Product specifi cations in this catalog are subject to change without notice.Request our product specifi cations before purchase and/or use. Please use our products based on the information contained in this catalog and product specifi cations.
MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS
Bi-polar, 105
L' 15min. 4min.
φD'
φd
F±0.5
Vent
(except φ5)
F±0.5
Sleeve (PET : Brown)
SPECIFICATIONS
Category
Temperature Range
Rated Voltage Range
Capacitance Tolerance
Leakage Current
Dissipation Factor
(tanδ)
Low Temperature
Characteristics
(Max. Impedance Ratio)
Endurance
Shelf Life
Items Characteristics
6.3V
0.24
10V
0.24
16V
0.20
25V
0.20
35V
0.16
50V
0.14
63V
0.12
80V
0.12
100V
0.10
6.3V
4
10
10V
3
8
35V
2
3
50V
2
3
63V
2
3
80V
2
3
100V
2
3
16V
2
6
25V
2
4
DIMENSIONS [mm]
PART NUMBERING SYSTEM
5
0.5
2.0
6.3
0.5
2.5
8
0.6
3.5
12.5
0.6
5.0
16
0.8
7.5
18
0.8
7.5
10
0.6
5.0
L+1.5max.
Gas escape end seal
(φ12.5 to φ18)
Terminal Code : E
(at 20, 120Hz)
(at 20, 120Hz)
(at 120Hz)
-
55 to +105
6.3 to 100Vdc
±20% (M)
I=0.06CV or 10µA, whichever is greater. (at 20 after 2 minutes)
I=0.03CV or 3µA, whichever is greater. (at 20 after 5 minutes)
Where, I : Max. leakage current (µA), C : Nominal capacitance (µF), V : Rated voltage (V)
Rated voltage (Vdc)
tanδ (Max.)
When nominal capacitance exceeds 1,000µF, add 0.02 to the value above for each 1,000µF increase.
Rated voltage (Vdc)
Z(
-
25)/Z(+20)
Z(
-
40)/Z(+20)
The following specifications shall be satisfied when the capacitors are restored to 20 after the rated voltage is applied for 1,000 hours
at 105, however the polarization shall be reversed every 250 hours.
Rated voltage 6.3 to 16Vdc
Capacitance change ≦±25% of the initial value ≦±20% of the initial value
D.F. (tanδ)150% of the initial specified value
Leakage current The initial specified value
The following specifications shall be satisfied when the capacitors are restored to 20 after exposing them for 500 hours at 105 without
voltage applied. Before the measurement, the capacitor shall be preconditioned by applying voltage according to Item 4.1 of JIS C 5101-4.
Rated voltage 6.3 to 16Vdc 25 to 100Vdc
Capacitance change ≦±25% of the initial value ≦±20% of the initial value
D.F. (tanδ)150% of the initial specified value
Leakage current The initial specified value
Supplement code
Size code
Capacitance tolerance code
Lead forming·taping code
Terminal code
Voltage code (ex. 6.3V:6R3,35V:350,50V:500)
Series code
Category
B K M E A A A EA A A A A A A A NM
1342 6 7 8 9 10 1312518171611 1514
Please refer to "Product code guide (radial lead type)"
Standard Bi-polar type
Endurance : 1,000 hours at 105
Solvent resistant type (see PRECAUTIONS AND GUIDELINES)
RoHS Compliant
25 to 100Vdc
φ
D
φ
d
F
φ
D'
L'
Capacitance code (ex. 1.0µF:1R0,10µF:100,100µF:101)
φD+0.5max.
(1/2)
(φ5 to φ10)
Se
ri
e
s
K
ME BP
-
CAT. No. E1001M
Product specifi cations in this catalog are subject to change without notice.Request our product specifi cations before purchase and/or use. Please use our products based on the information contained in this catalog and product specifi cations.
MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS
Bi-polar, 105
STANDARD RATINGS
□□ : Enter the appropriate lead forming or taping code.
