AT212025 - Celduc - Datasheet.Live

150 RMI

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Aluminum Electrolytic Capacitors

Radial Miniature, Low Impedance

Fig. 1

FEATURES

• Very long useful life: 4000 h to 10 000 h at

105 °C, high stability, high reliability

• Very low impedance and low ESR in smaller

case sizes than the 136 RVI series

• Excellent ripple current capability

• AEC-Q200 qualified

• Polarized aluminum electrolytic capacitors,

non-solid electrolyte

• Radial leads, cylindrical aluminum case with pressure

relief, insulated with a blue sleeve

• Charge and discharge proof

• Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

APPLICATIONS

• Power supplies (SMPS, DC/DC converters) for general

industrial, EDP, audio-video, automotive, and

telecommunications

• Smoothing, filtering, buffering

MARKING

The capacitors are marked (where possible) with the

following information:

• Rated capacitance (in μF)

• Tolerance on rated capacitance, code letter in accordance

with IEC 60062 (M for ± 20 %)

• Rated voltage (in V)

• Date code, in accordance with IEC 60062

• Code indicating factory of origin

• Name of manufacturer

• Upper category temperature (105 °C)

• Negative terminal identification

• Series number (150)

QUICK REFERENCE DATA

DESCRIPTION VALUE

Nominal case sizes (Ø D x L in mm) 8 x 12 to 18 x 40

Rated capacitance range, CR22 μF to 8200 μF

Tolerance on CR± 20 %

Rated voltage range, UR10 V to 100 V

Category temperature range -55 °C to +105 °C

Endurance test at 105 °C 3000 h to 6000 h

Useful life at 105 °C 4000 h to 10 000 h

Useful life at 40 °C, 1.8 x IR applied 200 000 h to 500 000 h

Shelf life at 0 V, 105 °C 1000 h

Based on sectional specification IEC 60384-4 / EN130300

Climatic category IEC 60068 55 / 105 / 56

150 RMI

048 RML lower Z

longer life

136 RVI

miniaturize

148 RUS

SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)

(μF)

UR (V)

10 16 25 35 50 63 100

22------8 x 12

47 - - - - - 8 x 12 -

100 - - - 8 x 12 - 10 x 12 -

150 - - - - 10 x 12 10 x 16 -

220 - 8 x 12 8 x 12 8 x 15 10 x 16 10 x 20 -

- - - 10 x 12 - - -

330 - 8 x 12 10 x 12 10 x 16 10 x 20 12.5 x 20 18 x 20

470 8 x 12 8 x 15 10 x 16 10 x 20 12.5 x 20 12.5 x 25 -

- 10 x 12 - - - 16 x 20 -

680 10 x 12 10 x 16 10 x 20 12.5 x 20 12.5 x 25 16 x 20 -

-----16 x 25-

1000 10 x 16 10 x 20 12.5 x 20 12.5 x 25 16 x 25 16 x 31 -

- - - 16 x 20 - - -

1200 - - - - 16 x 31 - -

1500 - 12.5 x 20 12.5 x 25 16 x 20 16 x 31 - -

- - - 12.5 x 35 - - -

2200 12.5 x 20 12.5 x 25 16 x 20 16 x 31 - 18 x 40 -

- - 12.5 x 35 - - - -

3300 12.5 x 25 16 x 20 16 x 31 18 x 31 18 x 40 - -

4700 16 x 25 16 x 31 16 x 35 18 x 40 - - -

6800 16 x 31 16 x 35 18 x 40 - - - -

8200 - 18 x 40 - - - - -

150 RMI

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DIMENSIONS in millimeters AND AVAILABLE FORMS

Fig. 2 - Form CA: Long leads Fig. 3 - Form CB: Cut leads

Fig. 4 - Form TFA: Taped in box (ammopack)

Table 1

F15

min.

