1997 Nov 12 1
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
FEATURES
•Polarized aluminium electrolytic
capacitors, non-solid
•Axial leads, cylindrical aluminium
case, insulated with a blue sleeve
•Mounting ring version (single
ended) not insulated
•Case ∅10 ×30 to 21 ×40 mm with
pressure relief
•Charge and discharge proof
•Taped versions up to
case ∅15 ×30 mm available for
automatic insertion
•Miniaturized, high CV-product per
unit volume.
APPLICATIONS
•General purpose, industrial,
automotive, audio-video
•Coupling, decoupling, smoothing,
filtering, buffering and timing
•Portable and mobile equipment
(small size, low mass)
•Low mounting height boards,
vibration and shock resistant.
Fig.1 Component outlines.
handbook, 4 columns
MBB121
handbook, halfpage
ASM 021
MLC984
smaller
CV-values
ASD 117 AML 138
longer
life
ASH 041-043
high voltage
(85 oC) (105 oC)
QUICK REFERENCE DATA
DESCRIPTION VALUE
Case sizes (∅Dnom ×Lnom in mm) 4.5 ×10 to 10 ×25 10 ×30 to 21 ×40
Rated capacitance range, CR0.47 to 15000 µF
Tolerance on CR±20%
Rated voltage range, UR6.3 to 100 V
Category temperature range −40 to +85 °C
Endurance test at 85 °C
UR= 6.3 to 25 V 1000 hours 5000 hours
UR= 40 to 100 V 2000 hours 5000 hours
Useful life at 85 °C 2500 hours 8000 hours
Useful life at 40 °C, 1.4 × IR applied 70000 hours 200000hours
Shelf life at 0 V, 85 °C 500 hours 500 hours
Based on sectional specification IEC 384-4/CECC 30300 IEC 384-4/CECC 30300
Climatic category IEC 68 40/085/56
1997 Nov 12 2
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Selection chart for CR, UR and relevant nominal case sizes (∅D×L in mm)
Preferred types in bold.
CR
(µF) UR(V)
6.3 10 16 25 40 63 100
0.47 −−−−−4.5 ×10 −
1−−−−−4.5 ×10 4.5 ×10
2.2 −−−−−4.5 ×10 4.5 ×10
3.3 −−−−−4.5 ×10 −
4.7 −−−−−4.5 ×10 4.5 ×10
10 −−−−−4.5 ×10 6×10
15 −−−−−4.5 ×10 8 ×11
−−−−−−6.5 ×18
22 −−−−4.5 ×10 6 ×10 8×11
−−−−−−6.5 ×18
33 −−−−−6×10 6.5 ×18
47 −−−4.5 ×10 6 ×10 8×11 8 ×18
−−−−−6.5 ×18 −
68 −−4.5 ×10 −−8×11 10 ×18
−−−−−6.5 ×18 −
100 −4.5 ×10 −6×10 8×11 8×18 10 ×25
−−−−6.5 ×18 −10 ×30
150 −−6×10 8 ×11 8 ×18 10 ×18 12.5 ×30
−− −6.5 ×18 −−−
220 −6×10 8×11 6.5 ×18 10 ×18 10 ×25 12.5 ×30
−−−−−10 ×30 −
330 −8×11 6.5 ×18 8 ×18 10 ×25 12.5 ×30 15 ×30
470 8×11 6.5 ×18 8×18 10 ×18 10 ×25 12.5 ×30 18 ×30
−−−−10 ×30 −−
680 −8×18 10 ×18 10 ×25 12.5 ×30 15 ×30 18 ×40
−−−10 ×30 −−−
1000 8×18 10 ×18 10 ×25 12.5 ×30 12.5 ×30 18 ×30 21 ×40
−−10 ×30 −−−−
1500 −10 ×25 12.5 ×30 12.5 ×30 15 ×30 18 ×40 −
−10 ×30 −−−−−
2200 10 ×25 12.5 ×30 12.5 ×30 15 ×30 18 ×30 21 ×40 −
3300 −12.5 ×30 15 ×30 18 ×30 18 ×40 −−
4700 −15 ×30 18 ×30 18 ×40 21 ×40 −−
6800 −18 ×30 18 ×40 21 ×40 −−−
10000 −18 ×40 21 ×40 −−−−
15000 −21 ×40 −−−−−
1997 Nov 12 3
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
MECHANICAL DATA, AVAILABLE FORMS AND PACKAGING QUANTITIES
Fig.2 Dimensional outline; Forms BA and BR.
Dimensions in mm.
Form BR: Taped on reel.
Form BA: Taped in box (ammopack).
