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The Smart Way ToMeasure Coating Thickness
HELMUT FISCHER offers you signi-ficant advantages for all coatingthickness measurement applicationswith its new family of electromag-netic hand-held instruments.The modular design of the systemcomponents offers• differently equipped instrument
models• for measurements according to
both the magnetic induction and the Eddy current methods
• with a broad selection of different probe models.
The coating thickness measuring instru-ment best suited for a measurementapplication can be selected dependingon the application itself and the demandfor measurement data processing anddocumentation.
Regardless of the instrument you choose, you receive• a powerful, state-of-the-art instrument• that is highly accurate,• easy and uncomplicated to use• measures a broad range of applica-
tions.
The large LCD display – by default inall instruments available – not onlyfeatures a large display of the readingbut informs the user about all essen-tial measurement parameters.
In addition, context-sensitive infor-mation notes on two display lines,simplifies the use of the instrument.
System FISCHER®
Hand-held instruments operating accordingto the magnetic induction and Eddy currentmethods have become the industry stand-ard for fast, accurate and nondestructivecoating thickness measurement on steel ornonferrous metals. Use of these portable,light-weight hand-held instruments hassteadily increased, particularly where corro-sion protective coatings are involved.
Why take measurements?
One of the most important quality criteria insurface finishing is the adherence to definedcoating thickness specifications. Qualitycontrol is imperative for both suppliers andpurchasers for obvious reasons.
Which coatings can be measured?
• Nonmagnetic coatings on ferromagnetic substrates (using the magnetic induction method according to DIN EN ISO 2178, ASTM B499), e. g., zinc, chromium, copper, tin, or paint, plastics, enamel on iron or steel.
• Electrically nonconductive coatings on nonferrous metals (using the Eddy cur-rent method according to DIN EN ISO 2360, ASTM B244), e. g., paint, enamel, or plastics on aluminum, brass, or zinc and anodic coatings on aluminum.
Depending on the probe and instrumentused, coating thicknesses can be measuredin ranges up to 25 mm (1.0“). In someinstances, even thicker coatings can bemeasured (up to 70 mm/2.75“).
Who can make measurements?
Neither special skills nor special knowledgeare required. Particular emphasis has beengiven to a clear and unambiguous displayand instrument design and to easy key-board operation. If special questions ariseconcerning an application, FISCHER iscommitted to assist, both with specific infor-mation and through FISCHER seminarsconducted on a regular basis.
How long does a measurement take?
It only takes a few seconds. If no calibrationis required, the operator only needs to posi-tion the probe, read the coating thicknessmeasurement, and if applicable, save theresult with the push of a button. Measure-ment data storage enables immediate statis-tical evaluation of the measurement series.
How are measurements taken?The measurement probes contain pick-upelements which generate the magnetic in-duction or eddy current probe signal. Theprobe is placed on the test specimen andsupplies the signal which is proportional tothe coating thickness to the instrument.The measurement signal is processed,displayed and evaluated by the instrumentand may also be transmitted to other de-vices via a serial interface. Calibration pro-cedures take the application specificmeasurement conditions into account.
Where can you measure?
Practically anywhere. The entire system(consisting of the instrument and theprobe) is small, pocket-sized and highlyportable.
There is no need for an external electricalpower supply; the instruments are readyto take measurements at any time.
This enables in the most simple way mea-surements on site, for example, the deter-mination of the thickness of anodized coa-tings on aluminum parts of house facadesor of paint or zinc coatings on steel con-structions (see image on the title page).
Magnetic induction method
DUALSCOPE® MP40E-S with measurement probeED10 for coatings on nonferrous metals and on steel or iron.
Eddy current method
soft iron coreprobe
excitingcurrentI~
low frequencyalternatingmagnetic field
high frequencyalternatingmagnetic field
U = f(d)
measure-mentsignal
U = f(d)
measure-mentsignal
iron/steel substrate
coating thickness Th
probe ferrite core
excitingcurrentI~
nonferrous substrate
Eddy current
coating thickness Th
2
System FISCHER: Basics
➞
➞
➞
➞
®
System Concept
The FISCHER System combines all essen-tial components, measurement application,measurement capture and measurementprocessing on a LCD display.
ISOSCOPE® MP0R, DUALSCOPE® MP0Rand MP0RH. Cost-effective hand-held instru-ments with integrated probes, data memory,statistical evaluation and radio transmission.
DUALSCOPE® MP0R-FP and MP0RH-FP.Cost-effective hand-held instruments withseparate probe, permanently connected by acable, measurement data memory, statisticalevaluation and radio transmission.
ISOSCOPE® MP10E, DELTASCOPE® MP10E.Cost-effective hand-held instruments withplug-in type smart probes and digital meas-urement display.
DUALSCOPE® MP20E-S.Hand-held measuring instrument with plug-intype probes with statistical evaluation capa-bilities, RS232 interface, suitable for magneticinduction and eddy current measurements.
ISOSCOPE® MP30E-S, and MP30E-R, DELTASCOPE® MP30E-S and MP30E-R.Hand-held instruments with plug-in typesmart probes, measurement data memoryand statistical evaluation features, radio orRS232 interface.
DUALSCOPE® MP40E-S and MP40E-R.Hand-held instrument, for eddy-current andmagnetic induction coating thickness meas-urement; with plug-in type smart probes,measurement data memory, statistical eva-luation, and radio or RS232 interface.
