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Table Contents
Index Types General Technical Information 6.10 6.11 6.12 6.13 6.14 6.15 6.16 Electromagnetic compatibility (EMC) Introduction Interference sources disturbed equipmentInterference source Propagation electromagnetic interference measurement techniques regulations legislation Propagation conducted interference Filter circuits line impedance Selection criteria components Arrangement installation filters filter components Approvals Safety regulations Electrical characteristics Rated voltage Test voltage Rated current Overcurrent Pulse handling capability Current derating Rated inductance Stray inductance Inductance decrease resistance Rtyp, Rmin, Rmax Winding capacitance, parasitic capacitance Quality factor Measuring frequencies Discharge resistor Insertion loss Leakage current Mechanical properties Potting (economy potting, complete potting) Types winding characteristics various types winding Climatic characteristics Upper lower category temperature Rated temperature Reference temperature measurements climatic category Dangerous substances components Disposal
Table Contents
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Table Contents Chokes SIMID Series
B82422
11.1 11.2 11.3
services laboratory Qualification Services offered Equipment
Quality Assurance General Total Quality Management Zero Defect Concept Quality assurance system Quality assurance procedure Material procurement Product quality assurance Final inspection Product monitoring Manufacturing quality assurance procedures Delivery quality Random sampling Classification defects figures Incoming goods inspection Service life Failure criteria Operating conditions Reliability Failure rate (long-term failure rate) Failure rate values Supplementary information Handling claims complaints
Chokes SIMID Series HLBC Series Chokes Chokes Data Signal Lines Chokes Power LInes Core Chokes Ring Core Chokes with Powder Core Current-Compensated Ring Core Chokes Core Chokes (Eco Chokes)
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Table Contents Chokes SIMID Series
B82422
Filters General-Purpose Filters Filters Installations Systems Filter Converters Power Electronics Filters Installations Shielded Rooms Feed-Through Capacitors Feed-Through Filters Suppression Capacitors Suppression Varistors Taping Packing SMDs Taping Packing Packing units Leaded chokes Taping axial-lead chokes Taping radial-lead chokes Packing Packing units chokes Radial-lead suppression capacitors plastic cases Taping Packing
Subject Index Symbols Terms
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COMPONENTS
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Ferrite cores accessories
place, shape
With more than 4000 different ferrite cores have solution tackle every application. Straight from stock supply core shopes many materials, plus matching accessories: transformers with high packing density power transformers transformers with extremely leakage field cores ETD, with round center compact transformers, with flattened center ultra flat transformers, wide range standard cores storage chokes, split diode line transformers Ring pulse, broadband balun transformers plus chokes Double-aperture broadband transformers into region
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Index Types
B78108-S B78108-T B78148-S B78148-T B81121-C-*121 -*132 B81121-C-*141 -*152 B81121-C-*92 -*100 B81122 B81123 B81131 B81132 B81133 B81141 B81151 B81191 B81551-A-B14 B81551-A-B16 B81551-A-B7 B81551-A-C3 B81551-A-C9 B81551-A-D4 B82111-B B82111-E B82114 B82131 B82132 B82133 B82134 B82141 B82143 B82144 B82145 B82412 B82422 B82422-A****-+100 B82422-T B82432 B82442 B82494 B82498 B82500 B82502 B82503 B82504 B82505
B82506 B82507 B82508 B82510 B82615 B82617 B82623 B82624 B82625 B82627 B82721 B82722 B82723 B82724 B82725 B82731 B82732 B82734 B82745 B82747 B82765 B82790-C0***-N2 B82790-C0***-N3 B82790-C2***-N3 B82790-S0***-N2 B82791-G14 B82791-G15 B82791-H15 B84101 B84102-C B84102-K B84103 B84108 B84110-A B84110-B B84111 B84112 B84113 B84114 B84115 B84131 B84134-A B84134-B B84134-F B84142
Index Types
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Index Types
B84143-A B84143-B B84144 B84204 B84206 B84209 B84224 B84226 B84299-C B84299-G B84299-K21 B84299-K26 B84299-K33 -K39 B84299-K53 -K57 B84299-K61 -K67 B84312 B85111 B85121-A-B1 -B15 B85121-A-B24 B85121-A-B29 B85121-A-B39 B85121-A-B45 B85121-A-C18 B85121-A-C37 B85121-D-B1 B85122-A-B2 B85313 B85321-A-B4 B85321-A-B6 B85321-A-B7 B85321-A-B9 B85321-A-C5 B85321-A-J1 B85321-A-J11 -J12 B85331 B85332 SHCV-SR
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General Technical Information
Electromagnetic compatibility (EMC) Introduction
General Technical Information
long electronic transmission equipment such radio, television, telephone been existence, history susceptibility interference from other electronic devices. Legal regulations interference suppression (electromagnetic radio frequency interference, RFI) have been existence since 1928. These regulations protect transmission paths reception equipment limiting emitted interference. view increasing number electrical electronic appliances use, only principles interference suppression must observed, also, sense electromagnetic compatibility (EMC), must ensured that equipment able operate simultaneously without problems. defined ability electrical equipment function satisfactorily electromagnetic environment without affecting other equipment this environment impermissible extent. European Communities' Directive (89/336/EEC) finally come into force 1996. been transformed into corresponding legislation individual member states (European Union). With this, become mandatory design electronic equipment comply with protective aims this Directive; i.e. meet requirements electromagnetic emission electromagnetic immunity laid down corresponding standards (European Standards). concept includes both electromagnetic emission (EME) electromagnetic immunity/ susceptibility (EMS), figure Electromagnetic compatibility Susceptibility
Emission
Interference source Fig. terms Conducted
Electromagnetic emission Electromagnetic immunity/susceptibility Conducted emission Susceptibility conducted emission Radiated emission Susceptibility radiated emission
Radiated Propagation
Disturbed equipment
interference source generate conducted radiated electromagnetic energy, i.e. conducted emission (CE) radiated emission (RE). This also applies propagation paths electromagnetic susceptibility disturbed equipment. order work economical solutions, necessary consider both phenomena, i.e. propagation susceptibility, equal extent, just aspect, e.g. conducted emission.
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General Technical Information
components used reduce conducted electromagnetic interference limits plan reduce this interference below limit values specified regulations. These components installed either source potential interference disturbed equipment (figure
Power supply Disturbed equipment
Source
Control line Filter Interference currents Interference voltages
Signal line
Electric field Magnetic field Electromagnetic field
Fig.
Susceptibility model filtering
Components offers suppression components with well-balanced range rated voltages currents power supply lines well signal control lines.
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General Technical Information
Interference sources disturbed equipmentInterference source
interference source electrical device electrical equipment which emits electromagnetic interference. differentiate between main groups interference sources corresponding type frequency spectrum emitted (figure
Interference source (emission)
Discrete frequency spectrum (Sine-wave, energy) systems generators Medical equipment Data processing systems Microwave equipment Ultrasonic equipment welding apparatus Radio receivers Switch-mode power supplies Frequency converters systems Electronic ballast circuits Fig. Sources interference
Continuous frequency spectrum (Impulses, high energy) Switchgear (contactors, relays) Household appliances discharge lamps Power supplies battery chargers Ignition systems Welding apparatus Motors with brushes Oscillating drives Atmospheric discharges
Interference sources with discrete frequency spectra (e.g. high frequency generators microprocessor systems) emit interference energy which concentrated narrow frequency bands. Switchgear electric motors household appliances, however, distribute their interference energy over broad frequency bands considered belong group interference sources having continuous frequency spectrum.
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General Technical Information
Disturbed equipment Electrical devices, equipment and/or systems subject interference which adversely affected termed disturbed equipment.
same interference sources, disturbed equipment also categorized corresponding frequency characteristics. distinction made between narrowband broadband susceptibility (figure Narrowband systems include radio sets, example, whereas data processing systems generally specified broadband systems.
Disturbed equipment (affected EMI)
Narrowband susceptibility Radio receivers Radio reception equipment Modems Data transmission systems Telemetric radio transmission devices Frequency-coded signalling equipment Fig. Disturbed equipment
Broadband susceptibility Digital analog systems Data processing systems Process control computers Control systems Video transmission systems Interface lines
Propagation electromagnetic interference measurement techniques
previously mentioned, interference source causes both conducted radiated electromagnetic interference. Propagation along lines detected measuring interference current interference voltage (figure effect magnetic electric interference fields their immediate vicinity assessed measuring radiated magnetic electric field components. This method propagation also frequently termed electric magnetic coupling (near field). higher frequency ranges, characterized fact that device dimensions order magnitude wavelength under consideration, interference energy mainly radiated directly (far field). Conducted radiated propagation must also taken into consideration when measuring susceptibility disturbed equipment. Interference sources e.g. sine-wave generators well pulse generators with wide variety pulse shapes used such tests.
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General Technical Information
Power supply Probe Line impedance stabilization network
Iint
Broadband dipole antenna
Current probe
Selective voltmeter
Hint Magnetic interference fields Eint Electrical interference fields
Selective voltmeter Spectrum analyzer Storage oscilloscope Transient recorder
Source
Pint Electromagnetic interference fields (radiated emission)
Frame antenna
Interference current Vint Interference voltage
antenna Near field coupling Selective voltmeter
Selective voltmeter
SSB0016-
Fig.
Propagation electromagnetic interference measurement techniques
regulations legislation
wide range legislation harmonized standards have come into force been published field past years. European Union, Directive 89/336/EEC Council European Communites come into effect January 1996. this date, electronic equipment must comply with protective aims Directive. conformity with respective standards must guaranteed manufacturer importer form declaration conformity. mark conformity must applied equipment. matter principle, electrical electronic equipment, plant systems must meet protection requirements Directive and/or national legislation. declaration conformity manufacturer importer mark required most equipment. Exceptions this rule special rulings described detail laws. New, harmonized European standards have been drawn relation EEC's Directive national laws. These specify measurement techniques limit values test severities, both interference emission interference susceptibility rather, immunity interference) electronic devices, equipment systems. subdivision European standards into various categories (cf. following table) makes easier find rules that apply respective equipment. generic standards always apply equipment which there specific product family standard dedicated product standard. basic standards contain information interference phenomena general measuring methods.
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General Technical Information
following standards regulations form framework conformity tests: standards Germany Europe International
Generic standards define environment which device operate according intended Emissionresidential industrial Susceptibilityresidential industrial 50081-1 50081-2 50082-1 50082-2 50081-1 50081-2 50082-1 50082-2
Basic standards describe physical phenomena measurement techniques Basic principles Measuring equipment Measuring emission methodssusceptibility Harmonics Interference factors fields Burst Surge 0843 0876 0877 0838 0843-2 0843-3 0843-4 0843-5 61000 1000 CISPR 16-1 CISPR 16-2 1000-4-1 1000-3-2 1000-4-2 1000-4-3 1000-4-4 1000-4-5
61000-4-1 60555-2 61000-4-2 61000-4-3 61000-4-4 61000-4-5
Product standards define limit values emission susceptibility equipment emission susceptibility Household emission appliancessusceptibility Lightingemission susceptibility Radio andemission equipmentsusceptibility High-voltage systemsemission equipmentemission susceptibility Vehiclesemission susceptibility 0875
5501)
CISPR
0875 T14-1 0875 T14-2 0875 T15-1 0875 T15-2 0872 0872 0873 0878 0878 0879 0839
55014-1 55014-2 55015-1 55015-2 55013 55020 55018 55022 55022 72245
CISPR 14-1 CISPR 14-2 CISPR 3439 CISPR CISPR CISPR CISPR CISPR CISPR 11451/
governed safety quality standards product families.
