96 of 247 Intensity int. from 7018 to 702D PAGE 99 of 247 Host terminal from 8010 to 801A PAGE 100 of 247 Host motor from 9000 to 9360 PAGE 101 of 247 Unknown errors PAGE 106 of 247




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CONTENTS

CHAPTER TITLE Pages / links FUNCTIONAL CHECKS System Overview PAGE 108 of 247

Memory Overview PAGE 112 of 247 Monitor PAGE 112 of 247

Host processor PAGE 113 of 247 Motor control PAGE 120 of 247 S3 BUS PAGE 122 of 247 Control console PAGE 123 of 247 Brake control PAGE 125 of 247

Generator Overview PAGE 127 of 247 KV control.. PAGE 130 of 247 Filament circuit PAGE 132 of 247

Image intensifier PAGE 138 of 247 Television Overview PAGE 140 of 247

Camera head PAGE 143 of 247 CCD console PAGE 145 of 247 Actual value acquisition. PAGE 152 of 247 TV Control PAGE 153 of 247

Control Overview PAGE 156 of 247 AGC PAGE 158 of 247 Dose rate PAGE 159 of 247

Detailed functions PAGE 163 of 247




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CONTENTS

CHAPTER TITLE Pages / links BLOCK DIAGRAMS Main supply PAGE 170 of 247

Radiation and ATB release PAGE 176 of 247 D15 board ( brakes ) PAGE 177 of 247 Internal board D1-D3-D5-D6 PAGE 178 of 247 D20-, 21, 22, 23, 200 Overview PAGE 183 of 247 D200, D201, D202, D203, D204 boards PAGE 184 of 247 HV single tank PAGE 188 of 247 Line filter PAGE 189 of 247 Memoskop interfaces PAGE 190 of 247 Camera interfaces PAGE 196 of 247 RBV circuit PAGE 205 of 247




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CONTENTS CHAPTER TITLE Pages / links PREVENTIVE MAINTENANCE

Proceed with:

eDB : easy Documentation Browser

Included into: 5138744-200_rev1 Cd-Rom (or higher release)




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CONTENTS

CHAPTER TITLE Pages / links SOFTWARE DIAGNOSTICS List of software files PAGE 206 of 247




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CONTENTS

CHAPTER TITLE Pages / links THEORY Product Document Explanation PAGE 208 of 247

Interconnection PAGE 209 of 247 Drawing

Docum Annotations

Com atibility Table

Layout

ents PAGE 210 of 247

p PAGE 211 of 247

Connectors PAGE 212 of 247




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CONTENTS

CHAPTER TITLE Pages / links SERVICE NOTES

Proceed with:

eDB : easy Documentation Browser

Included into: 5138744-200_rev1 Cd-Rom (or higher release)




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CONTENTS

CHAPTER TITLE Pages / links REFERENCE MATERIALS Wheeled frame PAGE 213 of 247

Stand frame PAGE 216 of 247 Stand console PAGE 218 of 247 Transformers, Fuses & Buttons PAGE 219 of 247 D10, D11 & D15 boards PAGE 222 of 247 Vertical travel PAGE 223 of 247 C Arm PAGE 224 of 247 Panel & control board PAGE 227 of 247 HT generator PAGE 228 of 247 Tube & Collimator PAGE 229 of 247 II assembly PAGE 230 of 247 Camera assembly PAGE 231 of 247 Single TV trolley PAGE 232 of 247 Dual TV trolley PAGE 233 of 247 Memoskop PAGE 234 of 247 Accessories PAGE 235 of 247 Multi room parts PAGE 236 of 247




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CONTENTS

CHAPTER TITLE Pages / links

NOTES Warning PAGE 237 of 247

X – Ray Protection PAGE 239 of 247

List of Risk Assessments For X-Ray PM PAGE 240 of 247

history Revision PAGE 247 of 247




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Testing the DC voltages on boards D13, D10A, and D11 Board D13, Distributor +5V

Ground : D13. X6 Measurement point : D13. X2, X3, X4 (Fig. below) Resistor : R+5V on board D14 (Board D14 is accessible after the generator is swivelled out.) Setting value : U = +5.1 V (min)…5.2 V(max) 5 V voltage indicator : LED on 5V power supply D14 (Refer to Figure below)

D14

LED

X2 X3 X4 X5 X6

"0V"

X7 X8 X9

D13 +5V +5V +5V

LED

R+5V




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DC Voltages on board D10A, TV power supply

Voltage Measurement Point

Resistor Tolerance Display Imax URipple max

<U =U >U

UPeltier (+3.6 V)*

UA1 (+15.3 V)

D10 X3 GND D10 X4

D10. X5 GND D10. X6

D10. R14

D10. R16

+/- 0.1V

+ 0.1 V

-

-

V21

V12

-

-

2A

0.8 A

+/- 10 mV

UA2 (-15.3 V) D10. X7 GND D10. X6

D10. R15 + 0.1 V - V13 - 0.5 A +/- 10 mV

UB (-10 V) D10. X10 GND D10. X11

fixed +/- 50 mV - V4 - 0.1 A +/- 10 mV

UD1 (+5 V) D10. X8 GND D10. X9

fixed +/- 50 mV V6 1.0 A +/- 2 mV

Voltage value when Peltier element is not switched on

D10

R14

R15

R16

X6

X10

X9

X4

X5

X7

X8

X3

V12

V13

V4

V5

V21

X11 X14

1

1

X13




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D11

V5V3

V7

R9

R10

R55

R56

V6V4

V8V1

2V1

0V1

4V1

1V9

V13

X7

X6

X5

X4

X41

X42

X1

X2

X3

X12

X16

X14

X11

X10

X13

X15

+15V

+15V

+15V

-15V

15 V

24

V G

ND

+24V

DC voltages on Board D11, Voltage supply 15V/24V

Voltage Measurement Point

Resistor Tolerance Display

<U =U >U

+ 15,35 V D11. X4 GND, D11. X6

D11. R56 +/- 0,15 V V5 V3 V7

- 15,35 V D11. X5 GND, D11. X6

D11. R55 +/- 0,15 V V6 V4 V8

+ 24,25 V D11. X7 GND, D11. X6

D11. R9 +/- 0,25 V V11 V9 V13

+ 26,75 V D11. X11 GND, D11. X10

D11. R10 +/- 0,25 V V12 V10 V14




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Calling the error memory

Switch on the system. Enter into the service mode with the PC. Select unit error. Select long time error or Short-time error ∧ and press <RET> The following message will appear :

Load from unit The following selections can be made :

Show display the errors Delete delete the error memory Output print out the contents of the error memory or store the error memory in the service PC.




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Displaying the errors (Show)

Select SHOW and press [RET] Use the cursor keys to scroll through the errors.

ain menu appears. Continue to press and release the ESC key until the m service program. The F10 key may be used to end the

The following message will appear :

Input of jobs working on

Enter :

Display errors.




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Deleting the error memory (Delete)

Select Delete The following message will appear :

May I reset the long time error cache (Y/N) ?

- The error memory will be deleted when « Y » is entered, and the contents will be retained when « N » is entered. - Continue to press and release the ESC key will until the main menu is displayed . - Press the F10 key to end the service program. - The following message will appear :

Input of jobs working on Enter : for example, error memory deleted. Output error memory (Output)

- Select output. The following message will appear :

Printer/File - When Printer is selected

The error memory will be printed out by the printer available. - When File is selected,

The error memory will be stored in the service PC. - Names for the output file will be specified.

Enter a maximum of 8 caracters + extension (………TXT). In example : UNI0309.TXT Note : the output file can be examined with the help of a text editor after the service program is ended.

- Continue to press and release the ESC key will the main menu appears. - The F10 key may be used to end the service program. - The following message will appear :

Input of jobs working on Enter : for example, error memory printed / stored.




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TV camera DIL service switch S1, Board D112

ote : The test signals are fed into board D110a behind the camera head and continue being applied until switch S1 is in the normal position again. N

elect the test functions by coding DIL switch S1 according to table below S Table below explains the Coding DIL switch S1

Normal operation : all switches « OFF », no LED’s are ON.

Test image/Function Switch/LED S1.1

V1.8 S1.2V1.7

S1.3V1.6

S1.4V1.5

S1.5V1.4

S1.6 V1.3

S1.7V1.2

S1.8V1.1

250 kHz rectangle pulse ON ON OFF OFF ON X X X Grid OFF ON OFF OFF ON X X XSaw tooth ON OFF OFF OFF ON X X XDigital measurement field OFF OFF ON OFF ON X X XAnalog measurement field OFF OFF OFF ON ON X X X Bandwidth limitation « ON3 X X X X X ON X X Gamma « OFF3 X X X X X X ON XSuperimposition of blanking circle « OFF »

X X X ON X X X X

“X” means optional

Note: to validate the video channel, call the service menu with test picture




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Calling the service menu Switch D6.S1 on board 6 in the host-computer must be in the 0 position (normal position) System on. Press the following keys simultaneously in correct chronological order : 1. ATB key on the hand release lever 2. Autocollimator key on the control panel 3. Multi-format camera release key on the control panel After approximately 1 sec., the « internal service image » of the service menu is displayed on the display of the control console (cf. Figure 9.1) TV service test patterns Using the first soft key from the left (key for « TV TEST PICT. »), various test patterns can be called from the central TV control unit. These can be used for checking the central TV control unit, the video channel from the video amplifier of the central TV control unit, and for monitor adjustments. At the same time, a new test pattern is displayed each time when depressing the key. Note : The test patterns are applied to the video channel for a short time only can therefore not be used for measurements on the video channel of the

central TV control unit. For measurements on the video channel of the central TV control unit, some TV test patterns can be activated with switch S1 on board D112 of the central TV control unit.

Memory test pictures Using the third soft key from the left (key for « MEMOSK.TEST P. »), various test pictures of the memory can be called in. These can be used for checking the memory, for adjustment of the monitors and for adjustment of the hardcopy.

Leaving the service menu Leave the service menu, using the same key combination as for calling.




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Camera rotation Preparation Switch the system on. Wait for the system to boot. Connect service PC to host at D2. X12 (Fig. 5.1). Start service program. Under the sub directoryt < Unit parameter edit & modify>.

D2.X12

D3.X5D6.S1

D1.X1

Select <Unit parameters camera rotation>. Then Click the Launch button New window appears, click on “GO” Under « camnormops », enter the value 3160 and transfer it with “Send Datas”. button Note : When the value 3160 has been programmed, it is ensured that the camera rotation can be set +/- 225 degrees without mechanical limitation. Objects that lie exactly vertically on the image intensifier are, in part, shown on the monitor slightly turned.




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Setting the dose rate Preparation Switch off the system.

D2.X12

D3.X5D6.S1

D1.X1

The grid should remain on the I.I. Set the D6.S1 switch on the host to the 0 position. Switch on the system. Wait for the system to boot.

Note : Ensure that switch S1 is in the 0 position during booting to ensure proper initialisation. During system operation, Switch S1 should be moved to position 1 to set the dose rate.

Set switch D6.S1 on the host to position 1. Connect service PC to the host at D2. X12 (Fig. 5.2). Start the service program. Attach 25 mm AL + 2 mm CU filters to the collimator. (25 mm AL corresponds to 1 mm CU at 70 kV) Move the dose measurement chamber I.I. closer. Select the survey format. Note : The following procedures for setting the dose rate must be performed in the kV range between 70 kV and 75 kV. The CU pre-filtration must be

adapted accordingly. Even if the kV value of 80 kV is exceeded only briefly during this setting procedure, the CU pre-filtration must be changed so that 65 kV are not reached. Following this, pre-filtration must be increased again so that the required 70 kV to 75 kV are obtained (hysteresis of dominant changeover). Because of the mechanical hysteresis of the camera iris, the dose rate should be set starting from the high dose rate value to the value specified.

Zoom is switched off !




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Setting the dose rate at 220 nGy/s

Press the <DL + PRG> keys simultaneously. Set the anti-isowatt curve at 5 mA. Set the mean value evaluation (MW). Set the pre-selection key to « 220 nGy/s » (Fig. 5.2a). Fluoroscopy « On ». Press the <KV Stop> key. Set the following dose rate value on the dose rate meter using the <KV +/- Key> :

Dose rate value : 218 nGy/s * grid factor* chamber correction factor Grid factor : : 23 cm I.I. : 1.5

17 cm I.I. : 1.4 Chamber correction factor : Dali measurement chamber : 1.06 Nomex : 1.06

Radiation « Off ». Select internal service image on the unit display. Radiation « On ». Press the <Dose Calibr.> key. The designation of the key is shown inverted for about 16 s. Radiation « Off », when the designation of the key appears again non-inverted, as before. Select standard image.




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Press the <DL + PRG> keys simultaneously. Set the anti-isowatt curve at 5 mA. Set the mean value evaluation (MW). Set the pre-selection key to « 130 nGy/s » (Fig. 5.2a). Fluoroscopy « On ». Press the <KV Stop> key. Set the following dose rate value on the dose rate meter using the <KV +/- key> :

Dose rate value : 130 nGy/s * grid factor* chamber correction factor Grid factor : 23 cm I.I. : 1.5






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Press the <DL + PRG> keys simultaneously. Set the anti-isowatt curve at 5 mA. Set the mean value evaluation (MW). Set the pre-selection key to « 440 nGy/s » (Fig. 5.2a). Fluoroscopy « On ». Press the <KV Stop> key. Set the following dose rate value on the dose rate meter using the <KV +/- key> :







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Setting the dose rate for digital radiography

Press the <DL + PRG> keys simultaneously. Set the anti-isowatt curve at 5 mA. Set the mean value evaluation (MW). Set the pre-selection key to « DR » (Fig. 5.2a). Fluoroscopy « On ». Press the <KV Stop> key. Set the following dose rate value on the dose rate meter using the <KV +/- key> :







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Programming the camera iris values for zoom Under the sub directoryt < Unit parameter edit & modify>. Select <Unit parameters camera rotation/Iris>. Then Click the Launch button New window appears, click on “GO”

With the blue arrows, manually set the ZOOMPOS values so that they match the assigned NORMPOS values. Click on “Send data” button.

After new settings, don’t forget to launch the back up procedure

Return to main menu using ”Quit” Button On the host, reset switch D6.S1 to position 0. The service program can be quit with <F10>. For this, enter the appropriate jobs.




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Setting the X-iris collimator Note : On account of the mechanical hysteresis of the X-iris collimator, adjust the X-iris collimator from a small aperture to correct value. Switch on the system. Wait for the system to boot. Select the survey format at the control panel Set switch D6.S1 on the host to position 1 (Fig. 5.4). Connect service PC to host at D2. X12. and reboot the Siremobil 2000 Start the service program and select <Calibration> in the main menu. Connect interface cable from D2. X12 to D3. X5. Select <X-iris>. The monitor blanking circle is switched off. Follow the menu prompts on the service PC. Switch on fluoroscopy. Using the following keys on the control panel, Set the X-iris collimator so that the plates are still visible along the edges of the I.I and control the position with “Position” button.. When ready, select <normal>. The value for the X-iris collimator position is stored in EEProm.




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Selecting the zoom format at the control panel Using the following keys on the control panel, Set the X-iris collimator so that the plates are still visible along the edges of the I.I. Select <Zoom>. The value for the X-iris collimator position is stored in EEProm. Do not forget to perform a configuration backup via “Unit parameters/Backup” command, click on “Launch” then “Go” Select a file and perform the backup.




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Setting the semi-transparent slot diaphragms Note : Prior to setting the slot diaphragms, the camera rotation must be adjusted properly (set to zero position). The horizontal image rotation must not

be selected. Due to the mechanical hysteresis of the slot diaphragms, adjust the slot diaphragms from a small aperture to the correct value. Switch on the system. Wait for the system to boot. Set switch D6.S1 on the host to position 1 in order to select the survey format. Connect service PC to host at D2. X12. Start the service program.

Select <Calibration> in the main menu. Connect interface cable from D2. X12 to D3. X5.

Select <Slot diaphragm>, click on “Lauch”, the monitor blanking circle is switched off. Follow the menu prompts on the service PC. Switch on fluoroscopy. Move the left and the right blades of the slot diaphragm approximately 1/3 into the centre of the image using the corresponding keys Upper diaphragm blade and lower diaphragm blade on the control panel Position the blades horizontally using the Rotation keys for the slot diaphragm Located on the control panel. Position the lower plate of the slot diaphragm so that it is not visible along the edge of the I.I. You may control the current position with the “Position” button Switch on fluoroscopy.

When ready, select <Normal>. The position values for the three positioning motors are stored (survey values are transferred) in EEProm. Do not forget to perform a configuration backup via “Unit parameters/Backup” command, click on “Launch” then “Go” Select a file and perform the backup.




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Calibrate the XR Tube Note : Verify that your Cuckoo software is Up to date – Last Release note is available on easy

Documentation Browser. Enter cusckoo Software, Select the Siemens Siremobile 2000 component and consult the Automatic tube calibration procedure. Below are the example of the two screens readable on the Cuckoo 6.4 software. Set the System on. • On D6 board put the S1 selector to position 1. Warning : X-Ray radiation occurs during this procedure Press simultaneously the following keys :

First : Autocollimator key on control panel Second : Multiformat camera release key on control panel Then, release both buttons

After few sec, the following menu is displayed on the control console Launch the automatic calibration via the”Generator Learning Start” Command On the display, the message”Start fluoroscopy” appears. Press the fluro button and the X-Ray radiation starts. The process takes approx. 10 to 15 minutes. If you released the handswitch, the process waits until a new handswitch push. Note that, after the heating time of 5 minutes, the acoustic warning signal bells, the middle soft key can switch off the sound.




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Alignment Calibration

Component Locations

Error Codes

Functional Checks Diagrams Maintenance Diagnostics notes Materials

Notes Logic/Block Preventive Software Theory Service Reference


COMPONENT LOCATION Video Camera & Image Intensifier on C-Arm Main Console with Handswitch Generator Transformers and Fuses Wheeled Frame and Brake Collimator & X-Ray tube Single Tank : Sirephos

Trolley with single or Dual TV Image Processor Keyboard Printing unit Image Processor


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- D2 BIOS INITIALISAZION MESSAGES are the init messages of the board D2 (SLOT CPU) and are shown by the LED´s D6, J62 and J63, but not by the display. The bios initialization messages appear if an initialization section is started. If any error was detected during this initialization section, the processor system stops. This suggests an error on board D2 (SLOT CPU). Check CMOS battery see D2 Bios initialization message 2F), check also the power supply voltages. (

- POSITIVE ACKNOWLEDGEMENTS appear only if an initialization section was terminated successfully by the processor system. If any error was detected during this unit initialization section, the preceding positive acknowledgement is either retained or an error message is ignaled. s

- ERROR MESSAGES are signaled only if an error in the corresponding unit initialization section was recognized by the processor system. On successful termination of this unit initialization section the preceding positive acknowledgement remains on the display ntil the next positive acknowledgement or error message. u

- WAIT FOR MESSAGES are issued if the host computer is waiting for the acknowledge message from another assembly.

- WARNING MESSAGE is signaled if "learning" is requested by the generator. The Operation of the system is ensured.

- Display:

- The bios initialization messages of the board D2 are shown by the LEDs D6 J62/J63 only. After it, the unit initialization messages of the components is starting with 10 (hex) again. As visible difference to the bios initialization messages, the LED V21 on board D3 starts flashing.




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Fatal errors numbering structure : example with « ABBB » error where BBB value is the error number A Value : 0 Host 5 Generator 1 S3C 6 Generator interface in Host 2 Image storage device (Memoskop) 7 Intensity actual value interface 3 TV 8 Host terminal handler 4 Console / dowload TV / console / 9 Host motor controller Memoskop D1 / Memoskop D2 / D21 / D22 : 40BB : console 41BB : download host 42BB : download console 43BB : download Memoskop D1 44BB : download Memoskop D2/D21/D22 45BB : hard disk error Note : Those errors are shown on the display and prevent from X-Ray until users initialisation for error reset.

D2 Bios initialization messages SLOT CPU (80286 CPU), part no.: 11 89 682:

01: D2 Bios initialization message: All 80286 registers tested ok. 02: D2 Bios initialization message: BIOS checksum ok. 03: D2 Bios initialization message: Start of CMOS RAM test ok. 04: D2 Bios initialization message: 8254 Timer test started. 05: D2 Bios initialization message: 8254 Timer test faulty. 06: D2 Bios initialization message: Start of RAM test ok. 07: D2 Bios initialization message: RAM refresh test ok. 08: D2 Bios initialization message: Setting the video vectors started 09: D2 Bios initialization message: Test of interrupts started 0A: D2 Bios initialization message: Test timer 0 interrupt started 0B: D2 Bios initialization message: Setting the interrupt table 1 ok. 0C: D2 Bios initialization message: Setting the interrupt table 2 ok. 0D: D2 Bios initialization message: CGA controller faulty 0E: D2 Bios initialization message: Test interrupt controller ok. 0F: D2 Bios initialization message: Console controller self test started




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D2 Bios initialization messages SLOT CPU (80386SX CPU), part no.: 11 90 805:

ation 01: D2 Bios initialization message: Processor test 1: Status verificffer empty 02: D2 Bios initialization message: Keyboard interface bu

ace clear 03: D2 Bios initialization message: 8042 interf04: D2 Bios initialization message: 8042 reset

ad input port 8042 05: D2 Bios initialization message: Get 8042 MANUFACTURE STATUS re06: D2 Bios initialization message: INIT CMOS and INTERRUPT chips

2: Register test 07: D2 Bios initialization message: Processor test 08: D2 Bios initialization message: INIT CMOS chip 09: D2 Bios initialization message: EPROM checksum for 64K bytes

5 controller 0A: D2 Bios initialization message: Initialize video 6840B: D2 Bios initialization message: Test 8254 channel 0 0C: D2 Bios initialization message: Test 8254 channel 1 0D: D2 Bios initialization message: Test 8254 channel 2

r 0E: D2 Bios initialization message: Test CMOS SHUTDOWN BYTE, sense CMOS battery powe CMOS, INIT chipset, date and time 0F: D2 Bios initialization message: Test extended

10: D2 Bios initialization message: Test DMA-Channel 0 11: D2 Bios initialization message: Test DMA-Channel 1 12: D2 Bios initialization message: Test DMA Page Register 13: D2 Bios initialization message: Test 8042 UPI Keyboard controller interface. 14: D2 Bios initialization message: Test memory refresh toggle circuit

system memory 15: D2 Bios initialization message: Auto size memory, test first 64kBytes of 16: D2 Bios initialization message: Set interrupt vector table in first 64kB 17: D2 Bios initialization message: Set video I/O operation, init video adapter cards

p, the following initialization sections are continued: 18: D2 Bios initialization message: Test video memory, after a bee19: D2 Bios initialization message: Test 8259 channel 1 mask bits 1A: D2 Bios initialization message: Test 8259 channel 2 mask bits 1B: D2 Bios initialization message: Test CMOS battery level 1C: D2 Bios initialization message: Setup configuration from CMOS

compare W/CMOS 1E: D2 Bios initialization message: Sizing system memory and 1F: D2 Bios initialization message: Test system memory found 20: D2 Bios initialization message: Test stuck 8259´s interrupt bits 21: D2 Bios initialization message: Test stuck NMI bits (Parity I/O check) 22: D2 Bios initialization message: Test 8259 interrupt functionality

20 gate 23: D2 Bios initialization message: Test protected mode (V86/Page) and A24: D2 Bios initialization message: Sizing extended memory above 1MByte

nd 25: D2 Bios initialization message: Test base and extended memory fou26: D2 Bios initialization message: Test exception in protected mode




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27: D2 Bios initialization message: Test cache memory 28: D2 Bios initialization message: reserved 29: D2 Bios initialization message: reserved 2A: D2 Bios initialization message: Reset keyboard 2B: D2 Bios initialization message: Diskette init 2C: D2 Bios initialization message: Serial port init 2D: D2 Bios initialization message: Parallel port init 2E: D2 Bios initialization message: Hard disk init 2F: D2 Bios initialization message: Math coprocessor init Possible help: Check Battery, if necessary change Battery and follow the next

steps: Power off. Insert D2.X2. Remove D2.X3. Power on. Wait till LED D3.V21 starts flashing. Power off. Insert D2.X3 back again.

30: D2 Bios initialization message: reserved 31: D2 Bios initialization message: Adaptor ROM init FE: D2 Bios initialization message: Password security init FF: D2 Bios initialization message: Int 19H Now the unit initialization messages are continued. Error message: S3 bus faulty or I/O bus fault Initialization is continued; since, however, communication (with S3 bus or I/0 bus) was impossible, further Init error messages are shown on the display. Unit stops at Init 39. The following unit initialization messages appear on the display of the SM2000. 11 Positive acknowledgement: Variable access was successful. Pointers were successfully initialized. 11 does not appear: Display on board D6 (S3C bus) <<1 0: test supply voltages, plug for D1, boards correctly inserted?

Possibly D2 (Slot CPU), D4 (CGA card). Display on D6 (S3C bus) <<1 0 Plug for D1, boards correctly inserted? Possibly D3 (boot card) The following is displayed: Either

12 positive acknowledgement: Memory banks for NOVRAM and EE-Prom initialized. or 50 error message: NOVRAM or EE-Prom cannot be initialized plug for D1, boards correctly inserted? Possibly D3 (boot card).

13 positive acknowledgement: NOVRAM and EE-Prom initialized 13 not displayed: NOVRAM or EE-Prom cannot be initialized. Plug for D1, boards correctly inserted? Possibly D3 (bootstrap card). 14 Positive acknowledgement: Fault storage initialized. 14 not displayed: Fault storage cannot be initialized. Plug for D1, boards correctly inserted? Possibly D3 (bootstrap card). 15 Positive acknowledgement: Assert buffer initialized. Not used. 16 positive acknowledgement: Bootstrap card status o.k. 16 not displayed: Bootstrap card status not o.k.. Plug for D1, boards correctly inserted? Possibly D3 (bootstrap card) 17 positive acknowledgement: Interface driver to service PC initialized. 17 not displayed: Interface driver was not initialized. Plug for D1, boards correctly inserted? Possibly D3 (bootstrap

card). 18 positive acknowledgement: Variable initialization. Transfer of unit parameters completed, variable initialized. 18 not displayed: Unit parameters were not transferred. Access o EE-Prom of bootstrap board impossible, EE-Prom data lose.

Plug for D1, boards correctly inserted? Possibly D3 (bootstrap card).




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19 positive acknowledgement: Internal status initialized.

ssible EE-Prom data lose. Plug for D1, boards correctly 19 not displayed: Access to EE-Prom of bootstrap board impo inserted? Possibly D3 (bootstrap card). 1A positive acknowledgement: Internal RMos clock is right.

rn off the unit, unplug battery 1A not display Hardware clock on D2 (slot CPU) is out of order. Tu connector on D2, turn on the unit again, reinsert battery connector with the unit switched on. Possibly D2 (slot CPU). 1B positive acknowledgement: R-Mos driver o.k., interface to generator initialized. 1B not displayed: R-Mos driver out of order, interface to generator cannot be initialized. Plug for D1, boards correctly

inserted? Possibly D3 (bootstrap card). 1C positive acknowledgement: Service task, watchdog task, boot tasks started. 1C not displayed: It was impossible to

start individual tasks. 1D positive acknowledgement: Reset on S3C is cancelled. (approx. 3 sec. visible) LEDs on S3C are flashing again. Reset

applied to generator.1D not displayed: Host software error. 1E positive acknowledgement: Interrupt and dual port RAM are not released. 1E not displayed: Access to D6 (S3C bus) impossible. Plug for D1, boards correctly inserted? Possibly D6 (S3C

bus). 1F positive acknowledgement: Bright actual interrupt release.

e defective. 1F not displayed: Possibly D2 (slot CPU) interrupt modul20 positive acknowledgement: Download tasks and 1sec task started. 20 not displayed: No hardware error, possibly caused by malfunction. After the message 20 has been signaled: the turn on code "FFFF" is filed in the error log storage of the Siremobil. Either 21 error message: Operation with S3Cdualported RAM is impossible. Error message remains being signaled for

5 sec, messages 25 to 2B are skipped, the program branches to message 2C. Plug for D1, boards s). or: correctly inserted? Possibly D6 (S3C bu

22 positive acknowledgement: D6, S3C bus o.k. is displayed. Either 23 error message: Work with I/O bus dual port RAM on D6 (S3C bus) is impossible. Error message remains being

signaled for sec Messages 25 to 2B are skipped, the program branches to message 2C. Plug for y D6 (S3C bus). or: D1, boards correctly inserted? Possibl

24 positive acknowledgement: D6, I/O bus o.k. is displayed Either: sible. Error message remains being signaled for 2 sec or: 25 error message: Polling start on S3C impos

26 positive acknowledgement: Polling start on S3C o.k. generator. 27 positive acknowledgement: Preset values were successfully transferred to the

27 not displayed: No hardware error, possibly caused by malfunction. 28 error message: Sensual TV control unit initialization not properly terminated. Preset values to central TV

or, possibly caused by control unit were not correctly transferred, no hardware error 2 s. bad function. Error message remains being signaled f

29 positive acknowledgement: Version inquiry at console successfully terminated.




REV 3 SM 2352376-100TPH


29 not displayed: Software or dual ported _RAM of S3C cannot be addressed. Possibly D6 (S3C). 2A positive acknowledgement: Version inquiry of TV control unit/console successfully terminated. 2A not displayed: Software or dual port RAM of S3C cannot be addressed. Possibly D6 (S3C). 2B positive acknowledgement: Version inquiry at memory successfully terminated. Message remains being signaled only for a short time. 2B not displayed: Software or dual port RAM of S3C cannot be addressed. Possibly D6 (S3C). 2C positive acknowledgement: Host has transmitted error release and KV stop cancellation to generator. Message

remains being signaled only for a short time. 2C not displayed: No hardware error, possibly caused by malfunction.

2D positive acknowledgement: Host resets AGC mode of central TV control unit. 2D not displayed: No hardware error, possibly caused by malfunction. 2E positive acknowledgement: Host transmits the default operating mode and characteristic to the generator. Message remains being signaled for 0.5 sec. 2E not displayed: No hardware error, possibly caused by malfunction. 2F positive acknowledgement: Terminal interface on bootstrap card is released. Message remains being signaled only for a short time. 2F not displayed: No hardware error, possibly due to malfunction. The inquiries to messages 30 to 34 are active only in switch positions 0 and 5 of switch D6 (S3C bus) S1. In all other switch positions, these component acknowledgements are not interrogated. 30 wait for message: Host inquires of generator about configuration and waits for acknowledge message. Display duration max. 4 sec. 31 wait for message: Host waits for bright actual telegrams from central TV unit. Display duration max. 20 sec. 32 wait for message: Host inquires of console about configuration and waits for acknowledge message. Display duration max. 5 sec. 33 wait for message: Host interrogates of central TV control unit about configuration and waits for acknowledge message. Display duration max. 5 sec. 34 wait for message: Host inquires of memory about configuration and waits for acknowledge message. Display duration max. 10 sec. After the message 34 has been signaled, the PTW area dose meter is checked; however, only in switch position 0 of switch D6.S1. If the calibration factor stored in the EE Prom differs from the determined value by more than 10%, the area dose meter is taken from the unit configuration and the error message 00007 is entered in the fault storage. After run up, no <F128M>m<F255D> Gy/s display appears any longer on the display. Readjustment or repair of the area dose meter is required.




REV 3 SM 2352376-100TPH


35 error message Generator has not answered up to now. Error message remains for 2 sec, error number 0028 is entered in the

fault storage. Run up is continued until Init message 3A. Check the generator. Error message remains for 2 sec. 36 error message: Console has not yet answered. Error number 002A is entered in the fault storage. Run up is continued until

initialization message 3A. Check console. Message remains for 2 sec. 37 error message: Memoskop has not yet answered. Error number 0029 is entered in the fault storage. Run up is continued until

initialization message 3A. Check Memoskop Message remains for 2 sec. 38 error message: Central TV control unit has not yet answered. Error number 0027 is entered in the fault storage. Run up is

zation message 3A. Check central TV control unit. continued until initiali Message remains for 2 sec. 39 error message: S3C bus and I/0 bus of D6 are faulty. Since the switch position D6.S1 could not be read out,

the switch position 0 is simulated independent of the actual switch position. D6 defective or incorrect inserted. With the error message, a 0.5 sec beep tone is sounded.