Case ∅D×L = 4.5 ×10 to 8 ×11 mm.
For dimensions see Table 1.
Tape dimensions are specified in this
handbook, section
“Packaging”
.
MLA432
63.5 1.5
L
F
Dd
+
OO
Fig.3 Dimensional outline; Forms BA and BR.
Dimensions in mm.
Form BR: Taped on reel,
case ∅D×L = 6.5 ×18 to 15 ×30 mm.
Form BA: Taped in box (ammopack),
case ∅D×L = 6.5 ×18 to 10 ×25 mm.
For dimensions see Table 1.
Tape dimensions are specified in this
handbook, section
“Packaging”
.
handbook, halfpage
MBC193 - 1
73 1.6
LD d
OO
F
+
Table 1 Axial; physical dimensions, mass and packaging quantities; see Figs 2, 3, 4 and 5
NOMINAL
CASE SIZE
∅D×L
(mm)
CASE
CODE
AXIAL: FORM AA, BA, and BR MASS
(g)
PACKAGING QUANTITIES
∅dI
∅D
max
(mm) Lmax
(mm) Fmin
(mm) FORM
AA FORM
BA FORM
BR
4.5 ×10 2 0.6 −5.0 10.5 15 ≈0.50 −1000 3000
6×10 3 0.6 −6.3 10.5 15 ≈0.70 −1000 1000
8×11 5a 0.6 −8.5 11.5 15 ≈1.1 −500 500
6.5 ×18 4 0.8 −6.9 18.5 25 ≈1.3 −1000 1000
8×18 5 0.8 −8.5 18.5 25 ≈1.7 −500 500
10 ×18 6 0.8 −10.5 18.5 25 ≈2.5 −500 500
10 ×25 7 0.8 −10.5 25.0 30 ≈3.3 −500 500
10 ×30 00 0.8 55 ±1 10.5 30.5 35 ≈4.8 200 −500
12.5 ×30 01 0.8 55 ±1 13.0 30.5 35 ≈7.4 200 −400
15 ×30 02 0.8 55 ±1 15.5 30.5 35 ≈11.7 200 −250
18 ×30 03 0.8 55 ±1 18.5 30.5 35 ≈12.9 200 −−
18 ×40 04 0.8 34 ±1 18.5 41.5 45 ≈19.4 100 −−
21 ×40 05 0.8 34 ±1 21.5 41.5 45 ≈24.7 100 −−
1997 Nov 12 4
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Table 2 Single ended; mass and packaging quantities; see Fig.5
NOMINAL
CASE SIZE
∅D×L
(mm)
CASE
CODE
SINGLE ENDED WITH MOUNTING RING: FORM MR MASS
(g) PACKAGING
QUANTITIES
∅d1
(mm) ∅d2
(mm) ∅D2max
(mm) D3
(mm) Lmax
(mm)
15 ×30 02 0.8 1.0 +0.4 17.5 16.5 ±0.2 33 ≈11.7 200
18 ×30 03 0.8 1.0 +0.4 19.5 18.5 ±0.2 33 ≈12.9 200
18 ×40 04 0.8 1.0 +0.4 19.5 18.5 ±0.2 45 ≈19.4 100
21 ×40 05 0.8 1.0 +0.4 22.5 21.5 ±0.2 45 ≈24.7 100
Fig.4 Dimensional outline; Form AA.
Dimensions in mm.
Form AA: Axial in box.
Case ∅D×L=10×30 and 21 ×40 mm.
For case ∅D×L=18×40 and 21 ×40 mm, the stated L may be exceeded by 0.7 mm.
For dimensions see Table 1.
handbook, full pagewidth
MBC060
O D
33 1Ll
O d
F
handbook, full pagewidth
D3
d2
120o
(3x)
1.3 0.1
0(3x)
MAM055
O D
L
O D2 Od1
0.2
0.4
3.6
1.0
0.5
1
90o2o
(3x)
1.05 0.03
0.1 (3x)
0
0.05 (3x)
1.3
piercing diagram
Dimensions in mm.
Form MR:case ∅D×L=15×30 to 21 ×40 mm.
Case not insulated (insulation on request).
Especially for applications with severe shocks and vibrations.
For dimensions see Table 2.
Fig.5 Piercing diagram and outline; Form MR; single ended with mounting ring and pins.
1997 Nov 12 5
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
ELECTRICAL DATA AND ORDERING INFORMATION
Unless otherwise specified, all electrical values in Table 3 apply at Tamb =20°C,
P = 86 to 106 kPa, RH = 45 to 75%.