WV
(Vdc)
Cap
(µF)
Case size
φD×L(mm) tanδ
Rated ripple
current
(mArms/
105
,120Hz)
Part No.
6.3
33 5×11 0.24 45 BKME6R3E□□330ME11D
47 5×11 0.24 54 BKME6R3E□□470ME11D
100 6.3×11 0.24 90 BKME6R3E□□101MF11D
220 8×11.5 0.24 150 BKME6R3E□□221MHB5D
330 8×11.5 0.24 185 BKME6R3E□□331MHB5D
470 10×12.5 0.24 260 BKME6R3E□□471MJC5S
1,000 10×20 0.24 460 BKME6R3E□□102MJ20S
2,200 12.5×25 0.26 820 BKME6R3E□□222MK25S
3,300 16×25 0.28 1,110 BKME6R3E□□332ML25S
4,700 16×31.5 0.30 1,430 BKME6R3E□□472MLN3S
6,800 18×35.5 0.34 1,830 BKME6R3E□□682MMP1S
10
22 5×11 0.24 37 BKME100E□□220ME11D
33 5×11 0.24 45 BKME100E□□330ME11D
47 5×11 0.24 54 BKME100E□□470ME11D
100 6.3×11 0.24 90 BKME100E□□101MF11D
220 8×11.5 0.24 150 BKME100E□□221MHB5D
330 10×16 0.24 240 BKME100E□□331MJ16S
470 10×16 0.24 290 BKME100E□□471MJ16S
1,000 12.5×20 0.24 510 BKME100E□□102MK20S
2,200 16×25 0.26 910 BKME100E□□222ML25S
3,300 16×31.5 0.28 1,200 BKME100E□□332MLN3S
4,700 18×35.5 0.30 1,520 BKME100E□□472MMP1S
16
10 5×11 0.20 27 BKME160E□□100ME11D
22 5×11 0.20 40 BKME160E□□220ME11D
33 5×11 0.20 49 BKME160E□□330ME11D
47 6.3×11 0.20 67 BKME160E□□470MF11D
100 8×11.5 0.20 110 BKME160E□□101MHB5D
220 10×12.5 0.20 195 BKME160E□□221MJC5S
330 10×16 0.20 265 BKME160E□□331MJ16S
470 10×20 0.20 345 BKME160E□□471MJ20S
1,000 12.5×25 0.20 605 BKME160E□□102MK25S
2,200 16×31.5 0.22 1,070 BKME160E□□222MLN3S
3,300 18×35.5 0.24 1,400 BKME160E□□332MMP1S
25
10 5×11 0.20 27 BKME250E□□100ME11D
22 6.3×11 0.20 46 BKME250E□□220MF11D
33 6.3×11 0.20 56 BKME250E□□330MF11D
47 6.3×11 0.20 67 BKME250E□□470MF11D
100 8×11.5 0.20 110 BKME250E□□101MHB5D
220 10×16 0.20 215 BKME250E□□221MJ16S
330 12.5×20 0.20 320 BKME250E□□331MK20S
470 12.5×20 0.20 380 BKME250E□□471MK20S
1,000 16×25 0.20 670 BKME250E□□102ML25S
2,200 18×35.5 0.22 1,140 BKME250E□□222MMP1S
35
4.7 5×11 0.16 21 BKME350E□□4R7ME11D
10 5×11 0.16 30 BKME350E□□100ME11D
22 6.3×11 0.16 51 BKME350E□□220MF11D
33 8×11.5 0.16 72 BKME350E□□330MHB5D
47 8×11.5 0.16 86 BKME350E□□470MHB5D
WV
(Vdc)
Cap
(µF)
Case size
φD×L(mm) tanδ
Rated ripple
current
(mArms/
105
,120Hz)
Part No.