Ø d

Ø D

Ø d

DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES

NOMINAL

CASE SIZE

Ø D x L

CASE

CODE Ø d Ø Dmax. Lmax. FMASS

(g)

PACKAGING QUANTITIES

FORM

TFA

8 x 12 13 0.6 8.5 13.0 3.5 ± 0.5  1.1 5000 5000 1000

8 x 15 13L 0.6 8.5 16.0 3.5 ± 0.5  1.3 5000 5000 1000

10 x 12 14 0.6 10.5 13.5 5.0 ± 0.5  1.6 1000 500 800

10 x 16 15 0.6 10.5 17.5 5.0 ± 0.5  1.9 500 500 800

10 x 20 16 0.6 10.5 22.0 5.0 ± 0.5  2.2 500 500 800

12.5 x 20 17 0.6 13.0 22.0 5.0 ± 0.5  4.0 500 500 500

12.5 x 25 18 0.6 13.0 27.0 5.0 ± 0.5 5.0 250 250 500

12.5 x 35 18LL 0.6 13.0 37.5 5.0 ± 0.5 6.0 250 250 -

16 x 20 19a 0.8 16.5 22.0 7.5 ± 0.5 6.0 250 250 250

16 x 25 19 0.8 16.5 27.0 7.5 ± 0.5 8.0 250 250 250

16 x 31 20 0.8 16.5 33.5 7.5 ± 0.5 9.0 100 100 250

16 x 35 21 0.8 16.5 37.5 7.5 ± 0.5  11.0 100 100 -

18 x 20 1820 0.8 18.5 22.0 7.5 ± 0.5  8.0 100 100 -

18 x 31 1831 0.8 18.5 33.5 7.5 ± 0.5  12.5 100 100 -

18 x 40 1840 0.8 18.5 42.5 7.5 ± 0.5  16.5 100 100 -

Formed leads for Ø D = 8 mm with pitch F = 5 mm

150 RMI

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Note

• Unless otherwise specified, all electrical values in Table 2 apply

at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.

ORDERING EXAMPLE

Electrolytic capacitor 150 series

470 μF / 16 V; ± 20 %

Nominal case size: Ø 10 mm x 12 mm; Form TFA

Ordering Code: MAL215035471E3

Former 12NC: 2222 150 35471

Table 2

ELECTRICAL DATA

SYMBOL DESCRIPTION

CRRated capacitance at 100 Hz, tolerance ± 20 %

IRRated RMS ripple current at 100 kHz, 105 °C

IL2 Max. leakage current after 2 min at UR

tan Max. dissipation factor at 100 Hz

Z Max. impedance at 100 kHz

ELECTRICAL DATA AND ORDERING INFORMATION

(V)

100 Hz

(μF)

NOMINAL

CASE SIZE

Ø D x L

(mm)

100 kHz

105 °C

(mA)

IL2

2 min

(μA)

tan 

100 Hz

100 kHz

+20 °C

()

100 kHz

-40 °C

()

ORDERING CODE

MAL2150.......