3A error message If an error message 35 through 38 was visible, the unit stops in switch position 0 e switch position > 0, run up is continued and radiation enabled. of switch D6.S1. In th

B positive acknowledgement: run up is terminated. 3 Note: When the unit is run up in switch position > 0 or = fatal error message 002C appears on the display and must be cknowledged. a

g. after 3C warning: Generator requests learning program. If requested by the generator, e.is entered in the single-tank replacement or D201. Error number 002B

6.S1, the fault storage. In switch position 1 of D service display is shown automatically.




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Error message: interconnections device 0003 Console does not answer Cause : HOST sends note to console, however, no acknowledgement (KBD Ready) is received from console. Active: Constantly Possible trouble / help : Console Consol power supply Connection to console .

0004 Memoskop does not answer Cause : HOST sends note to Memoskop, no acknowledgement (IMG Ready) is received from Memoskop. Active: Constantly Possible trouble / help : Memoskop Memoskop power supply Connection to Memoskop .

0005 TV system does not answer Cause : HOST sends note to TV, no acknowledgement (IMG Ready) is received from TV. Active: Constantly Possible trouble / help : TV TV power supply Connection to TV .

0007 Area dose measurement device test out of tolerance Cause : HOST detects excessive deviation between the value stored in the D3-EEPROM and the value determined in . the self test of the area dose measurement device. Active: during power on Possible trouble / help : Adjustment D16 Stored parameter wrong see 'unit parameter components, Dose' .

000C Radiation-on message without radiation request. Cause : HOST receives message without radiation switch-on (XRAY_ON), i.e. without actuation of hand or foot switch. Active: during radiation Possible trouble / help : Operator error - the release switch was pressed either too briefly or in short, rapid succession. .

0017 Unknown message of an event Cause : The HOST has received from Memoskop an unknown or wrong message of an event. Active: Constantly Possible trouble / help : Incompatibility of HOST and Memoskop software. Wrong decoding of an event in the . Memoskop software .

001A RTO - Send error




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001B I/O port error

an incorrect command. Cause : Transmission of Active: during power up ssible trouble / help : Error in HOST software Po

. 001C Mailbox error

l buffer storage receives faulty data. Cause : The internaActive: Constantly ossible trouble / help : System overload Error in HOST software P

> 0 001D HOST-TV-READY with exit code

f TV-Ready > 0 Cause : Exit code oActive: Constantly ssible trouble / help : TV-service-switch is active IW-Board is not ready Po

. 001E D11 +15V or -15V out of tolerance

m power supply board D11. The +15 V or -15V voltage is out-of-tolerance. Cause : Message froActive: Constantly ssible trouble / help : Power supply board D11 defective Connection between D11 and D6 (acknowledgement) Po

. 001F D11, +24V out of tolerance

m power supply board D11. The +24 V voltage is out-of-tolerance. Cause : Message froActive: Constantly ssible trouble / help : Power supply board D11 defective Connection between D11 and D6 (acknowledgement) Po

. 0020 D11, +28V out of tolerance

m power supply board D11. The +28 V voltage (operating voltage of II. power supply) is out-of-tolerance. Cause : Message froActive: Constantly ssible trouble / help : Power supply board D11 defective Connection between D11 and D6 (acknowledgement) Po

. 0021 I.I. power supply error

m I.I. power supply. The power supply for the image intensifier (high voltage) is out-of- tolerance. Cause : Message froActive: Constantly

in indication lead from I.I. to board D6; operating voltage Possible trouble / help : I.I. power supply Interruption. missing (also triggers error 0020).




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0022 Area dose measuring device error Cause : Message from board D16. Operating voltage for dose measuring chamber out-of-tolerance. Active: Constantly Possible trouble / help : Wrong configuration (measuring chamber selected, but not available) . Measuring-chamber operating voltage missing. Board D16 .

0023 Generator not ready Cause : Generator transmits error message to HOST but receives no error acknowledgement from HOST. Active: Constantly Possible trouble / help : If it occurs occasionally, data transmission fault. If it occurs often, fault in generator. .

0024 Memoskop does not answer to "Radiation On" Cause : HOST sends 'IMG-START' signal to the Memoskop at the beginning of radiation. It must be answered by . the IMG-ACQUISITION signal from the Memoskop. If the HOST doesn't receive it, this error is displayed. Active: during radiation triggering Possible trouble / help : Memoskop Operator error - release switch actuated repeatedly and in quick succession. .

0025 Real-time clock malfunction Cause : Hardware clock on Slot CPU (board D2) not running. The same time always appears following switch-on. . Then the software clock starts running. Active: during power up Possible trouble / help : Battery or clock chip defective. Clock chip incorrectly initialized (in case unplug. Battery

connector on D2, switch POWER ON/OFF off and plug battery connector again). .

0026 Intensity signal missing Cause : During radiation release, the HOST waits for the message 'BRIGHT-ACT' from the TV system. If this . message is missing, an error is displayed. Active: during radiation Possible trouble / help : Line break; defective transmit/receive chip; defective interface chip on D3; cable to generator not plugged in; BRIGHT-ACT connector (X3 on D3) not plugged. .

0027 TV system not ready Cause : HOST sends note to the TV system, but receives no acknowledgement. Active: during power up Possible trouble / help : HOST-TV connection interrupted TV defective TV power supply




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0028 Generator not ready

to generator, but receives no acknowledgement. Cause : HOST sends note Active: during power up ssible trouble / help : HOST-generator connection interrupted Generator defective Generator power supply Po

. 0029 Memoskop not ready

to Memoskop, but receives no acknowledgement. Cause : HOST sends note Active: during power up ssible trouble / help : HOST-Memoskop connection interrupted, Memoskop defective Memoskop power supply Po

. 002A Console not ready

to unit console, but receives no acknowledgement. Cause : HOST sends note Active: during power up

Unit console defective Console power supply Possible trouble / help : HOST-console connection interrupt S3C-Bus Controller ; try download .

. 002B Generator needs learning

earning datas Cause : Generator lost lActive: during power up ssible trouble / help : Execute generator learning Po

. 0 or 5 002C Host D6 switch S1 not in position

ervice-mode 1 Cause : S1 on D6 is in sActive: during power up ssible trouble / help : switch S1 to 0 (normal) or switch S1 to 5 (no radiation) Po

. 002E 'Radiation on' during initialization (foot/hand switch)

nd switch for radiation on was pressed during initialization of the unit. Cause : Footswitch or haActive: during power up ssible trouble / help : control foot/hand switch Po

. 0032 GEN-CURVE not allowed

s no longer allowed Cause : generator curve iActive: during radiation Possible trouble / help : change to another curve




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0033 Host D3 FEPROM error during download Cause : Prior to downloading, the FEPROM type and memory space on D3 are checked. If the test is negative, . this error is displayed. Active: during downloading Possible trouble / help : Defective Flash-EPROM Board D3 defective . 0034 Host D3 FEPROM delete error during download Cause : All FEPROMs are completely cleared prior to downloading. If not this error is indicated. Active: during downloading Possible trouble / help : +12 V programming voltage Board D3 defective .

0035 Host D3 FEPROM programming error during download Cause : During each write operation to the FEPROM the input value will be read back. If the read value . does not agree with the written value, an error is displayed. Active: during downloading Possible trouble / help : FEPROM defective Board D3 defective .

0038 Memory bank changeover error Cause : The memory areas can not be correctly changed over. It is possible that the defective memory can nolonger be read. Active: Constantly Possible trouble / help : +5V power supply voltage < 4,75V Board D3 defective .

0039 Block check error during service PC data transmission Cause : Error during data transmission from Service PC to HOST. Active: during service Possible trouble / help : Serial cable from PC to unit Board D2 defective Software error .

003A Echo timeout error during service PC data transmission Cause : Error during data transmission from service PC to HOST. Active: during service Possible trouble / help : Serial cable from PC to unit board D2 defective Software error .

003B Wrong echo during service PC data transmission Cause : Error during data transmission from service PC to HOST. Active: during service Possible trouble / help : Serial cable from PC to unit board D2 defective Software error




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003C Interface error during service PC data transmission

ta transmission from service PC to HOST. Cause : Error during daActive: during service ssible trouble / help : Serial cable from PC to unit board D2 defective Software error Po

. 003D Host D3 EEPROM programming error Cause : During each write operation to the EEPROM, the input value will be read back. If the read value does not agree with

the written value, an error is displayed. Active: always ssible trouble / help : EEPROM on board D3 defective Board D3 defective +5V power supply voltage < 4.75 V Po

. 003E Host D3 EEPROM checksum error

ent value, i.e. the parameter file has an error. In this Cause : The stored checksum does not agree with the curr file is automatically deleted. . case, the entire

Active: during power up ssible trouble / help : Tube surges; board D3 defective; copy last parameter- and info file from diskette. Po

. 003F Host D3 NOVRAM checksum error

ent value, i.e. the error memory is defective. In this Cause : The stored checksum does not agree with the curr file is automatically deleted. . case, the entire

Active: during power up ssible trouble / help : Tube surges; board D3 defective Organ programs and error memory were deleted. Po

. 0040 Host D6 FEPROM error during download

the FEPROM are tested prior to downloading. If the test is Cause : The type and storage capacity of is indicated. . negative, an error

Active: during downloading ssible trouble / help : FEPROM defective Unit board D6 defective Po

. 0041 Host D6 FEPROM delete error during download

ll Flash-EPROMs will be completely cleared prior to downloading. If not, an error is indicated. Cause : A. Active: during downloading Possible trouble / help : +12 V programming voltage Unit board D6 defective




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0042 Host D6 FEPROM programming error during download Cause : After each write operation to the FEPROM, the input value is read back. If the read value does not agree . does not agree with the written value, an error is displayed. Active: during downloading Possible trouble / help : Flash-EPROM defective +12 V programming voltage defective Board D6 defective . 0043 Console D20 does not answer during download Cause : HOST transmits data to unit console, but receives no answer. Active: during downloading Possible trouble / help : Load lead for unit console does not answer Flash-EPROM defective . Board D20 defective Download-connection defective 0044 Console D20 FEPROM delete error during download Cause : Console FEPROM is completely cleared prior to downloading. If this proves impossible, an error is indicated. Active: during downloading Possible trouble / help : +15 V voltage Board D20 defective Appears in connection with error 420B . 0045 Console D20 FEPROM programming error during download Cause : After each write operation to the FEPROM, the input value is read back. If the value read does not agree . with the value written, an error is displayed. Active: during downloading Possible trouble / help : Flash-EPROM defective +12 V programming voltage defective . Board D20 defective Appears with error 420C . 0046 TV does not answer during download Cause : HOST transmits data to TV, but receives no answer. Active: during downloading Possible trouble / help : Load lead for TV does not answer TV system defective Download-connection defective . 0047 TV NOVRAM delete error during download Cause : All NOV RAMs are completely cleared prior to downloading. If this proves impossible, an error is indicated. Active: during downloading Possible trouble / help : +15 V voltage TV system defective




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0048 TV NOVRAM programming error during download

nput value is read back. If the value read does not agree Cause : After each write operation to the NOVRAM, the iten, an error is displayed. . with the value writ

Active: during downloading ssible trouble / help : NOVRAM defective TV system defective Po

. 0049 Memoskop D1/D18 does not answer during download

to Memoskop, but receives no answer. Cause : HOST transmits dataActive: during downloading ssible trouble / help : Download indication D6.V12 dark Download connection defective Memoskop defective Po

. 004A Memoskop D1/D18 FEPROM delete error during download

mpletely cleared prior to downloading. If not, an error is indicated. Cause : All FE PROMs are coActive: during downloading ssible trouble / help : +12 V programming voltage Memoskop defective Po

. 004B Memoskop D1/D18 FEPROM programming error during. download

nput value is read back. If the read value does not agree Cause : After each write operation to the FEPROM, the ilue, an error is displayed. . with the written va

Active: during downloading ssible trouble / help : FEPROM defective +12 V programming voltage Memoskop defective Po

. 004C Memoskop D2 does not answer during download

to hard disk, but receives no answer. Cause : HOST transmits dataActive: during downloading

ot answer Hard disk controller defective Possible trouble / help : Load lead for hard disk does n Download-connection defective .

. 004D Memoskop D2 FEPROM delete error during download

ompletely cleared prior to down-loading. If this proves impossible, an error is indicated. Cause : All FE EPROMs are cActive: during downloading Possible trouble / help : +12 V programming voltage Hard disk controller defective




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004E Memoskop D2 FEPROM programming error during download Cause : After each write operation to the FEPROM, the input value is read back. If the value read doesn't agree . with the value written, an error is displayed. Active: during downloading Possible trouble / help : FEPROM defective +12 V programming voltage Hard disk controller defective .

004F No console 'READY' during download Cause : HOST sends note to console, but receives no acknowledgement. Active: during downloading Possible trouble / help : Unit console Power supply for console defective Connection to console defective . Internal procedure error during downloading .

0050 No TV 'READY' during download Cause : HOST sends note to TV, but receives no acknowledgement. Active: during downloading Possible trouble / help : TV system defective TV system power supply defective Connection to TV system defective .

0051 No Memoskop D1/D18 'READY' during download Cause : HOST sends note to Memoskop, but receives no acknowledgement. Active: during downloading Possible trouble / help : Memoskop defective Connection to Memoskop defective .

0052 No Memoskop D2 'READY' during download Cause : HOST sends note to hard disk, but receives no acknowledgement. Active: during Download Possible trouble / help : Hard disk controller defective Connection to hard disk controller defective .

0053 Host D3 EEPROM faulty Cause : EEPROM has been initialized. All adjustments of the test field and from service have been reseated. Active: Possible trouble / help : load latest parameter-file

0054 Unit Software version different Cause : The stored unit software version string in menu <options><software ver>is different to the actual unit soft-version Active: Possible trouble / help : change software version in menu <options> <software ver> <set new>




REV 3 SM 2352376-100TPH


rrect 0055 Host D6 hardware not co checks D6 Cause : processor

Active: power up ssible trouble / help : D6 not plugged-in correctly AT-bus interface D6 defective Po

. 0056 Host D6 Watchdog Reset

ut of cycle Cause : Processor oActive: Constantly Possible trouble / help : Reset .

ing download 0057 GEN D201 FEPROM delete error durActive: During DOWNLOAD of generator ssible trouble / help : Check +12V on D201 FEPROM defective, change D201 Po

. g download 0058 HOST-GEN communication error durin

r Cause : Communication HOST - generatoator Active: During DOWNLOAD of gener

Possible trouble / help : Reset .

download 0059 Generator checksum failure afterActive: During DOWNLOAD of generator Possible trouble / help : Download once more .

ring download 005A Generator communication error duator Active: During DOWNLOAD of gener

ossible trouble / help : Reset P

ring download 005B Generator communication error duator Active: During DOWNLOAD of gener

Possible trouble / help : Reset . 005C Generator FEPROM wrong internal ID

EPROM defective Cause : FEPROM type not released or FActive: During DOWNLOAD of generator Possible trouble / help : Board D201 defective




REV 3 SM 2352376-100TPH


1070 Host D6 S3B-receive-buffer unknown status Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1071 Host D6 S3B-receive-buffer has init status Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1075 Host D6 S3B-undefined receive-message Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1076 Host D6 S3B-class-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1077 Host D6 S3B-code-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1078 Host D6 S3B-code-extension-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1079 Host D6 S3B-function-code-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective




REV 3 SM 2352376-100TPH


107A Host D6 S3B-undefined feedback

sn't work properly Cause : S3C-software doeActive: during power up ssible trouble / help : download S3C software D6 defective Po

. 107B Host D6 S3B-send-buffer full-message


. 107C HOST-S3 bus not initialized


. ack 107D Host D6 S3B-send-buffer undefined feedb

esn't work properly .Cause : S3C-software doActive: during power up ssible trouble / help : download S3C software D6 defective Po

. 107E Host D6 S3B-send-buffer unknown status


. 107F Host D6 S3B-send-buffer unknown error


. 1081 Host D6 S3B-undefined input-feedback

sn't work properly Cause : S3C-software doeActive: during power up Possible trouble / help : download S3C software D6 defective




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1082 Host D6 S3B-undefined input-message Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1083 Host D6 S3B-undefined command-address Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1084 Host D6 S3B-undefined input-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1085 Host D6 S3B-undefined input-receive-feedback Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1086 HOST - S3 bus communication error Cause : Communication between HOST and S3 bus disturbed Active: Constantly Possible trouble / help : Board D6 defective Normal following Download set the unit Online . 1087 Host D6 S3B-input wrong-length-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 1088 Host D6 S3B-input unknown-type-error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective




REV 3 SM 2352376-100TPH


108A Host D6 S3B-input wrong-checksum-errorsn't work properly Cause : S3C-software doe

Active: during power up ssible trouble / help : download S3C software D6 defective Po

. 108B Host D6 S3B-input undefined feedback


. 10D4 Host D6 S3C-IOB unknown receive status

sn't work properly Cause : S3C software doeActive: during power up ssible trouble / help : download S3C software D6 defective Po

. 10D5 Host D6 S3C-IOB receive-init-status


. age 10D9 Host D6 S3C-IOB receive undefined mess


. 10DA Host D6 S3C-IOB class error


. 10DB Host D6 S3C-IOB code error

sn't work properly Cause : S3C-software doeActive: during power up ossible trouble / help : download S3C software D6 defective P




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10DE Host D6 S3C-IOB receive undefined feedback Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 10DF Host D6 S3C-IOB send-buffer full Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 10E0 Host D6 I/O RAM not initialized Cause : Dual ported RAM on D6 can't be initialized Active: during power up Possible trouble / help : Check FEPROM for S3C Download S3C software Check RAM on D6 D6 defective . 10E1 Host D6 S3C-IOB send undefined feedback Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 10E2 Host D6 S3C-IOB send unknown status Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 10E3 Host D6 S3C-IOB send unknown error Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 10E5 Host D6 S3C-IOB-input undefined feedback Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective




REV 3 SM 2352376-100TPH


e 10E6 Host D6 S3C-IOB-input undefined messagsn't work properly Cause : S3C-software doe

Active: during power up ssible trouble / help : download S3C software D6 defective Po

. d-address 10E7 Host D6 S3C-IOB-input undefined comman


. 10E8 Host D6 S3C-IOB-input undefined error


. d feedback 10E9 Host D6 S3C-IOB-input-receive undefine


. 10EA HOST - I/O bus communication error

on between HOST and I/O bus disturbed Cause : CommunicatiActive: Constantly ssible trouble / help : Board D6 defective Normal following Download and set the unit Online Po

. ngth 10EB Host D6 S3C-IOB-input-receive wrong-le


. type 10EC Host D6 S3C-IOB-input-receive unknown-

sn't work properly Cause : S3C-software doeActive: during power up ossible trouble / help : download S3C software D6 defective P




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10EE Host D6 S3C-IOB-input-receive wrong-checksum Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective . 10EF Host D6 S3C-IOB-input-receive undefined feedback Cause : S3C-software doesn't work properly Active: during power up Possible trouble / help : download S3C software D6 defective




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Error message: Memoskop device errors .

ror 2101 Memoskop D1/D18 processor hardware eror test negative. Cause : Internal process

Active: during power up ossible trouble / help : processor defective Board D1 defective. P

.

2102 Memoskop D1/D18 external processor RAM test failed ared during initialization. If this is not possible, an error is indicated. Cause : All RAMS are cle

Active: during power up ossible trouble / help : RAM defective Board D1 defective. P

.

2103 Memoskop D1/D18 checksum test configuration. byte failed gree with stored checksum. In this case, the standard configuration Cause : Current checksum does not a

selected. . is automaticallyActive: during power up ossible trouble / help : NOVRAM defective Replace board D1 Restore old configuration P

.

2104 Memsokop D1/D18 FEPROM checksum error does not agree with stored checksum. Cause : Current checksum

Active: during power up ossible trouble / help : Flash-EPROM defective Replace board D1 Try to download P

.

2105 Memoskop D2 (D21/D17/D22) not addressable data transmitted are automatically polled. If the feedback Cause : When data are sent to D2 (D21/D17/D22) the

an error message appears. . is not correct, Active: during power up

22) defective(not plugged in) Back-plane D5 defective Possible trouble / help : Board D2 (D21/D17/D. Board D1 defective .

2106 Memoskop D2 (D21/D22/D17) CPU2-BUS defective tion. Internal test images no longer selectable. Image can Cause : Error detected in CPU 2 during initializa

ared for "Next Patient". . no longer be cleActive: during power up

22) defective Back-plane D5 defective Possible trouble / help : Board D2 (D21/D17/D. Board D1 defective




REV 3 SM 2352376-100TPH


2107 Memoskop D1 NOVRAM (Hospital line IMG) checksum error Cause : Current checksum does not agree with the stored one Only an empty line is displayed instead of the name. Active: during power up Possible trouble / help : NOVRAM defective Board D1 defective . 2108 Memoskop D1/D18 Stack overflow Cause : Internal Software Error Active: Constantly Possible trouble / help : reset . 2109 Memoskop IMG-text-loading checksum test failed Cause: During loading an image from the disk there was a checksum failure of the text of this image. No text will be loaded. Active: during loading of an image Possible trouble / help: There wasn't ever stored any text on this image. Disk is full . Change 50Hz to 60Hz or 60Hz to 50Hz . 210A Memoskop D22 not addressable Cause : When data are sent to D22 the transmitted data are automatically polled. If the feedback is not . correct, an error massage appears. Active: during power up Possible trouble / help : Board D22 defective (not plugged in) . 2301 No START following HS_MODE (exposure telegram start) Cause : HOST has transmitted the HS_MODE signal, but the answer (hardware lead START) is not transmitted within 5 sec. Active: during radiation Possible trouble / help : Operator error - the release switch was pressed either too briefly or in short, rapid succession. 2302 Excessive START pause during pulsed-mode operation Cause : HS_STOP (end of exposure) message not received within 5 sec. in pulsed mode. This may result in a HOST reset. Active: during pulsed mode operation Possible trouble / help : Operator error - the release switch was pressed either too briefly or in short, rapid succession.




REV 3 SM 2352376-100TPH


2303 VR-sync. missing in HS_MODE

s missing on board D1 at the beginning of the exposure. The green LED on Cause : The Memoskop-internal VR pulse iht up. . the Memoskop does not lig

Active: during start of exposure ssible trouble / help : Connector X13 on board D1 Board D1 defective Power supply power supply Po

. 2304 Internal VR sync. in HS_MODE

on board D1 at the start of the exposure. The Memoskop Cause : The Memoskop-external VR pulse is missingternal VR sync. . is synchronized to the in

Active: during start of exposure ssible trouble / help : BAS signal from TV system missing Plug X9 not connected Board D1 defective Po

. 2401 Memsokop CPU1/2 communication error

CPU1 (D1) and CPU2 (D2) The checksum is not ok. Error detected by D1. Cause : Communication error between Active: during hard-disk activities ssible trouble / help : Board D1, D2, or D5 defective Different software on D1 and D2. Try Download. Po

. 2402 Memsokop, no communication with CPU2 following RESET

tween CPU1 (D1) and CPU2 (D2). Error detected by D1. Cause : Communication error beActive: during initialization

ware on D1 and D2 Try Download Possible trouble / help : Board D1, D2, or D5 defective. Different soft Possible sub-sequence error resulting from error 2103. .

. 2403 Memoskop, timeout during communication with CPU2

ween D1 and CPU2 Cause : Timeout during communication betActive: during all hard-disk activities ssible trouble / help : Board D2 (CPU2) defective Different software on D1 and D2 Try Download Memoskop. Po

. rsion 2404 Memoskop, error during polling of CPU2 ve

etected in CPU2 (D2). Cause : Wrong software dActive: during power up ossible trouble / help : Different software versions on boards D1 and D2 Try Download Memoskop. P




REV 3 SM 2352376-100TPH


2420 Memoskop IMG_SUB Disk overflow Cause : All images on disk are 'protected'; No images will be written to disk. (only warning) Active: when store an image on disk Possible trouble / help : 'unprotect' patients .

2421 Memoskop IMG_SUB disk full Cause : scene is longer than amount of 'unprotected images'. No more images will be stored on disk. (only warning) Active: when store an image on disk Possible trouble / help :'unprotect' patients .

2422 Memoskop IMG_SUB Un expected Image type Cause : Sub-traction image found without mask (only warning) Active: during loading an image from disk Possible trouble / help : Overwrite image .

2423 Memoskop IMG_SUB no stored image available Cause : No image found on disk; all images cleared (only warning) Active: during loading an image from disk Possible trouble / help : .

2424 Memoskop disk directory init error Cause : Failure during initialization of disk directory Active: during power up Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

2425 Memoskop IMG_SUB disk directory checksum error Cause : Checksum error during reading the disk directory Disk directory will be initialized, all 'protections' . will be canceled, deleted images become visible (no name patients with date 0.JAN) Active: during power up Possible trouble / help : Unit was switched off during exposure or number of images on disk was changed .

2480 Memoskop hard disk-bus error Cause : bus not free Active: Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


rror 2481 Memoskop hard disk-bus eCause : no arbitration phase ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 2482 Memoskop hard disk-bus Cause : no selection phase ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

ror 2483 Memoskop hard disk-bus erCause : no reselection phase ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 2484 Memoskop hard disk-bus Cause : no command phase 1 ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 2485 Memoskop hard disk-bus Cause : no command phase 2 ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 2486 Memoskop hard disk-bus Cause : no data in phase 1 ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 2487 Memoskop hard disk-bus Cause : no data in phase 2 ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

rror 2488 Memoskop hard disk-bus eCause : no data out phase 1 ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

rror 2489 Memoskop hard disk-bus eCause : no data out phase 2 Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


248A Memoskop hard disk-bus error Cause : no status phase Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

248B Memoskop hard disk-bus error Cause : no message in phase Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

248C Memoskop hard disk-bus error Cause : no message out phase Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

248D Memoskop hard disk-bus error Cause : no data out LRAM phase 1 Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

248E Memoskop hard disk-bus error Cause : no data out LRAM phase 2 Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

248F Memoskop hard disk-bus error Cause : no data in LRAM phase 1 Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

2490 Memoskop hard disk-bus error Cause : no data-in-LRAM phase 2 Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

2491 Memoskop hard disk-bus timeout error Cause : CPU1 I/O data timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

2492 Memoskop hard disk-bus error Cause : CPU1 no out-data phase 1 Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


rror 2493 Memoskop hard disk-bus timeout eCause : CPU1 OUT-data phase timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

meout error 2494 Memoskop hard disk-bus tiCause : CPU1 IN-data timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

meout error 2495 Memoskop hard disk-bus tiCause : CPU1 IN-data timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 2496 Memoskop hard disk-bus timeoutCause : CPU1 IN-data phase timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24A0 Memoskop CPU2-SW-Error Cause : No Arbitration phase Internal Software Error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24A1 Memoskop CPU2-SW-Error Cause : No Reselection phase Internal Software Error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24A3 Memoskop CPU2-SW-Error Cause : No Message Out Phase Impl Internal Software Error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

imeout error 24B0 Memoskop hard disk bus tCause : Arbitration time out ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

s timeout error 24B1 Memoskop hard disk buCause : Selection timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


24B2 Memoskop hard disk bus timeout error Cause : Reselection timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B3 Memoskop hard disk bus timeout error Cause : Command entry timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B4 Memoskop hard disk bus timeout error Cause : Command phase timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B5 Memoskop hard disk bus timeout error Cause : Data-IN timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B6 Memoskop hard disk bus timeout error Cause : Data-IN phase timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B7 Memoskop hard disk bus timeout error Cause : Data-OUT timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B8 Memoskop hard disk bus timeout error Cause : Data-OUT phase timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24B9 Memoskop hard disk bus timeout error Cause : Status entry timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24BA Memoskop hard disk bus timeout error Cause : Status phase timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


ut error 24BB Memoskop hard disk bus timeoCause : Message IN-entry timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

ut error 24BC Memoskop hard disk bus timeoCause : Message IN-phase timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

t error 24BD Memoskop hard disk bus timeouCause : Message Out-entry timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

t error 24BE Memoskop hard disk bus timeouCause : Message OUT-phase timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 24BF Memoskop hard disk bus timeout Cause : Data-OUT-LRAM-entry timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 24C0 Memoskop hard disk bus timeout Cause : Data-OUT-LRAM-phase timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 24C1 Memoskop hard disk bus timeoutCause : Data-IN-LRAM-entry timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

error 24C2 Memoskop hard disk bus timeoutCause : Data-IN-LRAM-phase timeout ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

or 24C3 Memoskop hard disk bus timeout errCause : CMD-exit-Message entry timeout Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


24D0 Memoskop hard disk error Cause : Check condition Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24D1 Memoskop hard disk error Cause : Unexpected Status Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24D2 Memoskop hard disk error Cause : Unexpected IN-message Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24D3 Memoskop hard disk error Cause : Data parity error Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24D4 Memoskop hard disk error Cause : Hard disc not on SCSI bus Possible trouble / help : Board D2 defective Cable defective Hard disk defective 12V-Power Supply .

24D5 Memoskop hard disk error Cause : Hard disk not ready Possible trouble / help : Board D2 defective Cable defective Hard disk defective 12V-Power Supply .

24D8 Memoskop hard disk bus error Cause : SCSI Stop error Possible trouble / help : Board D2 defective. Cable defective Hard disk defective Memoskop hard disk bus error

Cause : SCSI stop: parity error Possible trouble / help : Board D2 defective Cable defective Hard disk defective .

24DA Memoskop hard disk bus error Cause : SCSI stop: Data phase error Possible trouble / help : Board D2 defective Cable defective Hard disk defective




REV 3 SM 2352376-100TPH


us error 24DB Memoskop hard disk bCause : SCSI stop: error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24DC Memoskop hard disk bus error Cause : SCSI stop: LRAM stop error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

bus error 24DD Memoskop hard disk Cause : SCSI stop error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

bus error 24DE Memoskop hard disk Cause : SCSI stop error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

bus error 24DF Memoskop hard disk Cause : SCSI stop error ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24E0 Memoskop harddisk bus error Cause : CMD exit with check condition ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24E1 Memoskop hard disk bus error Cause : CMD Exit no message in phase ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24E2 Memoskop hard disk bus error Cause : CMD exit unexpected IN-message ossible trouble / help : Board D2 defective Cable defective Hard disk defective P

.

24F0 Memoskop CPU2-SW-error 1 Cause : Unknown DBI unknown request from CPU

Possible trouble / help : Internal SW error




REV 3 SM 2352376-100TPH


24F1 Memoskop CPU2-SW-error Cause : Error in 3 byte ADD Possible trouble / help : Internal SW error .

24F2 Memoskop CPU2-SW-error Cause : Checksum Error in FEPROM Possible trouble / help : Board D2 defective Try download .

24F3 Memoskop CPU2-SW-error Cause : Wrong request Possible trouble / help : Internal SW Error .

24F4 Memoskop CPU2-SW-error Cause : Wrong request number Possible trouble / help : Internal SW Error .

24F8 Memoskop CPU1-CPU2 communication error Cause : Receiver timeout Possible trouble / help : Board D1 defective Board D2 defective Board D5 defective .

24F9 Memoskop CPU1-CPU2 communication error Cause : Receiver checksum error Possible trouble / help : Board D1 defective Board D2 defective Board D5 defective .

24FA Memoskop CPU1-CPU2 communication error Cause : Transmitter timeout Possible trouble / help : Board D1 defective Board D2 defective Board D5 defective .

24FB Memoskop CPU1-CPU2 communication error Cause : Transmitter checksum error Possible trouble / help : Board D1 defective Board D2 defective Board D5 defective .

24FC Memoskop CPU1-CPU2 communication error Cause : Transmitter HW Error Possible trouble / help : Board D1 defective Board D2 defective Board D5 defective




REV 3 SM 2352376-100TPH


ram received 2501 Memoskop unknown S3 bus telegmand on S3 bus Cause : Unknown com

Active: Constantly ossible trouble / help : Different software versions on boards D1 and host Try Download HOST and Memoskop. P

.

th wrong length received 2502 Memoskop S3 bus telegram wind on S3 bus Cause : wrong comma

Active: Constantly ossible trouble / help : Different software versions on boards D1 and D2 Try Download HOST and Memoskop. P

.

2503 Memoskop IMG S3 bus transmit error ta transmission between Memoskop and S3 bus Cause : Error in da

Active: Constantly ossible trouble / help : Host - S3 bus - D6 input connection defective Output connection for board D1 defective P

.

2504 Memoskop S3 bus receive error ta transmission between S3 bus and Memoskop Cause : Error in da

Active: Constantly 3 bus defective Possible trouble / help : Output connection between host D6 and S

Input connection of board D1 defective ..

