FW Bell 5070 Teslameter - Industry Surplus Australia
Contents
1. 2 6 Auxiliary Power Connector Warnings 3 1 Probe Electrical Warning 3 2 Operating 3 3 Battery Installation 3 5 nt oto 3 6 Power Up 3 7 Missing Probe 3 8 Low Battery 3 10 Overrange Indication 3 10 MODE AC DC Function 3 11 UNITS Func tios 3 12 RANGE 3 14 HOLD Function si trees 3 16 Automatic ZERO Function 3 19 Manual ZERO Function 3 21 Probe Output versus Flux Angle 3 23 Probe Output versus Distance 3 23 Flux Density Variations in a Magnet 3 24 Low AC Signal Indication 3 25 Section 1 Introduction UNDERSTANDING FLUX DENSITY Magnetic fields surrounding permanent magnets or electrical conductors can be visualized as a collection of magnetic flux lines lines of force existing in the material that is being subjected to a magnetizing influence Unlike light which travels away from its source indefinitely magnetic flux lines must eventually return to the source Thus a2. y DIAMETER 4 8 mm 0 2mm 0 187 0 006 ACTIVE AREA DIAMETER 0 4mm 0 015 NOMINAL Figure 2 2 Standard Axial Probe 2 4 SPECIFICATIONS 2 5 SPECIFICATIONS OPTIONAL PROBE EXTENSION CABLE MODEL NUMBER X5000 0006 OPERATING TEMPERATURE RANGE 0 to 75 C 32 to 167 F STORAGE TEMPERATURE RANGE 25 to 75 13 167 F 496 Mim 1 950 CABLE LENGTH 1i 1 83 m 0 08 m 6 00 ft 0 25 ft J HEHHEHE 2 100 Figure 2 3 Optional Probe Extension Cable 2 6 SPECIFICATIONS ZERO FLUX CHAMBER MODEL NUMBER YA 111 CAVITY DIMENSIONS Length 50 8 mm 2 Diameter 8 7 mm 0 343 ATTENUATION 80 dB to 30 mT 300 G PURPOSE To shield the probe from external magnetic fields during the ZERO operation 8 7 mm DIAM x 50 8 343 DIAM x 2 00 Figure 2 4 Zero Flux Chamber 2 7 Section 3 Operating Instructions OPERATOR SAFETY Do not connect the auxiliary power connector to an ac power source Do not exceed 15 Vdc regulated or 9 Vdc unregulated Do not reverse polarity Use only a regulated ac to dc power supply certified for country of use Figure 3 1 Auxiliary Power Connector Warn
3. aS MAGNET Figure 3 18 Flux Density Variations in a Magnet 7 Using more than one extension cable can result in measurement errors In some cases the meter may report an error Total cable length between the meter and the probe connector should not exceed 2 1 m 7 ft A The use of more than one extension cable can result in measurement errors and increase susceptibility to radio frequency interference 8 The accuracies of the meter and probe are effected by temperature variations Refer to the SPECIFICATIONS section for specific information 3 24 OPERATING INSTRUCTIONS MORE DETAILS ON AC MODE OPERATION It is possible for the flux density signal to contain both a dc component and an ac component In the ac mode the value displayed is the true rms value of the waveform with its dc component removed However if the dc component is too high it may force the peak value of the waveform to exceed the electrical limits of the meter causing the waveform to clip and introducing errors in the final reading This can also lead to an overrange condition on the display and can lead to erratic behavior if the AUTO range feature is being used As stated in the SPECIFICATIONS section the accuracy of the true rms reading is only guaranteed for readings greater than 5 of the full scale range For example this would be 1mT on the 200 mT range When the reading falls below 5 of full
4. 3 10 DC Measurement 3 11 UNITS of Measurement Selection 3 12 RANGE olla it 3 13 HOLD Mode 58 86 0 3 15 MIN MAX Hold 5 96 3 16 ZERO FUNCION as ia 3 17 Automatic ZERO FUNCION tl 3 18 Manual ZERO 3 20 Sources of Measurement 3 22 More details on AC Mode 3 25 More details on DC Mode 3 26 WARRANTY oot ads Figure 1 1 Figure 1 2 Figure 1 3 Figure 2 1 Figure 2 2 Figure 2 3 Figure 2 4 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 3 5 Figure 3 6 Figure 3 7 Figure 3 8 Figure 3 9 Figure 3 10 Figure 3 11 Figure 3 12 Figure 3 13 Figure 3 14 Figure 3 15 Figure 3 16 Figure 3 17 Figure 3 18 Figure 3 19 List of Illustrations Flux Lines of a Permanent 1 1 Hall Generator treten etes 1 3 Hall Probe Configurations 1 4 Standard Transverse 2 3 Standard Axial 2 4 Optional Probe Extension Cable 2 5 Zero Flux
