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Fluke TRACKERTM 90100 User's Manual

1. 2 8 2 4 4 Using The Test Detector Button rra 2 8 2 4 5 Using The Units Select PROTON rra 2 9 2 4 6 Using The Air Density Button coconnncnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnns 2 10 2 4 7 Using The Gain Select Button 2 10 2 4 8 Using The Measure Select Button rra 2 11 2 4 8 1 Absolute Measurement coococccocccococononnonococococcccncccccncccccccccncccncnnnnos 2 11 2 4 8 2 Percent Of Center Measurements a 2 12 2 4 8 3 Underranging And Overranging Conditions n 2 13 2 4 9 Battery And Bias Annunciators nne 2 13 2 4 10 Gain Setting lala iaia 2 14 2 4 10 1 Changing Front Panel Gain Factor s From The Measurement 2 15 2 4 10 2 saving the FPGF Changes AAA 2 15 2 4 10 3 Aborting the ERES DEE e E rreren 2 15 Section 3 Theory of Operation eea 3 1 3 1 a Bau RE 3 1 3 2 Overall Function Description Of The Model 35360A TRACKER Display 3 1 3 2 1 EGOE iaa aaa 3 2 3 2 2 300 Volt Electronic Bias Guppiy 3 3 3 2 3 Front Panel SS EE 3 3 3 2 4 O 3 3 3 2 5 VED DISpla fisse aa ie da lo a lolo lol tin 3 3 3 2 6 Serial Communications EO 3 4 3 2 7 A A a esae aaae Er En Ee a e Ea Eaa 3 4 3 2 8 Multiplexer and A D Converter rss 3 4 3 3 Model 35300A lon Chamber Detectors 3 5 3 4 AT Density Corrections sia 3 5 3 5 Basic Operating da Urei 3 6 3 5 1 abiatze 3 6 3 5 2 EISE 3 6 3 5 3 ADSOIMC DOSE ai ste 3 6 3 5 4 Absolute Dose AEA 3 6 3 5 5 P rcent of
2. Gente soiin iiei EE EEEE E AE EE 3 6 3 6 Basic Operating Quantities a 3 7 Section 4 Maintenance and Service ss 4 1 4 1 PCO CUCTION E 4 1 4 2 uela aiala aa AAE 4 2 4 3 Line Fuse Replacement asia OA 4 7 4 4 Interface Connector Cleaning EEA 4 9 4 5 Cleaning The Lau lutu AAA 4 9 4 6 Replaceable Parts teiz 4 9 4 7 Recalibration A Repair Information Technical Assistance 4 10 Section 5 e UEa ARA 5 1 5 1 lauei eie EAT 5 1 5 2 Make A Working Diada Aa 5 2 5 3 Connection To The Computer rnnr nnn nn ennenen 5 2 5 4 Starting The Customization Goftware sr 5 2 5 5 SU ds 5 2 5 6 Blaue al reali 5 5 5 7 Setting The Electrometer Gains And Offsets e 5 6 5 8 Usage DOE irte it liber 5 8 5 9 EMOS EE 5 10 Appendix A USING Build Up ici di A 1 A 1 Build Up Peg And Retainer Kit Options A 1 General Information 1 Introduction Section 1 General Information 1 1 Introduction The Model 90100 TRACKER is a radiation measurement system intended for use in quality assurance programs for high energy accelerators and Coso machines While its ease of operation makes it ideal for daily checks of beam constancy symmetry and flatness its portability makes it a good choice for field service engineers and consulting physicists The two main components of the system are the Model 35360A TRACKER Display and the Model 35300A Detector see Figure 1 1 Figure 1 1 Model
3. such as LCD in that it provides good visibility and a wide viewing angle in all lighting conditions 3 3 Model 90100 Operators Manual 3 2 6 Serial Communications Port A computer interface has been provided in the form of a DCE configured RS 232 port This port is configured for operation at 9600 baud and uses a standard Xon Xoff handshaking protocol The associated RJ 45 type connector is located on the 35360A TRACKER Display s rear panel This interface provides the means for production testing and calibration field customization by the user and fully programmable operation using appropriate software 3 2 7 Electrometer This block contains a fully guarded five channel single range dual measurement mode electrometer It is capable of providing both dose and dose rate measurements from the five detector channels The connection to the electrometer s inputs is made through five coaxial inserts in a D style receptacle located on the 35360A TRACKER Display s rear panel Also located within this connector are three single conductor outputs for safety ground signal ground and ion chamber bias The measurement mode is user selected from the front panel prior to the start of the exposure In the dose mode the electrometer is operated in integrating mode with capacitive feedback Prior to each exposure the user must manually reset the electrometer to zero by pressing the front panel RESET button During dose rate measurements the ele
4. 35360A TRACKER Display and Model 35300A Detector The 35360A TRACKER Display contains a five channel electrometer capable of producing measurements of both dose and dose rate A microcontroller performs air density corrections and displays the measurement results on the 4 line by 20 character vacuum fluorescent display VFD directly in the user s choice of radiological units An integrated rechargeable battery and a 300 V electronic bias supply greatly simplify maintenance of the system Another important feature built into the 35360A TRACKER Display includes the capability for fully remote and automated operation via an RS 232 computer interface software is not included The 35300A Detector contains an array of four orthogonally placed ion chambers on 10 cm radii from a fifth isocentrally located ion chamber The five ion chambers are of a vented circular parallel plate configuration and are fully guarded for low leakage An overlay label on the outside of the 35300A Detector marks the ion chamber locations for alignment with a therapy source light field system The 35300A Detector connects to the 35360A TRACKER Display through a lightweight interface cable This 1 1 Model 90100 Operators Manual cable is of a design that provides a high degree of flexibility and allows it to flatten to fit under a treatment room entrance door Included with each 90100 TRACKER System is an MS DOS based Customization program that provides a means of perfo
5. Charge Gain provides conversion from counts to nC for five electrometer channels operating in the dose mode The units of Charge Gain is nanoCoulombs per Specify the lon Chamber Calibration Factor in units of F1 Help 4 Left T Up gt Right F2 Edit F6 Print F10 Exit Down PgDn Customization Figure 5 2 Display Calibration Items Screen Appearance 5 3 Model 90100 Operators Manual At the bottom of both screens the Customization software displays the active keys and a short definition for each key On the Display Customization screen the serial number of the 35360A TRACKER Display the firmware s version and the current date appear The date of the last calibration appears in the bottom box This date changes to the current date if you make a change to any item Finally in the upper right corner the status indicator for the RS 232 connection appears For normal operation the status indicator should be two blocks connected by a line U_U If the connection is severed the status indicator will indicate so F1 Help On Line Help for using the Customization software Press F1 to view the On Line Help for the Customization software The text includes help on editing and printing F2 Edit Item Editing To edit any Item place the cursor on it and press F2 The Customization software enters Edit mode The Item is blanked and a blinking cursor appears to show the position of the next character Enter t
6. Fluke Biomedical at 440 498 2564 or Fax 440 542 3682 4 9 Model 90100 Operators Manual Table 4 1 Replaceable Parts List AC Line Cord Switzerland 4 7 Recalibration amp Repair Information Technical Assistance If your instrument needs recalibration or repair we request that you consult Fluke Biomedical at 440 498 2564 or Fax 440 542 3682 More information concerning the operation application or service of your instrument may be obtained from the applications engineer at the previously listed numbers 4 10 Customization Introduction Section 5 Customization 5 1 Introduction From the factory the Model 35360A TRACKER Display arrives with valid settings allowing you to make measurements immediately Should the need arise to change or modify any of the Items described below the Customization software provides a friendly environment for customizing the 35360A TRACKER Display to meet your needs The Customization software allows you to modify the power down interval temperature and pressure units an optional message serial number of the detector you are using with the 35360A TRACKER Display units of calibration for the detector and the 35360A TRACKER Display s units and units conversion Additionally the electrometer gains and zeros and the ion chamber calibration factors may be changed The basic features of the Customization software are its ease of use an on line help facility printer support and o
7. Gain Setting Mode before an FPGF can be changed To enter or exit the Gain Setting Mode press and hold the GAIN SELECT button for approximately three seconds Entry into the Gain Setting Mode is indicated by a movement of the gt cursor from the FPG annunciator to one of the five FPGF values as shown in Figure 2 25 Figure 2 25 The Gain Select Screen in the Gain Setting Mode NOTE The FPGF s are automatically enabled upon entering the Gain Setting Mode They cannot be disabled while the instrument is in this mode Subsequent presses of the GAIN SELECT button advance the gt cursor through the FPGF s Press the UP or DOWN button to increase or decrease an FPGF While in the Gain Setting Mode all of the screens may be viewed and the measurement system will function as it does in the Normal Mode The FPGF s may be set either from the Gain Select screen or from one of the Measurement screens Pressing the MEASURE SELECT button cycles the VFD through a sequence consisting of the Absolute Measurement Screen the Percent of Center Measurement Screen and back to the Gain Select Screen 2 14 Operation D Operation Instructions 2 4 10 1 Changing Front Panel Gain Factor s From the Measurement Screen The five FPGF s may be set by adjusting the measurement readings to achieve a set of desired values Press the MEASURE SELECT button until the desired Measurement screen is displayed Press the GAIN SELECT button to advance the gt c
8. Interface Cable Build Up Kit 37825 Contains 10 pieces of 0 44 cm acrylic part number 37051 1 Kits containing other quantities of plates plate materials and plate thicknesses are available Pegs and Retainer Kit 37825 Contains eight each pegs and retainers for attach build up plates to detector Ga Customization Software Kit 37827 OPTIONAL P gt i seo Pegs and Retainer Kit 37825 OPTIONAL Build Up Kit 87825 OPTIONAL System Carrying Case 87780 Model 35300A Detector Model 35360A TRACKER Display E FI ES E 15m Detector to e Display Interface Cable Ny 37783 15 A Model 90100 TRAKCER System Instruction Manual 87826 na Figure 1 3 Model 90100 TRACKER System Parts and Accessories 1 7 Model 90100 Operators Manual Blank page Operation D Introduction Section 2 Operation 2 1 Introduction This section contains set up and connection procedures for the Model 90100 TRACKER System in order to measure therapy beam characteristics If you want to use build up to simulate tissue you can put plates of either solid water or acrylic optional accessories securely on one or both sides of the Model 35300A Detector Build up pegs and retainer rings for securing the plates to the 35300A Detector are optional with the 90100 TRACKER System See Appendix A for additional information It is recommended that the user customize his Model 35