2601 Memoskop error during text controller test test controller negative. Cause : Internal test of

Active: during power up ossible trouble / help : Text module D6 in Memoskop defective Board D1 defective P

.

2602 Memoskop error during text controller RAM test test controller RAMs negative. Cause : Internal test of

Active: during power up ossible trouble / help : Text module D6 in Memoskop defective Board D1 defective P

.

2610 Memoskop keyboard interface test: baud rate too low n SG carriage during keyboard test Cause : Error detected i

Active: during power up Possible trouble / help : Text module D6 in Memoskop defective Board D1 defective




REV 3 SM 2352376-100TPH


2611 Memoskop keyboard interface test: baud rate too high Cause : Error detected in SG carriage during keyboard test Active: during power up Possible trouble / help : Interface module for keyboard on board D1 defective. .

2612 Memoskop keyboard interface test: Baud clock missing Cause : Error detected in SG carriage during keyboard test Active: during power up Possible trouble / help : Interface module for keyboard on board D1 defective. .

2620 Memoskop keyboard interface test: Feedback error Cause : Error detected in SG carriage during keyboard test Active: during power up Possible trouble / help : Interface module for keyboard on board D1 defective. .

2621 Memoskop keyboard interface test: Feedback timeout Cause : Error detected in SG carriage during keyboard test Active: during power up Possible trouble / help : Interface module for keyboard on board D1 defective. .

2710 Memoskop BAS sync. test: H sync. period too long Cause : Error detected during synchronization test of storage TV system Active: during power up Possible trouble / help : Board D1 defective Cable X13 on Memoskop .

2711 Memoskop BAS sync. test: H sync. period too short Cause : Error detected during synchronization test of storage TV system Active: during power up Possible trouble / help : Board D1 defective Cable X13 on Memoskop .

2712 Memoskop BAS sync. test: H sync. missing Cause : Error detected during synchronization test of storage TV system Active: during power up Possible trouble / help : Board D1 defective Cable X13 on Memoskop




REV 3 SM 2352376-100TPH


2720 Memoskop BAS sync. test: 50 Hz VR sync period too long uring synchronization test of storage TV system Cause : Error detected d

Active: during power up ossible trouble / help : Board D1 defective Cable X13 on Memoskop P

.

2721 Memoskop BAS sync. test: 50 Hz VR sync period too short uring synchronization test of storage TV system Cause : Error detected d


.

2722 Memoskop BAS sync. test: 60 Hz VR sync period too long uring synchronization test of storage TV system Cause : Error detected d


.

2723 Memoskop BAS sync. test: 60 Hz VR sync period too short uring synchronization test of storage TV system Cause : Error detected d


.

2724 Memoskop BAS sync. test: VR sync. missing uring synchronization test of storage TV system Cause : Error detected d


.

2730 Memoskop BAS sync. test: H sync. level error uring synchronization test of storage TV system Cause : Error detected d


.

2731 Memoskop BAS sync. test: PLL lock error uring synchronization test of storage TV system Cause : Error detected d

Active: during power up Possible trouble / help : Board D1 defective Cable X13 on Memoskop




REV 3 SM 2352376-100TPH


2740 Memoskop BAS sync. test: VR interrupt missing Cause : Error detected during synchronization test of storage TV system Active: during power up Possible trouble / help : Board D1 defective Cable X13 on Memoskop .

2750 Memoskop BAS sync. test: Wrong call up parameter Cause : Error detected during synchronization test of storage TV system Active: during power up Possible trouble / help : Software error .

2800 Memoskop Voltage test: ADC ref. voltage too high Cause : Reference voltage for analog/digital converter on board D1 too high. Active: during power up Possible trouble / help : CPU1 error Board D1 defective .

2801 Memoskop Voltage test: ADC ref. voltage too low Cause : Reference voltage for analog/digital converter on board D1 too high. Active: during power up Possible trouble / help : CPU1 error +5 V supply voltage too high Board D1 defective .

2810 Memoskop Voltage test: VPP min. too high Cause : Programming voltage for flash PROMs out of tolerance. Active: during power up Possible trouble / help : Voltage regulator for programming voltages on D1 defective Connector X13 on Memoskop .

2811 Memoskop Voltage test: VPP min. too low Cause : Programming voltage for flash PROMs out of tolerance. Active: during power up Possible trouble / help : Voltage regulator for programming voltages on D1 defective Connector X13 on Memoskop .

2812 Memoskop Voltage test: VPP max. too high Cause : Programming voltage for flash PROMs out of tolerance. Active: during power up Possible trouble / help : Voltage regulator for programming voltages on D1 defective Connector X13 on Memoskop




REV 3 SM 2352376-100TPH


2813 Memoskop Voltage test: VPP max. too low age for flash PROMs out of tolerance. Cause : Programming volt

Active: during power up ossible trouble / help : Voltage regulator for programming voltages on D1 defective Connector X13 on Memoskop P

.

2814 Memoskop Voltage test: VPP missing age for flash PROMs out of tolerance. Cause : Programming volt

Active: during power up ossible trouble / help : Voltage regulator for programming voltages on D1 defective Connector X13 on Memoskop P

.

og too high 2820 Memoskop Voltage test: 5V analxceeds 6 V Cause : Supply voltage e

Active: during power up ossible trouble / help : Voltage regulator on board D1 def. Connector X13 on Memoskop P

.

2821 Memoskop Voltage test: 5V analog too low ess than 4 V; LED +5V on Memoskop switches off. Cause : Supply voltage l


.

2830 Memoskop Voltage test: -5V2 too highCause : Supply voltage for clock too high ossible trouble / help : Voltage regulator on board D1 def. Connector X13 on Memoskop P

.

2831 Memoskop Voltage test: -5V2 too low or clock too low; LED on Memoskop -5V2 switches off. Cause : Supply voltage f


.

too high 2840 Memoskop Voltage test: VEE analog (-5V) Cause : Supply voltage for ADC/DAC too high. ossible trouble / help : Voltage regulator on board D1 def. Connector X13 on Memoskop P

2841 Memoskop Voltage test: VEE analog (-5V) too low or ADC/DAC too low. LED VEE on Memoskop switches off. Cause : Supply voltage f

Active: during power up Possible trouble / help : Voltage regulator on board D1 def. Connector X13 on Memoskop




REV 3 SM 2352376-100TPH


Error message: TV device errors .

3001 TV reference voltage out of tolerance Cause : Tolerances for reference voltage exceeded Active: Constantly Possible trouble / help : See troubleshooting instructions Power supply D10 Board D110 .

3004 TV D112 NVRAM RAM-region error Cause : Processor tries to overwrite a protected area in the NVRAM. Active: Constantly Possible trouble / help : Perform "source" test and switch unit off and on. Error eliminated: ok . Error not eliminated: D112 board; +5V voltage (rise, drop). .

3005 TV D112 NVRAM checksum error Cause : Stored checksum of NVRAM does not agree with actual checksum. Active: Constantly Possible trouble / help : Try download and switch on/off several times Error eliminated: ok . Error not eliminated: D112; +5V voltage (rise, drop). .

3006 TV D112 NVRAM test error Cause : Test of NVRAM is negative Active: during Download Possible trouble / help : NVRAM defective -> Replace D112 .

3009 TV interference during download Cause : Illegal spikes on download line Active: during Download Possible trouble / help : Check download lines .

3010 KK voltage out of tolerance Cause : One of the KK voltages (+5 V digital, +12 V analog, +12 V digital, -10 V digital) is missing. Active: Constantly . G5321-83 Possible trouble / help : Measure at D110 pin X4/b10: Voltage between +1.9 and +2.0 V: +5 V digital defective .Voltage between - 0.6 and - 0.3 V: +12 V digital defective Voltage between +4.6 and +4.7 V:-10 V digital defective

.Voltage between +2.6 and +2.7 V: +12 V analog defective .Voltage between +4.0 and +4.1 V: all voltages are o.k.




REV 3 SM 2352376-100TPH


3011 TV CUP Pelletier voltage out of tolerance ly voltage of Pelletier element Cause : Faulty supp

Active: Constantly Possible trouble / help : Voltage at test pin X1/30 (CUP) not ok -> power supply defective

. If voltage at test pin X1/30 (CUP) is ok, then measure voltage at test pin X2/15 (GUP); If ok -> VV (preamp) board defective. If voltage at test pin X2/15 (GUP) is not ok, KK def. .

.

3012 KK B DC signal out of tolerance B signal on board KK not ok Cause : DC value of

Active: Constantly amp) Test pin X1/VV ok: D110 defective Possible trouble / help : Power supply of D110 (pre

Test pin X1/VV not ok: KK board defective. ..

3013 KK B-signal AC-value out of tolerance B signal on board KK not ok Cause : AC value of

Active: Constantly Possible trouble / help : KK board defective .

3014 KK Pelletier element does not cool the CCD chip elletier element not lower than with inactive Pelletier element. Cause : Measured temperature value with active P

Active: during initial loading of the TV camera ng up of the CCD chip KK and initial loading of the TV camera. Possible trouble / help :Normal after wormi

Pelletier element defective ..

3020 TV D110 X27TP D+12V out of tolerance al supply voltage for the KK board def. Cause : +12 V digit

Active: Constantly Possible trouble / help : Test pin X27/D110 ok: D110 defective. . Test pin X27/D110 not ok but +15 V ok: D110 defective. Test pin X27/D110 not ok and +15 V not ok: power supply defective. .

.

3021 TV D110 X26TP A+12V out of tolerance g supply voltage for KK board defective. Cause : +12 V analo

Active: Constantly Possible trouble / help : D110 defective




REV 3 SM 2352376-100TPH


3022 TV D110 LED V62, +5V out of tolerance Cause : +5 V supply voltage for the VV board defective Active: Constantly Possible trouble / help : Test pin X1/25 on D110 ok:D110 defective . Test pin X1/25 on D110 not ok: power supply defective .

3023 TV D110 LED V63, -10V Pelletier (CUB) out of tolerance Cause : Supply voltage for Pelletier element (-10V) defective Active: Constantly Possible trouble / help : Test pin X1/29 on D110 ok: D110 defective . Test pin X1/29 on D110 not ok: power supply defective .

3024 TV D110 X28TP, A-12V out of tolerance Cause : Fault in -12 V supply voltage for D110 Active: Constantly Possible trouble / help : Test pin X28/D110 ok: D110 def . Test pin X28/VV not ok but -15 V supply voltage ok: D110 defective . Test pin X28/D110 not ok and -15 V supply voltage not ok: power supply def. .

3025 TV D110 X29TP, D-12V out of tolerance Cause: Fault in -12 V supply voltage for D110 Active: Constantly Possible trouble / help : D110 defective .

3027 TV D110 X6TP, H-saw-tooth amplitude test error Cause : Fault in H saw-tooth on D110 Active: Constantly Possible trouble / help : Test pin X6/D110 ok: D110 def. Test pin X6/D110 not ok and amplitude adjustable: Set amplitude. .Amplitude not adjustable: Measure XH/C9 on H-pulse board If H-pulse ok: D110 defective; otherwise, D112. .

3028 TV D110 X8TP, digital measuring field test error Cause : Fault in digital measuring field Active: Constantly Possible trouble / help : Test pin X8 on D110 ok: VV board defective . Test pin X8 on D110 not ok: Measure test pin X4/a8. . Test pin o.k.:D110 defective; otherwise D112 defective.




REV 3 SM 2352376-100TPH


ror 3029 TV IW analog measuring field test eralog measuring field Cause : Error in an

Active: Constantly ossible trouble / help : D111 defective D110 possibly defective P

.

test error 302A TV D110 X9TP, 250kHz-test-imageest image Cause : Fault in digital t

Active: during test image Possible trouble / help : Activate 250 kHz test image and measure test pin X9 on D110.

D110 and measure X9/D110 again. . If ok: D110 defective; otherwise switch over S100/ If ok: D112 defective; otherwise D110 defective. .

.

302B TV D110 IW MIWB signal error on D110 defective Cause : MIWD signal

Active: Constantly ossible trouble / help : D110 defective P

.

302C TV D110 BASA signal error st of D110 defective Cause : BASA contra

Active: Constantly ossible trouble / help : D110 defective Check connection to Memoskop (75-ohm terminal resistance) P

.

302D TV D110 BASA linear signal error (linear) of D110 defective Cause: BASA signal


.

302E TV D110 BASA gamma signal error (gamma) of D110 defective Cause : BASA signal


.

lue error 3030 TV D111 actual va11 Cause : Fault on D1

Active: Constantly Possible trouble / help : Check supply voltages on D110. If voltages ok: D111 defective.




REV 3 SM 2352376-100TPH


3031 TV D111 actual value timeout Cause : Fault on IW board Active: Constantly Possible trouble / help : Check supply voltages on D110. If voltages ok: D111 def. .

3032 TV D111 actual value transfer error Cause : transfer error on D111 Active: Constantly Possible trouble / help : D111 defective .

3033 TV D111 actual value timeout on transfer Cause : transfer error on D111 Active: Constantly Possible trouble / help : D111 defective .

3035 TV D111 actual value digital error Cause : Fault in IWB signal Active: Constantly Possible trouble / help : If error 302B also occurs,D110 is defective; otherwise D111 is defective. .

3036 TV D111 actual value MW error Cause : Error in actual mean value Active: Constantly Possible trouble / help : D111 defective .

3037 TV D111 actual value SW error Cause : Error in actual peak value, white Active: Constantly Possible trouble / help : D111 defective .

3038 TV D111 actual value SS error Cause : Error in actual peak value, black Active: Constantly Possible trouble / help : D111 defective




REV 3 SM 2352376-100TPH


3039 TV D111 actual value SS-SW error tual peak value, black and white Cause : Error in ac


.

303A TV D111 AGC error C control Cause : fault in AG


.

101 TV D112 test switch active 3

e 3102 TV data failurActive: Constantly

3103 TV DBI failureActive: Constantly

e isn't ready 3104 TV D111 actual valuActive: during power up

download 310A TV NOVRAM error duringActive: during TV Download

not received during download 310B TV HX_DLO_START signalActive: during TV Download

or during download 310C TV NOVRAM checksum errActive: during TV Download




REV 3 SM 2352376-100TPH


Error message: Console device errors 4001 Console FEPROM checksum error Cause : Wrong checksum during data transfer from console to HOST. Active: during power up Possible trouble / help : FEPROM defective Software in FEPROM console defective Try Download. . 4002 Console watchdog reset error Cause : Console signals a RESET to the HOST Active: Constantly Possible trouble / help : FEPROM defective Software in FEPROM console defective Try Download. . 4003 Console FEPROM +12V Vpp out of tolerance Cause : Programming voltage for FE PROMs out-of-tolerance Active: during power up Possible trouble / help : Power supply for console not o.k. Console defective Break in cable . 4004 Console +5V out of tolerance Cause : Power supply for console out-of-tolerance Active: during power up Possible trouble / help : Power supply for console not o.k. Console defective Break in cable . 4005 Console SW version not released Cause : Software version of console could not be recognized. Active: during power up Possible trouble / help : Console software defective, Try download console




REV 3 SM 2352376-100TPH


Error message: TV device errors

g download 4105 TV D112 NVRAM checksum error durinng download Cause : Error detected duri

Active: during TV download ossible trouble / help : Board D112 defective Repeat download. P

.

wnload 4106 TV D112 NVRAM test error during dong download Cause : Error detected duri

Active: during TV download ossible trouble / help : Board D112 defective Repeat download. P

.

4116 TV D112 data error during downloadng download Cause : Error detected duri

Active: during TV download Possible trouble / help : reset .

4117 TV D112 DBI error during download etected during download Cause : Unknown data word d

Active: during TV download ossible trouble / help : Operation of unit executed during download P

.

d 411E TV D112 NVRAM error during downloang download Cause : Error detected duri

Active: during TV Download ossible trouble / help : Repeat download. Board D112 may be defective. P

.

411F TV D112 no download start r Download unless a download request is pending. Cause : No data are sent fo

Active: during TV download Possible trouble / help : Software error .

ng download 4120 TV D112 checksum error in DBI during download Cause : Error detected duri

Active: during TV download Possible trouble / help : Malfunction of data line Check plug connections.




REV 3 SM 2352376-100TPH


Error message: Console checksum errors

4201 Console FEPROM checksum error during download Cause : Wrong checksum for data transfer. Active: during console download Possible trouble / help : FEPROM defective Software in FEPROM console defective .

4202 Console watchdog reset during download Cause : Console signals a RESET to the HOST Active: during console download Possible trouble / help : FEPROM in console defective Try download. .

4203 Console FEPROM +12V Vpp out of tolerance during. download Cause : Programming voltage for FE PROMs out-of-tolerance Active: during console download Possible trouble / help : Power supply for console not o.k. Console defective Break in cable .

4204 Console +5V out of tolerance during download Cause : Power supply for console out-of-tolerance Active: during console download Possible trouble / help : Power supply for console not o.k. Console defective Break in cable

4205 Console SW version not released during download Cause : Software version of console could not be recognized. Active: during console download Possible trouble / help : Console software defective Try download .

420B Console FEPROM erase error during download Cause : The FEPROM is completely erased prior to programming. If this proves impossible, an error message appears. Active: during console download Possible trouble / help : +15 V supply voltage missing Board D20 defective




REV 3 SM 2352376-100TPH


420C Console FEPROM programming error during download

nput value is read back. If the value read does not agree Cause : After each write operation to the FEPROM, the ian error is displayed. . with the value written,

Active during: Console download ossible trouble / help : FEPROM defective, D20 +15 V supply voltage Console defective P 420D Console checksum error in DBI during download

th the wrong checksum. Cause : Data were transmitted wiActive: during console download ssible trouble / help : Malfunction of the data line Check plug connections Po

. oad 420E Console FEPROM checksum error during downl

is not correct Cause : Checksum of flash EPROM Active: during console Download Possible trouble / help : FEPROM defective Board D20




REV 3 SM 2352376-100TPH


Error message: D1 memoskop device errors 4314 Memoskop D1/D18 data checksum error during download Cause : Checksum error detected in data transfer Active: during Memoskop download Possible trouble / help : Malfunction of data line Check plug connections .

4321 Memoskop D1/D18 not ready for download Cause : Request sent for download, however, Memoskop not ready. Active: during download of Memoskop D1 (D18) Possible trouble / help : Timing. Try download again. .

4322 Memoskop D1/D18 DBI too long during download Cause : Excessively long data word detected during download. Active: during download of Memoskop D1 (D18) Possible trouble / help : Fault in Memoskop Board D1 (D18) S3-Bus error .

4323 Memoskop D1/D18 address outside of area dur. download Cause : Selected address lies outside of permissible area Active: during download of Memoskop D1 (D18) Possible trouble / help : Internal software error .

4324 Memoskop D1/D18 incorrect data checksum dur. download Cause : Data was transferred with an incorrect checksum. Active: during download of Memoskop D1 (D18) Possible trouble / help : Malfunction of data line (S3-Bus). Check plug connections. .

4331 Memoskop D1/D18 FEPROM erase error during download Cause : Memoskop can not be cleared Active: during download of Memoskop D1 (D18) Possible trouble / help : FEPROM defective. +15 V supply voltage, X13 Board D1 defective .

4332 Memoskop D1/D18 FEPROM programming error during. download Cause : After each write operation to the FEPROM, the input value is read back. If the value read does not agree . with the value written, an error is displayed. Active: during download of Memoskop D1 (D18) Possible trouble / help : FEPROM defective +15 V supply voltage, X13 Board D1 defective




REV 3 SM 2352376-100TPH


or during download 4333 Memoskop D1/D18 FEPROM1 programming errCause : No data can be written to FEPROM 1. Active: during download of Memoskop D1 (D18) ossible trouble / help : FEPROM defective Board D1 (D18) defective +15 V supply voltage, X13 P

.

or during download 4334 Memoskop D1/D18 FEPROM2 programming errCause : No data can be written to FEPROM 2. Active: during download of Memoskop D1 (D18) ossible trouble / help : FEPROM defective Board D1 (D18) defective +15 V supply voltage, X13 P

. 4335 Memoskop D1/D18 FEPROM not complete erased during. download

to programming. If this proves impossible, an error message appears. Cause : The FEPROM is completely erased priorActive: during download of Memoskop D1 (D18) ossible trouble / help : +15 V supply voltage missing Board D1 (D18) defective FEPROM defective P

.

4336 Memoskop D1/D18 FEPROM all bytes already 0

ng download 4341 Memoskop D1/D18 unknown test number duriCause :An unknown test number was called up.

18) Active: during download of Memoskop D1 (DPossible trouble / help : Software error .

4342 Memoskop D1/D18 unknown DBI in HX_REQUEST during download ing of configuration Cause : Unknown data bit detected during poll

18) Active: during download of Memoskop D1 (DPossible trouble / help : Software error .

ong segment during download 4343 Memoskop D1/D18 wrCause : Software error

kop D1 (D18) Active: during download of MemosPossible trouble / help : reset .

ong segment during download 4345 Memoskop D1/D18 wrCause : Software error

skop D1 (D18) Active: during download of MemoPossible trouble / help :reset




REV 3 SM 2352376-100TPH


4351 Memoskop D1/D18 unknown telegram from HOST during download 4352 Memoskop D1/D18 receive error during download Cause : Error in data reception by HOST Active: during download of Memoskop D1 (D18) Possible trouble / help : Memoskop-HOST connection Software error . 4353 Memoksop D1/D18 transmit error during download Cause : Error in data transmission by HOST Active: during download of Memoskop D1 (D18) Possible trouble / help : Memoskop-HOST connection . 4361 Memoskop D1/D18 +12V Vpp out of tolerance during download Cause : +12 V programming voltage not o.k. Active: during download of Memoskop D1 Possible trouble / help : Connector X13 on board D1 Board D1 (D18) defective Power unit voltage supply . 4362 Memoskop D1/D18 +12.4V Vpp out of tolerance during download Cause : +12 V programming voltage not o.k. Active: during download of Memoskop D1 (D18) Possible trouble / help : Connector X13 on board D1 Board D1 (D18) defective Power unit voltage supply . 4363 Memoskop D1/D18 internal test failed during download Cause : Error during internal test Active: during download of Memoskop D1 (D18) Possible trouble / help : reset . 4371 Memoskop D1/D18 FEPROM checksum error during download Cause : Checksum of FE PROMs incorrect Active: during download of Memoskop D1 Possible trouble / help : FEPROM defective




REV 3 SM 2352376-100TPH


Error message: D2 memoskop device errors

4414 Memoskop D2 data checksum error during download ng data transfer. Cause : Error detected in checksum duri

Active: during download of Memoskop D2 ossible trouble / help : Malfunction of data line Check plug connections D1 defective P

.

4421 Memoskop D2 not ready for download ver, Memoskop not yet ready. Cause : Request sent for download, howe

kop D2 Active: during download of MemosPossible trouble / help : reset .

4422 Memoskop D2 DBI too long during download cted during download. Cause : Excessively long data word dete

Active: during download of Memoskop D2 ossible trouble / help : Fault in Memoskop Board D2 S3-Bus error P

.

4423 Memoskop D2 address outside of area during download f permissible area Cause : Selected address lies outside o


wnload 4424 Memoskop D2 incorrect data checksum during do checksum. Cause : Data transferred with incorrect

Active: during download of Memoskop D2 ossible trouble / help : Malfunction of data line. Check plug connections. P

.

during download 4431 Memoskop D2 FEPROM erase error Cause : Memoskop can not be cleared Active: during download of Memoskop D2 ossible trouble / help : Board D2, D1 defective. +15 V supply voltage, X13 FEPROM defective P

.

4432 Memoskop D2 FEPROM programming error during download nput value is read back. If the value read does not agree Cause : After each write operation to the FEPROM, the i

r is displayed. . with the value written, an erroActive: during download of Memoskop D2 Possible trouble / help : FEPROM defective +15 V supply voltage, X13 Board D2, D1 defective




REV 3 SM 2352376-100TPH


4433 Memoskop D2 FEPROM1 programming error during download Cause : No data can be written to FEPROM 1. Active: during download of Memoskop D2 Possible trouble / help : FEPROM defective +15 V supply voltage, X13 Board D2, D1 defective .

4434 Memoskop D2 FEPROM2 programming error during download Cause : No data can be written to FEPROM 2. Active: during download of Memoskop D2 Possible trouble / help : FEPROM defective +15 V supply voltage, X13 Board D2, D1 defective

4435 Memoskop D2 FEPROM erase error during download Cause : The FEPROM is completely erased prior to programming. If this proves impossible, an error message appears. Active: during download of Memoskop D2 Possible trouble / help : FEPROM defective +15 V supply voltage, X13 Board D2, D1 defective .

4436 Memoskop D2 FEPROMS all bytes already 0 .

4441 Memoskop D2 unknown test number during download Cause : An unknown test number was called up. Active: during download of Memoskop D2 Possible trouble / help : Software error .

4442 Memoskop D2 unknown DBI in HX_REQUEST during download Cause : Unknown data bit detected during polling of configuration Active: during download of Memoskop D2 Possible trouble / help : Software error .

4443 Memoskop D2 wrong segment during download Cause : Software error Active: during download of Memoskop D2 Possible trouble / help : Software error .

4444 Memoskop D2 wrong test DBI during download Cause : Software error Active: during download of Memoskop D2 Possible trouble / help : reset




REV 3 SM 2352376-100TPH


segment during download 4445 Memoskop D2 wrong Cause : Software error


451 Memoskop D2 unknown telegram from HOST during download 4

wnload 4452 Memoskop D2 receive error during do Cause : Error in data reception by HOST

Active: during download of Memoskop D2 ossible trouble / help : Memoskop-HOST connection Software error P

.

load 4453 Memoskop D2 transmit error during downOST Cause : Error in data transmission by H

Active: during download of Memoskop D2 Possible trouble / help : Memoskop-HOST connection .

during download 4461 Memoskop D2 +12V Vpp out of tolerance .k. Cause : +12 V programming voltage not o

Active: during download of Memoskop D1 ossible trouble / help : Connector X13 on board D1 Board D1 defective Power unit voltage supply P

.

e dur. download 4462 Memoskop D2 +12.4V Vpp out of toleranc.k. Cause : +12 V programming voltage not o

Active: during download of Memoskop D1 ossible trouble / help : Connector X13 on board D1 Board D1 defective Power unit voltage supply P

.

ed during download 4463 Memoskop D2 internal test failCause : Error during internal test


during download 4471 Memoskop D2 FEPROM checksum error Cause : Checksum of FE PROMs incorrect Active: End of download of Memoskop D2 Possible trouble / help : FEPROM defective




REV 3 SM 2352376-100TPH


Error message: Generator device errors .

5002 X-RAY_ON timeout error Cause : During radiation, the HOST processor sends an X-RAY_ON .note every 100 ms. If the generator does not receive . such a note within 300 ms, an error is displayed. Active: during radiation Possible trouble / help : Interference on the HOST-generator serial interface .

5003 GEN intensity signal timeout error Cause : During radiation, the TV processor sends an intensity value every 20 ms. If the generator does not receive . a valid TV note within 100 ms, an error is displayed. Active: during radiation Possible trouble / help : Interference on the TV-HOST-generator serial interface .

5005 GEN D201 EEPROM can not be overwritten Cause : After each write operation to the EEPROM, the input value will be read back. If the value read does not agree . with the value written, an error is displayed. Active: during standby Possible trouble / help : EEPROM defective .

5006 GEN time limit for cassette exposure Cause : For cassette exposures, a max. time is calculated according to the mAs setting. If this setting is . exceeded by 20%, the exposure is aborted. An error is then displayed. Active: during cassette exposure Possible trouble / help : Required tube current not attained. Line impedance too high. .

5007 GEN D201 FEPROM checksum error Cause : Checksum of FEPROM is wrong Active: during power up Possible trouble / help : download generator software Change FEPROM .

5008 GEN-learning not possible Active: Service-mode Possible trouble / help : Check filament current Short circuit tube Check x-ray tube and cable




REV 3 SM 2352376-100TPH


500A Overload current in tube heating circuit itor of the heating inverter constantly responds during a preset period of time, Cause : If the over current mon

. an error is displayed. Active: during radiation, Standby ossible trouble / help : Short circuit in inverter bridge Malfunction of controller (ground wiring, shielding) P

.

500B Overload current in intermediate-circuit reduction contrast ds during a Cause : If the over current monitor of intermediate-circuit reduction controller constantly respon

error is displayed (V1.1 IZ D202 lights up for approx. 0.5 s). . preset period of time, an Active: during radiation, standby ossible trouble / help : Short circuit in reduction controller bridge. (ground wiring, shielding) P

.

500C Overload current in main inverter onds during a preset period of time, an Cause : If the over current monitor of the main inverter constantly resp

ED V1.1 IZ on D202 lights up for appr. 0.5 s). . error is displayed.(LActive: during radiation ossible trouble / help : Short circuit in main inverter Malfunction of controller (ground wiring, shielding) P

.

5014 Maximum tube current exceeded e current is detected at the analog input of the computer during radiation, an error is displayed. Cause : If an illegal tub

Active: during radiation ossible trouble / help : Single tank not high-voltage-proof. P

.

5015 Minimum tube current not attained current at all is detected at the analog input of the computer Cause : If an excessively low tube current or no

an error is displayed. . during radiation,Active: during radiation ossible trouble / help : Single tank defective No actual mA value present P

.

5016 Maximum kV exceeded itors the max. permissible value of the high voltage (120 kV). If this value is exceeded, Cause : Controller D202 mon

. . an error is displayedActive: during radiation Possible trouble / help : Single tank defective No actual kV value present




REV 3 SM 2352376-100TPH


5017 Minimum kV not attained Cause : Controller D202 monitors the min. permissible value of the high voltage. If this value is not attained, . an error is displayed. Active: during radiation Possible trouble / help : No actual kV value present Inverter not functioning No drive pulses present. .

5019 Maximum heating current exceeded Cause : The HK inverter monitors the r.m.s. value of the heating current (D203 J11) with time-dependence. . If the monitor constantly responds (LED V25 on D203), an error is displayed. Possible trouble / help : reset .

501A Minimum heating current not attained Cause : If an excessively low heating current or no current at all is detected at the analog input of the computer . during radiation, an error is displayed. Active: during radiation, standby Possible trouble / help : Oscillating branch of heating circuit not o.k. No actual tube values present. .

501B Maximum intermediate-circuit voltage too high Cause : If an illegal intermediate-circuit voltage is detected at the analog input of the computer, an error is displayed. Active: during radiation, standby Possible trouble / help : Single tank defective No actual kV value present +/-15 V voltage supply .

501C Minimum intermediate-circuit voltage too low Cause : If an excessively low intermediate-circuit voltage or no intermediate -circuit voltage at all is detected . at the analog input of the computer, an error is displayed. Active: during radiation, standby Possible trouble / help : Drive pulses for intermediate- circuit reduction controller not present; oscillating . circuit not o.k. (choke L1) .

501D Maximum input voltage exceeded Cause : If an excessive rectified input voltage is detected at the analog input of the computer (D200, X12 Un=324V) . an error is displayed. Active: during radiation, standby Possible trouble / help : Input voltage D204, X1 too high.




REV 3 SM 2352376-100TPH


501E Minimum input voltage not attained h voltage at all is detected at the analog input Cause : If an excessively low rectified input voltage or no suc

24V), an error is displayed. . of the computer (D200, X12 Un=3Active: during radiation, standby ossible trouble / help : Input voltage D204, X1 too low. Line impedance too high. P

.

5020 Maximum heating-inverter frequency erates at maximum frequency for a preset period of time, an error is indicated. Cause : If the heating inverter op

Active: during radiation, standby ossible trouble / help : Actual IH value not present at analog input. P

.

5028 GEN D202 +/- 15 V supply voltage missing he +/-15 V supply voltages (relays K15P, K15N). If monitor responds, error is output. Cause : Controller D202 monitors t

Active: during radiation, standby Possible trouble / help : +/- 15 V not present. .

5029 GEN D202 power circuit supply voltages missing termediate circuit (Un=230 V). If the value measured Cause : Controller D202 monitors the input voltage for the in

ts, an error message comes . lies beyond the prescribed limiActive: during radiation, standby ossible trouble / help : Input voltage D204, X1 missing Fuses D204, F1/F2 defective Fuse D200, F1 defective. P

.

