Fluke Light Therapy Device 35040 User Manual

35040  
Therapy Dosimeter  
Operators Manual  
February 2005  
Manual No. 37870 Rev. 10  
©2004, 2005 Fluke Corporation, All rights reserved. Printed in U.S.A.  
All product names are trademarks of their respective companies  
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Table of Contents  
Section 1:  
General Information................................................................................... 1-1  
1.1  
1.2  
1.3  
1.4  
1.5  
1.6  
1.7  
Introduction ............................................................................................................................ 1-1  
Features................................................................................................................................. 1-1  
Before you Start - Safety Precautions.................................................................................... 1-2  
Safety Symbols and Terms.................................................................................................... 1-2  
Manual Addenda.................................................................................................................... 1-3  
Specifications......................................................................................................................... 1-3  
Unpacking and Inspection...................................................................................................... 1-7  
Section 2:  
Theory Of Operation.................................................................................. 2-1  
2.1  
2.2  
Introduction ............................................................................................................................ 2-1  
Functional Description............................................................................................................ 2-1  
Power Supply .................................................................................................................. 2-2  
Front Panel...................................................................................................................... 2-2  
MicroController ................................................................................................................ 2-2  
Serial Communications Port............................................................................................ 2-2  
Electrometer .................................................................................................................... 2-2  
Bias Supply...................................................................................................................... 2-3  
Multiplexer and A/D Converter ........................................................................................ 2-3  
Basic Operating Equations .................................................................................................... 2-3  
Setting Thresholds........................................................................................................... 2-7  
Exposure Time ................................................................................................................ 2-8  
Air Density Correction Factor .......................................................................................... 2-9  
2.2.1  
2.2.2  
2.2.3  
2.2.4  
2.2.5  
2.2.6  
2.2.7  
2.3  
2.3.1  
2.3.2  
2.3.3  
Section 3:  
Operation.................................................................................................... 3-1  
3.1  
3.2  
3.3  
3.4  
3.5  
3.6  
3.7  
3.7.1  
3.7.2  
3.7.3  
3.7.4  
3.8  
Setup...................................................................................................................................... 3-1  
Front Panel Familiarization .................................................................................................... 3-1  
Rear Panel Familiarization..................................................................................................... 3-2  
Powering the System............................................................................................................. 3-2  
Power-Up Self-Test and Display Messages .......................................................................... 3-3  
Ion Chamber Connector......................................................................................................... 3-3  
Basic Measurement Techniques............................................................................................ 3-4  
General Considerations................................................................................................... 3-4  
Making Non-Timed Exposure Measurements................................................................. 3-4  
Making Timed Exposure Measurements............................................................3-5  
Using Other Ion Chambers.............................................................................................. 3-6  
Battery Care........................................................................................................................... 3-6  
Operation Instructions............................................................................................................ 3-7  
Front Panel Controls........................................................................................................ 3-7  
Powering Up the Model 35040 Therapy Dosimeter ........................................................ 3-8  
Powering Down the Model 35040 Therapy Dosimeter.................................................... 3-9  
Using the Test Function Button....................................................................................... 3-9  
Automatic Leakage Compensation ............................................................................... 3-11  
Timer Setup................................................................................................................... 3-13  
Setting Thresholds......................................................................................................... 3-13  
Using the Detector Select Button .................................................................................. 3-14  
Using the Air Density Button.......................................................................................... 3-14  
3.9  
3.9.1  
3.9.2  
3.9.3  
3.9.4  
3.9.5  
3.9.6  
3.9.7  
3.9.8  
3.9.9  
Section 3:  
3.9.10  
3.9.11  
Operation .............................................................................................. 3-1  
Using the Units Select Button........................................................................................ 3-15  
Using the Bias Select Button......................................................................................... 3-15  
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3.9.12  
3.9.13  
3.9.14  
3.9.15  
3.9.16  
3.10  
3.10.1  
3.10.2  
3.10.3  
3.10.4  
3.10.5  
3.10.6  
3.10.7  
3.10.8  
3.10.9  
3.10.10  
3.10.11  
3.10.12  
3.10.13  
Using the Reset/Measure Button .................................................................................. 3-17  
Overrange Conditions.................................................................................................... 3-17  
Reset Error .................................................................................................................... 3-18  
Reset Error (With Automatic Leakage Compensation Enabled)................................... 3-19  
Annunciators.................................................................................................................. 3-19  
Customization ...................................................................................................................... 3-21  
Introduction.................................................................................................................... 3-21  
Installing/Uninstalling Customization Software.............................................................. 3-21  
Connection to the Computer.......................................................................................... 3-21  
Starting the Customization Software............................................................................. 3-21  
Downloading.................................................................................................................. 3-22  
Menu Items and Controls .............................................................................................. 3-22  
Ion Chambers................................................................................................................ 3-23  
Special Items................................................................................................................. 3-25  
Measurement Displays.................................................................................................. 3-26  
Timer Intervals............................................................................................................... 3-30  
Bias Settings.................................................................................................................. 3-31  
Examples....................................................................................................................... 3-32  
Errors............................................................................................................................. 3-34  
Section 4:  
Troubleshooting and Service ................................................................... 4-1  
4.1  
4.2  
4.3  
4.4  
4.5  
4.6  
4.7  
4.8  
4.9  
4.10  
4.11  
Introduction ............................................................................................................................ 4-1  
Troubleshooting ..................................................................................................................... 4-1  
Display Will Not Light............................................................................................................. 4-6  
Low Battery ............................................................................................................................ 4-7  
Bias Error ............................................................................................................................... 4-8  
Line Fuse Replacement......................................................................................................... 4-9  
Interface Connector Cleaning .............................................................................................. 4-10  
Cleaning the Instrument....................................................................................................... 4-10  
Replacement Parts Information ........................................................................................... 4-10  
Recalibration, Repair Information & Technical Assistance.................................................. 4-11  
Warranty Information............................................................................................................ 4-11  
Appendix A: Sample Customization Reports................................................................A-1  
A.1  
Sample Documents................................................................................................................A-1  
Appendix B: Addendum Features of Firmware Version “27JAN00” or Later.............B-1  
B.1  
B.2  
Introduction ............................................................................................................................B-1  
New Features.........................................................................................................................B-1  
Overview..........................................................................................................................B-1  
Timed Measurements......................................................................................................B-1  
Specifications Update......................................................................................................B-2  
Setup......................................................................................................................................B-3  
Making Non-Timed Exposure Measurements.................................................................B-3  
Making Timed Exposure Measurements.........................................................................B-4  
Operation Instructions............................................................................................................B-5  
Front Panel Controls........................................................................................................B-5  
Using the Test Function Button.......................................................................................B-6  
Automatic Leakage Compensation .................................................................................B-6  
Timer Setup.....................................................................................................................B-8  
B.2.1  
B.2.2  
B.2.3  
B.3  
B.3.1  
B.3.2  
B.4  
B.4.1  
B.4.2  
B.4.3  
B.4.4  
ii  
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Appendix B: Addendum Features of Firmware Version “27JAN00” or Later.............B-1  
B.4.5  
B.4.6  
B.5  
B.6  
B.7  
Reset Error (with Automatic Leakage Compensation Enabled)......................................B-8  
Annuciators, Indicators, and Overrange Conditions........................................................B-9  
Theory of Operation.............................................................................................................B-11  
Troubleshooting ...................................................................................................................B-12  
Customization ......................................................................................................................B-13  
The Main Menu..............................................................................................................B-13  
The Measurement Menu ...............................................................................................B-13  
B.7.1  
B.7.2  
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General Information  
1
Introduction  
Section 1  
General Information  
1.1 Introduction  
The Model 35040 Therapy Dosimeter is designed for calibration dosimetry of therapeutic radiation  
treatment machines including high-energy accelerators, 60Co, and brachytherapy equipment. The  
instrument can be used for calibration, government compliance testing, installation and set-up of new  
equipment, and troubleshooting.  
The Model 35040 Therapy Dosimeter is a reference grade instrument that exceeds calibration  
laboratories’ 1993 recommendations for linearity, long-term stability, and zero drift. The instrument uses  
calibrated ion chambers to simultaneously measure and display dose and dose rate in the user specified  
radiological units. At the user’s discretion, the reading may be corrected for air density by user entered  
ambient temperature and barometric pressure readings.  
The highly regulated, precision electronic bias is continuously monitored. The bias voltage may be  
selected from the front panel.  
The Model 35040 Therapy Dosimeter provides a timer for performing timed charge and dose  
measurements. A typical application of the timer is for measuring brachytherapy sources. The  
instrument supplies four timed measurement quantities, which may be added to any of the  
measurement displays with the Customization software  
Triaxial ion chamber input connectors are furnished on both the front and rear of the instrument to  
make it easier to set up and use.  
For the first time in a therapy dosimeter, the effective exposure time for 60Co source is determined  
from a single exposure.  
1.2 Features  
Low leakage current in the instrument.  
All front panel settings are stored at power down and recalled at power up.  
A wide variety of measurements are available simultaneously; including charge, dose, current, dose  
rate, accumulated charge, accumulated dose, and effective exposure time.  
Timer for performing timed charge, predicted time charge and corresponding dose measurements.  
The user may select one of 32 ion chamber calibration factors for direct readout of dose or dose  
rate units.  
Dose measurement values may be displayed in units of Roentgens, rads, Sieverts, or Grays. Dose  
rate measurement values may be displayed in dose units per second, minute or hour. For  
brachytherapy applications, the instrument may be configured to read in Curies, becquerles, or  
kerma.  
The user may enter ambient temperature and pressure for air density correction of dose and dose  
rate measurements. Air density correction may be turned on or off from the front panel.  
The user may select the dose rate time divisor from the front panel.  
1-1  
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35040  
Operators Manual  
The ion chamber bias voltage may be set to one of 11 user-customized settings. The display  
indicates the polarity of the central electrode and the actual measured output voltage generated by  
the ion chamber bias supply.  
Highly regulated, stable, electronic ion chamber bias supply.  
The level of the internal electronic bias supply is continuously monitored. Annunciators appear on  
the display if an abnormal bias voltage level is detected.  
Bright, clear, multi-line alphanumeric display.  
Simplified, uncluttered control panel.  
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 system may be operated from either AC line power source or from its internal battery. The  
battery will be charged from AC line power during use.  
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.  
Automatic power-down after a user-specified time period, when operating from battery power.  
1.3 Before You Start - Safety Precautions  
The Model 35040 Therapy Dosimeter should be used only by people who are:  
Aware of and understand the limitations of the device as they relate to the measurement of  
radiation output  
Knowledgeable about safety procedures observed when working with radiation sources, such as  
therapy radiation machines  
Aware of safety precautions required to avoid possible injury when using electrical/electronic  
equipment  
NOTE  
The Model 35040 Therapy Dosimeter is NOT  
approved for applications where the sensor or the  
dosimeter is in contact with the patient.  
Please take the time to read this manual carefully before operating this instrument.  
1.4 Safety Symbols And Terms  
The following symbols and terms are found on the instrument and used in this manual.  
The  
symbol on the instrument indicates that the user should refer to the operating instructions  
located in the manual.  
The  
symbol on the instrument shows that high voltage may be present on the terminal(s). Use  
standard safety precautions to avoid personal contact with these voltages.  
WARNING  
The  
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.  
1-2  
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General Information  
Safety Symbols and Terms  
1
CAUTION  
The  
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  
Charge Measurements  
Range, Resolution and Repeatability:  
Repeatability (  
counts)  
Full Scale Range  
Display Resolution  
200.00 pC  
2.0000 nC  
20.000 nC  
200.00 nC  
2.0000 μC  
20.000 μC  
200.00 μC  
2.0000 mC  
20.000 mC  
0.01 pC  
0.0001 nC  
0.001 nC  
0.01 nC  
0.0001 μC  
0.001 μC  
0.01 μC  
0.0001 mC  
0.001 mC  
5
1.5  
2.5  
1
1
1
1
1
1
Measurement Method: Charge flowing into the input is integrated using a capacitive feedback  
electrometer whose output is measured by means of a 20 bit bipolar A-D converter. A high-speed reset  
circuit removes the integrated charge on the feedback capacitor each time it reaches a level of 2 nC in  
either polarity. By monitoring both the number of 2 nC resets and the charge on the feedback capacitor,  
the total charge flowing into the input is determined.  
Factory Calibration: Basic factory charge calibration is performed by injecting -1.90 nC and 19.0 nC via  
a precision standard air capacitor. This method is believed to provide a calibration accuracy of  
0.05%rdg ( 0.05% of reading) as detailed in the table below:  
Factory Calibration Error Source  
Charge Source Accuracy (Capacitor)  
Charge Source Accuracy (Voltage Change)  
Temperature Effects (21°C – 25°C)  
Other  
(%rdg)  
0.01  
0.01  
0.02  
0.01  
Maximum Error  
0.05  
The field adjustable current and charge scale factors are set to their nominal value of 1.000 during factory  
recalibration.  
1-3  
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Measurement Accuracy: Charge measurement accuracy is warranted to be better than ± (0.20%rdg + 2  
counts) over the operating temperature range of 18°C to 28°C for 1 year.  
Field Calibration: Field calibrations may be performed via a restricted distribution MS-DOS Calibration  
program. This program is available to the AAPM accredited calibration laboratories (or equivalent) and  
may be used to adjust the current and charge scale factors from their nominal factory setting of 1.000.  
Timed Charge Measurements  
Range and Resolution: Same as charge measurements.  
Measurement Method: The timed charge measurement is derived by monitoring the charge integrated  
over a time interval that begins with the activation of the timer. The timer automatically stops when the  
elapsed time is equal to the timer interval setting or the exposure is over. Interpolation is used to  
determine the charge at an integral number of seconds.  
Measurement Accuracy: Same as charge measurements assuming that the rate of charge delivery does  
not dramatically change within the interpolation window interval.  
Current Measurements  
Range, Resolution, and Noise:  
Noise  
( counts)  
Full Scale Range  
Display Resolution  
200.0 pA  
2.000 nA  
20.00 nA  
200.0 nA  
1.000 μA  
0.1 pA  
0.001 nA  
0.01 nA  
0.1 nA  
0.001 μA  
2
2
1
1
1
Measurement Method: The basic current measurement is derived by monitoring the change in the  
integrated charge level over successive 1-second intervals. Dividing the change in integrated charge by  
the 1-second integration period interval yields the current value.  
Measurement Accuracy: Current measurement accuracy is ± (0.20%rdg + 2 counts) over the operating  
temperature range of 18°C to 28°C for 1 year. Since the current measurements are based directly upon  
charge measurements, an independent current calibration is not required.  
Measurement Noise: Current measurement noise is typically 1 to 4 counts peak to peak (depending  
upon the range) when the input is supplied by a quiet DC current source. When using a 0.6 cc Farmer  
Probe to measure the output of a typical 60Co source, noise in the current measurement may be on the  
order of 0.4 R/min peak to peak at 100 R/min. Normal variations in the output exposure rate produced by  
a linear accelerator may result in excessive noise on the current measurement.  
Response Speed: The display of current measurement values will begin within 1 second of the start of  
the exposure and reach 99% of the final level within 2 seconds.  
Average Current Measurements  
Range and Resolution:  
Full Scale Range  
200.00 pA  
Display Resolution  
0.01 pA  
2.0000 nA  
0.0001 nA  
20.000 nA  
0.001 nA  
200.00 nA  
0.01 nA  
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General Information  
1
Specifications  
1.0000 μA  
0.0001 μA  
Measurement Method: Average current measurement is derived by monitoring the charge integrated  
over the time interval beginning 1.33 seconds after the detection of the start of the exposure, and ending  
1.33 seconds prior to the detection of the end of the exposure. Dividing the charge integrated over this  
interval by duration of the time interval yields the average current value.  
Measurement Accuracy: The accuracy of the average current value in %rdg is approximately equal to  
the accuracy of the integrated charge measurement value from which it is produced. This value may be  
calculated by converting the “counts” contribution to a %rdg and summing this value with the inherent  
0.20%rdg base accuracy of the charge measurement. Since the average current measurements are  
based directly upon charge measurements, an independent current calibration is not required.  
Measurement Noise: Average current measurement noise decreases as the integration time interval  
increases. Typically, the noise in the average current measurement after a 100 second integration  
interval will be 10 times less than is present in the current measurement.  
Response Speed: The display of average current measurement values will begin within 4 seconds of the  
start of the exposure.  
Effective Exposure Time Measurements  
Range and Resolution:  
Full Scale Range  
Display Resolution  
Seconds  
59.99 s  
Hours/Minutes/Seconds  
59.99 s  
0.01 s  
0.1 s  
19,999.9 s  
5 h 33 min 19.9 s  
Measurement Method: The effective exposure time value is calculated as the quotient of the charge and  
average current measurement values. A minimum exposure duration of 3.5 seconds is required to  
produce an effective exposure time measurement value.  
Measurement Accuracy: Although the accuracy of the effective exposure time measurement value is  
directly dependent upon the accuracy of the internal oscillator frequency (better than 0.01%), more  
important to the achievable accuracy of this measurement are the effects of linearity and noise in the  
exposure and average current measurement values upon which it is based. In practice, an upper limit of  
the error in the exposure time value in %rdg will be equal to the %rdg noise observed in the average  
current display values.  
Response Speed: The display of effective exposure time values will begin within 4 seconds of the start of  
the exposure.  
General Measurements  
Dose Conversion: Dose measurement values are calculated by forming the product of the measured  
charge, ion chamber calibration factor, and the air density correction factor.  
Dose Rate Conversion: Dose Rate measurement values are calculated by forming the product of the  
measured current, ion chamber calibration factor, air density correction factor, and time unit multiplier.  
Measurement Non-Linearity: The maximum variation from a straight line is 0.1% of range on all charge  
and current ranges.  
Long Term Stability: Ultra high long-term stability on the order of 0.1% per 5 years for both charge and  
current measurements is expected. Long-term measurement stability is verified as a part of each factory  
recalibration using inputs of -1.90 nC and 19.0 nC for charge and 19.0 nA for current. Compliance to  
the warranted specifications is considered satisfied if the observed measurement errors (%rdg) meet the  
following equations:  
1-5  
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Period  
Period  
Observed Charge Error [  
and  
×0.10%]+0.10%  
×0.10%] + 0.15%  
5
Observed Current Error [  
5
where “Period” is the time interval in years between calibrations.  
Gain Temperature Stability: The maximum temperature effect is less than 0.05%rdg for both charge  
and current measurements over operating range of 18°C to 28°C. Add an additional 0.05%rdg for  
operation during and immediately following battery charging at the high rate. Add an additional  
0.01%rdg/°C for operation over the ranges of (8°C to 18°C) and (28°C to 38°C).  