9. and in A DZ the absence of radiation A D Zero ero Counts f A levels are field programmable via Customization Software Overall electrical charge gain of the electrometer A D combination when measuring in the dose mode Charge Charge Gain nC Count gain values are field programmable via Customization Software Overall electrical current gain of the electrometer and A D combination when measuring in the dose rate mode Current Gain nC Min Count Current gain values So field programmable via Customization Software Specific R nC values are supplied by factory for each of the five ion chamber channels Values are field programmable via Customization Software Display Units Display Units Factory default of 0 879 rad R is Conversion Radiation Calibration supplied Value is field programmable Factor Units via Customization Software Air Density Calculated by instrument and depends Correction None on front panel Temperature and Factor Pressure settings Front Panel N User specified via front panel gain one Gain Factor setting lon Chamber lon Chamber Calibration Calibration Units Factor nC 3 7 Model 90100 Operators Manual Blank page Maintenance amp Service Introduction Section 4 Maintenance amp Service The Model 35360A TRACKER Display and 35300A Detector contain no internal operator serviceable parts Disassembly of either unit could result in electrical shock Always turn the 35360A TRACKER D
10. automatically stored at power down and restored at power up Thus the need to reconfigure the front panel settings upon each use has been eliminated Although the Power Supply is under the control of the microcontroller during normal operation through the Power Control connection shown it is forced to turn on when the operator presses the front panel Power On Off button The BATTERY STATUS connection between the Power Supply and the Processor blocks provides the means by which the microcontroller can monitor the battery voltage and thus detect low and exhausted batteries This voltage is automatically displayed during the power up sequence and may be viewed at any time on one of the test screens 3 2 Theory of Operation 3 Overall Functional Description of the Model 35360A Tracker Display 3 2 2 300 VOLT Electronic Bias Supply The 300 volt ionization potential is generated internally by an electronic bias supply circuit The supply eliminates the need for the 35360A TRACKER Display to contain high voltage batteries As explained below the ion chamber collector and guard are maintained at the same potential as the chassis of the 35360A TRACKER Display and the ion chamber bias plates are negatively biased at 300 VDC A readout of the bias potential is facilitated by a divided bias signal generated within the bias supply block and connected to the A D converter The output of the electronic bias supply is highly regulated and filtered In addi
11. s serial port Personal computers have serial ports that are either 9 or 25 pin Determine which you have and use the appropriate adapter included with your 35360A TRACKER Display Use COMI if it is available otherwise use COM2 Turn on the 35360A TRACKER Display Wait approximately five seconds after turning on the instrument before starting the Customization software Place the working disk into the floppy drive If you wish to operate the Customization software from the hard drive copy all of the files from the working disk to a directory on the hard drive 5 4 Starting the Customization Software 1 If you are operating from a floppy drive log onto the drive by typing the drive letter followed by a colon and press Enter e g for drive A type a and Enter 2 Start the Customization software by typing CUSTOM If you connected the instrument to COM2 on your personal computer type CUSTOM 2 We recommend that you print a copy of the customization report as your first step in the customization process This report will contain all of the customization calibration values and thus serve as a guide for returning to the original settings should an operator keyboard error occur during the process Additionally print a copy of the customization report as the final step in the customization process Use this final report to verify the new customization calibration parameter values and then save it in a safe place for future reference 5 5 Screen
12. should be used only by people who are e aware of and understand the limitations of the device as they relate to the measurement of radiation output e knowledgeable about safety procedures observed when working with radiation sources such as therapy radiation machines e aware of safety precautions required to avoid possible injury when using electrical electronic equipment Please take the time to read this manual carefully before operating this instrument 1 4 Safety Terms The following terms are used in this manual The WARNING heading used in this manual explains dangers that might result in personal injury or death Always read the associated information very carefully before performing the indicated procedure The CAUTION heading used in this manual explains hazards that could damage the instrument Such damage may invalidate the warranty 1 5 Manual Addenda Any improvements or changes concerning the instrument or manual will be explained in an addendum included with the manual Be sure to note these changes and incorporate them into the manual 1 6 Specifications 1 6 1 Model 35300A Detector Source Modes and Energies Photons 300 keV to 25 MeV with suitable build up material Electrons 2 MeV to 25 MeV with suitable build up material 1 3 Model 90100 Operators Manual Recommended Operation Conditions Source Distance 100 cm Collimated Field Size 25 x 25 cm Source Dose Rate Range 50 to 500 rads mi
13. sieverts min grays min or monitor units min Front panel gain settings allow the user to easily match displayed measurement values to the linear accelerator s monitor readout or to a precision calibration Precision five channel electrometer provides 0 003 linearity and a long term stability of better than 0 25 of reading per year The system may be operated from either AC line power source or from its internal battery The batteries will be charged during use from AC line power A high performance rechargeable battery system provides 8 hours of continuous operation from a 3 hour charge A low battery annunciator indicates when 30 minutes or less of operation remains General Information 1 Before You Start Safety Precautions 1 3 Before You Start Safety Precautions This product is designed for quality assurance testing of therapeutic radiation treatment machines It is not for machine calibration nor is it intended as a substitute for a precision dosimeter system Farmer type Probe and Electrometer with official calibration Its use should be restricted to the monitoring of constancy of output flatness and symmetry It is the responsibility of the user to establish the correct procedure of uses including the initial configuration of the device via the Customization program included Quality assurance testing should be done by qualified personnel under the supervision of a trained medical physicist The Model 90100 TRACKER System
14. than 1 pA typically 1 rad in 5 minutes Zero Offset Voltage Factory trimmed to 0 counts at the display 1 5 Model 90100 Operators Manual Offset Temperature Drift The zero offset voltage will drift less than 1 count at the display over the operating range of 10 C to 35 C High Performance Battery Charger Battery Type and Capacity 6V 3 cell Lead Acid 5 AH provide 8 hours of continuous operation Recharge Time Fast recharge time on the order of 2 3 hours even during operation Battery Life Span On the order of 8 10 years due to multiple level charging circuit 2000 charge discharge cycles typically Low Battery Annunciator Displayed when 30 minutes or less of operation remains Environment Operating 0 C to 35 C up to 70 relative humidity Storage 25 C to 65 C Mechanical Dimensions 21 6 cm wide x 8 9 cm high x 26 cm deep 10 in x 9 4 in x 4 in Weight 5 kg 11 lbs 1 6 3 Interface Cable Detector to Display Part Number 37783 X where X denotes cable length in meters Standard Length 15 m and 30 m Maximum Total Length 60 m 197 ft lon Chamber Signal Cable Type Five channels of RG 174 low noise coaxial Leakage Less than 0 5 pA over the full operating temperature range Connector Type Display interface end has five AMP male coaxial connectors and three AMP male single conductor connectors housed in a single DB 37 type housing Detector interface end has a five AMP female coaxial conn
15. the VFD With the gt cursor at this position pressing the UP and DOWN keys will toggle the air density correction on and off Figure 2 13 The Air Density Screen With Air Density Corrections Disabled 2 4 7 Using the GAIN SELECT Button Normal Mode Pressing the GAIN SELECT button displays the Gain Select screen see Figures 2 14 and 2 15 This screen displays the five Front Panel Gain Factors FPGF and the Front Panel Gain annunciator FPG The gt cursor points to the FPG annunciator Figure 2 14 The Gain Select Screen With the Front Panel Gain Enabled Figure 2 15 The Gain Select Screen With the Front Panel Gain Disabled 2 10 Operation D Operation Instructions NOTE The FPGF for the center ion chamber is displayed on the bottom line of the VFD Use the UP and DOWN buttons to toggle the FPG annunciator on or off The FPG annunciator in the upper right hand corner of the display signifies that FPG corrections are enabled see Figure 2 15 When the FPG annunciator appears the 35360A TRACKER Display multiplies each ion chamber s exposure value by its FPGF before displaying the reading See section 2 4 10 for information on how to set the front panel gain factors 2 4 8 Using the MEASURE SELECT Button Normal Mode Press the MEASURE SELECT to display the Measurement screen The 35360A TRACKER Display can present the measurement data in an absolute form or as a percentage of the center ion chamber While the
16. to this conversion Additionally the instrument allows you to display readings in monitor units Because monitor units are not defined in terms of radiation units and monitor units could vary from machine to machine we suggest that you develop your own conversion factor from the lon Chamber Calibration Units to monitor units Table 5 1 A Guideline to Converting Between Units roentgen R gray Gy roentgen A roentgen R rad roentgen A rad siever Sv rad rad roentgen R rad rad DISPLAY CALIBRATION ITEMS Charge Gain QG The 35360A TRACKER Display uses the Charge Gain to convert the number from the analog to digital converter to charge The Charge Gain must be in units of nanocoulombs per count Current Gain Current Zero IG and ADZ The 35360A TRACKER Display uses the Current Gain and Current Zero to convert the number from the analog to digital converter to current The Current Gain must be in units of nanocoulombs per minute and the Current Zero must be in units of counts lon Chamber Calibration Factor ICCF The 35360A TRACKER Display uses the lon Chamber Calibration Factor to convert charge from the 35300A TRACKER Detector ion chambers to radiation units The factory calibrates the 35300A TRACKER Detector in units of roentgens per nanocoulomb The accuracy of the calibration factor is 2 5 5 7 Setting the Electrometer Gains and Offsets To set the electrometer gains you must have a Keithley Instrum
17. 20 characters lon Chamber Calibration Units ICCU The lon Chamber Calibration Units Item defines the units in which the ion chambers in the 35300A Detector were calibrated The default is roentgens per nanocoulomb This means that the lon Chamber Calibration Factor ICCF given on the Display Calibration Items screen MUST be in units of R nC Choices for units are roentgens per nanocoulomb grays per nanocoulomb sieverts per nanocoulomb and rads per nanocoulomb Display Units The Display Units Item defines the units in which measurements will be displayed on the 35360A TRACKER Display screen The choices are roentgens grays sieverts rads and monitor units The default is rads Display Units Conversion Factor DUCF The 35360A TRACKER Display uses the Display Units Conversion Factor DUCF Item to convert the output of the ion chambers in units defined by the lon Chamber Calibration Units to the units required for display defined by Display Units IMPORTANT You must set the Display Units Conversion Factor correctly and accurately to convert the ion chamber output to displayed units The default is 0 879 rads R Model 90100 Operators Manual The 35360A TRACKER Display supports four units of radiation To convert between these units use Table 5 1 This table was developed from accepted definitions of radiation units While Table 5 1 shows sieverts and grays as equivalent we acknowledge that other factors may contribute