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General Technical Information
following table shows most important standards field immunity interference. Standard Conducted interference 61000-4-4 1000-4-4 61000-4-5 1000-4-5 61000-4-6 (ENV 50141) 801-6 Field-related interference 61000-4-3 (ENV 50140) 801-3 V/m, 1000 High-frequency interference fields 5/50 (single impulse) burst (open-circuit voltage) (short-circuit current) Burst Cause: switching processes Surge (high-energy transients) Cause: lightning strikes mains lines, switching processes High-frequency coupling Narrow-band interference Test characteristics Phenomena
Electrostatic discharge (ESD) 61000-4-2 1000-4-2 Electrostatic discharge
1000 61000 series standards planned central standards into which regulations (e.g. 801, 555) intgrated next years.
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General Technical Information
Propagation conducted interference
order able choose suitable interference suppression components, which conducted interference propagated needs known (figure
Interference source Disturbed equipment
Common-mode interference current Differential-mode interference current
Parasitic capacitance
Fig.
Common-mode differential-mode interference
interference source which floating potential primarily emits differential-mode, i.e. symmetrical interference which propagated along connected lines. power lines, interference current will flow towards disturbed equipment wire away from other wire, just mains current does. Symmetrical differential-mode interference occurs mainly frequencies several hundred kHz). However, parasitic capacitances interference sources disturbed equipment intended ground connections, also lead interference current ground circuit. This interference current flows towards disturbed equipment through both connecting lines returns interference source through ground lines.The currents connecting lines common mode interference thus designated common-mode asymmetrical interference. Since parasitic capacitances will tend towards representing short-circuit with increasing interference frequencies coupling connecting cables equipment itself will increase correspondingly, common-mode interference becomes dominant multiple-MHz frequencies. European usage, concept "unsymmetrical interference" used, addition components described above, describe interference. This term used describe interference voltage between line reference ground potential. Characteristic insertion loss values specified individual filter types order facilitate selection suitable suppression filter.
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General Technical Information
Filter circuits line impedance
Interference suppression filters virtually always designed reflecting lowpass filters, i.e. they reach their highest insertion loss when they hand mismatched impedance interference source disturbed equipment other hand mismatched impedance line. Possible filter circuits various line, interference source disturbed equipment impedance conditions shown figure Line impedance Impedance source interference disturbed equipment high
high
high
high unknown unknown
high unknown unknown
Fig.
Filter circuits impedance relationships
therefore, necessary find internal impedances that optimum filter circuit designs well economical solutions implemented. internal impedances power networks under consideration usually known from calculations extensive measurements, whereas impedances interference sources disturbed equipment are, most cases, only inadequately known. this reason, impossible design most suitable filter solution without measuring equipment characteristics. this context, offer customers competent assistance skilled staff, both on-site laboratory Regensburg. (cf. "Services offered", page 33). Selection criteria components
comply with currently valid regulations, frequency range 1000 taken into consideration, most cases, order ensure electromagnetic compatibility; addition, however, factors such low-frequency line interference should considered. components must thus have favorable characteristics ususally required effective over broad frequency range.
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General Technical Information
individual components (inductors) characteristics specified stating imped-
ance function frequency.
explained, filters selected insertion loss. insertion loss defined log-
arithm ratio power supplied load impedance without filter power supplied when filter connected (cf. chapter filters, page 204). device under test (DUT) terminated both sides with impedance example, result measurement referred being insertion loss. Depending particular application intended, priorities consideration three possible methods insertion loss asymmetrical common-mode attenuation symmetrical differential-mode attenuation, unsymmetrical attenuation must decided upon. measuring method using insertion loss been adapted from field communications engineering also specified relevant national international standards. Admittedly, permits comparison different filters, provides little information practical applications. reason already mentioned previous section that neither interference source disturbed equipment connected power line system will have impedance frequencies below MHz. Likewise, attenuation interference impulses cannot simply determined basis insertion loss value. this case, also necessary take non-linear response interference suppression chokes filters into consideration. sent pulse shapes question, specify filter-specific values request. Arrangement installation filters filter components
When designing filter circuits using individual components, observe following basic rules:
components should arranged along lines (see example figure avoid capacitive
inductive coupling between components between filter inputs outputs.
insertion loss filter circuit range mainly determined capacitors con-
nected ground, connecting leads these capacitors should inductance-free possible, i.e. short. Filter circuits which installed devices with limited space must shielded.
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General Technical Information
Chokeint
Fig.
Correct arrangement filter components, e.g. board
When using off-the-shelf filters, observe following rules:
Ensure proper electrically conductive connection between filter case and/or filter ground
metallic case interference source disturbed equipment,
provide sufficient decoupling between lines filter input (line causing interfer-
ence) filter output (filtered line), necessary using shielding partitions. Approvals
products Components basically designed conform German regulations and/or standards. respective regulations standards given each component type. Many components have also been approval-tested accordance with national international regulations. marks conformity quality assurance marks listed data sheets. Examples marks conformity:
Germany
Switzerland
DEMKO Denmark
SETI Finland
NEMKO Norway
SEMKO Sweden
Austria
Italy
Canada
Example quality assurance mark: CECC quality assurance mark future, capacitors, chokes filters will tested accordance with European standards 400, corresponding mark approval
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General Technical Information
Safety regulations
When selecting components particular case power line applications safety regulations applicable relevant equipment must observed. Please note following:
Capacitors connected between power lines ground capacitors) cause event
faults (interruption protective earth) person touches device ground capacitive leakage current flow between device ground person ground. This current must limited conducted ground such that event fault dangerous voltages occur accessible metal parts. individuals rules applicable respective equipment (product specifications) binding.
Capacitors only positions where failure form short-circuit would lead
danger electric shock capacitors) divided into subclasses corresponding peak voltages which they subjected addition power line voltage. selection criteria used defined rules applicable respective equipment (product specifications). Further information classification characteristics capacitors given chapter suppression capacitors. Electrical characteristics Rated voltage
rated voltage maximum voltage which continuously applied component temperatures between lower category temperature upper category temperature Tmax. Test voltage
test voltage voltage which applied component specified test duration course final inspection (100% line testing). This test repeated once incoming goods inspection test. Rated current
rated current current which component continuously operated under nominal operating conditions. components with lines, rated current specified simultaneous flow current this value through lines. four-line components (e.g. filters with three lines neutral) values currents four conductors must exceed three times rated current. During operation, higher thermal loads caused waveforms which deviate from pure sine wave. Where necessary, such cases must taken into consideration. Overcurrent
rated current exceeded briefly. Details permissible currents load duration obtained upon request.
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General Technical Information
Pulse handling capability
Saturation effects (e.g ferrite cores used) occur when high-energy pulses applied components these lead impaired interference suppression. maximum permissible voltage-time integral area used characterize pulse handling capability chokes filters. standard components range from assumed. More specific data obtained upon request. Current derating op/I
ambient temperatures above operating temperature stated data sheet, operating current chokes filters must reduced according derating curve. Rated inductance
rated inductance inductance which been used designate choke, measured frequency Stray inductance
stray inductance (also termed leakage inductance) inductance measured through both coils when current-compensated choke short-circuited end. This affects symmetrical interference.
Fig.
Stray inductance
Inductance decrease
inductance decrease L/L0 drop inductance given current relative initial inductance measured zero current. data sheets specify this percentage. This decrease caused magnetization core material, which function field strength, induced operating current. Generally decrease less than
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General Technical Information
6.10
resistance Rtyp Rmin Rmax
resistance resistance line measured using direct current temperature whereby measuring current must kept well below rated current.
Rtyp Rmin Rmax
typical value minimum value maximum value Winding capacitance, parasitic capacitance
Parasitic capacitances (CP), which impair characteristics components, related component geometry. These capacitances affect lines mutually (symmetrically) well line-to-ground circuit (asymmetrically). design components supplied Components minimizes parasitic effects. this, these components have excellent interference supression characteristics right high frequencies. 6.12 Quality factor
quality factor quotient imaginary component impedance divided real component. 6.13 Measuring frequencies
frequency which quality factor choke specified. frequency which inductance choke determined.
6.14 Discharge resistor
Discharge resistors meant ensure that energy stored capacitors reduced levels within short period, that voltage equipment terminals drops below permissible maximum values.
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General Technical Information
6.15
Insertion loss
insertion loss criterium effectivity interference suppression components, measured using standardized measurement circuit (figure 10).
Reference measurement
Voltage
Insertion loss measurement
Fig.
Definition insertion loss
input terminals filter under test connected generator with impedance (usually output filter, voltage measured using selective voltmeter having same impedance insertion loss then calculated from quotient no-load generator voltage double filter output voltage 6.16 Leakage current
capacitors connected from line ground filters will lead current flowing protective earth protection class equipment when supply voltage applied. maximum permissible leakage current limited safety reasons specifed regulations applicable respecive equipment (product standards). filters, data sheets state maximum leakage current permissible case faults, i.e. open protective earth circuit, measured Vac,
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Measurement method (2-line filters):
Isolation transformer Filter Load
Line
Meter
Fig.
two-line filters, larger leakage currents measured when switch positions stated.
Measurement method (3-phase filters):
Isolation transformer Filter Load
Line
Meter
Fig.
filter leakage current added current flowing through circuit capacitances device give overall leakage current load.
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General Technical Information
Mechanical properties Potting (economy potting, complete potting)
distinguish between economy potting complete potting. Economy potting used core windings case windings core. This economical technique which enables single resin casting procedure used. Because this, most chokes supplied Components produced using this method. Complete potting only required when thermal conductitvity economy potting adequate customer special demands. Complete potting requires several process steps ensure complete embedding core windings. Economy potting Complete potting
Types winding
Components uses different types winding suit respective technical requirements: single-layer winding multilayer winding random winding different types winding lead different inductance characteristics, especially high frequencies.
Single-layer winding:
winding pitch equal greater than wire diameter. coil wound direction only. only capacitances (parasitic capacitances) those between turn next. comparison other types winding, this type winding leads lowest possible capacitances thus highest resonance frequencies.
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General Technical Information
Multi-layer winding:
winding pitch equal wire diameter. coil wound with several layers. This leads parasitic capacitances between layers addition turn-to-turn capacitances. comparison other types winding, this type leads highest capacitances thus lowest resonance frequencies.
Random winding:
winding pitch smaller than wire diameter. coil wound direction only. This method winding coil does permit final position turn predetermined exactly. cross section this type winding clearly shows disorderly, "random" arrangement turns. This leads parasitic capacitances being only minimally greater than those achieved singlelayer winding, resonance frequencies equal those achieved single-layer winding.
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characteristics various types winding
Figure shows relation between impedance frequency chokes equal inductance. chokes two-layer winding other randomly wound. choke with random windings considerably higher first resonance frequency. spurious resonances very much higher than MHz. impedance frequencies above first resonance frequency approximately five times higher. This leads better interference suppression high frequencies.
2-layer wdg. Random wdg.
Fig.