5. in free space air Only in free space is the following relationship true 1G 1Oe 0 0001 T 79 6 Am MEASUREMENT OF FLUX DENSITY A device commonly used to measure flux density is the Hall generator Hall generator is a thin slice of a semiconductor material to which four leads are attached at the midpoint of each edge as shown in Figure 1 2 1 2 INTRODUCTION UJ NN Ls A pr Generator m n Figure 1 2 Hall Generator A constant current Ic is forced through the material In a zero magnetic field there is no voltage difference between the other two edges When flux lines pass through the material the path of the current bends closer to one edge creating a voltage difference known as the Hall voltage Vh In an ideal Hall generator there is a linear relationship between the number of flux lines passing through the material flux density and the Hall voltage The Hall voltage is also a function of the direction in which the flux lines pass through the material producing a positive voltage in one direction and a negative voltage in the other If the same number of flux lines pass through the material in either direction the net result is zero volts This sensitivity to flux direction makes it possible to measure both static dc and alternating ac magnetic fields The Hall voltage is also a function of the angle at which the flux lines pass through the material The greatest Hall voltage occurs w
6. scale the AC legend on the display will flash as shown in Figure 3 19 This is intended to remind the user that the reading may not be accurate Select a lower range if possible to regain accuracy Y G 3 19 Low AC Signal Indication 3 25 OPERATING INSTRUCTIONS MORE DETAILS ON DC MODE OPERATION It is possible for the flux density signal to contain both a dc component and an ac component In the dc mode this can lead to instable readings If the peak value of the ac component reaches the electrical limits of the meter even though the average dc level is within the limits an overrange condition may appear on the display This situation can also lead to erratic behavior if the AUTO range feature is being used The presence of an ac signal can be verified by using the ac mode to determine the magnitude of the ac component 3 26 WARRANTY This instrument is warranted to be free of defects in material and workmanship Sypris Test amp Measurement s obligation under this warranty is limited to servicing or adjusting any instrument returned to the factory for that purpose and to replace any defective parts thereof This warranty covers instruments which within one year after delivery to the original purchaser shall be returned with transportation charges prepaid by the original purchaser and which upon examination shall disclose to Sypris Test amp Measurement s satisfaction to be def
7. the highest range then the flux density is too great to be measured with this instrument rm 14 99 E i Le Figure 3 9 Overrange Indication 3 10 OPERATING INSTRUCTIONS AC OR DC MEASUREMENT SELECTION The meter is capable of measuring either static dc or alternating ac magnetic fields To choose the desired mode rotate the function selector to the MODE setting then press the SELECT pushbutton to select AC or DC on the display The ac modes are discussed in more detail later this section This setting is saved and will be restored the next time the meter is turned on UN SELECT K 3 10 MODE AC DC Function OPERATING INSTRUCTIONS UNITS OF MEASUREMENT SELECTION The meter is capable of providing flux density measurements in terms of gauss G tesla T or ampere meters Am To choose the desired units rotate the function selector to the UNITS position Press the SELECT pushbutton to select G T or Am on the display This setting is saved and will be restored the next time the meter is turned on a 3 SELECT Figure 3 11 UNITS Function 3 12 OPERATING INSTRUCTIONS RANGE SELECTION The meter i
8. turning the MANUAL control in either direction the reading will be altered Turning the control clockwise adds to the reading turning it counterclockwise subtracts from the reading Turning it slowly results in a fine adjustment turning it quickly results in a coarse adjustment NOTE Making a manual ZERO adjustment not only affects the lowest range but also the higher ranges though to a lesser extent For example assume an automatic ZERO has already been performed after which all three ranges should read zero 3 21 OPERATING INSTRUCTIONS Now a manual adjustment is made that causes the reading on the lowest range to be non zero The reading on the other ranges may also be non zero depending upon the magnitude of the change The adjustment has 10 times less effect on the middle range and 100 times less effect on the highest range SOURCES OF MEASUREMENT ERRORS When making flux density measurements there are several conditions that can introduce errors 1 Operating the meter while the LOW BATTERY symbol appears Instrument specifications are not guaranteed when a low battery condition exists 2 Failure to zero the error signals from the meter probe and nearby sources of magnetic interference 3 Subjecting the probe to physical abuse Handle the Hall probe with care Do not bend the stem or apply pressure to the probe tip as damage may result Use the protective cover when the probe is not in use 4 One of the mos