BULK PACKAGING TAPED

FORM CA FORM CB FORM TFA

470 8 x 12 555 47 0.19 0.117 0.870 54471E3 84471E3 34471E3

680 10 x 12 730 71 0.19 0.097 0.680 54681E3 64681E3 34681E3

1000 10 x 16 950 103 0.19 0.066 0.460 54102E3 64102E3 34102E3

2200 12.5 x 20 1460 223 0.21 0.037 0.260 54222E3 64222E3 34222E3

3300 12.5 x 25 1950 333 0.21 0.029 0.200 54332E3 64332E3 34332E3

4700 16 x 25 2390 473 0.23 0.022 0.150 54472E3 64472E3 34472E3

6800 16 x 31 2890 683 0.25 0.019 0.130 54682E3 64682E3 34682E3

220 8 x 12 555 35 0.16 0.117 0.870 55221E3 85221E3 35221E3

330 8 x 12 555 53 0.16 0.117 0.870 55331E3 85331E3 35331E3

470 8 x 15 730 78 0.16 0.085 0.750 95475E3 95478E3 95473E3

470 10 x 12 730 78 0.16 0.097 0.680 55471E3 65471E3 35471E3

680 10 x 16 950 112 0.16 0.066 0.460 55681E3 65681E3 35681E3

1000 10 x 20 1180 163 0.16 0.049 0.340 55102E3 65102E3 35102E3

1500 12.5 x 20 1460 243 0.16 0.037 0.260 55152E3 65152E3 35152E3

2200 12.5 x 25 1950 355 0.18 0.029 0.200 55222E3 65222E3 35222E3

3300 16 x 20 1840 531 0.20 0.028 0.200 55332E3 65332E3 35332E3

4700 16 x 31 2890 755 0.22 0.019 0.130 55472E3 65472E3 35472E3

6800 16 x 35 3100 1091 0.24 0.018 0.130 55682E3 65682E3 -

8200 18 x 40 3500 1315 0.28 0.018 0.130 55822E3 65822E3 -

220 8 x 12 555 55 0.14 0.117 0.870 56221E3 86221E3 36221E3

330 10 x 12 730 86 0.14 0.097 0.680 56331E3 66331E3 36331E3

470 10 x 16 950 121 0.14 0.066 0.460 56471E3 66471E3 36471E3

680 10 x 20 1180 173 0.14 0.049 0.340 56681E3 66681E3 36681E3

1000 12.5 x 20 1460 253 0.14 0.037 0.260 56102E3 66102E3 36102E3

1500 12.5 x 25 1950 378 0.14 0.029 0.200 56152E3 66152E3 36152E3

2200 12.5 x 35 2510 553 0.16 0.028 0.200 96225E3 96226E3 -

2200 16 x 20 1840 553 0.16 0.028 0.200 56222E3 66222E3 36222E3

3300 16 x 31 2890 828 0.16 0.019 0.130 56332E3 66332E3 36332E3

4700 16 x 35 3100 1178 0.18 0.018 0.130 56472E3 66472E3 -

6800 18 x 40 3500 1703 0.22 0.018 0.130 56682E3 66682E3 -

100 8 x 12 555 35 0.12 0.117 0.870 50101E3 80101E3 30101E3

220 8 x 15 730 77 0.12 0.085 0.750 90225E3 90228E3 90223E3

220 10 x 12 730 80 0.12 0.097 0.680 50221E3 60221E3 30221E3

330 10 x 16 950 118 0.12 0.066 0.460 50331E3 60331E3 30331E3

470 10 x 20 1180 167 0.12 0.049 0.340 50471E3 60471E3 30471E3

680 12.5 x 20 1460 241 0.12 0.037 0.260 50681E3 60681E3 30681E3

1000 12.5 x 25 1950 353 0.12 0.029 0.200 50102E3 60102E3 30102E3

1000 16 x 20 1840 353 0.12 0.028 0.200 90105E3 90106E3 90103E3

1500 12.5 x 35 2510 528 0.12 0.028 0.200 90186E3 90187E3 -

1500 16 x 20 1840 528 0.12 0.028 0.200 50152E3 60152E3 30152E3

2200 16 x 31 2890 773 0.14 0.019 0.130 50222E3 60222E3 30222E3

3300 18 x 31 3000 1155 0.16 0.019 0.130 50332E3 60332E3 -

4700 18 x 40 3300 1648 0.18 0.018 0.130 50472E3 60472E3 -

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CAPACITANCE (C)