18. 360A TRACKER Display prior to its first use as a quality assurance tool This customization may involve selecting the desired display units display units conversion factor temperature units and pressure units Procedures for carrying out the customization is covered in Section 5 2 2 Rear Panel Familiarization COMPUTER INTERFACE RS 232 100 240V 50 60 Hz 50VA DETECTORINPUT 4 Figure 2 1 Model 35360A TRACKER Display Rear Panel 2 1 Model 90100 Operators Manual 2 2 1 Powering the System The Model 35360A TRACKER Display may be operated from either line or battery power The line receptacle at the rear panel of the Model 35360A TRACKER Display mates with a 3 wire line cord to provide a connection to line voltage high neutral and earth grouna When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord such as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to an AC power outlet employing a third wire safety ground Failure to ground the Model 35360A TRACKER Display may result in personal injury or death in the event of a short circuit or malfunction The 35360A TRACKER Display operates on battery power for eight hours after a full charge The 35360A TRACKER Display can be recharged quickly usually in two to three hours even during instrument operation A low battery annunciator is displayed when 30 minutes or less of oper
19. ER Display s Front Panel Calculate the new Charge Gain factor using the equation below 950 x ICCF x DUCF Measurement New Current Gain Old Current Gain New Charge Gain Old Charge Gain 5 7 Model 90100 Operators Manual where Measurement is the value on the 35360A TRACKER Display and ICCF and DUCF are defined on page 60 and page 59 respectively Enter the value calculated in Step 2 into the Display Calibration Items screen of the Customization software Be sure to enter it in the correct column and row For example if you are setting the charge gain for the Center chamber enter the value calculated in Step 1 in the third column and first row If you wish to use the Front Panel Gain Factor and the Air Density Correction Factor be sure to enable them after the calibration is finished 5 8 Usage Examples CHANGING THE POWER DOWN INTERVAL gr b NS Place the cursor on the Power Down Interval Item Press F2 The field clears Enter 10 and press Enter The software indicates that it is downloading When the Item reappears the download was successful The number that appears is the value returned from the 35360A TRACKER Display CHANGING THE PRESSURE UNITS POE a Place the cursor on the Pressure Units Item Press F2 The function key area indicates the keys used to make a choice Press the spacebar or use the up and down arrow keys to change the units Select millibars and press Escape The original units
20. Formats The customization software contains two different screens Display Customization Items Figure 5 1 and Display Calibration Items Figure 5 2 Customization Screen Formats 35360A TRACKER Display Customization HA TRACKER Display 4 Power Down 253 S N GE Temperature ESO FW Rev 13AUG92 Pr ssure millimeters A Optional OPTIONAL TEXT UNE Date Detector Serial 12345 4 Sep l n Chamber Cal R nC Ss Display Units rad and Last Calibration Display Units 8 790e 001 8Jun92 A The power down interval specifies the minutes the Dosimeter remains powered periods of inactivity Enter O to disable Automatic Power Down The power down may be set to any duration from 5 to 255 F1 Help T Up F2 Edit F6 Print F10 Exit Down PgDn Calibration Figure 5 1 Display Customization Items Screen Appearance In the middle of the both screens you may select any Item by placing the cursor on it As you move through the list the Help box updates its information to reflect the cursor position This is the Selection mode 35360A TRACKER Display Calibration H Detector F 12345 Top Left Center Right Bottom Charge V T 0000e 00 1 0000e 00 1 0000e 00 1 0000e 00 1 0000e 00 Current 1 0000e 00 1 0000e 00 1 0000e 00 1 0000e 00 1 0000e 00 Current 1 1 S S 4 4 TC Cal Fetr 3 460e 00 3 460e 00 3 460e 00 3 460e 00 3 460e 00 The
21. May 2006 Manual No 37826 Rev 9 2006 Fluke Corporation All rights reserved Printed in U S A All product names are trademarks of their respective companies Biomedical Model 90100 TRACKER System Operators Manual Fluke Biomedical Radiation Management Services 6045 Cochran Road Cleveland Ohio 44139 440 498 2564 www flukebiomedical com rms Table of Contents Section 1 General Information nea 1 1 1 1 Jausi TION esse ean sss cee da NDA ERES RARAS ERA 1 1 1 2 Aa 1 2 1 3 Before You Start Safety Precautions rrura 1 3 1 4 A A irreali 1 3 1 5 Manual AIN talia alia alati pai 1 3 1 6 o norniaynt dare echi cet ech a AE ARAE AERAR RAEE 1 3 1 6 1 Model 35300A Detector eine iraniana 1 3 1 6 2 Model 35360A Tracker Display 0000000crzeze ezine ninna 1 5 1 6 3 Interface Cable Detector To Display 1 6 1 7 Unpacking And Inspectioni alain 1 6 Section 2 Operations nihil 2 1 2 1 INITOAUGHON areali patti 2 1 2 2 Rear Panel Familiarization EAEE 2 2 2 2 1 Powering The eae 2 2 2 2 2 Detector a aA 2 2 2 2 3 RS 232 Computer InterfaC ennn 2 4 2 3 Positioning The Model 35300A Detector In The Beam 2 4 2 4 Operation azuela e Eege ee 2 6 2 4 1 Front Panel CONTO NEE 2 6 2 4 2 Powering Up The Model 35360A Tracker Display o 2 8 2 4 3 Powering Down The Model 35360A Tracker Display
22. Measurement screen is displayed press the MEASURE SELECT button to toggle the display mode between the percentage of center and absolute presentations 2 4 8 1 Absolute Measurements Figure 2 15 shows the ion chamber layout for the Measurement screen in the absolute display mode The 35360A TRACKER Display displays the four outside ion chamber readings in a diamond pattern above the center channel All five readings are in the selected units rads in this case top bottom center units Figure 2 16 Measurement Screen Showing the lon Chamber Layout NOTE The measurement value corresponding to the central ion chamber is always displayed on the bottom line of the VFD Figure 2 17 An Absolute Dose Measurement With Air Density Corrections and the Front Panel Gain Factors Enabled Model 90100 Operators Manual Figure 2 18 An Absolute Rate Measurement With Air Density Corrections and the Front Panel Gain Factors Disabled Prior to making a dose measurement press the RESET button to zero all ion chamber readings Pressing this button has no affect when performing dose rate measurements 2 4 8 2 Percent of Center Measurements The Percent of Center Measurement screen displays the central ion chamber s reading in absolute measurement units and the four peripheral ion chamber s readings as a percentage of the center ion chamber s reading EEE x 100 center left e 100 right 100 center center bottom center cen
23. NVERSION CONVERSION RESULTS BIAS CONTROL DETECTOR lt gt MULTIPLEXER CONNECTOR ELECTROMETER Zra AID CONVERTER Figure 3 1 Hardware Block Diagram of the Model 35360A TRACKER Display 3 2 1 Power Supply The Power Supply converts AC line power in the range of 100 to 240 VAC or 6 VDC from the internal rechargeable battery pack to the various DC voltage levels that are used to power all of the other blocks of the system These interconnections have been omitted from the diagram for clarity The Power Supply also includes a high performance charger for the internal Battery Pack This Battery Pack will normally provide a continuous operational life of approximately 8 hours on one charge The batteries may be charged in about 2 to 3 hours and charging will take place even when the instrument is in use When the batteries have reached their fully charged level the charger automatically enters a trickle charge mode During trickle charging the user need not be concerned about over charging the batteries This mode will maintain the Battery Pack at its fully charged condition indefinitely When operating from batteries an automatic turn off feature may be used to power down the unit after a user defined period of inactivity A low battery annunciator is displayed when less than 30 minutes of the useful battery life remains and an automatic power down will occur when the Battery Pack is completely exhausted All front panel settings are
24. R Display The 35360A TRACKER Display contains a five channel electrometer capable of producing measurements of dose and dose rate lts 4 line by 20 character vacuum fluorescent display VFD can display the measurement results directly in the user s choice of radiological units These readings may include air density corrections if desired An integrated rechargeable battery and a 300 V electronic bias supply greatly simplify maintenance of the system The 35360A TRACKER Display includes an RS 232 serial communication port that allows complete computer control of the measurement system This communications port in conjunction with internal non volatile memory also provides a means of customization and calibration of the 35360A TRACKER Display Figure 3 1 is a simplified hardware function block diagram for the 35360A TRACKER Display While the most important interblock connections have been shown many interconnections have been omitted in order to maintain clarity Three external connections are illustrated These are the AC Line the RS 232 Computer Interface and the Detector Input 3 1 Model 90100 Operators Manual AC sa Ze POWER BATTERY ee EE ZO PACK SUR beit FRONT PANEL VFD SWITCHES DISPLAY A 4 SELECTION DISPLAY POWER iu SWITCH CHARACTERS CONTROL y CONTACTS CONTROL DATA OUT SERIAL Ge gt PROCESSOR COMM 4 gt NTERFACE DATA IN PORT kaia 9 CONNECTOR BIAS CONTROL le ELECTRONIC BIAS SUPPLY CO
25. TRAKCER Display S N AZZ N d d Figure 2 2 Connecting the Interface Cable to the Model 35360A TRACKER Display Rear panel of the Model 35360A TRACKER Display T o Model 35300A Detector J Figure 2 3 Connecting the Interface Cable to the Model 35300A Detector 2 3 Model 90100 Operators Manual 4 Power can now be applied to the system Wait for the Test Detector screen shown below before pressing any keys Reverse the above procedure to disconnect the interface cable from the 35300A Detector Always turn the Model 35360A TRACKER Display s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock 2 2 3 RS 232 Computer Interface RJ 45 Style The RS 232 Computer Interface provides a means for computer controlled factory test and calibration It is also used in conjunction with the Customization program during the user customization process 2 3 Positioning the Model 35300A Detector in the Beam Proper and consistent positioning of the 35300A Detector is necessary for reliable measurement results The 35300A Detector has a printed overlay on both of its flat surfaces to indicate the location of the five detectors inside the assembly The overlays also include a black cross hair to aid in centering the device in the treatment beam The 35300A Detector should be placed so that the center detector will be in the center of the treatment beam F