The combination of these componentsoffers the optimal solution to many meas-urement applications.
The modular system concept allows for aminimum number of components which canbe combined for the optimized system con-figuration.
Standardization on uncoated basematerial is performed.
Measurement in accordance with themagnetic induction test method.
Measurement in accordance with theEddy current test method.
Calibration on the uncoated part with upto 2 calibration foils.
Tolerance limits are activated.
Low battery indicator.
Software routine in progress – Wait.
Measurement data are stored inmatrix mode.
Measurement series complete – closeblock.
Keyboard function lockout active.
Free display mode – display continouslyupdates reading from probe.
Applications are linked. Calibration frominitially opened application is automaticallytransferred to all other applications usingsame test method.
Service menu active.
Product specification (tolerance) limit violation.
3
Measurement with magnetic induction probes, eddy current probes and DUAL probes
++
Measurement dataprocessing accordingto requirement
Cable of the permanentlyconnected probe
Measurement dataoutput and documentation
Radio receiver
LCD display formeasurementdata and operationnotes
Printer
MP10E MP30E-S/R MP20E-S MP40E-S/R
System Concept, System Components
MP0R-FP MP0R
System Components
Measurement Capture
An assortment of smart probes for variousapplications is available. A selection isshown in this publication.
Each FISCHER smart probe consists of ameasuring element, a memory chip, and aconnector. The measuring element suppliesa signal relative to the coating thickness; thedesign and shape of the probe are depen-dent on the measurement conditions. Cali-bration data are stored in the memory chip.This makes an application specific calibra-tion residing in the probe itself. Finally, theconnector allows for a quick and easy con-nection to any of the available FISCHERhand-held and bench top instruments.
Measurement Data Output
The FISCHER system offers the followingoptions for measurement data output:• Data display choices: Depending on the
instrument version, single readings or batch mean results and statistical evalua-tion data can be displayed.
• Instruments with serial interface can be connected to a PC and integrated into a data network or to a printer.
Measurement Processing
A total of six basic instrument versions areavailable:
LCD Display
Hand-held instruments cover a broad rangeof application-specific measurement tasks.The first criterion for instrument selection isthe coating/substrate material combination.The magnetic induction method is used fornonmagnetic coatings on iron or steel; theeddy current method for electrically non-conductive coatings on nonferrous metals.The FISCHER program offers a completefamily of instruments for both test methods:magnetic induction instruments have themodel names DELTASCOPE® and PERMA-SCOPE®, Eddy current instruments thename ISOSCOPE®. The DUALSCOPE®
includes both test methods.
The functions and features integrated in theinstrument provide another selection criteri-on. The display of the measurement may besufficient for some applications. More fre-quently the measurement data needs to bestored and evaluated according to certaincategories. The data storage feature allowsfor the full statistical evaluation of the meas-urement series by the instrument. For themost demanding applications, the operatorrequires a hand-held instrument with thepower of a laboratory grade measurementsystem. Even such an instrument is avail-able from FISCHER.
ISOSCOPE® MP0RDUALSCOPE® MP0R and MP0RHDUALSCOPE® MP0R-FP and MP0RH-FP
The instrument versions MP0R and MP0RHare available if the accessibility of the mea-surement area does not require a separateprobe. However, if measurements are to be made on parts with complex shapes,requiring a simple instrument consistentlywith the same measurement probe type,then the MP0R-FP or the MP0RH-FP arethe ideal choice.
• The ISOSCOPE® MP0R is used to mea-sure paint, lacquer, synthetic or anodizedcoatings on all NF-materials such as alu-minum, copper, brass and on stainless steel
• The DUALSCOPE® MP0R or MP0R-FP are used to measure NF-coatings (e.g. chrome, copper, zinc) on iron and steel aswell as paint, lacquer, enameled or synthetic coatings on iron and steel or on nonferromagnetic metals
• DUALSCOPE® MP0RH or MP0RH-FP for the measurement of electricallynonconducting coatings with severalmillimeters thickness on steel or on nonferromagnetic metals.
(E) (1): Eddy current method(M) (2): Magnetic induction method
*Note: Meanings for the models MP30E and MP40E(S): Model with RS232 interface(R): Model with radio interface with 868 MHz(R-US): Model with radio transmission with 915 MHz
(3) Battery 9V6LR61 or NiCd accu(4) Battery 2 x LR6.AA(5) additional through AC power supply
ISO
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Measurementmethod
Powersupply
Data storage
Statisticalevaluation
Interface
Mass
L x W x H
Measurementrange
Order no.