Impedance versus frequency comparison between two-layer winding random winding
characteristics chokes supplied Components within specifications reproducible, winding processes which have developed single-layer, multi-layer random winding ensure that characteristics inductors produced display very little variation. reproducibility electrical characteristics chokes mainly determined production technique used. Components, coils wound mainly automatic machines (either fully semi-automated). This permits even complicated winding patterns produced large production runs with very little variation product characteristics. figure impedance curves several chokes, some wound manually some machine, shown comparison. With random winding used this comparison, advantages machine winding clearly noticeable.
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Manually wound Machine wound
Fig.
Impedance versus frequency Reproducibility scatter achieved manual machine winding techniques.
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Climatic characteristics Upper lower category temperature Tmin
upper category temperature Tmax lower category temperature Tmin defined highest lowest permissible ambient temperatures, respectively, which component operated continuously. Rated temperature
rated temperature defined highest ambient temperature which component operated under nominal conditions. Reference temperature measurements
According 68-1, Section temperature specified reference temperature electrical measurements, unless data sheets specifically define other values. climatic category
Appendix defines method specifying climatic category three groups numbers delimited slash characters. Example: days group numbers: Absolute value lower category temperature Tmin test temperature test (cold) accordance with 68-2-1 group numbers: Upper category temperature Tmax test temperature test (dry heat) accordance with -2-2 test duration: group numbers: Number days denoting test duration test (damp heat, steady-state) accordance with 68-2-3 rel. humidity ambient temperature 55/085/56
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Dangerous substances components
Dangerous substances defined German regulation "Gefahrstoffverordnung") only used production extent where state leaves alternative. Wherever possible, replace them materials with safe characteristics. Where this possible, special staff entrusted with environmental protection supervision noxious materials monitor strict adherence relevant laws regulations each factories. part these efforts manufacture products without using dangerous substances possible, guarantee components presented this data book that they contain following materials compounds: acryl nitrile aliphatic chlorinated organic componds arsenic compounds asbestos lead carbonate lead sulphide halogenated dioxines furanes cadmium chlorinated fluorocarbons (CFC). formaldehyde pentachlorophenol (PCB) polychlorinated biphenyles (PCB) polychlorinated perphenyles (PCT) mercury compounds creosote ugilec DBBT (PCB substitutes) organic compounds vinyl chloride
these used component manufacture.
Just feed-through capacitors filters impregnated with high-purity mineral oil. Materials other than added. impregnating agent stated technical data components concerned. packaging components generally suitable areas free pollutants. Full details available from sales offices. Disposal
light facts stated above topic dangerous substances, components presented this book disposed without problems. Most components will accepted respective electronic scrap recycling companies material recycling and/or thermal decompositon. course corresponding local regulations must observed.
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services laboratory
electrical equipment devices will generate electromagnetic interference (e.g. ignition sparks motor vehicles) which will affect other electrical equipment must therefore kept below specific limits. same time, electrical equipment devices subjected electromagnetic interference phenomena (e.g. interference impulses switching processes) which cause malfunctions. order able operate large number variety electrical devices simultaneously, protection-oriented objective "Electromagnetic compatibility" (EMC) must achieved. German European Directive make this objective mandatory. European national standards specify technical requirements equipment well related measuring testing methods. example, they specify mandatory limits interference emissions severity immunity tests. operate extensively equipped laboratory Regensburg support customers solving interference problems carrying fundamental research component applications. this lab, most economical interference suppression circuits devices, plant machinery determined, that legally binding recommended limit values complied with. 11.1 Qualification
Components laboratory Regensburg qualified accordance with 45001 member Stelle Siemens (ZFE Erlangen). Certification accordance with guidelines "Deutsche Akkreditierungsrat" (DAR German certification commission) carried October 1994. comprehensive equipment laboratory (e.g. measuring equipment, test generators, anechoic chamber), many years experience entire field (first anechoic chamber Europe, 1983) active co-operation national international standardization bodies excellent foundation ability meet customers' demands. test record which compiled after successful conclusion tests recognized proof conformity with current standards regulations, which prerequisite applying mark device. development production components ensure that required interference suppression circuits implemented within short period. comprehensive stock capacitors, chokes, filters accessories directly available site. course devices, equipment information entrusted different customers will treated with absolute discretion. 11.2 Services offered
Components' laboratory Regensburg assist electrical equipment manufacturers from design stage right market launch providing following services:
Advisory training services accompanying development phase:
testing working development models Recommendation protection measures such shielding, grounding, earthing components (capacitors, chokes filters) customer-specific solutions organisation measures
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testing prototypes:
testing equipment produced manufacturing methods (preliminary pilot series, prototypes) recommendations measures, above
tests enable declaration conformity made mark:
test report only lists results, recommendations suggestions laboratory certified (DATech) member Stelle" Siemens this responsible body called upon short notice, necessary
Stelle" (competent body): needed case deviations from existing standards lack applicable product standards reasons required exceptions during tests
Field tests:
equipment power supply 440/250V power line equipment (plant) cannot transported transport expensive environment permits on-site testing Apart from offering services laboratory, Components also offers direct cooperation development engineers equipment manufacturer's premises. necessary, standard components adapted customers' requirements, that customer-specific solutions available very short notice. development engineers have comprehensive know-how entire field many years experience component applications. close co-operation equipment manufacturer Components will achieve optimum economical solutions very quickly.
development engineers' services customers' premises:
assistance locating interference sources samples interference suppression tests specifically provided case hand, engineer brings along "experimental material" optimum solutions found quickly customer-specific components developed faster
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11.3
Equipment
laboratory anechoic chamber with reflective groundplane (floor) field strength measurements according corresponding measurement regulations measuring distances shielded enclosures with three measuring stations provided investigating conducted interference. Special facilities, such large doors, exhaust fans, power supply electrical mechanical loads enable even very voluminous high-powered equipment systems tested here. basis solutions reduction conducted interference which comprises interference voltages currents along cables connected equipment under test. Three measuring stations enable several devices tested simultaneously. measuring stations located shielded cabins eliminate possibility interference outside sources. order have measuring testing equipment accurate reproducible measurements available times, respective equipment calibrated once year regularly checked against comparative standards. Each three measuring stations used with measuring equipment with central automated measuring set-up. results documented using plotters and/or laser printers. high frequencies, parts equipment under test will antennae interference emitted electromagnetic waves. anechoic chamber guarantees test environment that free external interference which extermely interference field strengths detected very large test field strengths permitted. walls ceiling anechoic chamber partially lined with shaft absorbers create reflection-free measuring environment. Fields V/mat distance generated immunity tests. Depending measurement task, additional mobile absorbers installed wall floor absorbers. chamber also suitable testing larger objects, e.g. systems motor vehicles. turntable with diameter load-bearing capacity approximately tonnes. turntable antenna mast remote-controlled also controlled measuring computers. laboratory able carry tests accordance with almost valid national international standards. table section "EMC requirements legislation" page only lists most important standards (product measurement regulations). course carry tests accordance with other corresponding regulations. laboratory Regensburg tests measures (but exclusively):
equipment accordance with generic standards residential industrial areas household appliances similar electrical equipment measuring control systems industrial process control electrical production machinery systems Information processing telecommunications systems equipment television radio receivers installations equipment electrical power generation electric railways motor vehicles Namur recommendations (chemical industry) standards standards (defense equipment) regulations.
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further information, refer brochure "EMC laboratory Regensburg", ordering code: B450-P503-X-X-7400
Antenna Measuring equipment Preparation workshop Anechoic chamber Test enclosure Automated test station Equipment under test
Fig.
Layout Regensburg laboratory
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Siemens Matsushita GmbH 93049 Regensburg
SSB1061
Fig.
Certificate Regensburg laboratory
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COMPONENTS
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Applications with future
your ideas motion
When comes implementing ideas, couldn't choose better partner. flexibility turns standard products into ones with right features. Whether capacitors converter filters wind-driven power plants, ferrite antennas radio wrist-watches filters widescreen generation. you've application, we've component.
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Quality Assurance
General
Quality Assurance
high demands made world market quality products services supplied have made thorough global quality assurance system indispensible. quality assurance system enforced components division certified accordance with 9001. based quality directives binding company levels departments. described quality assurance manual takes into consideration: national international standards (DIN, CECC, IEC), specifications harmonized with customers' requirements, performance goals. Total Quality Management Zero Defect Concept
strategic Total Quality Management (TQM) satisfy demands made customers products services terms function, quality, punctuality price/performance ratios. Working principle "quality right from very start", instances persons Components involved implementing this aim. Systematic planning, careful selection suppliers sure mastery design manufacturing processes major factors guaranteeing constant high quality standard. Internal quality promotion measures, such training, quality groups, quality assurance circles audits reinforce feeling responsibility each employee, helping them realize significance defects thus avoid them. Modern quality tools such FMEA, Zero-Defect Programs with CEDAC1) diagrams supplement support measures quality assurance enhancement.
FMEA CEDAC
Failure Mode Effects Analyses Statistical Process Control Cause Effect Diagram with Addition Cards
Siemens Matsushita Components
Quality Assurance
Quality assurance system
Internal Quality Promotion Measures
promotion Quality group programs activities International national standards regulations pertaining quality assurance systems according Basic circles, audits experience further training interchange lectures Internal rules guidelines quality assurance
Quality Assurance System
Quality principles Quality directives Quality directives business division
Special quality demands made
Product planning
Acquisition
Development
Procurement
Production
Inspection Testing
Storage Product Despatch applications
Quality assurance measures creation product Global tasks
Quality cost assessment Quality planning Documentation Quality reporting Quality promotion
Siemens Matsushita Components
Quality Assurance
Quality assurance procedure
quality department examines components approves them production according following criteria: compliance with type specifications, process capability available production equipment, test engineering. entire production process from procurement parts materials, through fabrication process final inspection accompanied quality assurance measures. flow chart (refer section shows quality inspections stipulated each individual step. Material procurement
high quality parts materials required manufacture high-grade products attained through close cooperation with suppliers. Focal aspects these quality assurance measures choice qualification suppliers, harmonization specifications, incoming-goods inspection, quality assessment problem management. Product quality assurance
essential manufacturing processes subjected permanent monitoring. Critical parameters, particular, subjected statistical process control (SPC). So-called gates" planned into manufacturing process, i.e. there inspection release corresponding step. permanent monitoring evaluation test results used assess procedures determine well processes mastered. Final inspection
components subjected specification-based final inspection. essential electrical physical parameters, well finish, checked. Product monitoring
quality assurance department periodically carries tests random samples taken from current production lots check ability survive certain climatic conditions, operational reliability, solderability resistance soldering heat accordance with DIN, CECC specifications.