SYMBOL DESCRIPTION
CRrated capacitance at 100 Hz, tolerance ±20%
IRrated RMS ripple current at 100 Hz, 85 °C
IL1 max. leakage current after 1 minute at UR
IL5 max. leakage current after 5 minutes at UR
Tan δmax. dissipation factor at 100 Hz
ESR equivalent series resistance at 100 Hz (calculated from tan δ max. and CR)
Z max. impedance at 10 kHz
Ordering example
Electrolytic capacitor ASM 021
1000 µF/16 V; ±20%
Nominal case size: ∅10 ×25; Form BA
Catalogue number: 2222 021 90518.
Table 3 Electrical data and ordering Information; preferred types in bold
UR
(V)
CR
100 Hz
(µF)
NOMINAL
CASE SIZE
∅D×L
(mm)
CASE
CODE
IR
100 Hz
85 °C
(mA)
IL1
1 min
(µA)
IL5
5 min
(µA)
Tan δ
100 Hz
ESR
100 Hz
(Ω)
Z
10 kHz
(Ω)
CATALOGUE NUMBER 2222 ... .....
AXIAL SINGLE ENDED
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
6.3 470 8 ×11 5a 260 22 10 0.25 0.85 0.64 −021 23471 021 33471 −
1000 8 ×18 5 440 42 17 0.25 0.4 0.5 −021 23102 021 33102 −
2200 10 ×25 7 710 87 32 0.29 0.21 0.16 −021 90588 021 90589 −
10 100 4.5 ×10 2 100 10 6 0.20 3.2 2.0 −021 24101 021 34101 −
220 6 ×10 3 160 17 8.4 0.20 1.5 0.91 −021 24221 021 34221 −
330 8 ×11 5a 230 24 11 0.20 1.0 0.61 −021 24331 021 34331 −
470 6.5 ×18 4 310 32 13 0.20 0.68 0.43 −021 24471 021 34471 −
680 8 ×18 5 400 45 18 0.20 0.47 0.29 −021 24681 021 34681 −
1000 10 ×18 6 550 64 24 0.20 0.32 0.20 −021 24102 021 34102 −
1500 10 ×25 7 690 94 34 0.23 0.25 0.18 −021 90524 021 90525 −
1500 10 ×30 00 740 94 34 0.23 0.245 0.18 021 14152 021 24152 −−
2200 12.5 ×30 01 800 136 48 0.25 0.177 0.095 021 14222 021 24222 −−
3300 12.5 ×30 01 1000 202 70 0.27 0.128 0.095 021 14332 021 24332 −−
4700 15 ×30 02 1180 286 98 0.29 0.100 0.07 021 14472 021 24472 −021 44472
6800 18 ×30 03 1480 412 140 0.34 0.079 0.065 021 14682 −−021 44682
10000 18 ×40 04 1860 604 204 0.40 0.064 0.04 021 14103 −−021 44103
15000 21 ×40 05 2250 904 304 0.50 0.054 0.035 021 14153 −−021 44153
1997 Nov 12 6
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
16 68 4.5 ×10 2 90 11 6.2 0.16 3.8 2.4 −021 25689 021 35689 −
150 6 ×10 3 140 18 8.8 0.16 1.7 1.1 −021 25151 021 35151 −
220 8 ×11 5a 210 25 11 0.16 1.2 0.73 −021 25221 021 35221 −
330 6.5 ×18 4 290 36 15 0.16 0.77 0.48 −021 25331 021 35331 −
470 8 ×18 5 380 49 19 0.16 0.55 0.34 −021 25471 021 35471 −
680 10 ×18 6 500 69 26 0.16 0.38 0.24 −021 25681 021 35681 −
1000 10 ×25 7 660 100 36 0.16 0.26 0.18 −021 90517 021 90518 −
1000 10 ×30 00 700 100 36 0.16 0.260 0.175 021 15102 021 25102 −−
1500 12.5 ×30 01 740 148 52 0.19 0.205 0.095 021 15152 021 25152 −−
2200 12.5 ×30 01 890 216 74 0.21 0.150 0.095 021 15222 021 25222 −−
3300 15 ×30 02 1130 321 110 0.23 0.111 0.07 021 15332 021 25332 −021 45332
4700 18 ×30 03 1410 455 154 0.25 0.087 0.065 021 15472 −−021 45472
6800 18 ×40 04 1780 656 222 0.30 0.070 0.04 021 15682 −−021 45682
10000 21 ×40 05 2170 964 324 0.36 0.058 0.035 021 15103 −−021 45103
25 47 4.5 ×10 2 80 11 6.4 0.14 4.8 2.6 −021 26479 021 36479 −
100 6 ×10 3 150 19 9 0.14 2.3 1.2 −021 26101 021 36101 −
150 8 ×11 5a 190 27 12 0.14 1.5 0.80 −021 90534 021 90535 −
