Page 1 Planmeca ProMax & Planmeca ProMax 3D / 3D s technical manual...
Page 3: Table Of Contents
TECHNICAL SPECIFICATIONS ..............A-3 USER’S STATEMENT.................. A-5 PROMAX 3D: CTDI VALUES ..............A-12 PROMAX 3D: STRAY RADIATION MEASUREMENTS ......A-15 X-ray units with 3D sensor ................A-16 X-ray units with 3D s sensor ..............A-17 HANDLING PRECAUTIONS FOR PCBs AND SOFTWARE CHIPS ... A-19 Handling printed circuit boards..............A-19...
Page 4 Power supply related errors (5xx) ............C-12 Communication errors (6xx)..............C-12 Calibration errors (7xx)................C-14 System conflicts (8xx) ................C-15 Infrastructure errors (9xx)................. C-17 Chapter D PREVENTIVE MAINTENANCE SYSTEM MAINTENANCE ................. D-1 Cleaning ..................... D-1 Operating checks ..................D-1 2 Planmeca ProMax Technical Manual...
Page 5 2.11 Adjustment of tomo mode patient positioning lights........E-48 2.12 Calibrating panoramic sensor head ............E-54 2.13 X-ray unit with fixed primary collimator - primary collimator adjustment ...E-55 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS........E-59 Adjustment procedure ................E-59 Checking the connection between PCs and X-ray unit ......E-61 Beam adjustment ..................E-62...
Page 6 Shoulder arm covers .................E-84 REPLACING THE SENSOR HEAD ............E-86 Attaching and removing the fixed sensor head .........E-86 Sensor head with quick connector mechanism.........E-90 PROMAX 3D: REPLACING THE SENSOR HEAD ........E-93 REPLACING PCBs .................. E-96 C-arm PCB....................E-96 REPLACING TUBE HEAD................. E-97 PROMAX 3D: REPLACING COLLIMATOR ..........
Page 7 Cephalostat with movable sensor head ........... H-57 Cephalostat with fixed sensor head - removing and attaching the sensor head ..................H-61 REMOVING THE HOUSINGS AND COVERS ......... H-64 Removing the housings of the head support..........H-64 REPLACING PCBS ................. H-67 Planmeca ProMax 5 Technical Manual...
Page 8 IEC 60364 - equipment is used according to the operating instructions Planmeca pursues a policy of continual product development. Although every effort is made to produce up-to-date product documentation this publication should not be re- garded as an infallible guide to current specifications. We reserve the right to make changes without prior notice.
Page 9: Chapter A General & Technical Data
CAUTION GENERAL SAFETY RULES The unit must be serviced only by qualified personnel, trained by PLANMECA. Repairs and parts replaced by unqualified personnel carry no warranty. Periodical maintenance as described in this manual must be performed on a regular basis, to ensure the safety and image quality of the unit.
Page 10: Manual Versions
Alternating current (Standard IEC 60417) Attention, consult accompanying documents (Standard IEC 60601-1) X-ray source assembly: emitting (Standard IEC 60417) Temple supports Electrostatic sensitive device (Standard IEC 60417) Separate collection for electrical and electronic equipment according to Directive 2002/96/EC (WEEE) A-2 Planmeca ProMax Technical Manual...
Page 11: Technical Specifications
Cephalometric 27 x 30 cm (11 x 12 in.) 3D image properties: 127 m Flat panel pixel size Flat panel active surface 3D: 13 x 13 cm (5.1 x 5.1 in.) 3D s: 8 x 13 cm (3.2 x 5.1 in.) Technical Manual Planmeca ProMax A-3...
Page 12 3D / 3D s X-ray unit: Operating +10°C to +30°C Storage ±0°C to +50°C Humidity 15% - 85% Original manufacturer PLANMECA Oy, Asentajankatu 6, FIN-00880 Helsinki, FINLAND phone: +358 20 7795 500, fax: +358 20 7795 555, www.planmeca.com A-4 Planmeca ProMax Technical Manual...
Page 13: User's Statement
= tube anode cooling rate as a function of heat storage (given by tube manufacturer) Maximum deviation of peak tube potential from indicated value ±5% Maximum deviation of tube current from indicated value ±10% Technical Manual Planmeca ProMax A-5...
Page 14 The nominal electric power for a load time of 4 s and at the nominal X-ray tube voltage 84 kV 16 mA - 1344 W The reference current time product 1.2 mAs Irradiation time 0.2 s, X-ray tube current 6mA, X-ray tube voltage: whole range A-6 Planmeca ProMax Technical Manual...
Page 15 Chapter A - GENERAL & TECHNICAL DATA Nominal anode input power of the X-ray tube 1344 W Maximum anode heat content of the X-ray tube 35 kJ Anode heating/cooling curve of the X-ray tube TIME (min.) Technical Manual Planmeca ProMax A-7...
Page 16 86.5° with respect to the anode-cathode axis (3D/3D s/pan/ceph) Target angle with respect to the reference axis 5° Filtration in terms of quality equivalent filtration of the X-ray tube Inherent filtration at least 0.8 Al/50 kV according to IEC 522/1976 A-8 Planmeca ProMax Technical Manual...
Page 17 Emission & filament characteristics of the X-ray tube FILAMENT CURRENT (A) Maximum X-ray tube assembly heat content 400 kJ X-ray tube assembly heating/cooling curve Heating curve Cooling curve Maximum continuous heat dissipation of the X-ray tube assembly 6 kJ/min. Technical Manual Planmeca ProMax A-9...
Page 18 11.2 kg with collimator assembly Values of loading factors concerning leakage radiation 84 kV, 16 mA Tolerances of the focal spot on the reference axis X= ±0.5mm (sideways) Y= ±0.5mm (in depth) Z= ±0.5mm (in height) A-10 Planmeca ProMax Technical Manual...
Page 19 USER’S STATEMENT Chapter A - GENERAL & TECHNICAL DATA Indication of focal spot focal_spot3.eps Tube head Focal spot indication Technical Manual Planmeca ProMax A-11...
Page 20: Promax 3D: Ctdi Values
Chapter A - GENERAL & TECHNICAL DATA PROMAX 3D: CTDI VALUES 6 PROMAX 3D: CTDI VALUES The following dose information was measured using a dosimetry phantom (head phantom) that is compatible with the specification in international standard IEC 60601-2-44. The dosimetry phantom consists of a PMMA cylinder with a diameter of 160mm. The length of the phantom is 160mm.
Page 21 PROMAX 3D: CTDI VALUES Chapter A - GENERAL & TECHNICAL DATA Dose statements Default CT scanner conditions of operation in items a) 1- 3 are: tube voltage: 90 kV (90 kV) tube current: 10 mA (10 kV) beam collimation: height = full, width = full (height = full, child patient = off)
Page 22 Chapter A - GENERAL & TECHNICAL DATA PROMAX 3D: CTDI VALUES NOTE Values in this item are normalized to the CTDI in item a) 2) 100 (peripheral, max) Deviation from the default CT scanner Relative CTDI 100 (peripheral, max) conditions of operation X- ray tube voltage: 70 kV 0.34 (0.34)
Page 23: Promax 3D: Stray Radiation Measurements
PROMAX 3D: STRAY RADIATION MEASUREMENTS Chapter A - GENERAL & TECHNICAL DATA 7 PROMAX 3D: STRAY RADIATION MEASUREMENTS The measurements are given for loading factors which result in the maximum local dose per current time product. The loading factors include the highest selectable X-ray tube voltage (i.e.
Page 24: X-Ray Units With 3D Sensor
Chapter A - GENERAL & TECHNICAL DATA PROMAX 3D: STRAY RADIATION MEASUREMENTS 7.1 X-ray units with 3D sensor High_resolution_84kV_16mA.eps 500mm 3000mm Figure 2 Stray radiation measurements with exposure values 84 kV and 16 mA, high resolution Normal_resolution_84kV_16mA.eps 500mm 3000mm Figure 3 Stray radiation measurements with exposure values 84 kV and 16 mA,...
Page 25: X-Ray Units With 3D S Sensor
PROMAX 3D: STRAY RADIATION MEASUREMENTS Chapter A - GENERAL & TECHNICAL DATA Low_dose_84kV_8mA.eps 500mm 3000mm Figure 4 Stray radiation measurements with exposure values 84 kV and 8 mA, low dose 7.2 X-ray units with 3D s sensor 500mm 3000mm Figure 5 Stray radiation measurements with exposure values 84 kV and 16 mA,...
Page 26 Chapter A - GENERAL & TECHNICAL DATA PROMAX 3D: STRAY RADIATION MEASUREMENTS Normal_resolution_84kV_16mA_3DS.eps 500mm 3000mm Figure 6 Stray radiation measurements with exposure values 84 kV and 16 mA, normal resolution Low_dose_84kV_8mA_3DS.eps 500mm 3000mm Figure 7 Stray radiation measurements with exposure values 84 kV and 8 mA, low dose...
Page 27: Handling Precautions For Pcbs And Software Chips
Since the software chips used are of the PLCC type (plastic leadless chip carrier), they must be removed only using a proper extracting tool (see the spare part manual for details). Using any other tool for removal can seriously damage the sockets on the CPU board. Technical Manual Planmeca ProMax A-19...
Page 28: Emc Information
Guidance and manufacturer’s declaration - electromagnetic emissions Planmeca ProMax X-ray unit is intended for use in the electromagnetic environment speci- fied below. The customer or the user of the Planmeca ProMax X-ray unit should assure that it is used in such an environment.
Page 29 Guidance and manufacturer’s declaration - electromagnetic immunity Planmeca ProMax X-ray unit is intended for use in the electromagnetic environment specified below. The customer or the user of Planmeca ProMax X-ray unit should assure that it is used in such an environment. IEC 60601...
Page 30 Guidance and manufacturer’s declaration - electromagnetic immunity Planmeca ProMax X-ray unit is intended for use in the electromagnetic environment specified below. The customer or the user of Planmeca ProMax X-ray unit should assure that it is used in such an environ- ment.
Page 31 RF communications equipment and Planmeca ProMax X-ray unit Planmeca ProMax X-ray unit is intended for use in an electromagnetic environment in which radiated RF disturbances are controlled. The customer or the user of Planmeca ProMax X-ray unit can help prevent...
Page 32: Switching X-Ray Unit On
The X-ray unit is then ready for use. On / off switch NOTE To prolong the lifetime of the Planmeca ProMax X-ray unit, always switch the X-ray unit off when it is not in active use.
Page 33: Chapter B Information Displays
The list of Information displays appears. Figure 1 You can return to the Main display by touching the Exit field. You can return to the previous display by touching the Back field in the lower right corner. Technical Manual Planmeca ProMax B-1...
Page 34: Contents Of The Information Displays
Technical calibrations (password) i610 Primary collimator calibration i630 DEC calibration i640 Positioning calibration i650 Lift motor position sensor calibration i660 Layer laser calibration i670 QA Exposure i680 DAP value adjustments i999 Demo i700 Troubleshooting (password) i760 Communication B-2 Planmeca ProMax Technical Manual...
Page 35: User Preference Settings
To set time select Set time on the Date & time display (i210). If you want to change date, select Set date. If you want to change the time and date display format, select Time & Date display format. Figure 3 Technical Manual Planmeca ProMax B-3...
Page 36 Set the correct date with the Year, Month and Day arrow fields. Store the new date by touch- ing the Done field, or exit the mode without changes by touching the Cancel field. Figure 5 B-4 Planmeca ProMax Technical Manual...
Page 37: Audio Settings
If the warning sound of the radiation cannot be heard or is considered too loud, it can be adjusted with the arrow fields. The adjustment range is 1-255. Figure 7 Technical Manual Planmeca ProMax B-5...
Page 38: Behavioural Preferences
User preference settings display without storing the new settings. Touching the Reset field will return the valid values without closing the Behavioural preferences display. X-ray units with 3D V2 / 3D s sensor (with SmartPan license) Figure 8 B-6 Planmeca ProMax Technical Manual...
Page 39: Visual Adjustments
-> darker image). The recommended setting is 100% (default setting) NOTE DEC is available for panoramic and cephalometric programs. It is not available for SmartPan programs (3D V2 / 3D s sensor + SmartPan). Technical Manual Planmeca ProMax B-7...
Page 40 The Show preview after exposure function allows the user to see a preview of the X-ray image before accepting and storing the image. Figure 12 Touching the preview image will zoom the image. Return by touching Overview. Accept by touching OK. B-8 Planmeca ProMax Technical Manual...