Fig. 5 - Typical multiplier of capacitance as a function

of ambient temperature

Fig. 6 - Typical multiplier of capacitance as

a function of frequency

150 10 x 12 500 78 0.10 0.200 1.400 51151E3 61151E3 31151E3

220 10 x 16 700 113 0.10 0.120 0.840 51221E3 61221E3 31221E3

330 10 x 20 900 168 0.10 0.090 0.630 51331E3 61331E3 31331E3

470 12.5 x 20 1100 238 0.10 0.062 0.430 51471E3 61471E3 31471E3

680 12.5 x 25 1400 343 0.10 0.048 0.340 51681E3 61681E3 31681E3

1000 16 x 25 1800 503 0.10 0.034 0.240 51102E3 61102E3 31102E3

1200 16 x 31 2200 603 0.10 0.027 0.190 51122E3 61122E3 31122E3

1500 16 x 31 2200 753 0.10 0.027 0.190 51152E3 61152E3 31152E3

3300 18 x 40 3200 1653 0.14 0.024 0.168 51332E3 61332E3 -

47 8 x 12 405 30 0.09 0.342 2.350 58479E3 88479E3 38479E3

100 10 x 12 420 66 0.10 0.270 1.890 58101E3 68101E3 38101E3

150 10 x 16 560 97 0.10 0.190 1.330 58151E3 68151E3 38151E3

220 10 x 20 700 141 0.10 0.150 1.050 58221E3 68221E3 38221E3

330 12.5 x 20 930 211 0.10 0.095 0.670 58331E3 68331E3 38331E3

470 12.5 x 25 1200 299 0.10 0.067 0.470 58471E3 68471E3 38471E3

470 16 x 20 1100 299 0.10 0.074 0.520 98475E3 98476E3 98473E3

680 16 x 20 1100 431 0.10 0.074 0.520 58681E3 68681E3 38681E3

680 16 x 25 1500 431 0.10 0.054 0.380 98685E3 98686E3 98683E3

1000 16 x 31 1900 633 0.10 0.042 0.295 58102E3 68102E3 38102E3

2200 18 x 40 3100 1389 0.12 0.033 0.231 58222E3 68222E3 -

100 22 8 x 12 230 22 0.08 0.68 27.0 59229E3 89229E3 39229E3

330 18 x 20 1700 330 0.07 0.074 2.0 90183E3 90185E3 -

ADDITIONAL ELECTRICAL DATA

PARAMETER CONDITIONS VALUE

Voltage

Surge voltage Us  1.15 x UR

Reverse voltage Urev  1 V

Current

Leakage current After 2 min at URIL2  0.01 CR x UR + 3 μA

Inductance

Equivalent series inductance (ESL) Case Ø D  10 mm Typ. 16 nH

Case Ø D  12.5 mm Typ. 18 nH

Resistance

Equivalent series resistance (ESR) Calculated from tan max. and CR (see Table 2) ESR = tan /2f CR

ELECTRICAL DATA AND ORDERING INFORMATION

(V)

100 Hz

(μF)

NOMINAL

CASE SIZE

Ø D x L

(mm)

100 kHz

105 °C

(mA)

IL2

2 min

(μA)

tan 

100 Hz

100 kHz

+20 °C

()

100 kHz

-40 °C

()

ORDERING CODE

MAL2150.......

BULK PACKAGING TAPED

FORM CA FORM CB FORM TFA

- 60 - 40 - 20 0 20 40 60 80 100 120 140

0.8

1.0

0.9

1.1

1.2

Tamb (°C)

C0 = Typical capacitance at 20 °C, 100 Hz

Tamb 20 °C

C0 = Typical capacitance at 20 °C, 100 Hz

105

104

103

102

10 f (Hz)

0.2

0.4

0.6

0.8

1.0

1.2

Curve 1: UR ≤ 35 V

Curve 2: UR ≥ 50 V

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EQUIVALENT SERIES RESISTANCE (ESR)

Fig. 7 - Typical multiplier of ESR as a function

of ambient temperature

Fig. 8 - Typical multiplier of ESR as a function of frequency

IMPEDANCE (Z)

Fig. 9 - Typical multiplier of impedance as a function

of ambient temperature

Fig. 10 - Typical impedance as a function of frequency

Fig. 11 - Typical impedance as a function of frequency

- 60 - 40 - 20 0 20 40 60 80 100 120 140

ESR0 = Typical ESR at 20 °C, 100 Hz

ESR0

ESR

Tamb (°C)

10 f (Hz)

ESR 0

ESR

105

104

103

102

ESR0 = Typical ESR at 20 °C, 100 Hz Tamb = 20 °C

Curve 1: Ø D ≤ 12.5 mm

Curve 2: Ø D ≥ 16 mm

- 60 - 40 - 20 0 20 40 60 80 100 120 140

Z0 = Typical impedance at 20 °C, 100 kHz Tamb (°C)

10-1

102

10 f (Hz) 105

104

103

102

Tamb = 20 °C

(Ω)

10-1

10-2

102

103

Curve 1: 100 µF, 63 V

Curve 2: 220 µF, 50 V

Curve 3: 680 µF, 63 V

10 f (Hz) 105

104

103

102

Tamb = 20 °C

(Ω)

102

10-1

10-2

Curve 1: 330 µF, 35 V

Curve 2: 470 µF, 16 V

Curve 3: 680 µF, 16 V

Curve 4: 1000 µF, 16 V

Curve 5: 6800 µF, 16 V

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RIPPLE CURRENT AND USEFUL LIFE