26. ain Setting and Normal Operation modes In the Gain Setting Mode pressing the GAIN SELECT button advances the cursor through the Front Panel Gain Factor FPGF fields Measure Select The MEASURE SELECT button displays the Measurement screen Subsequent presses toggle the display mode between absolute and percentage presentations Reset The RESET button zeroes all measurement readings when dose units are selected This button displays the Measurement screen if it is not already displayed Up The UP button function depends on the displayed screen It increments the temperature pressure or a front panel gain It toggles the state of the air density correction annunciator or the front panel gain annunciator For the Test Detector screen or the Measurement screen it displays the previously displayed screen Down The DOWN button function depends on the displayed screen It decrements the temperature pressure or a front panel gain It toggles the state of the air density correction annunciator or the front panel gain annunciator For the Test Detector screen or the Measurement screen it displays the next screen 2 7 Model 90100 Operators Manual 2 4 2 Powering Up the Model 35360A TRACKER Display Pressing the POWER button turns on the instrument Initially it runs self tests restores the temperature pressure air density correction factor front panel gain factors and measurement units to their previous values and waits for the bia
27. ation remains When the battery pack is fully discharged the instrument automatically shuts off and will not operate until AC line power is connected The Model 35360A TRACKER Display operates from line voltage ranging from 100 to 240 VAC without operator switching An IEC 320 C13 style receptacle provides worldwide operation by simply changing line cords 2 2 2 Detector Input The Model 35360A TRACKER Display connects to the Model 35300A Detector through an interface cable The cable connects to an 8 pin D connector on the back of the 35360A TRACKER Display housing see Figure 2 1 Before you attach the 35300A Detector to the 35360A TRACKER Display you must perform the following procedure refer to Figure 2 2 and Figure 2 3 1 Turn the 35360A TRACKER Display OFF Always turn the Model 35360A TRACKER Display s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock 2 Firmly press the 8 pin D connectors at either end of the interface cable into the 35360A TRACKER Display and the 35300A Detector see Figure 2 2 and Figure 2 3 CAUTION This interface cable has different mating pins for both the 35300A Detector and 35360A TRACKER Operation D Real Panel Familiarization Display Be sure to use the correct end of the cable 3 Secure the cable at each end by twisting the thumbscrews in a clockwise direction until tight Model 35300A Detector To Model 35360A
28. ctrometer is operated in a non integrating mode with resistive feedback 3 2 8 Multiplexer and A D Converter This block consists of an six channel analog multiplexer and 16 bit A D Converter which operates under the direct control of the microcontroller Its main function is to convert the five analog voltage signals produced by the Electrometer Block into digital signals for use by the microcontroller It is also used to measure the output of the 300 Volt Electronic Bias Supply Although the 16 bit A D Converter operates in a unipolar mode its zero measurement point is offset slightly below the zero output level of the electrometer This configuration provides optimal matching between the A D s input span and electrometer s 3 Volt full scale output swing It also provides the ability to read the small negative voltages which might result from electrometer leakage and offset drift A second 8 bit A D Converter actually located within the microcontroller is used for measuring non critical internal parameters such as the battery voltage and current Full scale electrometer and A D Converter values in electrical units are given in Table 3 1 The corresponding values in radiological units are given in Table 3 2 Table 3 1 Nominal Full Scale and Sensitivity in Electrical Units Dose Dose Rate Rate Full Scale eni Full Scale eea 1000 0 nC 0 1000 0 nC 1000 0 nC min 01 nC min Table 3 2 Nominal Dose and Rate Display Ranges in Radio
29. ectors and three AMP female single conductor connectors housed in a single DB 37 type housing Multiple cables may be interconnected to form other lengths Minimum Conduit Diameter 7 6 cm 3 in without disassembly Cable may be run through smaller opening by using special tool for disassembly Consult factory for further details Weight 2 25 kg 5 Ibs at 15 m weight is approximately proportional to cable length for other lengths Specifications subject to change without notice 1 7 Unpacking and Inspection The 90100 TRACKER System was carefully inspected before shipment Upon receiving the 90100 TRACKER System carefully unpack all items from the shipping carton and check for any obvious signs of physical damage that might have occurred during shipment Report any damage to the shipping agent at once Retain the original packing material in case reshipment becomes necessary The items in Figure 1 3 are included with every 90100 TRACKER System General Information 1 Unpacking and Inspection Standard System Contents e Model 35360A TRACKER Display e Model 35300A Detector 15 m Detector to Display Interface Cable 37783 15 e AC Line Cord Customization Software Kit 37827 Contains disk cable and adapters Optional Equipment System Carrying Case 37780 Dimensions are 41 9 cm wide x 45 2 cm long x 22 2 cm deep 16 50 in x 17 75 in x 8 75 in Empty weight is 0 9 kg 2 Ibs Cable 37783 30 30 m Detector to Display
30. eded the full scale values The full scale value of any unit is guaranteed not to differ from nominal values by more than 2 Long Term Stability Expected to be less than 0 25 of reading per year Non linearity Less than 0 4 of range Display Resolution 0 003 of range 4 3 4 digits for both dose and dose rate Display resolution is limited by the following relationship for all display units 1 A D Count lt 1 Display Count lt 10 A D Counts This relationship insures that the resolution of the measurement display values is as high as possible without exceeding the inherent resolving capability of the A D converter Gain Temperature Stability Less than 0 4 of reading over operating range of 10 C to 35 C Measurement Noise Charge and Current measurement noise are less than 1 count at the display exclusive of source noise effects Typical effects from a Coen source are on the order of 0 2 rad min at 100 rad min Source noise effects during dose rate measurements on a linear accelerator may be excessive Measurement Accuracy Fluke Biomedical factory calibration will provide a basic Charge Current measurement accuracy of 1 of reading 0 3 nC 0 3 nC min exclusive of long term drift and temperature effects Similar results may be obtained in the field using a suitable calibration source such as the Keithley Instruments Inc Model 263 Calibrator Source and the included Customization software Current Leakage Less
31. el operation of the Model 35360A TRACKER Display The 35360A TRACKER Display front panel keys and display are explained Please note that the display examples shown here correspond to a particular customization set up Other customization set ups will produce different results 2 4 1 Front Panel Controls Figure 2 6 shows the front panel of the 35360A TRACKER Display The front panel consists of control buttons and a display The following paragraphs describe the operation of each control button and the corresponding display screens 2 6 Operation D Operation Instructions INDOK 5 Radiation Measurements TRACKER DISPLAY Model 35360A Marit TEST UNITS AIR GAIN MEASURE DETECTOR SELECT DENSITY SELECT SELECT Figure 2 6 The Model 35360A TRACKER Display Front Panel Power The POWER button toggles the system power on or off Test Detector The TEST DETECTOR button displays and sequences the Test Detector screens Units Select The UNITS SELECT button displays the Units Select screen Subsequent presses toggle the measurement units between dose and dose rate units Air Density The AIR DENSITY button displays the Air Density screen Subsequent presses advance the cursor through the temperature pressure and Air Density Correction Factor ADCF fields Gain Select The GAIN SELECT button displays the Gain Select screen Holding the GAIN SELECT key for three seconds toggles the 35360A TRACKER Display between the G
32. ents Inc Model 263 Calibrator Source or equivalent The current required for calibration procedure below must be 15 nanoamperes 0 07 the charge required for calibration procedure below must be 950 nanocoulombs 0 5 The Electrometer Offsets must be specified before the Electrometer Gains 5 6 Customization 5 Setting the Electrometer Gains and Offsets ELECTROMETER OFFSET ADZ The procedure for setting the electrometer offsets for current and charge is the same For every electrometer channel repeat this procedure once Turn the instrument off and disconnect the interface cable if it is connected Always turn the Model 35360A TRACKER Display s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock Turn on the instrument Place the 35360A TRACKER Display in rate mode Turn off the Front Panel Gain Factor FPGF and the Air Density Correction Factor ADCF 1 Resetthe instrument Note the dose rate offset value for the channel under adjustment displayed on the VFD Also note the old ADZ value for the channel under adjustment on the Display Calibration Items screen Calculate a new ADZ value using the following equation ADZnew ADZojg Dose Rate Offset Current Gain x ICCF x DUCF 2 Addthe value calculated in Step 1 to the original ADZ Enter this value into the Display Calibration Items screen of the Customization software Be sure to enter it in the co
33. er ion chamber calibration factors current operating state and an optional text line The optional text line shown in Figure 2 10 can be customized using the Customization software Figure 2 8 Test Detector Screen 1 General Information 2 8 Operation D Operation Instructions Figure 2 9 Test Detector Screen 2 lon Chamber Calibration Factors Figure 2 10 Test Detector Screen 3 Bias and Battery Voltages Plus an Option Text Line In Figure 2 10 the battery current 0 1 A is displayed to the right of the battery voltage 6 8 V A positive current value of up to 2 5 amperes indicates that the battery is being charged from the AC line As the battery approaches full charge this current will decrease to near zero A negative current value will be shown when the instrument is operated from battery power and indicates the actual current consumption of the instrument The battery voltage number displayed is the terminal voltage of the battery During a charging cycle the voltage can be anywhere from 5 5 volts to 8 5 volts After the battery reaches its full charge the charging circuit switches to trickle charge mode with a corresponding terminal voltage of approximately 7 volts The unit will remain in this trickle charge mode as long as the instrument is attached to an AC line When the instrument is operated with battery power the voltage will read between 6 5 volts battery fully charged and 5 4 volts low battery s