Page 41: Select Language
The language of the control panel displays is selected on the Select language display. Select the language you wish to use. The selected language will be marked with a dot. Touch Done to confirm the selection. Figure 13 Technical Manual Planmeca ProMax B-9...
Page 42: Default Program Settings
TMJ display, touch the bottom arrows to select a shorter or longer movement step. Confirm your selection by touching Done and reboot the X-ray unit to save the new default settings for TMJ exposures. Figure 14 B-10 Planmeca ProMax Technical Manual...
Page 43 On the Tomo display, select the tooth identification system you wish to use on the Tomo/ Select target area display: The available options are: - Planmeca: 0 - 9 (left / right) - ADA: TMJ-Right, 1 - 8, 32 - 25, 0, 9 - 16, 17 - 24, TMJ-Left - ISO-FDI: TMJ-Right, 18 - 11, 48 - 41, 0, 21 - 28, 31 - 38, TMJ-Left The selected option will be marked with a dot.
Page 44 Touch the 2D View settings field to select the type of 2D views that will be available when tak- ing 3D exposures. The selected option will be marked with a blue dot. Confirm your selection by touching Done. Figure 16 B-12 Planmeca ProMax Technical Manual...
Page 45: Feature Program Control
Confirm the selection by touching Done. By touching the down arrow in the lower left corner more features will appear. On the next display, touch the up arrow in the lower left corner to return to the previous display. Technical Manual Planmeca ProMax B-13...
Page 46 The 3D options and Autofocus can be enabled with a general license code (1701). To disable the selected feature repeat the procedure. NOTE After enabling/disabling a new feature the X-ray unit must be switched off and back on again. B-14 Planmeca ProMax Technical Manual...
Page 47: Special Functions
Figure 19 4.1 Special operation mode selection Select Special operation mode (i480) selection on the Special functions display. The dis- play shown below appears. Figure 20 Technical Manual Planmeca ProMax B-15...
Page 48: Error History
Touch the Disable radiation field to switch the exposure function on (empty the check box). Touch the Disable radiation field again to switch the exposure function off. 4.1.2 Disable need for PC communication This option allows you to demonstrate the ProMax digital X-ray unit without PC connected to the unit. 4.2 Error history Select Error history (i420) on the Special functions display.
Page 49: Exposure Statistics
Clear exposure history button. 4.4 X-ray tube head seasoning Tube head seasoning procedure is recommended if the Planmeca ProMax x-ray unit stands unused for a couple of days or longer. The x-ray tube head seasoning is done in the X-ray tube seasoning (i450) display by press- ing the start button.
Page 50: Taking A Test Exposure
Select the desired exposure parameters: kV and mA values and exposure time and touch the Test field. The text Ready appears to the bottom of the display and the test exposure can be performed. Figure 24 B-18 Planmeca ProMax Technical Manual...
Page 51: Beam Check
X-ray unit and to the PC which is connected directly or remotely to the unit. The detailed Ethernet link setup procedure is described in the Installation manual, publication number 688271. Figure 26 Technical Manual Planmeca ProMax B-19...
Page 52 Gateway - Gateway address (default value is 192.168.1.2) NOTE In case the ProMax is connected to a 10/100 Base Network, the Gateway and the Pro- Max IP address have to be static and specified by the local administrator to be used only for this configuration.
Page 53 (default value is 5000). A Net Password can be set by the user by touching the No Pass- word button. NOTE It is recommended to set a Net Password for the Ethernet link, so that it is not possible to enter the Promax unit without authorisation. Figure 30 Technical Manual Planmeca ProMax B-21...
Page 54 4.7.4 IP address for 3D sensor Select IP address for 3D sensor (i48.4) on the Network settings display. The display shown below appears. The 3D sensor IP-address default setting can be changed by touching the address field. Figure 32 B-22 Planmeca ProMax Technical Manual...
Page 55 SPECIAL FUNCTIONS Chapter B - INFORMATION DISPLAYS When setting field is touched the following window will appear. The settings are saved by touching OK. Figure 33 Technical Manual Planmeca ProMax B-23...
Page 56: Service Settings
The option Select configuration (i570) will be shown for 3D units only. Service settings mode also allows to perform fine tuning of Patient support alignment (i580). GUI software is updated by using the Software update (i590) menu. Figure 35 B-24 Planmeca ProMax Technical Manual...
Page 57: Special Operation Mode Selection
Figure 36 5.1.1 Demo licences The Demo licences option allows you to demonstrate all the ProMax X-ray programs. When this option is selected no radiation is generated when you press the exposure button. The programs can be selected and the C-arm will move normally but no radiation will be gener- ated and no radiation warning signals will be given, i.e.
Page 58: Preheat Calibration
To set the maximum height of the unit select Maximum height (i530) on the Service settings display. Drive the unit to the desired maximum height with the height adjusting buttons and touch the Done field. Figure 38 B-26 Planmeca ProMax Technical Manual...
Page 59: Exposure Program Tuning
To set the panoramic exposure values select Set pan parameters (i54.1) limits. The display shown below appears. Select the maximum and minimum kilovolt, and minimum milliam- pere values with the arrow fields and touch the Done field. Figure 40 Technical Manual Planmeca ProMax B-27...
Page 60: Factory Default Settings
The Factory default settings (i550) will turn up only in case the memory card (RTC) has lost its configuration and user settings or it has been replaced to a new PCB. In this case the procedure should be done before using the X-ray unit. B-28 Planmeca ProMax Technical Manual...
Page 61: Configuration Selftest
This option will be shown only if a 3D license has been activated on display i310. On the Service settings display, touch Select configuration (i570). A display will appear where you can select the ProMax, collimator and sensor type. Figure 44...
Page 62 Chapter B - INFORMATION DISPLAYS SERVICE SETTINGS 5.7.1 ProMax type On the Select ProMax type display select the configuration of the X-ray unit, Figure 45 B-30 Planmeca ProMax Technical Manual...
Page 63 Figure 46 The differences between the collimators are shown below. 3D collimator V0 (part number 10012615) Blade with high top edge on right Thick metal plate between motor and body No copper filter Figure 47 Technical Manual Planmeca ProMax B-31...
Page 64 We recommend that a copper filter (second or fourth option on display i57.1) is always used. Patient radiation dose will be higher on X-ray units without a copper filter. NOTE For instructions on how to change the collimator, see section 10 “PROMAX 3D: REPLACING COLLIMATOR” on page E-99. B-32 Planmeca ProMax...
Page 65 A 3D sensor V2 can only be used on X-ray units with 3D collimator V2. If the X-ray unit is fitted with collimator type V0 or V1 (see display i57.1) the collimator has to be changed as described in section 10 “PROMAX 3D: REPLACING COLLIMATOR” on page E-99.
Page 66: Patient Support Alignment
From the list of Service settings select Software Update (i590). In this mode the GUI soft- ware can be updated. Figure 52 The update procedure is explained in section 3.1 “GUI software update, only for colour GUI” on page F-10. B-34 Planmeca ProMax Technical Manual...
Page 67: Technical Calibrations
Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 53 The unit calibrations are performed in this mode. Detailed descriptions of calibrations are given in respective sections later in this manual. Figure 54 Technical Manual Planmeca ProMax B-35...
Page 68: Collimator Speed Adjustment
The max values x: 105%, y: 115%, equals the same speed as with the previous software version. The factory defaults are 100% with both x and y values. B-36 Planmeca ProMax Technical Manual...
Page 69: Height Adjustment Maximum Speed Setting
The setting can be adjusted between 27% (slowest speed) and 100% (fastest speed). The default setting is 100%. 6.3 QA exposure Refer to “Image quality monitoring instructions for Planmeca digital X-ray units”, publication number 10016248. Technical Manual...
Page 70: Dap Value Adjustments
If the measured dose is higher than the calculated dose, touch the right arrow to increase the percentage value. The setting can be adjusted between 10% and 300%. Note that you will have to calibrate DAP values separately for panoramic, cephalometric and 3D exposures. B-38 Planmeca ProMax Technical Manual...
Page 71: Troubleshooting
The password is 1701. Figure 59 In this mode the communication between the PC and X-ray unit can be monitored. Select i760 Communication. Figure 60 Technical Manual Planmeca ProMax B-39...
Page 72: Dimax Communication
The test can be interrupted by touching the OFF field. If the Error counter number is larger than two, a cable between the sensor head and CPU PCB may be damaged or disconnected. Figure 62 B-40 Planmeca ProMax Technical Manual...
Page 73: Network Status
Half-duplex. If the text Disconnected is shown, the problem may be in one of the following: cable between the ProMax X-ray unit and PC / cable or one of connectors is damaged / wrong type cable / Ethernet PCB is defective.
Page 74: Entering The Password
Select Service settings or Technical calibrations from the list on the display. The password to the selected mode is asked when the mode is entered for the first time after switching the unit on. The password is 1701. Figure 66 B-42 Planmeca ProMax Technical Manual...
Page 75: Chapter C Help & Error Messages
Chapter HELP & ERROR MESSAGES 1 MAIN CATEGORIES Help messages Environment related Error messages Motorized motion related X-ray generation related Feedback errors Power supply related Communication errors Calibration errors System conflicts Infrastructure errors Technical Manual Planmeca ProMax C-1...
Page 76: Help Messages
The temperature of the tube head too Exposure not possible before the high for the exposure parameters. tube head has been cooled down. H166 Maximum tube head energy exceeded. Lower the exposure parameters. Lower the exposure parameters. C-2 Planmeca ProMax Technical Manual...
Page 77 Cephalostat and/or locked in position. H175 PC program selection in conflict with Wrong exposure mode has been selected ProMax X-ray unit program selected on the PC. H176 Safety area limit violation. Change the values for layer thick- ness, position or angle.
Page 78: Error Messages
Check the motor, interface and cable. E219 9 - receptor rotation motor Check the motor, interface and cable. E220 10 - receptor lift motor (reserved option) E221 11 - tube head lift motor (reserved option) C-4 Planmeca ProMax Technical Manual...
Page 79 9 - receptor rotation motor Too high current detected in the motor and the movement has been stopped. Check the motor cable. E240 10 - receptor lift motor (reserved option) E241 11 - tube head lift motor (reserved option) Technical Manual Planmeca ProMax C-5...
Page 80 9 - receptor rotation motor The motor drives the mechanism into the wrong direction. Check the sensors and the cabling. E260 10 - receptor lift motor (reserved option) E261 11 - tube head lift motor (reserved option) C-6 Planmeca ProMax Technical Manual...
Page 81: X-Ray Generation Related Errors (3Xx
PSU PCB. E304 dropped suddenly during exposure Exposure interrupted. Check the tube head and the PSU PCB. E305 cannot be enabled due to an internal Exposure interrupted. Check the error tube head and the PSU PCB. Technical Manual Planmeca ProMax C-7...
Page 82 Check the interface, cabling and the PSU PCB. E324 dropped suddenly without arching Exposure interrupted. Check the interface, cabling and the PSU PCB. E325 overshot suddenly without arching Exposure interrupted. Check the interface, cabling and the PSU PCB. C-8 Planmeca ProMax Technical Manual...
Page 83 Exposure interrupted. E335 at tube head cathode end, minor Code not displayed. E336 at tube head cathode end, severe Exposure interrupted. E341 Monitoring errors kV-signal (exposure time) too short/long Technical Manual Planmeca ProMax C-9...
Page 84: Feedback Errors (4Xx
FBK and the CAM PCB. E416 Tube head not calibrated Exposure not possible. Perform the preheat calibration again. Check the functionality of the FBK PCB. E417 Tube head is of non-supported type Exposure not possible. (reserved) C-10 Planmeca ProMax Technical Manual...
Page 85 Check the position of the joystick. E447 Temple rest button Check the position of the joystick. E451 Key stuck elsewhere CEPH CA; Height adjusting up button Check the button. E452 CEPH CA; Height adjusting down button Check the button. Technical Manual Planmeca ProMax C-11...
Page 86: Power Supply Related Errors (5Xx
Check the functionality of the bat- tery and that it is installed cor- rectly. E608 Data received is wrong polarity from Check the cable of the CAM PCB and that it is installed correctly. C-12 Planmeca ProMax Technical Manual...
Page 87 External (other) Errors in PLANET <=> EXT data link Check the cable and the software version of the Admark. Restart the ProMax X-ray unit after attaching the Admark to it. E621 Errors in GUI -RS232 link to external key- Check the cabling and the con- board.