Siemens Matsushita Components
Quality Assurance
Manufacturing quality assurance procedures
Example: chokes, versions, series SIMID SIMID
Production flow
Incoming goods gate Mounting cores carrier tape gate Winding Check setting values windings Check setting values, welding strength 100% test resistance gate Injection molding Check setting values, Visual inspection Visual inspection Check strength dimensions
Quality assurance
Inspection material parts
Production
Welding wire terminals
Marking
Separation, bending terminal strips 100% inspection electrical parameters Testing final inspection gate Visual inspection, taping packaging Sampling conformity tests gate Stocks
Visual inspection, random sampling dimensions Check automatic testers settings
Check packages (markings, contents, date code) Random sampling electrical mechanical faults
Approval quality control team
Despatch
Identity check
Siemens Matsushita Components
Quality Assurance
Example: chokes with axial/radial leads
Production flow
Incoming goods gate Wiring cores gate Winding Production
Quality assurance
Inspection material parts
Check tensile strength body dimensions
Check setting values Continuous monitoring wave solder bath
Soldering
Gluing, curing adhesive
Test
Base lacquer coating gate lacquer coating, color coding
lead tensile strength, soldering quality, solder wetting, body size, inductance
Check setting values, finish color coding Check automatic testers settings gate
Testing final inspection
100% inspection electrical parameters visual inspection
Taping packaging
Check packages (marking, content, date code) Random sampling electrical mechanical defects/packaging gate
Sampling conformity tests
Stocks
Approval quality control team
Despatch
Identity check
Siemens Matsushita Components
Quality Assurance
Example: Ring core chokes
Production flow
Incoming goods
Quality assurance
Inspection material parts
gate Check setting values, winding assembly quality
Winding cores, assembly Production
Potting, resin curing
Check potting quality resin curing
Soldering, marking
Check soldering quality markings
100% inspection electrical parameters Testing final inspection
Check automatic testers settings
gate Check packages (markings, contents, date code)
Visual inspection packaging
Sampling conformity tests
Random sampling electrical mechanical defects packaging gate
Stocks
Approval quality control team
Despatch
Identity check
Siemens Matsushita Components
Quality Assurance
Example: Power line filters, series SIFI
Production flow
Incoming goods gate Welding ground case gate Component insertion board
Quality assurance
Inspection material parts
Check welding strength
Visual inspection assembly wiring arrangement
Production
Wave soldering
Check soldering quality
Mounting board case gate Potting
Visual inspection Release potting
Check potting quality curing resin Visual inspection welds marking Check automatic testers setting values gate
Welding cover marking 100% inspection electrical parameters Testing final inspection
Visual inspection packaging
Check packages (markings, contents, date code) Random sampling electrical mechanical defects/packaging gate
Sampling conformity tests
Stocks
Approval quality control team
Despatch
Identity check
Siemens Matsushita Components
Quality Assurance
Example: suppression capacitors
Production flow Incoming goods gate Winding Check setting data winding precision (SPC) Quality assurance materials parts inspection
Pressing
Check setting data
Masking
Check setting data
Capacitor production
Metal spraying
Check setting data layer thickness (SPC)
Mask removal
WInding check
Tempering
Temperature check
Regeneration gate Welding terminals, encapsulation case sealing gate 100% inspection electrical parameters, marking
Check setting data
Lead tensile strength (SPC), supervision sealing curing tests Check testing equipment, setting data markings Mechanical properties (random sampling, lots) gate
Testing final inspection
Packaging
Packaging check (markings, contents, date)
Sampling conformity test gate Stocks
Daily random sampling
Approval quality control team
Despatch
Identity check
Siemens Matsushita Components
Quality Assurance
Delivery quality
term "delivery quality" used indicate conformance with mutually agreed specifications time delivery. Random sampling
(AQL acceptable quality level) figures given section based random sample inspection specification 2859 single sampling plan normal inspection, inspection level contents this standard correspond STD105 410. sampling instructions this standard such that delivered will accepted with probability percentage defects does exceed stated figure. rule, percentage defects deliveries from Components significantly below figure. acceptance figure apply inoperatives, i.e. unusable components Classification defects
defect exists component characteristic fails meet data sheet specifications agreed delivery specification. distinction made between inoperatives (totally unusable components) other defectives. Inoperatives: short circuit open circuit breakage case, terminals coating wrong missing identification rated capacitance, rated voltage, rated inductance, rated current part number mixing with other component types Other defectives: defects electrical characteristics (electrical characteristics outside specified limits) defects mechanical properties, e.g. wrong dimensions, damaged case, illegible marking, bent terminals. figures
following figures apply defects listed above: Capacitors, Chokes 0.065 0.25 0.25 Filters 0.25
inoperatives (electrical mechanical) electrical defectives mechanical defectives Incoming goods inspection
recommend random sampling plan according 2859-1 (the contents correspond 410). customer supplier should mutually agree upon test engineering that used.
Siemens Matsushita Components
Quality Assurance
following details required judging possible claims: test circuit, sample size, number defectives found, sample defectives, packing slip. Single sampling plan normal inspection inspection level Excerpt from 2859 Sampling plan size 0,065 200-0 200-0 200-0 200-0 200-0 200-0 800-1 800-1 1250-2 0,10 bzw. 125-0 125-0 125-0 125-0 125-0 125-0 500-1 500-1 800-2 1250-3 0,15 80-0 80-0 80-0 80-0 80-0 80-0 315-1 315-1 500-2 800-3 1250-5 0,25 50-0 50-0 50-0 50-0 50-0 200-1 200-1 315-2 500-3 800-5 1250-7
Columns
Left-hand figure sample size Right-hand figure acceptable defects Defect classification: refer section Service life
This defined time takes until given fraction failure attained. fraction failure ratio number failures total number inspected components respective type. service life depends operating conditions, i.e. electrical thermal loads which component subjected. service life data determined carrying endurance tests over extended periods some cases under more severe conditions (temperature, voltage, current) well from experience gathered actual applications. Failure criteria
Generally, limit values specified corresponding applicable standards will apply. Operating conditions
ambient temperature, direct current loads inherent heating caused alternating current loads have decisive effect service life usability components.
Siemens Matsushita Components
Quality Assurance
Reliability
Data long-term reliability under severe moderate operating conditions gained from endurance tests which carried periodically. data based failures registered components under defined load, long-term reliability individual types tested based confidence level reliability data result from very large numbers component testing hours. Failure rate (long-term failure rate)
failure rate defined fraction failure divided specified operating period. failure rate expressed (failures component test hours) percentage failure 1000 hours. 10-9 failures/h (fit failure time) Example failure rate test determined service life test: Number components tested Operating hours (duration test) Number failures
%/1000h. 8000 25000 When failure rate values stated, corresponding failure criteria operating ambient conditions must also given. failure rate components, when plotted against time, shows following characteristic curve with three periods early failure period, service period, III: wear-out failure period
Period which early failures occur Period which failures wear increase
Period which failure rate constant
Unless otherwise specified, given failure rate refers service period (phase II). During phase approximately constant failure rate assumed.
Siemens Matsushita Components
Quality Assurance
Failure rate values Failure rate Reference conditions
Product Surface-mount chokes (SIMID 02-100, 02-T chokes with wire leads (MCC, SBC, HBC, HLBC) Ring core chokes Surface-mount data line chokes Supplementary information
Rated current, ambient temperatures
specification quality data which refers fairly large number components does constitute guarantee characteristics properties legal sense. However, agreement these specifications does mean that customer claim replacement individual defective components within terms delivery. Components cannot, however, assume further liability beyond replacement defective components. This applies particular further consequences component failure. Furthermore, must taken into consideration that figures stated service life failure rate refer average production status therefore understood mean values (statistical expectations) large number delivery lots identical components. These figures based application experience data obtained from preceding tests under normal conditions purposes accelerated aging, more severe conditions. Handling claims complaints
main quality assurance system prevent defects occurring. following details will help respond quickly complaints which need make: description fault when fault detected operating conditions length operation before fault occurred transport damage occurred, please describe detail and, possible, mark that distinguished from other damage that occur when articles returned. original packaging should also examined damage discovered should described. avoid further damage, wherever possible, original packaging return articles being claimed for. When handling capacitors, please note: Capacitors still contain dangerous remnant charges. avoid injury, never touch terminals! Before packing capacitors, short-circuit terminals with permanent means bridging them.
Siemens Matsushita Components
Chokes
General chokes interference suppression chokes particularly small size. following versions available: SMDs Leaded, lacquer-coated With insulating sleeve SIMID series HLBC series chokes Page Page Page
Chokes
chokes needed low-frequency high-frequency decoupling signal control circuits, filtering supply voltages, filters other applications where electromagnetic compatibility (EMC) ensured. Preferred fields application include: Household appliances Entertainment electronics Personal computers Automotive electronics Antenna systems Telecommunications Remote control systems
chokes especially suitable line-voltage-related applications because their insulating sleeve. cases where additional insulation required, however, perfectly safe connect chokes SIMID series lacquer-coated chokes mains lines. Series connections several chokes different self-resonance frequencies recommended bcause frequency range between self-resonance frequencies chokes will have inductive impedance, other capacitive impedance.
Siemens Matsushita Components
COMPONENTS
Siemens Matsushita Components
Quality without compromises
with
We're satisfied until are. quality demands quite tough. they don't start production, they span whole field from development despatch. watch over implemented Total Quality Management, system aimed continuous improvement everything. That includes true-toschedule delivery service readiness, 9000 plants, modern commitment environment manufacturing, materials packing plus constant training employees. embedded top, worldwide quality campaign Siemens organization.
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Customer
Production
Controlling
Analysis
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Continuous improvement process
More about "top with TQM" this brochure!
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dependable, fast competent
Chokes SIMID Series
Selector guide chokes Size (EIA standard)) 0805 Series
Features
Type
Page
SIMID 0,010
Encapsulated High resonance frequency High factor Encapsulated High resonance frequency High factor
B82498 B82494
1008
SIMID 0,22
1210
SIMID 0,010
Without encapsulation B82412 Very high resonance frequency
1210
SIMID 0,0082
1210
SIMID 02-100
0,0082
1210
SIMID 02-T
0,010
1812
SIMID 1000
Encapsulated Silver-plated terminals Different measuring frequencies inductance factor Encapsulated Tinned terminals Different measuring frequencies inductance factor Encapsulated Tinned terminals Same measuring frequency inductance factor Encapsulated High current handling capability
B82422
B82422-A****-+100
B82422-T
B82432
2220
SIMID 10000
1800
Encapsulated Very high current handling capability
B82442
Siemens Matsushita Components
Chokes SIMID Series
General technical data Rated inductance Measured frequency with impedance analyzer 4194A SIMID measured with 4191A Measured frequeny with impedance analyzer 4191A 4194A Maximum permissible with inductance decrease and/or temperature increase rated temperature (see derating curves data sheets) Measured with network analyzer 8783D Measured ambient temperature, measuring current accordance with 68-1 SIMID through SIMID 55/125/56 °C/+ °C/56 days damp heat test) SIMID 55/85/56 °C/+ °C/56 days damp heat test) SIMID 20/85/56 °C/+ °C/56 days damp heat test) (215 0,3) Wetting soldering area: SIMID (silver-plated) SIMID 02-100, 02-T, (tinned) (230 0,5) Wetting soldering area: SIMID (tinned) accordance with 68-2-20, test (100 long standard PCB) SIMID through SIMID SIMID accordance with 286-3 SIMID SIMID accordance with EIA-481, details taping page 433.