34. ext or a value from the keyboard For Items that require a choice use the up and down arrow keys or the space bar to change the Item To exit Edit mode with the changes made to the Item press Enter After you press Enter the Customization software downloads the new information to the 35360A TRACKER Display In this manner the Customization screens always reflects the information in the instrument When the download finishes the Customization software displays the text value or choice it received back from the instrument If the returned information does not match the information sent down an error message appears indicating a mismatch The Customization program retains the original text or value if this error occurs To enter large or small values use scientific notation The accepted format for this type of entry is X XXXE Xxx For example 1 234E 001 would be equivalent to 12 34 1 234E 001 would be equivalent to 1234 It is not necessary to specify all three exponent digits The program accepts an entry of 1e9 to represent 1 000 000 000 To exit Edit mode without change to the Item press Escape The Item will appear in the Selection area as it did before you entered Edit mode F6 Print Report Printing Press F6 to print a report of the customization and calibration items both screens The report is one page F10 Exit Press F10 to exit the Customization software When the confirmation box appears press Y to exit press N t
35. f course full customization capability for the 35360A TRACKER Display The Customization software has the following requirements e IBM Personal Computer or compatible e EGA or VGA display e one floppy drive 5 or 3 inch e DOS version 3 0 or higher e 512k memory e one serial port COM1 or COM2 If you want to produce a record of the customized items you must also have a printer and printer port LPT 1 CAUTION Do not use this software until you are fully familiar with both the setup and operation of the Model 90100 TRACKER System A complete understanding of the Basic Operating Equations Quantities as contained in Sections 3 5 and 3 6 of this manual is an important prerequisite for adjusting the electrometer gains and offsets 5 1 Model 90100 Operators Manual 5 2 Make a Working Disk Before using the Customization software we recommend that a working disk be made To make a working disk simply copy all of the files from the disk to a blank formatted disk Store the original in a safe place CAUTION Always operate the Model 90100 TRACKER System from an AC line power source during the customization calibration process to eliminate the possibility that the 35360A TRACKER Display will automatically shut off prematurely 5 3 Connection to the Computer To prepare the 35360A TRACKER Display for customizing insert the RS 232 cable into the instrument Connect the other end of the RS 232 cable to the computer
36. he 90100 TRACKER System may be used under ambient conditions which significantly differ from these the corresponding changes in the sensitivity of the ion chamber must be accounted for The air density correction factor ADCF has been defined as follows ADCF 760 mm Hg P T 295 15 K where the pressure P is expressed in mm Hg and the temperature T is in Kelvin When the user has customized the 35360A TRACKER Display to use other temperature and pressure units the corresponding values entered by the user at the instrument s front panel are automatically converted to mm Hg and K before use in the above equation The equations used for these conversions are listed in the following table 3 5 Model 90100 Operators Manual Presse Temperature O mm Hg inch Hg 25 4 K 5 9 F 32 273 15 mm Hg 760 54 041 feet ASL 54 041 feet ASL K C 273 15 mm Hg 760 16 472 meters ASL 16 472 meters ASL Mee mm Hg mB 0 75006 AAA mm Hg hPa 0 75006 il 3 5 Basic Operating Equations This section lists the basic operating equations used within the 35360A TRACKER Display to produce its dose and dose rate measurement values for display on the VFD These equations are expressed in terms of a set of basic operating quantities which are described in Table 3 3 3 5 1 Charge Although charge is not a value which can be displayed directly by the 35360A TRACKER Display it is an intermediate result u
37. he dose drift Clean 35360A TRACKER Display s interface connector via procedure given later in this section and Excessive dose drift recheck dose drift 35360A TRACKER Display interface cable Clean interface cable connectors via procudure given later in this section and recheck dose drift Excessive dose drift 35360A TRACKER Excessive dose drift Display only 35360A TRACKER Display interface cable Attempt to clean 35360A TRACKER Display s interface connector was unsuccessful 35360A TRACKER Attempt to clean interface cable N Display will require repair or replacement connectors was unsuccessful Cable will require repair or replacement Connect the 35300A Detector to the interface cable and recheck complete system leakage Excessive dose drift 35360A TRACKER Display 35300A Detector and interface cable Clean 35300A Detector s interface conncector via procedure given later in this section and recheck dose drift The drift problem has been eliminated and the system is ready for use Excessive dose drift 35360A TRACKER Display 35300A Detector and interface cable Attempt to clean the 35300A Detectors s interface connectors was unsuccessful The drift problem has been 35300A Detector will require eliminated and the system is ready repair or replacement for use Figure 4 4 Leakage Flowchart 4 6 Maintenance amp Service Troubleshooting Dose Rate Measurement Value Does No
38. ht 4 kg 8 8 Ibs General Information 1 Specifications 1 6 2 Model 35360A TRACKER Display Measurements Mode The measurement mode is user selected from the front panel prior to the start of the exposure Dose rad Electrometer is operated in integrating mode with capacitive feedback Dose Rate rad min Electrometer is operated in non integrating mode with resistive feedback Display Mode The display mode is user selected from the front panel and may be selected before during or following the exposure Absolute All five ion chamber measurement values are displayed in absolute dose measurement units typically rads or rad min as defined by the dose measurement unit s description Percent of Center Only the center ion chamber measurement value is displayed in absolute dose measurement units typically rad or rad min as defined by the dose measurement unit s description Four peripheral ion chamber measurement values top bottom left and right are displayed as a percentage of the center ion chamber measurement value Electrometer A D Converter Nominal Full Scale Output 3 volts A D Converter Resolution 16 bits unipolar Nominal Full Scale and Sensitivity in Electrical Units A D Dose A D Dose A D Rate A D Rate Full Scale Sensitivity Full Scale Sensitivity 1000 0 nC 2 0 015 nC count 1000 0 nC min 2 0 015 nC min count An overrange indication will be displayed when the input current or charge have exce
39. hutdown voltage 2 4 5 Using the UNITS SELECT Button Pressing the UNITS SELECT button displays the Units Select screen see Figure 2 11 The gt cursor points to the currently selected measurement unit Press the UNITS SELECT button to toggle the gt cursor between the dose and dose rate measurement units Figure 2 11 The Units Select Screen with Dose Measurement Units Selected The Display Units Conversion Factor DUCF is displayed at the bottom of the Units Select screen The 35360A TRACKER Display uses the DUCF to convert from the detector calibration units to the display units selected during the customization process see Section 5 2 9 Model 90100 Operators Manual 2 4 6 Using the AIR DENSITY Button Pressing the AIR DENSITY button displays the Air Density screen see Figures 2 12 and 2 13 This screen contains the temperature value pressure value and Air Density Correction Factor ADCF Press the AIR DENSITY button to advance the gt cursor to the next field To change the value or state of an item at the gt cursor use the UP and DOWN arrows The 35360A TRACKER Display displays the Air Density Correction ADC annunciator in the upper left hand corner of most screens if the air density correction is enabled see Figure2 12 Figure 2 12 The Air Density Screen With Air Density Corrections Enabled To disable the air density correction advance the gt cursor to the ADC annunciator at the upper left of
40. indication Bias error annuciator displayed 35360A TRACKER Display 35300A Detector and interface cable The 35300A Detector is faulty and will require repair or replacement Figure 4 3 Bias Error Flowchart Interface cable is faulty and will require repair or replacement The bias error has disappeared Repeat the troubleshooting procedure if the error indication returns Model 90100 Operators Manual Dose Measurement Value Drifts Prior to or following the Exposure The Model 35360A TRACKER Display and 35300A Detector contain no internal operator serviceable parts Disassembly of either unit could result in electrical shock Always turn the 35360A TRACKER Display s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord such as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to an One or more dose measurement values exhibits a drift rate of greater than two counts per minute in the absence of radiation Disconnect interface cable from 35360A TRACKER Display and recheck dose drift Excessive dose drift 35360A TRACKER Display only AC power outlet employing a third wire safety ground Reconnect interface cable to the 35360A TRACKER Display without the 35300A Detector and recheck t
41. isplay s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord such as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to an AC power outlet employing a third wire safety ground 4 1 Introduction This section outlines steps that the operator may take to identify and correct problems It also gives instructions on how to order replacement parts or arrange for service if necessary For the purposes of troubleshooting the system consists of three major components detector display and an interface cable Even though these major components contain no internal operator serviceable parts a number of problems can be dealt with by the operator in the field environment Model 90100 Operators Manual 4 2 Troubleshooting This system contains a number of troubleshooting procedures that may be executed by the user in the field Each procedure is illustrated in the form of a flow chart and is directed toward resolving the specific symptom listed in the first block of the chart Problem JES O The 35360A TRACKER Display s VFD does not illuminate when See Fiqure 4 1 POWER key is pressed 9 i Low Battery annunciator is displayed on the 35360A TRACKER b p Display s VFD See Figure 4 2 Display s VFD 9 One or more dose measu
42. lectrons is given in Table A 2 Table A 2 takes into account the 0 56 cm water equivalent inherent in the 35300A Detector Cobalt 60 radiation does not require any added build up Table A 1 Recommended Amount of Build up to Use With the Model 35300A Detector to Attain Photons dmax for Linear Accelerators Nominal Number of build up Accelerator Potential plates MeV 37051C 1 Solid Water thickness cm o 4 2 2 3 3 3 4 4 4 4 5 5 5 6 6 6 6 7 7 7 7 8 8 Appendix A Using Build Up Table A 2 Recommended Amount of Build up to Use With the Model 35300A Detector to Attain Electrons dmax for Linear Accelerators 37051C 1 Plates are 0 44 cm Each Nominal Number of build up Accelerator Potential plates MeV 37051C 1 1 0 5 0 5 0 5 1 0 1 0 1 5 1 5 2 0 2 0 2 5 3 0 3 0 3 5 3 5 4 0 4 0 4 5 4 5 5 0 5 5 5 5 6 0 6 0 6 0 Solid Water thickness cm y y 2 2 3 3 4 5 5 6 6 7 7 8 8 A A Ee NN OO i GA The amount of underside build up to be used depends on how closely you wish to approximate the back scattering of a water bath or other test set up Generally several inches are used about eight 37051C 1 plates or about 4 0 cm of Solid Water regardless of the incident energy shown in the tables Fluke Biomedical Radiation Management Services 6045 Cochran Road Cleveland Ohio 44139 440 498 2564 www flukebiomedical com rms