603-
538
603-
539
603-
753
603-
380
603-
773
603-
691
603-
692
603-
693
603-
694
(S)
603-
695
(R)
603-
696
(R-U
S)
603-
697
(S)
603-
698
(R)
603-
699
(R-U
S)
603-
700
(S)
603-
701
(R)
603-
702
(R-U
S)
0-1200µm
0-47 mils
0-2000 µm0-80 mils
0-7000 µm (M)0-275 mils
0-2000 µm (E)0-80 mils
60 g 150 g 150 g60 g
85 mm x 64 mm x 30 mm3.4“ x 2.5“ x 1.2“
230 g
160 mm x 80 mm x 30 mm6.3" x 3.15" x 1.2"
depending on the probe model (see section ”Standardsmart probes“ and separate probe catalogue)
• •
• •
• • • • • – – • • • •
• • • – –
• • • – – • • •
• • • •
•
B(4) B(4) B(4) B(4) B(4) B(4) B(3) B(3) B(3), N(5) B(3), N(5) B(3), N(5)
E(1) E(1),M(2)
E(1),M(2)
E(1),M(2)
E(1),M(2)
E(1),M(2)E(1) M(2) E(1) M(2) E(1), M(2)
Key features:• Ergonomic design with two backlit displays
for optimum viewing of the readings in any measurement position
• Pocket size and low weight• Integrated, spring-supported measurement
probe for one-hand operation (version MP0R and MP0RH) or via cable for directlyconnected probes (versions MP0R-FP andMP0RH-FP)
• Quick selection of functions via userfriendlymenu
• Specification limits• Optical and acoustical signals for measure-
ment accept or limit violation• Automatic On/Off function
• Memory for up to 1000 measurements is retained even without power supply
• Statistical evaluation• Ready to measure right away without cali-
bration.• Automatic material recognition
(for all DUALSCOPE® types)• Freely selectable offset value for automatic
addition or subtraction of a constant value• Two-point calibration when geometry or
material changes• Menu-selection of measurement units
(µm or mils)• Radio transmission of the readings
(optional radio receiver required)
4
Measurement of paint, lacquer or anodized coatingson Al.
The DUALSCOPE® MP0R(H)-FP with the separateprobe, it is easy to measure the coating thickness alsoon small or curved surface areas.
System FISCHER: Family of Instruments
®
ISOSCOPE® MP10E DELTASCOPE® MP10E
Unlike the previously described MP0R in-strument models, the MP10E series modelsuse plug-in type smart probes. Instrumentscan be adapted to particular applications byselecting appropriate probe models:
• ISOSCOPE® MP10E models are used to measure nonconductive coatings such as paint, anodizing, enamel or plastic coatings on nonferrous metals or stain-less steel, and anodic coatings on alumi-num
• DELTASCOPE® MP10E models are used to measure nonferrous metal coatings (e. g., chromium, copper, zinc, etc.), and paint, enamel or plastic coatings on iron and steel.
These instruments display the coatingthickness readings only. However, no capa-bility for storing or evaluating measurementdata is provided.
Characteristic Features:
• Large LCD display for measurement and evaluation data as well as icons for status display and operation notes on display lines.
• Easily exchangeable plug-in type smart measurement probes.
• Automatic probe recognition.
• Automatic measurement capture when probe contacts specimen.
• Acoustic signals indicate measurement acceptance.
• Lockable keyboard.
• Continuous measurement data display to quickly determine the coating thickness distribution by means of surface scan.
• Immediately ready to measure.
• Simple calibration adjustment to the test area geometry with the ZERO key.
• Additional corrective calibration with one or two calibration foils.
• Master calibration for highest measure-ment accuracy if the material and geo-metric properties of the test piece are unusual.
• Corrective and master calibration are stored in the connected probe.
• Selection between automatic shut-off 4 minutes after the last measurement or continuous operation.
• Unit of measurement selectable between U.S. and metric units.
• Various status message displays (for instance, a warning message when the battery voltages is low).
• Eight selectable display languages.
Fig. left:Measurement of the thickness of paint or lacquer coatings on aluminum using the ISOSCOPE® MP10E.
Fig. right:Measurement of zinc coatings using the DELTASCOPE® MP10E.
5
ISOSCOPE® MP10E, DELTASCOPE® MP10E
DUALSCOPE® MP20E-S
DUALSCOPE® MP20E-S
This instrument uses both the magnetic in-duction and the Eddy current test method.If coatings are to be measured on ferro-magnetic and nonferromagnetic metal substrate materials, and if one applicationmemory is sufficient, then the DUALSCOPE®
MP20E-S provides a very low-cost solutionfor an instrument with plug-type probes.The instrument features the following mea-surement capabilities:
• NF metal coatings of zinc, chromium or copper as well as paint, enamel or plasticcoatings on steel and iron.
• Paint and plastic coatings on NF metals or stainless steel and anodized coatings on aluminum.
The DUALSCOPE® MP20E-S includes abidirectional RS232 interface. The measure-ments of a measurement series can be stored, evaluated according to popular sta-tistical methods, and output to a printer ortransferred to a PC. Minimum, maximum,mean value and standard deviation are dis-played with the push of a button. The num-ber of measurements in the current testseries appears on the display in addition tothe coating thickness reading.
Normally the instruments are immediatelyready to measure. Normalization by meas-uring the uncoated part is generally suffi-cient when switching to a new measure-ment application involving the same sub-strate material but different geometry andtest area. Use the ZERO function to deter-mine the new zero point to quickly establisha valid calibration. If the ferromagnetic pro-perties of the material change, use the CALfunction to adapt the calibration to the newmaterial. This requires the use of one or twocalibration foils in addition to the bare sub-strate measurement. The calibration isstored in the probe and is available forimmediate recall at any time.
Characteristic Features:
• Large LCD display for measurement and evaluation data as well as icons for statusdisplay and operation notes on display lines.
• All magnetic induction, Eddy current and DUAL (suitable for both measurement methods) probes can be connected.
• Automatic probe recognition.
• Automatic material recognition.
• Automatic measurement capture when probe contacts test piece.
• Acoustic signals indicate measurement acceptance.
• Lockable keyboard.
• Statistical evaluation of measurement series and display of minimum, maxi-mum, mean value, number of measure-ments, standard deviation, date and time.