502B No radiation enable from controller enable signal is Cause : Controller D202 must send the XRAY_Q_R signal to enable radiation release. If this

ncelled during radiation emission, an error message is displayed. . not sent or is caActive: during radiation ossible trouble / help : Check the signals I_MAX_ZW, P_MAX_R,I_MAX_WR, VZW_OK, XRAY_ON on D202. P

.

502C Inverter control not possible are available for the inverter. If the computer detects that Cause : The WR_OK signal indicates whether drive pulses

g, an error is then displayed. . this signal is missinActive: during radiation Possible trouble / help : D202, XRAY_ON_S1 (HW release missing)




REV 3 SM 2352376-100TPH


502D temperature sensor defective. Cause : Current single tank sensor temperature < +17° Celsius Active: during power up. Possible trouble / help: Break or short circuit in sensor line. single tank sensor < +17° Celsius

5065 GEN temp max note Cause : Max. temperature of single tank attained (70øC) Active: during radiation, standby Possible trouble / help : Single tank overheated Break or short circuit in sensor line .

5067 GEN pmax active note Cause : Oil pressure switch on single tank responded; radiation is switched off. Active: during radiation, standby Possible trouble / help : Single tank overheated. Check D200, X5 Break in line to oil pressure switch. .

5068 GEN pmax o.k. note Cause : Oil pressure switch deactivated after single tank cooled off. Active: during radiation, standby Possible trouble / help : reset .

5069 GEN xray on S2 note Cause : If the trigger switch is released during radiation (LIH, cassette exposure), a message is sent to the host. Active: during radiation Possible trouble / help : Operator prematurely aborted exposure. Line break .

506A GEN missing learn data note Cause : Learn data missing Active: during standby Possible trouble / help : Heating data learn procedure not performed. . Heating data learn operation procedure aborted. Perform generator learn procedure. .

506B GEN rx acknowledge note Cause : No acknowledge note received Active: during radiation Possible trouble / help : Interference with HOST-GEN communication Check connecting lines.




REV 3 SM 2352376-100TPH


506C GEN telegram repeat note

cknowledge 3x following transmission of note. Cause : Generator receives wrong aActive: during radiation, standby ossible trouble / help : Interference with HOST-GEN communication P 506D GEN error data note

ror data in EEPROM D201. Cause : Error during storage of erby Active: during radiation, stand

ssible trouble / help : D201 Po . 506E GEN-push factor not exactly Cause : push factor of filament current not o.k. Active: service mode (learning of filament current) ssible trouble / help : line resistance to high board D203 defective Po

. 506F GEN operating temperature to low

nk sensor temperature < +17° Celsius Cause : Current single taActive: during power up. Possible trouble / help: Break or short circuit in sensor line. single tank sensor < +17° Celsius




REV 3 SM 2352376-100TPH


Error message: Generator interface in host device errors

6006 Generator Ready not received Cause : Generator does not answer HOST note Active: Constantly Possible trouble / help : Connection to generator defective Generator defective .

6007 Unknown ready timeout

6008 HOST received GEN-note with wrong DBI or parameter Cause : generator sends wrong note to HOST Active: Constantly Possible trouble / help : Incompatible generator and HOST software. .

6009 HOST received GEN-note with wrong checksum Cause : Incorrect checksum during data transfer between generator and HOST. Active: Constantly Possible trouble / help : Transfer error Defective interface modules .

600A HOST received GEN-note of incorrect length Cause : Note from generator to HOST has incorrect length. Active: Constantly Possible trouble / help : Transmission error Fault in generator Check plug connection .

600B Gen_ in ACK received but no acceptance Cause : The generator sends an acknowledge in response to a note even though no note was sent by the HOST. Active: Constantly Possible trouble / help : Generator-HOST timing defective, e.g. in short, rapid succession Release switch actuated. .

600C XRAY_ON, but hand/foot switch not pressed Cause : Radiation is triggered even though the release switch was not pressed longer than 4 sec. Active: during radiation Possible trouble / help : Operator error - the release switch was pressed either too briefly or in short, rapid succession.




REV 3 SM 2352376-100TPH


600D HOST received GEN-note with wrong DBI nds an answer Cause : If data is transmitted from the HOST to the generator, the generator subsequently se

f the answer contains the wrong function code, an error message appears. . telegram. IActive: Constantly ossible trouble / help : HOST and generator software incompatible P

600E HOST received GEN-note with wrong parameter nds an answer Cause : If data is transmitted from the HOST to the generator, the generator subsequently se

f the answer contains the wrong function code, an error message appears. . telegram. IActive: Constantly ossible trouble / help : HOST and generator software incompatible P

.

600F HOST denied GEN-note generator then sends an answer note. If the answer Cause : If data are sent from the HOST to the generator, the

e wrong function code, an error appears. . contains thActive: Constantly ossible trouble / help : Incompatible HOST and generator software P

.

6010 HOST received GEN-note with wrong checksum generator then sends an answer note. If the answer Cause : If data are sent from the HOST to the generator, the


.

6011 HOST received GEN-note with wrong length generator then sends an answer note. If the answer Cause : If data are sent from the HOST to the generator, the


.

6012 HOST received GEN-note with wrong function code generator then sends an answer note. If the answer Cause : If data are sent from the HOST to the generator, the

e wrong function code, an error appears. . contains thActive: Constantly Possible trouble / help : Incompatible HOST and generator software




REV 3 SM 2352376-100TPH


6013: HOST tries to send undefined function code Cause: The HOST tries to send an undefined function code to the generator. Active: Constantly Possible trouble / help : HOST software error

6014 HOST tries to send undefined parameter Cause : HOST tries to send a defined function code to the generator, however, the parameters of the command are incorrect. Active: Constantly Possible trouble / help : HOST software error .

6015 No ready response to HOST-GEN-note after n retries Cause : The generator did not respond to a HOST note even though the HOST sent it several times. Active: Constantly Possible trouble / help : Fault in generator HOST-generator connection Interface in generator .

6016 Host tries to send wrong message type Cause : HOST tries to transmit wrong type of message. Active: Constantly Possible trouble / help : HOST software error .

6018 HOST D3 GEN-interface parity/overrun/frame error Cause : The interface chip for the generator on D3 detected an error. The note is discarded by the HOST. Active: Constantly Possible trouble / help : With infrequent entry - normal Board D3 defective Wrong baud rate from generator .

6019 RMOS RIO receive error Cause : Software driver in HOST detected receive error. Active: Constantly Possible trouble / help : System overload .

601A RMOS RIO send error Cause : Error detected by software driver in HOST. Active: Constantly Possible trouble / help : System overload




REV 3 SM 2352376-100TPH


Error message: Intensity actual value interface errors . 7018 HOST D3 intensity interface parity/overrun/frame error

hip for intensity interface on D3 detected a fault. The note is discarded by the HOST. Cause : Interface cActive: Constantly ssible trouble / help : With infrequent entry - normal Board D3 defective Wrong TV baud rate Po

. 7019 HOST D3 intensity interface receive error

ted by software driver in HOST. Cause : Error detecActive: Constantly Possible trouble / help : System overload . 702D intensity telegram difference from menu-value




REV 3 SM 2352376-100TPH


Error message: HOST D3.X5-interface communication error . 8018 HOST D3.X5-interface parity/overrun/frame error Cause : Interface chip for service interface on D3 detected a fault. The note is discarded by the HOST. Active: Constantly Possible trouble / help : With infrequent entry - normal Board D3 defective Wrong baud rate from generator . 8019 HOST D3.X5-interface RMOS RIO receive error Cause : Receive error detected by software driver in HOST. Active: Constantly Possible trouble / help : System overload . 801A HOST D3.X5-interface RMOS RIO send error Cause : Error detected by software driver in HOST. Active: Constantly Possible trouble / help : System overload




REV 3 SM 2352376-100TPH


Error message: Host motor controller errors

er not ready 9000 Motor controllActive: Constantly ossible trouble / help : Board D5 defective (not plugged in) Hardware defective P

.

9001 Collimator not on cassette format Active: Switch over to cassette position Possible trouble / help : Check mechanical movement Check parameters of collimator drive and calibrate collimator drive Check end position signal Check motor control D5 .

.

g no index from plane 1 9010 At collimator-auto scannin found Cause : No index will be

Active: During power up Possible trouble / help : Encoder disk doesn't move Index mark not o.k. Light barrier defective Check parameters in FEPROM .

.

9011 Plane 1 not exactly positioned Cause : End position signal not o.k. Active: Switch over to norm position or cassette position Possible trouble / help : Check mechanical movement Check end position signal Check motor control D5 Check parameters in FEPROM .

.

g no index from plane 2 9020 At collimator-auto scannin found Cause : No index will be

Active: During power up Possible trouble / help : Encoder disk doesn't move Index mark not o.k. Light barrier defective Check parameters in FEPROM .

.

ositioned 9021 Collimator Plane 2 not exactly pCause : End position signal not o.k. Active: Switch over to norm position or cassette position Possible trouble / help : Check mechanical movement Check end position signal . Check motor control D5 Check parameters in FEPROM




REV 3 SM 2352376-100TPH


9030 At collimator-autos canning no index from plane 3 Cause : No index will be found Active: During power up Possible trouble / help : Encoder disk doesn't move Index mark not o.k. . Light barrier defective Check parameters in FEPROM .

9031 Collimator Plane 3 not exactly positioned Cause : End position signal not o.k. Active: Switch over to norm position or cassette position Possible trouble / help : Check mechanical movement Check end position signal . Check motor control D5 Check parameters in FEPROM .

9040 X-iris doesn't find index Cause : No index will be found Active: During power up Possible trouble / help : Encoder disk doesn't move Index mark not o.k. . Light barrier defective Check parameters in FEPROM .

9041 X-iris > than zoom position Cause : End position signal not o.k. Active: Switch over to zoom position Possible trouble / help : Check mechanical movement Check end position signal . Check motor control D5 Check parameters in FEPROM .

9042 X-iris > than norm position Cause : End position signal not o.k. Active: Switch over to norm position Possible trouble / help : Check mechanical movement Check end position signal . Check motor control D5 Check parameters in FEPROM .

9043 X-iris position wrong Cause : End position signal not o.k. Active: Switch over to any position Possible trouble / help : Check mechanical movement Check end position signal . Check motor control D5 Check parameters in FEPROM




REV 3 SM 2352376-100TPH


anning 9050 No index at camera-auto sc found Cause : No index will be

Active: During power up ossible trouble / help : camera head doesn't move Index mark not o.k. Light barrier defective P

.

position not possible 9051 Camera-rotation driving to norm Cause : End position signal not o.k. Active: Switch over to norm position

Possible trouble / help : Check mechanical movement Check end position signal Check motor control D5 Check parameters in FEPROM .

.

9052 Camera-rotation position wrong Cause : End position signal not o.k. Active: Switch over to norm position

Possible trouble / help : Check mechanical movement Check end position signal Check motor control D5 Check parameters in FEPROM .

.

9060 Camera iris doesn't find index (switch S32) Cause : No index signal

Active: During power up Possible trouble / help : Check mechanical movement Check end position signal

Check motor control D5 Check parameters in FEPROM ..

position home position 9061 Camera iris can't be moved exactly to homeex to home (80 steps) Cause : Movement from ind

Active: During power up tion signal Possible trouble / help : Check mechanical movement Check end posi

Check motor control D5 Check D32, D30 ..

oom position 9062 Camera iris not in zActive: During radiation ossible trouble / help : Check mechanical movement Check end position signal Check motor control D5 P

orm position 9063 Camera iris not in nActive: During radiation Possible trouble / help : Check mechanical movement Check end position signal Check motor control D5




REV 3 SM 2352376-100TPH


9064 Camera-iris position wrong Active: During power up or radiation Possible trouble / help : comes with error 9061 to 9063 Check mechanical movement Check end position signal . Check motor control .

9210 HOST D5 motor controller plane1 reset error Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5 .

9220 HOST D5 motor controller plane 2 reset error Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5 .

9230 HOST D5 motor controller plane 3 reset error Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5 .

9240 HOST D5 motor controller iris reset error Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5

9250 HOST D5 motor controller camera rotation reset error Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5 .

9260 HOST D5 motor controller camera iris reset error Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5




REV 3 SM 2352376-100TPH


oller plane 1 INIT error 9310 HOST D5 motor contrActive: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) If there is also a problem with the motor - change board D5 .

. oller plane 2 INIT error 9320 HOST D5 motor contr

Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) If there is also a problem with the motor - change board D5 .

. oller plane 3 INIT error 9330 HOST D5 motor contr

Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1)

If there is also a problem with the motor - change board D5 . .l

oller iris INIT error 9340 HOST D5 motor contrActive: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) If there is also a problem with the motor - change board D5 .

. oller camera rotation INIT error 9350 HOST D5 motor contr

Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) If there is also a problem with the motor - change board D5 .

. oller camera iris INIT error 9360 HOST D5 motor contr

Active: During power up Possible trouble / help : Only fatal error in service mode (Board D6 - S1 on 1) . If there is also a problem with the motor - change board D5




REV 3 SM 2352376-100TPH


Error message: unknown component Error

Cause : HOST receives error message, however, can not allocate it to any component. Active: Constantly Possible trouble / help : Software error

FFFF POWER up message Cause :Power up identification for input of time and date. Useful in determining exactly when an error or fault occurred

following switch-on. Active during: Power up Possible trouble / help : Normal, input to error memory following each switch-on.

Multi-spot 2000 status and error messages: These messages may depend on the software level used in the Multi-spot 2000 camera.

WARM UP The camera runs through a warm up period. As shown on the display the time is counted down.

SELF TEST The camera is in the internal self test mode.

SYSTEM OK The program confirms that the camera successfully completed the self-test.

INSERT CASSETTE Program query prompting the user to insert the film cassette into the camera or to check whether the cassette was inserted correctly.

REMOVE DRK SLIDE The right dark slide is still in place. It has to be removed for exposure release.

CALIBRATING After the dark slide has been removed or the brightness level has been changed, the camera calibrates the internal brightness settings.

EXPOSING POS: 1/1 The video data is exposed on film

END OF FILM Last exposure depending on the film subdivision selected. Reinsert the dark slide and remove the cassette.

NO VIDEO SIGNAL The diagnostic imaging device is not transmitting a Video signal to the camera. Verify that the video signal is connected to the camera.




REV 3 SM 2352376-100TPH


release button was pressed. However, the dark slide had not been removed. Pull out the DARK SLIDE ERROR The exposure dark slide. NEG CAL ERROR The camera did not finish brightness calibration before exposure release. Try to increase the

or may be the 75 Ohm termination at brightness value and reduce the contrast. Another source for err the video output of device. Ensure that the cable is connected. OS CAL ERROR See NEG CAL ERROR P

e release button. PHOTOCELL ERROR If this occurs immediately after the warm up cycle and the self test, press the exposur If the display reads NO VIDEO SIGNAL, check the video signal and the video connection.

htness control signal for the internal monitor. BRT DRIVE ERROR The microprocessor of the camera does not supply the brig As a result, image generation is blocked. Change camera.

trast control signal for the internal monitor. CNT DRIVE ERROR The micro processor of the camera does not supply the con As a result, image generation is blocked. Change camera. ON 26V Fault Power supply defective. M ON P15V FAULT Power supply defective. M ON N15V FAULT Power supply defective. M ON 5V FAULT Power supply defective. M MEMORY FAULT Problems with the memory. All programmed parameters may have been deleted.




SM 2352376-100TPH REV 3


Component Locations

Error Codes

Functional Checks

Logic/Block Diagrams

Preventive Maintenance

Software Diagnostics

Theory Service notes

Reference Materials

Notes


TV

II

Sirephos

Monitor 2Monitor 1

MTF Camera

Memory

Isostat

Host Computer

Generator

PowerSupply

Desk

Radiation ON

Monitor CarriageStand

main power supply

BAS

BAS 1 BAS 2

hard copy

actual value

H.V filament

temp.press.colli.

230 v

D14 : +5vD11 : +/-15v ; +24v ; +28vD10 : U peltier +/-15v ; +10v ; + 5 v

System Diagram


REV 3 SM 2352376-100TPH


Power supply: The power supply is located in the monitor trolley, so that it may be operated independently of the rest of the system. It is thus possible to post-process the stored images. The network voltage is adapted to the different networks by means of a voltage stabilizer or a power transformer. The input voltage may be in the range from 1 000V to 277V.

Power supply location: The power supply is located in the stand:

D14 +5V ( on the front )

D11 +15V. -15V, +24V, +28V ( on the side )

It is indicated, whether the voltage is in the permissible range (green) . or above resp. below (red + 1- ).

TV power supply: D10 U-Peltier, +15V, +5V. +10V ( on the side )

Stand mechanics: It is possible to lift or lower the C-arm manually via a spring counterweight. The respective brakes must be released for this purpose. This is possible by means of 2 multifunction keys. Braking is possible by brake motors and / or pot magnets.

It is possible to perform the C-arm movements similarly to the former Siremobils . Example:

Vertical lift movement 450 mm

Horizontal movement 200 mm

C-arm orbital movement + 90° bis -25° Angulation! 190°

Rotation (swivel range) t 12,50

Distance Sirephos -II. upper edge 680 mm

C.arm radius 660 mm




REV 3 2352376-100TPH SM


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Sirephos

UNIT

II

Monitor 2Monitor 1

MTFCamera

Host Computer

Generator

power supply

BAS

BAS

BAS 2

hard copy

H.V filament

collimator

Memoscop

Memory

BAS 1

X9

HC trigger

grid

head

control

TV iris

TVunit Bright - actual

D14 : +5vD11 : +/-15v ; +24v ; +28vD10 : U peltier +/-15v ; +10v ; + 5 v


REV 3 SM 2352376-100TPH


Generator: The Siremobil 2000 have two different generator types. 1,3 KW version 3,1 KW version

These are high-frequency generators with a repetition rate of 20Khz. The high-voltage is controlled by the intermediate circuit voltage. This intermediated circuit voltage is transmitted to the main inverter . Filament control and therefore tube current control is performed digitally in the generator processor. The filament inverter is actuated by an ASIC component. The required KV and mA values are transmitted by the host compU1erto the generator processor via a serial interface.

Host computer: The host computer assumes the function of administrating the individual unit components in the Siremobil 2000. In its basic version, the computer contains the following internal components:

CPU card D2 ; BOOT card D3 ( software); S 3 bus controller D6; motor controller D5 ; graphics car D4 ( desk monitor).

Control console: The functions are input via the control console. The function groups include:

mode of operation selection (Fl, IFL, OR, IDR ) = fluoroscopy; pulse fluoroscopy; digital radiography; pulse digital radiography

collimator operation (diaphragms. iris collimator )

influencing the image (came a rotation, BU, contr.)

hardcopy triggering

radiation display

program keys

The LCD display has two functions: 1) display of different parameters

2) function allocation of program keys




REV 3 SM 2352376-100TPH


Image intensifier: The 7’’ or 9’’ image intensifier including mini voltage supply is located in the I.I. housing. Depending on the I.I. type, the input screen has a diameter of 17c.m and / or 23cm. The diameter of the output screen is 13mm. These image intensifiers are provided with a Penning getter and are permanently gettered. A MU-Metal shielding serves as shielding against external magnetic fields.

TV Iris diaphragm: A TV iris diaphragm is located between camera and I.I. and serves to control the video signal if the dose rate control has reached its maximum.

TV System: ( camera head ; CCU )A normal-resolution CCD 1V system is used with Siremobil 2000. It consists of two main components, a camera head that can be turned and a central control unit. The sensor-specific subassemblies and the sensor are installed in the camera head. The central control unit comprises a video amplifier, actual value acquisition to obtain the actual value for the control system, and a control unit.

Memory: ( memoskop )With Siremobil 2000, an image memory is used in any case, since functions like image reversal and contrast change are performed via the memories. It is possible to select between the following memory types:

Simple memory ( for two frames )

Three-image memory (with 3 solid state single memories)

Series memory (such as three-image memory + hard disk)

Subtraction memory

Monitors: Dependent on the memory, it is possible to connect monitors with 60Hz (with Siremobil 2001) and / or 100Hz / 200Hz vertical deflection {with Siremobil 2002 / 2003).

The brightness is adapted to room brightness via sensor. Monitor 60 Hz for Siremobil 2001 Monitor 100 Hz for Siremobil 2002 / 2003




REV 3 SM 2352376-100TPH


Host computer: The host computer contains the following components:

CPU : (central unit ) D2

CPU 80286 ; Clock frequency 12 MHz ; RAM range 512 K released.

Boot card: D3 ( software )

Storing the system software (8 Flash EPROM: system software )

CGA card: D4 ( monitor controller )

Display control ( by desk controller)

Motor controller: D5

Control of collimator motors ; TV iris diaphragm ; camera rotation

S-3 BUS controller: D6

Interface between host and Siremobil components desk, memory and VID-D.

The two free slots may take up PC boards for the simple memory and/or automatic collimator options.

Option: D7 / D8

With Siremobil 2002 / 2003: automatic collimator control

( In the case of Siremobil 2001, the single memory is installed in these stand. )




REV 3 SM 2352376-100TPH


Image-

Storage

Service

Interface

Display Bedienpult-Controller/

Controlconsole-Controller

leds

UCCD

+27V

+24V M M M

Brakecontrol

Cassette

Iris

Rotation

FS/TVCAMERAMini

voltsupply

M

M

MMMM

G D BUTATIONIR14Collimator

Single tank

T2

T1+/-15V

+5V

Slo

t-CP

U

D2

Bootcard

D3 D4CGAboard

D5M

otor

- C

ontro

lleD6

S3B

us-C

ontro

ller

automcollimat.

D7

automcollimat.

D8OPTION

Generatordisplay

20mA PERMANENT

Electronics box

±12V ATBUS

UNIT COMPONENTS SIREMOBIL 2

Bus

230V

Pult / Desk

BV

Luefan




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D2D3

CPU80286

EPROMBios

RAM512 K

RS 232

serviceinterface

TB iriscollimator control

TV irisDiaphragm

Camera rotation

M

D5M

M

EEPROM programmeset up values + errors

system reset

HOSTBUS

RDX

TDX

Motorcontroller

CPU card


REV 3 SM 2352376-100TPH


CPU board D2 ; Host computer control is located on the CPU card. .A 80286 processor system is used. The system clock frequency is: 12MHz

The RAM range has been expanded to 1MB, 512KB of which can be addressed. The entire system software is transmitted from the FEPROM area of the boot card to this memory area during the initialisation phase .

Bios: The BIOS (Basic-Input-Output system) is stored in the ROM area.

Initialisation power ON: The self-test of the processor. Systems starts after power ON and building up all mini-voltages .

All leds are actuated via the control console.

After the self-test has been successfully terminated, the host performs system initialisation and actuates all pixels of the display.

If an error has occurred during the self-test, an error message is output on the display as far as possible.

The operational readiness is displayed by automatic setting of the pre-selected operating mode. in most cases “continuous FL” and appropriate display contents .

After resetting the system. the real-time clock on the Slot CPU is queried.

The collimator iris moves to overview format (17 cm and / or 23 cm according to II ). The slot collimator (both parts) moves to II. format.

The TV camera (CCD) is set in basic position.

The TV motor-driven iris is set according to programmed dose rate value.




REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D110TV

D14+ 5 V

D2CPU 80286

D6S-3 BUS controllerinterface Host/Desk

D20generator

D50Monitor carriage

Watch-dogvoltage

monitoring

Serviceinterface

+ 12v+ 15v

RDXTDX

RDXTDX

RS 232

NOVRAMset up +errors

EEPROMcongig

EEPROMsoftware

Power fail

Reset

V synchro

Acquisition Interrupt

RDX

TDX

RDX

bright actual value

adjustthedose

TDX

BootCard

D3 HOSTATBUS


REV 3 SM 2352376-100TPH


Boot card D3: The boot card contains:

512KB program storage ( FEPROM for system software )

NOVRAM for setup values and error entry.

EEPROM for configuration data.

Watchdog with voltage monitoring.

Reset output for host.

Four serial interfaces for: communication with the generator , transmitting the “bright” actual value, service interface RS 232, optional data printer,

The “Vsynch” and “Acquisition” signals are received by the AT bus and transmitted to the generator via open collector outputs.

The “bright actual value” is generated in the TV system and transmitted to the host via a bus and further to the generator via a serial interface.

12V is generated ( power supply for the storage IC ) on the boot card from external1SV (programmable). IC = interface communication.




REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


:

D40

D30

motor controller

Mdiaphrag B

Mdiaphrag A

Mdiaphrag C

Mcollimator iris

Mcamera rotation

MTV iris diaphr.

MFan(camera head)

Display ON D5


REV 3 SM 2352376-100TPH


Motor controller board D5: Control and/or adjustment of the collimator motors are located on this PC board: .

turn slot diaphragm ; open and close right part ; open and close left part ; open and close iris diaphragm as well as: motor of TV iris ; motor of camera rotation

The position of the individual motors is sensed by reflection light barriers and transmitted to the motor control. The enable for the LCD display is also located on this PC board.

Collimator control

Iris diaphragm (encoders): It is possible to open and close the iris by actuating the "open" and/or "close" buttons, the collimator opening is queried by incremental encoders.

The FL, DR operating modes for overview and zoom are Set automatically. With direct radiography, the iris diaphragm is entirely opened and maximum opening is displayed by the LED in the "open" key (opening > II). The edges of the iris should be visible in the image !

Penumbra diaphragms: By actuating one of the penumbra diaphragm function keys, changeover to manual mode is performed if the" automatic collimator" option has been installed; the LED in the" automatic collimator" key goes out

Note: Without the "automatic collimator" option, the collimator is always set manually ( manual mode ).

It is possible to open and/or close the respective collimator leaves individually by pressing the different collimator operation keys. The leaf position in the collimator is queried by incremental encoders. Upon "power ON", the collimator halves move to II. format ( 17cm and / or 23cm )

Image rotation: Control is performed via two keys (clockwise -counter-clockwise rotation). With the CCD camera, the camera head is turned with the CCD sensor. If both keys are pressed simultaneously, the basic position is accessed quickly, as in the case of "power ON".

The camera head position (in relation to zero adjustment) is sensed by incremental encoders and indicated in the display.




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D30

leser light localizer

D16area dose

measurement(diamentor / PM)

D20desk CPU

D11power supply+/- 15v ; +24v

D110TV

II mini voltagesupply

Memoskop

power supplyZoom monitoring

Hard copy

Generator

Brakes

FootswitchFL / DR

Manual switchradiation / ATB

radiation ON

Brake control

D6

D7DRB

HOST

AT

BUS

cassette queryswitch on II

option

count pulses,monitoring, test

S-3 BUS, download

voltage monitoring

S-3 BUS, download,AGC Start, AGC Stop,Sync

D11Zoom ON / OFFmonitoring

S-3 BUS, download,SP-Start ready

Hard copy triggering

Buzzer ON / OFF

FL, DR, ATBD15

V-Sync / H-Sync

S - 3 BUSCONTROLLER

INTERFACE


REV 3 SM 2352376-100TPH


S-3 BUS Controller board D6: The S-3-BUS controller contains micro controller 80535.

Dual-Port-RAM;

Flash-EPROM (download) for SW exchange via HOST;

3 x 2O mA interfaces for S3 bus to desk, TV, memory;

3 x 2OmAinterfaces for download to desk, TV, memory;

2 x 20 mA interfaces for "Start" and "Acquisition" storage signals; Interfaces for" AGC Start", " AGC ON / OFF" and "synch" TV signals;

Switch for service mode

Cassette switch / Laser light localizer: The cassette switch and the laser ON / Off button are queried and the result transmitted to the host;

Manual switch / footswitch: The "footswitch FL ON / OFF", "footswitch DR ON / OFF", "manual switch ON / OFF" and" ATB ON / OFF" signals are queried by a relay interface of the "brake control" board and transmitted to the host;

Storage control signals: The "Start" and" Acquisition" signals of the memory are read in by the active receiver of a 20 mA current loop and transmitted to the host via interrupt cable.

Zoom: The "Zoom" signal sent by the S-3 bus " host is transmitted via power supply board D11 to the I.1. mini voltage supply The "monitoring" signal of the Il voltage supply is queried by the host processor.

Area dose measurement: The counting pulses offered are sensed with the "area dose product" option ( Diamentor ) and transmitted to the host for the display; in addition, the Diamentor generates a monitoring signal and send, it to the host processor A test signal may be sent to the Diamentor, if required




REV 3 SM 2352376-100TPH


Control console: The control console keys are queried by a special “ control console controller". Data exchange from the control consol computer is performed via a serial interface. The coming from relay KI in the generator actuates the radiation display on the control console by hardware.

Control console D20: The control console controller contains:

Processor 80535 for keyboard query and LED cont

Download circuit with Flash-EPROM

Voltage controller + 12V

Monitoring circuit for the radiation display controlled by the generator

The "Hsynch", "Vsynch". "R" signals and the voltages +5V ; + 15V are transmitted to the display interface via the PC output via a separate connector.

This is connected to the keyboard via two 16-pin ribbon connectors.

Display: The control console display has full graphics capability and is provided with a matrix of 640 x 200 pixels.

This display has two functions:

1. display

2. function allocation of the program keys.

The display is controlled by the graphics card in the host. For matrix adaptation, an interface is inserted between graphics card and displayed.




REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D12

D15Brake Control

foot switch

manual switch

BM1

Orbitalbrakemotor

BM2

Horizontalbrakemotor

BM4

Horizontalbrakemotor

Horizontalbrake

Verticalbrake

D6

S - 3 BUSCONTROLLER

D200

GENERATOR

S3 5

S3 6

+24v

K1

K2

K3

0v (24v)Buzzer:4.5 min FLexposure end

K1

K2

K3

K4

0v

K1

K2

K3

K4DR

FL

ATB

radiation

bm3

bm5


REV 3 SM 2352376-100TPH


Brakes Control: In order to set up 1he C-arm, the brakes of the individual movement directions must be released. It is possible to control several brake functions simultaneously via the S35 and S36 keys.

S36 controls the brakes for: vertical lift ; horizontal lift ; swivel

S35 controls the brakes for: C-arm orbital movement ; angulations

The LEDs installed in the buttons display whether the respective brakes have been released. Brake motors or brake magnets are used:

Movement Brake magnets

vertical BM5 ; horizontal BM3

Brake motors

orbital BM 1 Angulations BMl

swivel BM4

The brake motors turn Cam disks, the developments of which correspond to a ramp. These cam disks release and / or apply the brakes.

Braking with power OFF: In order to prevent damages to the brake motor gears, the motors are fixed mechanically in a “floating” way.

Brake blocked

Brake released

Limit switch

When switching off the Siremobil, all unit movements must be braked. The discharge of capacitors which have been charged during operation is used in order to operate the brake motors until the brakes are locked.

In addition, the controls of FL and DR triggering by foot-switch and radiation triggering and ATB ( graphic switch ) by manual switch are located on brake control D15. In addition, thee buzzer for 4.5 min Fl time, initialisation after power ON and radiation end are installed there.




REV 3 SM 2352376-100TPH


T0U POWER

SUPPLY

NETWORKFILTER

Z1

PUZW

NVZW

D204

D200

SINGLE TANK

20 MA CPU

80168

20 MA

RS232

HOST

TVCENTRAL

EPROMPROMRAM

AD

DA

I / OPORT

DIWAN

D201

KV_IST

KVCONTROLLER

D202

ZWCONTROLLER

D203

4315HZ / 20KHZ

20KHZ

20KHZ

20KHZ

GENERATOROVERVIEW

tube PARAMETER

curvesMEMOIRY

SIGNAL

communication

PCUSED




REV 3 SM 2352376-100TPH


High voltage control: The high-voltage is controlled by a PIDT controller ( proportional integrator deviator ) 1. The output signal of the controller is compared with a 20 KHz saw-tooth signal which generates a pulse interval modulated switching signal for intermediate circuit control. A voltage, which is related to the respective KV value, is thus generated at the intermediate circuit output. The intermediate circuit voltage is converted in the succeeding inverter.

Filament controller: The filament current is also transmitted to the filament via an inverter. An ASIC circuit on the computer PC board generates the inverter drive signals, the frequency of which is in the range from 20 KHz to 43 KHz, depending on the filament current.

Generator computer: The kV and mA are determined by the generator computer , corresponding to the bright actual values sent by the TV system and / or the values selected via the desk.




REV 3 SM 2352376-100TPH


High voltage generator: The high-frequency of Siremobil 2000 is generated by a high-frequency generator which is operated at a frequency of 20 KHz.

Generator power supply: The AC voltage (230 V) coming from the isostat is transmitted to the generator power pack via a mains filter.