150 6.5 ×18 4 210 27 12 0.14 1.5 0.80 −021 26151 021 36151 −
220 6.5 ×18 4 250 37 15 0.14 1.0 0.55 −021 26221 021 36221 −
330 8 ×18 5 340 54 21 0.14 0.68 0.36 −021 26331 021 36331 −
470 10 ×18 6 450 75 28 0.14 0.48 0.26 −021 26471 021 36471 −
680 10 ×25 7 560 106 38 0.14 0.33 0.18 −021 90527 021 90528 −
680 10 ×30 00 640 106 38 0.14 0.323 0.175 021 16681 021 26681 −−
1000 12.5 ×30 01 720 154 54 0.14 0.220 0.095 021 16102 021 26102 −−
1500 12.5 ×30 01 790 229 79 0.17 0.179 0.095 021 16152 021 26152 −−
2200 15 ×30 02 1030 334 114 0.19 0.132 0.07 021 16222 021 26222 −021 46222
3300 18 ×30 03 1310 499 169 0.21 0.099 0.065 021 16332 −−021 46332
4700 18 ×40 04 1680 709 239 0.23 0.079 0.04 021 16472 −−021 46472
6800 21 ×40 05 2070 1024 344 0.28 0.064 0.035 021 16682 −−021 46682
UR
(V)
CR
100 Hz
(µF)
NOMINAL
CASE SIZE
∅D×L
(mm)
CASE
CODE
IR
100 Hz
85 °C
(mA)
IL1
1 min
(µA)
IL5
5 min
(µA)
Tan δ
100 Hz
ESR
100 Hz
(Ω)
Z
10 kHz
(Ω)
CATALOGUE NUMBER 2222 ... .....
AXIAL SINGLE ENDED
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
1997 Nov 12 7
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
40 22 4.5 ×10 2 60 9 5.8 0.11 8.0 3.2 −021 27229 021 37229 −
47 6 ×10 3 110 15 7.8 0.11 3.8 1.5 −021 27479 021 37479 −
100 8 ×11 5a 170 28 12 0.11 1.8 0.70 −021 90537 021 90538 −
100 6.5 ×18 4 190 28 12 0.11 1.8 0.70 −021 27101 021 37101 −
150 8 ×18 5 250 40 16 0.11 1.1 0.47 −021 27151 021 37151 −
220 10 ×18 6 330 57 22 0.11 0.8 0.32 −021 27221 021 37221 −
330 10 ×25 7 430 83 30 0.11 0.53 0.21 −021 27331 021 37331 −
470 10 ×25 7 520 117 42 0.11 0.37 0.18 −021 90514 021 90515 −
470 10 ×30 00 570 117 42 0.12 0.404 0.175 021 17471 021 27471 −−
680 12.5 ×30 01 620 167 58 0.12 0.297 0.095 021 17681 021 27681 −−
1000 12.5 ×30 01 770 244 84 0.12 0.190 0.095 021 17102 021 27102 −−
1500 15 ×30 02 930 364 124 0.15 0.159 0.07 021 17152 021 27152 −021 47152
2200 18 ×30 03 1200 532 180 0.17 0.118 0.065 021 17222 −−021 47222
3300 18 ×40 04 1550 796 268 0.19 0.090 0.04 021 17332 −−021 47332
4700 21 ×40 05 1880 1132 380 0.21 0.072 0.035 021 17472 −−021 47472
63 0.47 4.5 ×10 2 8 4.2 4.1 0.09 310 120 −021 28477 021 38477 −
1 4.5 ×10 2 12 4.4 4.1 0.09 150 55 −021 28108 021 38108 −
2.2 4.5 ×10 2 21 4.8 4.3 0.09 65 25 −021 28228 021 38228 −
3.3 4.5 ×10 2 25 5.2 4.4 0.09 44 17 −021 28338 021 38338 −
4.7 4.5 ×10 2 31 5.8 4.6 0.09 31 12 −021 28478 021 38478 −
10 4.5 ×10 2 50 7.8 5.3 0.08 13 5.5 −021 28109 021 38109 −
15 4.5 ×10 2 55 9.5 5.9 0.08 8.5 3.7 −021 28159 021 38159 −
22 6 ×10 3 90 12 6.8 0.08 5.8 2.5 −021 28229 021 38229 −
33 6 ×10 3 100 16 8.2 0.08 3.9 1.7 −021 28339 021 38339 −
47 8 ×11 5a 140 22 10 0.08 2.7 1.2 −021 90541 021 90542 −
47 6.5 ×18 4 150 22 10 0.08 2.7 1.2 −021 28479 021 38479 −
68 8 ×11 5a 160 30 13 0.08 1.9 0.81 −021 90544 021 90545 −
68 6.5 ×18 4 170 30 13 0.08 1.9 0.81 −021 28689 021 38689 −
100 8 ×18 5 250 42 17 0.08 1.3 0.55 −021 28101 021 38101 −
UR
(V)
CR
100 Hz
(µF)
NOMINAL
CASE SIZE
∅D×L
(mm)
CASE
CODE
IR
100 Hz
85 °C
(mA)
IL1
1 min
(µA)
IL5
5 min
(µA)
Tan δ
100 Hz
ESR
100 Hz
(Ω)
Z
10 kHz
(Ω)
CATALOGUE NUMBER 2222 ... .....