43. line power and turn off power before continuing with this section 4 7 Model 90100 Operators Manual 1 Position the instrument on its display face Model 35360A f TRACKER Display Rear Panel Fuse braver d Fuse Drawer Figure 4 6 Model 35360A TRACKER Display Fuse Replacement 2 Remove the fuse drawer With your fingernails squeeze together the two ends of the fuse drawer and pull it out of its slot 3 Replace the fuses with IEC 127 type FST5X20 0 63 A 250 V time lag fuses Use only the recommended fuse type The use of a higher current rating than specified above may cause damage to the instrument which will void any or all warranties currently in effect 4 Place the fuse drawer back into its slot Press on the fuse drawer firmly until it snaps back into place Both sides of the fuse drawer should snap into place NOTE If fuses continue to blow return instrument for repair 4 8 Maintenance Service Interface Connector Cleaning 4 4 Interface Connector Cleaning Always turn the 35360A TRACKER Display s power off prior to cleaning the interface connectors Failure to do so may result in an electrical shock The presence of dust or lint at the interface connectors can produce leakage currents which may have a detrimental affect upon the accuracy of radiation measurements The ends of the interface cable typically pick up dust and lint as the cable touches the floor duri
44. lly reprogrammed during each power down sequence to hold all of the user s front panel selections Thus the units front panel gain temperature and pressure settings in effect at power down can be automatically restored at the next power up The EEPROM is also used to hold all of the internal electrical calibration factors for the unit as well as all of the customization selections installed by the user over the RS 232 via the Customization program Besides its role as a controller of the other hardware blocks the Processor Block performs several computational functions It applies a number of correction factors to the displayed dose and dose rate values including the air density correction factor the ion chamber calibration factor the display units conversion factor and the front panel gain settings It also performs the ratio calculations necessary to display the percentage of center measurement values for the peripheral ion chambers 3 2 5 VFD Display All display functions are handled by a 4 line by 20 character alpha numeric VFD module The module is under the direct control of the microcontroller and is capable of displaying all of the user s front panel selections as well as the numerical measurement results along with their appropriate units Other informational items including the battery and bias voltage calibration date and ion chamber calibration factors may be displayed The VFD has a distinct advantage over other display technologies
45. logical Units Dose Dose Rate Rate Full Scale Sensitivity Full Scale Sensitivity 3520R 520 3520R E 1 E 3 520 R min 520 3 520 R min 04Rmin 1 04Rmin 3 093 rad 3 093 rad min 0 1 rad min 30 93 Gy 30 93 Gy min 1 MGy min 30 99 SV 30 99 Svimin 3 4 Theory of Operation 3 Overall Functional Description of the Model 35360A Tracker Display Above values assume nominal electrical and radiological sensitivity air density correction and front panel gain factors set to unity and nominal value for the Display Units Conversion Factors The following unity conversion factors were used 3 52 R nC 0 879 rad R 0 00879 Gy R and 0 00879 Sv R The sensitivity values have been selected so the display resolution will not exceed the resolving capability of the A D converter 3 3 Model 35300A lon Chamber Detectors The Model 35300A Detector contains an array of four orthogonal placed ion chambers on 10 cm radii from a fifth centrally located ion chamber The five ion chambers are of a vented circular parallel plate configuration and are fully guarded for low leakage The 35300A Detector connects to the 35360A TRACKER Display through a light weight interface cable Each of the 35300A Detector s five ion chambers may be depicted as containers of air whose inside surfaces bias plates have been given a conductive coating Located centrally in the air volume is a plastic disc collector which also has a conductive coating The c
46. n Nominal lon Chamber Characteristics Wall and Window Material Continental Polymers ACRYCAL CP or equivalent Window Area Density 600 mg sq cm 0 51 cm acrylic plastic Window Transmission 95 for 662 keV photons for electrons transmission through window occurs above 1 5 MeV Sensitivity 3 52 R nC at 22 C and 760 mm Hg Active Volume 0 93 cc 5 Active Diameter 1 162 cm Active Cross Sectional Area 1 06 sq cm Collector to Bias Separation 0 44 cm lon Transit Time 0 418 ms bias voltage of 300V Collection Efficiency gt 99 at 500 rads min pulsed gt 99 9 at 500 rads min continuous Leakage Less than 0 5 pA over the full operating temperature range lon Chamber Factory Calibration Method Each of the 5 ion chambers within the detector array is calibrated by comparison with a reference standard ion chamber in a Cogg beam The comparison is performed in free air and results in an R nC Calibration Factor for each of the five ion chambers Comparison Standard 0 6 cc NE Farmer Probe with 3 MeV buildup cap Uncertainty 2 5 using IEC NIST guidelines Mechanical Specifications Detector Configuration The detector array consists of four orthogonally placed ion chambers on 10 cm radii from a fifth centrally located ion chamber Dimensions 33 7 cm wide x 43 8 cm deep x 2 2 cm high 13 25 in x 17 25 in x 0 875 in Depth dimension assumes handle is fully extended height dimension assumes no accessory pegs or build up added Weig
47. ng packing and unpacking Dirt may later be transferred to the interface connectors located on the 35300A Detector or on the 35360A TRACKER Display during mating with the interface cable In some cases the offending foreign matter may be removed by gently blowing across the connector with dry air Air containing moisture or other contaminants should be avoided A suitable source of dry air is available where camera accessories are sold They are intended for use in cleaning fine and delicate camera equipment If this cleaning method fails to produce satisfactory results then service by Fluke Biomedical will be required A procedure for troubleshooting excessive leakage is given earlier in this section 4 5 Cleaning the Instrument To clean the exterior of the instrument follow these steps Turn off the instrument and disconnect all input connectors 2 Place the cap on the detector connector 3 Moisten a soft cleaning cloth with a solution of three parts water and one part liquid dishwashing BOO WARNING Do not soak the cloth in the solution you must not let the solution drip inside the instrument 4 Use the moistened cloth to wipe the instrument s exterior cover 5 Let the instrument dry completely before using 4 6 Replaceable Parts Information Fluke Biomedical maintains a complete inventory of all normal replaceable parts see Table 4 1 To place an order or to obtain information concerning replaceable parts contact
48. nning of the program If it detects that no instrument is connected the program ends and an error message occurs Check the cable for breaks and confirm that the connections are solid The program defaults to COM1 for the communications port If that port is in use specify COM2 by placing 2 on the command line custom 2 Also make sure that the instrument has been on for at least five seconds 5 10 Appendix A Using Build Up Appendix A Using Build Up A 1 Build Up Peg and Retainer Kit Options If you want to use build up to simulate tissue you can put plates of either solid water or acrylic optional accessories securely on one or both sides of the Model 35300A Detector Build up pegs and retainer rings for securing the acrylic plates to the 35300A Detector are also available as optional accessories see Figure A 1 The build up pegs a set of eight screw into threaded holes in the 35300A Detector four build up pegs can be installed on each side of the 35300A Detector The retainer rings are held in position with set screws that are turned with a hex wrench also included with the Model 90100 TRACKER System Retainer rings Build up Threaded pegs screw into 35300A Detector Hex wrench tightens set screw on retainer ring Kee Figure A 1 Installation of Pegs Build up and Retainer Rings Model 90100 Operators Manual Recommended build up for photons is given in Table A 1 recommended build up for e
49. o return to the Selection mode PgDn Navigation Press the Page Down key to move between the Display Customization Items and the Display Calibration Items screens 5 4 Customization Definitions 5 6 Definitions This section describes all of the Items that may be customized with the Customization software It is split into two sections matching the two screens CUSTOMIZATION ITEMS Power Down Interval The power down interval is used to specify the number of minutes the 35360A TRACKER Display remains powered during periods of inactivity If the 35360A TRACKER Display senses no operator input in the form of a key press exposure or RS 232 command for the duration of the power down interval it will turn itself off This interval must be in the range of 5 to 255 minutes An entry of zero will disable the automatic power down feature Temperature Units This Item provides a selection of temperature scales for use on the 35360A TRACKER Display s Air Density screen The choices are Celsius Fahrenheit and Kelvin Pressure Units This Item provides a selection of pressure scales for use on the 35360A TRACKER Display s Air Density screen The choices are millimeters of mercury Hg inches of mercury feet from sea level meters from sea level millibars and hectoPascals Optional Message Text entered for this Item will appear on the bottom line of the 35360A TRACKER Display s Test screen The Item is limited to a maximum of
50. ollector is electrically insulated from the bias plates and connected to the electrometer input through the 37783 15 detector interface cable Photons or electrons from the linear accelerator or Coso source pass through and are absorbed into the chamber s materials and internal air volume Absorption may also take place in external build up materials when they are present The primary absorption takes place in the chamber s windows and build up materials when the incident photons or primary electrons interact with the atoms of these materials When absorption occurs high speed electrons are emitted from the interacting atoms The high speed electrons spray into the ion chamber s air volume and produce many ionization tracks consisting of lower velocity electrons and air ions The 300 V bias voltage separates the secondary electron cloud from the cloud of positive ions before recombination can occur The sweeping of the electron cloud onto the ion chamber s collector produces a charge or current whose magnitude may be measured by the electrometer 3 4 Air Density Corrections For any vented ion chamber the measurement of exposure in roentgens depends upon the mass of air from which the ionization charge is collected The ion chamber calibration factors ICCF s supplied by Fluke Biomedical expresses this sensitivity in terms of R nC These ICCF s are specified for a temperature of 22 C and a pressure of 760 millimeters of mercury mm Hg Since t