Page 88: Calibration Errors (7Xx
Primary y-collimator opening is too big. Adjust the lower blade upwards or the upper blade downwards. E711 3D primary x-collimator opening is too Adjust the left blade to right or the wide. right blade to left. C-14 Planmeca ProMax Technical Manual...
Page 89: System Conflicts (8Xx
7 - receptor lift / X&Y collimation MCM PCB is broken or badly (reserved option) connected to the PSU PCB. Check also the functionality of the PSU and CPU PCB. E808 8 - tube head lift function (reserved option) Technical Manual Planmeca ProMax C-15...
Page 90 Change the MCM PCB. number; 1-8, 0 & 9 reserved) E834 Dimax3 sensor version is too old The Dimax sensor version is too old or not compatible with the ProMax X-ray unit software ver- sion. C-16 Planmeca ProMax Technical Manual...
Page 91: Infrastructure Errors (9Xx
Error Explanation Comments code E901 Checksum error in Main program FLASH, Low Block Restart the ProMax X-ray unit. E902 Main program FLASH, High Block Update the ProMax X-ray unit software version. E903 Memory Expansion module FLASH Update the ProMax X-ray unit software version.
Page 92 Chapter C - HELP & ERROR MESSAGES ERROR MESSAGES C-18 Planmeca ProMax Technical Manual...
Page 93: Chapter D Preventive Maintenance
1.2 Operating checks To guarantee user and patient safety and to ensure consistent image quality, the X-ray unit must be checked and recalibrated by a qualified Planmeca service technician once a year or after every 10 000 exposures if this is sooner.
Page 94: Preventive Maintenance Checks
X-ray meter; older meters calculate the kVp avg based on the assumption that the kV waveform is AC. The Planmeca ProMax has DC high voltage with very small high frequency ripple, so the accurate measurement of kV waveform can be...
Page 95 If in any doubt whether or not the meter is suitable for ProMax, please consult the meter manufacturer for additional information. Otherwise, please refer to the radiation meter manufacturers user manual of how to use the meter.
Page 96 = (mApos – mAneg). Peak tube potential (kVp) measurement Connect the kVpos plug of the Planmeca measurement adapter to the positive terminal of the multimeter and the kVneg plug to the negative (ground) terminal of the multimeter. Select the appropriate DC voltage measurement range for 1 to 5 V signal level.
Page 97: Mechanical Checks
In case the secondary nut is clearly inside the column nut frame and the lug of the indicator sheet is straightened, the column motor nut assembly must be replaced according to the instructions given in section 3.2 “Replacing the lift nut assembly” on page G-18. Technical Manual Planmeca ProMax D-5...
Page 98 Chapter D - PREVENTIVE MAINTENANCE MECHANICAL CHECKS D-6 Planmeca ProMax Technical Manual...
Page 99: Chapter E C-Arm And Imaging Arm
Chapter C-ARM AND IMAGING ARM NOTE If you use the Planmeca Device Tool software for calibrations, refer to the Planmeca Device Tool manual, publication number 10031558, which should be used in conjunction with this manual. Do not follow the Dimax4Tool instructions given in this chapter.
Page 100 Frankfort plane alignment tool (part number 50977). Used with the ball phantom for checking the position of the Frankfort plane light. Figure 4 • Beam alignment tool (part number 50972). For checking the position of the panoramic X- ray beam. Figure 5 E-2 Planmeca ProMax Technical Manual...
Page 101 3D Flat Field calibration tool (part number 10017348). Figure 6 • 3D phantom (part number 10012988). Used in Quality Assurance (Q/A) test. Figure 7 • Geometry calibration platform (part number 10029539). Used in 3D geometry calibration. Figure 8 Planmeca ProMax E-3 Technical Manual...
Page 102 Figure 9 • 3D geometry phantom (part number 10027096). Used with geometry calibration platform (part number 10029539) in 3D geometry calibration. Figure 10 NOTE Use the blue adapter with the calibration tools, NOT the adjustable adapter. E-4 Planmeca ProMax Technical Manual...
Page 103: Panoramic Beam And Patient Positioning Mechanism Adjustment
Since radiation safety requirements vary from country to country and state to state it is the responsibility of the installer to ensure that all local safety regulations are met. Planmeca ProMax E-5 Technical Manual...
Page 104: Adjustment Procedure
PANORAMIC BEAM AND PATIENT POSITIONING MECHANISM Chapter E - C-ARM AND IMAGING ARM ADJUSTMENT 2.1 Adjustment procedure NOTE Some steps are described in Planmeca Device tool manual, publication number 10031558. PANORAMIC BEAM AND PATIENT POSITIONING MECHANISM ADJUSTMENT Checking the panoramic beam position...
Page 105: Checking The Panoramic Beam Position
Select Technical calibrations (i600) from the list on the display. The password to the Technical calibrations mode is asked when the Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 12 Planmeca ProMax E-7 Technical Manual...
Page 106 Remove the sensor head from the quick connector mechanism, or remove the fixed sensor head from its connector (refer to section 6 “REPLACING THE SENSOR HEAD” on page E- 86). Attach the sensor head alignment tool to the connector. E-8 Planmeca ProMax Technical Manual...
Page 107 In case the X-ray unit is equipped with a fixed sensor head, adjust the panoramic X-ray beam according to the instructions given in section 2.13 “X-ray unit with fixed primary collimator - primary collimator adjustment” on page E-55. Planmeca ProMax E-9 Technical Manual...
Page 108: Adjusting The Sensor Head Angle
Attach the sensor head alignment tool to the connector. Loosen the two screws located on the attachment mechanism with the 3mm Allen key. Adjust the head support angle with the two screws (use 3mm Allen key) located on the side of the E-10 Planmeca ProMax Technical Manual...
Page 109 PANORAMIC BEAM AND PATIENT POSITIONING MECHANISM ADJUSTMENT Chapter E - C-ARM AND IMAGING ARM mechanism. See Fig. 17 below. Adjust the head angle with Loosen these screws. these screws. Figure 17 Planmeca ProMax E-11 Technical Manual...
Page 110: Primary Collimator Angle Adjustment
(Fig. 18 and Fig. 19, 2) until the beam is correctly positioned. Tighten the screws and check the beam. Repeat the procedure described above until the beam is cor- rectly positioned. Panoramic primary collimator Figure 18 E-12 Planmeca ProMax Technical Manual...
Page 111 Cancel field. Drive the vertical blades to the reference position in the Pan mode Y-collimator calibration mode by touching the Test field in Pan mode Y-collimator calibration display. Planmeca ProMax E-13 Technical Manual...
Page 112: Panoramic Beam Adjustment
Panoramic beam horizontal position and panoramic beam width From the display that appears after selecting Technical calibrations select Primary collima- tor calibration (i610). From the list on the i610 display select Pan mode X-collimator cali- bration (i61.1). Figure 20 E-14 Planmeca ProMax Technical Manual...
Page 113 4mm (0.16 in.). Adjust the width value of the primary collimator with the X-Pan collimator width arrow fields and drive the primary collimator to the selected width by touching the Test field. Planmeca ProMax E-15 Technical Manual...
Page 114 Use the 0.6mm feeler to check the width of the opening between the collimator blades as shown in Fig. 22 and Fig. 22 below. The number on the display should be approx. 68 when the opening is 0.6mm. Panoramic primary collimator Blades Feeler (Planmeca feeler order code 10005786) Figure 22 E-16 Planmeca ProMax Technical Manual...
Page 115 Protect yourself from radiation and press the exposure button to check the width of the beam. Repeat the procedure, if necessary. Accept the new position and width and exit the Pan X-collimator calibration mode by touching the Done field. Planmeca ProMax E-17 Technical Manual...
Page 116 X-ray beam lower edge position. If necessary, repeat the procedure. Accept the new position and exit the calibration mode by touching the Done field. E-18 Planmeca ProMax Technical Manual...
Page 117: Patient Positioning Mechanism Adjustment
Push the arms to the same direction as far as they move. For example: first push the shoulder arm to the right, then the elbow arm and finally the C-arm. IMPORTANT: Do not push any of the arms to opposite direction from the others. Planmeca ProMax E-19 Technical Manual...
Page 118 Leave the ball phantom tool in position. Place the alignment tool in position between the multi primary collimator and the sensor head alignment tool as described below. Tongue Attachment plate ProMax alignment tool Trigger bar Figure 27 NOTE Units with fixed primary collimator: Place the alignment tool in position between the tube head and the sensor head alignment tool so that the alignment tool tongue goes into the primary collimator opening.
Page 119 3D collimator V0: Slide the right side blade of the horizontal blade mechanism to the right and position the alignment tool tongue into the opening. Push the right side blade against the tongue (arrows in the figure below). Figure 30 Planmeca ProMax E-21 Technical Manual...
Page 120 To avoid damaging the blades, the unit must be switched on before the alignment tool is positioned. CAUTION Take care not to make any cuts to the lead (Pb) blades. E-22 Planmeca ProMax Technical Manual...
Page 121 (see arrows on Fig. 33). Tube head Patient support table attachment screws Sensor head Figure 33 C-arm in x-direction adjustment position (“0° position”) Planmeca ProMax E-23 Technical Manual...
Page 122 NOTE The angle sensors must be calibrated after adjusting the shoulder arm position, refer to section 2.7 “Calibration of angle sensors” on page E-31. After the x-direction adjustment the adjustment must be performed in y-direction, do not tighten the patient support table attachment screws yet. E-24 Planmeca ProMax Technical Manual...
Page 123 For example: first push the shoulder arm to the right, then the elbow arm and finally the C- arm. IMPORTANT: Do not push any of the arms to opposite direction from the others. Planmeca ProMax E-25 Technical Manual...
Page 124 Check both the x-direction and the y-direction adjustment after tightening the attachment screws. NOTE The calibration of the angle sensors must be checked after checking/adjusting the patient positioning mechanism. Refer to section 2.7 “Calibration of angle sensors” on page E-31. E-26 Planmeca ProMax Technical Manual...
Page 125 For example: first push the shoulder arm to the right, then the elbow arm and finally the C-arm. Planmeca ProMax E-27 Technical Manual...
Page 126 Leave the ball phantom tool in position and place the alignment tool in position between the tube head and the sensor head alignment tool. Measure the distance between the line on the alignment tool plate and the x-line on the ball phantom. Tube head Sensor head Figure 38 “0° position” E-28 Planmeca ProMax Technical Manual...
Page 127 0.5mm according to the instructions given in section “Adjusting the position of the sen- sor head” on page E-30. Correct only half of the deviation, so that the deviation will be the same in both the 180° and 0° positions. Planmeca ProMax E-29 Technical Manual...
Page 128 The position of the sensor head can be slightly adjusted. Loosen the four screws that hold the sensor head in rotating unit and move the sensor head to required position. Loosen the screws Figure 40 E-30 Planmeca ProMax Technical Manual...
Page 129: Calibration Of Angle Sensors
Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 41 From the list on the i600 display that appears select Positioning calibration (i640). Figure 42 Planmeca ProMax E-31 Technical Manual...
Page 130 Check field. In case all the three arm angle sensors are correctly calibrated, three green arrows are shown on the display. A red arrow means that this angle sensor is not correctly calibrated. Figure 43 E-32 Planmeca ProMax Technical Manual...
Page 131 C- arm. The positions of the alignment pins are shown in Fig. 44 below. Shoulder joint pin Elbow and C-arm joint pin Figure 44 Positions of the alignment pins Planmeca ProMax E-33 Technical Manual...
Page 132 After locking the motors remove the alignment pins and calibrate the angle sensors by touching the Calibrate field. All the angle sensors are correctly calibrated. Figure 45 NOTE If you want to release the motors, touch the Release field. E-34 Planmeca ProMax Technical Manual...
Page 133 Lift the sensor coupling up and rotate the angle sensor axle until the empty arrow appears on the display. Figure 47 Replace the sensor coupling. Note that the sensor coupling plate must not hit the sensor body. Planmeca ProMax E-35 Technical Manual...
Page 134 Replace the angle sensor to its position and check that the calibration mark remains on the display. NOTE The sensor holder must not touch the cable guide. Figure 49 E-36 Planmeca ProMax Technical Manual...
Page 135 Replace the angle sensor to its position and check that the calibration mark remains on the display. NOTE The sensor holder must not touch the cable guide. PXR_calib9.eps Figure 51 Planmeca ProMax E-37 Technical Manual...