9. 9 volt alkaline batteries two batteries will provide longer operating life The battery compartment is designed so that the battery polarity cannot be reversed Reinstall the battery compartment cover PRESS HERE AND RETRACT Figure 3 4 Battery Installation 3 5 OPERATING INSTRUCTIONS 3 If using ac to dc power supply review Figure 3 1 for safety notes and the SPECIFICATIONS section for voltage and current ratings When using a power supply the batteries are automatically disconnected 4 Install the probe or probe extension cable by matching the key way in the connector to that in the mating socket in the meter The connector will lock in place To disconnect pull on the body of the plug not the cable E SES Probe Connector GAUSS TESLAMETER MODEL 5070 Me p Figure 3 5 Probe Connection 3 6 OPERATING INSTRUCTIONS POWER UP Depress the POWER switch There will be a momentary audible beep and all display segments will appear on the display x kam mkG AC AUTO RANGE MNIZIMX ZERO PROBE OFF Figure 3 6 Power Up Display The instrument will conduct a self test before measurements begin If a problem is detected the phrase Err wi
10. SYPRIS TEST amp MEASUREMENT SAS EW BELL Model 5070 GAUSS TESLA METER Instruction Manual Manual UN 01 230 Rev E ECO 13096 Item No 359925 Sypris Test amp Measurement All rights reserved This symbol appears on the instrument and probe It refers the operator to additional information contained in this instruction manual also identified by the same symbol NOTICE See Pages 3 1 and 3 2 for SAFETY instructions prior to first use Table Contents SECTION 1 INTRODUCTION Understanding Flux 1 1 Measurement of Flux 1 2 Product DescrHpl D 17 e ede cae tl ede 1 5 Applications s ee tae ne 1 6 SECTION 2 SPECIFICATIONS 51 2 1 Standard Transverse 2 3 Standard Axial caricia 2 4 Optional Probe Extension 2 5 AAA A 2 6 SECTION 3 OPERATING INSTRUCTIONS Operator 58 6 3 1 Operating Features e pa 3 3 Instrument 3 5 c Nr 3 7 Power Up Settings 3 8 Low Battery Condition Sede hte diete 3 9 Overrange
11. T BE LIABLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES EVEN IF SYPRIS TEST amp MEASUREMENT HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES This warranty gives you specific legal rights and you may also have other rights that vary from state to state 4 1 SYPRIS TEST 8 MEASUREMENT FW BELL 6120 Hanging Moss Road Orlando Fl 32807 Phone 407 678 6900 Fax 407 677 5765 4 1
12. TS of measure gauss tesla or ampere meter HOLD mode min or max 3 8 OPERATING INSTRUCTIONS Other aspects are not saved and default to these conditions ZERO mode inactive NOTE The present setup of the instrument is saved only when the FUNCTION selector is returned to the MEASURE position For example assume the meter is in the MEASURE mode on the 20 mT range The FUNCTION selector is now turned to the RANGE position and the 200 mT range is selected The meter is turned off and on again The meter will be restored to the 20 mT range because the FUNCTION selector was never returned to the MEASURE mode prior to turning it off LOW BATTERY CONDITION The meter is designed to use one or two standard 9V alkaline batteries two batteries will provide longer operating life When the battery voltage becomes too low the battery symbol on the display will flash as shown in Figure 3 8 Replace the batteries or use an external ac to dc power supply Instrument specifications are not guaranteed when a low battery condition exists 3 9 OPERATING INSTRUCTIONS iJ ie Vly EM s Eu y Figure 3 8 Low Battery Indication OVERRANGE CONDITION If the magnitude of the magnetic flux density exceeds the limit of the selected range the meter will display a flashing value of 1999 gauss or tesla mode or 1591 ampere meter mode The next highest range should be selected If already on