51. or a gantry angle of 0 degrees place the 35300A Detector on the treatment table with the axis label face up and the connector facing away from the gantry The TOP chamber should be the one nearest the gantry This placement is shown in Figure 2 4 Operation O Positioning the Model 353300A Detector in the Beam Gantry Model 35300A Detector Treatment table Treatment head To Model 35360A gt TRACKER Display Treatment table Gantry La To Model 35360A d TRACKER Display Figure 2 4 Setup for 0 Degree Gantry Angle NOTE Build up not shown for clarity For those who have purchased the optional Build Up Peg and Retainer Kit gantry angles other than 0 degrees may be used For gantry angles of 90 or 270 degrees place the 35300A Detector on its side so the label faces the head Orient the connector away from the gantry This placement is shown in Figure 2 5 Operating the 35300A Detector on edge without build up pegs constitutes a tip over hazard and could result in personal injury 2 5 Model 90100 Operators Manual Gantry Gantry arm Treatment 35300A Detector Treatment table Cable to 35360A TRACKER Display 90 degrees gi UU EI To 35360A y TRACKER Display 270 degrees Figure 2 5 Setup for 90 and 270 Degree Angles NOTE Build up not shown for clarity 2 4 Operation Instructions This section contains detailed instructions on the front pan
52. pon which the dose value directly depends Q nC ADC counts ADZ counts x QG nC count 3 5 2 Current Although current is not a value which can be displayed directly by the 35360A TRACKER Display it is an intermediate result upon which the dose rate value directly depends I nC Min ADC counts ADZ counts x IG nC Min count 3 5 3 Absolute Dose AbsoluteDoseDisplay DisplayUnits Q nC xICCF lonChamberCalUnits nC Ze EE xDUCF DisplayUnits lon ChamberCalUnits x ADCFx FPGF 3 5 4 Absolute Dose Rate I nC Min x ICCF lon Chamber Cal Units nC Absolute Rate Display Display Units Min e isplay Display Units Min cE Display Units lon Chamber Cal Units x ADCF x EPGF 3 5 5 Percent of Center Absolute Rate Display for Perhiperal Channel Percentage Display for Perhiperal Channel 100 S Se S Pel dd Absolute Rate Display for Center Channel 3 6 Theory of Operation 3 Basic Operating Quantities 3 6 Basic Operating Quantities Table 3 3 Basic detza Quantities Quantity Description Units Comments Electrical current delivered to readout in nC Min response to radiation incident upon detector Electrical charge delivered to readout in response to radiation incident upon detector Electrometer output level returned by Counts A D Converter during dose or dose rate measurement Electrometer output level returned by A D Converter while operating in the dose rate measurement mode
53. remain and the Customization software returns to Selection mode Repeat steps 2 and 3 Select millibars and press Enter The software indicates that it is downloading When the Item reappears the download was successful CHANGING THE DISPLAY UNITS CONVERSION FACTOR BO NE om 5 8 CAUTION This example changes the current value of a factory set conversion factor Make a note of the value BEFORE changing it so that it may be set to this value at the end of the example Place the cursor on the Display Units Conversion Factor Item Press F2 The field clears Enter 0 765 and press Enter The software indicates that it is downloading When the Item reappears the download was successful The number that appears is the value returned from the 35360A TRACKER Display Press F2 Enter the original value and press Enter The software restores the original value in the instrument Customization 5 Usage Examples CHANGING THE ION CHAMBER CALIBRATION FACTOR UNITS E E bi a CAUTION This example changes the current value of a factory set calibration factor Make a note of the value BEFORE changing it so that it may be set to this value at the end of the example Press the Page Down key until the Display Calibration Items screen appears Move the cursor to the lon Chamber Calibration Factor for the Center chamber IMPORTANT Make a note of the current value Press F2 The field clears Enter 1 234 and press Enter The
54. rement value s exhibits a drift rate of greater than two counts per minute in the absence of radiation 9 i One or more dose rate measurement values does not return to See Figure 4 5 within one count of zero in the absence of radiation 9 Maintenance amp Service Troubleshooting 35360A TRACKER Display will not turn on display will not light NOTE 35360A TRACKER Display s VFD does not illuminate when When attempting to turn the instrument on POWER key is pressed firmly press the POWER key and hold for approximately one second Always allow several seconds between retries The Model 35360A TRACKER Display and 35300A Operating from AC power source Detector contain no internal operator serviceable Disassembly of either unit could result in electrical Always turn the 35360A TRACKER Display s power off prior to connecting or disconnecting the interface Se Connect 35360A TRACKER Display to an AC power source and press the POWER key Failure to do so may result in an electrical When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to AC power outlet employing a third wire safety 35360A TRACKER Display VFD illuminates Verify voltage present at AC ling receptical by connecting and powering some other device Commence operation from AC line power or charge bat
55. rming field customization and calibrations Some of the items that may be field customized include the measurement display units temperature and pressure units the ion chamber calibration factors and the number of minutes to power down This program may also be used to generate a printed report containing all of the customization and calibration settings A number of optional accessories including a carrying case for storage and transport build up plates of various thickness materials and a build up retaining hardware kit are available also 1 2 Features Measurement values from peripheral ion chambers may be displayed in either absolute dose measurement units or as a percentage of the center ion chamber s measurement value A wide AC Line Input Range of 100 to 240 VAC and the use of an IEC 320 C13 style receptacle provide worldwide operation by use of the proper line cord The levels of the internal 300 V electronic bias supply and the rechargeable battery supply are continuously monitored Annunciators appear on the display if an abnormal bias voltage or low battery voltage level is detected All front panel settings are automatically stored at power down and restored at power up eliminating the need to reconfigure the front panel settings upon each use Dose measurement values may be displayed in units of roentgens rads sieverts grays or monitor units Dose rate measurement values may be displayed in units of roentgens min rads min
56. rrect column and row For example if you are setting the charge offset for the Top chamber enter the calculated value in the first column and second row 3 Repeat Steps 1 and2 if the value displayed on the 35360A TRACKER Display is not zero ELECTROMETER GAINS The procedure for setting the electrometer gains differs for current and charge For every electrometer channel repeat the gain setting procedure for current and charge Turn off the Front Panel Gain Factors and the Air Density Correction Factor This procedure requires a special cable Consult the factory for details Electrometer Current Gain IG 1 Apply 15 nanoamperes 900 nC min to the input of an electrometer channel 2 Check the measurement on the 35360A TRACKER Display s Front Panel Calculate the new Current Gain factor using the equation below 900 x ICCF x DUCF Measurement where Measurement is the value on the 35360A TRACKER Display and ICCF and DUCF are defined on page 60 and page 59 respectively 3 Enter the value calculated in Step 2 into the Display Calibration Items screen of the Customization software Be sure to enter it in the correct column and row For example if you are setting the current gain for the Right chamber enter the value calculated in Step 1 in the fourth column and third row Electrometer Charge Gains QG 1 Reset the instrument and apply 950 nanocoulombs to the input of an electrometer channel 2 Check the measurement on the 35360A TRACK
57. s Percent of Center while center chamber is within range limit OVER for peripheral chamber Percent of Center Center chamber overranges OVER for all chambers 2 4 9 Battery and Bias Annunciators As already discussed the 35360A TRACKER Display continuously monitors the ion chamber bias and battery voltages If either one of these values is outside the specified range the 35360A TRACKER displays an annunciator to indicate the error Table 2 2 specifies these annunciators Table 2 2 Bias and Battery Annunciators Condition Annunciator _ High Bias voltage Low Battery voltage 2 13 Model 90100 Operators Manual Figure 2 24 illustrates the locations of the annunciators on the VFD The High Bias annunciator would appear in place of the Low Bias annunciator should this condition be detected Figure 2 24 Positions of the Battery and Bias Annunciators See Section 4 for information on how to deal with the LoBat HiBias and LoBias conditions 2 4 10 Gain Setting Mode The 35360A TRACKER Display uses several variables to determine an exposure s value the electrometer reading in Coulombs and Coulombs min the Display Units Conversion Factor DUCF an lon Chamber Calibration Factor ICCF the Air Density Correction Factor ADCF and a Front Panel Gain Factor FPGF The FPGF s provide a means of adjusting the measurement readings from the front panel of the 35360A TRACKER Display The 35360A TRACKER Display must be in the
58. s supply to stabilize NOTE When attempting to turn the instrument on firmly press the power ON OFF button and hold for approximately one second Always allow several seconds between retries During this self test period the 35360A TRACKER Display displays a sequence of screens on its VFD The first screen to appear after pressing the POWER ON OFF button is the Pixel Test screen shown in Figure 2 7 Figure 2 7 The Pixel Test Screen This screen will remain visible for approximately two seconds and be followed by the General Information Test Screen shown in Figure 2 8 After an additional two seconds the display will change to the Bias and Battery Voltage Test Screen shown in Figure 2 10 As soon as this screen is displayed the 35360A TRACKER Display is fully operational and ready to respond to further panel key presses 2 4 3 Powering Down the Model 35360A TRACKER Display Pressing the POWER ON OFF button turns the instrument off As part of the power down sequence the 35360A TRACKER Display saves all of its front panel settings and is thus able to restore these settings during the next power up sequence 2 4 4 Using the TEST DETECTOR Button Press the TEST DETECTOR button to display the first Test Detector screen see Figure 2 8 Use the TEST DETECTOR UP and DOWN buttons to cycle through the three Test Detector screens These screens contain information about the instrument s calibration date firmware revision date serial numb
59. software indicates that it is downloading When the Item reappears the download was successful The number that appears is the value returned from the 35360A TRACKER Display Press F2 Enter the original value and press Enter The software restores the original value in the instrument CHANGING THE CURRENT GAIN PA Ga N N CAUTION This example changes the current value of a factory set current gain Make a note of the value BEFORE changing it so that it may be set to this value at the end of the example Press the Page Down key until the Display Calibration Items screen appears Move the cursor to the Current Gain for the Top chamber IMPORTANT Make a note of the current value Press F2 The field clears Enter 1e100 and press Enter The software indicates that it is downloading Because the value 1e100 is not a valid value for the Current Gain the software indicates a mismatch error Press any key to clear the error Note that the instrument returned a value but not the one that was entered Enter the original value and press Enter The software restores the original value in the instrument Model 90100 Operators Manual 5 9 Errors During program operations errors may appear The error messages are grouped into input errors a hardware error and communication errors INPUT ERRORS Input errors may appear while changing Item values When these errors occur press any key to clear the error and enter a differen