AC Line Gain Stability: The maximum AC line voltage effect is less than 0.02%rdg over the full  
operating range of 100 to 240 VAC (47 - 63 Hz).  
Maximum Input Current: To achieve the stated measurement accuracy, the instantaneous input current  
must be limited to less than 100 nA.  
Input Protection: The electrometer input is protected by a 100 kW 10% series resistor. The maximum  
input current level of 3 mA should never be exceeded. Currents above this level may damage the  
instrument.  
Exposure Threshold: The start and end exposure thresholds are adjustable from the front panel over the  
range of 0.0 to 9.9 pA in 0.1 pA steps. Setting the start exposure threshold to 0.0 pA disables the  
automatic exposure detection system and turns off both the automatic reset and current leakage  
compensation features. When the start exposure threshold is set above 0.0 pA, the leakage  
compensation feature operates by automatically subtracting the leakage current value from the measured  
current throughout the duration of the exposure. Both the displayed current and charge values are thus  
compensated for leakage current effects. The leakage current value used in this compensation is derived  
by averaging the current over the 10 s period immediately prior to the start of the exposure.  
Current Leakage: Dosimeter input leakage is warranted to be less than 10 fA over both the full operating  
temperature range of 8°C to 38°C and for humidities up to 80% R.H., but only for conditions in which the  
absolute humidity is £ 20 g/m3 (the equivalent R.H. is 75% at 25°C, 60% at 30°C, and 50% at 35°C).  
Stabilization Time: The instrument is warranted to meet its measurement accuracy and current leakage  
specifications within 2 minutes of power up. A maximum of 2 minutes may be required for the leakage  
current to stabilize to below the 10 fA level following a change to the ion chamber bias voltage selection  
(exclusive of ion chamber and cable effects). The instrument is warranted to meet its measurement  
accuracy specifications within 1 hour of power up.  
Input Connectors: Two female triaxial type mounted on front and rear panels and connected in parallel.  
High Performance Power Supply and Battery Charger  
AC Line Input Voltage Range: 100 to 240 VAC (47 - 63 Hz) without operator switching.  
AC Line Input Receptacle: IEC 320/C13 style with integral fuse holder located on the rear panel.  
AC Line Protection Fuse: 5 x 20 mm IEC type F1H250V fuses are used.  
Battery Type and Capacity: Lead acid battery provides 8 hours of continuous operation.  
Recharge Time: Fast recharge time less than 3 hours to the full charge level, even during operation.  
Low Battery Annunciator: “LoBat” is displayed when the battery voltage drops below 5.9 V. To protect  
the battery from deep discharge, the unit automatically powers down when the battery voltage drops  
below the level of 5.4 V. The instrument will operate for approximately 30 minutes with the “LoBat”  
annunciator displayed before automatically powering down.  
Automatic Power Down: The instrument may be customized by the user (via the supplied Customization  
program) to automatically power down after a preset period of inactivity (lack of a key press, RS-232  
1-6  
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General Information  
1
Specifications  
command, or exposure detection). The automatic power down feature applies only when the instrument  
is operating from battery power. In addition, all front panel settings are saved as part of the automatic  
power down sequence.  
Internal Electronic High Voltage Ion Chamber Bias Supply  
Voltage Range: A maximum of 11 output level settings in the range of -500 V to +500 V may be  
programmed during user customization. Once programmed, these output levels become available for use  
and may be selected from either the front panel or via the RS-232 interface.  
Level Accuracy: Bias voltage is warranted to be within 0.3 V over the full operating temperature range  
for loads < 0.2 mA.  
Internal Verification: The voltage level is continuously measured during operation and compared to the  
selected setting. A “LoBias” or “HiBias” annunciator is displayed if the measured level differs from the  
selected setting by more than 1 V.  
Capacitive Loading: Maximum ion chamber cable capacitance is 5,000 pF from ground to guard or from  
guard to center. For a typical 100 pF per meter triaxial cable, the maximum cable length is therefore 50  
meters.  
Output Current Limit: The output current is limited to < 0.5 mA for operator safety.  
General  
RS-232 Interface: Single RJ-45 style jack mounted on rear panel. Interface operates at 9600 bps, with 8  
bits, no parity, and one stop bit. Xon/Xoff handshaking is employed.  
Display: 4 line by 20 character vacuum florescent type.  
Environment  
Operating: 8°C to 38°C with an absolute humidity of £ 20 g/m3 (the equivalent R.H. is 75% at 25°C, 60%  
at 30°C, 50% at 35°C).  
Storage: -25°C to +65°C. For maximum battery life, always bring the batteries to a level of full charge  
prior to storage, and maintain the storage temperature at 25°C or below. Under these conditions the  
batteries should receive an annual maintenance recharge to compensate for the self-discharge effects.  
Decrease the time interval between maintenance recharges by one-half for each 10°C increase in storage  
temperature above the 25°C baseline.  
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: 4.5 kg (10 lbs.).  
1.7 Unpacking and Inspection  
The Model 35040 Therapy Dosimeter was carefully inspected before shipment. Upon receiving the Model  
35040 Therapy Dosimeter, 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  
following items are included with the Model 35040 Therapy Dosimeter:  
Standard System Contents  
Model 35040 Therapy Dosimeter  
AC Line Cord – USA (CO-19)  
Customization Software Kit (37886)  
1-7  
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35040  
Operators Manual  
-
-
-
CD, 35040 Standard Customization (37870CD)  
9-pin connector adaptor (37616)  
7 foot RJ-45 Cable (105-260)  
1-8  
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Theory of Operation  
2
Introduction  
Section 2  
Theory of Operation  
2.1 Introduction  
The Model 35040 Therapy Dosimeter is a radiation measurement instrument intended for use in  
calibration procedures for high-energy accelerators, 60Co, and brachytherapy. Basic theory of operation  
of the instrument is explained in the following paragraphs. For information on radiation dosimetry and ion  
chamber measurement theory, the reader should refer to one of the standard radiological physics texts.  
2.2 Functional Description  
The Model 35040 Therapy Dosimeter is a portable instrument that measures charge and current.  
Calibrated ion chamber factors convert charge and current to directly measure radiation dose and dose  
rate in the user specified radiological units. The reading may be corrected for air density by the user  
entering ambient temperature and barometric pressure readings. The electronic bias setting is selectable  
from the front panel.  
FUSE  
AC Line  
BATTERY  
PACK  
POWER  
POWER  
SUPPLY  
SWITCH  
FRONT PANEL  
SWITCHES  
VFD  
CONTACTS  
DISPLAY  
SELECTION  
POWER  
BATTERY  
STATUS  
SWITCH  
CONTROL  
CONTACTS  
RS-232  
SERIAL  
COMM.  
PORT  
COMPUTER  
INTERFACE  
CONNECTION  
PROCESSOR  
HIGH VOLTAGE ISOLATION  
BIAS CONTROL  
ELECTRONIC  
BIAS SUPPLY  
CONVERSION  
CONTROL  
CONVERSION  
RESULTS  
BIAS  
ION  
CHAMBER  
MULTIPLEXER AND  
A/D CONVERTER  
ELECTROMETER  
CONNECTOR  
Figure 2-1.Hardware Block Diagram of the Model 35040 Therapy Dosimeter  
2-1  
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35040  
Operators Manual  
2.2.1 Power Supply  
During operation, the instrument may be powered by line voltage in the range of 100 to 240 VAC or from  
the internal 6 volt sealed lead acid battery for up to 8 hours. The power supply consists of a high  
performance charger that continuously charges the battery whenever the instrument is plugged in. The  
charger has three charging stages.  
First stage: if the battery is fully discharged, the charger slowly recharges the battery until all cells in the  
battery have a minimum charge level on them. The instrument will not operate until the battery has more  
than the minimum charge on each cell. The first stage may be more than 18 hours depending on how  
severely discharged the battery is.  
Second stage: the charger enters a high charge rate that can restore more than 80% of the charge in 2 to  
3 hours - even during normal operation. The battery voltage will range from 5.5 to 8.5 volts. The battery  
current may be as high as 2.5 amps. After 3 hours of charging, the battery has enough charge for 8  
hours of continuous operation.  
Third stage: the charger enters a float charge stage that can be used indefinitely to maintain a full charge  
on the battery without harm. The battery voltage is approximately 7 volts. The current will range from 0.5  
to 0.01 amps. The lower the current, the closer the battery is to full capacity. For additional information  
on care of the battery, see Section 3.8.  
When operating from batteries, the battery current will be negative. The battery voltage will range from  
6.5 volts to 5.4 volts. There are two automatic mechanisms to prevent excessive discharge of the battery.  
If the voltage drops below 5.9 volts, a low battery annunciator (LoBat) is displayed on the front panel.  
Less than 30 minutes of operating time are left. When the voltage drops to 5.4 volts, the firmware  
automatically turns off the instrument. The hardware will turn off the power if the voltage drops below 5.4  
volts.  
The AC Power Line is fused as it enters the instrument with two fuses. These external fuses may be  
replaced by the user (see Section 4.6 for details).  
2.2.2 Front Panel  
Pressing the power switch, an isolated, momentary-contact switch, once turns the power on. Pressing it  
again turns the power off. At least 5 seconds should elapse after turning the power off to let the internal  
parts reset before trying to turn power back on. The other keys, a matrix of 8 open contact membrane  
switches, are scanned when any key closure is detected. The key code is stored until it is used. The four  
line by twenty-character vacuum fluorescent display is easy to read over a wide range of lighting  
conditions.  
2.2.3 MicroController  
A Motorola processor controls the instrument. The operating program is stored in EPROM. RAM is used  
for volatile storage. Calibration parameters (gains and offsets) and customization parameters (ion  
chamber calibration factors, pressure, and temperature units, bias settings) are stored in EEPROM. Each  
time the instrument is turned off, all front panel settings are stored in a small portion of the EEPROM.  
The settings are restored when the instrument is turned on.  
2.2.4 Serial Communications Port  
The serial port is configured as an RS-232C data communications device (DCE) running at 9600 baud, 8  
bits, no parity, and 1 stop bit. The protocol uses XON/XOFF handshaking. This port is used for factory  
calibration and testing, for calibration, for customization, and for remote control/data acquisition.  
Inadvertent changes of the calibration or customization parameters are prevented by use of a three-step  
sequence.  
2-2  
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Theory of Operation  
Functional Description  
2
2.2.5 Electrometer  
The electrometer is a single range, resettable, integrating amplifier. The high speed solid state reset is  
activated either by the operator pressing the RESET/MEASURE button or automatically when the  
instrument detects the end of an exposure. Errors resulting from temperature drift of the components and  
from dielectric absorption are dynamically corrected by the controlling firmware.  
2.2.6 Bias Supply  
The Model 35040 Therapy Dosimeter has a fully regulated electronic bias supply. The user may specify  
up to 11 settings within the range -500.0 to +500.0 volts, in any order, during customization of the  
instrument. Typical settings are +300.0, +150.0, 0, -150.0, and -300.0 volts, which conform to the  
recommendations of the American Association of Physicists in Medicine Task Group 21 (AAPM TG21).  
Other locality specific protocols can be accommodated within the 11 settings.  
During operation, the bias supply output level is periodically measured by the A/D through a resistive  
divider. If the output is more than 1.0 volt from the set voltage, an error message (LoBias, or HiBias)  
will appear on the display. The bias supply has been designed to drive a capacitive load of less than  
5000 pf.  
CAUTION  
Attaching a larger capacitance may create a  
potential shock hazard.  
For operator safety, the output of the bias supply is energy and current limited. Before attempting to  
connect or disconnect an ion chamber, the operator should either set the bias voltage to 0 volts or turn off  
the instrument. Setting the bias voltage to 0 volts pulls the bias to a safe level within one second. The  
output of the bias supply is de-energized at power down. De-energizing may take 15 to 30 seconds.  
2.2.7 Multiplexer and A/D Converter  
The output of the electrometer is sampled at approximately 20 times per second by an analog to digital  
converter. The temperature of the electrometer is measured whenever the electrometer is reset. The  
program uses the temperature measurement to correct for temperature-induced drift in the electrometer  
components. The internal temperature may be different from the ambient temperature, especially during  
the battery high charge rate stage.  
2.3 Basic Operating Equations  
The instrument makes extensive use of the microcontroller’s processing capabilities to directly implement  
the operating equations. The variables used in the equations are detailed in the table below. The  
equations in this section have measurement units enclosed in square brackets as a reminder of the  
required units, e.g. [C] for Coulombs.  
2-3  
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Table 2-1. Description of Quantities  
Quantity  
ADCF  
Description  
Units  
Comments  
Air Density  
Correction  
Factor  
Calculated by instrument and depends on front panel  
Temperature and Pressure settings.  
None  
Electrical charge delivered to readout in response to  
radiation incident upon detector since the last  
exposure.  
The sum of all charge accumulated due to exposures  
since the RESET/MEASURE button was last pressed.  
The sum of all accumulated charge not including the  
current exposure since the RESET/MEASURE button  
was last pressed.  
Charge during  
exposure  
C
C
C
QExposure  
QAccum  
Accumulated  
Charge  
Previous  
Accumulated  
QAccum_previous  
Charge  
Electrometer  
Charge  
C
C
Factory calibrated electrical charge.  
QElectrometer  
Q
Charge  
Calibrated electrical charge.  
Charge Scale  
Factor  
Calibrates the charge measured by the electrometer.  
Viewed on a Test Function screen.  
C / C  
QScaleFactor  
Charge  
Leakage  
Current  
Average  
Current  
The electrical charge measured when no incident  
radiation is present.  
Calibrated electrical current.  
The constant electrical current required to accumulate  
charge Q over time TStart to T.  
C
A
A
QOffset  
I
IAvg  
Ion  
Ion Chamber  
Calibration  
Factor  
Chamber  
Calibration  
Units  
Values are field programmable via Customization  
Software.  
ICCF  
/ A or C  
Leakage  
Current  
Current Scale  
Factor  
Rate Units  
Multiplier  
Q Sampling  
Time  
The electrical current measured when no incident  
radiation is present.  
Calibrates the current. Viewed on a Test Function  
screen.  
Specifies the number of seconds the rate divisor is  
equal to 1(s), 60(min), 3600(hr).  
A
ILeakage  
IScaleFactor  
RateMultiplier  
T
A / A  
s
s
The time corresponding to Q and I.  
Effective Time  
of Exposure  
QOffset  
The time required to accumulate charge QExposure  
with a constant electrical current IAvg.  
s
Time  
s
The time corresponding to QOffset and ILeakage.  
TOffset  
Sampling Time  
The electrical charge delivered during the timer  
interval.  
Timed Charge  
C
QTimed  
The total amount of timed charge that should be  
accumulated at the completion of the timer interval,  
based on the observed delivery rate.  
Predicted  
Timed Charge  
C
QTimed_Predicted  
2-4  
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Theory of Operation  
Basic Operating Equations  
2
Charge and Current Measurements  
The instrument’s electrometer charge and current measurements are factory calibrated to a United States  
National Institute for Standards and Technology (NIST) traceable standard. Governing regulatory  
agencies or best of practice protocols may require that the instrument be calibrated by an independent  
calibration agency. The calibration agency may install the correction factors (QScaleFactor, IScaleFactor) to make  
the instrument read out directly as calibrated. These factors are viewable by the operator but may not be  
changed or turned off. In almost all cases, the scaling factors will be nearly unity.  
Q = QElectrometer [C]×QScaleFactor [C/C]  
Q
T
(
i
)
)
Q  
T  
(
i 1  
)
I =  
[C/s] × IScaleFactor [A/A]  
(
i
(
i 1  
)
T = time of electrometer conversion [s]  
Leakage Measurements  
Leakage measurements (QOffset , ILeakage and TOffset) are only applicable when automatic leakage  
compensation is enabled.  
The leakage current is defined as the current present between exposures. The displayed leakage current  
or dose rate value (3-1/2 digit) is updated at a rate of approximately one time per second and held during  
an exposure. Extrapolated charge due to leakage current is nulled from the measurement. In order to do  
this, a short-term history of the leakage current is necessary.  
When an exposure is not in progress and the absolute value of the current is less than the start threshold,  
pressing the RESET/MEASURE button sets the leakage current ILeakage to zero and starts the acquisition  
of current measurements for determining ILeakage. To get the “best” determination of ILeakage takes time, at  
least 10 seconds. The ion chamber, cables, and instrument should not be disturbed while making the  
leakage measurement.  
QOffset = Q(TOffset )[C]  
n
I [A]  
1
ILeakage  
=
n
DoseRateLeakage = ILeakage [A] × ICCF [Units / C] × ADCF × RateMultiplier [s]  
TOffset = T [s]  
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Charge  
X
X
QOffset  
0
X
Time  
TStart  
TOffset  
Start of Exposure  
- Charge samples in Leakage.  
X - Samples discarded.  
- Charge samples in exposure.  
- Extrapolated charge due to leakage current  
Figure 2-2.Leakage Current and Start of Exposure  
When automatic exposure detection is disabled (start and stop threshold set to 0.0 pA), there is no  
correction for extrapolated charge due to leakage current. The dosimeter must be manually reset  
between exposures and the leakage current kept as low as possible for best results.  
Exposure Charge and Dose  
The charge on the electrometer during an exposure is due to the incident radiation plus the charge that  
was on the electrometer before the exposure plus the extrapolated charge due to any leakage currents in  
the ion chamber, cables, or electrometer. To obtain only the charge due to the exposure, the instrument  
employs the following equation:  
QExposure = Q [C] QOffset [C] (ILeakage [A]×
(
T [s] TOffset [s]))  
Dose = QExposure [C]×ICCF [Units/C]× ADCF  
The exposure charge variable QExposure is set to zero at the start of an exposure either manually by  
pressing the RESET/MEASURE button or automatically if the start and stop thresholds are used. Over  
the duration of the exposure, QExposure and Dose are updated about once a second. The displayed  
measurement value (4-1/2 digit) is held following the exposure.  
Timed Charge and Dose  
This measurement accumulates charge only while the elapsed time is less than or equal to the timer  
interval setting. The displayed value is held following the completion of the timer interval.  
QTimed = Q2[C]Q1 [C](ILeakage [A]× (T 2 [s] T1 [s]))  
DoseTimed = QTimed [C]× ICCF [Units/C]× ADCF  
2-6  
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Theory of Operation  
Basic Operating Equations  
2
Q1 represents the next sample of charge at time T1 following the activation of the timer. Q2 corresponds to  
the interpolated charge at time T2, where T2 is an integral number of seconds that is restricted to times  
within the range: T1 < T2 (T1 + Timer Interval Setting).  