Page 136: Beam Check
PANORAMIC BEAM AND PATIENT POSITIONING MECHANISM Chapter E - C-ARM AND IMAGING ARM ADJUSTMENT 2.8 Beam check Refer to the Planmeca Device Tool manual, publication number 10031558. E-38 Planmeca ProMax Technical Manual...
Page 137: Taking A Ball Phantom Exposure
Refer to section 2.10 “Panoramic mode patient positioning lights” on page E-41 for details. Layer light beam Ball phantom support plate Reference line Figure 53 Planmeca ProMax E-39 Technical Manual...
Page 138 If this is not the case, you will have to check the position of the patient positioning mechanism and calibrate the angle sensors, refer to sections 2.6 “Patient positioning mechanism adjust- ment” on page E-19 and 2.7 “Calibration of angle sensors” on page E-31. E-40 Planmeca ProMax Technical Manual...
Page 139: Panoramic Mode Patient Positioning Lights
Midsagittal plane positioning light adjustment Remove the patient support table cover according to the instructions given in section 2.1 “Patient support table cover” on page F-7. Midsagittal plane positioning light Light assembly Lens assembly attachment screw Figure 56 Planmeca ProMax E-41 Technical Manual...
Page 140 To adjust the light beam horizontal position bend the light attachment plate (Fig. 57, 4). Lens Light assembly assembly attachment screw Lens assembly Light attachment plate Figure 57 Layer light Layer light calibration To enter the calibration mode first touch the i field on the Main display. Figure 58 E-42 Planmeca ProMax Technical Manual...
Page 141 Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 59 From the list on the i600 display that appears select Layer laser calibration (i660). Figure 60 Planmeca ProMax E-43 Technical Manual...
Page 142 Accept the new the layer light zero position and exit the calibration mode by touching the Done field. Ball phantom Layer light beam Figure 62 If the light beam is not vertical, or it is in focus, it must be adjusted according to the instruc- tions on next page. E-44 Planmeca ProMax Technical Manual...
Page 143 To focus the light beam adjust the depth of the lens assembly (Fig. 63, 2) To adjust the light beam angle rotate the lens assembly of the light (Fig. 63, 3). Layer light Figure 63 Planmeca ProMax E-45 Technical Manual...
Page 144 Frankfort plane light beam should be horizontal. Frankfort plane alignment tool Frankfort plane light beam Figure 64 In case the light is not horizontal or not in focus, adjust the light according to the instructions given on next page. E-46 Planmeca ProMax Technical Manual...
Page 145 To focus the light beam adjust the depth of the lens assembly (Fig. 65, 4) Figure 65 NOTE The light beam must reach the rear end of the Frankfort plane alignment tool. Make sure that the light beam is not limited by the column front cover. Planmeca ProMax E-47 Technical Manual...
Page 146: Adjustment Of Tomo Mode Patient Positioning Lights
The lights 1 and 2 must be exactly on the x-line, otherwise they deviate from each other. If you see two parallel lights, the lights must be adjusted, refer to section 2.11.1 “Positioning light adjustment” on page E-53. E-48 Planmeca ProMax Technical Manual...
Page 147 Remove the C-arm inner cover according to the instructions given in section 5.4 “C-arm inner cover” on page E-81. Adjust the light. After adjusting the lights mark the crossing point of the lights (Fig. 67; 1, 2 and 3) to the phan- tom. Figure 67 Planmeca ProMax E-49 Technical Manual...
Page 148 ADJUSTMENT Remove the alignment pin from the elbow joint and rotate the C-arm 90° counterclockwise. Mark the crossing point (point a) of the lights (Fig. 68; 1, 2 and 3) to the phantom. Figure 68 E-50 Planmeca ProMax Technical Manual...
Page 149 PANORAMIC BEAM AND PATIENT POSITIONING MECHANISM ADJUSTMENT Chapter E - C-ARM AND IMAGING ARM Rotate the C-arm 180° clockwise. Mark the crossing point (point b) of the lights (Fig. 69; 1,2 and 3) to the phantom. Figure 69 Planmeca ProMax E-51 Technical Manual...
Page 150 In case the new crossing point is not inside the ±1mm limits from the ball phantom x-line and y-line crossing point, you must readjust the patient positioning mechanism, see section 2.6 “Patient positioning mechanism adjustment” on page E-19. E-52 Planmeca ProMax Technical Manual...
Page 151 To focus the light beam adjust the depth of the lens assembly (Fig. 71, 3). To adjust the light beam horizontal position bend the light attachment plate (Fig. 71, 4).l Lens Light assembly assembly attachment screw Lens assembly Light attachment plate Figure 71 Planmeca ProMax E-53 Technical Manual...
Page 152: Calibrating Panoramic Sensor Head
PANORAMIC BEAM AND PATIENT POSITIONING MECHANISM Chapter E - C-ARM AND IMAGING ARM ADJUSTMENT 2.12 Calibrating panoramic sensor head Refer to the Planmeca Device Tool manual, publication number 10031558. E-54 Planmeca ProMax Technical Manual...
Page 153: X-Ray Unit With Fixed Primary Collimator - Primary Collimator Adjustment
(i600) from the list on the display. The password to the Technical calibrations mode is asked when the Technical calibrations mode is entered for the first time after switch- ing the unit on. The password is 1701. Figure 72 Planmeca ProMax E-55 Technical Manual...
Page 154 Darken the room sufficiently so that you will be able to see the image of the radiation beam on the alignment tool (it is fluorescent and glows when the radiation beam strikes it), but not so dark that you cannot see the borders of the alignment rectangle. E-56 Planmeca ProMax Technical Manual...
Page 155 (Fig. 76, 1). Tighten the screws, attach the vertical adjustment frame with the primary collimator plate to its position and check the beam. Repeat the procedure described above until the beam is correctly positioned. Figure 76 Planmeca ProMax E-57 Technical Manual...
Page 156 3mm Allen key and move the frame until the beam is correctly positioned (Fig. 76, 3). Tighten the screws and recheck the beam. Repeat the procedure described above until the beam is correctly positioned. E-58 Planmeca ProMax Technical Manual...
Page 157: Promax 3D: Adjustments & Calibrations
3 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS 3.1 Adjustment procedure NOTE The panoramic checks and adjustments must be performed BEFORE 3D adjustments: NOTE Some steps are described in Planmeca Device tool manual, publication number 10031558. PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Checking the connection between PCs and X-ray unit...
Page 158 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM NOTE There are three versions of the sensor: 3D version 1 (V1), 3D version 2 (V2) and 3D s. The 3D sensor has a larger active area than the 3D s sensor. The 3D version 1 (V1) sensor has no cooling grille.
Page 159: Checking The Connection Between Pcs And X-Ray Unit
Check that the Ethernet LINK LED on the Ethernet PCB is on. • Check that you can ping the ProMax IP address from the Romexis PC to verify that the TCP/IP connection works (executing the command “ping <ProMax IP address>”, e.g.
Page 160: Beam Adjustment
PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM 3.3 Beam adjustment Select the standard 3D exposure program on the control panel of the X-ray unit. To be able to check the radiation beam position without the C-arm moving enter the 3D collimator calibration mode as explained below.
Page 161 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM Place the beam alignment tool on the sensor head alignment tool upside down as shown in Fig. 80. Slide the beam alignment tool as down as it goes.
Page 162 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM The X-ray beam vertical position is adjusted on the Y-collimator calibration (i61.11 or i61.13) display. X-ray units with 3D sensor (V1 or V2): X-ray units with 3D s sensor: Figure 81 Adjust the upper limit value of the X-ray beam with the y-collimator top limit arrow fields.
Page 163 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM The radiation beam must overlap the upper line marked on the beam alignment tool by 10 mm and reach the lower line marked on the beam alignment tool (both lines shown with arrows in the figure below).
Page 164 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM Beam horizontal position Select Primary collimator calibration (i61.10) from the display that appears when you select Technical calibrations. Depending on the sensor you are using, select 3D or 3D s mode X-collimator calibration (i61.10 or i61.12) from the list.
Page 165 PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM Darken the room sufficiently so that you will be able to see the image of the radiation beam on the alignment tool (it is fluorescent and will glow when the radiation beam strikes it), but not so dark that you cannot see the lines of the alignment rectangle.
Page 166: Beam Check
PROMAX 3D: ADJUSTMENTS & CALIBRATIONS Chapter E - C-ARM AND IMAGING ARM 3.4 Beam check Refer to the Planmeca Device Tool manual, publication number 10031558. 3.5 Flat Field calibration Refer to the Planmeca Device Tool manual, publication number 10031558. 3.6 3D Geometry calibration Refer to the Planmeca Device Tool manual, publication number 10031558.
Page 167: Other Adjustments And Calibrations
Default 2 (335.646) is for the new traction belt. Figure 89 NOTE The X-ray unit must be switched off and on after changing the ratio value. After switching the X-ray unit on again, the angle sensors must be calibrated. Planmeca ProMax E-69 Technical Manual...
Page 168 X-ray unit on again, the angle sensors must be calibrated. CAUTION The C-arm rotating steps function as well as the respective fields (arrow fields, Lock/release field and Check field) are for factory use only. E-70 Planmeca ProMax Technical Manual...
Page 169: Calibrating The Panoramic Dynamic Exposure Control (Dec
Use the 35mm aluminum filter for the calibration, that is, lift up one of the filters. Flat Field calibration tool (part number 10017348) Long screws Long screw at the outer edge of the screw hole Lift up one filter Figure 91 Planmeca ProMax E-71 Technical Manual...
Page 170 DEC calibration. Then set the values to 100 as shown below. Figure 92 Touch the i field on the Main display. The list of Information displays appears. Figure 93 From the list of Information displays select Technical calibrations (i600). E-72 Planmeca ProMax Technical Manual...
Page 171 The Technical calibrations mode is password protected and the password is asked when the mode is entered for the first time after switching the unit on. The password is 1701. Figure 94 From the list of Technical calibrations select DEC calibration (i630). Figure 95 Planmeca ProMax E-73 Technical Manual...
Page 172 The Panoramic DEC display appears. The exposure values suggested on this display are 66 kV value and 9 mA. Use these values when taking an OD exposure. Touch the OD expo- sure field. Figure 97 E-74 Planmeca ProMax Technical Manual...
Page 173 AEC/DEC calibration tool does not properly cover the primary collima- tor opening. To accept the DEC parameters touch the Done field on the Panoramic DEC display and Exit field on the DEC calibration display. Planmeca ProMax E-75 Technical Manual...
Page 174 The kV and mA values are adjusted to the same direction (increased or decreased). For example: if the measured value is 40% from the reference value, the kV value is increased by 2kV and the mA value is increased by 3mA. E-76 Planmeca ProMax Technical Manual...
Page 175: Removing The Covers
Loosen the eight attachment screws with the 2.5mm Allen key (Fig. 101, 1). Do not remove the screws. Slide the tube head cover plate (Fig. 101, 2) and the receptor cover plate (Fig. 101, 3) from their positions as shown below. Figure 101 Planmeca ProMax E-77 Technical Manual...
Page 176: Removing The Fixed Sensor Head Holder Covers
Figure 102 Unscrew the attachment screws of the sensor head connector back cover with the 2.5mm Allen key: two from the inner side and the two from the top of the cover (2). Figure 103 E-78 Planmeca ProMax Technical Manual...
Page 177 REMOVING THE COVERS Chapter E - C-ARM AND IMAGING ARM Detach the cover from its position. Figure 104 Planmeca ProMax E-79 Technical Manual...
Page 178: Removing The Movable Sensor Head Holder Covers
Unscrew the attachment screws of the sensor head connector back cover with the 2.5mm Allen key: two from the top of the cover (Fig. 106, 1) and two from the inner side (Fig. 106, 2). Detach the cover from its position. Figure 106 E-80 Planmeca ProMax Technical Manual...
Page 179: C-Arm Inner Cover
NOTE You have to remove the C-arm upper covers and sensor head covers before removing the C-arm inner cover. Unscrew the four screws with the 2.5mm Allen key (Fig. 107, 1) and remove the cover (Fig. 107, 2). Figure 107 Planmeca ProMax E-81 Technical Manual...
Page 180: Tube Head Covers
Unscrew the two attachment screws from the top of the front cover (Fig. 108, 1) and the two screws from the bottom of the cover (Fig. 108, 2). The cover can now be removed. Figure 108 E-82 Planmeca ProMax Technical Manual...
Page 181 Unscrew the two attachment screws from the top of the back cover (Fig. 109, 1) and the two screws from the side of the cover (Fig. 109, 2). The cover can now be removed. Figure 109 Planmeca ProMax E-83 Technical Manual...
