260 CLA-V Datasheet

260 CLA-V
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Vishay BCcomponents
Aluminum Electrolytic Capacitors
SMD (Chip), High Temperature, Low Impedance
High Vibration Capability
FEATURES
• Useful life: up to 2000 h at 150 °C
• High reliability
• Low ESR
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte, self healing
• SMD-version with base plate, lead (Pb)-free reflow
solderable
160 CLA
150 °C
high
vibration
260 CLA-V
• High temperature reflow soldering according to JEDEC®
J-STD-020
higher temperature
140 CRH
125 °C
lower Z
higher IR
• Charge and discharge proof, no peak current limitation
• High temperature proof
146 CTI
125 °C
• Vibration proof, 6-pin version up to 30 g
lower Z
• AEC-Q200 qualified
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
150 CRZ
105 °C
Fig. 1
APPLICATIONS
• SMD technology, for high temperature reflow soldering
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes 
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
VALUE
16 x 16 x 16
to 18 x 18 x 21
± 20 %
16 V to 80 V
-55 °C to +150 °C
Endurance test at 150 °C
1000 h to 1500 h
Useful life at 150 °C
1500 h to 2000 h
Useful life at 40 °C
1.8 x lR applied
300 000 h to 400 000 h
Based on sectional
specification
Climatic category IEC 60068
Revision: 26-Apr-16
• Automotive, industrial
• Smoothing, filtering, buffering
150 μF to 3300 μF
Category temperature range
Shelf life at 0 V, 150 °C
• High temperature environment, high peak load
1000 h
IEC 60384-18 / CECC 32300
55/150/56
MARKING
• Rated capacitance (in μF)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Black mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (A)
PACKAGING
Supplied in blister tape on reel
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
UR (V)
CR
(μF)
16
25
35
50
63
80
150