factor
Rated current
Self-resonance frequency res, resistance Rmax Rtyp Climatic category
Solderability
Resistance soldering heat Permissible bending Taping
Siemens Matsushita Components
Chokes SIMID Series
Preliminary data SIMID (Siemens Miniature Inductors) Rated inductance 1000 Rated current 0,12 0,54 Construction
Size standard: 0805 Core: liquid crystal polymer (LCP) Molded epoxy encapsulation Winding: enamel copper wire, soldered Temperature index wire enamel:
B82498
Features
High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Same measuring frequency
Applications
Antenna amplifiers Video cameras Mobile phones
Terminals
Tinned Base material: phosphor bronze Suitable soldering conductive adhesion leaching during wave soldering
Marking Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 8-mm blister tape wound 180-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID Series
B82498
Outline drawing size 0805, approx. weight
layout recommendation
Dimensions (mm)
Siemens Matsushita Components
Chokes SIMID Series
B82498
Characteristics ordering codes further technical data page
1000
Tolerance
25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 7,96
Rtyp 0,15 0,20 0,20 0,24 0,24 0,29 0,28 0,33 0,38 0,43 0,42 0,53 0,58 0,74 1,12 1,23 1,41 1,50 1,67 1,74 1,97 2,07 2,32 2,60 2,98
res, 2500 2500 2500 2000 2000 1800 1500 1500 1000 1000
Ordering code1) B82498-A3100-K B82498-A3120-K B82498-A3150-K B82498-A3180-K B82498-A3220-K B82498-A3270-K B82498-A3330-+ B82498-A3390-+ B82498-A3470-+ B82498-A3560-+ B82498-A3680-+ B82498-A3820-+ B82498-A3101-+ B82498-A3121-+ B82498-A3151-+ B82498-A3181-+ B82498-A3221-+ B82498-A3271-+ B82498-A3331-+ B82498-A3391-+ B82498-A3471-+ B82498-A3561-+ B82498-A3681-+ B82498-A3821-+ B82498-A3102-+
Replace code letter required inductance tolerance
Siemens Matsushita Components
Chokes SIMID Series
B82494
SIMID (Siemens Miniature Inductors) Rated inductance 0,22 Rated current 0,01 0,19 Construction
Size standard: 1008 Ferrite core Molded epoxy encapsulation,
types shielded
Soldered winding Temperature index wire enamel:
Features
High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Same measuring frequency
Applications
Filtering supply voltages,
coupling, decoupling
Antenna systems Automotive electronics Telecommunications
Terminals
Tinned Base material: phosphor bronze, SnPb Suitable soldering conductive adhesion leaching during wave soldering
Marking Marking component: value tolerance value (coded) Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 8-mm blister tape wound 180-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID Series
B82494
Outline drawing size 1008, approx. weight
Marking
SSB0702-5
layout recommendation
Dimensions (mm) Wave soldering Reflow soldering
1,25 1,05
Soldering area, tinned
Siemens Matsushita Components
Chokes SIMID Series
B82494
Characteristics ordering codes further technical data page
µH1) 0,22 0,27 0,33 0,39 0,47 0,56 0,68 0,82
Tolerance2)
MHz3) 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96
Rmax 0,70 0,75 0,85 0,95 1,00 1,10 1,25 1,40 0,65 0,75 0,85 0,95 1,05 1,20 1,30 1,40 1,55 1,75 1,95 2,20
res,
Ordering code B82494-A1221-M B82494-A1271-M B82494-A1331-M B82494-A1391-M B82494-A1471-M B82494-A1561-M B82494-A1681-M B82494-A1821-M B82494-A1102-M B82494-A1122-M B82494-A1152-M B82494-A1182-M B82494-A1222-M B82494-A1272-M B82494-A1332-M B82494-A1392-M B82494-A1472-M B82494-A1562-M B82494-A1682-M B82494-A1822-M
Frequency voltage measuring same measuring Vrms 0,01 Closer tolerances upon request Measuring voltage Vrms
Siemens Matsushita Components
Chokes SIMID Series
B82494
Characteristics ordering codes further technical data page
µH1)
Tolerance2)
MHz3) 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 0,796
Rmax
res,
Ordering code B82494-A1103-K B82494-A1123-K B82494-A1153-K B82494-A1183-K B82494-A1223-K B82494-G1273-K B82494-G1333-K B82494-G1393-K B82494-G1473-K B82494-G1563-K B82494-G1683-K B82494-G1823-K B82494-G1104-K
Frequency voltage measuring same measuring Vrms 0,01 Closer tolerances upon request Measuring voltage Vrms
Siemens Matsushita Components
Chokes SIMID Series
B82494
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4191A 4194A
Current derating versus ambient temperature (Rated temperature
Siemens Matsushita Components
Chokes SIMID Series
B82412
SIMID (Siemens Miniature Inductors) Rated inductance 0,010 Rated current 0,09 Construction
Size standard: 1210 Ceramic ferrite core Single-layer winding, US-welded,
without encapsulation
Temperature index wire enamel:
Features
High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Different measuring frequencies
Applications
Filtering supply voltages,
coupling, decoupling
Antenna systems Automotive electronics Telecommunications
Terminals
Silver-plated Base material: CuSn6, Suitable soldering conductive adhesion leaching during wave soldering
Marking Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 8-mm blister tape wound 180-mm 330-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID Series
B82412
Outline drawing size 1210, approx. weight
layout recommendation
Dimensions (mm) Wave soldering Reflow soldering
1,60 1,15
Soldering area, silver-plated
Siemens Matsushita Components
Chokes SIMID Series
B82412
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ceramics 0,010 0,012 0,015 0,018 0,022 0,027 0,033 0,039 0,047 0,056 0,068 0,082 0,10 0,12 0,15 0,18 0,22 0,27 0,33 0,39 0,47 0,56 0,68 0,82
Rmax
0,10 0,10 0,12 0,12 0,12 0,15 0,17 0,18 0,22 0,23 0,25 0,27 0,30 0,35 0,36 0,42 0,48 0,55 0,65 0,75 1,00 1,20 1,40 2,00
res,
2000 2000 2000 2000 2000 2000 2000 1600 1600 1400 1350 1000 1000
Ordering code2) (180-mm reel) B82412-A3100-M B82412-A3120-M B82412-A3150-M B82412-A3180-M B82412-A3220-+ B82412-A3270-+ B82412-A3330-+ B82412-A3390-+ B82412-A3470-+ B82412-A3560-+ B82412-A3680-+ B82412-A3820-+ B82412-A3101-+ B82412-A3121-+ B82412-A3151-+ B82412-A3181-+ B82412-A3221-+ B82412-A3271-+ B82412-A3331-+ B82412-A3391-+ B82412-A3471-+ B82412-A3561-+ B82412-A3681-+ B82412-A3821-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82412-A3100-M8
Siemens Matsushita Components
Chokes SIMID Series
B82412
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ferrite
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96
Rmax
0,45 0,50 0,55 0,60 0,65 1,05 1,10 1,35 1,80 2,70 3,50 3,80 5,50
res,
Ordering code2) (180-mm reel) B82412-A1102-+ B82412-A1122-+ B82412-A1152-+ B82412-A1182-+ B82412-A1222-+ B82412-A1272-+ B82412-A1332-+ B82412-A1392-+ B82412-A1472-+ B82412-A1562-+ B82412-A1682-+ B82412-A1822-+ B82412-A1103-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82412-A1102-K8
Siemens Matsushita Components
Chokes SIMID Series
B82412
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4191A 4194A
Current derating versus ambient temperature (Rated temperature
Siemens Matsushita Components
Chokes SIMID Series
B82422
SIMID (Siemens Miniature Inductors) Rated inductance 0,0082 Rated current 0,065 Construction
Size standard: 1210 Ceramic ferrite core Winding US-welded, flame-retardant encapsulation Temperature index wire enamel:
Features
High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Different measuring frequencies
Applications
Filtering supply voltages,
coupling, decoupling
Antenna systems Automotive electronics Telecommunications
Terminals
Silver-plated Base material: CuSn6, Suitable soldering conductive adhesion leaching during wave soldering
Marking Marking component: Manufacturer, value tolerance value (coded), date manufacture (coded) Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 8-mm blister tape wound 180-mm 330-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID Series
B82422
Outline drawing size 1210, approx. weight
Marking
layout recommendation
Dimensions (mm) Wave soldering Reflow soldering
1,15
Soldering area, silver-plated
Siemens Matsushita Components
Chokes SIMID Series
B82422
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ceramics 0,0082 0,010 0,012 0,015 0,018 0,022 0,027 0,033 0,039 0,047 0,056 0,068 0,082 0,10 0,12 0,15 0,18 0,22 0,27 0,33 0,39 0,47 0,56 0,68 0,82
Rmax
0,10 0,10 0,10 0,12 0,12 0,15 0,15 0,19 0,19 0,21 0,23 0,26 0,29 0,30 0,33 0,38 0,42 0,64 0,76 1,20 1,50 2,20 2,40 2,70 3,00
res,
2000 2000 2000 2000 2000 2000 1900 1900 1450 1350 1300 1250 1150 1000
Ordering code2) (180-mm reel) B82422-A3829-M B82422-A3100-+ B82422-A3120-+ B82422-A3150-+ B82422-A3180-+ B82422-A3220-+ B82422-A3270-+ B82422-A3330-+ B82422-A3390-+ B82422-A3470-+ B82422-A3560-+ B82422-A3680-+ B82422-A3820-+ B82422-A3101-+ B82422-A3121-+ B82422-A3151-+ B82422-A3181-+ B82422-A3221-+ B82422-A3271-+ B82422-A3331-+ B82422-A3391-+ B82422-A3471-+ B82422-A3561-+ B82422-A3681-+ B82422-A3821-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82422-A3100-K8
Siemens Matsushita Components
Chokes SIMID Series
B82422
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ferrite
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52
Rmax
0,34 0,37 0,42 0,60 0,75 0,88 1,20 1,65 2,20 2,60 2,80 3,00 1,60 1,65 1,85 2,00 2,50 3,70 4,40 6,30 7,00 6,75 7,70 10,0 11,5
res,
18,5 17,5 15,5 14,0 12,0 11,5
Ordering code2) (180-mm reel) B82422-A1102-+ B82422-A1122-+ B82422-A1152-+ B82422-A1182-+ B82422-A1222-+ B82422-A1272-+ B82422-A1332-+ B82422-A1392-+ B82422-A1472-+ B82422-A1562-+ B82422-A1682-+ B82422-A1822-+ B82422-A1103-+ B82422-A1123-+ B82422-A1153-+ B82422-A1183-+ B82422-A1223-+ B82422-A1273-+ B82422-A1333-+ B82422-A1393-+ B82422-A1473-+ B82422-A1563-+ B82422-A1683-+ B82422-A1823-+ B82422-A1104-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82422-A1102-K8
Siemens Matsushita Components
Chokes SIMID Series
B82422
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4191A 4194A
Current derating versus ambient temperature (Rated temperature
Siemens Matsushita Components
Chokes SIMID 02-100 Series
B82422-A****-+100
SIMID 02-100 (Siemens Miniature Inductors) European standard Rated inductance 0,0082 Rated current 0,065 Construction
Size standard: 1210 Ceramic ferrite core Winding laser-welded, flame-retardant encapsulation Temperature index wire enamel:
Features
High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Different measuring frequencies
Applications
Filtering supply voltages,
coupling, decoupling
Antenna systems Automotive electronics Telecommunications
Terminals
Tinned Base material: CuSn6, 0,1µm Suitable soldering conductive adhesion leaching during wave soldering
Marking Marking component: Manufacturer, value tolerance value (coded), date manufacture (coded) Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 8-mm blister tape wound 180-mm 330-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID 02-100 Series
B82422-A****-+100