PC board D204 accommodates a -soft start-up-. This means that the switching current is limited for 55msec by a resistor after “power ON”.

In addition, the AC voltage is inverted and smoothed on this PC board. ( capacitor pack of 8 x 470 - at 1,3 kW )

Note: After “power OFF”, the capacitors ( C8 to C17 are discharged via the discharge resistors only after 3 min. LED V5 displays whether this voltage is >50 V.

Intermediate circuit: The intermediate circuit of Siremobil 2000 is a control circuit which transmits the operating voltage to the inverter, corresponding to the selected kV The Intermediate circuit voltage is operated by a MOSFET half-bridge module. The MOSFET power transistors are controlled by pulse-interval modulated switching signals which are inverted in each case. The intermediate circuit controller on PC board D202 generates these signals.

Depending on the specific pulse-interval ratio of the switching signals, a voltage arises at the intermediate circuit output. Monitoring transmits an error signal to the evaluation logics located on PC board D202, if the drain-source voltage exceeds a preset value.

Main inverter: The main inverter converts the voltage transmitted by the intermediate circuit into an AC voltage. This is performed by means of a full bridge circuit operated at a frequency of 20 KHz . ( fixe frequency )




REV 3 SM 2352376-100TPH


D201

intermediatecircuitandinvertercontrol

D200intermediat circuit

D204

UZ

C8C4

C8C17

600 v

power

intermediatsupply

monocuveSirephos

Uctrl

ZWctrl

WRctrl

onduleurWRctrl

WRmonitoring

ZWmonitoring

pulsegeneratorquartz

ZWCTRL

CONTROLLER

DAC ADC

I/O serial I/O parallel

UZ ref KV ref KV ist

UZ ist

UZ ist ( mesure)

KV ist

ZW ctrl outregulation KV-UZ ZW enable

ZW ctrl 1ZW ctrl 2

20 KHz

ZW vers 1

ZW vers 2

WR pulse 1WR pulse 2

X-Ray-ON,S1

VZW-OKX-Ray-ON,S1I-Max-ZW-RFR-ZW-KRKV-MaxP-Max+15v / - 15v

RES-Latch (clock in phase)15v-OKFR-ZW-KRI-Max-ZW-R

duringinitiali.

20 KHz 20 KHz

20 KHzfor intermediate tension

TVHost

V-SyncAquisition

outin

KV ist (mesure)




REV 3 SM 2352376-100TPH


KV Controller: The kV controller is subdivided into the following function groups:

pulse generation

intermediate circuit controller

intermediate circuit control

intermediate circuit monitoring

inverter control and monitoring

Pulse generator: A symmetrical square wave with 20 kHz (WR-PULS-1, and the WR PULS 2 clock inverted for this purpose) is generated from a quartz-stabilized 1 MHz clock for inverter control. The control signals of the intermediate circuit (ZW-ANST1 and ZW-ANST2) are synchronized at this frequency.

2 synchronous docks (20 kHz) ZW-VERS1, ZW-VERS2 are generated for power supply for the intermediate circuit driver stages, which are held at 0 by the stored RES.LATCH reset signal until the system clock is phased in. The RESET signal from the computer PC board resets the counters and flip- flops. Storing is performed (RES-LATCH) until the system docks are synchronized.

Intermediate circuit controller: The intermediate circuit controller is a PIDT 1 controller with limitation monitoring and reset table -component.

Limitation monitoring ensures that with controller over modulation (ZW REG-OUT > 10V), a signal is coupled back to the I-component, which opposes the over modulation and thus increases the dynamics, in this working range.

In addition, the controller input signal is filtered by a 2nd order low-pass filter (cut-off frequency 18kHz) and a band-rejection filter (centre frequency 20kHz, corresponding to the inverter clock frequency).

This is necessary for filtering out the oscillation current reactions of the main inverter on the actual value of the controlled intermediate circuit voltage. The controller is also enabled when the control pulses for the intermediate circuit are enabled.




REV 3 SM 2352376-100TPH


Intermediate circuit control UZ: A synchronized saw-tooth generator which is compared with the output signal of the controller serves for pulse width modulation of the intermediate circuit control signals. The positive edges of the control signals are delayed via an RC circuit as with the inverter Over-current blanking is performed in the same manner as with the inverter.

Intermediate circuit monitoring: For releasing the intermediate circuit control (ZW .ANST1 = upper jumper half, ZW.ANST2 = lower jumper half), the following conditions are linked together:

RES-LATCH = clock signals synchronized

FR.ZW.KR = intermediate circuit release by computer

I.MAX.ZW.R = no short-circuit blanking in intermediate circuit 15V.OK = supply voltage ok .

Inverter control ( KV ): The positive edges of the WR-PULS-1 and WR-PULS-2 (20KHz) control signals generated by the pulse generator are delayed via an RCD network by 500ns .1 µs, so that the two inverter bridge halves cannot be actuated at the same time.

Intermediate monitoring ( KV – monitors) : The respective conditions for radiation release are linked to actuation of the inverter;

radiation request by host (XRA Y .ON),

supply voltage ok (VZW.OK),

no sum error (P.MAX-R v KV.MAX v 15V.OK),

no short-circuit blanking in intermediate circuit ( I MAX ZW R),

no short-circuit blanking in inverter ("I.MAX.WR"): ..

release switch actuated (XRA Y .ON S 1),

clock signals synchronized (RES.lA TCH).

With detection of the over-current, (I-MAX-WR) a digital mono flop is triggered (J28, J29) for inverter short-circuit blanking which blocks the inverter for 256 x 50 µs nearly 13msec.




REV 3 SM 2352376-100TPH


Filament controller: Filament control is via an ASIC circuit (DIWAN) installed on the computer PC board and via a filament inverter.

The ASIC circuit generates the Drive 0 and Drive 1 drive signals which have a frequency between 20KHz and 43KHz, depending on the filament current. The corresponding filament current results via the inverter.

IHmax monitoring located on PC board D203 blanks out the inverter if the constant reference value is exceeded.

Tube filament: With Siremobil 2000, it is possible to select different mA curves:

For FL: IRO-min.at 40KV IRO-max.at 11 OKV

Low Dose 0,2mA O,3mA-3mA

Antiisowatt 3mA 0,2mA 3mA

Antiisowatt 5mA 0,2mA 5mA

Plateau 300W 0,2mA from70KV 300W const. 2,9mA

Plateau 550W 0,2mA from70KV 550W const. 2,8mA

For DR: up to k = 16 850W curve 40KV 0,2mA

70KV 7,9mA

110KV 5mA

with K = 32 550W curve 40KV 0,2mA

70KV 4,2mA

110KV 2,9mA

With pulsed DR, different filament curves 850W / 550W are used.




REV 3 SM 2352376-100TPH


Pre-heating

PushExposure(radiation)

Waitingperiode

t

IH eff

corrected ma value

Push function ( 270ms ): In order to shorten the filament control time constant,

the filament current is -pushed- with DR and exposure.

The filament current is increased during the push time (270ms) 50 that

the filament nominal value is reached faster.

After the push time has ended, the -radiation ON- signal is blocked

for 100ms (waiting period) in order to enable the filament current to adjust

to the reference value.

Learning: Since the different generator components are subject to individual tolerances, the filament currents must be adapted in each case. With Siremobil 2000, this adaptation is made via the “-learning function-“.

In order to adopt all the filament values, a correction factor valid for all filament values has to be computed.

During “-learning-“, the filament current is changed at 80 KV in such a way that a tube current corresponding to the reference value results. The filament nominal values are later multiplied by the resulting correction factor.

IH corr = IH ref x corr. factor

The push factor is also computed during the “-learning phase”-. This factor determines the filament current during the push time in order to reach the filament temperature desired faster .




REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D204

D201 computer

DIWAN SC-Allert

I/O serial I/O parallel

outin

TVHost

V-SyncAquisition

C8C17

power

intermediatsupply

600 v

blanking

IH-Max

actual / istvalue

acquisition

IH ist

C37

C38

U3

U2 R54R56

V26

V27

UdsUds

heatingmeasurement

MP-X61v=1A he

200 ms

Monitoring

drive 2drive 1

D203

filament inverter andcontrol

- PWR

+ PWR

SIREPH


REV 3 SM 2352376-100TPH


Filament inverter: Subassembly D203 includes the filament inverter with filament actual value acquisition and filament current monitoring. The filament inverter comprises two main parts, the control electronics and the power pack. The power pack is constructed as half bridge oscillatory circuit inverter .

Control: The -DIWAN- (digital inverter control) ASIC circuit located on the generator computer PC board generates the drive signals for the DRIVE 1 and DRIVE2 inverter. These signals have a pulse width of 8\Js in which case the frequency may be between 20KHz and 43 KHz, depending on the filament nominal value. Power supply of the control electronics takes place via transmitter U 1. A symmetrical square wave (f = 50 kHz) is generated, transformed for both half bridge branches and rectified. MOS-FET actuation is displayed by the LEDs V26 and V27.

Power pack: The inverter oscillatory circuit is formed by the series inductance, the filament transformer leakage inductance and the oscillatory circuit capacitor ( C37 and C38) .

Power switch monitoring: The MOSFET drain currents are monitored by active over-current acquisition. For this purpose, the UDS voltages are sensed and compared with preset values. If these values are exceeded, an error signal is sent to the evaluation logic. At the same time, the drive pulses of the power switches are blocked for 200ms via a timer. No filament current flows. If the blanking time has ended, the inverter is released again.

Actual value acquisition: The oscillatory current and therefore the filament current are measured by a current transformer (U2). The transformed filament current is available as voltage value at resistor R5611 R54. This voltage is amplified, so that the following is valid at RMS rectifier output MP-X6 : 1 Volt = 1 ampere rms filament circuit.

This DC voltage proportional to the filament current (IH actual) serves both for filament current control and for filament current monitoring. For monitoring, an RC circuit extends the measuring time constant to a value corresponding to the filament time constant (approximately 220ms). This extension prevents over-current acquisition responding during tube filament pushing.

IH max monitoring: The filament current actual value is compared with a preset threshold value (approximately 4A). If the filament current exceeds this maximum value, a timer is triggered in the monitoring circuit. As a result, the power pack is blanked out for 200ms. In addition, an error message {IH. maximum) is transmitted to the generator computer .




REV 3 SM 2352376-100TPH


Computer: The computer works with a CPU 80186 and at a clock frequency of 12 MHz. The entire periphery and storage addressing is realized by means of the CPU Chip Select Logic. The essential computer functional units are:

-CPU with bus and address drivers as well as address decoding ; RAM and EEPROM area ; EPROM and FEPROM area ; parallel interface ; serial interface ; AD converter and DA converter ; control of filament circuit inverter

Control of filament circuit inverter: For direct control of the filament circuit inverter, the ASIC VN031 (- DIWAN-) is located on the computer. (Diwan = digital inverter control). The entire inverter control and short-circuit monitoring with blanking is performed via this module . Computer subassembly D201 is provided with three serial interfaces for communication with the host, the TV system and for service purposes. The service, TV and host interfaces are separated galvanically via opto-couplers In each case. The host interface is a 20mA current loop and the service interlace works as data output unit in V24 format. The interfaces are initialised with the following parameters:

Host interface TV interface is:

9600 BAUDS 19200 BAUDS 1 STOP BIT 1 STOP BIT EVEN PARITY EVEN PARITY

Computer tests during system start: During the system start (computer D201), you are not yet able to send error numbers to the host computer. During this phase, the processor activities are displayed on the 7 segment display D201. Meaning of the identification digits on the 7 segment display:

0 CPU test ; 1 RAM test ; 2 EPROM test ; 3 FEPROM test ; 4 EEPROM test and initialisation (is maintained for approximately 4 sec during initialisation of the EEPROM, flashes in the case of error) ; 5 HW test ; 6 log-in at the host computer Displays during operation ; 7 radiation ON ; 8 radiation OFF:

Standby: an LED segment rotates in clockwise direction Radiation: an LED segment moves continuously from the top to the bottom and vice-versa. the LED decimal point lights up.

Error: If an error is detected during computer test (identification digits 0 to 4). the identification digit of the test performed last remains in the LED display.




REV 3 SM 2352376-100TPH


D121controller disk H21

hight voltage generatorgetter

2.8 KV

30 KV6.5 KVmax

E1 E2 E3 AK

P

D120Control and monitoring attachement green=OK

V18

D11green=OK

V11,V14

Zoom- 5v

K1

+ 28v




REV 3 SM 2352376-100TPH


X ray image intensifier II: II of 17 DC and II of 23 DC ( metal ceramic II ).

Diameter of I.I. input image 17cm / 23cm

Diameter of I.I. output image 13 mm

E3 maximum 6,5 KV

High-voltage- 30 KV

I.I. gettering takes place via a Penning getter- { permanent gettering with 2,8 KV)

In order to reduce the influence of external magnetic fields, the I.I. is provided with a Mu metal shielding. .

Mini voltage supply: Mini voltage supply generates the voltages for the E1, E2 and E3 electrodes, the anode and the Penning getter.

Electrode E3 and the anode are monitored by a comparator stage.

If the green LED V181ights up, there is no error.

In addition, the operating voltages + 28 V and + 24 V are monitored by

LED V11 and V14 1ocated on power supply PC board D11.

The getter current display (glow lamp L1) on high-voltage transformer H21 flashes as soon as the getter current flows. The flashing frequency increases with rising getter current.

The ZOOM function is triggered via relay K 1 located on power supply FC board D11. As a result, relays K1 and K2 on the controller PC board are changed over and select other potentiometers .




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


GENERATOR

Central Control Un

Actual Value Acquisition

VIDEO AMPLIFIER

MUX CLAMPAGC finalControlelement

ActualValue

decoupling

AMPLCLAMP Multipl

Ss Bew

Sw Bew

Mw Bew

MUX

D / A

CPU

HOST

ma control

KV control

Computer

CameraHead

BV / II

SIREPHOS

Measur. digital

BA-KK

IWB

Measur. Fanalogic

TV iris

serialIN / OUT


REV 3 SM 2352376-100TPH


Structure of the TV system: The TV unit is composed of camera head and central control unit:

Camera head: The camera head includes two PC boards and the CCD sensor.

Signal processing and sensor control are located on these PC boards Synchronous and blanking signals for the other TV components are generated here as well.

Different camera heads are necessary for SO Hz and/or 60Hz.

Central control unit: The central control unit is composed of:

Video amplifier PC board:

Video amplifier and circuit parts of the automatic gain. control (AGC) for BAS signal control.

In addition, gamma correction, bandwidth limitation, admixture of blanking and synchronous signals and diverse tests and/or monitoring steps are located here.

Actual value PC board :

This contains actual value acquisition for individual control systems, the interface to the host computer and the AGC controller.

Control CPU PC board:

This controls all processes within the camera and generates the necessary control pulses. A circular blanking signal is digitally generated with a special ASIC component.

Different measuring fields can be generated from a matrix of 32*32. With Siremobil 2000, the measuring fields are circularly symmetrical (camera rotation).




REV 3 SM 2352376-100TPH


TV System: The Siremobil2000 TV system includes the following two areas:

Camera head and central control unit

Camera head: A CCD sensor is installed in the camera head to record the I.1. output image. In addition, two PC boards are located h.ere, provided with the sensor-specific components. It is possible to rotate the entire camera head motor-driven. Motor control is performed via the host motor controller. In this way, image rotation is possible from - 225° to + 225°. After switching on the Siremobil, the camera head is moved into the zero position. The camera head position is indicated on the Siremobil display.

Function: * Pulse generation for sensor control

* Generating: the blanking signal ; synchronous signal ; image signal

* Multiplexing the sensor signals

* Dark current compensation

* Clamping the analogous signal to 1,2 - 1,8 V DC

* Filtering the interference signals in the B signal

* Amplification stage ( maximum signal = 2Vpp)

* Voltage monitoring ( via sum voltage )

* Generating the sensor supply voltages

* Driver for .”light on”. signal

* Sensing the sensor temperature




REV 3 SM 2352376-100TPH


Camera head

D114mux

D113sensorcontrol

serial driver

level shifter

S&H channel1

S&H channel2

S&H channel3

pulsepattern

generator

clock

ampli &clampingchannel 1



blanking levelcontrol

TPfilter

outputampli.

75 Ohm

BAsign

CCDcontrol

ntc

ip

VideoData




REV 3 SM 2352376-100TPH


Camera head: CCD sensor and PC boards D113 and D114 are located in the camera head. The sensor control electronics are located on PC board D 113. PC board D114 contains video evaluation.

Optics: The I.1. output image is projected onto the sensor image area via a lens with 1 : 0..95 light intensity and F = 19mm focal length. The usable circular image is imaged on an area of 4.60mm diameter on the sensor.

233

11(dark)

11(dummy)

V-out 1

V-out 2

V-out 3

readoutregister

Storagearea

2 (dark)

288

33 (dark)699

Imageregion

CCD Sensor: The CCD sensor works according to the “frame transfer principle”. The image is integrated into the image region. transmitted to the storage area and read out with three readout registers. Different sensors are used for 5O Hz and / or 60 Hz . The 5O Hz sensor serves as an example: ( indication of pixels per region)

Cooling: Since image- quality decreases severely with rising temperatures (grainy structure), the sensor is cooled down to 32°.C by means of a Peltier element. The actual temperature value is queried via an NTC resistor.

Test: An image signal is generated via an LED installed in front of the sensor In order to test the camera head. This test is performed every 5 minute during the fluoroscopic intervals. The test is interrupted if Fl is switched on. CCD sensor, Pettier element, NTC and test LED are ins1alled on a wobble plate.




REV 3 SM 2352376-100TPH


Central controlin unit

Camera head

CCD

Optical

D113Sensor control

D114

TV Iris

B-signalprocessing

D110Video amplifier

D112Control

D111Actual value

Blankingcircle

measuringfield D/A

BAS signalto memories

interface( IW host )

interface( ST host )

B signal blanking andsynchroous signals




REV 3 SM 2352376-100TPH


CCD Consol ( D113): The control signals for the sensor are generated by a “pulse pattern generator” (PPG). The dock frequency of the pulse generator is transmitted by a quartz oscillator .

clock frequency at 50 Hz = 13,375 MHz

clock frequency at 60Hz = 14,3325 MHz

The CCD control signals for horizontal or vertical shift are transmitted to the sensor via a serial and a parallel driver. The levels of the pulses coming from the PPG are adapted here to the sensor .

The pulse generator also generates the blanking and synchronous signals for the other components of the TV chain.

A KT pulse is generated for dark current compensation on PC board D 114.

S & H : The 3 image signals coming from the sensor are transmitted via an S & H stage and amplified. In addition, possible interference peaks are flattened.

For video processing, the three video channels lead to PC board D114.

Signal processing ( D114) : These three video signals are transmitted to a fast FET multiplexer via damping or amplification stages located on PC board D114. This multiplexer forms the BA signal from the three video signals and a blanking -value. The camera head transmits the BA signal to the central control unit via a filter that filters out the interference signals and an amplification stage (maximum 2Vpp – 75 Ohm).




REV 3 SM 2352376-100TPH


Central control unit: The central control unit consists of 3 PC boards:

1) video amplifier 2) actual value acquisition 3) control PC board

The sensor-independent functions are realized here.

Fonctions: Video amplifier

2 channel multiplexer for image / test signals 4 channel multiplexer for test signal selection generating the analogue H saw tooth level adaptation of digital test signal final control element for AGC automatic bandwidth limitation adjustable gamma characteristic which can be switched off + standardization circular blanking with interruptable lift sync. admixture BAS output stage for 75 Ohms 3 channel multiplexer + S + H for monitoring B-signal decoupling for actual value acquisition




REV 3 SM 2352376-100TPH


Multiplexer: During operation. the B-signal coming from the camera head is switched to the video amplifier via a multiplexer in the video amplifier input stage. For test purposes it is possible to change over to

Digital test images ; Analogue test image (grey wedge) ; Digital measuring field ; Analogue measuring field Switching signal for this is the “test. Signal”.

Clamping: During KT pulse. a d.c. voltage potential is added to the B-signal via the keyed clamping circuit.

AGC: If dose rate control and TV iris diaphragm control cannot stabilize any longer (maximum reached). “automatic gain control” is enabled. The AGC final control element of the video amplifier is controlled with a control voltage generated on the actual value acquisition PC board.

B signal cut off: In addition. B-signal cut-off is performed via this final control element. The gain is switched to “gain min” as soon as the “operation” signal becomes inactive.

Actual value decoupling: For actual value acquisition, a low-impedance B-signal with band-with > 1 MHz is decoupled behind the AGC final control element.

Band-width limitation: If the video signal can no longer be stabilized, the video amplifier bandwidth is limited in order to reduce the high-frequency noise fraction., depending on the AGC control voltage.

Gamma correction: In order to modify the gamma curve, a non-linearity is realized with the following amplifier stage resulting in increased image information.

Linear gain: By means bf a relay located at the gamma correction output. it is possible to switch over to the output of a linear amplifier connected in parallel to the gamma correction.

Blanking stage: The B-signal is circularly blanked on the following stage. The pedestal in the BAS signal is 5O mV.

Sync. Admixture: In order to synchronize the following sub-assemblies. such as storage, monitor and MKF, a V + H synchronous signal is added to the image blanking signal.

Out put stage: The video amplifier has two equivalent >> BAS standard outputs. each provided with: 650 mV for B-signal ; 5O mV for pedestal ; 300 mV for synchronous level (across 75 Ohm output resistance).




REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


d ig i t a l t e s t p a t t e r n

s a w t o o t h t e s t

d ig i t a l m e a s u r ef i e l d

a n a lo g i c m e a s u r ef i e l d

m u xt e s t

s i g n a l

B s i g n a lt e s t p a t t e r n

c la m p in g

f i n a l c o n t r o lA G C e le m e n t

i s t v a lu ed e c o u p l i n g

b a n d w id t hl im i t a t i o n

c la m p in ga d a p t a t i o n

g a m m ac o r r e c t i o n

c la m p in g

b la n k in g s t a g e

s y n c h r o a dm ix t u r e

o u t p u t s t a g e

l i n e ra m p l i f i c a t i o n

t e s tm u x

S & H s t a g e

t e s tm u x µ p B A S

s ig n a l

M W -P u ls e

+ / - 1 2 v a+ / - 1 2 v d+ 5 v1 0 v r e fC U B

B - S ig n a l K K

T e s t

K T - P u l s e

O p e r a t i o n

A G C C o n t r o ls i g n a l

a c t u a l v a lu eB - S ig n a l

t e s tP . D

H .P u l s e

m e a s u r eF . A

m e a s u r eF . A

s w i t c h in g s i g n a lb a n d w i t h l im i t

K T p u l s e

g a m m a c o r r e c t i o nl i n e a r

K T p u l s e

b la n k in g s i g n a l

s y n c h r o s i g n a l

s a w t o o t h t e s t

t e s t : 1 2 3 4

H


REV 3 SM 2352376-100TPH


TV Test run: During the fluoroscopic intervals, a TV test cycle is performed every 5 minutes. For this purpose, a B-signal is generated via an LED located in front of the CCD sensor This makes it possible to check camera head and camera connection cable A horizontal-frequency saw-tooth signal is generated on the video amplifier PC board for testing the video channel

Test saw-tooth amplitude I : 2Vpp + / - 30mV

This signal is fed into the video amplifier instead of the B-signal. In addition, digital test signals (test signal selection with software or service switch located on the control PC board) can also be fed into the system, The test saw-tooth can be checked at different locations in the video channel. The value of the saw-tooth signal is measured at four different points (defined with MVV , MIW with respect to time )

The measured value are held in an S & H stage via a multiplexer selecting the test points in order to check the measured values with regard to the corresponding amplitude

*B-signal. At the VV input ( 2Vpp / 0.5V DC ) : The B-signal is measured at the input > cable rupture to camera head

*Signal following the multip!exer B-test-signal Measuring the test signal following the multiplexer, For gain computation, the amplitude can be exactly measured

*BAS output : Measuring BAS output ( gain computation is possible ) clamping can be checked ; gamma can be checked ; gain can be checked

In the same way, the actual value amplitude is measured in the actual value acquisition

a) at the input b) after sensing and evaluation and c) the AGC controlled variable is acquired

In addition, the different supply voltages for camera head ( check-sum voltage ) and central control unit are checked




REV 3 SM 2352376-100TPH


For dose regulation Central control unit Function:

Actual value acquisition :

Gain and clamping of B-signal actual value

Measuring field keying

Measuring field adaptation {via multiplier)

Evaluation ( MW. SW, SS, SS + SW )

Evaluation selection

S + H-stage for defining the actual value

AD-converter + adaptation

CPU control

Serial interface ( actual value acquisition -host )

AGC controller

Monitoring I test




REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


CPU

Mux

V = S

Clamping

MultiplierClampingadaptationD / A

MeanValue

Peak valuewhite

Peak valueblack

Switch

Mixture SSand SW

StageS & H

AdaptationADC

Serialinterface

ControllerAGC

D / AS & HMux

StageS & H

BCA

µp

MW.Pulse

µp

C

Clock

BAO / BA1

V2 - Pulse

Measure F.DKT Pulse

Measure F.A

KT Pulse

AIst valueB signal


REV 3 SM 2352376-100TPH


Actual value acquisition: For dose control, TV iris diaphragm control and AGC, an actual value is derived from the image signal. For this purpose, a B-signal with a bandwidth of 1 MHz (IWB) is decoupled from the video channel. Clamping: Since an unknown d.c. is superimposed onto this signal, a clamping Stage which clamps the image signal during blanking to 0 Volt becomes necessary .

Measuring field: The individual digital values of the control PC board measuring fields are transmitted via a DAC to a multiplexer which evaluates the B-signal. This concept makes it possible to evaluate the image at any desired place. The B-signal is evaluated outside the measuring field at 0, the field thus results automatically. In the same way, actual value adaptation corresponding to the measuring field size is possible within certain limits if evaluation is not 0.

Evaluation: In order to define a certain actual value, the signal generated must be evaluated at a defined point. Four different evaluations are possible with Siremobil 2000:

Black value evaluation ( related to blanking value ) ; Peak value white ( related to maximum white ) ; Mean evaluation ( related to middle grey) ; Black peak value ( white corresponding to signal level )

Normally, mean evaluation is programmed. The evaluation type is selected via multiplexer .

Actual value correction: With mean evaluation, correction is made according to the measuring field size. The smallest measuring field is evaluated the highest. If the measuring size is e.g. doubled, evaluation is halved and the image signal amplitude doubles. The image brightness thus remains constant. With black peak value evaluation, this concep1 cannot apply in an expedient way. Therefore, only one measuring field is generated, which is evaluated with 1 or 0. Any desired measuring fields can be generated. With white peak evaluation, maximum evalua1ion results in all cases.

Multiplexer: Via the multiplexer (MUX B-value), the control CPU PC board selects by means of the BA0 and BA1 control signals the necessary actual value (peak value white, peak value black, mean value) or the mixed value. which is stored in the sample & hold circuit at the end of every field (V1 pulse) and transmitted to the control via the serial interface. The momentary actual value for dose iris control and the AGC states are transmitted 8 bits deep: AGC mode ; AGC end ; AGC adjustment ; AGC stop

Interface : Transmission takes place via a galvanically isolated 20ma current loop interface.




REV 3 SM 2352376-100TPH


TV Control ( D 112 ): Communication between host computer and TV system takes place via a micro controller located on the control PC board. The control commands are transmitted from there to the corresponding TV system stages. The TV system software (download logic) and the boot program are also stored there. It is possible to select different control signals for service by actuating different DIL switches.

Test patterns and measuring fields ( service switches ): By actuating switches S0 – S3, different measuring fields or test patterns can be programmed for service purposes.

S0 S1 S2 S3 0 0 0 1 analogical measuring field 0 0 1 0 digital measuring field 1 1 0 0 250 KHz test pattern 0 1 0 0 grid test pattern 1 0 0 0 grey wedge (saw-tooth)

note: In order to make the measuring fields or test patterns visible on the monitor, the memory must be changed over to FL mode (test button on the memory) and the video amplifier must be released by actuating S4.

Function video amplifier: By actuating the following four service switches S4 - S7, different TV functions can be selected.

S4 = video amplifier ON ; S5 = band-width limitation ON ; S6 = gamma correction OFF ; S7 = circle or rectangle Test switch selection is displayed via the 8 -V1- LEDs. Normal position of all switches is -OFF- (all LEDs are dark!)

Led display: A second LED chain indicates the defective PC board.( Without error, all LEDs are dark )




REV 3 SM 2352376-100TPH


Post blanking circle generation: The VID-D post blanking circle is digitally generated in IC circ circle data for the first circle half are stored in an EPROM are r via an address by means of horizontal or vertical co .The circle half is generated by reflecting the first circle in the centre.

The following signals are supplied to the ASIC:

* Pixel clock" from a start-stop oscillator (approximately 28 Mhz ). This clock is selected for 50 / 60 Hz equally and the corresponding corrections are made via the Proms.

* 5ync-signal positive + 5V ( pulse pattern generator camera head ).

* A-signal positive + 5V ( pulse pattern generator camera head ).

The following signals are generated:

Ccircular blanking signal Measuring field signal V-frequency pulses H-frequency pulses VIH pulses

Measuring field generation: The measuring field is generated on the control PC board by means of " circle" gate array. A matrix of 32 x 32 fields is generated, the single fields of which can be assigned to an arbitrary value between 1 and 0 in each case (with 7 bits resolution).

These matrices are stored in a Prom ( 8 matrices are provide) . The fixed linkage between measuring field and evaluation selection must be observed ( MW, SS , SW, SS and SW ).

Only fixed combinations may be output, because otherwise illogical actual values are determined.




REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


TV Central Control Unit

VideoAplifier

ActualValue

Acquisition

AutomaticGain

Control

IrisDiaphragm

Control

DoseControl

IrisDiaphragm

Generator

Actual or Ist v

A

B

C

B-Signal

Reference value


REV 3 SM 2352376-100TPH


Control: The video signal is stabilized by three controls:

DOSE RATE CONTROL

IRIS CONTROL

AUTOMATIC GAIN CONTROL (AGC).

During video signal stabilization, dose rate control becomes active and controls the dose rate (radiation intensity) and therefore the video signal amplitude via the generator. If the dose rate control limit has been reached and if the actual value does not correspond to the reference value. dose rate control signalises to the iris control that it has to become active as well.

Iris control changes the light intensity for the TV system via the iris diaphragm. as a result the video signal amplitude changes. If iris control is also exhausted without the video signal being stabilized, automatic gain control is activated.

In order to ensure the function of the total control system. all tree controls need the same actual and reference value.




REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


ACTUALVALUEACQUISITION

VIDEO AMPLIFIER

AGC Final controlElement

Actual ValueDecoupling

Actual ValueAcquisition

ControllerAdaptation Controller Control

Voltage Memory Control / Hand

D / A

AGC ANF

AGC stopRef Value Hand

U-Control IWB

Actual Value


REV 3 SM 2352376-100TPH


Automatic gain control AGC - anf: The control CPU PC board supplies the reference value in digital form. It is D/A converted and adapted to the controller .

The AGC-ANF signal signals the controller that both dose rate control and iris control are exhausted without the video signal being stabilized. The AGC controller must thus be activated.

The controller compares the adapted actual value with the reference value and increases the control voltage (UST) until it has increased the gain on the video amplifier PC board up to a level where the actual value corresponds to the reference value.

AGC stop: The AGC STOP signal puts the controller out of operation; at the same time. The existing control voltage value and therefore the gain are kept constant (stored).

Manual gain: As long as AGC is not active. the video signal on the video amplifier PC board is amplified with a fixed factor. This is determined by a .manual. voltage. Only if AGC becomes active and the control voltage value exceeds the. manual. voltage value. is the gain factor increased.

AGC mode / AGC adjustment / AGC end: By comparing the two voltages, the user is signalised if AGC is operational (AGC mode). The actual value is stabilized to the reference value (AGC adjustment) or if AGC is exhausted (AGC end ).

These signals are as are the AGC ANF. and AGC STOP signals. galvanically separated from the controller by opto-couplers to prevent coupling interferences via the unit ground.




REV 3 SM 2352376-100TPH


Dose rate control ( function B signal ): With Siremobil 2000, the dose is controlled depending on the B-signal, as with the previous Siremobils. The actual value of the dose control is prepared in the TV system. For this purpose, an actual value B-signal with an amplitude of 1Vpp and a bandwidth of 1 MHz is decoupled from the video channel.