35
100 10×16 0.16 160 BKME350E□□101MJ16S
220 12.5×20 0.16 290 BKME350E□□221MK20S
330 12.5×20 0.16 350 BKME350E□□331MK20S
470 12.5×25 0.16 465 BKME350E□□471MK25S
1,000
16×31.5 0.16 805 BKME350E□□102MLN3S
50
1.0 5×11 0.14 10 BKME500E□□1R0ME11D
2.2 5×11 0.14 15 BKME500E□□2R2ME11D
3.3 5×11 0.14 18 BKME500E□□3R3ME11D
4.7 5×11 0.14 22 BKME500E□□4R7ME11D
10 6.3×11 0.14 37 BKME500E□□100MF11D
22 8×11.5 0.14 63 BKME500E□□220MHB5D
33 8×11.5 0.14 77 BKME500E□□330MHB5D
47 10×12.5 0.14 105 BKME500E□□470MJC5S
100 10×20 0.14 190 BKME500E□□101MJ20S
220 12.5×25 0.14 340 BKME500E□□221MK25S
330 16×25 0.14 460 BKME500E□□331ML25S
470 16×31.5 0.14 590 BKME500E□□471MLN3S
63
3.3 5×11 0.12 20 BKME630E□□3R3ME11D
4.7 6.3×11 0.12 24 BKME630E□□4R7MF11D
10 6.3×11 0.12 40 BKME630E□□100MF11D
22 8×11.5 0.12 68 BKME630E□□220MHB5D
33 10×12.5 0.12 98 BKME630E□□330MJC5S
47 10×16 0.12 130 BKME630E□□470MJ16S
100 12.5×20 0.12 225 BKME630E□□101MK20S
220 16×25 0.12 405 BKME630E□□221ML25S
330 16×31.5 0.12 535 BKME630E□□331MLN3S
470 18×35.5 0.12 680 BKME630E□□471MMP1S
80
2.2 5×11 0.12 16 BKME800E□□2R2ME11D
3.3 6.3×11 0.12 23 BKME800E□□3R3MF11D
4.7 6.3×11 0.12 27 BKME800E□□4R7MF11D
10 8×11.5 0.12 46 BKME800E□□100MHB5D
22 10×16 0.12 89 BKME800E□□220MJ16S
33 10×16 0.12 105 BKME800E□□330MJ16S
47 10×20 0.12 140 BKME800E□□470MJ20S
100 12.5×25 0.12 245 BKME800E□□101MK25S
220 16×31.5 0.12 435 BKME800E□□221MLN3S
330 18×35.5 0.12 570 BKME800E□□331MMP1S
100
1.0 5×11 0.10 12 BKME101E□□1R0ME11D
2.2 6.3×11 0.10 20 BKME101E□□2R2MF11D
3.3 6.3×11 0.10 25 BKME101E□□3R3MF11D
4.7 6.3×11 0.10 30 BKME101E□□4R7MF11D
10 8×11.5 0.10 50 BKME101E□□100MHB5D
22 10×16 0.10 97 BKME101E□□220MJ16S
33 12.5×20 0.10 140 BKME101E□□330MK20S
47 12.5×20 0.10 170 BKME101E□□470MK20S
100 16×25 0.10 300 BKME101E□□101ML25S
220 18×35.5 0.10 510 BKME101E□□221MMP1S
RATED RIPPLE CURRENT MULTIPLIERS
50
0.65
0.75
0.80
0.85
120
1.00
1.00
1.00
1.00
300
1.35
1.25
1.15
1.03
1k
1.75
1.50
1.30
1.05
10k
2.30
1.75
1.40
1.08
100k
2.50
1.80
1.50
1.08
Capacitance (
μ
F)
Frequency (Hz)
1.0 to 4.7
10 to 47
100 to 1,000
2,200 to
Frequency Multipliers
The endurance of capacitors is reduced with internal heating produced by ripple current at the rate of halving the lifetime with every 5 rise.
When long life performance is required in actual use, the rms ripple current has to be reduced.
(2/2)
Se
ri
e
s
K
ME BP
-
CAT. No. E1001M