Outline drawing size 1210, approx. weight
Marking
layout recommendation
Dimensions (mm) Wave soldering Reflow soldering
1,60 1,15
Soldering area, tinned
Siemens Matsushita Components
Chokes SIMID 02-100 Series
B82422-A****-+100
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ceramics 0,0082 0,010 0,012 0,015 0,018 0,022 0,027 0,033 0,039 0,047 0,056 0,068 0,082 0,10 0,12 0,15 0,18 0,22 0,27 0,33 0,39 0,47 0,56 0,68 0,82
Rmax
0,08 0,09 0,10 0,12 0,12 0,14 0,14 0,17 0,18 0,19 0,20 0,21 0,24 0,26 0,32 0,33 0,38 0,64 0,90
res,
2500 2500 2500 2500 2500 2500 1850 1700 1450 1350 1200 1150 1050 1000
Ordering code (180-mm reel) B82422-A3829-+100 B82422-A3100-+100 B82422-A3120-+100 B82422-A3150-+100 B82422-A3180-+100 B82422-A3220-+100 B82422-A3270-+100 B82422-A3330-+100 B82422-A3390-+100 B82422-A3470-+100 B82422-A3560-+100 B82422-A3680-+100 B82422-A3820-+100 B82422-A3101-+100 B82422-A3121-+100 B82422-A3151-+100 B82422-A3181-+100 B82422-A3221-+100 B82422-A3271-+100 B82422-A3331-+100 B82422-A3391-+100 B82422-A3471-+100 B82422-A3561-+100 B82422-A3681-+100 B82422-A3821-+100
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82422-A3829-K108
Siemens Matsushita Components
Chokes SIMID 02-100 Series
B82422-A****-+100
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ferrite
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52
Rmax
0,34 0,37 0,42 0,60 0,75 0,88 1,20 1,40 2,20 2,60 2,80 3,00 1,60 1,65 1,85 2,00 2,65 3,70 4,50 6,30 7,00 6,75 7,70 10,0 11,5
res,
Ordering code (180-mm reel) B82422-A1102-+100 B82422-A1122-+100 B82422-A1152-+100 B82422-A1182-+100 B82422-A1222-+100 B82422-A1272-+100 B82422-A1332-+100 B82422-A1392-+100 B82422-A1472-+100 B82422-A1562-+100 B82422-A1682-+100 B82422-A1822-+100 B82422-A1103-+100 B82422-A1123-+100 B82422-A1153-+100 B82422-A1183-+100 B82422-A1223-+100 B82422-A1273-+100 B82422-A1333-+100 B82422-A1393-+100 B82422-A1473-+100 B82422-A1563-+100 B82422-A1683-+100 B82422-A1823-+100 B82422-A1104-+100
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size insert code number "8". Example: B82422-A1102-K108
Siemens Matsushita Components
Chokes SIMID 02-100 Series
B82422-A****-+100
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4191A 4194A
Current derating versus ambient temperature (Rated temperature
Siemens Matsushita Components
Chokes SIMID 02-T Series
B82422-T
SIMID 02-T (Siemens Miniature Inductors) World standard Rated inductance 0,010 Rated current 0,04 0,45 Construction
Size standard: 1210 Ceramics ferrite core Winding laser-welded, flame-retardant encapsulation Temperature index wire enamel:
Features
High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Same measuring frequency
Applications
Filtering supply voltages,
coupling, decoupling
Antenna systems Automotive electronics Telecommunications
Terminals
Tinned Base material: CuSn6, 0,1µm Suitable soldering conductive adhesion leaching during wave soldering
Marking Marking component: Manufacturer, value tolerance value (coded), date manufacture (coded) Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 8-mm blister tape wound 180-mm 330-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID 02-T Series
B82422-T
Outline drawing size 1210, approx. weight
Marking
layout recommendation
Dimensions (mm) Wave soldering Reflow soldering
1,60 1,15
Soldering area, tinned
Siemens Matsushita Components
Chokes SIMID 02-T Series
B82422-T
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ceramics 0,010 0,012 0,015 0,018 0,022 0,027 0,033 0,039 0,047 0,056 0,068 0,082 0,10 Core material: ferrite 0,12 0,15 0,18 0,22 0,27 0,33 0,39 0,47 0,56 0,68 0,82
25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 7,96 7,96 7,96 7,96 7,96
Rmax
0,10 0,11 0,13 0,14 0,16 0,17 0,18 0,19 0,20 0,21 0,23 0,26 0,31 0,15 0,18 0,19 0,20 0,21 0,23 0,25 0,30 0,31 0,34 0,38
res, Ordering code2) (180-mm reel)
2500 2500 2500 2000 2000 1700 1700 1300 1300 1100 1000 1000 B82422-T3100-+ B82422-T3120-+ B82422-T3150-+ B82422-T3180-+ B82422-T3220-+ B82422-T3270-+ B82422-T3330-+ B82422-T3390-+ B82422-T3470-+ B82422-T3560-+ B82422-T3680-+ B82422-T3820-+ B82422-T3101-+ B82422-T1121-+ B82422-T1151-+ B82422-T1181-+ B82422-T1221-+ B82422-T1271-+ B82422-T1331-+ B82422-T1391-+ B82422-T1471-+ B82422-T1561-+ B82422-T1681-+ B82422-T1821-+ B82422-T1102-+ B82422-T1122-+ B82422-T1152-+ B82422-T1182-+ B82422-T1222-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82422-T3100-K8
Siemens Matsushita Components
Chokes SIMID 02-T Series
B82422-T
Characteristics ordering codes further technical data page
TolerµH ance1) Core material: ferrite
7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 0,796
Rmax
res, Ordering code2) (180-mm reel)
B82422-T1272-+ B82422-T1332-+ B82422-T1392-+ B82422-T1472-+ B82422-T1562-+ B82422-T1682-+ B82422-T1822-+ B82422-T1103-+ B82422-T1123-+ B82422-T1153-+ B82422-T1183-+ B82422-T1223-+ B82422-T1273-+ B82422-T1333-+ B82422-T1393-+ B82422-T1473-+ B82422-T1563-+ B82422-T1683-+ B82422-T1823-+ B82422-T1104-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance reel size append code number "8". Example: B82422-T1272-K8
Siemens Matsushita Components
Chokes SIMID 02-T Series
B82422-T
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4191A 4194A
Current derating versus ambient temperature (Rated temperature
Siemens Matsushita Components
Chokes SIMID Series
B82432
SIMID (Siemens Miniature Inductors) Rated inductance 1000 Rated current 0,055 Construction
Size standard: 1812 Ferrite core Winding US-welded, flame-retardant encapsulation Temperature index wire enamel:
Features
High current handling capability High factor High resonance frequency Suitable reflow vapor phase)
wave soldering
Different measuring frequencies
Applications
Filtering supply voltages,
coupling, decoupling
Antenna systems Automotive electronics Telecommunications
Terminals
Silver-plated Base material: CuSn6, Suitable soldering conductive adhesion leaching during wave soldering
Marking Marking component: Manufacturer, value tolerance value (coded), date manufacture (coded) Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 12-mm blister tape wound 330-mm reel details taping, packing packing units page 433.
Siemens Matsushita Components
Chokes SIMID Series
B82432
Outline drawing size 1812, approx. weight
Marking
layout recommendation
Dimensions (mm) Wave soldering Reflow soldering
Soldering area, silver-plated
Siemens Matsushita Components
Chokes SIMID Series
B82432
Characteristics ordering codes further technical data page
Tolerance1)
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 0,796 0,796 0,796 0,796
Rmax 0,28 0,32 0,35 0,41 0,43 0,49 0,55 0,59 0,65 0,71 0,78 0,92 0,98 1,10 1,25 1,35 1,45 1,65 1,85 2,05
res, 10,5 10,0
Ordering code2) B82432-A1102-+ B82432-A1122-+ B82432-A1152-+ B82432-A1182-+ B82432-A1222-+ B82432-A1272-+ B82432-A1332-+ B82432-A1392-+ B82432-A1472-+ B82432-A1562-+ B82432-A1682-+ B82432-A1822-+ B82432-A1103-+ B82432-A1123-+ B82432-A1153-+ B82432-A1183-+ B82432-A1223-+ B82432-A1273-+ B82432-A1333-+ B82432-A1393-+ B82432-A1473-+ B82432-A1563-+ B82432-A1683-+ B82432-A1823-+ B82432-A1104-+ B82432-A1124-+ B82432-A1154-+ B82432-A1184-+ B82432-A1224-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance
Siemens Matsushita Components
Chokes SIMID Series
B82432
Characteristics ordering codes further technical data page
1000
Tolerance1)
0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796
Rmax 12,5 14,1 15,3 17,5 23,0 25,0 28,0 32,0
res,
Ordering code2) B82432-A1274-+ B82432-A1334-+ B82432-A1394-+ B82432-A1474-+ B82432-A1564-+ B82432-A1684-+ B82432-A1824-+ B82432-A1105-+
Closer tolerances special versions upon request. Replace code letter required inductance tolerance
Siemens Matsushita Components
Chokes SIMID Series
B82432
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Current derating versus ambient temperature (Rated temperature
Siemens Matsushita Components
Chokes SIMID Series
Preliminary data SIMID (Siemens Miniature Inductors) Rated inductance 10000 Rated current 0,025 Construction
Size standard: 2220 Upright ferrite drum core Winding laser-welded, flame-retardant encapsulation Temperature index wire enamel:
B82422 B82442
Features
Very high current handling capability High inductance ratings Suitable reflow vapor phase)
wave soldering Applications
Filtering supply voltages,
coupling, decoupling
DC/DC converters Automotive electronics Telecommunications
Terminals
Tinned Base material: CuSn6, leaching during wave soldering
Marking Marking component: Manufacturer, date manufacture (coded) value tolerance value (coded), Minimum marking reel: Manufacturer, part number, ordering code, value tolerance value, quantity, date packing Delivery mode 12-mm blister tape wound 330-mm reel details taping, packing packing units page 433. Characteristics ordering code
Available from 1/97.
1800
Ordering code B82442-A1***-+
Siemens Matsushita Components
Chokes SIMID Series
B82442
Outline drawing size 2220, approx. weight
Marking
layout recommendation
Dimensions (mm) Wave/reflow soldering
Soldering area, tinned
Siemens Matsushita Components
Chokes HLBC Series
Selector guide leaded chokes Series
0,085 1,12
Dimensions (max.)
Min. lead Features Type Page spacing (mm) axial radial inductance ratings B78108-T High resonance frequency B78148-T total height Small size Relatively high rated current general-purpose application B82141
0,055 0,725 1000
0,055 4700
12,5
B78108-S B78148-S
0,85 0,02
12,5
Very high rated current Relatively small size Very wide inductance range High rated current Very high rated current High inductance ratings
B82143
12,0 100000
B82144
HLBC 0,11 0,86
10000
12,0
B82145
Siemens Matsushita Components
Chokes HLBC Series
General technical data Rated inductance Measuring frequency:L 4700 4700 Measuring current: Distance between measuring clamps:25,4 Measured with quality test set-up 4342A Maximum permissible referred ambient temperature, derating next page (referred initial value) ambient temperature Measured ambient temperature, distance between measuring clamps: 25,4 Measured with Scalar Network Analyzer from Rohde Schwarz accordance with 68-1 55/125/56 °C/+125 °C/56 days damp heat test) accordance with 68-2-20, test wetting accordance with 68-2-20, test accordance with 68-2-21, test
factor Rated current
Inductance decrease resistance Rmax Resonance frequency res, Climatic category Solderability Resistance soldering heat Tensile strength leads
Siemens Matsushita Components
Chokes HLBC Series
General technical data Current derating versus ambient temperature (Rated temperature
Mounting information When bending leads, take care that start-of-winding areas face ends (protected glue lacquer) subjected mechanical stress.