Predicted Timed Charge and Dose  
This measurement extrapolates the timed charge (QTimed) at the elapsed time (TElapsed) that should be  
accumulated at completion of the timer interval (i.e., TimerIntervalSetting) based on the rate of charge  
delivery.  
QTimed[C]  
QTimed_Predicted =  
×TimerIntervalSetting[s]  
TElapsed[s]  
DoseTimed_Predicted = QTimed_Predicted [C]× ICCF [Units/C]× ADCF  
At the conclusion of the timer interval (i.e., TElapsed equals the TimerIntervalSetting), the predicted timed  
charge and dose are equal to the predicted timed charge and dose, respectively.  
Accumulated Charge and Dose  
This measurement accumulates charge across multiple exposures. The displayed value is updated  
during the exposure and held between exposures. It is reset to zero when the RESET/MEASURE button  
is pressed while viewing a measurement screen.  
QAccum = QAccum_previous [C] + QExposure [C]  
DoseAccum = QAccum [C]×ICCF [Units/C]× ADCF  
Exposure Current and Rate  
The current (3-1/2 digit) and dose rate displayed when the exposure is in progress are updated once per  
second. The current and dose rate return to zero after the end of the exposure. The dose rate  
measurement is displayed using the selected time base (seconds, minutes, or hours). If the start and  
stop thresholds are set to zero, ILeakage is zero.  
IExposure = I [A] ILeakage [A]  
DoseRate =IExposure [A] × ICCF [Units/C] × ADCF × RateMultiplier [s]  
Average Current and Rate  
The average current is calculated using the charge accumulated (Q/ ) during a portion of the exposure to  
t
U
eliminate noise effects. The displayed value (4-/1/2 digit) is held following the exposure and reset at the  
Q2 [C] Q1 [C]  
T 2[s] T1[s]  
IAvg =  
DoseRateAvg =IAvg [A] × ICCF [Units/C] × ADCF × RateMultiplier [s]  
start of a subsequent exposure.  
Q1 and Q2 are measured within the exposure at times T1 and T2 respectively. T1 is 1.33 seconds after the  
start of exposure. T2 is 1.33 seconds before the end of exposure (see Figure 2-3). The exposure must be  
more than 3 seconds long. IAvg is 0 if the exposure is less than 3 seconds.  
2.3.1 Setting Thresholds  
The instrument has capability to automatically detect the start and end of an exposure when the current  
crosses given limits. Using automatic detection eliminates the sag in readings that occur due to leakage  
2-7  
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or dielectric absorption. The start and stop thresholds are set independently, but the stop threshold must  
be less than the start threshold. The thresholds are settable in 0.1 pA increments from 0.0 pA to 9.9 pA.  
In some test setups, it may be necessary to raise the thresholds to reliably detect an exposure in the  
presence of a relatively large leakage current. Since the start threshold determines the minimum dose  
rate, it may be necessary to lower the thresholds for some exposures.  
DoseRate =I [A] × ICCF [Units/C] × ADCF × RateMultiplier [s]  
The minimum dose rate is  
where I[A] is the start threshold setting.  
When the start and stop thresholds are set to 0.0 pA, the automatic detection of start and end of exposure  
is disabled. This effectively means that the instrument is measuring as if an exposure has been running  
continuously. In this mode of operation, leakage current is not measured, the average current is  
measured from the last time RESET/MEASURE was pressed, and charge will accumulate due to leakage  
current.  
NOTE  
Thresholds other than those used by the calibration  
agency may render inaccurate measurements.  
2.3.2 Exposure Time  
Historically, the determination of exposure time for 60Co has involved multiple exposures to eliminate the  
effect of the shutter speed. By using the total charge and the average current for the exposure, the  
effective exposure time can be determined using a single exposure. If the average current varies by more  
than 10% during the exposure, this measurement is considered invalid and will be replaced by “INVALID.”  
Q2 [C] Q1 [C]  
T 2[s] T1[s]  
Q [C]  
IAvg =  
Time =  
IAvg [A]  
The effective exposure time is derived from the total charge and the average current. In order to get  
enough data points to accurately calculate the time, the exposure must be a minimum of 3 seconds. To  
avoid artifacts at the start and end of exposure, the average current is calculated over the interval starting  
1 1/3 seconds after the start is detected to 1 1/3 seconds before the end of exposure.  
2-8  
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Theory of Operation  
Basic Operating Equations  
2
X
X
X
X
X
X
X
Charge  
Q
X
T
X
X
X
1.33s  
1.33s  
0
T2  
T1  
TOffset  
Time  
End of Exposure Detected  
Start of Exposure Detected  
- Sampled charge data points in average current.  
- Charge data points for leakage.  
Figure 2-3.Average Current and Exposure Time  
2.3.3 Air Density Correction Factor  
760 mmHg  
T
⎞ ⎛  
ADCF =  
×
⎟ ⎜  
P
T c  
⎠ ⎝  
The air density correction factor is used to correct dose and dose rate measurements for a vented ion  
chamber.  
where the pressure “P” is expressed in mmHg, the temperature “T” is in Kelvin, and the calibration  
temperature “Tc” is in Kelvin. The calibration temperature is either 20°C (293.15 K) or 22°C (295.15 K),  
depending on that used by the calibration agency when calibrating the ion chamber. The calibration  
temperature must be specified during customization. The ADCF is displayed on the bottom line of the Air  
Density screen.  
When the user has customized the Model 35040 Therapy Dosimeter to use other temperature and  
pressure units, the corresponding values entered by the user at the instrument’s front panel are  
automatically converted to mmHg and K before use in calculating the ADCF. The equations used for  
these conversions are listed below. The abbreviation FSL stands for “from sea level.”  
mm Hg = inch Hg x 25.4  
mm Hg = 760 x (54,041 - feet FSL) / (54,041 + feetFSL)  
mm Hg = 760 x (16,472 - metersFSL) / (16,472 + metersFSL)  
mmHg = mbar x 0.75006  
mmHg = hPa x 0.75006  
K = (5 / 9) x (F - 32) + 273.15  
K = C + 273.15  
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Table 2-2.  
Air Density Adjustment Ranges and Resolutions  
Units Display Minimum Maximum  
*
Standard  
29.90  
760  
Resolution  
% Error  
0.12  
inches of mercury  
millimeters of mercury  
altitude in feet  
inHg  
mmHg  
ft  
20.55  
522  
31.30  
795  
0.05  
1.0  
25  
0.10  
-1200  
-360  
697  
10,000  
3050  
1060  
1060  
0
0.07  
altitude in meters  
millibars  
m
0
10  
0.09  
mbar  
hPa  
1013  
1013  
1.0  
1.0  
0.07  
hectoPascals  
697  
0.07  
*
Units  
Fahrenheit  
Kelvin  
Display Minimum Maximum  
Standard  
Resolution  
% Error  
0.05  
F
K
C
32.0  
273.0  
0.0  
122.0  
323.0  
50.0  
71.6  
68.0  
0.5  
0.5  
0.5  
295.2 293.2  
0.09  
Celsius  
22.0  
20.0  
0.09  
* The “% Error” column indicates the maximum amount of error that can occur due to the step resolution  
of the pressure or temperature units.  
2-10  
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Operation  
3
Setup  
Section 3  
Operation  
3.1 Setup  
Introduction  
This section contains set-up and connection procedures for the Model 35040 Therapy Dosimeter.  
The instrument is factory calibrated to measure charge (Coulombs) and current (Amperes). It is  
recommended that the user customize the Model 35040 Therapy Dosimeter prior to its first use. This  
customization may involve selecting the desired ion chamber calibration factor, temperature units,  
pressure units, and bias voltages. Procedures for carrying out the customization are covered in Section  
3.10.  
3.2 Front Panel Familiarization  
Figure 3-1. The Model 35040 Therapy Dosimeter Front Panel  
Triaxial Ion Chamber Input: This input accepts the current line of ion chambers from Fluke Biomedical,  
various 0.6 cc, 0.3 cc, and 0.1 cc therapy ion chambers from other manufacturers, and Brachytherapy  
well chambers. The front panel ion chamber input is wired in parallel with the rear panel ion chamber  
input.  
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3.3 Rear Panel Familiarization  
ION CHAMBER INPUT  
TRIAX  
!
COMPUTER  
INTERFACE  
RS-232  
100-240V 50/60 Hz 50VA  
!
Figure 3-2.  
The Model 35040 Therapy Dosimeter Rear Panel  
RS-232 Receptacle (RJ-45 Style): The RS-232 Computer Interface is used for computer controlled  
factory test, for calibration, for customization, and for remote control/data acquisition.  
AC Line Power Receptacle: The AC line input range is 100 - 240 VAC (47 - 63 Hz). AC line voltage  
within the specified range has no effect on any dosimeter measurements. The IEC 320/C13 style  
receptacle permits worldwide operation by simply changing the line cord.  
Triaxial Ion Chamber Input: This input is preferred in semi-permanent setups where the dosimeter is  
stationary at the treatment console. The rear triaxial is wired in parallel with front panel input.  
NOTE  
Do NOT attach ion chambers to both the front and  
rear connectors at the same time. The signals will  
be the summation of the two inputs and may result  
in erroneous readings.  
3.4 Powering The System  
The Model 35040 Therapy Dosimeter may be operated from either line or battery power. The line  
receptacle at the rear panel of the Model 35040 Therapy Dosimeter mates with a 3-wire line cord to  
provide a connection to line voltage (high, neutral and earth ground).  
WARNING  
When powering the Model 35040 Therapy Dosimeter from an  
AC line, always use a 3-wire grounding type line cord such as  
the one supplied with the dosimeter. In addition, only connect  
the Model 35040 Therapy Dosimeter to an AC power outlet  
employing a third wire safety ground. Failure to ground the  
Model 35040 Therapy Dosimeter may result in personal injury  
or death in the event of a short circuit or malfunction.  
3-2  
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Operation  
Powering the System  
3
The Model 35040 Therapy Dosimeter operates on battery power for eight hours after a full charge. The  
dosimeter 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 operation remains. When the battery  
pack is fully discharged, the instrument automatically shuts off and will not operate until AC line power is  
connected.  
3.5 Power-Up Self-Test and Display Messages  
When the instrument is powered up by pressing and releasing the POWER ON/OFF button, the following  
sequence of screens will be displayed:  
1. The Pixel Test screen lights up all the pixels on the screen (2-10 seconds).  
2. Calibration information showing the calibration agency and the calibration date (2 seconds).  
3. Firmware revision date (2 seconds).  
4. Instrument bias, leakage, and battery levels.  
During this opening screen sequence, pressing a front panel button will have no effect. The instrument  
bias, leakage, and battery level screen will be the last screen displayed as shown below. At the  
completion of the sequence, other functions may be selected.  
See Section 3.9.4 for an explanation of the contents of each screen.  
Figure 3-3.  
The Pixel Test Screen  
ADC  
Batt: 6.8 V +0.10 A  
Leakage: 0.001 pA  
IC Bias: 300.0V CEP  
Figure 3-4.  
The Bias, Leakage, and Battery Voltage and Current  
3.6 Ion Chamber Connector  
CAUTION  
Never connect a coaxial BNC type cable to the  
Model 35040 Therapy Dosimeter’s triaxial ion  
chamber input connectors. Doing so will damage  
the ion chamber input connector.  
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WARNING  
Mating and unmating to this connector (or to the  
other end of a cable already connected to it) should  
be done only when the bias is set to 0 volts, or  
when the instrument power is turned off. The  
central pin and inner shield shell of the triaxial  
connector are operated at the bias voltage above  
the outer shell and instrument case. Although the  
bias potential is energy and current limited, care  
should be taken to avoid unnecessary and possibly  
hazardous shocks.  
The connector is a triaxial female with dust cap and chain. It connects to any low-noise triaxial male  
cables. The NE 2571A 0.6 cc Farmer Ion Chamber and other ion chambers may be operated with the  
Model 35040 Therapy Dosimeter.  
The connector is mounted to avoid contaminating spills and dust. Putting its dust cap in place whenever  
a cable is not connected will help assure long service with minimum leakage problems.  
3.7 Basic Measurement Techniques  
3.7.1 General Considerations  
The dosimeter must be placed on a solid, non-vibrating surface. Both the dosimeter and the operator  
must be outside the radiation field. Any cable movement will induce a current that may interfere with  
proper measurements. You should wait ten seconds or more after moving the ion chamber, triaxial cable,  
or disturbing another part of the high impedance circuit before taking a measurement.  
3.7.2 Making Non-Timed Exposure Measurements  
With Automatic Leakage Compensation Disabled  
The instrument must be manually reset before each exposure when automatic leakage compensation is  
disabled.  
Procedure  
Hold RESET/MEASURE for one second just before making the exposure to reset the instrument.  
Note that the instrument displays the “Rst” annunciator while the hardware is being reset.  
Wait for the reset to complete.  
Make the exposure.  
The exposure measurements will be displayed but may drift due to leakage. Repeat this sequence for  
every exposure.  
With Automatic Leakage Compensation Enabled  
In addition to compensating measurements for leakage, the instrument holds the exposure  
measurements and automatically resets after each exposure when automatic leakage compensation is  
enabled.  
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3
Procedure:  
The annunciator line on the Measurement screen displays "WAIT System Not RDY" while the  
instrument is acquiring the minimum number of samples required for leakage compensation. Wait  
for this message to disappear.  
Wait for the leakage current to return to the nominal value.  
Make the exposure.  
When the instrument senses that the exposure is over, it displays and holds the exposure measurements  
and then resets the electrometer (refer to Section 3.9.7 for information on configuring the start and stop  
thresholds). The exposure measurements are displayed until either the RESET/MEASURE button is held  
for one second, the bias voltage or threshold changed, or another exposure is started.  
3.7.3Making Timed Exposure Measurements  
The timer is available when any of the measurement displays contains a timed measurement. Refer to  
Section 3.10 for information on customizing measurement displays.  
Timer Setup  
Procedure:  
Use the TEST FUNCTION button, along with the UP and DOWN arrows to display the Timer Setup  
screen.  
To modify the timer setup, press the TEST FUNCTION button to display the "f" cursor at the timer  
interval field and use the UP and DOWN arrows to select a timer interval from the programmed list.  
(Refer to Section 3.10 for information on how to program the interval list.)  
Press the TEST FUNCTION button to advance the "f" cursor to the timer count mode field and use  
the UP and DOWN arrow keys to select up (UP) or down (DOWN) for the count mode.  
Press the TEST FUNCTION button to advance the "f" cursor to the timer decimal places field and  
use the UP and DOWN arrow keys to select zero (0) or one (1).  
Press the TEST FUNCTION button to hide the cursor and save any changes. Proceed to using the  
timer, which is discussed next.  
Timer Use  
Procedure:  
Press the RESET/MEASURE button to show the Measurement screen if it is not displayed.  
To start or manually stop the timer, press the RESET/MEASURE button while the instrument is  
updating other exposure measurements (e.g., charge and current). The instrument displays the  
“Tmr” annunciator when the timer is running.  
NOTE  
The instrument will not permit the timer to be  
started while leakage is being measured.  
Upon completion of the timer interval or if the instrument senses the exposure is over (applicable  
when automatic leakage compensation is enabled), the instrument ceases updating the timed  
measurements.  
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NOTE  
Use the predicted timed charge or dose  
measurement to diagnose a problem at the onset of  
a timed measurement for sources that deliver at a  
constant exposure rate. If the predicted timed  
measurement is drastically different from the  
expected value, there is no reason to wait for the  
complete timer interval to expire before  
investigating the cause of the discrepancy.  
NOTE  
To differentiate the predicted and non-predicted  
timed measurements, the instrument alternates the  
display of time with a “PREDICT” indicator on the  
predicted timed  
measurement lines.  
3.7.4 Using Other Ion Chambers  
You may make measurements using electrical units of coulombs and amperes and manually calculate the  
radiological values from known ion chamber and air density factors. Or you may use the Customization  
software to add the new ion chamber’s description and calibration factor to the list available for  
DETECTOR SELECT. See Section 3.10 for details.  
3.8 Battery Care  
To maximize both the life and the performance from the rechargeable battery, deep discharge should be  
avoided. The battery will maintain peak performance through out the life of the product if the following  
practices are adopted.  
1. Store the instrument connected to the AC line power source if possible. This will maintain the  
batteries at their full charge level and insure that the instrument is ready to go anytime it is needed.  
2. If the instrument cannot be connected to AC line power during storage, fully recharge the batteries  
at the beginning of the storage interval and store the instrument at 25°C or less if possible. For  
extended storage, fully recharge the batteries at least annually to compensate for their self-  
discharge characteristics. Decrease the time between maintenance recharges by one-half for each  
10°C increase in the storage temperature above the 25°C baseline.  
3. If possible, begin charging the batteries as soon as the “LoBat” annunciator appears and avoid  
setting the automatic power down interval to a value greater than 15 minutes so that the batteries  
will not become fully discharged if the instrument is left unattended.  
4. Charge the batteries immediately if the instrument is allowed to operate to the 5.4 V automatic  
power down level. This will avoid self-discharge to levels below which an extended recovery period  
may be required.  
5. If the instrument is used primarily from battery power, provide an extended charging period (24  
hours or longer) for every 5 to 10 fast charge cycles.  
The instrument will not operate when the battery voltage is below the 5.4 V automatic cutoff level. If the  
battery voltage level is allowed to drop below this level due to self-discharge, an extended charge period  
on the order of hours may be required to bring the voltage up to the 5.4 V level. During this period, the  
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Battery Care  
3
instrument will not be available for use. Depending upon the level of discharge, this period of  
unavailability may be on the order of days, and in extreme cases the battery will be permanently  
damaged.  
3.9 Operation Instructions  
This section contains detailed instructions on the front panel operation of the Model 35040 Therapy  
Dosimeter. Please note that the display examples shown here correspond to a particular customization  
set-up. Other customization set-ups will produce different results.  
3.9.1 Front Panel Controls  
Figure 3-5 shows the front panel of the Model 35040 Therapy Dosimeter. The front panel consists of a  
triax connector, control buttons and a display. The following paragraphs describe the operation of each  
control button and the corresponding display screens.  
Figure 3-5.The Model 35040 Therapy Dosimeter Front Panel  
Power  
The POWER button toggles the system power on and off.  
Test Function  
The TEST FUNCTION button displays the Test Function screens. It is also used in setting the start and  
stop exposure current thresholds.  
When the Test Function screen is not displayed, pressing the TEST FUNCTION button displays the  
Test Function screen and the information/settings that were last viewed since power-up.  