13. UCTION Handle the Hall probe with care Do not bend the stem or apply pressure to the probe tip as damage may result Use the protective cover when the probe is not in use PRODUCT DESCRIPTION The MODEL 5070 GAUSS TESLAMETER is a portable instrument that utilizes a Hall probe to measure magnetic flux density in terms of gauss tesla or ampere meter The measurement range is from 0 01 mT 0 1 G or 0 01 kAm to 1 999T 19 99 kG or 1591 kAm The instrument is capable of measuring static dc magnetic fields and alternating ac fields The MODEL 5070 consists of a palm sized meter and various detachable Hall probes The meter operates on standard 9 volt alkaline batteries or can be operated with an external ac to dc power supply A retractable bail allows the meter to stand upright on a flat surface A notch in the bail allows the meter to be wall mounted when bench space is at a premium The large display is visible at considerable distances The instrument is easily configured using a single rotary selector and two pushbuttons Three measurement ranges can be selected or the meter can automatically select the best range based on the present flux density being measured A zero function allows the user to remove undesirable readings from nearby magnetic fields including earth s or false readings caused by initial electrical offsets in the probe and meter Included is a zero flux chamber which allows the probe to be shielded f
14. Y TYPE BATTERY LIFE 180 ms typical 300 ms typical 9 alkaline NEDA 1640A 8 hours typical two batteries 2 1 SPECIFICATIONS AUXILIARY POWER AUXILIARY POWER CONNECTOR OPERATING TEMPERATURE STORAGE TEMPERATURE METER DIMENSIONS Length Width Height WEIGHT Meter w batteries Shipping REGULATORY INFORMATION 9 Vdc 300 mA Standard 2 5 mm I D 5 5 mm O D connector Center post is positive polarity 0 to 50 C 32 to 122 F 25 to 70 C 13 to 158 F 13 2 cm 5 2 in 13 5 cm 5 3 in 3 8 cm 1 5 in 400 g 14 oz 1 59 kg Ib 8 oz Compliance was demonstrated to the following specifications as listed in the official Journal of the European Communities EN 50082 1 1992 IEC 801 2 1991 Second Edition 1000 4 2 1995 ENV 50140 1993 IEC 1000 4 3 1995 EN 50081 1 1992 EN 55011 1991 2 2 Generic Immunity Electrostatic Discharge Immunity Radiated Electromagnetic Field Immunity Generic Emissions Radiated and Conducted Emissions SPECIFICATIONS STANDARD TRANSVERSE PROBE MODEL NUMBER STH57 0404 FLUX DENSITY RANGE 0 to 2 T 0 to 20 kG FREQUENCY BANDWIDTH 0 10 kHz OFFSET CHANGE WITH TEMPERATURE 30 uT 300 mG C typical ACCURACY CHANGE WITH TEMPERATURE 0 05 C typical OPERATING TEMPERATURE RANGE 0 75 32 to 167 F STORAGE TEMPERATURE RANGE 25 to 75 C 13 to 167 F 53 3mm 6 4mm 3 8mm 0 1
15. dless of which range was in use prior to using the ZERO function Recall that the maximum flux density level that can be zeroed is 30 mT 300 G or 23 88 kAm The meter will switch over to the dc mode 3 18 OPERATING INSTRUCTIONS of operation during zeroing Recall that the zeroing operation affects dc errors only pc B E XL AUTO ZERO A NW ZERO wj AUTO Figure 3 14 Automatic ZERO Function Press the AUTO pushbutton and the process will begin The AUTO legend will also flash Once automatic zeroing begins it must be allowed to complete During this time all controls are disabled except for the POWER switch The process normally takes from 5 to 15 seconds 3 19 OPERATING INSTRUCTIONS The meter selects the lowest range and adjusts the nulling signal until the net result reaches zero If the existing field is too large or unstable the meter will sound a double beep and the phrase will appear momentarily on the display At this point the automatic process is terminated and the flashing AUTO legend will disappear The ZERO legend will continue to flash to remind the user that the ZERO mode is still active If the nulling process is successful the next highest range is selected No further electronic adjustments are made but at this stage a reading is acquired which will be mathematically s