AXIAL SINGLE ENDED
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
1997 Nov 12 8
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
63 150 10 ×18 6 320 61 23 0.08 0.85 0.37 −021 28151 021 38151 −
220 10 ×25 7 430 88 32 0.08 0.60 0.25 −021 90511 021 90512 −
220 10 ×30 00 480 88 32 0.08 0.614 0.20 021 18221 021 28221 −−
330 12.5 ×30 01 530 129 46 0.08 0.409 0.14 021 18331 021 28331 −−
470 12.5 ×30 01 630 182 63 0.08 0.287 0.10 021 18471 021 28471 −−
680 15 ×30 02 830 261 90 0.08 0.199 0.080 021 18681 021 28681 −021 48681
1000 18 ×30 03 1120 382 130 0.08 0.135 0.065 021 18102 −−021 48102
1500 18 ×40 04 1350 571 193 0.11 0.122 0.04 021 18152 −−021 48152
2200 21 ×40 05 1780 836 281 0.13 0.099 0.035 021 18222 −−021 48222
100 1 4.5 ×10 2 14 4.6 4.2 0.08 130 90 −021 29108 021 39108 −
2.2 4.5 ×10 2 20 5.3 4.4 0.08 58 41 −021 29228 021 39228 −
4.7 4.5 ×10 2 30 7 4.9 0.08 27 19 −021 29478 021 39478 −
10 6 ×10 3 65 10 6 0.08 13 9 −021 29109 021 39109 −
15 8 ×11 5a 77 13 7 0.08 8.5 6 −021 90547 021 90548 −
15 6.5 ×18 4 85 13 7 0.08 8.5 6 −021 29159 021 39159 −
22 8 ×11 5a 95 17 8.4 0.08 5.8 4.1 −021 90551 021 90552 −
22 6.5 ×18 4 100 17 8.4 0.08 5.8 4.1 −021 29229 021 39229 −
33 6.5 ×18 4 120 24 10.6 0.08 3.9 2.7 −021 29339 021 39339 −
47 8 ×18 5 160 32 13.4 0.08 2.7 1.9 −021 29479 021 39479 −
68 10 ×18 6 220 45 17.6 0.08 1.9 1.3 −021 29689 021 39689 −
100 10 ×25 7 300 64 24 0.08 1.3 0.9 −021 90531 021 90532 −
100 10 ×30 00 360 64 24 0.07 1.150 1.0 021 19101 021 29101 −−
150 12.5 ×30 01 420 94 34 0.07 0.645 0.61 021 19151 021 29151 −−
220 12.5 ×30 01 460 136 48 0.08 0.610 0.56 021 19221 021 29221 −−
330 15 ×30 02 580 202 70 0.09 0.420 0.40 021 19331 021 29331 −021 49331
470 18 ×30 03 740 286 98 0.09 0.310 0.29 021 19471 −−021 49471
680 18 ×40 04 1050 412 140 0.09 0.195 0.18 021 19681 −−021 49681
1000 21 ×40 05 1260 604 204 0.10 0.160 0.15 021 19102 −−021 49102
UR
(V)
CR
100 Hz
(µF)
NOMINAL
CASE SIZE
∅D×L
(mm)
CASE
CODE
IR
100 Hz
85 °C
(mA)
IL1
1 min
(µA)
IL5
5 min
(µA)
Tan δ
100 Hz
ESR
100 Hz
(Ω)
Z
10 kHz
(Ω)
CATALOGUE NUMBER 2222 ... .....