NOTE  
The TEST FUNCTION screen provides access to  
information and settings such as the firmware  
revision, charge and current scale factors, battery  
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and  
bias  
voltages,  
automatic  
leakage  
compensation settings, and timer settings.  
When the Test Function screen is displayed, pressing the TEST FUNCTION button displays a  
cursor that allows modification of the following settings:  
- Enabling or disabling automatic leakage compensation or setting of the start and stop exposure  
current thresholds  
- Selecting the timer interval, count mode, and decimal places  
- Specifying the effective exposure time presentation  
Detector Select  
The DETECTOR SELECT button displays the Detector Select screen.  
Air Density  
The AIR DENSITY button displays the Air Density screen. Subsequent presses advance the cursor  
through the temperature, pressure, and air density correction on/off fields.  
Units Select  
The UNITS SELECT button displays the Units Select screen for selecting the rate divisor.  
Bias Select  
The BIAS SELECT button displays the Bias Select screen.  
Reset/Measure  
When the Measurement screen is not displayed, pressing the RESET/MEASURE button displays  
the Measurement screen and the Measurement display that was last viewed since power-up.  
When the Measurement screen is displayed:  
- And when the instrument is performing exposure measurements, pressing the  
RESET/MEASURE button toggles the timer  
- Pressing and holding the RESET/MEASURE button for one second zeroes all exposure  
measurements; the instrument also zeroes leakage measurements if leakage was being  
measured  
Up (S)  
The function of the UP button depends on the screen displayed. It increases the temperature or pressure  
setting. It toggles the state of the air density correction annunciator. For the Test Function and  
Measurement screens, it displays the next information screen. It presents the next ion chamber for the  
Detector Select screens. It increases the dose rate unit’s divisor. For setting the start and stop exposure  
current thresholds, it increases the setting.  
Down (T)  
The function of the DOWN button depends on the screen displayed. It decreases the temperature or  
pressure setting. It toggles the state of the air density correction annunciator. For the Test Function and  
Measurement screens, it displays the previous screen. It presents the previous ion chamber for the  
Detector Select screen. It decreases the dose rate unit’s divisor. For setting the start and stop exposure  
current thresholds, it decreases the setting.  
3.9.2 Powering Up the Model 35040 Therapy Dosimeter  
Pressing the POWER button turns on the instrument. Initially, the instrument runs self-tests, restores the  
ion chamber, temperature, pressure, air density correction status, exposure thresholds, and measurement  
units to their previous values, and waits for the bias supply to stabilize.  
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NOTE  
When attempting to turn the instrument on, firmly  
press the POWER button and hold for  
approximately one second. Always allow several  
seconds between retries.  
During this self-test period, the Model 35040 Therapy Dosimeter displays a sequence of screens. The  
first screen to appear after pressing the POWER button is the Pixel Test screen shown in Figure 3-6.  
Figure 3-6. The Pixel Test Screen  
The pixel test screen remains visible for two to ten seconds depending on the number of ion chamber  
calibration factors in the instrument. It will be followed by the Calibration Identification screen shown in  
Figure 3-11. After an additional two seconds, the display will change to the General Information Screen  
shown in Figure 3-7. After two more seconds, the display will advance to the Bias and Battery Voltage  
Test Screen shown in Figure 3-8. The bias voltage will take a few seconds to reach a stable value.  
When the bias voltage is stable, the instrument is ready for use. While measurements may be made  
immediately, the specified warm up time must elapse before specified accuracy is warranted.  
3.9.3 Powering Down the Model 35040 Therapy Dosimeter  
Pressing the POWER button turns the instrument off. As part of the power down sequence, the Model  
35040 Therapy Dosimeter saves all of its front panel settings and is thus able to restore these settings  
during the next power up sequence.  
3.9.4 Using the TEST FUNCTION Button  
Press the TEST FUNCTION button to display the Test Function screens, see Figure 3-7 to 3-11. Use the  
UP and DOWN buttons to cycle through the Test Function screens. These screens contain information  
about the instrument’s calibration, the calibration scale factors, firmware revision date, serial number,  
leakage current, bias and battery condition, and optional text lines.  
The top line of the display, shown in Figure 3-7, has annunciators for air density correction applied (ADC),  
bias status (LoBias or HiBias), and battery status (LoBat). The firmware revision date, on the second line,  
indicates the revision level of the controlling program in the instrument. The two optional text lines can be  
customized using the Customization software.  
ADC  
FW Rev: 10JUN93 A  
*Optional Text Line1  
*Optional Text Line2  
Figure 3-7. The Test Function Screen 1 - General Information  
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Figure 3-8 shows the ion chamber bias voltage (IC Bias), the system leakage current (Leakage), and the  
battery voltage and current. The bias voltage shown is 300.0 volts. The central electrode is positive  
(CEP). The leakage current is 0.001 picoamps. The battery current is a small positive number, thus the  
battery is charging and is almost fully charged.  
ADC  
Batt: 6.8 V +0.10 A  
Leakage: 0.001 pA  
IC Bias: 300.0 V CEP  
Figure 3-8. The Test Function Screen 2 - Bias, Leakage, and Battery Voltage and Current  
The battery current (shown in Figure 3-8), “+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, the current will decrease to near zero. A negative current value  
will be shown when the instrument is operated from battery power. A negative current indicates the  
actual current consumption of the instrument.  
During a charging cycle, the battery voltage can range from 5.5 volts to 8.5 volts. After the battery  
reaches its full charge, the charging circuit switches to float charge stage with a corresponding voltage of  
approximately 7 volts. The unit will remain in the float charge stage as long as the instrument is attached  
to an AC line. When the instrument is operated from battery power, the voltage will read between 6.5  
volts (battery fully charged) and 5.4 volts (low battery shutdown voltage).  
The two scale factors that appear in Figure 3-9 are those determined by a calibration agency.  
QScaleFactor adjusts the charge. IScaleFactor adjusts the current. See Section 2.3 for details.  
ADC  
QScaleFactor=1.0000  
IScaleFactor=1.0000  
Figure 3-9. The Test Function Screen 3 - Calibration Scale Factors  
Figure 3-10 shows the present settings for the start and stop threshold currents and the instantaneous  
current measurement. See Section 3.9.5 for details.  
ADC  
Start Thres: 1.0pA  
Stop Thres: 0.9pA  
Current: 0.0pA  
Figure 3-10.  
The Test Function Screen 4 - Leakage Threshold Screen  
Figure 3-11 shows the automatic leakage compensation settings, which consist of the ALC status, start  
and stop threshold currents, and the instantaneous current measurement. Refer to Section 3.9.5 for  
details.  
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3
ADC  
ALC  
Start Thres: 1.0 pA  
Stop Thres: 0.9 pA  
Current:  
0.0 pA  
Figure 3-11.  
The Test Function Screen Showing the Automatic Leakage Compensation Settings  
Figure 3-12 displays the settings for the timer interval, count mode, and decimal places. Refer to Section  
3.9.6 for details.  
ADC  
ALC  
60 s  
Interval:  
Count: UP  
Decimal Places: 0  
Figure 3-12.  
The Test Function Screen Showing the Timer Settings  
Figure 3-13 shows the display format setting for the effective exposure time, which determines the  
presentation of the effective time on the Measurement screen.  
ADC  
ALC  
Exp Time: HR/MIN/SEC  
Figure 3-13.  
The Test Function Screen Showing the Effective Exposure Time Display Setting  
To change the effective time format setting, press the TEST FUNCTION button to show the "f" cursor  
and use the UP and DOWN arrow buttons to select either seconds (SECONDS) or  
hours/minutes/seconds (HR/MIN/SEC). Press the TEST FUNCTION button again to hide the cursor and  
save the selection.  
3.9.5Automatic Leakage Compensation  
Automatic compensation for leakage currents can be enabled and disabled from the front panel.  
Automatic leakage compensation allows the instrument to “detect” when an exposure is in progress and  
hold the final exposure measurement values between exposures.  
The start threshold specifies the current necessary for the instrument to begin updating the exposure  
measurements. The stop threshold must be smaller than the start threshold, and it indicates the minimum  
current required for the exposure measurements to be updated once an exposure is detected. That is,  
the instrument will cease updating the exposure measurements when the current drops below the stop  
threshold and will return to measuring leakage.  
NOTE  
The instrument uses the start and stop threshold  
settings to sense when an exposure is in progress.  
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With the automatic leakage compensation settings displayed (Figure 3-14), press the TEST FUNCTION  
button. The "f" cursor will appear to the left of the ALC annunciator. Use the UP and DOWN arrow  
buttons to toggle the setting between on (ALC) and off (OFF).  
With automatic leakage compensation enabled, press the TEST FUNCTION button to advance the "f"  
cursor to the next field or exit Edit mode. When the cursor points to a threshold setting, use the UP and  
DOWN arrow buttons to increment and decrement the value, respectively. Nominal values for the start  
and stop thresholds are 1.3 and 1.2 pA, respectively. However, depending on the system leakage, other  
values may be necessary.  
When automatic leakage compensation is disabled, the annunciator displays off (OFF) (Figure 3-15), the  
start and stop threshold settings cannot be changed and display Not Available (NA), as do the leakage  
measurements.  
ADC  
ALC  
Start Thres: 1.0 pA  
Stop Thres: 0.9 pA  
Current:  
0.0 pA  
Figure 3-14.  
Automatic Leakage Compensation Enabled  
ADC  
OFF  
Start Thres: NA pA  
Stop Thres: NA pA  
Current: 0.0 pA  
Figure 3-15.  
Automatic Leakage Compensation Disabled  
NOTE  
The instrument may reset all measurements when  
the automatic leakage compensation parameters  
are  
changed.  
NOTE  
Disabling automatic leakage compensation prevents  
automatic exposure detection and the measurement  
of leakage current, and leakage measurements will  
display Not Available (NA).  
Figure 3-16 shows the name of the calibration agency and the date the instrument was calibrated. The  
bottom three lines may be different on your instrument depending on what the calibration agency puts  
here.  
ADC  
Calibrated
Nov 15, 1993  
Figure 3-16.  
The Test Function Screen 5 - Calibration Identification  
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3.9.6Timer Setup  
The Test Function screen provides for configuring the timer interval, count mode, and decimal places (see  
Figure 3-17).  
With the timer settings displayed, press the TEST FUNCTION button. The "f" cursor will appear to the  
left of the timer interval setting. Use the UP and DOWN arrow buttons to select a value from the user  
customizable list. Refer to Section 3-10 for details on programming the timer intervals.  
ADC  
ALC  
60 s  
Interval:  
Count: UP  
Decimal Places: 0  
Figure 3-17.  
The Test Function Screen Showing the Timer Settings  
Press the TEST FUNCTION button to advance the "f" cursor to the timer count mode field. Use the UP  
and DOWN arrow buttons to toggle the setting between up (UP) and down (DOWN). For the up count  
mode, the timer starts at zero (0) seconds and increments up to the timer interval setting. The down  
count mode displays time starting from the timer interval setting and decrements to zero (0) seconds.  
Press the TEST FUNCTION button to advance the "f" cursor to the timer decimal places setting. Use  
the UP and DOWN arrow buttons to toggle the setting between zero (0) and one (1). Zero decimal places  
displays time in whole seconds, while one decimal place displays time to a tenths of a second.  
NOTE  
Presently, the timer counts only in whole seconds.  
3.9.7 Setting Thresholds  
The automatic exposure detection start and stop threshold currents can be set from the front panel.  
When the thresholds screen is displayed (Figure 3-10), press the TEST FUNCTION button. The “f”  
cursor will appear to the left of the start threshold. Use the UP and DOWN arrow buttons to change the  
setting. Press the TEST FUNCTION button to move the “f” cursor to the stop threshold setting. Use the  
UP and DOWN arrow buttons to change the setting. Press the TEST FUNCTION button a third time to  
return to viewing the rest of the test screens. It is recommended that the start threshold be set to 1.3 pA  
and the stop threshold be set to 1.2 pA. Depending on the system leakage, other settings may be  
necessary. See Section 2.3.1 for more details.  
NOTE  
Changing the thresholds automatically zeroes all  
measurements.  
NOTE  
Setting the thresholds to 0.0 pA disables the  
automatic exposure detection.  
This setting  
prevents the measurement of leakage current.  
“Leakage NA pA” on the display indicates the  
leakage measurement is not available.  
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3.9.8 Using the DETECTOR SELECT Button  
Pressing the DETECTOR SELECT button displays the Detector Select screen, see Figure 3-18. This  
screen displays information about the selected ion chamber calibration factor. An ion chamber consists of  
two text lines and an ion chamber calibration factor (ICCF) with units. All ion chambers are entered and  
can be modified via the Customization Software.  
The “f” cursor points to the first description string of the selected chamber. Use the UP arrow to select  
the next ion chamber and the DOWN arrow to select the previous ion chamber.  
ADC  
Farmer - S/N 12345  
Co-60  
ICCF=4.678E+09 R/C  
Figure 3-18.  
The Detector Select Screen  
The ion chamber calibration unit (R/C shown here) includes the radiological measurement unit (R). This  
is the radiological unit that appears on the Measurement screens.  
NOTE  
The ion chamber’s calibration unit includes the  
radiological measurement unit.  
If you want radiological units that are not available, use the Customization software (see Section 3.10) to  
enter a new ICCF with the appropriate units.  
The descriptive text should contain enough information to let the operator correctly select an ICCF that is  
appropriate for the measurement desired, e.g. energy, modality, build up, etc.  
3.9.9 Using the AIR DENSITY Button  
Pressing the AIR DENSITY button displays the Air Density screen, see Figures 3-19 and 3-20. This  
screen contains the temperature value, pressure value, and Air Density Correction Factor (ADCF). Press  
the AIR DENSITY button to advance the “f” cursor to the next field. To change the value or state of an  
item at the “f” cursor, use the UP and DOWN arrows. The Model 35040 Therapy Dosimeter displays the  
Air Density Correction (ADC) annunciator in the upper left-hand corner of all screens if the air density  
correction is enabled, see Figure 3-19.  
ADC  
22.5 C 760 mmHg  
ADCF = 1.002  
Figure 3-19.  
The Air Density Screen With Air Density Corrections Enabled  
To disable the air density correction, advance the “f” cursor to the ADC annunciator at the upper left of  
the display. With the “f” cursor at this position, pressing the UP and DOWN keys will toggle the air  
density correction on (ADC) and off (OFF).  
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OFF  
22.5 C  
760 mmHg  
ADCF = 1.000  
Figure 3-20.  
The Air Density Screen With Air Density Corrections Disabled  
Air density correction is only applied to dose or dose rate measurements such as, Roentgens, rads,  
Grays, Sieverts, etc. These measures are dependent on correctly compensating for the mass of air in the  
ion chamber. Electrical units (coulombs and amperes) are, by definition, insensitive to the mass of air in  
the ion chamber.  
3.9.10 Using the UNITS SELECT Button  
Pressing the UNITS SELECT button displays the Units Select screen, see Figure 3-21. The radiological  
units shown on the Units Select screen appear on the Measurement screens when displaying dose, dose  
rate, accumulated dose, and average dose rate. This screen allows the radiological rate divisor (hr, min,  
s) to be specified. The “f” cursor points to the radiological rate measurement unit. Press the UP arrow to  
increase the rate divisor, and press the DOWN arrow to decrease the rate divisor.  
ADC  
dose unit: R  
rate unit: R/min  
Figure 3-21.  
The Units Select Screen for an Ion Chamber Calibrated for Dose Measurements  
Ion chambers having dose rate calibration units will not have a rate divisor, e.g. Curies (Ci), becquerles  
(Bq), or kerma (Sk). The dose rate units will be multiplied by seconds to produce an equivalent dose unit,  
see Figure 3-22.  
ADC  
dose unit: Ci·s  
rate unit: Ci  
Figure 3-22.  
The Units Select Screen for an Ion Chamber Calibrated for Dose Rate Measurements  
3.9.11 Using the BIAS SELECT Button  
Pressing the BIAS SELECT button displays the Bias Select screen, see Figures 3-23 through 3-24. This  
screen displays the bias setting and the bias voltage measured by the Model 35040 Therapy Dosimeter.  
The “f” cursor points to the bias setting, expressed both as a voltage and as a percent of the maximum  
voltage setting. The line below the bias setting indicates the bias polarity. The bottom line displays the  
bias voltage measured by the instrument, and three letters to signify the bias polarity. When the central  
electrode is positive, CEP is displayed to the right of the measured voltage. When the central electrode is  
negative, CEN is displayed to the right of the measured voltage. (NOTE: The bias settings are user  
customizable; see Section 3-10.)  
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ADC  
Set:  
300.0 V 100%  
Central Electrde Pos  
IC Bias: 300.0 V CEP  
Figure 3-23.  
The Bias Select Screen With the Bias Set to a Positive Voltage  
ADC  
Set:  
0.0 V 0%  
Bias Off  
IC Bias: 0.0 V OFF  
Figure 3-24.  
The Bias Select Screen With the Bias Turned Off  
ADC  
Set:  
-150.0 V -50%  
Central Electrde Neg  
IC Bias:-150.0 V CEN  
Figure 3-25.  
The Bias Select Screen With the Bias Set to a Negative Voltage  
In the example of Figures 3-23 to 3-25, the maximum voltage setting is 300.0 V. Thus, 300.0 V is 100%  
of 300.0 V and -150.0 V is -50% of 300.0 V.  
Use the UP and DOWN buttons to scroll through the customized bias settings. When the bias setting is  
selected, wait for the bias voltage to match the selection before pressing the RESET/MEASURE button.  
The top line of the display will read “WAIT Bias Not Ready” until the measured voltage matches the  
selection. If the RESET/MEASURE button is pressed while the bias voltage is changing, the bias may be  
set to the wrong voltage. While the bias voltage is changing, a current is produced that may cause an  
“Internal Reset Error”, see Section 3.9.12.  
NOTE  
Changing the bias setting automatically zeroes all  
measurement readings.  
WARNING  
To prevent an electrical shock, the Model 35040  
Therapy Dosimeter bias should always be set to 0  
volts or the instrument turned off when connecting  
or disconnecting an ion chamber or triaxial cable.  
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3.9.12 Using the RESET/MEASURE Button  
The RESET/MEASURE button has dual functionality. If no Measurement screen is displayed, pressing  
the RESET / MEASURE button displays one. When a Measurement Screen is displayed, pressing the  
RESET/MEASURE button zeroes all measurement readings and causes the Model 35040 Therapy  
Dosimeter to restart the measurement process.  
Press the UP arrow to display the next Measurement screen. Press the DOWN arrow to display the  
previous Measurement screen. The Measurement screens are user customizable via the Customization  
software (see Section 3-10).  