16. e meter will hold a flashing value of 1999 gauss or tesla mode or 1591 ampere meter mode The held value can be reset by pressing the HOLD RESET pushbutton The next value displayed after a reset will be the present value of flux density For instance if the held reading is 150 0 G and the present flux density is 100 0 G the meter will display 100 0 G after the reset ZERO FUNCTION Zeroing the probe and meter is one of the most important steps to obtaining accurate dc flux density measurements The ideal Hall generator produces zero output in the absence of a magnetic field but actual devices are subject to variations in materials construction and temperature Therefore most Hall generators produce some output even in a zero field This will be interpreted by the meter as a flux density signal Also the circuits within the meter can produce a signal even when there is no signal present at the input This will be interpreted as a flux density signal Lastly magnetic sources close to the actual field being measured such as those from electric motors permanent magnets and the earth roughly 0 5 gauss or 50 LT can induce errors in the final reading It is vital to remove these sources of error prior to making actual measurements The process of zeroing removes all of these errors in one operation The meter cancels the combined dc error signal by introducing another signal of equal magnitude with opposite po
17. ective If it is determined that the defect has been caused by misuse or abnormal conditions of operation repairs will be billed at cost after submitting an estimate to the purchaser Sypris Test amp Measurement reserves the right to make changes in design at any time without incurring any obligation to install same on units previously purchased THE ABOVE WARRANTY IS EXPRESSLY IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED AND ALL OTHER OBLIGATIONS AND LIABILITIES ON THE PART OF SYPRIS TEST amp MEASUREMENT AND NO PERSON INCLUDING ANY DISTRIBUTOR AGENT OR REPRESENTATIVE OF SYPRIS TEST amp MEASUREMENT IS AUTHORIZED TO ASSUME FOR SYPRIS TEST amp MEASUREMENT ANY LIABILITY ON ITS BEHALF OR ITS NAME EXCEPT TO REFER THE PURCHASER TO THIS WARRANTY THE ABOVE EXPRESS WARRANTY 5 THE ONLY WARRANTY MADE SYPRIS TEST amp MEASUREMENT SYPRIS TEST amp MEASUREMENT DOES NOT MAKE AND EXPRESSLY DISCLAIMS ANY OTHER WARRANTIES EITHER EXPRESSED OR IMPLIED INCLUDING WITHOUT LIMITING THE FOREGOING WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR ARISING BY STATUE OR OTHERWISE IN LAW OR FROM A COURSE OF DEALING OR USAGE OR TRADE THE EXPRESS WARRANTY STATED ABOVE IS MADE IN LIEU OF ALL LIABILITIES FOR DAMAGES INCLUDING BUT NOT LIMITED TO CONSEQUENTIAL DAMAGES LOST PROFITS OR THE LIKE ARISING OUT OF OR IN CONNECTION WITH THE SALE DELIVERY USE OR PERFORMANCE OF THE GOODS IN NO EVENT WILL SYPRIS TEST amp MEASUREMEN
18. he MAX HOLD function holds the reading that is arithmetically greater than all previous readings For instance a reading of 125 0 is greater than 99 0 or 150 0 The MIN HOLD function holds the reading that is arithmetically less than all previous readings For instance a reading of 125 0 is less than 99 0 or 150 0 To choose the desired hold mode rotate the function selector to the HOLD position Press the SELECT pushbutton to select the desired mode the display MAX HOLD is indicated by MX MIN HOLD is indicated by MN The OFF legend will appear when all HOLD modes are turned off This setting is saved and will be restored the next time the meter is turned on 3 15 OPERATING INSTRUCTIONS a Hold SELECT Figure 3 13 HOLD Function MIN MAX HOLD USAGE See the SPECIFICATIONS section for response time information The MAX HOLD function holds the reading that is arithmetically greater than all previous readings The MIN HOLD function holds the reading that is arithmetically less than all previous readings These modes are useful in determining the maximum or minimum value of magnetic events that occur over a period of time The MIN or MAX HOLD operation begins when the function selector is returned to the MEASURE position If the reading 3 16 OPERATING INSTRUCTIONS exceeds the range limit th
19. hen the flux lines pass perpendicularly through the material Otherwise the output is related to the cosine of the difference between 90 and the actual angle 1 3 INTRODUCTION The sensitive area of the Hall generator is generally defined as the largest circular area within the actual slice of the material This active area can range in size from 0 2 mm 0 008 to 19 mm 0 75 in diameter Often the Hall generator assembly is too fragile to use by itself so it is often mounted in a protective tube and terminated with a flexible cable and a connector This assembly known as a Hall probe is generally provided in two configurations N as TRANSVERSE PROBE Oa os AXIAL PROBE Figure 1 3 Hall Probe Configurations In transverse probes the Hall generator is mounted in a thin flat stem whereas in axial probes the Hall generator is mounted in a cylindrical stem The axis of sensitivity is the primary difference as shown by in Figure 1 3 Generally transverse probes are used to make measurements between two magnetic poles such as those in audio speakers electric motors and imaging machines Axial probes are often used to measure the magnetic field along the axis of a coil solenoid or traveling wave tube Either probe can be used where there are few physical space limitations such as in geomagnetic or electromagnetic interference surveys INTROD