AXIAL SINGLE ENDED
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
1997 Nov 12 9
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Additional electrical data
PARAMETER CONDITIONS VALUE
AXIAL SINGLE ENDED
Voltage
Surge voltage for short periods Us≤1.15 ×UR
Reverse voltage Urev ≤1V
Current
Leakage current after 1 minute at URIL1 ≤0.006CR×UR+4µA
after 5 minutes at UR:
UR= 6.3 V to 100 V IL5 ≤0.002CR×UR+4µA
Inductance
Equivalent series inductance (ESL) case ∅D×L mm:
4.5 ×10 typ. 10 nH −
6×10 typ. 22 nH −
8×11 typ. 85 nH −
6.5 ×18 typ. 25 nH −
8×18 typ. 40 nH −
10 ×18 typ. 61 nH −
10 ×25 typ. 38 nH −
10 ×30 typ. 38 nH −
12.5 ×30 typ. 46 nH −
15 ×30 typ. 48 nH typ. 39 nH
18 ×30 typ. 50 nH typ. 39 nH
18 ×40 typ. 54 nH typ. 39 nH
21 ×40 typ. 59 nH typ. 39 nH
1997 Nov 12 10
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Capacitance (C)
handbook, 4 columns
60 0 20
MGB200
40 40 60 80
Tamb ( C)
o
0.6
0.7
0.8
0.9
1.0
1.1
1.2
20
3
1
C
0
C
5,6
4
1,2
2
3,4,5,6
Fig.6 Typical multiplier of capacitance as a function of ambient temperature.
Curve 1: 10 V.
Curve 2: 16 V.
Curve 3: 25 V.
Curve 4: 40 V.
Curve 5: 63 V.
Curve 6: 100 V.
C0= capacitance at 20 °C, 100 Hz.
Case ∅D×L=4.5×10 to 10 ×25 mm.
Fig.7 Typical multiplier of capacitance as a function of ambient temperature.
handbook, 4 columns
020
MGB201
40 20 40 60 80
0.8
0.9
1.0
1.1
Tamb ( C)
o
0.760
1
3
4
1
C0
C
5
2
5
Curve 1: 10 V.
Curve 2: 16 V.
Curve 3: 25 V.
Curve 4: 40 V.
Curve 5: 63 V.
C0= capacitance at 20 °C, 100 Hz.
Case ∅D×L=10×30 to 21 ×40 mm.
1997 Nov 12 11
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Equivalent series resistance (ESR)
Fig.8 Typical multiplier of capacitance as a function of frequency.
Curve 1: 10 V.
Curve 2: 16 V.
Curve 3: 25 V.
Curve 4: 40 V.
Curve 5: 63 V.
C0= capacitance at 20 °C; 100 Hz.
handbook, 4 columns
104
MGB202
103
102
10 f (Hz)
0.7
0.8
0.9
1.0
C0
C
1
2
3
4
5
Fig.9 Typical multiplier of ESR as a function of ambient temperature.
Curve 1: 10 V.
Curve 2: 63 V (≥4.7 µF).
Curve 3: 100 V.
ESR0= typical ESR at 20 °C, 100 Hz.
Case ∅D×L = 4.5 ×10 to 10 ×25 mm.
handbook, 4 columns
MGB203
0 50 100
1
10
50 Tamb ( C)
o
ESR0
ESR
10 2
10 1
1
2
3
1
2
3
1997 Nov 12 12
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Fig.10 Typical multiplier of ESR as a function of ambient temperature.
Curve 1: 10 V; 16 V; 25 V.
Curve 2: 40 and 63 V.
ESR0= typical ESR at 20 °C, 100 Hz.
Case ∅D×L=10×30, 12.5 ×30 and 15 ×30 mm.
handbook, 4 columns
MGB204
0 50 100
1
10
50 Tamb ( C)
o
ESR0
ESR
10 2
10 1
1
2
2
1
Fig.11 Typical multiplier of ESR as a function of ambient temperature.
Curve 1: 10 V; 16 V; 25 V.
Curve 2: 40 and 63 V.
ESR0= typical ESR at 20 °C, 100 Hz.
Case ∅D×L=18×30, 18 ×40 and 21 ×40 mm.
handbook, 4 columns
MGB205
0 50 100
1
10
50 Tamb ( C)
o
ESR0
ESR
10 2
10 1
1
2
2
1
1997 Nov 12 13
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Fig.12 Typical multiplier of ESR as a function of frequency.
Curve 1: 10 V.
Curve 2: 63 V (≥4.7 µF).
ESR0= typical ESR at 20 °C, 100 Hz.
Case ∅D×L = 4.5 ×10 to 10 ×25 mm.
handbook, 4 columns
0105
MGB206
104
103
102
10 f (Hz)
0.4
0.8
1.2
1.6
2.0
2
1
ESR0
ESR
1
2
Curve 1: 10 V.
Curve 2: 16 V.
Curve 3: 25 V.