With actual value acquisition, this signal is blanked outside the measuring field, so that only the signal within the measuring field is used for dose control.

Subsequently, this signal passes one of the evaluation stages.

You can select between

S.S. peak value -black. evaluation M.B. mean evaluation S.W peak value -white -evaluation S.S. + S.W- evaluation

via a multiplexer. the evaluated signal is taken up by a sample capacitor during the V pulse and then digitised.

The resulting bright actual value is transmitted to the host computer and the generator via a serial interface. The necessary tube data of KV or MA are adjusted, so that the selected dose rate appears at the II. input.

3 different dose rate stages can be selected:

0.13 µGy/s corresponding to 15 µR/s






REV 3 SM 2352376-100TPH


Analogical front end: The B-signal proportion of the BAS signal is adapted to the ADC in the input stage. The ADC digitises the B-signal and 256 grey steps, corresponding to 8 bits, are possible.

The data clock is adapted to the system dock in the subsequent FIFO.

Arithmetic unit: The arithmetic unit consists of an ALU and a working memory. This makes possible different arithmetic operations, such as

Ssummation

Sliding weighted mean value formation and

Motion detection.

Edge enhancement: With digital spatial frequency filtering, edge enhancement is possible in 3 steps.

Display memory: The computed image data can be stored in 3 different memories. Distinction is made between the DL memory, which stores the current image. and two ATB memories. which take up an image by activating a key ( manual switch ).

LUT: 3 different contrast curves are stored in the subsequent LUTs. As a result. the contrast can be changed by actuating a key. In addition. a linear characteristic can be selected.

D / A Converter: The digital image data are reconverted into an analogical signal via DACs. After blanking and synchronous signals have been added. the BAS signal is transmitted to the monitors or the hardcopy.




REV 3 SM 2352376-100TPH


FL / Fluoroscopy: The image signals are written into the image storage during fluoroscopy with GGM {sliding weighted mean value formation), and the k-factor for averaging is defined by the motion detector" At the same time, the image is shown on the FL monitor.

LIH: At the end of fluoroscopy. the last storage image is held and shown on the FL monitor. The necessary extension of fluoroscopy is controlled by the generator (unit control).

ATB. ( graphic switch ): After A TB release. the storage image shown at the moment on the Fl monitor is stored in the free ATB image memory. This ATB image is shown on the storage monitor with the two monitor system. With the single monitor system. this ATB image is not automatically shown. During the FL intervals. it is possible to show the A TB image on the FL monitor by unit operation. On the 3rd A TB release. the first ATB image is over written.

IFL / Intermittent fluoroscopy: After pressing the footswitch, radiation pulses with a duration depending on the selected K factor plus the transient time ore generated by the generator at regular intervals of time.

The image data of such a pulse are stored in the working memory with summation, corresponding to the K-factor, and displayed until the next radiation pulse on the Fl monitor.

After releasing the footswitch during an IDL pulse, the pulse already started is ended by the generator only after the full pulse duration (correctly exposed LIH image). This LIH image is subsequently shown on the FL monitor.

DR / Digital radiography: After the controls have been adjusted, -K- frames are stored in the DR function corresponding to the -summation- memory function. Once these procedures have been terminated, the storage transmits a -Ready- signal to the generator via the host computer which switches the radiation OFF.

IDR: With IDR. the DR function is released in a preset cycle.




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Memory

D1

D21

ASP

ARI ATB 2 ATB 1 DL

OFF

control LUT (ATB) LUT (FL)

FIFO

D / A µ P1 D / A D / A

AFE PowerSupply

TV centralcontrol unit

Slirem.HOSTKeyboard

Isostat

Hardcopy output

Memorymonitor Working

monitor


REV 3 SM 2352376-100TPH


AFE: The BAS signal coming from the TV system reaches the A / D converter via the input stage. The bandwidth of the input signal is limited in a band filter to 6.7 Mhz, in order to avoid signal falsifications during the analogical / digital transformation.

ADC Analogical Digital converter: In the ADC the analogical BAS input signal is converted into binary scales of gray with 8 bits (in accordance with 256 possible scales of gray ).

FIFO: In the following FIFO the rate of the input data is adapted to the system clock.

ARI / Arithmetic unit: In order to achieve noise , reduction, the image data are reconstructed in the " ARI ' arithmetic unit. Two different technique are applied: a) summation b) sliding weighted mean value formation

Summation: In order to store an individual image. ( DR model, summation is used. The data of a specific number of fames depending on the selected K-factor (a maximum of 32 ) are divided by .K. and subsequently summed up. The computation is carried out pixel per pixel. The following values apply:

Mean value formation: The second image reconstruction mode is sliding weighted mean value formation. This computation is executed in the case of LFI ( last fluoroscopy mage ) and in the case of AT3 (on image keystroke ) and runs during the entire fluoroscopy process with GGM too, the image data are computed pixel per pixel.

The K factor is in the range from 1 to 32 and can either be pre-set or determined by the motion detector ( MD ). This is necessary since the MD reduces the k-factor depending on detected motion. The k-factor is only reduced at the locations in the image where motion was recognized. The subsequent high-pass in the spatial frequency filter, ( SFF ) would amplify nose in these image regions further. For this reason, filtering is disconnected in the case and only switched on again if noise is suppressed sufficiently e.g delayed by some images. The MD can be used only together with GGM




REV 3 SM 2352376-100TPH


Main memory ASP: The ARI requires a main memory for computation. This consists of video RAMs (VRAMs 256k * 4 bit) and can S1ore an image of 512*512 pixels (16 bits for each pixel). In order to improve the computing accuracy, another four bits of the lower byte (ASP-L byte) are used as "decimal point location" in addition to the upper-byte for the integer proportion of the grey shades (ASP-H byte). These four bits specify the number of sixteenth of the brightness value. The remaining four bits are required for the motion detector integrated into the ARI (CNT value). This value also ensures delayed power-up of the SFF after motion standS1ill. The eight MSB of the ASP contents, the image data, are transmitted to the spatial frequency filter (SFF).

SFF / Spatial frequency filter: The digital high-pass in the spatial frequency filter (SFF) is used for highlighting low-contrast edges in the image. The grey shade jump at an edge is increased by filtering.

Display memory / FL / ATB: Three display memories, FL memory ("fluoroscopy") and two ATB memories ("image on keystroke-) form the next stage of the "image processing pipeline-. They have a size of 512x512 byte each and consist, like the A5P, of video RAMs. Their task is storing the noise-reduced and filtered images for display on the monitor and the multi-format camera. Depending on the different video standards, these can be read at the analogical outputs with different field frequencies ( 100Hz ; 120 Hz and 50Hz / 60Hz ). This is necessary for the" different units that can be connected to the analogical outputs (monitor, hardcopy equipment).

LUT / Look-up table: Before reaching the DAC, the image data pass through a look-up table ( LUT ). This transforms the grey shades in accordance with one of the four characteristics stored (e.g. hard, medium, soft). One of the characteristics is linear i.e. the gray shades are not changed. The characteristics can be selected separately for the FL .monitor and / or memory monitor by actuating the contrast keys.

DA / Digital analogical converter: Both DACs reconvert the image data to an analogical signal, which, provided with synchronization pulses, is transmitted to the monitors or the hardcopy equipment.

level: synchronous amplitude 300 mV pedestal 5O mV picture signal 650 mV

With hardcopy release, BA5 output 1 makes available a 50 / 60 Hz picture signal with level as above. ( CCIR 625 / 525 lines, 3:4 interlaced )




REV 3 SM 2352376-100TPH


Hard disk: With serial memory, the image data can be transferred from the display memories to the hard disk. For this purpose, the image data must be buffered in a line buffer (lineram) in order to adapt the mode of transmission. The image data are transferred via the internal data bus. Data transfer is bi-directional so that the data can be transferred via the same bus both to the hard disk and from the hard disk back into the display memory.

Capacity: 50 images Transfer time: approx. 0,5 images/second Mode of operation:

The disk is operated as a ring memory i.e. the 51st image overwrites the 1st figure and the 52nd figure overwrites the 2nd figure etc.

The possibility of protecting individual images on the disk against overwriting is not provided.

Mode of operation with ATB: With Memoskop 3. complete ATB images are written alternatively into the two A TB semiconductor memories after pressing ATB . The A TB release frequency is not restricted.

With Memoskop 5O, complete ATB images are taken over into semiconductor memories after A TB release and stored on the hard disk. The release frequency amounts to a maximum of 2 images / second.

Mode of operation with ER: With ER mode. the ER image is automatically transferred to the disk after the radiation pulse if “automatic transfer” is selected by Unit operation. Further release of ER is not possible within a period < 1 s and is locked by the unit.

Mode of operation with series mode With SB mode, all SB images are automatically stored on disk.

Text module: If the "text" option is available, patient data can also be mixed into the image via the respective DAC. In addition, these patient data can be separately filed on the hard disk. To display them, the patient data are loaded again into the text module and subsequently added via the DAC.




REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Remotecontrol

Table sidecontrol

Room lightadaptation

Remote localselection

VideoAmplifier

Synchronousdisconnection

electr.mask High

voltagegeneration

Phasecomparison Horizontal

oscillator Hdeflection

stage

Sandcastlepulse

generation

H phasecontroller

100 Hz120 Hz

Verticalampli / position

V Synchdisconnection

Verticaloscillator

Vdeflection

stage

Rectifier Voltagecontroller

Bleeder

+/- 15 V- 6.3 V+ 29 V+ 48 V

230 V


REV 3 SM 2352376-100TPH


Video amplifier: The following functions are implemented on the video amplifier board (VV1):

1. Amplification of the video signal to the cathode level required for the tube

2. Contrast control

3. Brightness control

4. DC restoration (with/without)

5. Remote control interface selection

The input signal is conducted to the amplifier input via socket X143. BNC and relay K401. The second BNC socket X414 serves for looping the signal further. The end of the signal line can be terminated with 7sohms via switch S401 in the last monitor. S401 remains open for all other monitors. The video signal. AC-coupled. reaches a high-impedance FET input stage. The BAS signal for producing synchronization signals is decoupled behind this Stage.

The BAS signal is amplified in the video amplifier and transmitted to the tube cathode via an output stage DC and / or AC-coupled (with/without DC restoration).

The gain of the video channel can be influenced with the contrast controller and/or via remote control interface and via the sensor built into the monitor.

A logical reference voltage is obtained from the controlled video signal. Using this voltage. the voltage G, and the brightness can also be adapted.




REV 3 SM 2352376-100TPH


Amplifier filter: The BAS signal coming from the video amplifier is fed to a differential amplifier. This is connected only with the ground of the video amplifier. Malfunctions and/or ripple voltages arising on the supply cable between video amplifier and deflection plate are thus suppressed. In order to disconnect the synchronous signal from the BAS signal. the BAS signal is amplified. clamped and subsequently compared with a reference voltage {blade lever ) via a comparator. The H-deflection stage and / or the V- deflection are synchronized by this signal.

Synchronisation: The control pulses for the V-deflection and the H-deflection are provided with the horizontal combination. .

amplitude filter ; H-oscillator ; time constant Switchover ; phase closed-loop control systems 01 and 02 ; blanking and clamping pulse generation

MUTE switching + phase modulator and horizontal output stage ; vertical synchronous signal output stage

V pulse disconnection: In order to generate the V-synchronization pulse. the pulse mixture is integrated and fed to a threshold switch. The resulting V-Synchro pulse is transmitted for triggering the V-component.

Generation of the H-control pulses: In the 1st phase comparison stage, the H-oscillator and the disconnected H- synchronization pulses are compared wi1h one another and synchronized according to frequency and phase. If the oscillator and the pulses are synchronous. this is detected by the coincidence detector and the 1st PLL is switched over to long time constant to reduce the influence of short-term faults. The short time constant is necessary to ensure fast capture of the oscillator. The no-load frequency of the H-oscillator should correspond is far as possible to the synchronous frequency so that the H-oscillator can be synchronised as fast as possible. The oscillator can be synchronized with the trigger frequency by short-circuiting the X252 pin S1rip { for adjustment ).

IC TDA 2595 contains the following functions:

The 2nd phase control stage compares the output pulses of the H-output stage with the oscillator and generates a control voltage. This control voltage Controls a phase shifter which determines the phase position of the H-drive pulse.




REV 3 SM 2352376-100TPH


the H-frequency saw-tooth deflection current high voltage supply of the picture tube the voltage for Static focusing und the parabolic signal for dynamic focusing

Dynamic focusing: After repeated integration, a H-frequent parabolic voltage is generated from the line fly back pulses. The output voltage is amplified and decoupled in the output Stage.

Electric mask: After impedance transformation the H-saw-tooth pulse generated by the horizontal oscillator is transmitted to a comparator. A threshold value for rising ramp and a threshold value for falling ramp are adjusted with potentiometers. After the threshold values are reached, the reset and / or set input of a flip flop is actuated. A widened H-blanking signal is generated by this.

V Deflection: The V-pulse is disconnected from the H + V synchronous mixture through integration and subsequent comparison with a threshold value. The V- oscillator is synchronized with this signal. The subsequent integrator which is reset in each case with the V-control pulse generates a saw-tooth current generating the magnetic field in the V-deflection unit for vertical deflection of the ray. The V-deflection frequency is 100Hz at 5O Hz or 120Hz at 60Hz line frequency. In this way a flicker free display of the picture signal is achieved.

Power supply: The supply voltages are generated with a primary controlled switched power supply. Control is by a IC TDA 4919. The repetition frequency is 25 KHz.

It is possible to select between a power supply input voltage of 115V or 230V by actuating the switch S2.

Horizontal output stage: The switching transistor of the horizontal output stage is actuated via the TDA8143 driver. The H-output stage generates

The high voltage is generated in the T301 diode split transformer by transforming the line fly back pulses. For monitoring the high voltage, the high voltage actual value is reduced by a voltage divider (bleeder) and compared with a reference voltage. If the high voltage exceeds a specific value, H-control and therefore the H-final stage are blocked. For restart, the unit must be switched off and on.




REV 3 SM 2352376-100TPH


N NF2

*AT2 1 1 1 1Y K1 0VT0

L L

F1

*AT1 2 2 2X K2

LCR

SLX50

U R2

U R1

3X1

4

X3

5

X61

+-V1

F32AT

24V

F1

0.75AT

F20.3AT

T1

1 K5

2

3

X5A

X5

7

K3

K5

8

1

2X7

K2K1K3

196-277V

90-128VNETWORK

K3

+X33X34

K4

OI

UNITPILOT

4

1

2

14

41

RADIATION

32 2X6R3

12ATRF1

70V2

80V3190V3095V29100V28

110V26115V25120V24128V23135V35

3

105V27

4 0V

150V22160V21170V20180V19188V18

70V/208V5 80V/220V6 90V/230V7 95V8

100V9

196V17

33

1 1X24

X271

GENERATOR (D2000)

T1

T2

3 2X25

X262

T2230V

T1

1ATF4

GENERATOR (D2000)

3ATF3

D50N

34 2 3 X28X4 X3X1

3X29X4

X65

6

105V/240V10110V11115V12120V13128V/256V14135V/277V15285V16

4ATR

F2

K1

24

X50MONITOR 1MONITOR 2

MULTIFORMAT-KAMERAMULTIFORMAT-CAMERA

4SPEICHERMEMORY

VIDEOPRINTER 4

13

MONITOR 1MONITOR 2


3SPEICHERMEMORY

VIDEOPRINTER 3

5MONITOR 1MONITOR 2


5SPEICHERMEMORY

VIDEOPRINTER 5

* 15AT FROM 190V POWER SUPPLY NOMINAL VOLTAGE* 20AT 127V POWER SUPPLY NOMINAL VOLTAGE

FERRITE WINDINGSSWITCHING CIRCUITE

D200

D51TD50N

REPRO FILM

SONNY PAPIER

MEMOIRE

X5

240V

K4

K4

Platine principale GENE

X35X36

X10 X6

X1 X2

U

X1

POWER INPUT

GENE

=




REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


33

3231

30

29

X41 230V/240V

K4 2

1

19

11

2

18

8

10

1F3

3AT

V1+-

7

8X6K4

2 240VK4X4

Pilot

14

41

SLX10

SCHELLECLAMP

12 2

10

9 1

T2

3X4K4 230V

F4

1AT

LCR1

GENERATORUNIT

PLATTEDISK

9

FERRITE WINDINGS EARTHING PLATE N1

T1ALIM. PLATINES

QUI GERENT

SIREMOBILE

ALI. +27+24±15

ALIM. TV

SYSTEME

CAMPA/AB

+5V±15V

SG-CABLE

D50N

MONITOR TROLLEY


REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


V1 -+1 15 56

216

65

17

X4X7

3 13 42 34 5

23

351 36

74 43 8

41

37

38

44

18

K1

D3

D200

S3C BUS

K3

4517

21 828 939

89

2366

2677

2244

2555

402

473

46

23

D6DOWNLOAD

AQUISITION

DATA_SSC3

M1

XFK

24

START_MEMORY

42

A1

A2X10

SREEN 2

BAS

SREEN 1

MEMORY FRAME

MEMORY TRIAXX1

MEMOSKOP

D50N

MONITOR CABLE UNIT

SCHELLECLAMP

RADIATION

N1

BOOT

SI RAYON

X4

X6X10

X6 X3

MONITOR CABLE

CARD

COPY

RESERVE

NOTUSED


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


+-

5

6

V1633

345AT

20V +15VJ8

V3G

R56

V7 RU-CONTROL

MAXMIN

VSR

J9U/0K

X6

X4

5

+5V

+15V

W10V

+-

7

6

V1537

382.5AT

20V -15VJ7

V4G

R55

V8RU-CONTROL

V6R

J10

X5-15V

+-

1

2

V135

363.15AT

27V +24VJ1

V9G

R9

V13R

U-CONTROL

V11R

J5

X7

7+5V

+24V

+-

3

4

V26

71AT

29V +27V

J2

V10G

R10

V14R

U-CONTROL

V12R

J66

+5V

+27V

0V

X13

X11

X3

5

34

( BZW 75)( BZW 75)( BZW 75)

X12

K1ZOOM

X2

D120.X1.3 BZW M61.CON1.3D120.X1.2 BZW M61.CON1.2D120.X1.1 BZW M61.CON1.1

D6.X6.6X3

D120.X1.7 BZW M61.CON1.7

6 D120.X1.8 BZW M61.CON1.10D120.X1.6 BZW M61.CON1.6

( BZW 75)( BZW 75)( BZW 75)

X10(+27V)

for laser light option

D6.X6.7

D6.X6.19D204.X1.9D15.X24.3

D200.X4.4D7.X5.2D15.X24.7D1.X1.6

D16.+15VD15.X24.1D7.X5.1

D20.X4.9D6.X6.32D5.X5.1D200.X4.1D3.X4.10

D6.X6.10

D1.X1.41

2T11

2X212

4

0V(+5V)

X14

N1

D6.X6.34 .+5V

3X16

D6.X6.9 ZOOM

8D6.X6.8 BIV_MINI_CONTROL D120.X1.9 BZW M61.CON1.11 ( BZW 75)X15 X2

7

21

0V (+5V)

X3

230V

D11

X1

VOLTAGE SUPPLY +/-15V/+24V/+28V

8

for AB

boot card / softgene

status error

control motorS3C busdeskmother boardnot used

breaksdiamentor


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


363.15A

D307V

35 D32

- +V5

V21G

R14

D16 30D18 31

UP

D20

D22

MP 3233

UP

61AT

B2022V

5 B18

- +

V12G

R16

Z18 10Z20 11

Z10

Z123637

+15V

321AT

B1622V

31 B14

- +V3

V13G

+

+

+

-15VJ8

J7

J10

+15V

Z22 23Z24 22

0V

4 Z226V

3 Z4

- +10V J13

Z16 24D24 29

X3

X4

X5

X6

X10

X7Z16 12

-15V-10V

C C D

12

3

X14

23

1

+ V4G

V17 BOX51

X13

MD X11

J11

R15

D215V

33 D4

- ++5V

J12

B24

C P U

F+5V

+ V6G

J14

0.315AT

X2

Y18

MD

X9

X8Z32Z30

Z28 25

2726

BCY59V1V2 BUV50

B28B30B32

D14

3

5

BV-GEN.SCHELLECLAMP

T21

2

230V

D10A RIBBON CABLEBVTELE

D110

-10V C C D

+5V

VOLTAGE SUPPLY FUR FS-D

X2 X1

V19

1.25AT

V20

34

4

28


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


1

2

31

30V230V

32 X910AT

D20

B20

Z20

D22

B22

Z22

D24

B24

Z24

D26

B26

Z26X1

D2

B2

Z2

D4

B4

Z4

+5V

+5V

D1 . X1 . 1

D1 . X1 . 2back board

D20. X4 .10D20. X4 .13

D15. X24 .5

D20. X4 .10D20. X4 .13

D15. X24 .5

deskbreak

Sbic busGene

laser light option

X1 Z12 B12 D12 Z14 B14 D14 Z16 B16 D16 Z10 Z6 D28

N1N1

D3.X4.9

X8

X6

X5

X7

SENSE

POWERFAIL

R=±5V / 5.2V R=218

V116

AC-INPUT

31 73 929 8330D14

+5V-POWER PACK

F10112AMT

GND

D13

+5V VOLTAGE SUPPLY

T1 X2

X3

X4X4


REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


ATB 1

2

3

R

V23 K4

X1

R

V24

24V

K3

24V

K2

0V

RTV21

2

3X14

1

K1

0V

R

V22

K15

+24V

DR-foot switch

+24VX17

K3

K2

K1

K3 1X12

1

2X11

4

K2 4X9

4

K1 3X10 3

6X13

16X4 X6

K15

K15

1X8 8

10X7 9X3 X4

K2

H1 5 5

+24V+

7 12

K4

K4SCOPIE +MEMORIS.

DRScopie ou

blue keymemory input

SCOPIE

foot switch

&

HOSTGENERATOR

D200

D6D15

RADIATION AND ATB RELEASE

hand switch

yellow key


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


3 X17D11_+24V +24V4 X18N1_GND

5 X19D13_+5V +5V6 X20N1_GND

1 X15D11_+15V +15V2 X16N1_+15V7 X21D11_-15V -15V

X23 21

X22 21

D15

X24

2

1

V4Y

NOS40(BM1) ORBITAL

7

6

V1Y

NOS42(BM2) ANGULATION

21

V10Y

NOS44(BM4) SWIVELX2

X5

122R1 276

3652S35

1

V5

R

GXD

453 +15V

R

V35

+15VX35 532

R2

686

52S36

1

V3

R

3

R

V36

X36 742

R3

896

52S34

1

V2

R

3

R

V34

X37

X1 X6

3 switchs D12A

endswitch

&

X35A1 B1 A1 B1 B1

K12K11

ORBITAL

+24VX36 X37A1

X35A2 B2 A2 B2 B2

K9

K10ANGULATION

X36 X37A2

X35A3 B3 A3 B3 B3

K7

K8±12°5

+24VX36 X37

A3

X35A4 B4 A4 B4 B4

K5

K6X36 X37

A4K5

K6

X35A5 B5 A5 B5 B5

K14

K13 +24VX36 X37A5

K14

K13

&

R27

R28

+C3

4K768 4

K84

+24V

MRT BM4

SW

11 13K8

59

68

R3113K7119

2

1

X2 SWIVEL

R32

R29

+C4

4

K968 4

K108

+24V

MRT BM2

SW

11 13K10

99

68

R3313K9119

2

1X5

ANGULATION

R35

R30

+C5

4

K1268 4K11

4

+24V

MRT BM1

SW

11 13K11

59

68

R3413K12119

2

1

ORBITAL

4K6

54

K55

+24V

921

RTBL

BM34 BM3A3

V8 G

+24V

10K6

1110

K511 10

V9R

+24VX6

HORIZONTAL-MOVEMENT

BM3

4K14

54

K135

+24V

91

2

V6G

+24V

10K14

1110

K1311 10

V7RT

+24V X6 VERTICAL MOVEMENTRTBL BM5

WIRING D15 BRAKES


REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


1+5V

D13_X2_+5V X2-X9.B3,B29,D162D13_X2_+5V

VCC

3

0V

X2-X9.B1,B10,B31,D18

5

7N1

X2-X9.B5-5V8

4D11_+15V +15V

X11

X2-X9.B9+12VIN OUTGND

7812

J1

8D11_-15V

X10

X2-X9.B7-12VIN OUTGND

7912

J2-15V

X1

FERRITE WINDINGS

D1

AT BUS PC BOARD D1

N1

N1


REV 3 SM 2352376-100TPH


B2X1

RESET

A11

AEN

A12A31

SADR0-19B13

IOWRC

B14IOROC

D4X2

D3A2A9

SDATA0-7X1

C11C18

SDATA8-15

X2

IRO_11IRO_10

D5

IRO_12

D6

IRO_15

D7

IRO_14

C2-C8

LAOR17-23

D1

MEMCS16

B11SMEMW

B12

SMEMR

B1 B10 B31D18X2

B3X1 B29D16X2

B9X1

X21

+5VX26

& &VCC

V19WD +5V

8530

TXD RXD

INTJ31

INTERFACE SERIEBTV

8530

TXD

INT

RXD

J32

A GENE

+5V

10X3

1X3

41004200

20M

A

2X1

10X8

12

12

14

2

4200

R

V14

VPP

HI_VIDEO

JUJ22

2

20M

A

2

RV15

VPP

15

15

R

V50

VPPVPPR

V51

R

V12

VPP

16

16

+5V

8

8

JUJ33

20M

A14

14

20M

A

6

6

4

4

41004200 4200 4200

PAL J13K1

+5V VPP

R

V18

K1

FEPROM8X

R

V21VCC

TRIG

LOWLINE

RESET

WD0WD1MAX691

RV20

VCC

RV17

VCC

J19

8

1

43

1

7

4

36

4

5

3

34

3

4

2

13

2

X10

9X4

VPP

J446N139

TTL

RS232

J27

1

8

X28

X6

10

D11_+15V

+12V J437812

+12V

12

3

X22 R

V22VPP

X12

1 2X10

3

VOP_GND

TTL

RS232

J27

J32B

TX0 RX0

X4X1

32X5

+10V

-10V

X23

X24

J45

5

VOP_GNDX27

4

1 2 3X14

VPP

VOP_GNDVOP+

X25

VOP-

SERVICE

FERRITE WINDINGS

J42

D3

D28X1

X6

X10

X27D13

SLOT-CPUD2

RESET

X23

D50N

D110 CAMERA

POWERFAILD14

RESERVE

BLOCK DIAGRAMBOOT CARD D3

AT-BUS D1

D201 GENERATOR

J262

6

WATCH DOG

INTERFACE S.

checkCPU

8 Circuits




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


2 X31

17

A

A5

5

3

18

B

B5

6

HEDS-9100

36

B6

8

37

A6

7

X3

X1

X2

X2 X3

AM31CAM.-ROTATION

1

19

INK

A4

INTLM629

J40

+5V

V1 G

V2

RJ34

-+

2 X32

14

A

B1

5

3

15

8

A1

6

HEDS-9100

33

B2

8

34

A2

7X3

X2 X3

M+-

AM32TV-IRIS

1

16

INX

A3

INTLM629

J36

V3G

V4RJ32

-+

1

X5 X4

2

30

A8

4

+5V

7

B8

20 29

0V

+5V

B4A7

41

X5

2

X4

D6.X4.12

0V

0V

21X31

+5V

S31CASSETTE

S32

INDEX-TV-IRIS

M

FAN

+5V0V

LH30

X50V

X4

B7

32

+15V

D30

12

3X5

X4

DISPLAYON/OFF

D20

with K1OFF if no +15V

D32

D31

D5 GNO HOT_GN0

X6

K1K1 13

X9GND

B1X1

0V

D16X2

+5V

B29B3

+5V

B10

0V

B31

0V

D18X21X5 2 5 4

89X1

X16+12V

+

+15V

+15V 0V_(+15V)0V

X7

+12V

+

VCC

9 7 8

X8

6

4

K18

RESERVE

A2.....A9

SDATA_D-7

10VCIORC

1

B21

IRO7

A22_A31

SADR_D-9

A11B2X3

PROMRESET

IDATA

AT-BUS D1

SW RT

endswitch

MOTOR CONTROLLEROVERVIEW D5

FOR CCP

X6

+-M

+-


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


LM629INTJ39

2 X44

1

R

V12G

V11 A

28

22

B1

-+

AM44

M

COLLIMATOR-IRIS

27

21X1

A11X2

X3

3

2

B

1

3

INX

4

2

3

J2

65

J1

1 2

J3

1

X44

3

J34

29

23

87

0V

3SFH 900-3 D44

D40

LM629INT

J38

2 X43

B

A

26

20

B4

AM43

M

25

19

A4X2

3

9

B

1

10

INX

4

9

3 651 2

8

X43

10

J33

14

87

3SFH 900-3 D43

R

V10GV9

20

0V

LM629INT

J37

2 X42

11

A

24

18

B3

-+ M

ROTATION

23

17

A3X2

3

12

B

1

13

INX

4

12

3 51 2

11

X42

13

J33

87

3SFN 900-3 D42

R

V8G

7

0V

6

7

V7

LM629

LM629INT

J35

2 X41

4

A

21

15

A5

-+ M

SLOT / right

22

16

B5X2

3

5

B

1

6

INX

4

5

3 51 7

4

X41

6

J32

87

3SFH 900-3 D41

R

VSG

30

6

24

V6

AM41AM42

+5V

1

X2

IRQ7

AT-BUS D1

MOTOR CONTROLLER OVERVIEW D5

D5 IDATA

B21

+15v

+15v

SLOT / right

-+


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


B2X1RESET

A11AEN

A12-A31

SADR_0-19

A2-A9SDATA_0-7

B13IOW

B14

IOR

B11

SMEMW

B12

SMEMR

B1 B10 B31

D18

B3 B29

D16

B9

X2X1

X2X1

X10 X11X14

2X3

40X10

2X6

V20

R

20MA

3

47

3

DATA_SSC3

4

22

4

V16

20MA

5

25

5

START

6

23

6

V15

20MA

7

26

7

AOUISITION

V12

20-80MA

6

28

9

8

21

8

DOWNLOAD

V17

20MA

33X6 15 13

21

14

3

18X4

12X7

G V1

V13

20MA

16X4

16

V14

20MA

17

17

V21

20MA

AVR_ANF

AVR_STOP

15

15

SYNC

V19

20MA

1

1

6 7

7

13

1318DOWNLOAD

1615

+5V +5V

D110.X1

CAMERA

V2G

D20.X4

DESKMEMOSKOP CAMERA

13

+12V+5V

V3G

14

+9V

X12 X13

X15

32X6

D11_+15V

X16 X18

VPP

+12V (AT)

TESTING ADAPTER

2X6 1 4 3 6

+24V

5 7

STR.