Siemens Matsushita Components
Chokes Series
B78108-T B78148-T
choke (Mini Cylinder Core) Rated current 0,08 Rated inductance Construction
Ceramic ferrite cylinder core Winding: enamel copper wire Flame-retardant lacquer coating
Features
total height inductance High resonance frequency
Applications
blocking Decoupling interference suppression antenna systems, automotive electronics,
telecommunications, entertainment electronics Terminals
Central axial leads, tinned Radially bent lead spacing
Marking Inductance indicated color bands accordance with Delivery mode Taped reeled details taping, packing packing units page 435. Outline drawing B78108-T (axial leads, taped) B78148-T (central radial leads, taped)
0,55 max.
max. 41099
lacquer-coated
Minimum lead spacing Approx. weight 0,25
Siemens Matsushita Components
Chokes Series
B78108-T B78148-T
Characteristics ordering codes further technical data page
TolerQ ance1 Ceramic cylinder core 0,10 0,12 0,15 0,18 0,22 0,27 0,33 0,39 0,47 0,56 0,68 0,82 Ferrite cylinder core
25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 25,2 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96
1120 1080 1020 1000
Rmax
0,13 0,145 0,155 0,17 0,195 0,215 0,24 0,27 0,315 0,34 0,48 0,55 0,25 0,25 0,30 0,30 0,35 0,40 0,50 0,55 0,65 1,30 1,45 1,60 1,70
res,
Ordering code2)
B781* 8-T3101-K B781* 8-T3121-K B781* 8-T3151-K B781* 8-T3181-K B781* 8-T3221-K B781* 8-T3271-K B781* 8-T3331-K B781* 8-T3391-K B781* 8-T3471-K B781* 8-T3561-K B781* 8-T3681-K B781* 8-T3821-K B781* 8-T1102-K B781* 8-T1122-K B781* 8-T1152-K B781* 8-T1182-K B781* 8-T1222-K B781* 8-T1272-K B781* 8-T1332-K B781* 8-T1392-K B781* 8-T1472-K B781* 8-T1562-K B781* 8-T1682-K B781* 8-T1822-K B781* 8-T1103-K
Closer tolerances upon request Replace asterisk code number axial taping radial taping
Siemens Matsushita Components
Chokes Series
B78108-T B78148-T
Characteristics ordering codes further technical data page
TolerµH ance1 Ferrite cylinder core
2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52
Rmax
2,40 2,70 2,90 3,20 3,60 4,10 4,50 8,50 8,80 10,0 11,5 12,5
res,
Ordering code2)
B781* 8-T1123-K B781* 8-T1153-K B781* 8-T1183-K B781* 8-T1223-K B781* 8-T1273-K B781* 8-T1333-K B781* 8-T1393-K B781* 8-T1473-K B781* 8-T1563-K B781* 8-T1683-K B781* 8-T1823-K B781* 8-T1104-K
Closer tolerances upon request Replace asterisk code number axial taping radial taping
Siemens Matsushita Components
Chokes Series
B78108-T B78148-T
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Siemens Matsushita Components
Chokes Series
B82141-A B82141-B
choke (Small Bobbin Core) Rated current 0,055 0,725 Rated inductance 1000 Construction
Mini ferrite drum core Winding: enamel copper wire Flame-retardant lacquer coating
Features
Small size Relatively high rated current
Applications
blocking filtering Decoupling interference suppression electronic household appliances,
automotive entertainment electronics Terminals
Central axial leads, tinned Radially bent lead spacing
Marking Inductance indicated color bands accordance with Delivery mode Taped reeled details taping, packing packing units page 435. Outline drawing B82141-A (axial leads, taped)
max. 41099 0,55 max.
B82141-B (central radial leads, taped)
lacquer-coated
Minimum lead spacing approx. weight 0,22
Siemens Matsushita Components
Chokes Series
B82141-A B82141-B
Characteristics ordering codes further technical data page
Tolerance1
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52
Rmax 0,19 0,20 0,22 0,23 0,25 0,27 0,30 0,32 0,36 0,38 0,43 0,52 0,60 0,67 0,74 0,81 0,90 1,00 1,12 1,21
res,
Ordering code2) B82141-+1102-K B82141-+1122-K B82141-+1152-K B82141-+1182-K B82141-+1222-K B82141-+1272-K B82141-+1332-K B82141-+1392-K B82141-+1472-K B82141-+1562-K B82141-+1682-K B82141-+1822-K B82141-+1103-K B82141-+1123-K B82141-+1153-K B82141-+1183-K B82141-+1223-K B82141-+1273-K B82141-+1333-K B82141-+1393-K
Closer tolerances upon request Replace code letter axial taping radial taping
Siemens Matsushita Components
Chokes Series
B82141-A B82141-B
Characteristics ordering codes further technical data page
1000
Tolerance1
2,52 2,52 2,52 2,52 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796
Rmax 2,40 2,60 2,90 3,20 3,50 3,80 4,30 5,30 5,80 7,80 9,10 11,0 12,0 16,5 22,0 25,0 33,0
res,
Ordering code2) B82141-+1473-J B82141-+1563-J B82141-+1683-J B82141-+1823-J B82141-+1104-J B82141-+1124-J B82141-+1154-J B82141-+1184-J B82141-+1224-J B82141-+1274-J B82141-+1334-J B82141-+1394-J B82141-+1474-J B82141-+1564-J B82141-+1684-J B82141-+1824-J B82141-+1105-J
Closer tolerances upon request Replace code letter axial taping radial taping
Siemens Matsushita Components
Chokes Series
B82141-A B82141-B
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Siemens Matsushita Components
Chokes Series
B78108-S B78148-S
choke (Bobbin Core) Rated current 0,055 Rated inductance 4700 Construction
Ferrite drum core Winding: enamel copper wire Flame-retardant lacquer coating
Features
Wide inductance range Suitable general-purpose application Special versions available
Applications
blocking filtering Decoupling interference suppression antenna systems, automotive electronics,
energy-saving lamps, entertainment electronics Terminals
Central axial leads, tinned Radially bent lead spacing
Marking Inductance indicated color bands accordance with Delivery mode Taped reeled details taping, packing packing units page 435. Outline drawing B78108-S (axial leads, taped)
max. 41099 0,7max.
B78148-S (central radial leads, taped)
lacquer-coated
Minimum lead spacing 12,5 Approx. weight 0,38
Siemens Matsushita Components
Chokes Series
B78108-S B78148-S
Characteristics ordering codes further technical data page
Tolerance1
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 2,52 2,52
1200 1150 1100 1030 1000
Rmax 0,16 0,18 0,20 0,22 0,25 0,26 0,29 0,31 0,34 0,38 0,51 0,48 0,49 0,55 0,60 0,67 0,74 0,83 0,92 1,02
res,
Ordering code2) B781*8-S1102-K B781*8-S1122-K B781*8-S1152-K B781*8-S1182-K B781*8-S1222-K B781*8-S1272-K B781*8-S1332-K B781*8-S1392-K B781*8-S1472-K B781*8-S1562-K B781*8-S1682-K B781*8-S1822-K B781*8-S1103-K B781*8-S1123-K B781*8-S1153-K B781*8-S1183-K B781*8-S1223-K B781*8-S1273-K B781*8-S1333-K B781*8-S1393-K
Closer tolerances upon request Replace asterisk code number axial taping radial taping
Siemens Matsushita Components
Chokes Series
B78108-S B78148-S
Characteristics ordering codes further technical data page
1000 1200 1500 1800 2200 2700 3300 3900 4700
Tolerance1
2,52 2,52 2,52 2,52 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,796 0,252 0,252 0,252 0,252 0,252 0,252 0,252 0,252 0,252
Rmax 1,10 1,23 1,35 1,54 1,70 2,40 2,80 3,00 3,30 5,70 6,40 7,00 7,90 8,80 10,0 12,0 14,0 17,5 23,0 26,0 34,7 40,0 59,5 66,0 78,0
res, 1,25
Ordering code2) B781*8-S1473-J B781*8-S1563-J B781*8-S1683-J B781*8-S1823-J B781*8-S1104-J B781*8-S1124-J B781*8-S1154-J B781*8-S1184-J B781*8-S1224-J B781*8-S1274-J B781*8-S1334-J B781*8-S1394-J B781*8-S1474-J B781*8-S1564-J B781*8-S1684-J B781*8-S1824-J B781*8-S1105-J B781*8-S1125-J B781*8-S1155-J B781*8-S1185-J B781*8-S1225-J B781*8-S1275-J B781*8-S1335-J B781*8-S1395-J B781*8-S1475-J
Closer tolerances upon request Replace asterisk code number axial taping radial taping
Siemens Matsushita Components
Chokes Series
B78108-S B78148-S
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Siemens Matsushita Components
Chokes Series
B82143-A B82143-B
choke (High-Current Bobbin Core) Rated current 0,85 Rated inductance Construction
Ferrite drum core Winding: enamel copper wire Flame-retardant lacquer coating
Features
Very high rated current resistances
Applications
Decoupling Interference suppression electronic household appliances,
automotive entertainment electronics Terminals
Central axial leads, tinned Radially bent lead spacing
Marking Inductance indicated color bands accordance with Delivery mode Taped reeled details taping, packing packing units page 435. Outline drawing B82143-A (axial leads, taped)
max. 41099 0,7max.
