Solid electrolytic capacitors Solid Axial FEATURES Polarized alum
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Solid electrolytic capacitors Solid Axial
FEATURES Polarized aluminium electrolytic capacitors, solid electrolyte MnO2 Axial leads, aluminium case, ceramic seal, blue insulation sleeve SAL-A: standard version SAL-AG: epoxy filled shock-proof version 10000 Extremely long useful life 20000 hours Extended usable temperature range Excellent temperature impedance behaviour Charge discharge proof, application with resistance allowed Reverse voltage allowed voltage allowed Advanced technology achieve high reliability high stability. QUICK REFERENCE DATA DESCRIPTION Case size (Dmax Lmax Rated capacitance range series), Tolerance Rated voltage range, Category temperature range Usable temperature range Endurance test Useful life Useful life applied Shelf life Based sectional specification Detail specification Climatic category VALUE APPLICATIONS EDP, telecommunications, general industrial, automotive, military space
handbook, columns handbook, columns
SAL-A
MBB121
Fig.1 Component outlines.
radial version
radial higher CV/volume
MBG077
Smoothing, filtering, buffering, timing power supplies, DC/DC converters.
15.3 12.9 32.0 1500 ±20%; ±10% request +125 +200 5000 8000 hours 20000 hours 450000 hours hours 384-4, CECC 30300 384-4-2, CECC 30302 55/125/56
1997
Solid electrolytic capacitors Solid Axial
Selection chart relevant maximum case sizes Preferred types bold. (µF) 1000 1500 Note CECC approved. MARKING capacitors marked (where possible) with following information: Rated capacitance Tolerance code rated capacitance ±20%, ±10%, accordance with "IEC 62") Rated voltage corresponding maximum temperature Date code accordance with "IEC Name manufacturer Group number (123) Code factory origin Code basic specification accordance with "IEC 384-4" sign indicate positive terminal band identify negative terminal. CECC approved. 15.3 15.3 20.4 23.3 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 15.3 15.3 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 12.9 32.0 12.9 32.0
SAL-A
40(1) 15.3 15.3 15.3 15.3 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0
1997
Solid electrolytic capacitors Solid Axial
MECHANICAL DATA, AVAILABLE FORMS PACKAGING QUANTITIES
SAL-A
handbook, full pagewidth
Dimensions taped box, (ammopack). taped reel. dimensions Table Tape dimensions specified this handbook, section "Packaging".
MBC589
Fig.2 Forms:
Table
Physical dimensions, mass packaging quantities; Fig.2 CASE PACKAGING QUANTITIES CODE Fmax (mm) 20.0 22.5 25.0 35.0 35.0 (mm) MASS (note 1.05 1.55 FORM FORM
MAXIMUM SIZE (mm) 15.3 20.4 23.3 10.3 32.0 12.9 32.0 Note
SAL-AG epoxy-filled versions.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
ELECTRICAL DATA Unless otherwise specified, electrical values Tables apply Tamb kPa, 75%. SYMBOL Table rated capacitance max. ripple current, necessary voltage applied max. leakage current after minutes max. dissipation factor max. equivalent series resistance max. impedance Electrical data series; preferred types bold (µF) 1000 1500 1000 MAXIMUM CASE SIZE (mm) 15.3 15.3 20.4 23.3 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 12.9 32.0 (mA) 1220 1000 (mA) 1470 2340 3180 4140 1180 1650 1940 2580 3380 (mA) 1270 2140 3410 4640 6020 1040 1450 1720 2410 2830 3750 4920 (µA) 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.18 0.55 0.36 0.24 0.55 0.36 DESCRIPTION
1997
Solid electrolytic capacitors Solid Axial
ORDERING INFORMATION Ordering example Electrolytic capacitors µF/16 ±20% Maximum case size: 15.3 Form Catalogue number: 2222 25109
SAL-A
Table
Ordering information series; preferred types bold CATALOGUE NUMBER 2222 MAXIMUM CASE SIZE (mm) 15.3 15.3 20.4 23.3 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 12.9 32.0
(µF) 1000 1500
SAL-A FORM ±20% 13479 13689 13151 13331 13681 13102 13152 14339 14479 14689 14101 14151 14221 14331 14471 14681 14102
SAL-A FORM ±20% 23479 23689 23151 23331 23681 23102 23152 24339 24479 24689 24101 24151 24221 24331 24471 24681 24102