Curve 4: 40 and 100 V.
Curve 5: 63 V.
ESR0= typical ESR at 20 °C, 100 Hz.
Case ∅D×L=10×30 to 21 ×40 mm.
Fig.13 Typical multiplier of ESR as a function of frequency.
handbook, 4 columns
0.4 105
MGB207
104
103
102
10 f (Hz)
0.6
0.8
1.0
1.2
1.4
ESR0
ESR
2
1
3
4
1
5
5
1997 Nov 12 14
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Impedance (Z)
Table 4 Impedance ×capacitance values (case ∅D×L = 4.5 ×10 to 10 ×25 mm
Tamb Ζ=Z×C
R(Ω⋅µF) at 10 kHz
6.3 V 10 V 16 V 25 V 40 V 63 V 100 V
+20 °C≤300 ≤200 ≤160 ≤120 ≤70 ≤55 ≤90
−25 °C≤2000 ≤1200 ≤750 ≤560 ≤300 ≤180 ≤600
−40 °C≤5500 ≤3200 ≤2000 ≤1500 ≤900 ≤500 ≤1600
Fig.14 Typical impedance as a function of frequency.
Curve 1: 1 µF, 63 V; ∅4.5 ×10 mm.
Curve 2: 2.2 µF, 63 V; ∅4.5 ×10 mm.
Curve 3: 4.7 µF, 63 V; ∅4.5 ×10 mm.
Curve 4: 10 µF, 63 V; ∅4.5 ×10 mm.
Curve 5: 22 µF, 63 V; ∅6×10 mm.
Curve 6: 47 µF, 40 V; ∅6×10 mm.
Curve 7: 100 µF, 25 V; ∅6×10 mm.
Curve 8: 220 µF, 25 V; ∅6.5 ×18 mm.
Curve 9: 470 µF, 10 V; ∅6.5 ×18 mm.
Curve 10: 1000 µF, 6.3 V; ∅6.5 ×25 mm.
Case ∅D×L = 4.5 ×10 to 6.5 ×25 mm.
handbook, 4 columns
MBA713
106
105
104
103
102
103
102
10
1
f (Hz)
Z
( )Ω
104
6
7
8
9
10
1
2
3
4
5
10 1
1997 Nov 12 15
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Fig.15 Typical impedance as a function of frequency.
Curve 1: 47 µF, 63 V; ∅8×11 mm.
Curve 2: 100 µF, 63 V; ∅8×18 mm.
Curve 3: 220 µF, 40 V; ∅10 ×18 mm.
Curve 4: 470 µF, 25 V; ∅10 ×18 mm.
Curve 5: 1000 µF, 10 V; ∅10 ×18 mm.
Curve 6: 1000 µF, 16 V; ∅10 ×25 mm.
Curve 7: 2200 µF, 6.3 V; ∅10 ×25 mm.
Case ∅D×L=8×11 to 10 ×25 mm.
handbook, 4 columns
MBA714
5432 1010101010
103
102
10
1
f (Hz)
Z
( )Ω
5
6
1
2
3
4
7
10 1
Curve 1: 330 µF, 63 V.
Curve 2: 470 µF, 63 V.
Curve 3: 680 µF, 40 V.
Curve 4: 1000 µF, 25 and 40 V.
Curve 5: 1500 µF, 16 and 25 V.
Curve 6: 2200 µF, 10 and 16 V.
Curve 7: 3300 µF, 10 V.
Case ∅D×L = 12.5 ×30 mm.
Tamb =−40°C.
Fig.16 Typical impedance as a function of frequency.
handbook, 4 columns
106
MGB208
105
104
103
102
10 107
f (Hz)
102
10
1
10 2
Z
( )Ω
10 1
1
6
2
3
4
5
7
1997 Nov 12 16
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
Fig.17 Typical impedance as a function of frequency.
Curve 1: 330 µF, 63 V.
Curve 2: 470 µF, 63 V.
Curve 3: 680 µF, 40 V.
Curve 4: 1000 µF, 25 and 40 V.
Curve 5: 1500 µF, 16 and 25 V.
Curve 6: 2200 µF, 10 and 16 V.
Curve 7: 3300 µF, 10 V.
Case ∅D×L = 12.5 ×30 mm.
Tamb =20°C.
handbook, 4 columns
106
MGB209
105
104
103
102
10 107
f (Hz)
102
10
1
1
Z
( )Ω
10 1
10 2
2
3
4
5
6
7
Fig.18 Typical impedance as a function of frequency.
Curve 1: 1000 µF, 63 V.
Curve 2: 2200 µF, 40 V.
Curve 3: 3300 µF, 25 V.