B82143-B (central radial leads, taped)
lacquer-coated
Minimum lead spacing 12,5 Approx. weight 0,38
Siemens Matsushita Components
Chokes Series
B82143-A B82143-B
Characteristics ordering codes further technical data page
Tolerance1
7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52
2,00 1,80 1,70 1,65 1,60 1,50 1,45 1,40 1,30 1,25 1,20 1,15 1,10 1,05 1,00 0,95 0,90 0,85
Rmax
res,
Ordering code2) B82143-+1102-K B82143-+1122-K B82143-+1152-K B82143-+1182-K B82143-+1222-K B82143-+1272-K B82143-+1332-K B82143-+1392-K B82143-+1472-K B82143-+1562-K B82143-+1682-K B82143-+1822-K B82143-+1103-K B82143-+1123-K B82143-+1153-K B82143-+1183-K B82143-+1223-K B82143-+1273-K
Closer tolerances upon request Replace code letter axial taping radial taping
Siemens Matsushita Components
Chokes Series
B82143-A B82143-B
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Siemens Matsushita Components
Chokes Series
B82144
choke (Large Bobbin Core) Rated current 0,02 Rated inductance 100000 Construction
Large ferrite drum core Winding: enamel copper wire Flame-retardant lacquer coating
Features
Very wide inductance range High rated current Special versions available
Applications
blocking filtering Decoupling interference suppression telecommunications (16-kHz blocking filter), automotive
electronics, energy-saving lamps, entertainment electronics Terminals
Central axial leads, tinned
Marking Inductance indicated color bands accordance with Delivery mode Taped reeled details taping, packing packing units page 435. Outline drawing
0,7max.
max. 41099
lacquer-coated
Minimum lead spacing Approx. weight
Siemens Matsushita Components
Chokes Series
B82144
Characteristics ordering codes further technical data page
1000 1500 2200 3300 4700 6800 10000 15000 22000 33000 47000 68000 100000
Tolerance1
7,96 7,96 7,96 7,96 7,96 7,96 2,52 2,52 2,52 2,52 2,52 2,52 0,796 0,796 0,796 0,796 0,796 0,796 0,252 0,252 0,252 0,252 0,252 0,252 0,0796 0,0796 0,0796 0,0796 0,0796 0,0796 0,0796
2,20 2,10 1,90 1,75 1,60 1,50 1,40 1,25 1,10 0,90 0,80 0,70 0,60 0,50 0,40 0,33 0,28 0,24 0,20 0,16 0,12 0,11 0,09 0,08 0,06 0,05 0,04 0,035 0,03 0,025 0,02
Rmax 0,08 0,09 0,11 0,13 0,16 0,19 0,22 0,28 0,35 0,43 0,50 0,60 0,70 0,90 1,60 1,90 2,50 2,80 3,80 6,00 9,00 12,0 20,0 30,0 42,0 68,0
res, 0,35 0,30 0,26 0,22 0,18 0,15 0,12
Ordering code B82144-A2102-K B82144-A2152-K B82144-A2222-K B82144-A2332-K B82144-A2472-K B82144-A2682-K B82144-A2103-K B82144-A2153-K B82144-A2223-K B82144-A2333-J B82144-A2473-J B82144-A2683-J B82144-A2104-J B82144-A2154-J B82144-A2224-J B82144-A2334-J B82144-A2474-J B82144-A2684-J B82144-A2105-J B82144-A2155-J B82144-A2225-J B82144-A2335-J B82144-A2475-J B82144-A2685-J B82144-A2106-J B82144-A2156-J B82144-A2226-J B82144-A2336-J B82144-A2476-J B82144-A2686-J B82144-A2107-J
Closer tolerances upon request
Siemens Matsushita Components
Chokes Series
B82144
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Siemens Matsushita Components
Chokes HLBC Series
B82145
HLBC choke (High-Current Large Bobbin Core) Rated current 0,11 0,86 Rated inductance 10000 Construction
Large ferrite drum core Winding: enamel copper wire Flame-retardant lacquer coating
Features
High rated current
high inductance ratings Applications
Decoupling Interference suppression energy-saving lamps entertainment electronics
Terminals
Central axial leads, tinned
Marking Inductance indicated color bands accordance with Delivery mode Taped reeled details taping, packing packing units page 435. Outline drawing
41099
lacquer-coated
Minimum lead spacing Approx. weight
Siemens Matsushita Components
Chokes HLBC Series
B82145
Characteristics ordering codes further technical data page
1000 1500 2200 3300 4700 6800 10000
Tolerance1
0,796 0,796 0,796 0,796 0,796 0,796 0,252 0,252 0,252 0,252 0,252 0,252 0,0796
Rmax 0,70 0,90 1,10 1,30 1,90 2,50 3,60 5,40 8,00 12,5 18,0 28,5 35,0
res, 0,35
Ordering code B82145-A1104-J B82145-A1154-J B82145-A1224-J B82145-A1334-J B82145-A1474-J B82145-A1684-J B82145-A1105-J B82145-A1155-J B82145-A1225-J B82145-A1335-J B82145-A1475-J B82145-A1685-J B82145-A1106-J
Closer tolerances upon request
Siemens Matsushita Components
Chokes HLBC Series
B82145
Impedance versus frequency measured with impedance analyzer 4191A 4194A
Inductance versus load measured with meter 4275A
factor versus frequency measured with impedance analyzer 4194A
Siemens Matsushita Components
Chokes Chokes SIMID Series
B82422
Selector guide
0,15 0,15 0,15 0,15 0,1.
1200
Dimensions dmax
Min. lead spacing 17,5 22,5 27,5 32,5
Features
Type
Page
Central axial leads Taped Carbonyl iron core
B82131 B82132 B82133 B82134
Central axial leads Taped Ferrite core
B82111-E
3900
17,5
Axial leads, winding ends B82111-B brought leads Ferrite core Central axial leads B82500 Ferrite core High ratings Axial leads B82114 Choke with 6-aperture core broadband suppression
Siemens Matsushita Components
Chokes Chokes
General technical data Test voltage Rated inductance 2500 Vac, 1min 1500 Vac, 1min (B82500-C) Measuring frequency:L 1000 1000 Referred ambient temperature, derating below (referred initial value) load Typical value, measured ambient temperature Typical value, measured with Scalar Network Analyzer from Rohde Schwarz accordance with 68-1 55/125/56 °C/+ °C/56 days damp heat test)
Inductance tolerance Rated current Inductance decrease resistance Rtyp Resonance frequency Climatic category Current derating versus ambient temperature (Rated temperature
Mounting information When bending leads, take care that bending point least apart from face ends core that start-of-winding-areas subjected mechanical stress.
Siemens Matsushita Components
Chokes Chokes
B82422 B82131 B82134
chokes with carbonyl iron core Rated voltage dc/ac Rated current 0,15 Rated inductance Construction
Cylinder core carbonyl iron Winding: single-layer, enamel copper wire Polyester insulating sleeve
Features
High resonance frequency Wide inductance range
Applications
blocking filtering Interference suppression small-size equipment Decoupling telecommunications
entertainment electronics Marking
clear text mark
Delivery mode Taped reeled details taping, packing packing units page 438. Approvals Mark conformity Standard 0565-2
Siemens Matsushita Components
Chokes Chokes
B82131 B82422 B82134
Outline drawing
Lead spacing (mm) 17,5 22,5 27,5 32,5
Type B82131 B82132 B82133 B82134
Tolerance over spacings
Characteristics ordering codes further technical data page 115.
0,15
Rtyp
11000 17000 21000 19000 4100 5700 6500 6400 2000 3000 4800 3500 1200
Dimensions (mm)
dmax
lmax
kmax 15,4 20,4 25,4 30,4 15,4 20,4 25,4 30,4 15,4 20,4 25,4 30,4 15,4 20,4 25,4 30,4
emin 17,5 22,5 27,5 32,5 17,5 22,5 27,5 32,5 17,5 22,5 27,5 32,5 17,5 22,5 27,5 32,5
Approx. weight
Ordering code
B82131-A5151-M B82132-A5151-M B82133-A5151-M B82134-A5151-M B82131-A5301-M B82132-A5301-M B82133-A5301-M B82134-A5301-M B82131-A5401-M B82132-A5401-M B82133-A5401-M B82134-A5401-M B82131-A5701-M B82132-A5701-M B82133-A5701-M B82134-A5701-M
Siemens Matsushita Components
Chokes Chokes
B82131 B82422 B82134
Characteristics ordering codes further technical data page 115.
Rtyp
Dimensions (mm)
dmax
lmax
kmax 15,4 20,4 25,4 30,4 15,4 20,4 25,4 30,4 15,4 20,4 25,4 30,4 15,4 20,4 25,4 30,4 20,4 25,4
emin 17,5 22,5 27,5 32,5 17,5 22,5 27,5 32,5 17,5 22,5 27,5 32,5 17,5 22,5 27,5 32,5 22,5 27,5
Approx. weight
Ordering code
B82131-A5152-M B82132-A5152-M B82133-A5152-M B82134-A5152-M B82131-A5202-M B82132-A5202-M B82133-A5202-M B82134-A5202-M B82131-A5302-M B82132-A5302-M B82133-A5302-M B82134-A5302-M B82131-A5402-M B82132-A5402-M B82133-A5402-M B82134-A5402-M B82132-A5602-M B82133-A5602-M
Siemens Matsushita Components
Chokes Chokes
B82131 B82422 B82134
Impedance versus frequency measured 0565-2 (typical values) B82131B82132-
B82133-
B82134-
Siemens Matsushita Components
Chokes Chokes
B82111-E B82422
chokes with ferrite core Rated voltage dc/ac Rated current Rated inductance 1200 Construction
Ferrite cylinder core Winding: single-layer, enamel copper wire Polyester insulating sleeve
Features
High resonance frequency Wide inductance range
Applications
blocking filtering Interference suppression small-size equipment Decoupling telecommunications
entertainment electronics Marking
clear text mark
Delivery mode Taped reeled details packing packing units page 438. Mark conformity test standard 0565-2 Outline drawing
Tolerance over spacings
Siemens Matsushita Components
Chokes Chokes
B82111-E B82422
Characteristics ordering codes further technical data page 115.
1200
Rtyp
34000 14000 6500 2600
Approx. weight
Dimensions dmax
Ordering code
B82111-E-C29 B82111-E-C28 B82111-E-C27 B82111-E-C26 B82111-E-C25 B82111-E-C24 B82111-E-C23 B82111-E-C22 B82111-E-C21 B82111-E-C20
Impedance versus frequency (typical values) B82111-E-
Siemens Matsushita Components
Chokes Chokes
B82111-B B82422
chokes with ferrite core Rated voltage dc/ac Rated current Rated inductance Construction
Ferrite cylinder core Winding: single-layer, enamel copper wire,
winding ends brought leads
Polyester insulating sleeve
Features
High resonance frequency High rated current
Applications
blocking filtering Interference suppression small-size equipment
Marking
clear text mark
Delivery mode Bulk Approvals Mark conformity Standard 0565-2
Siemens Matsushita Components
Chokes Chokes
B82111-B B82422
Outline drawing
Characteristics ordering codes further technical data page 115.
Rtyp
Dimensions (mm)
l1-1,5 18,3 18,3 24,5 24,5 28,5 18,3 24,5 28,5 18,3 24,5 28,5 24,5 28,5
l2-3
max.
0,45 0,63 0,67 0,63 0,75 0,71 0,75 0,95 0,95
Approx. weight 10,0
Ordering code
B82111-B-C14 B82111-B-C13 B82111-B-C19 B82111-B-C20 B82111-B-C24 B82111-B-C12 B82111-B-C18 B82111-B-C23 B82111-B-C11 B82111-B-C17 B82111-B-C22 B82111-B-C16 B82111-B-C21
Siemens Matsushita Components
Chokes Chokes
B82111-B B82422
Impedance versus frequency (typical values) B82111-B-C11 -C14 B82111-B-C16 -C20
B82111-B-C21 -C24
Siemens Matsushita Components
Chokes Chokes
B82500 B82422
chokes with ferrite core Rated voltage dc/ac Rated current Rated inductance 3900 Construction
Ferrite cylinder core Winding: low-capacitance, multi-layer,
enamel copper wire
Polyester insulating sleeve
Features
High resonance frequency High inductance ratings
Applications
blocking filtering Interference suppression small-size equipment
Marking
clear text
Delivery mode Bulk
Siemens Matsushita Components
Chokes Chokes
B82500 B82422
Outline drawing
Characteristics ordering codes further technical data page 115.
3900
Rtyp
0,15
Approx. weight
Ordering code
B82500-C-A2 B82500-C-A5 B82500-C-A8 B82500-C-A10
Impedance versus frequency (typical values) B82500-C-
Siemens Matsushita Components
Chokes Chokes
B82114 B82422
chokes power line applications Rated voltage dc/ac Rated current max. Construction
Round 6-aperture ferrite core With without insulating sleeve
Features
selected core material provides
maximum impedance relevant frequen
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