The Model 35040 Therapy Dosimeter is always collecting charge from the ion chamber, even when a  
Measurement screen is not displayed.  
The operator may view the Detector Select screen, the Air Density screen, the Test Function screen, or  
the Units Select screen, make changes, and return to the Measurement screen to see the results.  
Changing the bias voltage, the start threshold, or the stop threshold, automatically zeros all measurement  
readings.  
ADC  
39.995 nC  
659.8 pA  
59.891 s  
Figure 3-26.  
The Measurement Screen  
NOTE  
Press RESET/MEASURE from the Measurement  
screen to restart the leakage measurement process  
after moving the triax cable connected to the Model  
35040 Therapy Dosimeter.  
The measurements have different visual cues to assist the operator in understanding the measurement.  
If the instrument is trying to acquire enough data to make a measurement, the display area will be filled  
with dashes. If the measurement is being actively updated, the decimal point will flash. When there was  
inadequate time to get enough data for leakage compensation, a question mark is displayed to the left of  
the measurement. If the measurement cannot be made due to the selected settings, the measurement is  
replaced by “NA.” If the measurement has too much variation to be reliable, “INVALID” is substituted.  
3.9.13 Overranging Conditions  
The Model 35040 Therapy Dosimeter displays an overrange indicator (“OVER”) when the electrometer’s  
maximum limit has been exceeded (see Figure 3-27).  
ADC  
OVER nC  
OVER pA  
OVER s  
Figure 3-27.  
60 Seconds  
The Measurement Screen With the Charge and Current Limits Exceeded Within the First  
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ADC  
OVER nC  
OVER pA  
OVER min OVER s  
Figure 3-28.  
The Measurement Screen With the  
Charge and Current Limits Exceeded After the First  
60 Seconds  
ADC  
Current Overrange  
Reduce exposure and  
Press RESET/MEASURE  
Figure 3-29. The Measurement Overrange Screen  
Table 3-1 specifies the conditions that cause the Model 35040 Therapy Dosimeter to display the  
overrange indicator for a measurement.  
Table 3-1. Overrange Conditions  
Condition  
Values Overranged  
charge, accumulated charge, dose, accumulated dose, average  
current, average dose rate, effective exposure time  
charge > 2.4 μC  
accumulated charge > 1.0000 C accumulated charge, accumulated dose  
current > 100.0 nA  
time > 59 min 59 s  
all except leakage  
effective exposure time  
3.9.14 Reset Error  
Pressing the RESET /MEASURE button while on the Measurement Screen causes the Model 35040  
Therapy Dosimeter to reset the electrometer, zero all readings, and restart the measurement process. If  
an exposure starts during the reset operation, the instrument displays the reset error message (see  
Figure 3-30).  
ADC  
Internal Reset Error  
Press RESET/MEASURE  
and Repeat Exposure  
Figure 3-30.  
The Measurement Screen Showing a Reset Error  
To remove the error condition, end the exposure, and press the RESET/MEASURE button. Wait a few  
seconds and repeat the exposure.  
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Operation Instructions  
3
A reset error will not occur for ion chambers calibrated in dose rate units (i.e. Brachytherapy chambers)  
since the measurement is primarily concerned with amps or dose rate.  
3.9.15 Reset Error (With Automatic Leakage Compensation Enabled)  
The following discussion is only applicable when automatic leakage compensation is enabled and the ion  
chamber is calibrated in Coulombs.  
Holding the RESET/MEASURE button while on the Measurement screen causes the Model 35040  
Therapy Dosimeter to reset the electrometer, zero all readings, and restart the measurement process.  
When an exposure is detected immediately following the reset that was not present prior to the reset, the  
instrument displays the reset error message shown in Figure 3-31.  
ADC  
ALC  
Internal Reset Error  
Press RESET/MEASURE  
and Repeat Exposure  
Figure 3-31.  
The Measurement screen showing the Reset Error message  
To remove the error message, end the exposure and hold the RESET/MEASURE button. Wait a few  
seconds for the instrument to complete the reset and repeat the exposure.  
3.9.16 Annunciators  
The top line of the display is dedicated to status annunciators. The Model 35040 Therapy Dosimeter  
continuously monitors the ion chamber bias and battery voltages. If either one of these values is outside  
the specified range, the Model 35040 displays an annunciator to indicate the error. Table 3-2 specifies  
these annunciators and specifies the annunciators that may appear on the top line of the display.  
Table 3-2. Annunciators  
Annunciator  
Condition  
No bias measurement possible since the electrometer is not ready  
??Bias  
Air density correction in use (only applicable to radiological  
measurements)  
ADC  
Automatic leakage compensation enabled  
ALC  
LoBat  
Low Battery voltage  
Low Bias voltage  
LoBias  
High Bias voltage  
HiBias  
Overranged current  
Resetting electrometer  
Timer in use  
OvAmps  
Rst  
Tmr  
The dosimeter is setting the bias  
WAIT Bias Not Ready  
The dosimeter is resetting the electrometer (only applicable when  
automatic leakage compensation is enabled)  
WAIT System Not Rdy  
Figure 3-32 illustrates the locations of some annunciators. The battery, bias, and overranged current  
annunciators appear at the same location, and the instrument alternates the displaying of each  
annunciator when more than one is applicable.  
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ADC LoBias Tmr ALC  
39.995 nC  
659.8 pA  
59.891 s  
Figure 3-32.  
Annunciator positions  
Table 3-2 lists the indicators the instrument uses to signal that a measurement quantity has not been  
compensated for leakage or is not available due to the specified condition.  
Table 3-2. Measurement Indicators and Conditions  
Indicator  
Measurement  
Condition  
Automatic leakage compensation is enabled, but  
? (left of value)  
All Non-leakage1 the exposure started before a leakage  
measurement was available.  
Automatic leakage compensation is enabled, but  
the exposure started before a leakage  
measurement was available.  
-.---  
Leakage  
The calculated effective time is longer than the  
actual exposure. This condition occurs when a  
large amount of charge is injected at the  
beginning of the exposure.  
INVALID  
Effective Time  
The leakage measurement is not available since  
automatic leakage compensation is disabled.  
The quantity or one of its dependents has  
exceeded the maximum value. Refer to Table 3-  
3 for more information.  
NA  
Leakage  
OVER  
Non-leakage1  
1 All non-leakage measurements (e.g., charge, current, dose, rate, effective time, etc.)  
Table 3-3 specifies the conditions that cause the Model 35040 Therapy Dosimeter to display an  
overrange indicator (OVER) for a measurement quantity.  
Table 3-3. Overrange Conditions  
Condition  
Overranged Measurement1  
charge  
average current  
charge > 19.999 mC  
accumulated charge  
effective exposure time  
accumulated charge  
current  
accumulated charge > 1.0000 C  
current > 1.000 μA  
current > 1.200 μA  
all non-leakage  
time > 19,999.9 s  
effective exposure time  
1 Includes radiological measurements derived from electrical measurements.  
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Operation  
Customization  
3
3.10 Customization  
3.10.1 Introduction  
The Model 35040 Therapy Dosimeter is shipped 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 for customizing the Model 35040 Therapy Dosimeter to meet your  
needs.  
The basic features of the Customization software are its ease of use, on-screen help text, printer support,  
and full customization capability for the Model 35040 Therapy Dosimeter.  
The screens shown in this section represent the appearance of the Customization software running  
Microsoft® Windows® 95/98 or later.  
The Customization software has the following requirements:  
IBM Personal Computer or compatible  
EGA or VGA display  
CD drive  
Microsoft® Windows® 95/98 or later  
One serial port (COM1 thru COM4)  
One printer - recommended for printing out 35040 Customization reports  
3.10.2 Installing/Uninstalling Customization Software  
To install the 35040 Customization Software, insert the CD into your CD drive. The installation should  
automatically start. If it does not, run setup.exe to start the installation. Administrator rights are required  
to install the 35040 Customization Software on a Windows NT, Windows 2000 and Windows XP.  
To remove the 35040 Customization Software from your hard disk, double click on "Add/Remove  
Programs" in the Control Panel. On the "Install/Uninstall" tab, select "35040 Customization" in the list of  
programs and click the "Add/Remove..." button. You will have to manually delete any "Dosimeter  
Settings" text files (*.TXT) that you saved while using the Customization Software.  
Refer to “Readme.txt” on the CD for the most current information on the 35040 Customization Software.  
3.10.3 Connection to the Computer  
To prepare the Model 35040 Therapy Dosimeter for customizing, insert the RS-232 cable into the  
instrument. Connect the other end of the RS-232 cable to the computer 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 Model 35040 Therapy Dosimeter. Use COM1 if it is available, otherwise use COM2,  
COM3, or COM4. Turn on the Model 35040. Wait approximately five seconds and then start the  
Customization software as described in Section 3.10.4.  
3.10.4 Starting the Customization Software  
Start the Customization software by selecting:  
START | PROGRAMS | 35040 CUSTOMIZATION | 35040 CUSTOMIZATION  
Refer to Fig. 3.10.33. The first time that the 35040 Customization Software is started, communication  
with the Dosimeter will be tried over COM1. If COM1 is not available, an error message will be displayed  
and the COM PORT indicator will turn red. If this is the case, use the COM PORT drop down list to select  
the correct serial port. Subsequent startups will automatically connect to the serial port that you have  
selected. If the customization forms have not been filled in with Dosimeter settings after starting the  
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35040 Customization Software, verify that COM PORT indicator is green, and click on the UPLOAD  
button.  
We recommend that you print a copy of the customization report (Print) as your first step in the  
customization process. This report contains all of the customization values and thus serves 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 parameter values, and then save it in a safe place for future  
reference. Reports can also be generated and saved as text files. Refer to Section 3.10.7, FILE | SAVE  
AS and FILE | PRINT.  
3.10.5 Downloading  
The Customization software sends (downloads) information through the RS-232 link to the Model 35040  
Therapy Dosimeter. This action happens automatically after you confirm the changes that you make to  
any parameter. After downloading, the instrument sends back the information it received. The  
Customization software compares the reply to what it sent down in order to verify that the screen display  
and instrument contents are the same. In some cases, the downloading process may last several  
seconds.  
3.10.6 Menu Items and Controls  
Refer to Figure 3-33 for the Menu Items and Controls that are at the top of each Customization form. The  
operation of the controls is the same for all forms.  
COM PORT Indicator  
Green – PC port Initialized  
Red  
- PC port not Initialized  
Figure 3-33.  
Menu Items and Controls  
Ion Chambers, Bias Settings, Special Items, Measurement Displays, or Timer Intervals  
Selection of one of these five (5) menu items will bring up different forms for customizing the 35040  
Dosimeter’s settings. Refer to the appropriate section below for a detailed description of each of the  
forms and programming the Dosimeter’s settings.  
COM PORT Drop Down List  
Use the COM PORT drop down list to select the computer’s serial port used to communicate with the  
35040 Dosimeter. To select a different serial port, click on the DOWN arrow key and select another port  
from the drop down list by clicking on it. After the selection has been made, the serial port will be  
initialized. If initialization is successful, the indicator to the right of the Com Port selection will turn  
GREEN. If not, an error message will be displayed and the indicator will turn RED.  
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Operation  
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3
CONNECT  
Select CONNECT to force an initialization the computer’s serial port for use with the 35040 Customization  
Software. Normally initialization is done automatically at the start of the 35040 Customization Software or  
by selecting the serial port from the Com Port drop down list.  
UPLOAD  
Select UPLOAD to request the Dosimeter to send a listing of all the Customization Settings. When  
depressed, all Customization forms are cleared and the Dosimeter’s latest settings are written to the  
forms.  
PRINT  
Select PRINT to create a printed report of the customization items. The report will contain the current  
state of all customization items within the Model 35040 Therapy Dosimeter. The report includes:  
All Ion Chambers including Title, Description, Calibration Factor, and Calibration Units  
All Special Items (Power Down Interval, Temperature and Pressure Units, Calibration Temperature,  
and Optional Text Lines)  
All Measurement Displays printed as they would appear on the instrument’s front panel  
The Calibration Factors and Calibration Identification  
All the Bias Settings  
CLOSE or FILE | CLOSE  
Select CLOSE to terminate the Customization program. The program verifies the choice of Close before  
terminating the program. Select “Yes” to exit; select “No” to return to the Customization program.  
FILE | SAVE AS and FILE | PRINT  
Select FILE | SAVE AS to generate a customization report and save it as a text file on the computer. A  
standard Windows dialog box will be shown for naming the text file. Use FILE | PRINT to select a  
customization report and then print it.  
FILE | PRINT SETUP  
Select FILE | PRINT SETUP to select a printer for printing the customization reports.  
3.10.7 Ion Chambers  
Figure 3-34 shows the Ion Chambers form. This form contains a List Box listing all of the ion chambers  
available in the Model 35040 Therapy Dosimeter and a Parameter Display (titled Ion Chamber  
Parameters) that displays the parameters for the selected ion chamber. At the bottom, there are four  
buttons labeled APPEND, INSERT, DELETE, and STORE. Finally, a brief explanation of the controls on  
the Ion Chamber’s form appears at the lower right. Use the vertical scroll bar to view the complete  
description of the controls.  
Within this form you may edit or remove any ion chamber in the instrument’s list. Also, you may add or  
insert an ion chamber into the list.  
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Figure 3-34.  
The Ion Chambers Form  
EDIT  
To modify existing ion chamber parameters, click twice with the mouse on a title within the Ion Chamber  
List Box. A form titled “Program Ion Chamber” appears with the parameters of the selected Ion Chamber  
and two buttons: OK and CANCEL. Refer to Figure 3-35. The following description of the Parameter  
Editor may be followed when editing, appending, or inserting ion chamber parameters.  
Figure 3-35.  
The Program Ion Chamber Form  
To modify the Title, Description, or Calibration Factor, click on the desired text box and type in the new  
text from the keyboard. To select different Calibration Units, click on the DOWN arrow key and select  
another item from the drop down list by clicking on it.  
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OK and CANCEL  
When you complete your editing of ion chamber parameters, you may use OK or CANCEL to exit the  
Parameter Editor. If you select CANCEL, all modifications are discarded and the original parameter  
settings of the ion chamber remain. If you select OK, the ion chamber parameters (modified or not) are  
sent to the instrument where they are stored for use during measurement modes.  
NOTE  
When Ion Chambers are edited, deleted, inserted,  
or appended the List box background color will  
change from ‘white’ to ‘yellow’ indicating that the  
Dosimeter’s settings have been modified.  
Permanent storage in the Dosimeter’s memory is  
made only after depressing the STORE button or  
by selecting one of the following menu items: BIAS  
SETTINGS, SPECIAL ITEMS, MEASUREMENT  
DISPLAYS, or TIMER INTERVALS. Storage in  
memory may take up to 70 seconds.  
APPEND  
If you want to add an ion chamber to the end of the list of ion chambers, click on APPEND. The Program  
Ion Chamber Form appears with the default text and values. Change the text and values to match those  
of the ion chamber you are adding. Select OK to send the new ion chamber to the Model 35040 Therapy  
Dosimeter; select CANCEL to discard the ion chamber and stop the append operation.  
DELETE  
If you want to delete an ion chamber, select it from the List Box. When you click on DELETE, you are  
asked to confirm the deletion. Select YES to delete the ion chamber; select NO to stop the delete  
operation.  
INSERT  
If you want to insert an ion chamber, select a position in the List Box ahead of which to insert a new ion  
chamber. Click on INSERT. The Program Ion Chamber Form appears with the default text and values.  
Change the text and values to match those of the ion chamber you are adding. Select OK to send the  
new ion chamber to the Model 35040 Therapy Dosimeter; select CANCEL to discard the ion chamber and  
stop the insert operation.  
STORE  
Click on STORE so that changes made to the instrument’s ion chamber list are stored permanently. This  
process may last 70 seconds.  
NOTE  
If changes were made to the ion chamber list and  
not stored permanently with the STORE button,  
they are permanently stored when another  
customization form is selected.  
3.10.8 Special Items  
Figure 3-36 shows the Special Items Form. This form contains the Power Down Interval, Temperature  
and Pressure Units, Calibration Temperature, and two Optional Text lines. At the bottom, there are two  
buttons labeled DOWNLOAD and CANCEL. At the right, a brief explanation of the focused item appears.  
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Figure 3-36.  
The Special Items Menu (Calibration Temperature has focus)  
To modify the Power Down Interval or Optional Text, click on the desired text box and type in the new text  
from the keyboard.  
To select the Calibration Temperature, or different Temperature or Pressure Units, click on the DOWN  
arrow key and select another item from the drop down list by clicking on it.  
NOTE  
When a Special Item has been edited or changed,  
its text box background color will change from  
‘white’ to ‘yellow’.  
Permanent storage in the  
Dosimeter’s memory is made only after depressing  
the DOWNLOAD button.  
DOWNLOAD and CANCEL  
When you complete your editing of the Special Items, you may select DOWNLOAD or CANCEL. If you  
select CANCEL, all modifications are discarded and the original settings of the Special Items return. If  
you select DOWNLOAD, the Special Items (if modified) are sent to the instrument where they are stored  
and used.  
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Operation  
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3
3.10.9 Measurement Displays  
The Model 35040 Therapy Dosimeter can contain up to sixteen (16) measurement displays, which are  
viewed from the Measurement Displays Form. With this form you may customize the appearance of any  
of the measurement displays. All screens must show an Annunciators Status Line (see Section 3.9.13)  
on the first line of the display. You may choose what appears on the other three lines. Figure 3-37 shows  
the Measurement Displays Form.  
Figure 3-37.  
The Measurement Displays Form (right click the mouse on an item in the Display Line  
List to show the format of the Display Line)  
The display lines are grouped according to their function. The four groups are [Configuration] [Amps,  
Coulombs, Volts] [Dose, Rate] and [Time]. Table 3-4 provides a listing of all the display lines available  
for each group, along with a representation of the display line’s appearance on a measurement display.  
Right click mouse on the Title of a Display Line (in the Display Line List) to view the format or Appearance  
of the Measurement Display. Refer to Figure 3-37.  
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Table 3-4.  