20. ings 3 1 OPERATING INSTRUCTIONS Do not allow the probe to come in contact with any voltage source greater than 30 Vrms or 60 Vdc gt RMS 60V DC Figure 3 2 Probe Electrical Warning Batteries contain ferrous materials that are attracted to magnetic fields Be careful when operating the instrument near large magnetic fields as it may move without warning Extension cables are available to increase the probe cable length so that the instrument can remain in a safe position with respect to the field being measured with the probe 3 2 OPERATING INSTRUCTIONS OPERATING FEATURES 5 6 LA 5 3 3 Operating Features Display Liquid crystal display LCD Manual ZERO Control In the ZERO mode of operation the user can manually adjust the zero point using this control Function Selector This control allows the operator to change the meter s range units of measure ac or dc measurement and hold modes It also engages the ZERO and MEASURE modes of operation Battery Compartment Cover This cover slides open to allow one or two 9 volt batteries to be installed Power Switch Push on push off type switch to apply power to the meter 3 3 OPERATING INSTRUCTIONS 6 SELECT Switch Momentary pushbutton used in conjunction with the Function Select
21. larity After zeroing the only dc signal that remains is that produced by the probe when exposed to magnetic flux 3 17 OPERATING INSTRUCTIONS NOTE Zeroing the meter and probe affects only the static dc component of the flux density signal There may be situations when the user prefers to shield the probe from all external magnetic fields prior to zeroing Provided with the meter is a ZERO FLUX CHAMBER which is capable of shielding against fields as high as 30 mT 300 or 23 88 kAm The probe is simply inserted into the chamber before the zeroing process begins Handle the Hall probe with care Do not bend the stem or apply pressure to the probe tip as damage may result In other situations the user may want the probe to be exposed to a specific magnetic field during the zeroing process so that all future readings do not include that reading such as the earth s field This is possible with the following restrictions 1 The external field must not exceed 30 mT 300 G or 23 88 kAm 2 The field must be stable during the zeroing process It should not contain alternating ac components AUTOMATIC ZERO FUNCTION The meter provides two methods to zero the probe The first is completely automatic Prepare the probe for zeroing then rotate the function selector to the ZERO position The ZERO legend will flash and actual flux density readings will appear on the display The meter will select the lowest range regar
22. ll appear on the display followed by a 3 digit code The circuitry that failed will be retested and the error code will appear after each failure This process will continue indefinitely or until the circuitry passes the test A condition in which a circuit fails and then passes should not be ignored because it indicates an intermittent problem that should be corrected If the self test is successful the meter will perform a self calibration During this phase the meter will display the software revision number such as 1 0 Calibration will halt if there is no Hall probe connected Until the probe is connected the phrase will appear accompanied by a flashing PROBE annunciator as shown in Figure 3 7 3 7 OPERATING INSTRUCTIONS Err Figure 3 7 Missing Probe Indication After power up the position of the FUNCTION selector switch will determine what happens next For instance if the selector is in the RANGE position the meter will wait for the user to change the present range If in the MEASURE position flux density measurements will begin Allow adequate time for the meter and probe to reach a stable temperature See the SPECIFICATIONS section for specific information POWER UP SETTINGS The meter permanently saves certain aspects of the instrument s setup and restores them the next time the meter is turned on The conditions that are saved are RANGE setting including AUTO range MODE ac or dc UNI