Table 3

Note

• Multiplier of useful life code: CCC206

Fig. 12 - Multiplier of useful life as a function of ambient temperature and ripple current load

ENDURANCE TEST DURATION AND USEFUL LIFE

NOMINAL CASE SIZE

Ø D x L

(mm)

CASE CODE

ENDURANCE

AT 105 °C

(h)

USEFUL LIFE

AT 105 °C

(h)

8 x 12 13 3000 4000

8 x 15 13L 3000 4000

10 x 12 14 3000 4000

10 x 16 15 3000 6000

10 x 20 16 3000 6000

12.5 x 20 17 3000 7000

12.5 x 25 18 5000 8000

12.5 x 35 18LL 5000 8000

16 x 20 19a 3000 7000

16 x 25 19 5000 10 000

16 x 31 20 5000 10 000

16 x 35 21 5000 10 000

18 x 20 1820 3000 7000

18 x 31 1831 6000 10 000

18 x 40 1840 8000 10 000

3.8

3.7

3.6

3.5

3.4

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 90 100 110

Lifetime multiplier

(1)

200

100

1.0

150

6.0

4.0

2.0

1.5

3.0

Tamb (°C)

CCC206

8.0

IA = Actual ripple current at 100 kHz

IR = Rated ripple current at 100 kHz, 105 °C

(1) Useful life at 105 °C and IR applied; see Table 4

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Table 4

Table 5



Statements about product lifetime are based on calculations and internal testing. They should only be interpreted as estimations. Also due to external factors, the

lifetime in the field application may deviate from the calculated lifetime. In general, nothing stated herein shall be construed as a guarantee of durability.

MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY

NOMINAL CASE SIZE

Ø D x L

(mm)

FREQUENCY (Hz)

100 300 1000 3000 10 000 30 000 100 000

IR MULTIPLIER

8 x 12 0.65 0.76 0.85 0.89 0.90 0.97 1.00

8 x 15 0.65 0.76 0.85 0.89 0.90 0.97 1.00

10 x 12 0.65 0.76 0.85 0.89 0.90 0.97 1.00

10 x 16 0.65 0.76 0.85 0.89 0.90 0.97 1.00

10 x 20 0.65 0.76 0.85 0.89 0.90 0.97 1.00

12.5 x 20 0.65 0.76 0.85 0.89 0.90 0.97 1.00

12.5 x 25 0.65 0.76 0.85 0.89 0.90 0.97 1.00

12.5 x 35 0.65 0.76 0.85 0.89 0.90 0.97 1.00

16 x 20 0.76 0.85 0.91 0.94 0.96 0.98 1.00

16 x 25 0.76 0.85 0.91 0.94 0.96 0.98 1.00

16 x 31 0.76 0.85 0.91 0.94 0.96 0.98 1.00

16 x 35 0.76 0.85 0.91 0.94 0.96 0.98 1.00

18 x 20 0.76 0.85 0.91 0.94 0.96 0.98 1.00

18 x 31 0.76 0.85 0.91 0.94 0.96 0.98 1.00

18 x 40 0.76 0.85 0.91 0.94 0.96 0.98 1.00

TEST PROCEDURES AND REQUIREMENTS

TEST PROCEDURE

(quick reference) REQUIREMENTS

NAME OF TEST REFERENCE

Endurance IEC 60384-4 / EN130300

subclause 4.13

Tamb = 105 °C; UR applied;

for test duration see Table 3

C/C: ± 20 %

tan  2 x spec. limit

IL2  spec. limit

Useful life CECC 30301

subclause 1.8.1

Tamb = 105 °C; UR and IR applied;

for test duration see Table 3

C/C: ± 30 %

tan  3 x spec. limit

IL2  spec. limit

no short or open circuit

total failure percentage:  1 %

Shelf life

(storage at high

temperature)

IEC 60384-4 / EN130300

subclause 4.17

Tamb = 105 °C; no voltage applied; 1000 h

after test: UR to be applied for 30 min., 24 h to 48 h

before measurement

C/C: ± 20 %

tan  2 x spec. limit

IL2  spec. limit

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

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