Available Display Lines  
Display Line  
Appearance  
(on a Measurement Display)  
Group  
Title  
Configuration  
Blank Line  
Air Density Setting  
Temperature Pressure  
Bias Setting  
ADCF = -.---  
--.- C ---- hPa  
Set: >+---.- V +---%  
FW Rev: 15OCT92 A  
Interval: ---- s  
ICCF=1.234E+08 R/C  
Optional Text Line 1  
Optional Text Line 2  
Batt: -.- V +-.—A  
Leakage: -.--- pA  
IC Bias: ---.- V CEP  
--.--- nC  
Firmware Revision  
Time Interval Setting  
IC Calibration Factor  
Optional Text 1  
Optional Text 2  
Battery Voltage  
Leakage Current  
Bias Voltage  
Amps, Coulombs, Volts  
Charge  
Current  
---.- pA  
Accumulated Charge  
Average Current  
Timed Charge  
--.--- nC ACCUM  
---.— pA AVG  
--.--- nC ---- s  
--.--- nC PREDICT  
Leak: -.--- R/s  
Predicted Timed Charge  
Leakage Rate  
Dose, Rate  
Dose  
--.--- nR  
Rate  
---.- pR/s  
Accumulated Dose  
Average Rate  
--.--- nR ACCUM  
---.- pR/min AVG  
--.--- nR ---- s  
--.--- nR PREDICT  
Interval: ---- s  
--.--- nC ---- s  
--.--- nC PREDICT  
--.--- nR ---- s  
--.--- nR PREDICT  
--.-- s  
Timed Dose  
Predicted Timed Dose  
Time Interval Setting  
Timed Charge  
Time  
Predicted Time Chrg  
Timed Dose  
Predicted Timed Dose  
Effective Exp. Time  
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3
Display Line Group Selection  
Click on the Group’s DOWN arrow key and select another group from the drop down list by clicking on it.  
Each group on the drop down list will bring up a different Display Line List. Refer to Table 3-4.  
Selecting an Item and Placing It  
Use the mouse to move an item from the Display Line List to a Display. With the mouse, place the mouse  
cursor on the item. Press and hold the left key down. The item is now “grabbed” as indicated by the  
rectangle shown around the display line. Drag the item using the mouse. When you have moved it to  
display line you want, drop it by releasing the mouse button.  
Changing a Line on a Display  
To change a line on a Display, use the select and move operations described above to place an item on a  
Display.  
When an item replaces a line on a Display, the Customization software immediately sends the information  
to the Model 35040 Therapy Dosimeter. In this manner, the Customization software always reflects the  
current appearance of the Displays. Any line on any display may be changed as often as required.  
Using the APPEND, DELETE, and INSERT Buttons  
Within the Measurement Displays Form you may remove any Display in the instrument. Also, you may  
add or insert a Display in the instrument. During these operations, different Displays will appear. A  
maximum of four (4) displays can be viewed at any time. To see other Displays, use the vertical scroll bar  
in the Display Frame to scroll up and down the Display list.  
APPEND  
If you want to add a Display to the end of the Displays, click on APPEND button. The Displays area of  
the dialog box shows the new Display. You may customize the lines as described above. Append adds  
one Display only.  
NOTE  
Upon selecting Append, the Customization  
software tells the Model 35040 Therapy Dosimeter  
to append a display with, initially, two Blank Lines  
and a Charge measurement.  
DELETE  
If you want to remove a Display, click on the DELETE button. The Customization software prompts you  
for the Display’s number. Enter a valid Display number and press OK (if you make an invalid entry, the  
program beeps). The Display is removed. To abort the Delete operation, press CANCEL.  
NOTE  
Upon completing the deletion, the Customization  
software tells the Model 35040 Therapy Dosimeter  
to delete the Display you specified.  
INSERT  
If you want to insert a Display, click on the INSERT button. The Customization software prompts you for  
the Display’s number ahead of which to insert a new Display. Enter a valid Display number and press OK  
(if you make an invalid entry, the program beeps). The Display is inserted. You may customize the lines  
as described above. To abort the Insert operation, press CANCEL.  
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NOTE  
Upon completing the insertion, the Customization  
software tells the Model 35040 Therapy Dosimeter  
to insert the Display you specified. Initially, the  
inserted Display has two Blank Lines and a Charge  
measurement.  
3.10.10 Timer Intervals  
The Model 35040 Therapy Dosimeter can contain up to twenty (20) timer interval settings, which are  
programmed from the Timer Intervals Form.  
Figure 3-38 shows the measurement Timer Intervals Form that contains the timer interval settings,  
general editing information, and DOWNLOAD and CANCEL buttons.  
Figure 3-38.  
The Timer Intervals Form  
Select a field by clicking on it with the mouse. Enter an integral number of seconds for the timer interval  
setting. When you select DOWNLOAD, the Customization software sends the timer interval settings to  
the instrument. Select CANCEL to discard any changes and return to the Measurement menu.  
NOTE  
When a Timer Interval has been edited, its text box  
background color will change from ‘white’ to  
‘yellow’. Permanent storage in the Dosimeter’s  
memory is made only after depressing the  
DOWNLOAD button.  
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Operation  
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3
The Model 35040 Therapy Dosimeter displays the timer intervals in the same order they are entered.  
That is, it does not sort the timer interval settings. The UP arrow key displays the timer interval settings in  
an increasing interval number order (e.g., Interval 1, Interval 2 Interval 20), while the DOWN arrow key  
presents the timer interval settings in a decreasing order. The instrument automatically skips any settings  
that have a value of zero (0).  
3.10.11 Bias Settings  
To customize the bias voltage settings for your Model 35040 Therapy Dosimeter, select Bias Settings.  
Figure 3-39 shows the Bias Settings that contains 11 bias setting fields, general editing information, and  
DOWNLOAD and CANCEL buttons.  
Figure 3-39.  
The Bias Settings Form  
Select a field by clicking on it with the mouse. Enter a bias voltage setting between -500 and +500 V. If  
you require zero (0) volts, you must enter 0 as a value. Blank settings are skipped in the instrument –  
they are NOT interpreted as zero. When you select DOWNLOAD, the Customization software sends the  
bias settings to the instrument. Select CANCEL to discard any change. Not all fields must have an entry;  
the Model 35040 Therapy Dosimeter ignores blank fields. Bias settings may be entered in any order and  
may be repeated.  
NOTE  
When a Bias Setting has been edited, its text box  
background color will change from ‘white’ to  
‘yellow’. Permanent storage in the Dosimeter’s  
memory is made only after depressing the  
DOWNLOAD button.  
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When you press Bias Select on the Model 35040 Therapy Dosimeter front panel, the UP & DOWN keys  
allow you to select the bias settings in the order you entered them in the Bias Settings dialog box.  
3.10.12 Examples  
The following examples describe many functions of the Customization program.  
Editing an Ion Chamber  
To change an ion chamber’s parameters, first select Ion Chambers from the menu.  
1. Click twice on the ion chamber you want to modify.  
2. Keyboard: To edit the Title, Description, or Calibration factor, start typing. The program places the  
text into the focused area. Also, a blinking cursor indicates the position of the next character. To  
select another parameter to edit, use the mouse to move the focus. To select different units, press  
the DOWN arrow key to drop the list and to make a selection. Press OK to accept the new settings;  
press CANCEL to retain the original settings.  
Appending or Inserting an Ion Chamber  
You may add or insert an ion chamber into the list of ion chambers by selecting APPEND or INSERT.  
Append adds an ion chamber to the end of the list. Insert inserts an ion chamber ahead of the one  
highlighted on the list.  
APPEND  
1. Click on the APPEND button.  
2. The program enters the Edit mode where you may change the parameters as described in the first  
example. Select OK to complete the APPEND operation; select CANCEL to abort it.  
INSERT  
1. Click on an ion chamber ahead of which to insert a new ion chamber.  
2. Click on the INSERT button.  
3. The program enters the Edit mode where you may change the parameters as described in the first  
example. Select OK to complete the INSERT operation; select CANCEL to abort it.  
To abort the Append or Insert operation, select CANCEL. If you select OK, the program sends the  
information to the instrument along with instructions to append or insert the ion chamber information.  
Deleting an Ion Chamber  
Select DELETE to remove the highlighted ion chamber from the list. When you click on DELETE, you are  
asked to confirm the deletion. Select YES to delete the ion chamber; select NO to stop the delete  
operation.  
Storing the Modified Ion Chamber Settings in the Dosimeter  
Click on STORE so that changes made to the instrument’s ion chamber list are stored permanently. This  
process may last 70 seconds.  
NOTE  
If changes were made to the ion chamber list and  
not stored permanently with the STORE button,  
they are permanently stored when another  
customization form is selected.  
Changing the Power Down Interval  
To change the Power Down Interval, select Special Items from the Main menu. This example changes  
the Power Down Interval to 15 minutes.  
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Operation  
Customization  
3
1. Clicking on the Power Down Interval places the input focus there.  
2. Keyboard: Enter 15 into the Edit Box.  
2. Click on DOWNLOAD. The Customization software downloads the new Power Down Interval to the  
model 35040 Therapy Dosimeter.  
Changing the Pressure Units  
To change the Pressure Units, select Special Items from the Main menu. This example changes the  
Pressure Units to millibars.  
1. Click on the DOWN arrow symbol of the Pressure Units Drop List.  
2. Click on millibars.  
3. Click on DOWNLOAD. The Customization software downloads the new Pressure Units to the  
model 35040 Therapy Dosimeter.  
Customizing a Measurement Display  
To customize a Measurement Display, select Measurement Displays from the Main menu. This example  
places the Battery Voltage readout on the third line of the second Display (Display 2).  
1. Click on the down arrow symbol of the GROUP drop down list.  
2. Click on “Amps, Coulombs, Volts”.  
3. Move the mouse icon over “Battery Voltage” in the Display Line List box.  
4. Press and hold the left key of the mouse and drag the ‘blank text box’ to the third line of Display 2.  
Release the mouse button. The Customization software drops the Battery Voltage display text into  
the third line of Display 2 and downloads the new contents of Display 2 to the Model 35040  
Therapy Dosimeter.  
To preview the display text, place the mouse icon over a display line description in the Display Line List  
box and press and hold the right key of the mouse. The display text will appear on the bottom of the  
Displays Programmed List box.  
Appending a Display  
This example shows how to add a Display to the end of all the Displays.  
1. Click on the button labeled APPEND.  
The Customization software appends a new Display and assigns it the next highest number. It also  
downloads the append operation to the instrument. The new Display contains two Blank Lines and a  
Charge measurement as a default. The Display appears immediately and you may add lines to it as  
described in the first example.  
Deleting a Display  
This example shows how to remove Display 2 from the list of Displays.  
1. Click on the button labeled DELETE.  
2. The Customization software prompts you for the number of the Display to delete. Type 2 and press  
OK. If CANCEL is selected, no display is deleted.  
The Customization software deletes Display 2. All the Displays behind Display 2 move up in order. The  
Customization software downloads the delete operation to the instrument.  
Inserting a Display  
This example shows how to insert a Display before Display 3.  
1. Click on the button labeled INSERT.  
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2. The Customization software prompts you to enter a Display number ahead of which to insert a new  
Display. Type 3 and press ENTER.  
The Customization software inserts a new Display ahead of Display 3. The Customization software  
downloads the insert operation to the instrument. The new Display contains two Blank Lines and a  
Charge measurement as a default. All the Displays behind Display 3 move down in order.  
Changing a Bias Setting  
To customize a Bias Setting, select Bias Settings from the Main menu. This example customizes the  
second Bias Setting to 150 V.  
1. Click on the Edit Box to the right of the Bias Setting 2 title.  
2. Keyboard: Enter 150.  
3. Click on DOWNLOAD. The Customization software downloads the new Bias Voltage Setting to the  
model 35040 Therapy Dosimeter.  
3.10.13 Errors  
This section describes the error messages that may appear during the program’s operation. If an error  
message appears, follow the instructions below to resolve the error. To remove the error message, use  
the mouse or press a key. If you press a key and it has an associated operation, the operation executes.  
Printing Error  
A Printing Error occurs if the Customization software cannot initialize the printer. Check the computer  
connection to the printer and try printing again.  
Com Initialization Error  
The selected serial COM port could not be initialized. Verify that the port selected is available and that it  
is not being used by another program.  
Serial Link Error  
A Link Error occurs when the Customization software starts and cannot establish communication with the  
instrument. If this happens, first verify that the Com Port Indicator is green signifying that the PC port has  
been initialized. Next, verify that the serial port cable is connected from the PC to the 35040 Dosimeter  
and that the Dosimeter is powered up.  
Also try, cycling Dosimeter power, wait five (5) seconds, and click on the UPLOAD button.  
Download Errors  
When new customization settings are downloaded to the 35040 Dosimeter, the Dosimeter will send back  
the new settings to verify that the data was properly received. The Customization software will verify that  
the returned settings match what was transmitted to the instrument. If the match is correct, all data field  
background colors that were yellow (indicating a changed parameter) will be changed back to white. If  
there was a mismatch, the data field background color will remain yellow and an error message may also  
be displayed. Repeat the download procedure if there was an error.  
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Troubleshooting and Service  
4
Introduction  
Section 4  
Troubleshooting and Service  
NOTE  
The Model 35040 Therapy Dosimeter contains no  
internal operator serviceable parts. Disassembly of  
the unit could result in electrical shock.  
Always select 0 volts bias or turn off the Model  
35040 Therapy Dosimeter prior to connecting or  
disconnecting the ion chamber. Failure to do so  
may result in an electrical shock.  
When powering the Model 35040 Therapy  
Dosimeter from an AC line, always use a 3-wire  
grounding type line cord such as the one supplied  
with the dosimeter. In addition, only connect the  
Model 35040 Therapy Dosimeter 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 purpose of troubleshooting, some problems can be resolved by the operator in the field, even  
though the Model 35040 Therapy Dosimeter contains no internal operator serviceable parts.  
4.2 Troubleshooting  
The dosimeter provides information that can be used in troubleshooting by the user. Troubleshooting has  
been split into a list of symptoms and a set of decisions. The first section covers broad categories of  
errors. It is organized as symptom, cause, and action blocks. The second section is organized as  
decision trees.  
A symptom is something that can be seen, heard, or felt. The most likely cause is stated, followed by  
what action should be taken to correct the problem or isolate it. The last part of each block is a detailed  
explanation.  
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The decision trees of the second part are presented in text format. To use the decision tree, start with  
statement number 1. The text may state one or more actions to be completed followed by a question.  
Choose the most appropriate answer. Use the number after the answer to find the next statement.  
Eventually, you will come to a statement that has an action and no question. This may refer you to  
another section or provide a conclusion to the problem.  
When “PROBLEM”: is the first part of the action, the problem has been identified. The exact wording of  
the phrase should be used when reporting the problem to Fluke Biomedical’s Repair Coordinator.  
Let’s walk through a likely problem. The instrument is running from the battery. The phrase “LoBat” is  
blinking on the top line of the display. Look through the list of symptoms for the phrase “LoBat”. The  
symptom-cause-action block states that the most likely cause is the battery voltage is less than 5.9 volts.  
Many times the information in the cause may be enough to take corrective action. In this case though,  
you are going to follow the suggested action. Turn to the decision tree titled Low Battery (see Section  
4.4). The first statement asks if the instrument is plugged in. The instrument is not, so the answer is NO.  
Proceed to statement 6. Statement 6 says to plug the instrument in and asks if the current is positive. All  
parts of the instrument are operating normally, so the answer is YES. You proceed to statement 7.  
Statement 7 states that the battery is charging. Since there is no question, you are done.  
Symptom:  
Display does not light up when POWER is pressed.  
Cause:  
Action:  
The battery voltage may be very low.  
See Section 4.3.  
Explanation: The instrument will not operate if the battery voltage is less than 5.4 volts. The battery  
must be slowly charged to the 5.4 volt level by plugging the instrument in for up to 24  
hours.  
Symptom:  
“??Bias” annunciator displayed.  
Cause:  
Action:  
Signals from the high voltage side of the instrument are not valid.  
See Section 4.5.  
Explanation: The electrometer has not been initialized properly or the data transfer across the high  
voltage isolation has been interrupted. If the bias voltage is shorted by connecting or  
disconnecting a cable while the bias is on, a high voltage spark may be generated which  
can turn off some or all of the logic on the high voltage side of the instrument.  
Symptom:  
“HiBias” annunciator displayed.  
Cause:  
Action:  
Bias is higher than the selected voltage by more than 1 volt.  
See Section 4.5.  
Explanation: HiBias is a normal momentary indication when changing from one bias selection to the  
next. It should only persist for a few seconds. This display is triggered when the  
magnitude of the measured bias voltage exceeds the set point by more than 1 volt.  
Symptom:  
“LoBias” annunciator displayed.  
Cause:  
Action:  
Bias is lower than the set point by more than 1 volt.  
See Section 4.5.  
Explanation: LoBias is a normal momentary indication when changing from one bias setting to the  
next. It should only persist for a few seconds. This display is triggered when the  
magnitude of the measured bias voltage is less than the set point by more than 1 volt.  
Symptom:  
“LoBat” annunciator displayed.  
Cause:  
Action:  
The battery voltage is 5.9 volts or less.  
See Section 4.4.  
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Troubleshooting and Service  
4
Troubleshooting  
Explanation: The low battery annunciator is a reminder that while running on the battery, there is a  
finite amount of energy available. For the battery in this instrument and the energy  
consumption of the instrument, when the battery voltage drops below 5.9 volts there is  
less than 30 minutes of operating time left.  
Symptom:  
“Internal Reset Error” displayed.  
ADC  
Internal Reset Error  
Press RESET/MEASURE  
and Repeat Exposure  
Cause:  
Action:  
Start of exposure detected during reset process.  
Stop the exposure. Press the RESET/MEASURE button. Wait for the “System Not RDY”  
annunciator to extinguish. Start the exposure.  
Explanation: The instrument measured a current above the start threshold while resetting the  
electrometer. It is assumed that the exposure was started while the reset was occurring.  
If the exposure did start during the reset, some unknown amount of charge was lost. The  
lost charge would lead to an incorrect reading.  
Symptom:  
“Configuration Error” displayed.  
ADC  
Configuration Error  
Service Required  
Error Number : 16  
Cause:  
Action:  
The instrument has lost the calibration or customization data.  
Convert the configuration error number to a binary value using a program such as the  
Windows® Calculator and use the table below to determine the extent of the problem.  
For example, a configuration error of “18” corresponds to a binary value of “10010” (bits 5  
and 2 set), which indicates that the customization for both the ion chamber and settings  
are invalid.  
Bit  
Description  
Action  
Operator settings are  
invalid.  
Select the proper settings  
from the front panel.  
1
Customization settings are  
invalid.  
Electrometer calibration  
settings are invalid.  
Reinstall settings using the  
Customization software.  
Do NOT make  
measurements. Return  
instrument for repair.  
Do NOT make  
measurements. Return  
instrument for repair.  
Reinstall ion chambers using  
the Customization software.  
Return instrument for repair  
to correct problem.  
2
3
Bias calibration settings are  
invalid.  
4
Ion chamber customization  
settings are invalid.  
Ion chambers cannot be  
read.  