23. ll magnetic sources are said to have two poles Flux lines are said to emanate from the north pole and return to the south pole as depicted in Figure 1 1 MAGNET Figure 1 1 Flux Lines of a Permanent Magnet One line of flux in the CGS measurement system is called a maxwell M but the weber W which is 10 lines is more commonly used Flux density also called magnetic induction is the number of flux lines passing through a given area It is commonly assigned the symbol B in scientific documents In the CGS system a gauss G is one line of flux passing through a 1 area The more 1 1 INTRODUCTION commonly used term is the tes a T which is 10 000 lines per cm Thus 1 tesla 10 000 gauss 1 gauss 0 0001 tesla Magnetic field strength is a measure of force produced by an electric current or a permanent magnet It is the ability to induce a magnetic field B It is commonly assigned the symbol in scientific documents The unit of H in the CGS system is an oersted Oe but the ampere meter Am is more commonly used The relationship is 1 oersted 79 6 ampere meter 1 ampere meter 0 01256 oersted It is important to know that magnetic field strength and magnetic flux density are not the same Magnetic field strength deals with the physical characteristics of magnetic materials whereas flux density does not The only time the two are considered equal is
24. mm 210 0 25 101 6mm 1 6mm 0 150 0 004 4 000 0 063 SENSOR LOCATION RIGID GLASS 0 9mm 0 0335 EPOXY STEM NOMINAL 77 8 FIELD DIRECTION 0 01 8 9mm 0 3mm 1 0mm rmm 0 350 0 010 0 040 9 000 DIAMETER 9 0004 CABLE LENGTH ACTIVE AREA DIAMETER LJ 140m 79 00 0 4mm 0 015 zo Dam NOMINAL 0 0 ft GORGE DIAMETER epp 4 3mm 0 3mm 0 170 0 010 IE y Figure 2 1 Standard Transverse Probe 2 3 SPECIFICATIONS STANDARD AXIAL PROBE MODEL NUMBER FLUX DENSITY RANGE FREQUENCY BANDWIDTH OFFSET CHANGE WITH TEMPERATURE ACCURACY CHANGE WITH TEMPERATURE SAH57 1904 0 to 2 T 0 to 20 kG 0 10 kHz 30 uT 300 mG typical 0 05 C typical OPERATING TEMPERATURE RANGE 0 75 32 to 167 F STORAGE TEMPERATURE RANGE 53 3mm 16 4 25 to 75 C 13 to 167 __ 2 10 0 25 T 101 6mm 1 6mm 4 000 0 063 SENSOR LOCATION RIGID PHENOLIC 0 25mm 0 010 STEM NOMINAL B E FIELD ee DIRECTION 8 9mm 0 3mm 0 350 0 01 DIAMETER CABLE LENGTH 0 00 m 22 TIO TE onn 0 0 ft 3 6 ft gsm DIAMETER 4 3mm 0 3mm 0 170 0 010
25. or 3 to configure the meter s range units of measure ac or dc measurement and hold modes AUTO HOLD RESET Switch Momentary pushbutton used to reset the held reading when one of the HOLD modes is being used or to start an automatic ZERO operation when in the ZERO mode Auxiliary Power Connector This is an industry standard 2 5 I D 5 5 dc power connector The meter will accept regulated voltage in the range of 6 15 at 300 mA minimum current or unregulated 9 The center pin is positive The internal batteries are disconnected when using this connector Do not connect the auxiliary power connector to an ac power source Do not exceed 15 Vdc regulated or 9 Vdc unregulated Do not reverse polarity Use only a regulated 9 ac to dc power supply certified for country of use Probe Connector The Hall probe or probe extension cable plugs into this connector and locks in place To disconnect pull on the body of the plug not the cable Meter Stand Retractable stand that allows the meter to stand upright when placed on a flat surface A notch in the stand allows the meter to be mounted to a vertical surface OPERATING INSTRUCTIONS INSTRUMENT PREPARATION 1 With the power switch turned off POWER pushbutton in the full up position apply pressure to the battery compartment cover at the two points shown in Figure 3 4 Slide the cover open and remove 2 Install one or two
26. rom external magnetic fields during this operation The zero adjustment can be made manually or automatically 1 5 INTRODUCTION Other features include two hold modes allowing either the arithmetic maximum or minimum values to be held indefinitely until reset by the user The meter probes and accessories are protected when not in use by a sturdy carrying case APPLICATIONS 1 6 Sorting or performing incoming inspection on permanent magnets particularly multi pole magnets Testing audio speaker magnet assemblies electric motor armatures and stators transformer lamination stacks cut toroidal cores coils and solenoids Determining the location of stray fields around medical diagnostic equipment Determining sources of electromagnetic interference Locating flaws in welded joints Inspection of ferrous materials 3 dimensional field mapping Inspection of magnetic recording heads Section 2 Specifications INSTRUMENT RANGE RESOLUTION GAUSS TESLA Am GAUSS TESLA Am 200 G 20 mT 16 kAm 0 1G 0 01 mT 0 01 kAm 2kG 200 mT 159 kAm 1G 0 1 mT 0 1 kAm 20 kG 2 T 1591 10G 1 mT 1 ACCURACY including probe dc mode ac mode 20 10 000 Hz ACCURACY CHANGE WITH TEMPERATURE not including probe WARMUP TIME TO RATED ACCURACY 2 96 of reading counts 23 5 96 of reading 5 counts 0 02 C typical 15 minutes MIN MAX HOLD ACQUISITION TIME dc mode ac mode BATTER