Page 182: Shoulder Arm Covers
Chapter E - C-ARM AND IMAGING ARM 5.6 Shoulder arm covers Shoulder arm cover The shoulder arm cover is attached to the shoulder arm with mounting springs. Lift the shoul- der arm cover up from its position. Figure 110 E-84 Planmeca ProMax Technical Manual...
Page 183 REMOVING THE COVERS Chapter E - C-ARM AND IMAGING ARM Bottom cover plate Open the five M5 nuts and remove the nuts, washers and springs. Remove the cover. Washer Spring Washer Bottom cover plate Figure 111 Planmeca ProMax E-85 Technical Manual...
Page 184: Replacing The Sensor Head
Unscrew the sensor head locking screws from the attachment pins with 3mm Allen key. Remove the screws and washers. Figure 112 NOTE When checking the alignment, the sensor alignment tool can now be attached to the connector pins. E-86 Planmeca ProMax Technical Manual...
Page 185 Loosen the electrical connector plate screw with the 2.5mm Allen key. Figure 113 Pull the electrical connector plate towards the connector frame and push the sensor head to its connector. Connector frame Sensor head Electrical connector plate Figure 114 Planmeca ProMax E-87 Technical Manual...
Page 186 Secure the sensor head with the two washers and attachment screws (use 3mm Allen key). Figure 115 Push the electrical connector plate towards the sensor head and tighten the plate screw with the 2.5mm Allen key. Figure 116 E-88 Planmeca ProMax Technical Manual...
Page 187 Attach the back cover to its position with the four attachment screws with 2.5mm Allen key. Attachment screws Attachment screws Figure 117 Press the front cover to its position. Figure 118 The sensor head is removed in reverse order. Planmeca ProMax E-89 Technical Manual...
Page 188: Sensor Head With Quick Connector Mechanism
This will disconnect the electrical connection between the sensor head and C-arm. Indicator light C-arm electrical connector Figure 119 The locking knob can now be turned 180 degrees. This will release the sensor head locking mechanism. Figure 120 E-90 Planmeca ProMax Technical Manual...
Page 189 Chapter E - C-ARM AND IMAGING ARM Pull the sensor head carefully out from its position. Figure 121 Attaching the sensor head to the C-arm Push the sensor head onto the connector on the C-arm. C-arm Figure 122 Planmeca ProMax E-91 Technical Manual...
Page 190 Push in the button of the C-arm electrical connector on the other side to secure the sensor head in position. This will make the electrical connection between the sensor head and C- arm. Button of the C-arm electrical connector Figure 124 E-92 Planmeca ProMax Technical Manual...
Page 191: Promax 3D: Replacing The Sensor Head
PROMAX 3D: REPLACING THE SENSOR HEAD Chapter E - C-ARM AND IMAGING ARM 7 PROMAX 3D: REPLACING THE SENSOR HEAD Detaching the sensor head from the C-arm NOTE The indicator light is lit when the sensor is in use. Removing the sensor head when the indicator light is lit might harm the sensor or cause image data loss.
Page 192 PROMAX 3D: REPLACING THE SENSOR HEAD Chapter E - C-ARM AND IMAGING ARM Carefully pull the sensor head out from its position. Figure 127 Attaching the sensor head to the C-arm NOTE Select the sensor you are using on display i57.2 (Service settings > Select configuration >...
Page 193 PROMAX 3D: REPLACING THE SENSOR HEAD Chapter E - C-ARM AND IMAGING ARM Turn the locking knob over the fastening mechanism. This will secure the sensor head in position. Figure 129 Push in the button of the C-arm electrical connector on the other side to secure the sensor head in position.
Page 194: Replacing Pcbs
Install the new C-arm PCB in reverse order. Connect the cables as shown in Fig. 131. M4x6 DIN 7984 121-10-05 C-Arm C-Arm PCB Angle Sensor 121-10-08 CH7 CH8 Aux. CH4 CH5 CH6 Aux. DIMAX2 Figure 131 E-96 Planmeca ProMax Technical Manual...
Page 195 10002353 Tube Feedback 121-10-05 C-Arm Angle Sensor C-Arm PCB 10002180 10002151 121-10-08 00050852 ONLY IN TOMOGRAPHIC CH7 CH8 IMAGING MODE CH5 CH6 Aux. Aux. 10003369 10002181 DIMAX2 KT35FM1-010 10002181 KT35FM1-010 10003699 Primary Collimators Figure 132 Planmeca ProMax E-97 Technical Manual...
Page 196: Replacing Tube Head
Install the new tube head in reverse order. Make sure that the tube head is parallel with the C- arm casting back edge. Connect the cables as shown in Fig. 132 on page E-97. Perform the adjustments according to the instructions given in section 2.4 “Primary collimator angle adjustment” on page E-12. E-98 Planmeca ProMax Technical Manual...
Page 197: Promax 3D: Replacing Collimator
Chapter E - C-ARM AND IMAGING ARM 10 PROMAX 3D: REPLACING COLLIMATOR NOTE Use of 3D collimator V1 requires ProMax software revision 1.21.0.0.r or later. Use of 3D collimator V2 requires ProMax software revision 1.31.0.0.r or later. NOTE A 3D sensor V2 can only be used on X-ray units with 3D collimator V2. If the X-ray unit is fitted with collimator type V0 or V1 (see display i57.1) the collimator has to be...
Page 198 PROMAX 3D: REPLACING COLLIMATOR Chapter E - C-ARM AND IMAGING ARM The collimator will now be in a position where the screws that secure the collimator in place are visible as shown below. The collimator blades can now be manually moved.
Page 199 PROMAX 3D: REPLACING COLLIMATOR Chapter E - C-ARM AND IMAGING ARM To attach a 3D collimator, proceed as follows. Attach the 3D collimator by tightening the two screws that hold it in position. DO NOT CONNECT THE CABLES YET. Then switch the X-ray unit on.
Page 200: Promax 3D: Updating Reconstruction Pc Software
PROMAX 3D: UPDATING RECONSTRUCTION PC SOFTWARE Chapter E - C-ARM AND IMAGING ARM 11 PROMAX 3D: UPDATING RECONSTRUCTION PC SOFTWARE NOTE The reconstruction PC software is updated from an external PC. Start the ProMax3D Tool program. Select Software – Update Reconstruction PC Software.
Page 201: Promax 3D: Updating Sensor Software
PROMAX 3D: UPDATING SENSOR SOFTWARE Chapter E - C-ARM AND IMAGING ARM 12 PROMAX 3D: UPDATING SENSOR SOFTWARE NOTE The sensor software is updated from an external PC. Start the ProMax3D Tool program. Select Software – Update Sensor Software. Figure 139 Select the software from the browser (e.g.
Page 202 PROMAX 3D: UPDATING SENSOR SOFTWARE Chapter E - C-ARM AND IMAGING ARM E-104 Planmeca ProMax Technical Manual...
Page 203: Chapter F Patient Support Arm
If the light beam does not coincide with the black line or it is not in focus, it must be adjusted according to the instructions in section “Midsagittal plane positioning light adjustment” on page F-2. Technical Manual Planmeca ProMax F-1...
Page 204 To focus the light beam adjust the depth of the lens assembly (Fig. 3, 3). To adjust the light beam horizontal position bend the light attachment plate (Fig. 3, 4). Lens Light assembly assembly attachment screw Lens assembly Light attachment plate Figure 3 F-2 Planmeca ProMax Technical Manual...
Page 205 Select Technical calibrations (i600) from the list on the display. The password to the Techni- cal calibrations mode is asked when the Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 5 Technical Manual Planmeca ProMax F-3...
Page 206 Chapter F - PATIENT SUPPORT ARM ADJUSTMENTS From the list on the i600 display that appears select Layer laser calibration (i660). Figure 6 The Layer laser calibration display appears. Figure 7 F-4 Planmeca ProMax Technical Manual...
Page 207 Ball phantom Layer light beam Figure 8 If the light beam is not vertical, or it is in focus, it must be adjusted according to the instruc- tions in section “Layer light adjustment” on page F-6. Technical Manual Planmeca ProMax F-5...
Page 208 To focus the light beam adjust the depth of the lens assembly (Fig. 9, 2) To adjust the light beam angle rotate the lens assembly of the light (Fig. 9, 3). Layer light Figure 9 F-6 Planmeca ProMax Technical Manual...
Page 209: Removing The Covers
REMOVING THE COVERS Chapter F - PATIENT SUPPORT ARM 2 REMOVING THE COVERS 2.1 Patient support table cover Unscrew the five cover attachment screws and remove the cover. Figure 10 Technical Manual Planmeca ProMax F-7...
Page 210: Support Arm Lower Cover
Unscrew the four attachment screws of the user interface box (PT 3x12 rst WN 1451 torx) and remove the box (Fig. 11, 3). User interface box Grounding cable Back cover Graphic interface cable Figure 11 F-8 Planmeca ProMax Technical Manual...
Page 211 Pull the user interface support from the arm lower cover (Fig. 12, 6). Unscrew the attachment screws of the support arm lower cover with the 2.5mm Allen key and remove the cover (Fig. 12, 7). Grounding cable Support plate Figure 12 Technical Manual Planmeca ProMax F-9...
Page 212: Replacing The Gui Software
Software Update (i590) menu. The exit of the mode is by touching the Done field. NOTE If there are several GUIs connected to the ProMax X-ray unit then the software update has to be done for every GUI separately. Detach other GUIs while updating the software to one of them.
Page 213: Replacing Gui Software Chip, Only For Black/White Gui
FLASH 2 FLASH 1 FLASH 4 Figure 14 NOTE If an IC1 chip is present, remove it too. Carefully place the new software chip into the socket. Attach the user interface to the patient support arm. Technical Manual Planmeca ProMax F-11...
Page 214: Replacing Pcbs
Patient Position Control PCB Chinrest Stop Sensor Switch Grounding cable Patient position control PCB PPC bridges M4x6 DIN 7984 M4x6 DIN 7991 Patient support arm lower cover Figure 15 Install the new PCB in the reverse order F-12 Planmeca ProMax Technical Manual...
Page 215: Graphic User Interface (Gui) Pcb
Detach the user interface assembly from the interface box by unscrewing the four PT 3x12 rst WN1451 Torx screws. Grounding cable PT 3x12 rst WN1451 torx Support plate User interface assembly Interface box Cover PT 3x12 rst WN1451 torx Figure 16 Technical Manual Planmeca ProMax F-13...
Page 216 M2.3x12 DIN 84 PT rst 3x12 WN1451 torx Colour GUI touch panel TFT sharp display frame User interface PT rst 3x8 WN1451 torx Graphic colorTFinterface.eps Figure 17 Install the new GUI PCB in reverse order. F-14 Planmeca ProMax Technical Manual...
Page 217 PCB. Unscrew these screws and detach the PCB from the interface. Dis- connect the flat cable from the connector J4 on the GUI PCB. User interface Figure 18 Install the new GUI PCB in reverse order. Technical Manual Planmeca ProMax F-15...
Page 218 Chapter F - PATIENT SUPPORT ARM REPLACING PCBS F-16 Planmeca ProMax Technical Manual...
Page 219: Chapter G Column
Chapter COLUMN 1 ADJUSTMENTS 1.1 Adjusting the telescopic column position With the height adjusting buttons drive the unit to the position shown in Fig. 19 below. Height adjusting buttons Down Technical Manual Planmeca ProMax G-1...
Page 220 Tighten the upper attachment screw. Loosen left side attachment screws. Adjust the column sideways position with these nuts. Figure 19 G-2 Planmeca ProMax Technical Manual...
Page 221 Use a spirit level to check the column position and manually move the telescopic column so that it is parallel with the stationary column. Loosen left and right lower attachment screws. Figure 20 Tighten the attachment screws. Technical Manual Planmeca ProMax G-3...
Page 222: Calibrating The Column Motor Position Sensor
Using the height adjusting buttons, drive the telescopic column into position (Fig. 21, 2) where the reference mark on the telescopic column and the upper edge of the stationary column are aligned (Fig. 21, 3). Figure 21 G-4 Planmeca ProMax Technical Manual...
Page 223 Select Technical calibrations (i600) from the list on the display. The password to the Technical calibrations mode is asked when the Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 23 Technical Manual Planmeca ProMax G-5...
Page 224 Loosen the two screws at the side of the cog wheel of the sensor (Fig. 26, 1). Note that you have to drive the telescopic column to be able to loosen both the attachment screws. Detach G-6 Planmeca ProMax Technical Manual...