• Continuous measurement data display to quickly determine the coating thickness distribution by means of surface scan.
• Immediately ready to measure.
• Simple calibration adjustment to the test area geometry with the ZERO key.
• Additional corrective calibration with one or two calibration foils.
• Master calibration for highest measure-ment accuracy if the material and geome-tric properties of the test piece are un-usual.
• Corrective and master calibration are stored in the connected probe.
• Selection between automatic shut-off 4 minutes after the last measurement or continuous operation.
• Unit of measurement selectable between U.S. and metric units.
• Various status message displays (for instance, a warning message when the battery voltage is low).
• Eight selectable display languages.
Fig. left:DUALSCOPE® MP20E-S with Eddy current probe tomeasure coating thickness on NF metals.
Fig. right:Magnetic induction probe to measure the paint coating thickness on a steel rotor.
6
®
ISOSCOPE® MP30E, DELTASCOPE® MP30E
ISOSCOPE® MP30E-S and MP30E-RDELTASCOPE® MP30E-S and MP30E-R
The MP30E models of the hand-held coa-ting thickness measuring instruments are:
• ISOSCOPE® MP30E-S and MP30E-Rmodels are used to measure noncon-ductive coatings such as paint, anodizing, enamel or plastic coatings on nonferrous metals, and anodic coatings on aluminum;
• DELTASCOPE® MP30E-S and MP30E-R models are used to measure nonferrous metal coatings (e. g., chromium, copper, zinc, etc.), and paint, enamel, or plastic coatings on iron and steel.
The instruments are equipped with either abidirectional RS232 interface (Version "S") ora unidirectional radio interface (Version "R").This allows for the "S" versions the connec-tion to a printer for the printing of measure-ment data and for the "R" versions thetransfer of measurement data to a computerand using a measurement software programsuch as the FISCHER PC-DATEX softwareopens the possibility to integrate this hand-held coating thickness measuring instrumentinto a powerful workstation with fullSPC/SQC capability.
The MP30E model series features statisticalevaluation capabilities similar to the DUAL-SCOPE® MP20E-S. However, in addition tothe most common statistical parameters,this model also has the ability to print a his-togram, a cumulative frequency distributionchart, and the Cp and Cpk indices (whenspecification limits are set). Additionally, dateand time are displayed and stored with eachmeasurement block.
The auto-averaging mode is advantageousto reduce the effect of surface roughness onthe measurement data range. The meanvalue of an arbitrary number of readings isstored as a single measurement.
Outlier rejection can be enabled to assurethe validity of a measurements series statis-tical evaluation by eliminating outlier meas-urements which may be caused by faultyplacement of the probe.
The additional matrix measurement modeenables simple storing of associated meas-urement data by respective data block(according to specific feature), allowing in-dividual measurements to be made at diffe-rent times.
Notes:• Version "R" can be shipped with a fre-
quency of either 868 MHz or 915 MHz.• The appropriate radio receiver is necess-
ary to transfer data to the RS232 of a PC
Characteristic Features:• AC line connection is possible as an alter-
native to battery operation.• Large LCD display for measurement and
evaluation data as well as icons for statusdisplay and operation notes on display lines.
• Easily exchangeable plug-in type smart measurement probes.
• Automatic probe recognition.• Automatic measurement capture when
probe contacts specimen.• Acoustic signals indicate measurement
acceptance.• Lockable keyboard.• Statistical evaluation of measurement
series and display of minimum, maximum,mean value, number of measurements, standard deviation, and date and time.
• Continuous display mode with coating thickness display in an analog bar graph between pre-set specification limits.
• External push button measurement accept, handy for measurements on the inside of small bores.
• Immediately ready to measure.• Simple calibration adjustment to the test
area geometry with the ZERO key.• Additional corrective calibration with one
or two calibration foils.• Master calibration for highest measure-
ment accuracy if the material and geome-tric properties of the specimen are un-usual.
• Ability to calibrate on a coating of un-known thickness (for magnetic induction method only).
• Master calibration is stored in the connected probe.
• A maximum of 10,000 measurements can be stored in 1,000 blocks in up to 100 applications. The size of a block can either be selected freely or can be fixed.
• Standard and matrix measurement mode.• Single measurement mode. Only the
mean value of several single readings is stored.
• Outlier rejection to eliminate erroneous measurements.
• Correction of previously stored measure-ments is possible.
• Input of specification limits.• Bidirectional interface or unidirectional
radio interface.• Selection between automatic shut-off
4 minutes after the last measurement or continuous operation.
• Unit of measurement selectable between U.S. and metric units.
• Various status message displays (for instance, a warning message when the battery voltage is low).
• Eight selectable display languages.
Fig. below:Complete measurement system with measurementStand V12, DELTASCOPE® MP30E and printer.
7
DUALSCOPE® MP40E
DUALSCOPE® MP40E-S and MP40E-R
DUALSCOPE® MP40E combines the magne-tic induction and Eddy current methods inone hand-held instrument, similar to theMP20E-S. This combination enables theuser to measure in random order paint, pla-stic, and organic coatings on nonferrousmetals and on steel, and nonferrous metalcoatings (such as chromium, copper, zinc,etc.) on steel with one and the same instru-ment. The attributes of the DUALSCOPE®
MP40E correspond to the ones of the MP30E models. Measurement data can bestored according to an application. Measure-ment series can be printed out or transferredto a PC.