5
6
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Additional operator settings  
are invalid.  
Timer interval customization Reinstall settings using the  
settings are invalid.  
Additional calibration  
settings are invalid.  
Select the proper settings  
from the front panel.  
7
8
Customization software.  
Do NOT make  
measurements. Return  
instrument for repair.  
9
Explanation:  
The instrument detects whether the stored parameters are valid at power-up. If the  
parameters are invalid, it will affect one or more of the measurements. The operator may  
restore some of the information either by selecting options from the front panel or by  
running the customization software. Invalid calibration settings require a new calibration.  
Follow the recommendations in the above table.  
Symptom:  
displayed.  
"Current Overrange"  
ADC  
Current Overrange  
Reduce exposure and  
Press RESET/MEASURE  
Cause:  
The input current has exceeded the 1.200 uA limit.  
Action:  
Stop the exposure. Change the setup to reduce the current.  
Explanation:  
The instrument has a 1.000 uA limit on measurable current and will continue to measure  
charge for currents up to 1.200 uA. The instrument can accept an input current up to 3  
mA without damage to the instrument.  
Symptom:  
“Current Overrange” displayed.  
ADC  
Current Overrange  
Reduce exposure and  
Press RESET/MEASURE  
Cause:  
Action:  
The input current has exceeded the 100 nA limit.  
Stop the exposure. Change the setup to reduce the current.  
Explanation: The instrument has a 100 nA limit on measurable current. The instrument can accept an  
input current up to 3 mA without damage to the instrument.  
Symptom:  
Dashes displayed instead of digits.  
Cause:  
Action:  
No meaningful measurement could be obtained.  
Press the RESET/MEASURE button to reset the measurements.  
Explanation: ICBias —.- V : the bias voltage measurement is unavailable due to invalid signals within  
the instrument. This is a normal momentary condition when the instrument is powered  
up.  
Symptom:  
The bias voltage measurement changes by one digit.  
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Troubleshooting and Service  
4
Troubleshooting  
Example: 299.9 to 300.0  
Rounding error in measurement.  
None.  
Cause:  
Action:  
Explanation: The bias voltage is not actually changing. The control for the bias is in discrete steps.  
The measurement is also in discrete steps. The control program may select a setting  
that causes the measurement to be very near the transition between one measurement  
step and the next.  
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4.3 Display Will Not Light  
Go to  
line:  
2
4
3
11  
4
12  
5
7
YES  
NO  
YES  
NO  
YES  
NO  
YES  
NO  
1.  
2.  
3.  
4.  
5.  
Is the instrument connected to line voltage?  
Disconnect the line cord. Check the fuse. (See Section 4.6.) Is the fuse  
filament intact?  
Attach known operational appliance to outlet. Does the appliance work?  
Connect instrument to AC line. Press the Power button.  
Did the display light up?  
YES  
NO  
6
13  
Is the battery current between +0.10 A and +3.00 A?  
The fault has been cleared. The battery is charging. Leave the instrument  
plugged in for at least 2 hours. When the battery is less than 5.4 volts and the  
instrument is running on battery, the instrument will turn itself off. This is to  
protect the battery from becoming severely discharged.  
6.  
Replace cord with known good cord or establish that the line cord is good. Is  
line cord good?  
YES  
NO  
YES  
NO  
YES  
NO  
8
14  
9
16  
10  
15  
7.  
8.  
9.  
Was the battery low the last time the instrument was stored?  
Has the instrument been plugged in for more than 24 hours?  
10. PROBLEM: Instrument will not power up after 24 hours. See Section 4.10.  
11. See Section 4.6.  
12. Faulty Outlet. Use a different outlet.  
13. See Section 4.2 to isolate problem.  
14. ORDER: Proper line cord. See Section 4.9.  
The battery may take more than 18 hours to recharge if the battery was in the  
15. low battery condition and was not recharged before storage. Leave the  
instrument plugged in and try again in 18-24 hours.  
16. PROBLEM: Instrument will not power up. See Section 4.10.  
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Troubleshooting and Service  
4
Low Battery  
4.4 Low Battery  
Go to  
line:  
Is the instrument connected to line voltage? Is the instrument connected to line YES  
2
6
1.  
2.  
voltage?  
NO  
Turn the instrument off. Wait a few seconds. Turn the instrument on. A  
sequence of screens will appear. On the last screen, the battery voltage and  
current are displayed. Is the battery current between +0.10 A and +3.00 A?  
The battery is charging. Has the instrument been plugged in for more than 8  
hours?  
YES  
NO  
3
8
YES  
NO  
4
--  
5
3.  
4.  
5.  
YES  
NO  
Is the battery voltage greater than 5.9 volts?  
--  
PROBLEM: False battery low indication. See Section 4.10.  
Connect AC line cord. If the display goes blank or stops updating, turn the  
instrument off. Wait a few seconds. Turn the instrument on. Is the battery  
current between +0.10 A and +3.00 A?  
YES  
NO  
7
8
6.  
The battery is charging. "LoBat" indicator will turn off when the battery voltage  
is above 5.9 volts.  
7.  
8.  
9.  
YES  
NO  
YES  
NO  
9
Is the battery current between -1.00 A and -0.10 A?  
18  
10  
11  
Disconnect AC line cord from rear panel. Remove line fuses from rear panel  
fuse holder. Test the fuses with an ohmmeter. Are the fuses open circuited?  
10. See Section 4.6.  
Reinstall fuses. Reconnect AC line cord.  
Is the battery current between YES  
NO  
12  
13  
11.  
+0.10 A and +3.00 A?  
12. The battery is charging.  
YES  
14  
16  
15  
17  
13. Attach known operational appliance to outlet. Does the appliance work?  
NO  
YES  
NO  
Instrument or line cord is faulty. Replace cord with known good cord or  
14.  
establish that the line cord is good. Is line cord good?  
15. PROBLEM: Battery charger inoperative. See Section 4.10.  
16. Outlet is faulty.  
17. See Section 4.9. Order proper line cord.  
PROBLEM: Low battery during trickle charge. Call Fluke Biomedical for  
Service.  
18.  
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4.5 Bias Error  
Go to  
line:  
YES  
NO  
YES  
NO  
YES  
NO  
YES  
NO  
2
6
3
8
4
--  
5
--  
1.  
2.  
3.  
4.  
5.  
Is "??Bias" displayed?  
Has the instrument been on for more than one minute?  
Turn off the power. Wait 10 seconds. Turn on the power. Wait 1 minute. Is  
"??Bias" displayed?  
PROBLEM: Electrometer fault. See Section 4.10.  
Change the bias voltage to a different setting and then change back. Wait  
about 10 seconds. Is the error on the display?  
Change the bias voltage to 0.0 V. Disconnect all triax cables. Cap the  
connectors. Change bias voltage to desired setting. Wait about 10 seconds.  
Is the error on the display?  
YES  
NO  
7
8
6.  
Change the bias voltage to 0.0 V. Examine the triax connectors on the  
instrument, both front and rear, for foreign matter. Is foreign matter present?  
7.  
8.  
9.  
YES  
NO  
YES  
NO  
9
See Section 4.7.  
18  
10  
11  
Normal operation established.  
10. Do you use a separate cable to connect the ion chamber to the instrument?  
Change the bias voltage to 0.0 V. Connect only the cable to the instrument.  
11. Change the bias voltage to the desired setting. Wait about 10 seconds. Is the  
error on the display?  
YES  
NO  
12  
13  
12. PROBLEM: Bias fault in cable. See Section 4.10.  
Change the bias voltage to 0.0 V. Connect the ion chamber. Change the bias  
13. voltage to the desired setting. Wait about 10 seconds. Is the error on the  
display?  
YES  
NO  
14  
16  
YES  
NO  
15  
17  
14. PROBLEM: Bias fault in instrument. See Section 4.10.  
15. PROBLEM: Bias fault in ion chamber. See Section 4.10.  
16. This message is displayed until the signals from the isolated side are valid.  
4-8  
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Troubleshooting and Service  
4
Line Fuse Replacement  
4.6 Line Fuse Replacement  
NOTE  
Disconnect the Model 35040 Therapy Dosimeter  
from other equipment along with the AC line power  
and turn off power before continuing with this  
section.  
1. Position the instrument on its display face.  
Figure 4-1.  
Model 35040 Therapy Dosimeter 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 P/N 38476.  
WARNING  
The use of different fuses may result in fire or  
electrical shock in case of an internal fault.  
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.  
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NOTE  
If fuses continue to fail - return the instrument for  
repair.  
4.7 Interface Connector Cleaning  
WARNING  
Select 0.0 V bias setting AND turn off the Model  
35040 Therapy Dosimeter 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 that may have a  
detrimental affect upon the accuracy of radiation measurements.  
The ends of the interface cable may pick up dust and lint as the cable touches the floor during packing  
and unpacking. Dirt may later be transferred to the interface connectors located on the Model 35040  
Therapy Dosimeter 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 will be  
required.  
A procedure for troubleshooting excessive leakage is given earlier in this section.  
4.8 Cleaning The Instrument  
To clean the exterior of the instrument, follow these steps:  
1. Turn off the instrument and disconnect all input connectors.  
2. Place the caps on both triax connectors.  
3. Moisten a soft cleaning cloth with a solution of three parts water and one part liquid dishwashing  
detergent.  
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.  
4.9 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 Fluke Biomedical at  
440.248.9300.  
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Troubleshooting and Service  
Replaceable Parts Information  
4
Table 4-1. Replaceable Parts List  
Description  
Part Number  
AC Line Cord (USA)  
AC Line Cord (Europe CEE 7/7)  
AC Line Cord (UK & Ireland)  
AC Line Cord (Denmark)  
AC Line Cord (Italy)  
AC Line Cord (Switzerland)  
Carrying Case  
CO-19  
86512060  
86583000  
86536041  
86531031  
86515050  
37777  
Customization Kit  
37886  
DB-9 Female Connector  
7 foot RJ-45 Cable  
Customization Software Disk 3.5"  
Handle  
37616  
105-260  
37888  
38439  
Mounting Ear (Right)  
Mounting Ear (Left)  
Rubber Foot (Front)  
Rear Foot  
428-328E  
428-338B  
070-80  
38600  
Rubber Foot (Rear)  
Dust Cap and Chain (BNC)  
Dust Cap and Chain (TNC Optional)  
Fuse  
FE-6  
878-11-63  
414910-2  
38476  
Fuse Drawer  
018-304  
4.10 Recalibration, Repair Information & Technical  
Assistance  
If your instrument needs recalibration or repair, we request that you contact Fluke Biomedical at  
440.248.9300.  
More information concerning the operation, application, or service of your instrument may be obtained  
from the applications engineer at the previously listed numbers.  
4.11 Warranty Information  
Should your instrument require warranty service, contact Fluke Biomedical at 440.248.9300.  
4-11  
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Appendix  
Sample Customization Reports  
A
Appendix A  
Sample Customization Reports  
A.1 Sample Documents  
This section contains sample documents that the Customization Software can produce. It produced these  
documents on a HP LaserJet® All of them contain the header “35040 THERAPY DOSIMETER”.  
A-1  
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35040  
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A-2  
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Appendix  
Sample Customization Reports  
A
A-3  
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35040  
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A-4  
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Appendix  
Sample Customization Reports  
A
A-5  
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Appendix  
Features of Firmware Version “27JAN00” or Later  
B
Appendix B  
Features of Firmware Version”27JAN00” or Later  
B.1 Introduction  
This addendum updates information provided in the Model 35040 Therapy Dosimeter Instruction Manual.  
Particularly, the instrument now supports a measurement timer and extended charge and current ranges.  
B.2New Features  
B.2.1 Overview  
Added timed charge, predicted timed charge, and the corresponding dose measurements  
Twenty (20) interval settings (1 to 9,999 s) selectable from the instrument’s front panel and user  
programmable via the Customization software  
Ability to select the timer’s count mode and decimal places from the front panel  
Increased maximum charge from 2.4 μC to 19.999 mC  
Increased maximum current from 100 nA to 1.000 uA and auto-recovery for currents less than  
1.200 μA  
ALC annunciator simplifies toggling of the automatic leakage compensation status and promotes  
easy recognition of leakage compensation status  
Increased maximum effective time from “59 min 59.9 s” (3,599.9 s) to “5 h 33 min 19.9 s” (19,999.9  
s)  
B.2.2 Timed Measurements  
The Model 35040 Therapy Dosimeter provides a timer for performing timed charge and dose  
measurements. A typical application of the timer is for measuring brachytherapy sources. The  
instrument supplies four timed measurement quantities, which may be added to any of the measurement  
displays with the Customization software (refer to Section B.7).  
While competing instruments may provide measurements similar to the timed charge or dose, the Model  
35040 offers predicted timed measurements for superior diagnostic capabilities while measuring sources  
delivering at a constant exposure rate (e.g., brachytherapy). The predicted timed measurements  
extrapolate the amount of timed charge that should be collected at the completion of the interval, which  
can reveal problems early in the measurement process versus waiting for the complete interval to expire.  
B-1  
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Operators Manual  
Refer to the following sections for details on the timed measurements:  
Section B.3.2, Making Timed Exposure Measurements, presents an overview on configuring and  
using the timer.  
Section B.4.1, Front Panel Controls: RESET/MEASURE, discusses how to start and stop the timer  
as well as zero measurements.  
Section B.4.4, Timer Setup, provides details on the timer configuration.  
Section B.5, THEORY OF OPERATION, specifies how the instrument performs timed  
measurements.  
Section B.7, CUSTOMIZATION, provides information on customizing the measurement displays  
and timer intervals.  
B.2.3 Specifications Update  
This section lists the specification changes with respect to the Model 35040 Therapy Dosimeter  
Instruction Manual.  
Charge Measurements  
Range, Resolution, and Repeatability:  
Repeatability  
( counts)  
Full Scale Range  
Display Resolution  
200.00 pC  
2.0000 nC  
20.000 nC  
200.00 nC  
2.0000 μC  
20.000 μC  
200.00 μC  
2.0000 mC  
20.000 mC  
0.01 pC  
5
0.0001 nC  
0.001 nC  
0.01 nC  
1.5  
2.5  
1
1
0.0001 μC  
0.001 μC  
0.01 μC  
0.0001 mC  
0.001 mC  
1
1
1
1
Timed Charge Measurements  
Range and Resolution: Same as charge measurements.  
Measurement Method: The timed charge measurement is derived by monitoring the charge integrated  
over a time interval that begins with the activation of the timer. The timer automatically stops when the  
elapsed time is equal to the timer interval setting or the exposure is over. Interpolation is used to  
determine the charge at an integral number of seconds.  
Measurement Accuracy: Same as charge measurements assuming that the rate of charge delivery does  
not dramatically change within the interpolation window interval. Refer to Section B.5 for calculation  
details.  
Current Measurements  
Range, Resolution, and Noise:  
Noise  
( counts)  
Full Scale Range  
Display Resolution  
200.0 pA  
2.000 nA  
20.00 nA  
200.0 nA  
0.1 pA  
0.001 nA  
0.01 nA  
0.1 nA  
2
2
1
1
B-2  
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Appendix  
New Features  
B
1
1.000 μA  
0.001 μA  
Average Current Measurements  
Range and Resolution:  
Full Scale Range  
200.00 pA  
Display Resolution  
0.01 pA  
0.0001 nA  
0.001 nA  
0.01 nA  
2.0000 nA  
20.000 nA  
200.00 nA  
1.0000 μA  
0.0001 μA  
Effective Exposure Time Measurements  
Range and Resolution:  
Full Scale Range  
Display Resolution  
Seconds  
59.99 s  
Hours/Minutes/Seconds  
59.99 s  
0.01 s  
0.1 s  
19,999.9 s  
5 h 33 min 19.9 s  
Measurement Method: The effective exposure time value is calculated as the quotient of the charge and  
average current measurement values. A minimum exposure duration of 3.5 seconds is required to  
produce an effective exposure time measurement value.  
B.3SETUP  
B.3.1 Making Non-Timed Exposure Measurements  
With Automatic Leakage Compensation Disabled  
The instrument must be manually reset before each exposure when automatic leakage compensation is  
disabled.  
Procedure  
Hold RESET/MEASURE for one second just before making the exposure to reset the instrument.  
Note that the instrument displays the “Rst” annunciator while the hardware is being reset.  
Wait for the reset to complete.  
Make the exposure.  
The exposure measurements will be displayed but may drift due to leakage. Repeat this sequence for  
every exposure.  
With Automatic Leakage Compensation Enabled  
In addition to compensating measurements for leakage, the instrument holds the exposure  
measurements and automatically resets after each exposure when automatic leakage compensation is  
enabled.  
B-3  
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35040  
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Procedure  
The annunciator line on the Measurement screen displays "WAIT System Not RDY" while the  
instrument is acquiring the minimum number of samples required for leakage compensation. Wait  
for this message to disappear.  
Wait for the leakage current to return to the nominal value.  
Make the exposure.  
When the instrument senses that the exposure is over, it displays and holds the exposure measurements  
and then resets the electrometer (refer to Section B.4.3 for information on configuring the start and stop  
thresholds). The exposure measurements are displayed until either the RESET/MEASURE button is held  
for one second, the bias voltage or threshold changed, or another exposure is started.  
B.3.2  
Making Timed Exposure Measurements  
The timer is available when any of the measurement displays contains a timed measurement. Refer to  
Section B.7 for information on customizing measurement displays.  
Timer Setup  
Procedure  
Use the TEST FUNCTION button, along with the UP and DOWN arrows to display the Timer Setup  
screen.  
To modify the timer setup, press the TEST FUNCTION button to display the " " cursor at the timer  
interval field and use the UP and DOWN arrows to select a timer interval from the programmed list.  
(Refer to Section B.7 for information on how to program the interval list.)  
Press the TEST FUNCTION button to advance the " " cursor to the timer count mode field and use  
the UP and DOWN arrow keys to select up (UP) or down (DOWN) for the count mode.  
Press the TEST FUNCTION button to advance the " " cursor to the timer decimal places field and  
use the UP and DOWN arrow keys to select zero (0) or one (1).  
Press the TEST FUNCTION button to hide the cursor and save any changes. Proceed to using the  
timer, which is discussed next.  
Timer Use  
Procedure  
Press the RESET/MEASURE button to show the Measurement screen if it is not displayed.  
To start or manually stop the timer, press the RESET/MEASURE button while the instrument is  
updating other exposure measurements (e.g., charge and current). The instrument displays the  
“Tmr” annunciator when the timer is running.  
NOTE  
The instrument will not permit the timer to be  
started while leakage is being measured.  