Page 225 Replace the cog wheel to the sensor axle and tighten the attachment screws. Note, that you have to drive the telescopic column to be able to tighten both the attachment screws. Touch the Done field on the Lift motor position sensor calibration display. Technical Manual Planmeca ProMax G-7...
Page 226: Removing The Covers
Press the locking bolt located behind the front panel (Fig. 29, 1) and turn the bolt 90° counter- clockwise (Fig. 29, 2). Detach first the lower part of the panel from the column and then pull G-8 Planmeca ProMax Technical Manual...
Page 227 REMOVING THE COVERS Chapter G - COLUMN the panel out from its position (Fig. 29, 3). 90° Figure 29 Technical Manual Planmeca ProMax G-9...
Page 228: Removing The Telescopic Column Rear Cover Plates
(Fig. 30, 2). Detach the cover plate by pushing the cover plate inwards (see small arrows in the figure below) (Fig. 30, 3). Figure 30 G-10 Planmeca ProMax Technical Manual...
Page 229: Replacing The Column Motor
The X-ray unit contains live mains voltage parts. Always unplug the unit from mains outlet before attempting to service the Input module. CAUTION At least two persons are needed when replacing the column motor. Never try to replace the motor on your own. Technical Manual Planmeca ProMax G-11...
Page 230 12) Detach the hinges and the three mounting blocks from the column (Fig. 31, 11). 13) If the unit is equipped with a cephalostat, disconnect all the cephalostat cables from the CPU PCB and detach the cephalostat. G-12 Planmeca ProMax Technical Manual...
Page 231 REPLACING THE COLUMN MOTOR Chapter G - COLUMN Figure 31 Technical Manual Planmeca ProMax G-13...
Page 232 14) Disconnect the motor cables from the Power PCB, connectors J3 and J10. 15) Unscrew the two M4x6 DIN 7984 attachment screws of the emergency stop microswitch and detach the microswitch (Fig. 32, 1). Detach the column motor earthing cable (Fig. 32, 2). Figure 32 G-14 Planmeca ProMax Technical Manual...
Page 233 ProMax package support frame and the styrofoam pieces. If you overturn the unit without using the ProMax package, you may damage the unit. If you are not using the package, remove the C-arm covers and use e.g. styrofoam pieces under the unit.
Page 234 22) Unscrew the attachment screws of the guide assemblies (Fig. 35, 2). Note that it is easier to assemble the unit if the guide assemblies are in the same position as they were. Pull the stationary column away from the telescopic unit (Fig. 35, 3). Figure 35 G-16 Planmeca ProMax Technical Manual...
Page 235 27) After assembling the motor check and adjust the telescopic column position as described in section 1.1 “Adjusting the telescopic column position” on page G-1. Calibrate the column motor position sensor as described in section 1.2 “Calibrating the column motor position sensor” on page G-4. Technical Manual Planmeca ProMax G-17...
Page 236: Replacing The Lift Nut Assembly
Remove the telescopic column rear cover plates according to the instructions given in section 2.2 “Removing the telescopic column rear cover plates” on page G-10. Remove the stationary column top cover. Stationary column top cover Figure 37 G-18 Planmeca ProMax Technical Manual...
Page 237 Open the accessory cabinet door or remove the lower front panel. Unscrew the two M4x6 DIN 7984 screws of the motor cover and remove the cover. Motor cover Figure 38 Detach the emergency stop switch by unscrewing the two M4x6 DIN 7984 attachment screws. Emergency stop switch Figure 39 Technical Manual Planmeca ProMax G-19...
Page 238 Detach the input module from the stationary column top by unscrewing the four M4.8x19 torx 7981 screws so that you can reach the attachment screws of the lift nut assembly. Figure 40 Detach the earthing cables. Figure 41 G-20 Planmeca ProMax Technical Manual...
Page 239 Support the telescopic column properly to eliminate the downward movement of the column. Position the support so that it leans against the column profile. NOTE! The support must lean against column profile. Figure 42 Unscrew the lift nut assembly attachment screws. Figure 43 Technical Manual Planmeca ProMax G-21...
Page 240 Switch on the unit and drive the telescopic column slowly downwards. The lift nut moves upwards. When the lift nut has reached its uppermost position mark the position of the nut frame upper edge to the column with a marker pen or tape. Figure 44 Switch off the unit. G-22 Planmeca ProMax Technical Manual...
Page 241 Detach the motor absorber support. Note that you have to prevent the motor from falling down when the support is detached. Figure 45 Remove the column cable guide plate from the lift nut. Figure 46 Technical Manual Planmeca ProMax G-23...
Page 242 Remove the absorber support from the motor screw and rotate the lift nut out from the motor screw. Figure 47 Install the new lift nut assembly in reverse order. Make sure that you have connected the emergency stop switch before attaching the motor cover to its position. G-24 Planmeca ProMax Technical Manual...
Page 243: Replacing/Upgrading Software
CPU PCB” on page G-35. Remove the software chip from its socket with the special tool as illustrated in Fig. 48. NOTE The orientation of the software chip is critical. Never try to force the chip into the socket. Technical Manual Planmeca ProMax G-25...
Page 244 Chapter G - COLUMN REPLACING/UPGRADING SOFTWARE Carefully place the new software chips into the sockets. FLASH 3 FLASH 2 FLASH 1 FLASH 4 Figure 48 Assemble the Ethernet PCB and column covers to their positions. G-26 Planmeca ProMax Technical Manual...
Page 245: Loading The Software From A Computer (Alternative 2
Unscrew the back cover attachment screw (PT 3x12 rst WN 1451 torx) and remove the cover. Connect the Software loading cable (Planmeca part number 10003926) to the PS/2 connec- tor at the underside of the user interface.
Page 246 Chapter G - COLUMN REPLACING/UPGRADING SOFTWARE To start the software loading double-click the ProMax software loading program icon: Figure 51 The serial port number is asked first. Type the port number and press the Enter key. The soft- ware loading starts.
Page 247: Replacing The Battery On The Rtc Pcb
Remove the old battery from its socket on the RTC PCB and place a new 20mm Lithium Coin Cell Battery 3V (type CR2032) to the battery socket. Cover M4x6 DIN 7984 screws 20mm Lithium Coin Cell Battery 3V Figure 53 Technical Manual Planmeca ProMax G-29...
Page 248: Replacing Pcbs
90° counter clockwise (2). Detach first the lower part of the panel from the column and then pull the panel out from its position (3). Wait until all the leds are gone out. 90˚ Figure 54 G-30 Planmeca ProMax Technical Manual...
Page 249 Unscrew the four attachment screws of Frankfort plane positioning light assembly (2). Disconnect the light cable from the CPU PCB terminal J7 (3) and lift the assembly from its position. J6 J10 121-10-03 121-10-08 CPU PCB J4 J3 10003359 121-10-11 DIN PCB Figure 55 Technical Manual Planmeca ProMax G-31...
Page 250 Unscrew the Power PCB attachment screws with the 2.5mm Allen key and detach the Power supply PCB from the CPU PCB. Remove the Power supply PCB. Loosen the CPU PCB attachment screws. 121-10-03 CPU PCB 121-10-11 DIN PCB 121-10-02 Power PCB PFC choke assembly Figure 56 G-32 Planmeca ProMax Technical Manual...
Page 251 Attach the PCB holder bush supplied with the Power supply PCB to the upper right attach- ment hole of the removed PFC-Choke assembly Move this PCB holder bush Add this PCB holder bush Figure 57 Technical Manual Planmeca ProMax G-33...
Page 252 If the column motor cable was attached with a PCB holder bush to the old Power supply PCB, use the same bush and attachment screw when attaching the column motor cable to the new PCB (5). Replace the removed parts. Metal clips Heat sink Metal clips Figure 58 G-34 Planmeca ProMax Technical Manual...
Page 253: Ethernet Pcb And Cpu Pcb
1 2 1 -1 0 -0 2 Powe r P C B P S U J 1 0 J 1 1 J 1 0 J 1 3 J 1 2 J 1 2 J 1 3 Figure 59 Technical Manual Planmeca ProMax G-35...
Page 254: Input Pcb
If the X-ray unit is equipped with a locking plate, it must be removed first. Unscrew the two M4X12 DIN7984 screws on the plate with a 2.5 mm Allen key and remove the plate. Unscrew these screws Locking plate G-36 Planmeca ProMax Technical Manual...
Page 255 912 screws with a 3mm Allen key from the Input PCB and remove the PCB (Fig. 60, 3). Install the new PCB in reverse order. Column top cover InputPcb.eps . x1 torx Input PCB Input module Jumpper Unplug the power supply cable Figure 60 Technical Manual Planmeca ProMax G-37...
Page 256 Chapter G - COLUMN REPLACING PCBS G-38 Planmeca ProMax Technical Manual...
Page 257: Chapter H Cephalostat
1.1 Required tools • Ceph head support alignment tool (part number 00653126). Figure 1 • Ceph head support alignment laser (part number 10004499). Used to check the position of the cephalostat head support. Figure 2 Technical manual Planmeca ProMax H-1...
Page 258 10002699). For attaching the beam alignment tool. Figure 3 • Beam alignment tool (part number 50972). For checking the position of the X-ray beam. Figure 4 • Cephalostat calibration tool (part number 10004246). For calibrating the digital cepha- lostat. Figure 5 H-2 Planmeca ProMax Technical manual...
Page 259: Preparations Before Adjustments
“Cephalostat with movable sensor head” on page H-57. If the cephalostat is equipped with fixed sensor head, see section 3.2 “Cephalostat with fixed sensor head - removing and attaching the sensor head” on page H-61. Technical manual Planmeca ProMax H-3...
Page 260: Checking And Adjusting The Sensor Head And Second Primary Collimator Mutual Position
Allen key (Fig. 9, 1 and 2). Lift the belt over the timing belt wheel so that the wheel does not rotate (Fig. 8) and move the collimator so that the right edge of the sledge hits the circle on H-4 Planmeca ProMax Technical manual...
Page 261 Tighten the outer adjustment screws of the belt wheel (Fig. 9, 1) so that the strain of the belt is appropriate so that it does not skip over the timing belt wheel, but the mechanism operates smoothly. Secure the belt wheel with the inner adjustment screw (Fig. 9, 2). Figure 9 Technical manual Planmeca ProMax H-5...
Page 262: Adjusting The Sensor And Second Primary Collimator Rails
(Fig. 10, 1). Adjust the rail position with the adjustment screw (Fig. 10,2) and tighten the attachment screws. Recheck the rail position. Adjustment screw Attachment screws Figure 10 H-6 Planmeca ProMax Technical manual...
Page 263: Adjusting The Sensor Head Connector And Sensor Head Positions
(sideways and in depth). Check the connector position in depth by using the spirit level as shown in Fig. 11 below. 90° Figure 11 Loosen the three attachment screws of the connector. Loosen the three attachment screws. Figure 12 Technical manual Planmeca ProMax H-7...
Page 264 To adjust the connector position in depth rotate the two adjustment screws equally to the same direction. Figure 13 Check the connector sideways position by using the spirit level as shown in Fig. 14 below. 90° Figure 14 H-8 Planmeca ProMax Technical manual...
Page 265 The sensor head must be perpendicular to the sensor rail. Use a sprit level to check the sen- sor head position, i.e. the sensor alignment tool position. In case it is not perpendicular to the head support, the angle of the quick connector mechanism must be adjusted. 90° Figure 16 Technical manual Planmeca ProMax H-9...
Page 266 Adjust the head support angle with the two screws located on the left side of the mechanism (use 3mm Allen key) so that the sensor alignment tool is perpendicular to the cephalostat head support. Figure 17 H-10 Planmeca ProMax Technical manual...
Page 267: Adjusting The Height Of The Cephalostat
The password to the Technical calibrations mode is asked when the Tech- nical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 19 Technical manual Planmeca ProMax H-11...
Page 268 Figure 21 The lower blade of the primary collimator must be on level with the opening on the aluminum frame. To adjust the position of the lower blade rotate the Y-motor screw (Fig. 22, 1) and H-12 Planmeca ProMax Technical manual...
Page 269 Fig. 18. Figure 23 Adjusting the height of head support Exit the Ceph mode beam position mode by touching the Cancel field. Technical manual Planmeca ProMax H-13...
Page 270: Checking The Cephalostat Head Support Position
Place the ceph head support alignment tools in the ear post holders as far as they go. Rotate the head support to the 90° position. Position the laser tool between the alignment tools. PXR_Adj_digiceph24.eps Laser tool Primary collimator mechanism Figure 25 H-14 Planmeca ProMax Technical manual...