These models also use plug-in type smartprobes. A probe suitable for a particularapplication is connected easily and quickly.The instrument recognizes whether a mag-netic induction or an Eddy current probe isconnected. If a DUAL probe is used, theinstrument even recognizes the material andselects the appropriate measurementmethod according to DIN.
The DUALSCOPE® MP40E-S features a bi-directional RS232 interface. This permits the transfer of measurement data from theDUALSCOPE® MP40E-S to a PC, for in-stance to generate a control chart withSPC/SQC software. The instrument can alsobe controlled entirely from a computer. Thekey functions can all be addressed via theRS-232 interface allowing for remote controland integration of the instrument in a fullyautomatic measurement system.
With the DUALSCOPE® MP40E-R measure-ment data can be transferred wireless acrossa distance of up to 20 m, e.g., directly intoan EXCEL® spreadsheet using a unidirectio-nal radio interface.
Characteristic Features:
• AC line connection is possible as an alternative to battery operation.
• Large LCD display for measurement and evaluation data as well as icons for sta-tus display and operation notes on dis-play lines.
• All magnetic induction, Eddy current and DUAL (suitable for both measurement methods) probes can be connected.
• Automatic probe recognition.• Automatic material recognition.• Automatic measurement capture when
probe contacts test piece.• Acoustic signals indicate measurement
acceptance.• Lockable keyboard.• Statistical evaluation of measurement
series and display of minimum, maximum,mean value, number of measurements, standard deviation, and date and time.
• Continuous display mode with coating thickness display in an analog bar graph format between pre-set specification limits.
• External start.• Immediately ready to measure.• Simple calibration adjustment to the test
area geometry with the ZERO key.• Additional corrective calibration with one
or two calibration foils.• Master calibration for highest measure-
ment accuracy if the material and geo-metric properties of the specimen are unusual.
• Ability to calibrate on a coating of un-known thickness (for magnetic induction method only).
• Master calibration is stored in the connected probe.
• A maximum of 10,000 measurements can be stored in 1,000 blocks in up to 100 applications. The size of a block can either be selected freely or can be fixed.
• Standard and matrix measurement mode.• Single measurement mode. Only the
mean value of several single readings is stored.
• Outlier rejection to eliminate erroneous measurements.
• Correction of previously stored measure-ments is possible.
• Input of specification limits.• Selection between automatic shut-off
4 minutes after the last measurement or continuous operation.
• Unit of measurement selectable between U.S. and metric units.
• Various status message displays (for instance, a warning message when the battery voltage is low).
• Eight selectable display languages.Measurement of a dual layer (paint or laquer/zinc-layer on iron) with the EDX10 probe.
Measurement of paint or layer thickness on a curvedsurface with the ETD3.3 probe.
8
Notes:• Version "R" can be shipped with a frequency of
either 868 MHz or 915 MHz.• The appropriate radio receiver is necessary to
transfer data to the RS232 of a PC.
®
System Fischer: Standard Smart Probes
Standard Probes
The probe supplies a measurement signalrelative to the coating thickness. Properprobe selection and the quality of the probedetermine the accuracy of the measure-ment for any particular application.
Within the FISCHER System, every smartprobe works with every instrument (pro-vided that the measurement method ofprobe and instrument are the same). Thisunlimited ability to combine allows the ope-rator to cover diverse measurement appli-cations simply by changing probes.
The many different applications requireprobes of different design and shape. TheFISCHER System family of smart probesincludes many different designs. A generaldistinction can be made between standardprobes and custom probes. FISCHERdevelops custom probes for specific meas-urement applications that are not coveredsatisfactorily by standard probes. The com-pany’s application engineers are constantlyworking on new solutions.
When using a standard probe, model se-lection is determined by a number of crite-ria. The first criterion is the coating/subs-trate material combination. This determinesthe measuring method of the probe – Eddycurrent or magnetic induction. The use ofdual measurement probes are increasingin popularity. They operate according toboth measurement methods and can beconnected to either the DUALSCOPE®
MP20E-S or MP40E. The EDX10 probe is designed for the measurement of dual layers (paint or laquer/zinc-layer on iron).The table to the right features a selection of available probes.
Geometric conditions of the measurementarea determine the shape of the probe.Radial, axial, and right angle probes areavailable. The ETD3.3 Eddy current probe is ideal for curved surfaces. This uniqueprobe gives correct thickness readings even on curved surfaces.
In the end, the probe that promises theoptimal result is determined by a number ofother aspects. Very important are the thick-nesses of the coating to be measured andof the substrate. Coating hardness and surface roughness needs to be taken intoconsideration; often, two-pole probes exhibit better results on particularly roughsurfaces. Other considerations are the cur-vature and size of the measurement area.
Magnetic Induction Probes
Shape Model
EGAB1.3 0-2000 µm0-80 mils 601-793
601-964
601-932
602-023
602-121
602-225
602-128
602-025
602-026
601-965
602-796
602-027
EGABW1.3 0-2000 µm0-80 mils
0-1000 µm0-40 mils
0-5 mm0-200 mils
0-1500 µm0-60 mils
0-8 mm0-320 mils
EGABI1.3-150
EGB2
EGA2H
ETA3.3H 0-1200 µm0-48 mils
0-1200 µm0-48 mils
0-800 µm0-32 mils
0-3.5 mm0-140 mils
NF/Fe0-1100 µm0-44 milsIso/NF0-800 µm0-32 mils
0-20 mm0-800 mils
EKB10
Order No.Measurement range
Eddy Current Probes
Dual Measurement Probe
For a complete overview of our probe product line see the separate brochure ”Probes and Measurement fixtures“.