Upon completion of the timer interval or if the instrument senses the exposure is over (applicable  
when automatic leakage compensation is enabled), the instrument ceases updating the timed  
measurements.  
NOTE  
Use the predicted timed charge or dose  
measurement to diagnose a problem at the onset of  
B-4  
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Appendix  
B
Setup  
a timed measurement for sources that deliver at a  
constant exposure rate. If the predicted timed  
measurement is drastically different from the  
expected value, there is no reason to wait for the  
complete timer interval to expire before  
investigating the cause of the discrepancy.  
NOTE  
To differentiate the predicted and non-predicted  
timed measurements, the instrument alternates the  
display of time with a “PREDICT” indicator on the  
predicted timed measurement lines.  
B.4Operation Instructions  
B.4.1 Front Panel Controls  
Test Function  
When the Test Function screen is not displayed, pressing the TEST FUNCTION button displays the  
Test Function screen and the information/settings that were last viewed since power-up.  
NOTE  
The TEST FUNCTION screen provides access to  
information and settings such as the firmware  
revision, charge and current scale factors, battery  
and  
bias  
voltages,  
automatic  
leakage  
compensation settings, and timer settings.  
When the Test Function screen is displayed, pressing the TEST FUNCTION button displays a  
cursor that allows modification of the following settings:  
- Enabling or disabling automatic leakage compensation or setting of the start and stop exposure  
current thresholds  
- Selecting the timer interval, count mode, and decimal places  
- Specifying the effective exposure time presentation  
RESET/MEASURE  
When the Measurement screen is not displayed, pressing the RESET/MEASURE button displays  
the Measurement screen and the Measurement display that was last viewed since power-up.  
When the Measurement screen is displayed:  
- And when the instrument is performing exposure measurements, pressing the  
RESET/MEASURE button toggles the timer  
- Pressing and holding the RESET/MEASURE button for one second zeroes all exposure  
measurements; the instrument also zeroes leakage measurements if leakage was being  
measured  
B-5  
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B.4.2 Using the Test Function Button  
Figure B.1 shows the automatic leakage compensation settings, which consist of the ALC status, start  
and stop threshold currents, and the instantaneous current measurement. Refer to Section B.4.3 for  
details.  
ADC  
ALC  
Start Thres: 1.0 pA  
Stop Thres: 0.9 pA  
Current:  
0.0 pA  
Figure B-1.  
The Test Function screen showing the automatic leakage compensation settings  
Figure B-2 displays the settings for the timer interval, count mode, and decimal places. Refer to Section  
B.4.4 for details.  
ADC  
ALC  
60 s  
Interval:  
Count: UP  
Decimal Places: 0  
Figure B-2.  
The Test Function screen showing the timer settings  
Figure B-3 shows the display format setting for the effective exposure time, which determines the  
ADC  
ALC  
Exp Time: HR/MIN/SEC  
presentation of the effective time on the Measurement screen.  
Figure B-3.  
The Test Function screen showing the effective exposure time display setting  
To change the effective time format setting, press the TEST FUNCTION button to show the " " cursor  
and use the UP and DOWN arrow buttons to select either seconds (SECONDS) or  
hours/minutes/seconds (HR/MIN/SEC). Press the TEST FUNCTION button again to hide the cursor and  
save the selection.  
B.4.3 Automatic Leakage Compensation  
Automatic compensation for leakage currents can be enabled and disabled from the front panel.  
Automatic leakage compensation allows the instrument to “detect” when an exposure is in progress and  
hold the final exposure measurement values between exposures.  
The start threshold specifies the current necessary for the instrument to begin updating the exposure  
measurements. The stop threshold must be smaller than the start threshold, and it indicates the minimum  
current required for the exposure measurements to be updated once an exposure is detected. That is,  
B-6  
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Appendix  
Operation Instructions  
B
the instrument will cease updating the exposure measurements when the current drops below the stop  
threshold and will return to measuring leakage.  
NOTE  
The instrument uses the start and stop threshold  
settings to sense when an exposure is in progress.  
With the automatic leakage compensation settings displayed (Figure B-4), press the TEST FUNCTION  
button. The " " cursor will appear to the left of the ALC annunciator. Use the UP and DOWN arrow  
buttons to toggle the setting between on (ALC) and off (OFF).  
With automatic leakage compensation enabled, press the TEST FUNCTION button to advance the " "  
cursor to the next field or exit Edit mode. When the cursor points to a threshold setting, use the UP and  
DOWN arrow buttons to increment and decrement the value, respectively. Nominal values for the start  
and stop thresholds are 1.3 and 1.2 pA, respectively. However, depending on the system leakage, other  
values may be necessary.  
When automatic leakage compensation is disabled, the annunciator displays off (OFF) (Figure B-5), the  
start and stop threshold settings cannot be changed and display Not Available (NA), as do the leakage  
ADC  
ALC  
Start Thres: 1.0 pA  
Stop Thres: 0.9 pA  
Current:  
0.0 pA  
measurements.  
Figure B-4.  
Figure B-5.  
Automatic Leakage Compensation Enabled  
Automatic Leakage Compensation Disabled  
NOTE  
The instrument may reset all measurements when  
ADC  
OFF  
Start Thres: NA pA  
Stop Thres: NA pA  
Current:  
0.0 pA  
the automatic leakage compensation parameters  
are changed.  
NOTE  
Disabling automatic leakage compensation prevents  
automatic exposure detection and the measurement  
of leakage current, and leakage measurements will  
display Not Available (NA).  
B-7  
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B.4.4 Timer Setup  
The Test Function screen provides for configuring the timer interval, count mode, and decimal places (see  
Figure B-6).  
With the timer settings displayed, press the TEST FUNCTION button. The " " cursor will appear to the  
left of the timer interval setting. Use the UP and DOWN arrow buttons to select a value from the user  
customizable list. Refer to Section B.7 for details on programming the timer intervals.  
ADC  
ALC  
60 s  
Interval:  
Count: UP  
Decimal Places: 0  
Figure B-6.  
The Test Function Screen Showing the Timer Settings  
Press the TEST FUNCTION button to advance the " " cursor to the timer count mode field. Use the UP  
and DOWN arrow buttons to toggle the setting between up (UP) and down (DOWN). For the up count  
mode, the timer starts at zero (0) seconds and increments up to the timer interval setting. The down  
count mode displays time starting from the timer interval setting and decrements to zero (0) seconds.  
Press the TEST FUNCTION button to advance the " " cursor to the timer decimal places setting. Use  
the UP and DOWN arrow buttons to toggle the setting between zero (0) and one (1). Zero decimal places  
displays time in whole seconds, while one decimal place displays time to a tenth of a second.  
NOTE  
Presently, the timer counts only in whole seconds.  
B.4.5 Reset Error (with Automatic Leakage Compensation Enabled)  
The following discussion is only applicable when automatic leakage compensation is enabled and the ion  
chamber is calibrated in Coulombs.  
Holding the RESET/MEASURE button while on the Measurement screen causes the Model 35040  
Therapy Dosimeter to reset the electrometer, zero all readings, and restart the measurement process.  
When an exposure is detected immediately following the reset that was not present prior to the reset, the  
ADC  
ALC  
Internal Reset Error  
Press RESET/MEASURE  
and Repeat Exposure  
instrument displays the reset error message shown in Figure B-7.  
Figure B-7.  
The Measurement Screen Showing the Reset Error Message  
To remove the error message, end the exposure and hold the RESET/MEASURE button. Wait a few  
seconds for the instrument to complete the reset and repeat the exposure.  
B-8  
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Operation Instructions  
B
B.4.6 Annunciators, Indicators, and Overrange Conditions  
Table B-1 specifies the annunciators that may appear on the top line of the display.  
Table B-1. Annunciators  
Annunciator  
Condition  
No bias measurement possible since the  
electrometer is not ready  
??Bias  
Air density correction in use (only applicable to  
radiological measurements)  
ADC  
ALC  
Automatic leakage compensation enabled  
Low Battery voltage  
LoBat  
LoBias  
Low Bias voltage  
HiBias  
High Bias voltage  
OvAmps  
Overranged current  
Rst  
Resetting electrometer  
Timer in use  
Tmr  
WAIT Bias Not Ready  
WAIT System Not Rdy  
The dosimeter is setting the bias  
The dosimeter is resetting the electrometer  
(only applicable when automatic leakage  
compensation is enabled)  
Figure B-8 illustrates the locations of some annunciators. The battery, bias, and overranged current  
annunciators appear at the same location, and the instrument alternates the displaying of each  
annunciator when more than one is applicable.  
ADC LoBias Tmr ALC  
39.995 nC  
659.8 pA  
59.891 s  
Figure B-8.  
Annunciator Positions  
Table B-2 lists the indicators the instrument uses to signal that a measurement quantity has not been  
compensated for leakage or is not available due to the specified condition.  
Table B-2. Measurement Indicators and Conditions  
Indicator  
Measurement  
Condition  
? (left of value) All Non-leakage1  
Automatic leakage compensation is enabled, but the exposure  
started before a leakage measurement was available.  
Automatic leakage compensation is enabled, but the exposure  
started before a leakage measurement was available.  
The calculated effective time is longer than the actual  
exposure. This condition occurs when a large amount of  
charge is injected at the beginning of the exposure.  
The leakage measurement is not available since automatic  
leakage compensation is disabled.  
-.---  
Leakage  
INVALID  
Effective Time  
NA  
Leakage  
OVER  
Non-leakage1  
The quantity or one of its dependents has exceeded the  
maximum value. Refer to Table B-3 for more information.  
1 All non-leakage measurements (e.g., charge, current, dose, rate, effective time, etc.)  
B-9  
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Table B-3 specifies the conditions that cause the Model 35040 Therapy Dosimeter to display an  
overrange indicator (OVER) for a measurement quantity.  
Table B-3. Overrange Conditions  
Condition  
Overranged Measurement1  
charge > 19.999 mC  
charge  
average current  
accumulated charge  
effective exposure time  
accumulated charge  
accumulated charge > 1.0000 C  
current  
current > 1.000 μA  
current > 1.200 μA  
time > 19,999.9 s  
all non-leakage  
effective exposure time  
1 Includes radiological measurements derived from electrical measurements.  
B-10  
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Appendix  
Theory of Operation  
B
B.5Theory Of Operation  
Basic Operating Equations  
Quantity  
Description  
Units  
Comments  
QTimed  
Timed Charge  
C
The electrical charge delivered during the timer  
interval.  
QTimed_Predicted  
Predicted  
Timed Charge  
C
The total amount of timed charge that should be  
accumulated at the completion of the timer  
interval, based on the observed delivery rate.  
Leakage Measurements  
Leakage measurements (QOffset, ILeakage and TOffset) are only applicable when automatic leakage  
compensation is enabled.  
Timed Charge and Dose  
This measurement accumulates charge only while the elapsed time is less than or equal to the timer  
interval setting. The displayed value is held following the completion of the timer interval.  
QTimed = Q2[C] Q1 [C] (ILeakage [A]× (T 2 [s] T1 [s]))  
DoseTimed = QTimed [C]× ICCF [Units/C]× ADCF  
Q1 represents the next sample of charge at time T1 following the activation of the timer. Q2 corresponds to  
the interpolated charge at time T2, where T2 is an integral number of seconds that is restricted to times  
within the range: T1 < T2 (T1 + Timer Interval Setting).  
Predicted Timed Charge and Dose  
This measurement extrapolates the timed charge (QTimed) at the elapsed time (TElapsed) that should be  
accumulated at completion of the timer interval (i.e., TimerIntervalSetting) based on the rate of charge  
delivery.  
QTimed[C]  
QTimed_Predicted =  
×TimerIntervalSetting[s]  
TElapsed[s]  
DoseTimed_Predicted = QTimed_Predicted [C]× ICCF [Units/C]× ADCF  
At the conclusion of the timer interval (i.e., TElapsed equals the TimerIntervalSetting), the predicted timed  
charge and dose are equal to the predicted timed charge and dose, respectively.  
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B.6Troubleshooting  
This section outlines steps that the operator may take to identify and correct problems.  
Symptom: "Configuration Error" displayed.  
ADC  
Configuration Error  
Service Required  
Error Number : 16  
Cause: The instrument has lost the calibration or customization data.  
Action: Convert the configuration error number to a binary value using a program such as the Windows®  
Calculator and use the table below to determine the extent of the problem. For example, a configuration  
error of “18” corresponds to a binary value of “10010” (bits 5 and 2 set), which indicates that the  
customization for both the ion chamber and settings are invalid.  
Bit  
Description  
Action  
1
Operator settings are  
invalid.  
Select the proper settings  
from the front panel.  
2
3
Customization settings are  
invalid.  
Electrometer calibration  
settings are invalid.  
Reinstall settings using the  
Customization software.  
Do NOT make  
measurements. Return  
instrument for repair.  
4
Bias calibration settings are Do NOT make  
invalid.  
measurements. Return  
instrument for repair.  
5
6
7
8
9
Ion chamber customization  
settings are invalid.  
Ion chambers cannot be  
read.  
Additional operator settings  
are invalid.  
Reinstall ion chambers using  
the Customization software.  
Return instrument for repair  
to correct problem.  
Select the proper settings  
from the front panel.  
Timer interval customization Reinstall settings using the  
settings are invalid.  
Additional calibration  
settings are invalid.  
Customization software.  
Do NOT make  
measurements. Return  
instrument for repair.  
Explanation: The instrument detects whether the stored parameters are valid at power-up. If the  
parameters are invalid, it will affect one or more of the measurements. The operator may restore some of  
the information either by selecting options from the front panel or by running the customization software.  
Invalid calibration settings require a new calibration. Follow the recommendations in the above table.  
Symptom: "Current Overrange" displayed.  
B-12  
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Operation Instructions  
B
ADC  
Current Overrange  
Reduce exposure and  
Press RESET/MEASURE  
Cause: The input current has exceeded the 1.200 uA limit.  
Action: Stop the exposure. Change the setup to reduce the current.  
Explanation: The instrument has a 1.000 uA limit on measurable current and will continue to measure  
charge for currents up to 1.200 uA. The instrument can accept an input current up to 3 mA without  
damage to the instrument.  
B.7Customization  
The screens shown in this section represent the appearance of the Customization software running within  
a MS-DOS® window running on Windows® 95/98.  
B.7.1 The Main Menu  
The Main menu appears after customization information has been received from the Model 35040  
Therapy Dosimeter. The menu items are Ion Chambers, Special Items, Measurement, Bias Settings,  
Print, and Exit.  
B.7.2 The Measurement Menu  
The Measurement menu provides items Displays, Timer Intervals, and Quit. Select Displays to view the  
Measurement Displays, Timer Intervals to view the Measurement Timer Intervals, or Quit to return to the  
Main menu.  
Measurement Displays  
The Model 35040 Therapy Dosimeter can contain up to sixteen (16) measurement displays, which are  
viewed from the Measurement screen. From the Measurement Displays section of the Customization  
software, you may customize the appearance of any of the measurement displays. All measurement  
displays must show the annunciators on the first line. You may choose what appears on the other three  
lines  
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Figure B-9  
Figure B-9.  
shows the Measurement Displays dialog box.  
The Measurement Displays Dialog Box (shown with the rotating rack having focus)  
The display lines are grouped within the Rotating Rack according to their function. The groups consist of  
“Configuration,” “Amps, Coulombs, Volts,” “Dose, Rate,” and “Time.” Table B-4 provides a listing of all the  
display lines available for each group, along with a representation of the display line’s appearance on a  
measurement display. Refer to the Model 35040 Therapy Dosimeter Instruction Manual for general  
information on how to use the CLOSE, APPEND, DELETE, and INSERT buttons and move a display line  
to a measurement display.  
B-14  
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Appendix  
Customization  
B
Table B-4. Available Display Lines  
Display Line  
Group  
(on the Rotating Rack)  
Title  
Appearance  
(on a Measurement Display)  
(on the Rotating Rack)  
Configuration  
Blank Line  
Air Density Setting  
Temperature Pressure  
Bias Setting  
ADCF = -.---  
--.- C ---- hPa  
Set: >+---.- V +---%  
FW Rev: 15OCT92 A  
Interval: ---- s  
ICCF=1.234E+08 R/C  
Optional Text Line 1  
Optional Text Line 2  
Batt: -.- V +-.—A  
Leakage: -.--- pA  
IC Bias: ---.- V CEP  
--.--- nC  
Firmware Revision  
Time Interval Setting  
IC Calibration Factor  
Optional Text 1  
Optional Text 2  
Battery Voltage  
Leakage Current  
Bias Voltage  
Amps, Coulombs, Volts  
Charge  
Current  
---.- pA  
Accumulated Charge  
Average Current  
Timed Charge  
--.--- nC ACCUM  
---.— pA AVG  
--.--- nC ---- s  
--.--- nC PREDICT  
Leak: -.--- R/s  
Predicted Timed Charge  
Leakage Rate  
Dose, Rate  
Dose  
--.--- nR  
Rate  
---.- pR/s  
Accumulated Dose  
Average Rate  
--.--- nR ACCUM  
---.- pR/min AVG  
--.--- nR ---- s  
--.--- nR PREDICT  
Interval: ---- s  
--.--- nC ---- s  
--.--- nC PREDICT  
--.--- nR ---- s  
--.--- nR PREDICT  
--.-- s  
Timed Dose  
Predicted Timed Dose  
Time Interval Setting  
Timed Charge  
Time  
Predicted Time Chrg  
Timed Dose  
Predicted Timed Dose  
Effective Exp. Time  
Timer Intervals  
The Model 35040 Therapy Dosimeter can contain up to twenty (20) timer interval settings, which interval  
settings, general editing information, and OK and CANCEL buttons.  
B-15  
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35040  
Operators Manual  
Figure B-10.  
The Timer Intervals dialog box  
Select a field by pressing TAB until it is highlighted, or click on it with the mouse. Enter an integral  
number of seconds for the timer interval setting. When you select OK, the Customization software sends  
the timer interval settings to the instrument and returns the program to the Measurement menu. Select  
CANCEL or press ESC to discard any changes and return to the Measurement menu.  
The Model 35040 Therapy Dosimeter displays the timer intervals in the same order they are entered.  
That is, it does not sort the timer interval settings. The UP arrow key displays the timer interval settings in  
an increasing interval number order (e.g., Interval 1, Interval 2 Interval 20), while the DOWN arrow key  
presents the timer interval settings in a decreasing order. The instrument automatically skips any settings  
that have a value of zero (0).  
B-16  
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Fluke Biomedical  
Radiation Management Services  
6045 Cochran Road  
Cleveland, Ohio 44139  
440.498.2564  
120 Andrews Road  
Hicksville, New York 11801  
516.870.0100  
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