Page 271 (refer to sections 1.8 “Cephalostat head support position adjustment” on page H-16 and 1.9 “Calibrating the C-arm position” on page H-19). Remove the laser beam and the ceph head support alignment tools from the head support. Technical manual Planmeca ProMax H-15...
Page 272: Cephalostat Head Support Position Adjustment
Loosen the head support attachment screws (Fig. 27, 1) and the alignment bar screw (Fig. 27, 2). Rotate the alignment bar until the head support is in correct position (Fig. 27, 3 and 4). Locking screw of the adjustment flange Figure 27 Adjusting the ear posts in horizontal direction H-16 Planmeca ProMax Technical manual...
Page 273 (Fig. 28, 4) with the two screws on the adjustment flange (Fig. 28, 2 and 3). Radiation beam Figure 28 Adjusting the ear posts in vertical direction Technical manual Planmeca ProMax H-17...
Page 274 (Fig. 29, 4) with the two screws on the adjustment flange (Fig. 29, 2 and 3). Radiation beam Figure 29 Adjusting the sensor head in vertical direction H-18 Planmeca ProMax Technical manual...
Page 275: Calibrating The C-Arm Position
Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 30 From the list on the i600 display that appears select Primary collimator calibration (i610). Figure 31 Technical manual Planmeca ProMax H-19...
Page 276 Chapter H - CEPHALOSTAT ADJUSTMENTS AND CALIBRATIONS From the list on the i610 display that appears select the Ceph mode C-arm rotation (i61.5). Figure 32 The Ceph mode C-arm rotation display appears. Figure 33 H-20 Planmeca ProMax Technical manual...
Page 277 (see the figure below). Secure the tool with tape. The beam must be on the edge of the Sensor alignment tool sensor alignment tool Beam alignment tool Figure 34 Technical manual Planmeca ProMax H-21...
Page 278 Note that you can release the C-arm and shoulder arm motors by touching the Release field. After releasing the motors you can freely adjust the positions of the arms so that the X-ray field is clearly seen. After the cephalostat beam right side is calibrated, perform calibration described below. H-22 Planmeca ProMax Technical manual...
Page 279 C-arm to the new position by touching the LOWER Test field. The left arrow field moves the C-arm towards the ceph arm, and the right arrow field moves the C-arm away from the ceph arm. Figure 37 Technical manual Planmeca ProMax H-23...
Page 280 Check the head support position according to the instructions given in section 1.7 “Checking the cephalostat head support position” on page H-14. Figure 38 In case the X-ray beam cannot be correctly positioned by adjusting the C-arm position, the cephalostat head support position must be readjusted. H-24 Planmeca ProMax Technical manual...
Page 281: Synchronizing The Scanning Mechanism And First Primary Collimator
The password is 1701. Figure 39 From the i600 display that appears select Primary collimator calibration (i610) and from the i610 display that appears select the Ceph mode beam position (i61.6). Figure 40 Technical manual Planmeca ProMax H-25...
Page 282 Adjust the limit values with the arrow fields on the display and drive the primary collimator to the selected position by touching the Test field. When the beam is correctly positioned, touch the Done field. H-26 Planmeca ProMax Technical manual...
Page 283: Adjusting The Cephalometric Beam Vertical Position
Technical calibrations mode is entered for the first time after switching the unit on. The password is 1701. Figure 43 From the list on the i600 display that appears select Primary collimator calibration (i610). Figure 44 Technical manual Planmeca ProMax H-27...
Page 284 Test field. The left arrow field on the display adjusts the beam downwards, and the right arrow field upwards. H-28 Planmeca ProMax Technical manual...
Page 285 The left arrow field on the display adjusts the beam downwards, and the right arrow field upwards. When the top of the beam is correctly positioned, touch Done. Beam alignment tool in upper position Figure 48 Technical manual Planmeca ProMax H-29...
Page 286: Checking The Second Primary Collimator Position
Figure 49 From the list on the i600 display that appears select Primary collimator calibration (i610) and from the list on the i610 display that appears select the Ceph mode beam position (i616). Figure 50 H-30 Planmeca ProMax Technical manual...
Page 287 Figure 52 Stand behind the tube head and protect yourself from radiation. Press and hold down the exposure button. The image of the radiation beam will appear on the beam alignment tool. Technical manual Planmeca ProMax H-31...
Page 288 If it does not adjust the second primary slot posi- tion. Refer to section 1.13 “Adjusting the second primary collimator position” on page H-33. NOTE The lower limit of the beam may overlap the lower edge of the rectangle. H-32 Planmeca ProMax Technical manual...
Page 289: Adjusting The Second Primary Collimator Position
Check the collimator position in depth by using the spirit level as shown in Fig. 54 below. 90° Figure 54 Loosen the three attachment screws of the collimator plate with 3mm Allen key, if needed. Collimator plate attachment screws Figure 55 Technical manual Planmeca ProMax H-33...
Page 290 To adjust the collimator plate position in depth rotate the two angle adjustment screws equally to the same direction. Adjustment screws Figure 56 Check the collimator plate sideways position by using the spirit level as shown on the Fig. 57 below. 90° Figure 57 H-34 Planmeca ProMax Technical manual...
Page 291 Check the adjustments and tighten the attachment screws. Adjusting the vertical position of the second primary collimator Loosen the two vertical adjustment locking screws with 3mm Allen key. Collimator vertical position locking screw Figure 59 Technical manual Planmeca ProMax H-35...
Page 292 Collimator horizontal position adjustment screw Collimator horizontal position locking screws Figure 61 Attach the second primary collimator cover according to the instruction given in section 2.1 “Attaching the second primary collimator covers” on page H-56. H-36 Planmeca ProMax Technical manual...
Page 293: Beam Check
ADJUSTMENTS AND CALIBRATIONS Chapter H - CEPHALOSTAT 1.14 Beam check This feature in the digital ProMax units allows the user to check that the X-ray unit is properly collimated. NOTE The X-ray beam must be adjusted and the sensor head calibrated before you start the Beam Check.
Page 294 The following window appears. Figure 64 Select next to the Special functions on the ProMax control panel by clicking the i field on the left corner of the display. Select i400 Special functions from the appearing display. Go to i470 Beam Check (see below).
Page 295 Figure 67 NOTE In case the contrast on the exposure is not satisfactory, change the values by touching the arrow fields and take a test exposure. The following window appears on the computer screen. Figure 68 Technical manual Planmeca ProMax H-39...
Page 296 Figure 69 After the exposure is taken the following window appears. Figure 70 You can type any kind of additional information (e.g. name of the clinic) on this window. Con- firm by clicking the OK button. H-40 Planmeca ProMax Technical manual...
Page 297 If the test report shows that the radiation can be seen on the image receptor, you can exit the ProMax Beam Check program by selecting Exit from the File pull down menu. Technical manual Planmeca ProMax H-41...
Page 298: Calibrating The Cephalostat Sensor Head
The calibration files are named the following way according to the serial number of the ProMax unit. If the ProMax sensor head serial number e.g. is: RDX123456, then the calibration files are named as: RDX123456.p4.cal (p = Panoramic) and RDX123456.c4.cal (c = Cepha- lostat).
Page 299 If the high speed feature is used, select a kilovolt value of 70 and a milliampere value of 8 with enhanced resolution, and with normal resolution select 70 kV and 5 mA. Select ProMax from the Settings / Type pulldown menu. Figure 74 The calibration must be performed with both 3x3 (enhanced resolution) and 4x4 (normal res- olution) binning.
Page 300 Take an exposure. The sensor head is now calibrated. After the exposure has been taken the image is shown in the Dimax2Tool window. The triangle on the image must be even, without any irregularities. Figure 78 H-44 Planmeca ProMax Technical manual...
Page 301 H-35 for information on how to align it. Checking the calibration You can test whether the calibration succeeded as follows. Take a test exposure by selecting Test Ceph Cal File from the Calibrate menu. Figure 80 Technical manual Planmeca ProMax H-45...
Page 302 If recalibration does not help, check that the Romexis, DIDAPI and drivers you are using are all from the same CD rom. Check also the cephalostat adjustments by taking an exposure from the ear posts (see section 1.17 “Checking the adjustment” on page H-54). H-46 Planmeca ProMax Technical manual...
Page 303 Note, that the row number is shown on the status bar at the bottom of the window. Zoom in Fit image to window Zoom out Hand Marking tool Figure 84 Technical manual Planmeca ProMax H-47...
Page 304 In case you have already marked six rows, more rows cannot be marked and the following message window appears. Figure 86 The row can be returned back to normal by clicking it with the right mouse button. H-48 Planmeca ProMax Technical manual...
Page 305: Calibrating The Cephalometric Dec
Select the vertical asymmetric image orientation as follows: Touch the Image size field on the Main display. Select image size & orientation display appears. Select the vertical asymmetric image orientation by touching the respective image icon on the display. Technical manual Planmeca ProMax H-49...
Page 306 DEC calibration. Then set the values to 100 as shown below. Figure 88 Touch the i field on the Main display. The list of Information displays appears. Figure 89 From the list of Information displays select Technical calibrations (i600). H-50 Planmeca ProMax Technical manual...
Page 307 The Technical calibrations mode is password protected and the password is asked when the mode is entered for the first time after switching the unit on. The password is 1701. Figure 90 From the list of Technical calibrations select DEC calibration (i630). Figure 91 Technical manual Planmeca ProMax H-51...
Page 308 Figure 92 The Cephalometric DEC display appears. The exposure values suggested on this display are 66 kV value and 5 mA. Use these values when taking an OD exposure. Touch the OD exposure field. Figure 93 H-52 Planmeca ProMax Technical manual...
Page 309 AEC/DEC calibration tool does not properly cover the primary collima- tor opening. To accept the DEC parameters touch the Done field on the Cephalometric DEC display and Exit field on the DEC calibration display. Technical manual Planmeca ProMax H-53...
Page 310: Checking The Adjustment
H-16. Check the cephalostat beam adjustments, refer to sections from 1.9 “Calibrating the C-arm position” on page H-19, to 1.6 “Adjusting the height of the cephalostat” on page H-11. H-54 Planmeca ProMax Technical manual...
Page 311: Removing And Attaching The Second Primary Collimator
Unscrew the three attachment screws of the collimator with the 3mm Allen key and detach the collimator plate (Fig. 98, 3). Collimator plate Cover box Collimator cover Figure 98 Attach the second primary collimator in reverse order. Technical manual Planmeca ProMax H-55...
Page 312: Attaching The Second Primary Collimator Covers
4mm Allen key (Fig. 99, 1). Slide the collimator cover to its position and attach it with the attachment screw by using the 2mm Allen key (Fig. 99, 2). Collimator plate Cover box Collimator cover Figure 99 H-56 Planmeca ProMax Technical manual...
Page 313: Detaching And Attaching The Sensor Head
Cephalostat Cephalostat electrical connector Indicator light Figure 100 The locking knob can now be turned 180 degrees. This will release the sensor head locking mechanism. Locking knob Figure 101 Technical manual Planmeca ProMax H-57...
Page 314 Chapter H - CEPHALOSTAT DETACHING AND ATTACHING THE SENSOR HEAD Carefully pull the sensor head out. Figure 102 Attaching the sensor head to the cephalostat Push the sensor head onto the connector on the cephalostat. Figure 103 H-58 Planmeca ProMax Technical manual...
Page 315 Push in the button of the cephalostat electrical connector behind the sensor head quick con- nector mechanism. This will secure the sensor head in position and make the electrical connection between the sensor head and cephalostat. Button of the cephalostat electrical connector Figure 105 Technical manual Planmeca ProMax H-59...
Page 316 Turn the lock disc approx. 90° counterclockwise. Loosen the attachment screws of the front cover with the 4mm Allen key and slide the cover away from its position (Fig. 106, 3). Lock disk Front cover Back cover Bottom cover plate Figure 106 H-60 Planmeca ProMax Technical manual...
Page 317: Cephalostat With Fixed Sensor Head - Removing And Attaching The Sensor Head
Unscrew the bottom cover plate attachment screw with the 4mm Allen key and remove the cover plate. Figure 107 Unscrew the attachment screw of the back cover with the 4mm Allen key and slide the cover from its position. Figure 108 Technical manual Planmeca ProMax H-61...