27. s capable of providing flux density measurements on one of three fixed ranges or it can be programmed to automatically select the best range for the present flux density The available ranges are listed in the SPECIFICATIONS section of this manual The ranges advance in decade steps The lowest range offers the best resolution while the highest range allows higher flux levels to be measured In the AUTO range mode the range is advanced if the reading reaches the full scale of the present range This is 1999 if in the gauss or tesla mode such as 199 9 G or 199 9 mT or 1591 if in the ampere meter mode such as 15 91 kAm The range is lowered if the present reading falls below 10 of full scale for the present range The speed at which the readings are updated decreases slightly when AUTO ranging is used To choose the desired range rotate the function selector to the RANGE position The RANGE legend will flash Press the SELECT pushbutton to select the desired range or AUTO RANGE on the display This setting is saved and will be restored the next time the meter is turned on 3 13 OPERATING INSTRUCTIONS SELECT Figure 3 12 RANGE Function 3 14 OPERATING INSTRUCTIONS HOLD MODE SELECTION In some applications it may be desirable to hold a reading that is either greater than or less than all previous readings T
28. t common sources of error is the angular position of the probe with respect to the field being measured As mentioned in Section 1 a Hall generator is not only sensitive to the number of flux lines passing through it but also the angle at which they pass through it The Hall generator produces the greatest signal when the flux lines are perpendicular to the sensor as shown in Figure 3 16 3 22 OPERATING INSTRUCTIONS MAXIMUM LESS ZERO OUTPUT CL ELT OUTPUT Figure 3 16 Probe Output versus Flux Angle The probe is calibrated and specified with flux lines passing perpendicularly through the Hall generator 5 As shown in Figure 3 17 the greater the distance between the magnetic source and the Hall probe the fewer flux lines will pass through the probe causing the probe s output to decrease HIGHER DENSITY LOWER DENSITY MAGNET Figure 3 17 Probe Output versus Distance 6 Flux density can vary considerably across the pole face of a permanent magnet This can be caused by internal physical flaws such as hairline cracks or bubbles or an inconsistent mix of 3 23 OPERATING INSTRUCTIONS materials Generally the sensitive area of a Hall generator is much smaller than the surface area of the magnet so the flux density variations are very apparent Figure 3 18 illustrates this situation HALL ENERATOR FLUX
29. ubtracted from all future readings on this range This process is then repeated for the highest range When finished the meter will sound an audible beep and the flashing AUTO legend will disappear The ZERO legend will continue to flash to remind the user that the ZERO mode is still active At this point the automatic process can be repeated or a manual adjustment can be performed see Manual Zeroing The final zero values will remain in effect until the meter and probe are zeroed again if the probe is disconnected or if the meter is turned off and back on again MANUAL ZERO FUNCTION The second zeroing method is a manual adjustment This feature also allows the user to set the zero point to something other than zero if desired Position the probe for zeroing then rotate the function selector to the ZERO position The ZERO legend will flash and actual dc flux density readings will appear on the display The meter will select the lowest range regardless of which range was in use prior to selecting the ZERO function Recall that the maximum flux density level that can be zeroed is 30 mT 300 G or 23 88 kAm The meter will switch over to the 3 20 OPERATING INSTRUCTIONS dc mode of operation during zeroing Recall that the zeroing operation affects dc errors only a B Figure 3 15 Manual ZERO Function By
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