Shape Model Order No.Measurement range
EAW3.3
EAI3.3-150
EA9
EA30
602-6070-800 µm0-32 milsETD3.3
ED10
602-084EDX10
9
Instrument settings should beperformed by qualified per-sonnel only; the settings canbe protected against unauthor-ized changes.
Partial keypad lockout ensures that calibra-tions are performed by authorized personnelonly. The operator cannot change the storedcalibration.
Instrument models MP30E and MP40Eallow for application-related corrective cali-bration, a maximum of 10,000 measure-ment data to be stored in up to 100 appli-cations. Storage management of themeasurement data is dynamic, that is, anynumber of measurements can be stored in each application as long as the totalnumber does not exceed 10,000.
Version MP20E-S includes a commonapplication memory for both measuringmethods for max. 10,000 measurements.
Version MP10E offers no capacity for storing measurements.
With all instrument versions, the mastercharacteristic is stored permanently in theprobe plug.
Bi-directional data transfer between theMP20E-S, MP30E-S or MP40E-S and aPC enables measurement data acquisitionand storage on the hard disk of a PC. Inaddition, all key functions of the instrumentare available from the computer for remotecontrol applications. This allows for inte-gration of the instrument in a fully automa-ted measurement system. For instance, ifthe geometry of the test area changes, therequired application can be selected, and the correct test area specific calibrationcan be made available automatically. Withthe unidirectional radio interface of theinstrument version “R”, measurement datacan be transferred wireless to a PC acrossdistances of up to 20 m.
Instrument versions with serial inter-face offer the possibility of application-specific data management andSPC/SQC software data acquisitionwith external PC.
This results in a separation of supervisorand operator functions.
smart probeEGAB1.3
reference surface Istoring measure-ment data e. g. inAppl. No. 70
reference surface IIstoring measure-ment data e. g. inAppl. No. 71
reference surface IIIstoring measure-ment data e. g. in Appl. No. 72
coating thickness measuring instruments DUAL MP40E-R
MP40E-SDELTA MP30E-R
MP30E-S ISO MP30E-R
MP30E-S
measurement signal
storing of the master calibration
product FI 1010 with 3 reference surfaces
10
RS232
Data transfer either via RS232 or radiointerface
PC-DATEXPC-DATACC
Radio receiver
(*) Version "-R": data transfer via radio interfaceVersion "-S": data transfer via RS232 interface
PC
System FISCHER: Calibration, Data Storage
Measurement data storage capabilityThe MP30E and MP40E model series havetwo basically different measurement datastorage modes:In the Standard Measurement Data Stor-age Mode single measurements are takenconsecutively on the same part by the oper-ator, for example on a screw head, and arethen grouped with BLOCK-RES into a localmean. The resulting mean value then repre-sents the local coating thickness of the signi-ficant surface according to ISO 2064. Thismeasurement data storage mode is espe-cially well suited for the coating thicknessmeasurements of electroplated coatings.
Measurement Data DocumentationThe bi-directional RS232 interface of the"S" version, which can be configured to different peripheral instruments, offersextensive documentation possibilities. It ispossible to print individual readings, withstatistical evaluation, histogram, as well asCp- and Cpk indices during the measure-ment process, as well as at a later time.Block results and final results are printedwith date and time. Using the RS232 inter-face or using a radio transmitter of the "R"versions, all measurement data can betransferred to a PC for further evaluation.
In the Matrix Measurement Data Stor-age Mode the number of applications andblocks are predefined. Consecutive meas-urements can be stored in different, indivi-dually selectable applications and blocks.This measurement storage mode is ideal for coating thickness measurement appli-cations, where different parts have to bemeasured always on specific surface areas,and where the measurement data from thecorresponding surfaces are to be groupedinto sequential blocks. This measurementmode is used for example in the automo-bile industry, steel construction, etc.
11
and Documentation
Standard Measurement Data Storage Mode
APPL 1 =Part 1
Block 1 =Meas. data
part 1Block 2 =
Meas. data part 2
Block 3 =Meas. data
part 3Block 4 =
Meas. data part 4
Block 5 =Meas. data
part 5
Block 5 =Meas. data
part 5Block 6 =
Meas. data part 6
Block 7 =Meas. data
part 7
Block 1 =Meas. data
part 1•
••••
•
•
•
•
•
Block 2 =Meas. data
part 2Block 3 =
Meas. data part 3
Block 4 =Meas. data
part 4
Block 1 =Meas. data
part 1Block 2 =
Meas. data part 2
Block 3 =Meas. data
part 3Block 4 =
Meas. data part 4
Block 5 =Meas. data
part 5Block 6 =
Meas. data part 6
Block 7 =Meas. data
part 7
Calibration forpart 1
Calibration forpart 2
Calibration forpart I
Calibration forpart N
❷
❷
❶
❶
Part 1 Part 2 Parts I Part N
measure-mentlocation
Measurement data can be stored by the PC.
BLOCK-RES calculates statisticaldata for the current measurementseries. Date and time are stored.
All individual readings, measurements Blocks,as well as individual Blocks with statisticalparameters, histograms, etc. can be printedimmediately during measurement or at a laterdate.