Page 318 (Fig. 109, 1). Remove the locking plate from the connector (Fig. 109, 2). Figure 109 Unscrew the sensor head locking screws from the attachment pins with 3mm Allen key. Remove the screws and washers. Figure 110 H-62 Planmeca ProMax Technical manual...
Page 319 If needed, you can now detach the connector front cover by unscrewing the two attachment screws with 3mm Allen key and slide the cover from its position. Front cover Figure 112 The sensor head is attached in reverse order. Technical manual Planmeca ProMax H-63...
Page 320: Removing The Housings And Covers
M5x10 DIN 7984 screw (Fig. 113, 1), and the large front housing is attached to the head support with seven M5x10 DIN 7984 screws (Fig. 113, 2 - 8). Front housing Back housing Figure 113 Removing the ceph head support housings H-64 Planmeca ProMax Technical manual...
Page 321 2 with the 3mm Allen key. 0˚ Figure 115 Rotate the head support to the 45° position as shown on the Fig. 116 below and unscrew the attachment screw number 3 with the 3mm Allen key. 45˚ Figure 116 Technical manual Planmeca ProMax H-65...
Page 322 Figure 118 Loosen the attachment screw of the front housing mounting plate with the 3mm Allen key (Fig. 113, 8) and remove the housing. Attach the housings to the cephalostat head support in reverse order. H-66 Planmeca ProMax Technical manual...
Page 323: Replacing Pcbs
ING THE HOUSINGS AND COVERS” on page H-64. Disconnect all the cables that are connected to the Cephalostat connector PCB. Remove the PCB from its holders. Figure 119 Install the new PCB in reverse order. Technical manual Planmeca ProMax H-67...
Page 324 Chapter H - CEPHALOSTAT REPLACING PCBS H-68 Planmeca ProMax Technical manual...
Page 325: Chapter I Planmeca Proceph
1.1 Required tools • Ceph head support alignment tool (part number 00653126). Figure 1 • Ceph head support alignment laser (part number 10004499). Used to check/calibrate the position of the cephalostat head support. Figure 2 Technical manual ProMax X-ray unit I-1...
Page 326: Removing The Necessary Covers
Chapter I - PLANMECA PROCEPH ADJUSTMENTS AND CALIBRATIONS 1.2 Removing the necessary covers Remove the tube head cover (refer to section 2 “REMOVING THE HOUSINGS AND COV- ERS” on page I-18). Remove the telescopic column rear cover plates, refer to section 2.2 “Removing the tele- scopic column rear cover plates”...
Page 327 ADJUSTMENTS AND CALIBRATIONS Chapter I - PLANMECA PROCEPH From the list on the i600 display that appears select Primary collimator calibration (i610). Figure 4 Set first the Ceph mode C-arm rotation value to zero (0). From the list on the i610 display that appears select Ceph mode C-arm rotation (i61.5).
Page 328 Chapter I - PLANMECA PROCEPH ADJUSTMENTS AND CALIBRATIONS The Ceph mode C-arm rotation display appears. Set the value to zero (0). Figure 6 From the list on the i610 display select the Ceph mode X-collimator calibration (i61.6). Set the left value to 3520.
Page 329 ADJUSTMENTS AND CALIBRATIONS Chapter I - PLANMECA PROCEPH The Ceph mode Y-collimator calibration display appears. Set the y-bottom value to 404. Figure 8 Technical manual ProMax X-ray unit I-5...
Page 330: Adjusting The Height Of The Cephalostat
ADJUSTMENTS AND CALIBRATIONS 1.4 Adjusting the height of the cephalostat Take a beam check exposure. Refer to the Planmeca Device Tool manual, publication num- ber 10031558. The height of the cephalostat must be adjusted so that the bottom border of the beam should be slightly lower or equal the bottom border of the sensor.
Page 331 ADJUSTMENTS AND CALIBRATIONS Chapter I - PLANMECA PROCEPH Loosen the nuts of the attachment plate (1). Adjust the cephalostat height with the nut of the swing bolt (2) so that a fade-out area of 2-3mm is seen in the bottom edge of the X-ray beam.
Page 332: Checking The Cephalostat Head Support Position
Chapter I - PLANMECA PROCEPH ADJUSTMENTS AND CALIBRATIONS 1.5 Checking the cephalostat head support position To select the cephalometric exposure first touch the Prog. field on the Main display and then select the cephalometric exposure by touching the Ceph field on the Select program type dis- play.
Page 333 ADJUSTMENTS AND CALIBRATIONS Chapter I - PLANMECA PROCEPH Open the primary collimator mechanism by rotating the primary collimator screws located behind the blades. The laser beam must hit the lowest point of the calibration circle located on the primary collimator mechanism.
Page 334: Calibrating The Left Side Of The Cephalometric X-Ray Beam
1.6 Calibrating the left side of the cephalometric X-ray beam Take a beam check exposure. Refer to the Planmeca Device Tool manual, publication num- ber 10031558. A fade-out area of 2-3mm must be seen in the left side of the X-ray beam. If needed, adjust the left side of the beam as follows.
Page 335: Cephalostat Head Support Adjustments
ADJUSTMENTS AND CALIBRATIONS Chapter I - PLANMECA PROCEPH When the beam is correctly positioned, touch the Done field. The C-arm position is now cali- brated. NOTE The ceph head support position must always be checked after changing C-arm rota- tion. Check the head support position according to the instructions given in section 1.5 “Checking the cephalostat head support position”...
Page 336 Chapter I - PLANMECA PROCEPH ADJUSTMENTS AND CALIBRATIONS Adjusting the ear posts in vertical direction Make sure that the locking screw of the adjustment flange (1) is loosened. To adjust the ear posts in vertical direction rotate the head support around its horizontal axis (4) with the two screws on the adjustment flange (2 and 3).
Page 337 ADJUSTMENTS AND CALIBRATIONS Chapter I - PLANMECA PROCEPH Adjusting the sensor in vertical direction Make sure that the locking screw of the adjustment flange (1) is loosened. If the cephalostat sensor does not run parallel with the primary collimator, adjust the sensor in vertical direction (4) with the two screws on the adjustment flange (2 and 3).
Page 338: Adjusting The Cephalometric Beam Top Limit
ADJUSTMENTS AND CALIBRATIONS 1.8 Adjusting the cephalometric beam top limit Take a beam check exposure. Refer to the Planmeca Device Tool manual, publication num- ber 10031558. A fade-out area of 2-3mm must be seen in all edges of the X-ray beam. Adjust the beam position as follows.
Page 339 X-ray beam is adjusted. Figure 21 Take a beam check exposure. Refer to the Planmeca Device Tool manual, publication num- ber 10031558. Adjust the top limit value of the X-ray beam with the Y-top limit arrow fields and drive the pri- mary collimator to the selected value by touching the Test field.
Page 340: Calibrating The Right Side Of The X-Ray Beam
Figure 23 Take a beam check exposure. Refer to the Planmeca Device Tool manual, publication num- ber 10031558. Adjust the x-right limit value of the X-ray beam with the arrow fields and drive the primary col- limator to the selected value by touching the Test field.
Page 341: Checking The Adjustment
(R) is a metal ring. The images of these that appear on an exposed image are used to check the alignment of the ear posts. Take a beam check exposure. Refer to the Planmeca Device Tool manual, publication num- ber 10031558.
Page 342: Removing The Housings And Covers
Chapter I - PLANMECA PROCEPH REMOVING THE HOUSINGS AND COVERS 2 REMOVING THE HOUSINGS AND COVERS 2.1 Removing the housings of the head support The screws of cephalostat housings can be reached through the ear post holder attachment opening on the rotatable head support cover. The back housing is attached with one M5x10 DIN 7984 screw (1), and the large front housing is attached to the head support with four M5x10 DIN 7984 screws (2 - 5).
Page 343 REMOVING THE HOUSINGS AND COVERS Chapter I - PLANMECA PROCEPH Rotate the head support to the 30° position as shown on the Fig. 26 below and unscrew the back housing attachment screw with the 3mm Allen key and remove the housing.
Page 344 Chapter I - PLANMECA PROCEPH REMOVING THE HOUSINGS AND COVERS Rotate the head support to the 150° position as shown on the Fig. 29 below and unscrew the attachment screw number 5 with the 3mm Allen key. The front housing can now be lifted from its position.
Page 345: Chapter J Diagrams
Chapter DIAGRAMS Technical Manual Planmeca ProMax J-1...
Page 347 10001773 10001757 10002139 DIMAX2 C -Arm 10003360 10002119 10002115 Angle S ens or C E P H S L I D E 10003361 121-10-07 C as cade P C B S houlder 10003595 E lbow Angle S ens or S LIDE Angle S ens or X-R ay T ube 10002476...
Page 349 C -Arm F lat C able 10001773 10002139 10020748 S houlder E lbow S L I D E 10003360 Angle S ens or Angle S ens or 10003361 121-10-07 C as cade P C B 10003595 S LIDE X-R ay T ube 10002180 C -Arm 10002151...
Page 351 LAS_MID LAS_LAY LAS_GND TMOTC TMOTB TMOA 3 Elbow motor (phase B) Green LAYPOS_GND 4 Elbow motor (phase A) Yellow 10 LATPOS 5 Elbow motor (phase C) Grey 11 +5V_LAYPOS 12 LAYPOS_GND 13 TREFIN 14 DIN 8 Shoulder motor (phase C) Pink 1 GND Black...
Page 353 Brown White Brown White 1 TMOTC Brown 2 TMOTB Green 3 TMOTA White 4 +5V (NC) 5 TREFOUT Brown 6 GND White 1 GND Brown 2 Voltage White 10020571 / 10022760 J 12 121-10-03 C P U P C B 10002150 1 LAS_MID 2 LAS_LAY...
Page 355 1 P ink 3 G rey 1 G reen 7 Y ellow 3 B rown 7 White 10002139 1 BUZZ+ +12V 3 PROT / WP 4 GND 5 BUZZ- 6 CLK 7 DIN 8 DOUT 1. G nd S houlder E lbow Angle S ens or 2.
Page 357 1 P ink 3 G rey 1 G reen 7 Y ellow 3 B rown 7 White 10002139 1 BUZZ+ +12V 3 PROT / WP 4 GND 5 BUZZ- 6 CLK 7 DIN 8 DOUT 1. G nd S houlder E lbow Angle S ens or 2.
Page 359 10026808 C AT 6 C oupler 10003369 10002280 10018343 10018345 S nap-On F errite 10000933 /E nable V C C Orange /S T E P Orange / White B lue / White G ND B lue G reen / White T XD + G reen T XD-...
Page 361 Exp.lamp Stop switch ProMax GUI, B/W (121-10-16), location of indicators C O N N E C T O R S & JU MP E R S & S W IT C H E S IN D IC A T O R S...
Page 363 ProMax GUI, Color (121-10-16), location of indicators C O N N E C T O R S & JU MP E R S & S W IT C H E S IN D IC A T O R S R efer ence N am e...
Page 365 ProMax PSU (121-10-02) Location of indicators, fuses and connectors Shoulder J1 - CPU Interface Z-motor sensors Power Shoulder Motors PlanCan Power Tube Power Z-Motor power Mains In...
Page 367 ProMax CPU (121-10-03) Location of indicators, testpointnts and connectors DIMAX2 Shoulder C-ARM DATA PlanCan Ext Elbow Expansion Flash memory sockets Ceph Arm Flash 4 Flash 3 Flash 1 Flash 2 Frank Laser J7 Spare Laser J8 Debug J17 Reset Button...
Page 369 ProMax RTC (121-10-04), location of indicators R T C - IN D IC A T O R S & T E S T -P O IN T S R efer ence N am e C olor / N or m al idle status...
Page 371 ProMax C-Arm (121-10-05), location of indicators IN D IC A T O R S C O N N E C T O R S & JU MP E R S & S W IT C H E S R efer ence N am e...
Page 373 ProMax FBK (121-10-06), location of indicators TP11 TP10 C O N N E C T O R S & JU MP E R S & S W IT C H E S IN D IC A T O R S...
Page 375 ProMax ETH (121-10-25), location of indicators TP1 TP2 TP3 TP7 TP8 TP9 INDICATORS Reference Name Color / Normal status Details LINK Green / always RX/TX Green / always when Ethernet Connected- Green / always +3.3V Green / always TESTPOINTS Reference Name...
Page 378 Planmeca Oy | Asentajankatu 6 | 00880 Helsinki | Finland tel. +358 20 7795 500 | fax +358 20 7795 555 | sales@planmeca.com | www.planmeca.com...

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