SAL-AG FORM tol. ±10% level 83479 83689 83151 83331 83681 83102 83152 84339 84479 84689 84101 84151 84221 84331 84471 84681 84102
SAL-AG FORM tol. ±20% 63479 63689 63151 63331 63681 63102 63152 64339 64479 64689 64101 64151 64221 64331 64471 64681 64102
1000
1997
Solid electrolytic capacitors Solid Axial
ELECTRICAL DATA (continued) Table Electrical data series continued; preferred types bold (µF) MAXIMUM CASE SIZE (mm) 15.3 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 15.3 15.3 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 12.9 32.0 12.9 32.0 (mA) (mA) 1060 1420 1740 2280 2870 1200 1560 2030 (mA) 1340 1550 2060 2530 3330 4170 1110 1250 1740 2270 2950 1100 1440 (µA) 0.14 0.14 0.14 0.14 0.14 0.14 0.14 0.16 0.16 0.16 0.16 0.16 0.14 0.14 0.14 0.14 0.14 0.14 0.16 0.16 0.16 0.16 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.16 0.16 0.16
SAL-A
16.5 11.0
1997
Solid electrolytic capacitors Solid Axial
ORDERING INFORMATION (continued) Table Ordering information series continued; preferred types bold MAXIMUM CASE SIZE (mm) 15.3 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 12.9 32.0 12.9 32.0 15.3 15.3 15.3 15.3 15.3 15.3 20.4 20.4 20.4 23.3 23.3 10.3 32.0 12.9 32.0 12.9 32.0 CATALOGUE NUMBER 2222 SAL-A FORM ±20% 15109 15159 15229 15339 15479 15689 15101 15151 15221 15331 15471 15681 16109 16159 16229 16339 16479 16689 16101 16151 16221 16331 10108 10158 10228 10338 10478 10688 10109 10159 10229 10339 10479 10689 10101 10151 SAL-A FORM ±20% 25109 25159 25229 25339 25479 25689 25101 25151 25221 25331 25471 25681 26109 26159 26229 26339 26479 26689 26101 26151 26221 26331 20108 20158 20228 20338 20478 20688 20109 20159 20229 20339 20479 20689 20101 20151 SAL-AG FORM tol. ±10% level 85109 85159 85229 85339 85479 85689 85101 85151 85221 85331 85471 85681 86109 86159 86229 86339 86479 86689 86101 86151 86221 86331 80108 80158 80228 80338 80478 80688 80109 80159 80229 80339 80479 80689 80101 80151
SAL-A
(µF)
SAL-AG FORM tol. ±20% 65109 65159 65229 65339 65479 65689 65101 65151 65221 65331 65471 65681 66109 66159 66229 66339 66479 66689 66101 66151 66221 66331 60108 60158 60228 60338 60478 60688 60109 60159 60229 60339 60479 60689 60101 60151
1997
Solid electrolytic capacitors Solid Axial
ELECTRICAL DATA (continued) Table Electrical data series continued; preferred types bold (µF) MAXIMUM CASE SIZE (mm) 15.3 15.3 15.3 15.3 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 (mA) (mA) (mA) 1100 (µA) 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.16 0.16
SAL-A
ORDERING INFORMATION (continued) Table Ordering information series continued; preferred types bold CATALOGUE NUMBER 2222 (µF) MAXIMUM CASE SIZE (mm) 15.3 15.3 15.3 15.3 20.4 20.4 23.3 23.3 10.3 32.0 10.3 32.0 12.9 32.0 SAL-A FORM ±20% 17228 17338 17478 17688 17109 17159 17229 17339 17479 17689 17101 SAL-A FORM ±20% 27228 27338 27478 27688 27109 27159 27229 27339 27479 27689 27101 SAL-AG FORM tol. ±10% level 87228 87338 87478 87688 87109 87159 87229 87339 87479 87689 87101 SAL-AG FORM tol. ±20% 67228 67338 67478 67688 67109 67159 67229 67339 67479 67689 67101
1997
Solid electrolytic capacitors Solid Axial
ELECTRICAL DATA (continued) Additional electrical data PARAMETER Surge voltage short periods Reverse voltage Maximum peak voltage, reverse voltage applied Maximum peak voltage, without reverse voltage applied Tamb Tamb Current Maximum leakage current Typical leakage current after minutes Tamb after Tamb CONDITIONS
SAL-A
VALUE 1.15 Urev
0.30 0.45 0.60 0.65 0.80 0.15 0.22 0.30 0.32 0.40 0.05CR whichever greater, Tables approx. value stated Tables approx. value stated Tables
1997
Solid electrolytic capacitors Solid Axial
Voltage
SAL-A
handbook, columns
MRA486
Curve Curve Tamb
Fig.3 Maximum permissible voltage Ripple current (IR) Applying maximum ripple current given Tables will cause device temperature values Tables other temperatures calculated with following multipliers: Tamb multiplier 0.88 0.75 0.59 0.37
1997
Solid electrolytic capacitors Solid Axial
Leakage current
handbook, columns
SAL-A
MGB024
leakage current during continuous operation Tamb
Fig.4 Typical multiplier leakage current function ambient temperature.