FINAL-RES calculates statistical parameters forall stored measurements including blocks of anapplication. If product specification limits areentered the number of measurements violatingthe limits is shown. With fixed number of meas-urements per block, Cp and Cpk are also cal-culated.
RS232
n pa
rts
each
type
APPL 2 =Part 2
additionalapplications(max. 100)
APPL N =Part N
▼
▼▼
▼
▼
▼
▼▼
▼
Matrix Measurement Data Storage Mode
Block 1=all dataright fender:
71.5 µm68.7 µm72.9 µm
.Block 2=all data
hoods:72.1 µm69.3 µm68.9 µm
.Block 3=all dataleft side doors:
74.5 µm67.7 µm69.2 µm
.
Block 1=all dataleft fender:
71.5 µm68.7 µm72.9 µm
.
Block 2=all dataroofs:
72.1 µm69.3 µm68.9 µm
.Block 3=all data
right fenders:74.5 µm67.7 µm69.2 µm
.
Block 1=all dataroof:
71.5 µm68.7 µm72.9 µm70.6 µm73.2 µm
.Block 2=all data
trunks:73.5 µm67.7 µm70.9 µm67.6 µm71.2 µm
.Block 3=all dataright side doors:
73.5 µm67.7 µm70.9 µm67.6 µm71.2 µm
.
other measurementlocations
other measurementlocations
Calibration forLine 1
Calibration forLine 2
Calibration forLine 3
❶
❶
❷
❷
❸
❸
Production line 1
Measurementsequence bycar body
1
2
3
car body No.123n
Production line 2
Production line 3
Same data storage – and evaluation capabilities as with the standardmeasurement data storage mode
Function ofBLOCK-RES andFINAL-RES same aswith the standard datastorage measurementmode
Each measurementcan be selected indi-vidually and can beremeasured (this isalso possible in thestandard measure-ment mode)
By means of application“linkage“, the calibration ofthe first opened applicati-on can be transferredautomatically to all otherapplications.
APPL 1 = line 1 APPL 2 = line 2 APPL 3 = line 3
RS232▼▼
Custom Designs, Fixturing Devices
The term custom designs covers specialdesigns and problem specific solutions.The common thread is the electromagne-tic measuring method. There are differentreasons to develop custom designs, forinstance:• Special probes become necessary
when the standard probes cannot be used – for any number of reasons.
• Custom designs may help, if position-ing of the probe on the surface to be measured proves problematic.
• Special fixtures can help to make measurements more efficient; this may lead to custom designs.
• The electromagnetic measuring method can also be used for applica-tions not related to coating thickness measurement, for example the meas-urement of the total thickness of a sheet or foil material. This requires spe-cial devices, in this case a suitable metal backing plate or roller.
So far, FISCHER has developed manycustom designs. A few examples are list-ed below. The number of custom designsincreases constantly.• Low profile two-pole probe to measure
coatings on the inside of small diameter bores or tubing.
• Special probe for thickness measure-ment of plastic coatings on female threads.
• Fixturing device V5GW2/TW3 for right angle probes to take measurements in hard to reach areas.
• Measurement fixture for screws to measure the thickness of electroplated coatings on metallic fasteners accor-ding to DIN ISO 4042 using the magne-tic induction method.
• Piston ring measuring table V4EKB4 to measure chromium coatings on piston rings and oil rings.
• Measuring stand V12 with magnetic sliding table for accurate small parts positioning.
• Measuring stand V12-AM with automa-tic probe positioning. Through soft touch positioning, even thin and soft paint and organic coatings can be measured accurately and reproducibly.
Custom design: low profile measurement probe EKB10
Custom design for paint thickness measurement on female threads.
Right angle probe with guiding device V5GW2/TW3.
Piston ring measuring table V4EKB4.
Stand V12 with magnetic sliding table. Measuring stand V12-AM for automated measurements.
Measurement fixture for screws.
12
®
Custom Designs, Fixturing Devices
Kla
pp
seit
e
®
Radio receiver RS232 868 MHz for all MP0R and MP30E-/MP40E-R versions 603-467
Radio receiver RS232 915 MHz for all MP0R-US and MP30E-/MP40E-R-US versions 603-544
Printer FMP3040 602-890
Carrying case MP0D/30/40 602-120
Line charger FMP3040 602-893
AC POWER SUPPLY MPxE-S (220V) 602-819
Battery charger 600-226
NiCd battery 600-225
Placement support 600-025
Instrument case 600-243
MP-NAME Software 602-966
PC-DATEX Software 602-465
PC-DATACC Software 603-028
RS232 interface 602-341
Measurement stand V12-AM 603-717
Measurement stand V12 602-260
Screw-type quick-connect support 600-815
Chucking fixture for inside probes 601-691
Chucking fixture for right angle probes 600-077
Measurement fixture for screws 602-916
Piston ring measuring table V4EKB4 602-312
13
Measurements of the copper platings in boreholesof printed circuit boards using the PHASCOPE®
PMP10 and the ESL080 probe.
PHASCOPE® PMP10 for fast and precise coatingthickness measurements according to the phase-sensitive Eddy current method.
FERITSCOPE® MP30E for the determination of thedelta ferrite content.