MANUALRADIATION

DL-

DL-BASE

DR-

DR-

ATB

A7X1

8X2

X3 X4

(CASSETTE)S31

H1

AT-BUS D1

D30

D15

S3-BUS D6INTERFACE

INTERFACEMEMOIRE

12X4 2X6 1 4 3 16 5 12

INTERFACECAMERA

RATIATIONK4

BLOCK DIAGRAM BUS CONTROLLER D6

CASSETTE

PUN (DOWNLOAD)

+ power on+ end of radiography

down load

R R R R R R R R


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


20-80MA 15 1DOWNLOAD

18 CAMERA8 MEMORY33 (RES)20MA 13 2

J13

J12

14 3

X6

J15

J15

2 5

K1 3X4

3 6 3 3R DISPLAY DATA R8 7 5 5HSYN H - SYNCHRO HSYN1 16 16RES 9 8 6 6VSYN V - SYNCHRO VSYN2 15

12 14 6

A 2 14 A F3 8 F

11 A39 A413 A215 A1

NSYN

VSYN

CLK

DATA

2 B81 A8

+15V15 7

CN1

12 4 4 B73 A7

+5V13 5

10 211 3

9 1

1 12 24 67 78 8

CN3

5678

A6B6A5B5

GND

9D11_+15V10D13.X3_+5V11N1_GND

op

3X5

K1

desk display power

21X6

+12V

J14VPP

12X8 1

2 X713D13.X3_+5V

14N1_GND

VCC

EPROMJ3

EPROMJ1

BOC535

J9

12X1

CN1X3

+15V

1311+5V

1-9X2

1-12X1

1-6X1

D6

S3C BUS

D200

D4

D5+15V

RXON

D20RADIATION

MATR_OUT

MATR_IN

LED

V38

8LED2

V37

7LED3

V35

6LED5

V34

5LED6

V33

4LED7

V32

3LED8

V31

2LED9

V30

1LED10

X212

S6

S12

S18

S24

S30

11

S5

S11

S17

S23

S29

10

S4

S10

S16

S22

S28

9

S3

S9

S15

S21

S27

8

S2

S8

S14

S20

S26

7

S1

S7

S13

S19

S25

5

S31

6

4

1

X1

D22

CN2

D21J1

J2

11 13 12

D23

DISPLAY

X1

X4

TRANSLATOR

R X

DESK OVERVIEW

2

3


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


3

14

11X77P_VZW5MYHL1X12 10AT

F1

U3

V49

V43

V37

J1

J2

D4X2I_MAX_ZW

B4I_MAX_0V

D6ZW_ANST_1

U3

V48

V42

V36

J4Z8ZW_ANST_2

Z,8,D2N_VZW X3

6

7

J3

Z6ZW_VERS_1

B6ZW_VERS_2

C2

R23N_VZW X77

D8P_VZW_ISTR1

2,B,D6P_VZW X3

3

5

4SKM254F

X11

SKM254F

V39

U1

V64

V38

V65U1

D

56R100

R5R6

39KR3

1KR4

C9C10

V18

J5

J6

900NH

L2

X9

C4C8

C33

3K3R7

X10

V40

V41 J8

U2V66

V67 U2

X2

X88

L1

7

6

5

4

2

3

SKM254F

V70V12 3

2

C11C16C35C36 1

7

6

5

4

X321

X33

I_MAX_WRV69

1

2

1+15V X4

14K1

Z,8,D32+15V X1,X2,X3 D24X2

XRAY_ANZ/ON 1X5

6,7 U1

9,10

X66

V1

32

X4XRAY_0_22 6 B8

X2UZ_IST_IN5 6 K1

6 5XRAY_0_12

2 B20 KV_IST_P8 7 K1XRAY_0_11 KV_IST_P

GROUND

3 Z20 KV_IST_NKV_IST_N

4 Z22 P_IROE_ISTP_IROE_IST1618 9

XRAY_ON_NXRAY_ON_P D12X1 13

D10X2 8 4K2

9K2

5 B22N_IROE_ISTZ10 B6CHA_MAX2

Z,8,D28

+5V X1,X2,X3 3X67 8

K3Z,8,D12

2FIL25 6

K3FIL2 X3

7X4+5V 14K3

Z6X1CHA_FOC 7 D20 pression P_MAXP_MAX

8 D22 temperature T_ISTT_ISTZ,8,D10

1FIL1FIL1 D10

B12X1 X2

Z,8,D30 4-15VX1,X2,X3-15V

X4

Z,8,D2610 GROUNDX1,X2,X3GROUND12

1_MAX_WR_RD2WR_ANST_2

Z215V_WR

T1

3

8

J7

J9

B220KHZ WR_ANST_1J9

T2

8

3

D202

FERRITE WINDINGS

X2

BLOCK DIAGRAM BASE D200

350V

20KHZ

V68

D200XRAY_ON_S2XRQY_0N_S1

XRAY_0_21 X4

X2

X2

D201

D201

CUVE

N1.

CPUKV

N_IROE_IST

desk leds

trolley

20KHZpower supply

to HTtransformer

heating


REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


J386

8

J492

4

82510

J71

J4815

J3714

J1

80186CPU

J73

82510

J2610

12

RS232

J152

5

J353

4

J72

82510

9

7

13

11

5

3

D30 -15VZ,8,D32 +15VZ,8,D26 GROUNDZ,8,D28 +5VZ,8,

X3

CONTROLDECODER

LOGIC

J23 J3FEEPROM

120KX8

J33 J53RAM

32KX8

J34 J54EEPROM

2KX8

J4 J24

EPROM

SOFT GERE

LearningProg./courbe

Operatingmenu

ADJ58

X108

DA

J64

DA

J76

X112B20

X1KV_SOLL

X113Z20

KV_SOLL

MUX

J39

D20

D22 IN_ISTZ24 T_ISTB24

KV_ISTB22 UZ_IST_IND24 IROC_ISTZ22 P_VZW_IST

DIWANJ61

B10 DRIVE0

Z10 DRIVE1D14 SC_ALERT

Z8 RESET_SSSB6 CHA_MAZ6 CHA_FOE

Z16 1H_MAXB14 TIMER_ACTIVED12 XRAY_OK_S2Z14 WR_OK

B12 KV_MAX_RZ12 I_MAX_ZW_R

D6 FR_ZW_KRD16 FR_ZW_KRD18 VZW_OKB18 15V_OKB16 XRAY_O_R

D8 RESET

B8 XRAY_OK

J1/J62

D3.X8

I / 0 PORTS82C55

J65

D201X1


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Z14RESET

X1

D22T_IST

D10XRAT_ON_S1

Z24KV_IST

B20

Z20

KV_IST_P

KV_IST_N

D18

B10UZ_SOLL

B8UZ_IST_IN

KV_SOLL

D4I_MAX_ZV

B10I_MAX_ZV_R

Z12FR_ZW_KR

B4I_MAX_0V

Z18KV_MAX_R

D14P_MAX_R

Z6I_MAX_WRZ10CHA_MAB16VZW_OKD12XRAY_ON

B24IROE_IST

20 KHZ

SYNCHRONISATION

V26/V27CURRENTSOURCE

3MA &J17 J20 B2

B6

X1Z6

D2

D16

D6Z6

X2

X1

X2

WR_ANST_1

ZW_VERS_1

WR_ANST_2

WR_0K

ZW_ANST_1

ZW_ANST_2

ZW_VERS_2

ZPX12

&J18 J22J2

J47

20KHZ

WPX9

J10

KV1X7

J6

KV-CONTROLLER

KVSX17

J11

J11J45

J46

J4J5

FVJ9

ZW-CONTROLLER

Z,BD28 +5VX1

Z,BD26 GROUND

Z,BD32

+15V

Z,BD30 -15V

D200

D200

PID

ZWV1

KVV2

VWV3

IZ

WR

1W

P

+V

-V

RK

U1

Z16 1SV_0KX1

B14 XRAY_O_R Xray accepted to D201

D24 XRAY_ANZ to D200

D8 P_VZW_IST for intermediate voltage

D20 P_MAX to HT transformer

Z22 P_IROE_IST

B22 N_IROE_IST

J11

J3

J10

J28/J29

&

J14

&

J15

J44

&

J18

S10>C1R

J37/J38

J31/J32TIMER

13 ms

CIRCUIT LOGIQUE D'ERREUR

D202

MAX5

J26

1V = 2.5mA

S10>C1R

J37/J38

+15V-15V

-15V+15V

U1X10

U5X13

CMDCIRCUIT1V = 20KV

5.5V = 110KV

ENABLE

POWER SUPPLYDRIVER

BLOCKDIAGRAMCONTROLLER

D202

Presure

D201

enable/disable


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


J12

X9

V13V12

V10J3

V20

V26

U1

J13X10

V15V14

V11J2

V21

V27

U1J1/J8

50KHZ

alim. drive

D28Z,B, +5V

D26Z,B, GROUND

D32Z,B, +15V

D30Z,B, -15V

J5-J8D20SC_ALERT

B16DRIVE_1

D16DRIVE_0

D22TIMER_ACTIVE X3

X1

200MSEC

CONTROL LOGIC D203J9

RMSDC

U2X6 Z20

AU = 1A IH_IST

Z,B,D12 FILE_2

X5D201 CPU

B20 IH_IST D201 CPU

Z,B,D10 FILE_1

U3

22MYHL2

100RR41

V28

C15

39KR74

V1

R76

39KR75 C37 6NF8

C38 6NF8

Z,B,D2N_VZW

X1

V25

X8 J11ref 4A

Z,B,D6P_VZW

BLOCK DIAGRAM HK INVERTER D203

20KHZ 43KHZ

tension internediaires

intermediat voltag


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


HV SingleTank

Currentmeasurement

HV measurement

FilamentHeating

Safety SW

Therm.

Pres.

X1 : signal

A2 : U1

A1 : V1


REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


UR9

10ATF1

5

ACO2

ADO2

10ATF2

ACO1

ADO1

7X1 109

GROUND_N1_

24V

320V

C8-C17

3

1

X1P_VZW

N_VZW50VV5

V3

+5VZ,B,D28

GROUNDZ,B,D26

+15VZ,B,D32

-15VZ,B,D30

X1

Z1

AC2AC1

NETWORK FILTER

AC2AC1

230V

D204

NETWORK FILTER+ BLOCK DAIAGRAM RECTIFIER D204

500 msTIMER


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


HOSTSIREMOBIL

HOST Supply

VOLTAGE SUPPLY

BAS_2_OUT

100HZ

DL-MONITOR

A

100HZ

SP-MONITORB

ATB

HARDCOPY

BAS_1_OUT

NC_BAS

NC_TRIGGERX4X10

X11

X12

BAS_2_IN

X6

X9

KEYBOARD

KEYB

X5

means FERRITE WINDINGS

TV CAMERA

VIDEO

DOWNLOAD

MEMOSKOP

50HZ

MEMOSKOP "3", "50" and "SUB" Interfaces

Boards per Memoskop release:

Memoskop 2 : D18 InterfaceD17 MemoryD17-D18 Connect. Panel

Memoskop 3 : D1 InterfaceD21 StorageD4 Power Supply 5VD5 Bus PC boardD6 Text Module

Memoskop 3E : D1 InterfaceD21 StorageD4 Power Supply 5VD5 Bus PC board

Memoskop 50 : D1 InterfaceD2 Storage with scsiD3 Power Supply 12VD4 Power Supply 5VD5 Bus PC boardD6 Text Module

Memoskop SUB: D1 InterfaceD22 Storage with scsiD23 Arithmetic (substr)D3 Power Supply 12VD4 Power Supply 5VD5 Bus PC boardD6 Text Module


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


BAS_2_OUTX12

BAS_1_OUTX11

HC_BASX10

NC_TRIGGERX4

KEYBOARD

X5

HOST

X6

X9BAS_Z_IN

X1

X4

X2

X5

ARI D23

SUBSTRACTIOND22X2/X3

BACKPLANED5

X3/X4

X2/X3

X1/X2

D1-D5

X21/X22

X21/X22

TEXTMODULE

TEXT MODULED6

X5/(X6)GND

X1

SV-POWER PACKD4

X1

X1

DISK MS1X2X1 X1X2X1TRANSFORMER

T1

12V

X10

X13

AC-D1

POWER SUPPLY

INTERFACE D1

X1

5V

5V_DISK

X11 X10X11

AC-D3

MEMOSKOP SUB OVERVIEW

X11SCS1

AC-D412V-POWER PACK

D3


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


0.75ATF9 1

D11.X1

TRANSFORMER

172 216

10V3

4ATF6 0

AC_D3 0-3

B2081 Z20

9

16V7 2 B243 Z24

0 Z203 1 B202 D203

Z264

B265 D26

27V

4

AC_D4 0-5X11

X10

110 1ATF2 D1.X13

11 16V6

67

25 4ATF5

6 10V12

73

414 1ATF3

15 10V0

81

512 1.5ATF4

13 10V14

95

AD_D1 0-7

2ATF1

122N3311

SLL

POWER SUPPLY 230V

5 L_OUT

4 K_OUT

6

1 LE1

0.1AT

F7

2 N3 SL

1 LE2

0.1ATF8

2 N3 SL

2

Z1

220

SL

220

OUT

FERRITE WINDINGS

NETWORK SUBASSEMBLY MEMOSKOP 3, 50, SUB

T1


REV 3 PH SM 2352376-100T


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Z20

B20

16V7D20

AC1

Z24AC2

B24

D24

V2- + J1

R5

D2

B2

Z2

+12V

V3

Z12

B12

D12

Z14

B14

D14

GND

V3+12V GREEN

R5+12VSETTING

D3 X1

D3

BLOCK DIAGRAM LONGITUDINALCONTROLLER D3

V.+12V GREEN

R.+5VSETTING

D4BLOCK DIAGRAM +5V SWITCHING CONTROLLER D4

X1

X112AT

F101

27V

27V

D4

+5VD

0VD

D20

B20

Z20

D26

B26

Z26

Z6

D4

B4

Z4

D2

B2

Z2

D16

B16

Z16

D14

B14

Z14

D12

B12

Z12

Z10


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


X12

BAS_1_OUTX11

X10HC_BAS

BAS_2_OUT

CLOCK

AIF_UP1 (0:5)

AIF_TG (0:11)AIF_DIF (0:30)

BAS_2_INX9

VCC

DIF_TG (0:20)DIGITAL-INTERFACE

N5V2

AGD

5VN_U_TGVEE

PGNDU_NN5V2_P

N5V2_2

AGND 2

5V_25V_1 N5V2_1

TG_UP1 (0:10)

POB (0:7)

UP1_CONTROL (0:11)

D1 (0:7)

UP1_DIF (0:16)

MICROPROCESSORX4HARDCOPY (1:9)

X21/X22TEXT MODULE (1:45)

AGND 1

NT_UP1 (0:3)

X6

X5

X13

KEYBOARD (1:9)

HOST (1:15)

AC_D1 (0:7)

X3 D105_X3 (0:61)X2 D105_X2 (0:77)

ANALOG-INTERFACE

BLOCK DIAGRAM INTERFACE PC BOARD D1

POWER PACK


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


1X22

AD0

2

34

5

6

78

910

11

1213

14

15

16

17

18

19

20

1

2

3

4

512

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

D6

VSDD_BANK1

X21

VCC

VCC

VCC

VCC

T50_75_ATB

N_H_TEXT

N_TEXT_BLACK_DLGROUND

GROUND

GROUND

GROUND

GROUND

+5V

AD1

AD2

AD3

AD4

AD5

AD6

AD7

AD8

AD9

AD10

AD11

AD12

AD13

AD14

AD15

K_CS_VSDD

VSSD1

VSDD2

ALEN_WR1

N_RD1

RESET1

TEXT_RES0

N_V_TEXT

N_TEXT_WHITE_DL

N_TEXT_BLACK

N_TEXT_WHITE

RDYCT0

TEXT_RES3

TEXT_RES4

BLOCK DIAGRAM TEXT MODULE D6

1 Brown DCD43K3

63K3

2 Read TXD8 Grey RTS

3 Purp. RXD

7 V1 CTS

5 Grey 0V

9 White +5V

SCHIRM

CO

NTR

OLL

ER

3K3

2V16V-

14

7

13

8

+5V

CABLEBIG

KEYBOARDX5

MEMORY NW 01

S1 S2

S3S4

S6S5

SINGLE KEYBOARD

S6 S5 S4 S1 S2 S3

SINGLE KEYBOARD

S4, S5, S6 ARE RESERVE KEYS

KEYBOARD WIRING MEMOSKOP 3, 50


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


+5V_D 6X1

-10C_D 7

+12_D 9

GND_D 6

+12V_A 5

4

TEMPERATURE 2GND_A

FITERING+1.6V -8V 2-6V

VOLTAGE

SUM

QUARTZ

OSCIL.G1

SENSOR

10 TESTLIGHT

DRIVERTEST LIGHT

1KT

KT_OKPULSE

2KT_DK

C_SYNC

C_BLK

10C_SYNK

1C_BLK

3ST145

ST2ST3

X1

X2

60HZD113B

PPG

50HZD113A UB

SENSOR

SERIAL-DRIVER

PARAL.

DRIVER

TRANS.

9 SPG_FUHLER

1.2NTC

X6 LED

SENSOR

SENSOR DISK

PPelletier

A

K

D113

5KAN1

6 KAN27 KAN3

S;DVH D114

X1

BLOCK DIAGRAMCAMERA HEAD

D113

X2

X7

1.2

....element

X4,X5

gene inpulsion

Tension ----> CPU

DRIVER


REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


+10V_REF

X31TP

+12V_A

X32TP

X26TP+12V_D X27TP +12V_D

-12V_AX28TP

-12V_D X29TP

10,11,22,23X1

+15V_UA1

28+5V_SENSOR

12,24-15V_UAZ

X4

X3

+5V_REF D112

+10V_REF D111

B17,C17

B17,C11

16

B10X4

PELTIER_OFF

PELTIER VOLTAGE

SPVV

C7X3

IST_IN

C6IST_OUT

8X1

TIEF_BSIG

19MTIEF_BSIG

6 +5V_G

7 MG

0V_G

MG0V_A

25,26,27+5V_UD1 X30TP

29UP0V_D

+5V_D

KAKO

-12V_D

0V_D32,33MP

MO1K

30,31UP

MULTIPLEXER

-12V_D-12V_A+5V_D

+10V_REF

CUP+12V_D+12V_AUB_-10V S1

B9SA_0 X4

B8B7

SA_1

SA_2

15X2

GUP

GUP

0V_D

0V_AMA

MD

20MA_INTERFACE

V60

V61

V62

V63

V65

V64

T_IW0-15V_C

+15V_C

+5V_C

UB_C

UP_EIN

+5V_GE

X12

SER_IST_IN

4SER_IST_OUT

D10

D110VOLTAGE PROCESSING D110

+5V_REF

-7.5V_REF


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


B27IW_STEUERX3

MULTIPLEXER

B_SIGNAL

TESTSIGNAL

B26NAND

C10KT_PULS

C24TEST

1KKB_SIGNALX2

X4

MULTIPLEXER

DIGITALANALOG

TEST SIGNAL

X9

ADAPTATION

THE DIGITAL

TEST SIGNAL

MULTIPLEXER

B_SIGNAL

TEST SIGNAL

H_SAWTOOTH

GENERATION

C23TA_1

C22TA_0

C12D_TEST

B6A_MESS

X3

Analogique

A8D_MESS

X4

C9H_PULS

Digital

C18MVV_A0

C19MVV_A1

C20MVV_PULS

290KHZ

X1

X7

X8

X6

X2FINAL

CONTROL

ELEMENTFOR_AVR

SIGNAL

DECUPLING

ADAPTATION

AUTOMATIK

BANDWIDTH

LIMITATION

GAIN

FEST_1CLAMPING X3

WORKINGPOINT

X12 X17CHARACTER.

X19

LINEAR

CLAMPING

X21X5

X4

RECTANGLE

CIRCLE

BLAKING

SYNC.

ADMIXTURE

FINALSTAGE

GAM_AUS

BAND_EIN

IWBX20

X4

X3

VV_AUSX4

KREIS_RECHT

S+H MVV

SYNC_SIGNAL

X23

C26

A13

B25

C25

C15

A26

C11

A2

B12

TEMPERATUREA2

MULTIPLEXER

X22

X25

BASA

D110D112

KT-PULSE

B_SIGNAL

A_MUX

VIDEO SIGNAL PROCESSING D110

MIN_B

loop 2

loop 1/2/3

loop 3X1

X4

X2

D2 MEMORY

ADAPTATION

X4

loop 1

every 5mnfor led


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


C10

B25

A1-A7

B6

A14

C13

C21

A20

C18

C19

B25D_MESS

IVB

KT_PULS

M0-M6

A_MESS

V2

V1

MIW

MIW_PULS

MIV_A0

MIW_A1

X3

Video on 0.5V

ACTUAL VALUE ACQUISTION

SW

SSXV

OVSSSW

OVSSSW

SW

SSXV

analogique dominante

CLAMPING X5V_=_S

MULTIPLY

PEAKVALUE

WHITE

SW MUX

MIXSS

S-H ist

PEAKVALUE

BLACK

MEASURINGFIELDdigital dominante

MWMEANVALUE

DAC+

S-HMUX_TEST

ADAPTATIONOFFSET

ADJUSTMENT

B_VALUE

B_VALUE

LATCH 373

DA

DA

DA

DA

S-H M

CONTROL CPUPC BOARD

D112

I_CONTR.

AVR

PORT5

PORT3

RAM

PORT3

PORT4

PORT1

start/stop

OPK

DO-07 ST5ST0ST4

BNominal

Value

V2

AVR_ANF

AVR_STOP

IST_IN

IST_OUT

Hostgene

X3C6

C7

C14

B13

B14

AD

TXOSERIALINTERF.

TXO

PORT3

PORT0

PORT2

EPROM LATCH373

RE_CPU80535

CIRCUIT PART CONTROL CPU

VIDEO AMPLIFIERPC BOARD D110

X3 X3B26 B26

B27X3IW_CONTROL

X3 27

AGC controlvoltage

HAND

BA0 BA1

BLOCK DIAGRAM ACTUAL VALUE ACQUISITION D111

D111

Controls

(0.5V)

D112


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


RESETSWIT.

BOOTEPROM

...

...

PROG.DOWNLOAD

LOGIC

NYRAMMEMORY

A

D

TEST SEITCH V1

LIGHT EMITTINGDIODES V1

28MHZ

CIRCLE

circuit P41C

KR_PROM

V_PROM

H_PROM+_LATCH

+_LATCH

MEASURINGFIELD

PROMDRIVER

MUX

LOGIC

ADDRESSLATCH

+ LOGIK

LOGICDECODERADDRESS

LATCH

OUTPUTS

ERRORLED

AFFICHAGEERREUR

V2

MUX

OPK

X28

OPK

OPK

TESTBILO_SEL

MFIELD_SEL

MESSPULS_SEL

V_INTERRUPT

ADR_L

ADR_N

Test paternS1 S4

S4 S8

D112

MICROCONTROLLER

SAB_BOC535

BLOCK DIAGRAM CONTROL D112

C15

A24A23

C19

C18

A32

C26

C25

C24

C23

C22

B7

B8

B9

A25

A20

A8

A7

A6

A5

A3

A1

C9

C10

C14

C13

A29X18

+5V

A2

A4

X4KREIS_RECNT

MVV_A1

MVV_A0

MIW_A1

MIW_A0

TEST LIGHT

PELTIER OFF

BAND_ON

GAM_OFF

VV_OFF

TEST

TA_1

TA_0

SA_2

SA_1

SA_0

MVV_PULSE

MIW_PULSEDMESS

M6

M5

M4

M3

M2

M1

M0

H_PULSE

KT_PULSE

V2

V1

SYNC

C_BLK

MVV

MIW

SPVV

SP_FUHLER

TEMPERATUR

ST0

ST1

ST2

ST3

ST4

ST5

D0

D1

D2

D3

D4

D5

D6

D7

J3_IN

J3_OUT

RESET

DOWNLOAD

C_BLK

C_SYNC

D111

X1D111

X4

D110D111

A31

A26

C21

B10

B11

B12

A17

A18

A19

A20

A21

A22

A9

A10

A11

A12

A13

A14

A15

A16

C28

A27

C27

B6

A31

A30

C_BLK

miscD110

miscD111

on/off D110

led

peltier on/off

on/off

Test miscalim. D110

D110Test D110

D110

D111

D11

D110

D110D111

AVRCONTROL D111

S3C bus

Surveillance

communicationavec HOST

Finition

control

dominante

bande alimentation


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


V1

J2

21 J1

V4 V5

7X2KAN1

1X1KT

12

(CHANNEL1)

V7

J2

21

J3

V10 V11

6X2KAIN21

2

(CANNEL2)

V13

J52

1 J4

V16 V17

5X2KAN31

2

(CHANNEL3)

X15

X16

X14

LEVEL-,SHIFT,

BLANKING

GT-PULSE

BLANKINGLEVEL

CONTROL

L1

TP

J9750HM

2X1KT_DX

X310

2

TEMPERATURE

X2

1 KKB_SIGNALX3

X79

1C_BLKX2

5

4

3 ST2

X1

ST1

ST3

D114

BLOCK DIAGRAM CAMERA HEAD 2 D114

"BA"D110

D112

5 MHZ DE RESOLUTION


REV 3 100TPH SM 2352376-


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


X11D11.X2.3

2D11.X2.3X41

4

5 X50

6D11.X2.1

7D11.X2.2X48

8D11.X2.6

9D11.X2.7

3D11.X2.5

B1

D121

X43

A4

A3

B4

D121

X2

X3+24V

+24V

0V

X6

0V

H21

X2

X47

X42R22

R34

H21

H21

H21

H21

H21

H21

H21

D121

D121

D121

H21

H21

H21

H21

H21

H21

MONITORING

0V

R8

X44

X46

CONTROLLER

CONTROLLER

6.2V ±0.3V

R10

X45

D120

ZOOM

anode 1

Tension anode

X36

X37

H7 Tension

27V

24VVOLTAGE

REGULATOR

A1

A1

B1

B3

B4

B7

B6

B3

A6

A2

A3

A4

A5

A7

B2

B5

A2

B2

Tension C3 control

ref.anode

BLOCK DIAGRAN CONTROL UNIT D120

feed back C3

erreurrelai


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


X29

X28R9

X72 X44 X20X2

D120

R1847K

X73

R10220R

X45

X46

X75 X47

X76 X48

X77 X49

X78 X50

X79 X51

X80

X81

X82

X83

M21 X4

X32X5

X31

X30X6

X52

RBW_17/23_E1

RBW_17/23_E2

X60 X61

3K34

X66 X67

3K24

R13 R3

X62 X63

5K36

R12

X68 X69

5K26

R2

X74

X40 X41

R4

X42 X43

R14

X23 D120

X26 D120

X27 D120

X21 D120

X22 D120

X24 D120

X25 D120X38X37X36

K1 K2 K3

B1

B4

B3

A1

A2

B2

A3

A4

R5

1145K1

12K1

78

6.2V

CM

cmd 200m

BLOCK DIAGRAM CONTROL UNIT D121

D121

1

1

1

680V


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D11.X2.5 3

D11.X2.4 2

D11.X2.3 1

D11.X2.7 11

D11.X2.6 10

D11.X2.4 7D11.X2.1 6

8

9

UCONST

US6002US9001

+15V4-5V3

524V6

38

972510

16

24V

38

972510

16

24V

4 4

M61.CON1M61.CON2M61.CON1

E2U

E1

+15V-5V

U A

E2E3

E1U E3

U G7

P

K

A

RBV-HDR

NS-MODULUE1=600VUE2=900V

HS-MODULUA=30KVUE3=2.......15KVUGETTER=2.8KV

Supply voltage controllerMonitoring reference value generator

BLOCK CIRCUIT DIAGRAM OF MINI POWER SUPPLY RBV (FA. ROEDERSTEIN)

M61.CON3

U


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13

B2B1 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12

6

1

10

5

279

4

3 3

8 8

5342

1

6

COM3

CON2CON1

8

76

10

11

2

1

5

4

3

REL10

REL9

REL8

REL7

REL6

REL5

REL4

REL3

REL2

-

-

REL1REL+

REL-MP

MPD9

MP-5V

MP+15V

COM

MP

24V

REL2

REL3

REL4

REL5

REL6

REL7

REL8

REL9

REL10

MPUS30

MP(US15)

S15

MP(US900)

9

MP(US600)

6

MP UI15

MP UI30

REL1

1012

MPSLCON1

9

E2

E1

MPUE2

MPUE1

GND

8

1

2

3

4

5

6

7

8

-

-

COM2

1

2

3

4

5

6

7

8COM3

UG

A

E3

P13P12P11P10P9P8P7P6P5P4P3P2P1 B1

B4B5

B12

REL5

REL6

REL7

REL8

REL9

REL10

REL1

REL2REL3

REL4

CON1CON2

CON3

MP

UE2

MP

UE1

24V

US900

US600+15V-5V

+15V

-5V

MP MPTP2 TP1

K

E1E2E1 P

A

RBV-HDR

30KV

2......15KV

0......900V

0......600V

MP

7


REV 3 SM 2352376-100TPH


LIST OF SOFTWARE FILES

1. Configuration Backup Files S9120762.p00 S9120762.p01

explaination: S ------- = Siremobil 9 ------- = 9 Pouces / 7 Pouces 20762 = Serial Number P00 ---= Old Configuration P01 --- = New Configuration

2. Service Software Cuckoo.exe 3. Service Software Configuration File : S9120762.cfg 4. Help File : Sireserv.hlp 5. Download Files : Gen_va6.hex Hostvb8.hex M2e_va1.hex M2h_va7a.hex M2m_va7a.hex M2p_va7b.hex M2s_va7b.hex Pun_va0.hex S3c_va0.hex Ssi_vb2.hex




REV 3 SM 2352376-100TPH


6. Errors Backup File : S9120762.err 7. Log Backup File : Service Operation S9120762.log 8. Mon Backup File : Not used in service mode S9120762.mon 9. Backup Fluoro Time S9120762.par 10. Init disk : Update software Initdisk.exe 11. Errors List Errlist.txt




REV 3 SM 2352376-100TPH


Part A - How to read product configuration documents.

System reference number Date of change

Page release

system

New system ref number

A.1 - Example of traceability sheet of documents or

schematics

Documents presented are

examples and are not related to

present product




REV 3 SM 2352376-100TPH


B4 AP1/24V B28

F6 AP2/24V Z28

Z4 AP3/24V B30

Z6 AP4/24V Z30

AP1

AP2

Z32

Z26

D12

D14

B14

B24

D10

18 51AP2

B22 19 52AP3

B20 20 53AP4

Z14

Z16

N1K

1

50

AP3

AP4

B26AP1

Z24AP2

Z22AP3

Z20AP4

B14 +24V+24V

(X1515-4)

B8/D8N11K2D37.B30(26/5)

24V B18

Z18505152

AP2

AP1

(X1641-19)H1

N11

K2

OUTREG

J4

D300(X1454-300)

Z8

D50(X1454-50)

D8

V115AP1 +24V

Z6 V212AP2

D8

V36AP3

D2

V43AP4

N11

K3

ZB/ZK(16/3)

B6

Z6

B8

Z8

Z24 +24V

Z22 +15V

B22 0VS

(X1575-63)

D90(X1454-900)

D63

D24(X1454-24)

B20

B10

B12

B14

(20/1)

0VL

(X1627-1)

AP1

AP2

AP3

AP4

Z10

B10

B8

Z8

D32

.D6

D32

.Z4

D32

.B4

D32

.D4

(X1630-1)(X1638)

D23(X1503-6)

(20/4)

MIK

RO

PR

OZE

SS

OR

-BU

S

X1641-14-4

ARBEITSPLATZ-ANWAHLEXAMINATION UNIT SELECTIONSELECTION POSTE DE TRAVAIL

321

going to page 20line 1

ref:product

going to page 63of product X1575

going to page 16line 3

to page 4 ofproduct X1515

line 1,2,3

boardnumber

A.2 - Example ; how to read an interconnection drawing




REV 3 SM 2352376-100TPH


Remarks

Please also refer to the remarks of X1515, sheet 1 Sheet/Current path *1 19 / 2 With Polydoros 50/80, V 1/2 and U 1/2 must be connected in parallel. *5 21 / 4 When connecting the kV reducer, jumper K8.A9-B9 must be removed. *6 22A / 4 Upon lontomat D retrofitting, remove jumpers K8.Al-Bl up to K8.A7-B7. *7 23 / 3 Remove jumper K8.AlO-Bl 0 on G6. 27 / 6-7 Remove j u m per K&A 11 -B 11 on G 1. *8 18A / 3 With Polydoros 50/80, set switch S 1 to 1 WR. *9 16 / 7 With 60 Hz power 11 one frequency, fit jumpers accordingly. 17 1 * 10 20 5 With fluoroscopy, fit jumpers with 19 7 * 11 19 4,7 With Polydoros 50/80, remove jumper ssl on D43. h Rapid tubes, fit jumper G-H. *27 20 / -- D 58 / Retrofitting with SI D. *28 23 / 7 With high-contrast f 1 fluoroscopy or D PF, remove j u m per D360.Z8D360.Z26. *29 1 Z / -- Programming X8 (D360), see list of jumpers. *30 23A When connecting the oil switches, remove jumper D360.B32 (+ 24 V). *31 POLYTRON, fit jumper K8.Al9 -K8.Bl9. With DSA with DIGITRON, fit jumper K8.Al~

REMARKS - 1 Xl641 -1 E- 5(e) -1

Document annotation

A.3 - Example of documents annotations




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


A.4 - Example of compatibility sheet between sub-systems and

parts

“X”: New part delivery (compatible)

Product name

“O”: new part compatible with the previous release

“O” Compatible with the previous release

Black “O” means not compatible

“X”: compatible

Board and ref.