handbook, columns
MGB025
reverse voltage
leakage current discrete constant temperature.
Fig.5 Typical multiplier leakage current function U/UR.
1997
Solid electrolytic capacitors Solid Axial
Maximum power dissipation MAXIMUM CASE SIZE (mm) 15.3 20.4 23.3 10.3 32.0 12.9 32.0 Equivalent series inductance (ESL), MAXIMUM CASE SIZE (mm) 15.3 20.4 23.3 10.3 32.0 12.9 32.0 PITCH (mm) 20.3 25.4 27.9 35.6 35.6 MAX. (nH) Pmax P125 0.13 0.16 0.21 0.26 0.32
SAL-A
TYP. (nH)
1997
Solid electrolytic capacitors Solid Axial
Dissipation factor (tan
MGB026
SAL-A
handbook, columns
standard deviation
0.25
Typical Tamb value stated Tables
Fig.6 Typical multiplier dissipation factor function ambient temperature.
Capacitance
MGB027
handbook, columns
standard deviation 0.05
capacitance
Fig.7 Typical multiplier capacitance function ambient temperature.
1997
Solid electrolytic capacitors Solid Axial
Equivalent series resistance (ESR) Typical ESR: Figs standard deviation each value.
SAL-A
handbook, columns
MGB028
Curve Curve Curve Curve Curve Case 15.3
Fig.8 Typical function ambient temperature.
handbook, columns
MGB029
Curve Curve Curve Curve Curve Case 20.4
Fig.9 Typical function ambient temperature.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB030
Curve Curve Curve Case 23.3
Fig.10 Typical function ambient temperature.
handbook, columns
MGB031
Curve Curve Curve Curve Case 10.3 32.0
Fig.11 Typical function ambient temperature.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB032
Curve Curve Curve Curve 1000 Curve Case 12.9 32.0
Fig.12 Typical function ambient temperature.
handbook, columns
MGB033
Curve Curve Curve Curve Curve Case 15.3 Tamb
(Hz)
Fig.13 Typical function frequency.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB034
Curve Curve Curve Curve Curve Case 20.4 Tamb
(Hz)
Fig.14 Typical function frequency.
handbook, columns
MGB035
Curve Curve Case 23.3 Tamb
(Hz)
Fig.15 Typical function frequency.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB036
Curve Curve Curve Curve Case 10.3 32.0 Tamb
(Hz)
Fig.16 Typical function frequency.
handbook, columns
MGB037
Curve Curve Curve Curve Curve 1000 6.3. Case 12.9 32.0 Tamb
(Hz)
Fig.17 Typical function frequency.
1997
Solid electrolytic capacitors Solid Axial
Impedance Typical impedance Tamb value stated Tables
SAL-A
MGB038
handbook, full pagewidth
+175
(Hz)
standard deviation
Curve case 15.3 20.4 Curve case 15.3 20.4 Curve case 32.0, 10.3 32.0 12.9 32.0 initial impedance value frequency Tamb
Fig.18 Typical multiplier impedance function frequency different ambient temperatures.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB039
Curve Curve Curve Curve Curve Curve Curve Case 15.3 Tamb
(Hz)
Fig.19 Typical impedance function frequency.
handbook, columns
MGB040
Curve Curve Curve Curve Curve Curve Case 15.3 Tamb
(Hz)
Fig.20 Typical impedance function frequency.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB041
Curve Curve Curve Curve Curve Curve Case 20.4 Tamb
(Hz)
Fig.21 Typical impedance function frequency.
handbook, columns
MGB042
Curve Curve Curve Curve Curve Curve Case 20.4 Tamb
(Hz)
Fig.22 Typical impedance function frequency.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB043
Curve Curve Curve Curve Case 23.3 Tamb
(Hz)
Fig.23 Typical impedance function frequency.
handbook, columns
MGB044
Curve Curve Curve Curve Curve Curve Case 23.3 Tamb
(Hz)
Fig.24 Typical impedance function frequency.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB045
Curve Curve Curve Curve Curve Curve 1000 Case 10.3 32.0 Tamb
(Hz)
Fig.25 Typical impedance function frequency.
handbook, columns
MGB046
Curve Curve Curve Curve Case 10.3 32.0 Tamb
(Hz)
Fig.26 Typical impedance function frequency.