Name Order Number
MP-NAME SoftwareThis optional Windows® software isintended for the naming of applicationsand measurement data blocks whenused in matrix mode for all hand-heldinstruments type MPxxE-S, exceptMP20E-S. Up to 16 character longnames can be entered from the PC for transfer to the hand-held unit.
PC-DATEX and PC-DATACC This is the ideal software to transfer,process and document measurementdata under modern quality controlsystems. As an add-in module forMicrosoft® EXCEL 97 and ACCESS 97and later, it enables direct online or off-line transfer of measurement data tospreadsheets.
The entered names will be displayed inthe alphanumeric display of the unit.The naming of applications and meas-urement data blocks assures the errorfree selection and processing of meas-urement data.
Optional Accessories:
DUALSCOPE® MP40E and printer FMP3040 inclu-ding accessories in carrying case with shoulderstrap for convenient on site measurements.
Conductivity measurement with the SIGMASCOPE® SMP10.
Software, Options
Klap
pseite
FISCHERSCOPE® X-RAY XDL®-B used to measure the coating thickness and to analyze electroplated coatings.
FISCHERSCOPE® MMS® PC. Universal measure-ment system for magnetic, magnetic inductive, Eddy current and beta backscatter method coating thick-ness measurements and general materials testing.
The information in this brochure contains only generaldescriptions and performance features that do notalways apply as written, or that may be changed dueto continuous development of the products. Thedesired performance features are binding only if theyare expressly agreed upon in the contract.
DUALSCOPE®, ISOSCOPE®, DELTASCOPE® andFISCHERSCOPE® are registered trademarks of Helmut Fischer GmbH+Co.KG,Sindelfingen, Germany.Windows® is a registered mark of Microsoft Corpora-tion in the USA and/or in other countries.
The high quality standard of FISCHERinstruments is the result of our efforts toprovide the very best instrumentation to our customers.
FISCHER is a reliable and competentpartner, offering expert advice, extensiveservice, and training seminars.
Today, FISCHER instruments are usedsuccessfully in all technological fields ofindustry and research.
© Helmut Fischer GmbH+Co.KG Subject to changes 902-055 Printed in Germany 06/05
Fischer Instrumentation (G.B.) Ltd.Gordleton Industrial ParkHannah Way, PenningtonLymington/Hampshire SO41 8JD, EnglandTel. (+44) 1590-684100, Fax (+44) 1590-684110Internet: www.fischergb.co.ukE-Mail: [email protected]
Fischer Instruments, S.A.08018 Barcelona, SpainTel. (+34) 93 309 79 16, Fax (+34) 93 485 05 94E-Mail: [email protected] Fischer Meettechniek B.V.5627 GB Eindhoven, The NetherlandsTel. (+31) 40 248 22 55, Fax (+31) 40 242 88 85E-Mail: [email protected] Instruments K.K.Saitama-ken 340-0012, JapanTel. (+81) 48 929 3455, Fax (+81) 48 929 3451E-Mail: [email protected] Instrumentation (Far East) Ltd.Kwai Chung, N.T., Hong KongTel. (+852) 24 20 11 00, Fax (+852) 24 87 02 18E-Mail: [email protected]
Fischer Technology, Inc.750 Marshall Phelps RoadWindsor, Ct. 06095, USATel. (+1) 860 683-0781, Fax (+1) 860 688-8496Internet: www.fischer-technology.comE-Mail: [email protected]
Fischer Instrumentation (S) Pte Ltd.Singapore 118529, SingaporeTel. (+65) 62 76 67 76, Fax (+65) 62 76 76 67E-Mail: [email protected]
Nantong Fischer Instrumentation Ltd.Shanghai 200437, P.R.C., ChinaTel. (+86) 21 6555 7455, Fax (+86) 21 6555 2441E-Mail: [email protected]
Helmut Fischer GmbH+Co.KGIndustriestraße 2171069 Sindelfingen, GermanyTel. (+49) 70 31 303-0 Fax (+49) 70 31 [email protected]: www.Helmut-Fischer.com
Sole Agent for Helmut Fischer GmbH+Co.KG, Germany:
Helmut Fischer Elektronik und Messtechnik AGCH-6331 Hünenberg, SwitzerlandTel. (+41) 41 785 08 00, Fax (+41) 41 785 08 01E-Mail: [email protected]
Branch Offices of Helmut Fischer AG, Switzerland:
Fischer Instrumentation Electronique78180 Montigny le Bretonneux, FranceTel. (+33) (0) 1 30 58 00 58, Fax (+33) (0) 1 30 58 89 50E-Mail: [email protected]
Helmut Fischer S.R.L., Tecnica di Misura20128 Milano, ItalyTel. (+39) 02 255 26 26, Fax (+39) 02 257 00 39E-Mail: [email protected] 06
/05
DKD-K-33101Accredited acc. to
DIN EN ISO/IEC 17025
®
Active Around the World
The Institute for Electronics and Measurement Technology
HELMUT FISCHER in Sindelfingen/Germany is
an innovative leader in the field of coatingthickness measure-
ment, material analysis, microhard-
ness testing, electricalconductivity- and
ferrite content measurement as well
as for density and porosity testing.
The company is able torecommend the best solution for any appli-
cation. A compre-hensive range of
products is offered using X-ray fluores-
cence; Beta-backscatter; Magnetic;Magnetic induction; Electric resistance; Eddy current and Coulometric techniques. HELMUT FISCHER has 12 subsidiary companies and
32 marketing agenciesstrategically located
around the globe.