60. splay is faulty and will require repair or replacement Refer to Section 5 3 Low Battery Flowchart Maintenance amp Service Troubleshooting Bias Error LoBias or HiBias Indication at the Display The Model 35360A TRACKER Display and 35300A Detector contain no internal operator serviceable parts Disassembly of either unit could result in electrical shock Always turn the 35360A TRACKER Display s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord such Bias error annuciator is displayed on 35360A TRACKER Display s VFD Disconnect interface cable from 35360A TRACKER Display and recheck VFD for bias error indication as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to an AC power outlet employing a third wire safety ground Bias error annuciator displayed 35360A TRACKER Display only Reconnect interface cable to the 35360A TRACKER Display without the 35300A Detector and recheck VFD for bias error indication 35360A TRACKER Display s electronic bias circuit is faulty 35360A TRACKER Display will require repair or replacement Bias error annuciator displayed 35360A TRACKER Display and interface cable Connect the 35300A Detector to the interface cable and recheck VFD for bias error
61. t Return to Zero in the Absence of a Radiation Beam The Model 35360A TRACKER Display and 35300A Detector contain no internal operator serviceable parts Disassembly of either unit could result in electrical shock Always turn the 35360A TRACKER Display s power off prior to connecting or disconnecting the interface cable Failure to do so may result in an electrical shock When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord such as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to an AC power outlet employing a third wire safety ground The problem appears to be caused by one or more improper A D Zero setting Use the TRACKER Customization Software to readjust the A D Zero setting for each drifting channel Figure 5 5 One or more dose rate measurement values do not return to within one count of zero in the absence of radiation Switch 35360A TRACKER Display to the dose measurement mode and check for excessive leakage drift Dose measurement leakage drift greater than 2 counts per minute The problem appears to be caused by current leakage in one or more measurement channels Use the Dose Leakage Troubleshooting chart Figure 5 4 to further diagnose the problem Dose Rate Measurement Zero Problem Flowchart 4 3 Line Fuse Replacement Disconnect the 35360A TRACKER Display from other equipment along with the AC
62. t value After clearing the error you may press Escape to end editing The input errors are e Value must be greater than zero e Must specify at least one digit e Value must be less than 999 99 HARDWARE ERROR A hardware error occurs when the program cannot perform a required hardware operation The only hardware error is a printer error If the Customization software cannot send information to the printer the following message appears Printer Error Press any key to clear the error Correct the problem causing the error for example out of paper or the printer is not on line and try printing again COMMUNICATION ERRORS These errors indicate that the communications between the computer and the instrument is faulty Generally the icon in the upper right corner indicates the status of the RS 232 connection The following errors indicate problems during actual communication Press any key to clear the error Dosimeter is not connected If the RS 232 connection becomes severed during communication this error appears Re connect the line and try the download again Upload Download mismatch If the information received from the 35360A does not match that sent by the Customization software this error appears Generally the downloaded information was out of the boundary given for the specific Item The Customization software retains the ORIGINAL text or value Finally the Customization software checks the RS 232 connection at the begi
63. ter units 100 Figure 2 19 A Percentage Measurement Showing How the Ratios are Calculated Figure 2 20 A Percentage Dose Measurement With Air Density Corrections and the Front Panel Gain Factors Enabled Figure 2 21 A percentage rate measurement with both air density corrections and the front panel gain factor disabled NOTE Pressing the RESET button while performing a dose measurement causes all percentages to immediately change to UNDER This is normal operation see section 2 4 8 3 for more information 2 12 Operation D Operation Instructions 2 4 8 3 Underranging and Overranging Conditions The 35360A TRACKER Display displays an underrange indicator when a preset threshold has not yet been reached and an overrange indicator when the electrometer s maximum limit has been exceeded see Figures 2 22 and 2 23 An underrange occurs in the percent of center measurement mode when the central exposure is too small to precisely calculate percentages Figure 2 22 Underranging the Electrometer Figure 2 23 Overranging the Top and Night Channels of the Electrometer Table 2 1 summarizes the underrange and overrange conditions and results Table 2 1 Underrange and Overrange Conditions Measurement Mode Chamber Reading Absolute Overrange a chamber OVER for chamber Percent of Center EES at cemer chamber tog amalli UNDER for all peripheral chambers calculate percentages SE A peripheral chamber overrange
64. teries AC line voltage present Check AC line fuses at rear panel of 35360A TRACKER Display Replace 35360A TRACKER Return 35360A TRACKER Display Display s AC line fuses to Keithley for repair Refer to Section 5 3 Figure 4 1 No Display Flowchart 4 3 Model 90100 Operators Manual Low Battery Indication at the Display Figure 4 2 4 4 The Model 35360A TRACKER Display and 35300A Detector contain no internal operator serviceable Disassembly of either unit could result in electrical Always turn the 35360A TRACKER Display s power off prior to connecting or disconnecting the interface Failure to do so may result in an electrical When powering the 35360A TRACKER Display from an AC line always use a 3 wire grounding type line cord as the one supplied with the 90100 TRACKER System In addition only connect the 35360A TRACKER Display to AC power outlet employing a third wire safety Commence operation from AC line power or charge batteries Replace 35360A TRACKER Display s AC line fuses Low Battery annuciator is displayed on 35360A TRACKER Display s VFD Operating from AC power source Connect 35360A TRACKER Display to an AC power source and press the POWER key Low battery annuciator displayed Verify voltage present at AC line receptical by connecting and powering some other device AC line voltage present Check AC line fuses at rear panel of 35360A TRACKER Display 35360A TRACKER Di
65. the GAIN SELECT button for approximately three seconds These settings become permanent and will be used when the 35360A TRACKER Display displays the FPG annunciator 2 4 10 4 Aborting the FPGF Changes To abort any changes made to the FPGF s turn off the instrument while in the Gain Setting Mode This causes the 35360A TRACKER Display to discard the new FPGF settings and use the values previously stored 2 15 Model 90100 Operators Manual Blank page Theory of Operation 3 Introduction Section 3 Theory of Operation 3 1 Introduction The Model 90100 TRACKER System is a radiation measurement system intended for use in quality assurance programs for high energy accelerators and Coso The two main components of the system are the Model 35300A Detector and the Model 35360A TRACKER Display This section describes the basic theory of operation of these devices For more information regarding radiation dosimetry and on chamber measurement theory the reader should refer to one of the standard radiology physics texts The section begins with a simplified hardware block diagram of the Model 35360A Display accompanied by a short description of the most important blocks Next follows a short description of the Model 35300A Detector and a discussion of air density corrections The section concludes with a description of the system s basic operating parameters and equations 3 2 Overall Functional Description of the Model 35360A TRACKE
66. tion the output energy and current have been limited should the operator make direct contact Since the bias voltage at the detector input connector is automatically discharged at power down the operator should always turn the instrument off before attempting to make or break a connection involving the detector interface cable During operation the Bias Supply output level is continuously measured and verified Any abnormal level will be indicated by an annunciator on the VFD 3 2 3 Front Panel Switches The nine front panel switches are of the momentary contact type and are continuously monitored by the microcontroller for detection of contact closure At the detection of any contact closure the microcontroller scans the switch set to determine which key has been pressed and then takes the appropriate action The dedicated function of each key is described in Section 2 3 2 4 Processor The Processor block is based on the Motorola 68HC11 microcontroller and includes 256 KBytes of factory programmed memory EPROM containing all of the executable code firmware The revision date associated with this code is displayed during the power up sequence on the VFD Also contained within the Processor block is 32 KBytes of RAM memory which is used to hold all volatile variables those whose values are lost when the instrument is powered down A 512 byte block of nonvolatile memory EEPROM has also been provided A portion of the EEPROM is automatica
67. ursor among the five measurement values Next use the UP and DOWN buttons to adjust the selected measurement value When the measurement values are displayed in the absolute form see Figure 2 26 pressing the UP or DOWN arrow increments or decrements the selected chamber s FPGF For example increasing the left dose value by 2 will increase the left FPGF by 2 Figure 2 26 An Absolute Dose Measurement With the Center lon Chamber Selected for FPGF Modification When the measurement values are displayed in the percent of center form see Figure 2 27 and the ki cursor is pointing at one of the percentage values pressing the UP or DOWN arrow will increment or decrement the selected chamber s FPGF For example increasing the left percentage value by 2 will increase the left FPGF by 2 When the measurement values are displayed in the percent of center form and the gt cursor points to the center ion chamber s absolute measurement value pressing the UP or DOWN arrow increments or decrements all five of the FPGF s This causes the FPGF of the center channel to increase while allowing the four peripheral ratios to remain unchanged For example increasing the center chamber s absolute dose value by 2 will increase all five of the FPGF s by 2 Figure 2 27 A Percentage Dose Measurement With the Left lon Chamber Selected for FPGF Modification 2 4 10 3 Saving the FPGF Changes To save any changes made to the FPGF s press and hold

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