1997
Solid electrolytic capacitors Solid Axial
SAL-A
handbook, columns
MGB047
Curve Curve 1000 Curve 1500 Curve 2200 Case 12.9 32.0 Tamb
(Hz)
Fig.27 Typical impedance function frequency.
handbook, columns
MGB048
Curve Curve Curve Curve Curve Curve Curve 1000 Case 12.9 32.0 Tamb
(Hz)
Fig.28 Typical impedance function frequency.
1997
Solid electrolytic capacitors Solid Axial
SPECIFIC TESTS REQUIREMENTS General tests requirements specified this handbook, section "Tests Requirements". Table Test procedures requirements TEST NAME TEST Endurance REFERENCE 384-2/ CECC 30300 subclause 4.13 PROCEDURE (quick reference) Tamb with applied; with applied; 10000 hours Tamb applied with applied; with applied; 20000 hours
SAL-A
REQUIREMENTS C/C: ±10% spec. limit spec. limit spec. limit C/C: ±15% spec. limit spec. limit spec. limit short open circuit, visible damage total failure percentage:
Useful life
CECC 30302 subclause 1.8.1
Shelf life (storage high temperature) Charge discharge
384-4/ CECC 30300 subclause 4.17 384-4-2 subclause 9.21
Tamb voltage applied; hours
C/C: ±10% spec. limit spec. limit C/C: short open circuit, visible damage intermittent contacts breakdown open circuiting mechanical damage C/C: spec. limit spec. limit spec. limit
cycles without series resistance; ground half-sine tooth pulse shape successive shocks each direction mutually perpendicular axes; voltage applied
Shock
68-2-27 test
1997
Solid electrolytic capacitors Solid Axial
TEST NAME TEST Severe rapid change temperature REFERENCE PROCEDURE (quick reference) cycles minutes +125
SAL-A
REQUIREMENTS C/C: ±10% spec. limit spec. limit spec.limit
Solvent resistance 68-2-45, test
immersion: ±0.5 minutes with without ultrasonic Solvents: demineralized water and/or calgonite solution g/l) capacitor mounted vertical printed-circuit board, flame capacitor body; Tamb test duration
visual appearance affected
Passive flammability
695-2-2
after removing test flame from capacitor, capacitor must continue burn more than burning particles must drop from sample
1997
Solid electrolytic capacitors Solid Axial
ADDITIONAL TESTS REQUIREMENTS EPOXY-FILLED VERSIONS SAL-AG 2222 Form ±20% 2222 Form ±10%, level Table Test procedures requirements TEST PROCEDURE
SAL-A
REQUIREMENTS
Severe vibration tests accordance with "IEC 68-2-6" "MIL STD-202", method 204, letter with following details additions Method mounting: severity severity severity Direction duration motion: severity octave/minute; directions (mutually perpendicular); sweeps direction (total sweeps hours) octave/minute; directions (longitudinal transversal); sweeps direction (total sweeps hour) rated voltage applied voltage applied 3000 (also clamping both body leads frequency range temperature 3000 20-25 frequency range temperature 2000 vibration amplitude: whichever less C/C: ±10% stated limit stated limit leakage current: stated limit intermittent contacts indication breakdown open circuiting evidence mechanical damage
severity
Functioning: severity severity Typical capability
Severe shock tests accordance with "IEC 68-2-27" "MIL STD-202", method 213, letter with following details additions: Method mounting Pulse shape severity severity severity Direction number shocks: severity successive shocks each direction mutually perpendicular axes (total shocks) shock direction rated voltage applied clamping both body leads half-sine sawtooth 1500 ("MIL STD-202", method 213, letter 3000 10000 C/C: ±10% stated limit stated limit leakage current: stated limit intermittent contacts indication breakdown open circuiting evidence mechanical damage
severity Functioning
1997
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