Curve 4: 4700 µF, 16 V.
Curve 5: 6800 µF, 10 V.
Case ∅D×L=18×30 mm.
Tamb =−40°C.
handbook, 4 columns
106
MGB210
105
104
103
102
10 107
f (Hz)
102
10
1
Z
( )Ω
10 1
10 2
1
2
3
4
5
1997 Nov 12 17
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
MARKING
The capacitors are marked (where possible) with the following information:
•Rated capacitance (in µF)
•Tolerance on nominal capacitance (in accordance with
“IEC 62”
)
•Rated voltage (in V)
•Group number (021)
•Name of manufacturer (PHILIPS)
•Date code in accordance with
“IEC 62”
•Code for factory of origin
•Band to indicate the negative terminal
•“+” sign to identify the positive terminal (not for case sizes L <18 mm).
Fig.19 Typical impedance as a function of frequency.
Curve 1: 1000 µF, 63 V.
Curve 2: 2200 µF, 40 V.
Curve 3: 3300 µF, 25 V.
Curve 4: 4700 µF, 16 V.
Curve 5: 6800 µF, 10 V.
Case ∅D×L=18×30 mm.
Tamb =20°C.
handbook, 4 columns
106
MGB211
105
104
103
102
10 107
f (Hz)
102
10
13
Z
( )Ω
10 1
10 2
1
2
4
5
1997 Nov 12 18
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
RIPPLE CURRENT AND USEFUL LIFE
Multiplier of ripple current (IR/IRO) as a function of frequency (IRO = rated ripple current at 100 Hz and 85 °C)
FREQUENCY
(Hz) IR MULTIPLIER
UR= 6.3 to 16 V UR=25to40V U
R= 63 to 100 V
50 0.95 0.9 0.85
100 1 1 1
300 1.07 1.12 1.2
1000 1.12 1.2 1.3
3000 1.15 1.25 1.35
≥10000 1.2 1.3 1.4
Fig.20 Multiplier of useful life as a function of ambient temperature and ripple current load.
IA= actual ripple current at 100 Hz.
IR= rated ripple current at 100 Hz, 85 °C.
(1) Useful life at 85 °C and IR applied:
Case ∅D×L = 4.5 ×10 to 10 ×25 mm: 2500 hours
Case ∅D×L=10×30 to 21 ×40 mm: 8000 hours.
handbook, full pagewidth
3.3
3.2
3.0
2.8
2.6
2.4
2.2
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.5
0.0
3.1
40 50 60 70 80 90 100
T ( C)
amb o
IA
R
I
MBC243
lifetime multiplier
(1)
70
50
6.0
4.0
2.0
1.5
30
15
10
3.0
20
1.0
1997 Nov 12 19
Philips Components Product specification
Non-solid Al - electrolytic capacitors
Axial Standard Miniature ASM 021
SPECIFIC TESTS AND REQUIREMENTS
General tests and requirements are specified in this handbook, section
“Tests and Requirements”
.
Table 5 Test procedures and requirements
TEST PROCEDURE
(quick reference) REQUIREMENTS
NAME OF TEST REFERENCE
Endurance IEC 384-4/
CECC 30300
subclause 4.13
Tamb =85°C; UR applied;
case ∅D×L = 4.5 ×10 to 10 ×25 mm,
UR= 6.3 to 25 V: 1000 hours
UR= 40 to 100 V: 2000 hours;
case ∅D×L=10×30 to 21 ×40 mm,
UR= 6.3 to 100 V: 5000 hours
UR≤6.3 V; ∆C/C: +15/−30%
UR>6.3 V; ∆C/C: ±15%
tan δ≤1.3 ×spec. limit
Z≤2×spec. limit
IL5 ≤spec. limit
Useful life CECC 30301
subclause 1.8.1 Tamb =85°C; UR and IR applied;
case ∅D×L = 4.5 ×10 to 10 ×25 mm:
2500 hours;
case ∅D×L=10×30 to 21 ×40 mm:
8000 hours
UR≤6.3 V; ∆C/C: +45/−50%
UR>6.3 V; ∆C/C: ±45%
tan δ≤3×spec. limit
Z≤3×spec. limit
IL5 ≤spec. limit
no short or open circuit
total failure percentage: ≤1%
Shelf life
(storage at
high temperature)
IEC 384-4/
CECC 30300
subclause 4.17
Tamb =85°C; no voltage applied;
500 hours;
after test: UR to be applied for
30 minutes, 24 to 48 hours before
measurement
∆C/C, tan δ, Z: for requirements
see ‘Endurance test’ above
IL5 ≤2×spec. limit