Product release


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Part B - Connectors layout and pins

B

F

L

R

V

Z

DD

D

J

N

T

X

BB

FF

LL

A

E

K

P

U

Y

C

H

M

S

W

AA

EE

KKJJ

NN MM

HH

CC

14

15

16

17

18

19

20

1

2

3

4

5

6

7

8

9

10

11

12

13

C

F

K

N

R

A

D

H

L

P

B

E

J

M

02

04

06

08

10

1214

16

18

20

22

24

2628

30

32

ZB

02

04

06

08

10

1214

16

18

20

22

24

2628

30

32

ZBD

02

04

06

08

10

1214

16

18

20

22

24

2628

30

32

ZBDF

02

04

06

08

10

1214

16

ZBD

20

22

24

26

2830

32

32

31

30

29

C1B1A1

4

32

1

32 PINS 48 PINS 64 PINS 31 PINS 96 PINS

6 7 8 9 10

1 2 3 4 5

SOCKET HOUSINGFONT VIEWPIN VIEN

PIN HOUSING34 PINS 20 PINS 14 PINS

10 PINS

02

04

06

08

10

1214

16

18

20

2224

26

28

30

32

ZBD

02

04

06

08

10

1214

16

1820

2224

26

28

30

32

DDBBZZ

02

04

06

08

10

12

14

16

1820

2224

26

28

30

32

D

123456789

101112131415161718192021222324

A A B B B A


REV 3 SM 2352376-100TPH


WHEELED FRAME : FRONT VIEW

6 9 10 7

4 5 3 12 11 8 2 1

POINT OEM Part # Part Description 1 9797408 FRONT RUBBER BUFFER 2 7049638 FRONT WHEEL 3 9795709 WHEEL HOLDER 4 9797416 LATERAL RUBBER BUFFER 5 7049646 LATERAL WHEEL 6 3428810 RIGHT CHAIN 7 3428828 LEFT CHAIN 8 3136582 FRONT CAP 9 9797887 LEFT SIDE STRIP 10 9797895 LEFT ARM STRIP 11 9797903 RIGHT SIDE STRIP 12 9797911 RIGHT ARM STRIP




REV 3 SM 2352376-100TPH


WHEELED FRAME : REAR VIEW

2

3

1 4

5 7

8

POINT OEM Part # Part Description 1 3428836 REAR CHAIN 2 9795790 RIGHT LEVER 3 9795782 LEFT LEVER 4 3136525 REAR RUBBER BUFFER 5 7251390 SMALL TRACTION SPRING 6 9795741 REAR STOP 7 8158503 SLIDING PART 8 8158461 BOLT 8 7018617 BUSH 8 3361573 RETAINING RING 8 3370616 GAUGE DISK 4 3136541 ANGLE 9 8159022 LEVER

10 8158412 GUIDE

6

10 9




REV 3 SM 2352376-100TPH


WHEELED FRAME : BRAKE VIEW

3 1 4 2

POINT OEM Part # Part Description 1 8158958 BRAKE BRACKET 2 8158941 BRAKE PISTON 3 8158636 BRAKE RUBBER 2 3428802 COMPRESSION SPRING 4 4323135 BRAKE TRACTION SPRING Other parts not visible on photos 8158602 LAT WHEEL SCREW 8158610 LAT WHEEL SCREW 8158628 LAT WHEEL NUT 8166704 RC ELEMENT 8158594 MAIN TRACTION SPRING 1761030 ROPE PULLEY 9796822 MAIN SPINDLE 8158586 ROPE PULLEY 9796848 BRAKE DISK 4685186 BRAKE MAGNETIC 9797382 ROPE,CPL. 8158487 REAR BOLT 3136533 MAGNETIC HOLDER




REV 3 SM 2352376-100TPH


STAND : D13-D19 VIEW

POINT OEM Part # Part Description

1 9728106 BOARD D13 2 3173929 CONVERTER;AC-DC D14 3 1761030 ROPE PULLEY 4 3519436 BALL BEARING 5 9795899 TUBE (MOVEMENT) 6 1102743 BOARD D19

3

1

6

2

5

4




REV 3 SM 2352376-100TPH


STAND COVERS


1190912 FOOT SWITCH COMPLETE 2 9797515 COVER, RIGHT 3 9797507 COVER, LEFT 4 9797861 COVER REAR 5 9797879 COVER LATERAL STRIP 6 9797853 COVER REAR STRIP 7 9798422 SUPPORT CPL.

2

4

5

3

7

6




REV 3 SM 2352376-100TPH


CONSOLE


1 9796574 HAND SWITCH 2 9728668 CABLE, CPL. HANDSWITCH 1 1012699 MICROSWITCH (HANDSWITCH) 3 9797713 GRIP (MAIN HANDLES) 4 9796699 HOLDER (FOR HANDSWITCH) 5 9796004 CONTROL PANEL 6 9798315 GASKET 7 9795881 LEVER COMPLETE

No 4663415 PLUG

3 1 2 4 7 5 6




REV 3 SM 2352376-100TPH


T2 & Fuses


1 9751892 SMALL TRANSFORMER T2 2 7724339 FUSE 0.315A 250V SB 2 3010097 FUSE 0.5A 250V SB 2 1077411 FUSE 1A 250V SB 2 1080530 FUSE 1.25AT, 5X20MM 2 4657649 FUSE 3.15A 250V SB

1 2 2




REV 3 SM 2352376-100TPH


Buttons

5


1 9795477 SWITCH, CPL. S35 No 9795485 SWITCH, CPL. S36 (for 2 button box) 2 8158909 COVER, CPL. 3 9797580 GRIP (HANDLE) 1 1189542 RIBBON CABLE S35/D12 (under cover) 5 9796798 TUBE 5 9796780 TUBE 5 9796962 PLATELET 5 9796954 PLATELET 6 9798430 POINTER 7 3136509 SWITCH S34 (for 3 buttons box) 8 3136517 SWITCH S36 (for 3 buttons box) 9 1190466 BOARD D12A (under cover)

8 1 7 9 2 6 3




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


T1 & Fuses


1 9750480 TRANSFORMER T1 2 3147899 FUSE 10A 250V SB 3 1077411 FUSE 1A 250V SB 3 1077437 FUSE 2.5A 250V SB 3 1077445 FUSE 4A 250A SB 3 3055910 FUSE 5A 250V MSB 4 9798687 U-PLATE

1 4 2 3


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


D10A, D11 & D15 boards


1 9728049 BOARD D10A 2 9728064 BOARD D11 3 1190672 BOARD D15

2 3 1


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Vertical Travel Parts

OEM Part # Part Description (no photo) 9728718 BOARD D12 1878388 SPRING 9797580 GRIP 3368891 BALL BEARING 1012699 MICROSWITCH 7388358 INSULATING LAYER 4998670 PLATE 1417815 TRACTION SPRING 8166704 RC ELEMENT 1403229 BALL BEARING 8158750 HOLDER 9798521 BRAKE 9796731 COVER 7050602 CHAIN 7048358 CHAIN 8158867 BRAKE BRACKET CPL 7053093 ROLLER 4684908 MOTOR (with POS 108) 3136558 CAM DISK (with POS 107) 9795972 RAIL TYPE A 3136764 RAIL TYPE B


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


C-Arm


1 1403211 BALL BEARING 1 3534542 RETAINING RING 2 1012699 MICROSWITCH 2 4998670 PLATE 2 7388358 INSULATING LAYER 3 8166704 RC ELEMENT 4 9728502 RIBBON CABLE COMPLETE 9795253 STOP (End of the C-Arm) 8082901 TRACTION SPRING 9795261 STOP (End of the C-Arm) 5 7059132 Roller 15 X 60 X 18 (big ones) 6 7051857 ROLLER (small ones) 7 4684890 MOTOR (with POS 143) 7 3432770 COMPRESSION SPRING 8 9795196 BRAKE BLOCK COMPLETE 9796178 ROPE, COMPLETE. 8158164 THREADED BOLTS 8158214 BOLT 2 9795170 CAM

2

4

1

3

5

6 7

8


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


C-Arm Covers


1 9798778 COVER 2 4125043 Cover screw M4 x 12 3 9797986 SCALE

2

1

3


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


C-Arm Bracket


1 4661526 MOTOR 2 3519436 BALL BEARING 3 9795279 BRAKE BRACKET 4 9795287 BRAKE BRACKET 5 4661625 MICRO SWITCH 6 8158172 ECCENTRIC BOLT 9798224 COVER 9798281 CONTACT

3

6

2 1

4

5


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Panel & Control Boards


1 1190847 CONVERSION KIT D2 1 1190805 SLOT CPU D2 2 9728155 BOARD D3 3 4663563 BOARD D4 4 9728023 BOARD D5 1190284 BOARD D6 5 1190276 BACKPLANE D1 6 1190003 FAN COMPLETE 1102677 BOARD D17 8730459 FRONT ADAPTER BD. D17 1102800 BOARD D18

2

1

5

6

3

4


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Generator


1 1189989 BOARD D200 2 1677751 BOARD D201 3 1677777 BOARD D202 4 9747015 BOARD D203 5 1189963 BOARD D204 6 1677884 CHOKE 6A 7 3179520 LINE FILTER 250V 6A

4 2 3 6 1 7 5


REV 3 SM 2352376-100TPH


Tube & Collimator


1 1173355 SIREPHOS 2000-1,3 COMPLETE 8610784 COVER (not shown) 8346645 PANELLING SCREW (for the cover) 3847758 UPGRADE KIT FOR BOARD 2 3171246 NTC RESISTOR 3 1955111 DIAPHRAGM COMPLETE 4 9728874 BOARD D40 5 1956036 MOTOR, COMPLETE. AM41-44 6 9728858 BOARD D41-44

5 2 4 3 1 6




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Image Intensifier Assembly


1 1123459 X-RAY IMAGE INTENSIFIER 9” 2833189 ADAPTION CANNON PLUG V45590-A177-A17

2 2833130 CONV.KIT POWER SUPPLY 9" 1123467 X-RAY IMAGE INTENSIFIER 7” 2833189 ADAPTION CANNON PLUG V45590-A177-A17 1122758 HOUSING COMPLETE 7” 1122766 ANGLE COMPLETE 7” 1122683 SPRING 1122659 ROD 3428968 COMPRESSION SPRING 8807000 DIAPHRAGM COMPLETE 1956036 MOTOR COMPLETE (DIAPHRAGM) 9728916 BOARD (DIAPHRAGM) 1004050 MICROSWITCH 230V (DIAPHRAGM) 1012715 SPRING LEVER (DIAPHRAGM) 3 4933727 GRID 9" 2 1654578 POWER SUPPLY HV30 4 9804394 II-TUBE OPTILUX 23D-C 9" 5 2833379 ADAPTER 9” 4661799 INCREM. WASHER FOR HEDS9100 (DIAPH.) 2833221 KONV.KIT POWER SUPPLY 7" 4933735 GRID 7" 8834467 I.I TUBE OPTILUX 17 D-C #SM2000 7" 3 2 5 4 1


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Camera


2844681 VIDEOMED D # SM2000/60HZ Assembly 3014052 VIDEOMED D 60HZ Assembly 1 9728890 BOARD D30 2 9728916 BOARD D31 3 8714610 BOARD D110 4 8714636 BOARD D111 5 8714651 BOARD D112 6 8807216 MOTOR ASSEMBLY AM31 7 1122840 LEVER (behind) 7 1122873 SPRING (behind) 8 4662888 FAN 2844798 CAMERA S2000-60HZ

3 5 2 4 8 1 7 6


REV 3 SM 2352376-100TPH


Single TV Trolley

OEM Part # Part Description (no photo) OEM Part # Part Description (no photo) 7053531 ROLLER 1039650 FUSE ELEMENT 7049919 ROLLER 3419629 TERMINAL BLOCK 3010134 CABLE DEFLECTOR 1189872 CABLE 1116206 PLATE, RIGHT 4663407 CABLE BOX HOUSING 1116180 PLATE, LEFT 1114623 LEVER 4661062 LAMP HOUSING 1114573 HOUSING LEFT 4661054 LAMP 1114631 HOUSING RIGHT 1116248 BRACKET 3010167 CONTACT SET 1116818 GRIP 4663464 BUSH 4660205 PUSH BUTTON 4663472 BUSH 7176969 RUBBER 4673042 BUSH 1189948 BOARD 9728635 CABLE 1189922 BOARD 7549009 PLUG 9750449 TRANSFORMER 1102727 INSTALLATION SET 3164621 LINE FILTER 1116776 COVER 3030764 FUSE HOLDER 4844742 PANELLING SCREW M4X5 3128162 BAYONET CAP 7055395 COVER CAP 7732597 FUSE 1190144 POWER CABLE U110/120V E 3009552 FUSE 3,2AT 250V 1190151 POWER CABLE U208/240V E




REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Dual TV Trolley


1 7053531 ROLLER 2 7049919 ROLLER 3 3010134 CABLE DEFLECTOR 4 1116263 GRIP, CPL. 5 1116131 COVER 6 4660205 Push Button Switch 7 1116388 GASKET 9757642 HOLDER F. POWER CABLE (at the rear) 4661047 PLUG (inside) 8 4661062 LAMP HOUSING 8 4661054 LAMP 8 1116248 BRACKET 7049794 RAIL (inside) 9 1102669 KEYBOARD 9748146 FRONT PANEL

10 1102727 INSTALLATION SET 11 1116313 COVER F.MONITOR CARR. # SM 2000 12 7055395 COVER CAP

1116222 HEXAGON ROD (at the rear) 1116206 PLATE, RIGHT (at the rear) 1116180 PLATE, LEFT (at the rear) 7176969 RUBBER

8

2

7

1 5

6

3 4

9 10

11

12


REV 3 SM 2352376-100TPH


Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


Memoskop


1 9754557 BOARD D1 9754573 BOARD D2 for Memoskop 50/100 1105647 BOARD D21 for Memoskop 3/3E 2 1102768 BOARD D22 for Memoskop SUB 2 1102784 BOARD D23 for Memoskop SUB 3 9754599 BOARD D3F for Memoskop 50/100 4 3173929 CONVERTER AC-DC D4 1 9754615 BOARD D5 5 3030764 FUSE HOLDER 5 3128162 BAYONET CAP 5 1040930 FUSE 0.1A 250V SB 6 2835507 HARD DISK (no HDD on Memoskop 3/3E) 7 8714123 RING CORE (TRANSFORMER) 8 4663092 FAN 9 3121154 MAINS CABLE 2844004 BOARD D11 2844582 BOARD D6 1102669 KEYBOARD 2844020 BOARD D12 7035025 RUBBER BUFFER 1190383 CABLE 1190375 CABLE 1677868 BOARD 3163003 INTEGRATED CIRCUIT J735/736 1677652 PROM J327

2 7 1

5 4 3 8 9 6


REV 3 SM 2352376-100TPH


Accessories

Part Description (no photo) OEM Part #

9796202 CASSETTE HOLDER 17 CM #SM 20

3014003 ASSEMBLY GROUP

2171767 GROUNDING CABLE, 5M

2171833 CENTERING SYSTEM

2171858 BOLT

9798216 STERILE HANDLE#SM 2000

8611030 DHHS-SPACER # SM




REV 3 SM 2352376-100TPH


Multi Room Parts

OEM Part # Part Description (no photo) 1102669 KEYBOARD 2844020 BOARD D12 7035025 RUBBER BUFFER 3097206 BOARD D1-D4 2844004 BOARD D11 4669883 EMERGENCY SHUTDOWN RELAY 3041837 FUSE 6,25AT/SB 3177292 PTC RESISTOR 3420668 FUSE TERMINAL 4682639 PLUG SOCKET 220V 16A 1633721 RIBBON CABLE 1190524 CABLE 1190532 CABLE for System #1 1190540 CABLE for System #2 4663407 CABLE BOX HOUSING 1114623 LEVER 1114573 HOUSING LEFT 1114631 HOUSING RIGHT 3010167 CONTACT SET 3097396 WALL SOCKET # SM 2000 CPL




REV 3 SM 2352376-100TPH


ATTENTION

LES APPAREILS A RAYONS X SONT DANGEREUX A LA FOIS POUR LE PATIENT ET POUR LE MANIPULATEUR SI LES MESURES DE PROTECTION NE SONT PAS STRICTEMENT APPLIQUEES

ur

WARNING

X-RAY EQUIPMENT IS DANGEROUS TO BOTH PATIENT AND OPERATOR UNLESS MEASURES OF PROTECTION ARE STRICTLY OBSERVED

Though this equipment is built to the highest standards of electrical and mechanical safety, the useful X-RAY beam becomes a source of danger in the hands of the

ent or exposing themselves or others to its

d and authorized to operate this equipment should be familiar with the Recommendations of the International Commission on

Bien que cet appareil soit construit selon les normes de sécurité les plus sévères, la source de rayonnement X représente un danger l’orsque le manipulateur est non qualifié ou non averti. Une exposition excessive au rayonnement X entraine des dommages à l’organisme. Par consequent, toutes les précautions doivent etre prises pour éviter que les personnes non autorisées ou non qualifiées utilisent cet appareil créant ainsi un danger poles autres et pour elle meme. Avant chaque manipulation, les personnes qualifiées et autorisée à se servir de cet appareil doivent se renseigner sur les mesures de protection établies par la Commission Internationale de la protection Radiologique. Annales 26 : Recommandations de la commission Internationale sur la Protection Radiologique et les normes nationales en vigueur

unauthorized or unqualified operator. Excessive exposure to X-Radiation causes damage to human tissue. Therefore, adequate precautions must be taken to prevent unauthorized or unqualified persons from operating this equipmradiation. Before operation, persons qualifieRadiological Protection, contained in Annals Number 26 of the ICRP, and with applicable national standards.




REV 3 SM 2352376-100TPH


ARATOS DE RAYOS X SON PELIGROSOS PARA EL PACIENTE Y EL MANIPULADOR CUANDO LAS NORMAS DE PROTECCION NO ESTAN OBSERVADAS

pelig al ser manipulado por personas no autorizadas o

etentes o no autorizadas utilicen este aparato, lo que seria un peligro para los demas y para si mismas.

s por la normas

RONTGENAPPARATE SIND EINE GEFAHR FUR PATIENTEN SOWIE BEDIENUNGSPERSONAL, WENN

ierter personen schlichen organismus schadlich.

Deswegen sind hinreichende vorsichtsmassnahmen erforderlich, um zu verhindern, dassunbefugte oder unqualifizierte personen solche gerate bedienen oder sich selbst

tz durch r Internationalen Kommission fur Strahlenschutz ICRP vertraut maren : Empfehlungen der Internationalen Kommission fur

Strahlenschutz und anderer nationaler Normenbehorden.

ATENCION

LOS AP

Aunque este aparato esta construido segun las normas de seguridad mas estrictas, la radiation X constitye un roincompetentes. Una exposicion excesiva a la radiacio X puede causar danos al organismo.

or consiguiente, se deberan tomar todas las precauciones necesarias para evitar que las personas incompP

Antes de efectuar las manipulaciones, las personas habilitadas y competentes en el uso de este aparato, deberan informarse sobre las normas de proteccion fijadaComision International de la Proteccion Radiologica, anales Numero 26 : recomendaciones de la Comision Internacional sobre la Proteccion Radiologica ynacionales. ACHTUNG

DIE GELTENDEN SICHERHEITSVORKEHRUNGEN NICHT GENAU BEACHTET WERDEN Dieser apparat entspricht in seiner bauweise strengsten elektrischen und mechanischen sichereitsnormen, doch in den hangen unbefugter oder unqualifizwird er zu einer gefahrenquelle. Ubermassige rontgenbestrahlung ist fur den men

und andere personen bestrahlung aussetzen konnen. Vor inbetriebnahme dieses apparats sollte sich das qualifizierte und befugte bedienungspersonal mit den geltenden kriterien fur den Gefahrlosen Strahleneinsasorgfaltiges Studium des Hefts numer 26 de




REV 3 SM 2352376-100TPH


Direction 2352376-100

R SIREM L 2

IMPORTANT! … X – RAY TECTION X-RAY equipment if not properly used may cause injury. Accordingly, the instructions herein contained should be thoroughly read and understood before you attempt to place this equipment in operation. The General Electric Compagny, Medical Systems Group, will be glad to assist and cooperate in placing this equipm

. no practical design of equipmcomplete protection. Nor can any practical design compel the ope of any persons careleunwisely, or unknowingly exposing themselves or others to radiation. It is impo at ev n d fully acquainted with the recommendatio NaCouncil o ation CRReports available from , 7910 Woodmont Avenue, ioRadiation Protection, and take adequate steps to insure protection against injury. All pe e of the ve exposure to X – radiation and the equipment ithunderstanding that th ems Group, its agents, and representatives have no responsibility for in mmay result from expo

s sed.

evision 2

OBI 000

PRO

ent in use.

Although this apparetus incorporates a high degree of protection against X – radiation other than the useful beam ent can provide ssly, rator to take adequate precautions to prevent the possibility

rtant thn Radi

eryone having anything to do with X – radiatio Protection and measurement as published in N

be properly trained anP.

ns of the tional

n on NCRP Publications Room 1016, Bethesda, Maryland 20814 and of the International Commiss

rsons authoriz d to use the equipment must be cognizant e General Electric Company, Medical Syst

danger of excessi is sold w the age which jury or da

sure to X – radiation.

Various protective material and devices are available. It is urged that uch materials or devices u




REV 3 SM 2352376-100TPH


List of Risk Assessments for X-ray Preventative Maintenance

Location/Site GE M tems – MVSDI Europe edical Sys Sheet Number 1 of 1 Assessment Reference

Activity/Hazard Hazards (defined in MV de 2353379-200) PM Gui

Completed Persons affected

MVXR1 Equipment related hduring routine maintenEquipment covered includes;

azaran

RAD & RF Rooms: Vascular: Mobile Units

e - Loose - equipment ub-assem

ce

of excessive localised heat. - Bumper Assemblies, anti- fa

s. orking on

s

Users.

ds likely to be encountered ce procedures.

- Frayed or damaged counterw

mounting bolts

ight cables

s blies falling.

05 Feb 04 Reviewed 05 Feb 04

GE Medical Systems Field Engineerw

- Ac

ssories

- Tube Protection - possibility

collision devices - ilure of safety devices. Patients and Visitors.

MVSDI equipmentEquipment

MVXR2 Ionising Radiation relate

Equipment covered includes; RAD & RF Rooms: Vasc

- Functional Checks - Parameter Checks:

- timer Checks

- Fluor stem checks

Reviewed 05 Feb 04

Systems Field Engineers.

Users.

d hazards likely to be encountered during routine maintenance procedures.

ular: Mobile Units - KVP , mA/mAS , Timer Collimation & Photo-

- Indicator Lamps and Interlock Checks oscopy sy

- Timer, KVP, mA

05 Feb 04 GE Medical

working on MVSDI Equipments Equipment

MVXR3 Electrical related hazards likely to be encountered during routine maintenance procedures. Equipment covered includes; RAD & RF Rooms: Vascular: Mobile Units

- Earth Continuity Checks - System checks including invasive parameter monitoring (i.e. voltage checks)


GE Medical Systems Field Engineers working on MVSDI Equipments

MVXR4 & R4-1 Hazards likelymaintenance proced with or near Mobile X-Ray Unit BaEquipment limited to

- Leaking Ba- Damaged Batteries - High Voltag- Handling h vy batteries during swap-out or repla

dical Field s.

rking on VSDI

Equipments

to be encountered during routine ures when working ttery Packs Mobile Units

tteries

e DC ea cement programs. wo

05 Feb 04 GE MeReviewed Systems 05 Feb 04 Engineer

M

MVXR5 Chemical related haz be encountered during routine maintenance Equipment covered includes;

- Clean and l


GE Medical Systems Field Engineers .working on MVSDI Equipments

ards likely to procedures.

RAD & RF Rooms: Vascular: Mobile Units

ubricate systems




REV 3 SM 2352376-100TPH


Risk Assessment MVXR1 : X-Ray Equipment Related Hazards

Location/Site GE Medical Systems – MVSDI Europe Activity/Hazard X-Ray Equipment Related Hazards Risk Assessment Reference Number MVXR1 Sheet Number 1 of 1

Work Activity

Hazards (defined in MV PM Guide 2353379-200)

Personnel Affected

Risk Level

Control Measures

Equipment related hazards likely to be encountered during routine maintenance procedures.

equipment sub-

ube Protection - possibility of

Bumper Assemblies, anti-collision devices - failure of safety devices.

As above, but including: Patients and Visitors

2

4

2

2

Ensure all securing bolts and fastenings remain correctly tensioned so as to avoid the likelihood of falling objects. Check all accessories remain secure. When removing items (e.g. footplates) ensure correctly stowed so as to avoid trip hazards. Equipment thermal devices checked during routine maintenance to ensure correct operation. Safety devices checked during routine maintenance so as to prevent failure. Equipment Users should be encouraged to carry out pre-use checks, particularly before moving mobile units.

Equipment covered includes; RAD & RF Rooms Vascular Mobile Units

Frayed or damagedables

counterweight c Loose mounting bolts -

ssemblies falling. a Accessories Texcessive localised heat.

GE Medical Systems Field Engineers Equipment Users

4

Care to be taken when checking or handling cables, may have sharp (broken) strands. Utilise protective gloves where necessary. Damaged cables must be replaced.

Risk Level Calculation Risk Level Actiona) Severity of risk/injury; 4 = Fatal 1 to 5 Review the operation/activity and take any steps 3 = Major Injuries necessary to reduce and control the Risks identified 2 = Minor Injuries 6 to 8 Inform Management and seek further advice before 1 = No Injury Proceeding any further with operation/activity b) Likelihood of event 4 = Very Likely 9 and above HALT the activity immediately. Review and 3 = Likely Reduce the risks identified. 2 = Unlikely Control measures should be in the order of; 1 = Extremely Unlikely ELIMINATE; SUBSTITUTE; REDUCE; CONTROL c) Rating = a x b Risk Assessments should be completed by any person competent to assess the risks (ie Manager/EHS Champions/Team Leaders etc) The person(s) carrying out the tasks/work under assessment should be consulted and their input incorporated into the final assessment

Assessors Names Jean-Pierre Rochette Date of Assessment 05th February 2004 Review Dates 1st 05 02 04 2nd 3rd 4th




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Risk Assessment MVXR2 : X-Ray Ionising Radiation Hazards

Location/Site GE Medical Systems – MVSDI Europe Activity/Hazard X-Ray Ionising Radiation Hazards Risk Assessment Reference Number MVXR2 Sheet Number 1 of 1

Work Activity


Personnel Affected

Risk Level

Control Measures

Ionising Radiation related hazards likely to be encountered during routine maintenance procedures. Equipment covered includes; RAD & RF Rooms Vascular Mobile Units

Functional Checks Parameter Checks: KVP: mA/mAS: Timer Collimation & Photo-timer Checks) Indicator Lamps and Interlock Checks Fluoroscopy system checks Timer, KVP, mA

GE Medical Systems Field Engineers Equipment Users

4

All items detailed in Hazards column carry the risk of excessive and/or unauthorised exposure to ionising radiation. • In all cases the Local Rules within the Customer's

Department must be applied. • Warning signs must be displayed (Controlled Area Notice) • Dosimetry must be correctly worn at all times. • Apply time/distance/shielding principles and the inverse-

square law. • Close all collimators • Ensure equipment operation remains within specified

parameters. • Ensure any exposure remains ALARP • When operating mobile units, ensure a safe, secure and

controlled area is provided and safeguards detailed above are applied if remote from X-Ray department.


Assessors Names Jean-Pierre Rochette Date of Assessment 05th February 2004 Review Dates 1st 05 Feb 04 2nd 3rd 4th




REV 3 SM 2352376-100TPH


Risk Assessment MVXR3 : X-Ray Electrical Hazards Location/Site GE Medical Systems – MVSDI Europe Activity/Hazard X-Ray Electrical Hazards Risk Assessment Reference Number MVXR3 Sheet Number 1 of 1

Work Activity


Personnel Affected

Risk Level

Control Measures

Electrical related hazards likely to be encountered during routine maintenance procedures. Equipment covered includes; RAD & RF Rooms Vascular Mobile Units

Earth Continuity Checks System checks including invasive parameter monitoring (i.e. voltage checks)

GE Medical Systems Field Engineers

4

Earth continuity is provided for both a personal and system protection. Ensure values remain within laid-down limits and any defects are corrected. Apply good engineering practices when working near live equipment. Ensure protective devices are enabled and all tools, instrument probes and the like are fully insulated. Ensure Electrical Safety Refresher Training has been completed within the last 12 months. Footnote: Not included in this Assessment are Mobile X-Ray Units Battery hazards, these are the subject of a separate assessment.






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Risk Assessment MVXR4 : X-Ray Battery Hazards

Location/Site GE Medical Systems – MVSDI Europe Activity/Hazard X-Ray Battery Hazards Risk Assessment Reference Number MVXR4 Sheet Number 1 of 1

Work Activity


Personnel Affected

Risk Level

Control Measures

Hazards likely to be encountered during routine maintenance procedures when working with or near Mobile X-Ray Unit Battery Packs Equipment limited to Mobile Units

Leaking Batteries Damaged Batteries High Voltage DC Handling heavy batteries during swap-out or replacement programs.


4

Follow ALL Safety Precautions laid down in the relevant Service Manual. Ensure batteries remain secure with no obvious signs of leaking electrolyte or discharge. Leaking and damaged batteries must be replaced immediately. Check batteries for signs of overheating, replace if found. Ensure batteries remain correctly orientated and connected. Interconnecting leads must be secure and undamaged. When connecting or disconnecting ensure correct procedures as laid down in service manuals are observed at all times. Use insulated hand tools. When lifting or carrying batteries ensure correct Manual Handling techniques are applied. Manual Handling refresher training must be completed every 12 months. Utilise PPE in the following instances; Safety Glasses - when disconnecting or connecting Gloves - when handling, carrying or lifting, to protect digits from knocks, scrapes or crushing.






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Risk Assessment MVXR4-1 : X-Ray Battery Hazards - Leaking Units

Location/Site GE Medical Systems – MVSDI Europe Activity/Hazard X-Ray Battery Hazards - Leaking Units Risk Assessment Reference Number MVXR4 - 1 Sheet Number 1 of 1

Work Activity


Personnel Affected

Risk Level

Control Measures

Possibility of encountering Leaking Batteries during battery set changes Enhancement to MVXR4

Leaking Electrolyte Damaged Batteries


4

Refer to general procedures, precautions and control measures detailed in Risk Assessment MVXR4. Follow ALL Safety Precautions laid down in the relevant Service Manual. Ensure batteries remain secure with no obvious signs of leaking electrolyte or discharge. Leaking and damaged batteries must be replaced immediately. Care must be taken when lifting batteries out of plastic trays as leakage may not be apparent until removed from tray. Leaking batteries must be safely disposed of - i.e. wrapped in durable leak proof polythene for return through normal recycling routes. Affix warning labels that some electrolyte may have spilled within protective covering. When handling leaking batteries, utilise protective gloves and glasses to avoid electrolyte contact with skin and eyes. Ensure operations are conducted in a well-ventilated area.






REV 3 SM 2352376-100TPH


Risk Assessment MVXR5 : X-Ray Chemical Hazards

Location/Site GE Medical Systems – MVSDI Europe Activity/Hazard X-Ray Chemical Hazards Risk Assessment Reference Number MVXR5 Sheet Number 1 of 1

Work Activity


Personnel Affected

Risk Level

Control Measures

Chemical related hazards likely to be encountered during routine maintenance procedures. Equipment covered includes; RAD & RF Rooms Vascular Mobile Units

Clean and lubricate systems


2

Ensure only approved substances are utilised. Apply safety precautions as per instructions detailed on substance container. Utilise Barrier Creams and protective gloves (Latex free) Utilise any other PPE as detailed in substance safety precautions (i.e. Safety Glasses) Ensure any chemical spills are cleaned up in the correct manner and any material disposed as per the manufacturers safety instructions. Ensure any used containers are disposed of in the correct manner. Refer to the Material safety Data Sheet (MSDS) for specific advice and guidance.






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Component Locations

Error Codes

Functional Checks





Reference Materials

Notes


REVISION HISTORY REV DATE TYPE OF MODIFICATION AUTHOR FORMATED BY 0 2002-July-15 First release Régis Vilette R.Vilette 1 2003-Sept-18 Update of all the document Jacques Aupied E. de Schuttelaere 2 2004-Mar -02 Corrections + Parts list + Risk Ass Jacques Aupied E. de Schuttelaere 3 2006-May-29 Eurge29323, EURge43121 ;eDB link Philippe Bodelet P. Bodelet LIST OF EFFECTIVE PAGES

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