16 x 16 x 16
220




16 x 16 x 16
18 x 18 x 16
330



16 x 16 x 16
18 x 18 x 16
18 x 18 x 21
470


16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
-
680

16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
-
1000
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
-
-
1500
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
-
-
-
2200
16 x 16 x 21
18 x 18 x 21
-
-
-
-
2700
18 x 18 x 21
-
-
-
-
-
3300
18 x 18 x 21
-
-
-
-
-
6-pin:
≥ Ø 16 mm
35V
1000u
3R-H
min. 0.4/max. 1.0 (2 x)
HMAX.
MAX. 0.3
D
WMAX.
B
L1MAX. S
LMAX.
Fig. 2 - Dimensional outline
Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
16 x 16 x 16
1616
16.6
16.6
17.5
16.0
1.3
6.5
18.6
 5.8
16 x 16 x 21
1621
16.6
16.6
22.0
16.0
1.3
6.5
18.6
 7.1
18 x 18 x 16
1816
19.0
19.0
17.5
18.0
1.3
6.5
21.0
 8.0
18 x 18 x 21
1821
19.0
19.0
22.0
18.0
1.3
6.5
21.0
 9.3
Revision: 26-Apr-16
Document Number: 28426
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Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
16 x 16 x 16
1616
28
44
18.9
380
150
16 x 16 x 21
1621
28
44
23.4
380
100
18 x 18 x 16
1816
32
44
18.9
380
125
18 x 18 x 21
1821
32
44
23.4
380
100
Note
• Detailed tape dimensions see section “PACKAGING”
MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and / or adjacent components.
For maximum conditions refer to Fig. 4.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
a
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
c
a
b
Case size Ø D ≥ 16 mm
Fig. 3 - Recommended soldering pad dimensions
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
1616
7.8
9.6
4.7
1621
7.8
9.6
4.7
1816
8.8
9.6
4.7
1821
8.8
9.6
4.7
Revision: 26-Apr-16
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ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS 
ACCORDING TO JEDEC J-STD-020
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL226099xxxE3
PROFILE FEATURES
CASE CODE
1616 TO 1821
Maximum time from 25 °C to TPeak
300 s
Maximum ramp-up rate to 150 °C
3 K/s
Maximum time from 150 °C to 200 °C (t1)
150 s
Maximum time from 190 °C to 200 °C (t2)
110 s
Ramp up rate from 200 °C to TPeak
0.5 K/s to 3 K/s
Maximum time above TLiquidus (217 °C) (t3)
90 s
Maximum time above 230 °C (t4)
60 s
Peak temperature TPeak
Maximum time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
245 °C
30 s
3 K/s to 6 K/s
Notes
• Temperature measuring point on top of the case and on terminals.
• Maximum 2 runs with pause of minimum 30 min in between.
Revision: 26-Apr-16
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ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 260 CLA-V series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 150 °C
IL2
Maximum leakage current after 2 min at UR
tan 
Z
330 μF / 50 V; ± 20 %
Nominal case size: 16 mm x 16 mm x 16 mm; taped on reel
Ordering code: MAL226099104E3
Maximum dissipation factor at 100 Hz
Maximum impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 5 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 5
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
25
35
50
63
80
CR
(μF)
NOMINAL CASE SIZE
LxWxH
(mm)
IR
150 °C
100 kHz
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
Z
100 kHz
-40 °C
()
ORDERING CODE
MAL2260...
1000
16 x 16 x 16
850
160
0.16
0.050
0.45
99503E3
1500
18 x 18 x 16
900
240
0.16
0.050
0.45
99504E3
2200
16 x 16 x 21
1100
352
0.18
0.035
0.32
99505E3
2700
18 x 18 x 21
1350
432
0.18
0.035
0.32
99506E3
3300
18 x 18 x 21
1400
528
0.20
0.035
0.32
99507E3
680
16 x 16 x 16
800
170
0.14
0.050
0.45
99603E3
1000
18 x 18 x 16
830
250
0.14
0.050
0.45
99604E3
1500
16 x 16 x 21
1050
375
0.14
0.035
0.32
99605E3
2200
18 x 18 x 21
1350
550
0.16
0.035
0.32
99606E3
470
16 x 16 x 16
800
165
0.12
0.050
0.45
99003E3
680
18 x 18 x 16
830
238
0.12
0.050
0.45
99004E3
1000
16 x 16 x 21
1000
350
0.12
0.035
0.32
99005E3
1500
18 x 18 x 21
1350
525
0.12
0.035
0.32
99006E3
330
16 x 16 x 16
700
165
0.10
0.072
0.65
99104E3
470
18 x 18 x 16
720
235
0.10
0.070
0.63
99105E3
680
16 x 16 x 21
800
340
0.10
0.052
0.47
99106E3
1000
18 x 18 x 21
1100
500
0.10
0.049
0.44
99107E3
220
16 x 16 x 16
500
139
0.10
0.100
0.90
99805E3
330
18 x 18 x 16
520
208
0.10
0.095
0.86
99806E3
470
16 x 16 x 21
600
296
0.10
0.075
0.68
99807E3
680
18 x 18 x 21
700
428
0.10
0.072
0.65
99808E3
150
16 x 16 x 16
430
120
0.12
0.390
3.12
99703E3
220
18 x 18 x 16
430
176
0.12
0.390
3.12
99704E3
330
18 x 18 x 21
520
264
0.12
0.300
2.40
99705E3
Revision: 26-Apr-16
Document Number: 28426
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Table 6
EXTENDED VIBRATION SPECIFICATIONS
PARAMETER
PROCEDURE
Vibration improvement
From 10 g to 30 g
Vibration frequency range
10 Hz to 2 kHz
Vibration profile
• Constant sinus sweep
• 3 directions
• 8 h per direction
REQUIREMENTS
No visible damage;
no leakage of electrolyte;
marking legible
C/C: ± 5 % with respect to
initial measurements
60
Acceleration
(g)
50
40
30
Improved SMD
20
Vishay extended
10
AEC-Q200
0
0
0.5
1
1.5
2.0
f (kHz)
Fig. 5 - Vibration profile
Table 7
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
IEC 60384-18, subclause 4.14
Us  1.15 x UR
IEC 60384-18, subclause 4.16; TA  150 °C
Urev  1 V
After 2 min at UR
IL2  0.01 x CR x UR
Ø D  16 mm
Typ. 11 nH
Calculated from tan max. and CR (see Table 5)
ESR = tan /2fCR
Voltage
Surge voltage for short periods
Reverse voltage for short periods
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR) at 100 Hz
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CAPACITANCE (C)
1.20
1.10
C/C0
C/C0
1.00
1.10
0.90
1.00
0.80
0.70
2700 μF
0.90
0.60
0.80
1000 μF
0.50
-60
-40 -20
0
20
40
60
80
100 120 140 160
Tamb (°C)
C0 = Capacitance at 20 °C, 100 Hz
102
10
103
104
f (Hz)
C0 = Typical capacitance C at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
105
Fig. 7 - Typical multiplier of capacitance
as a function of frequency
DISSIPATION FACTOR (tan )
103
8
tan/tan0
tan/tan0
6
102
4
10
2
1
0
0.1
-60 -40 -20
0
20
40
60
80
tan δ = Typical tan δ at 20 °C, 100 Hz
100 120 140 160
102
10
103
tan δ = Typical tan δ at 20 °C, 100 Hz
Tamb (°C)
Fig. 8 - Typical multiplier of dissipation factor (tan )
as a function of ambient temperature
104
105
f (Hz)
Fig. 9 - Typical multiplier of dissipation factor (tan )
as a function of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
10
ESR/ESR0
1
0.1
10
10
2
ESR0 = Typical ESR at 20 °C, 100 Hz
10
3
10
4
10
f (Hz)
Tamb = 20 °C
5
Fig. 10 - Typical multiplier of ESR as a function of frequency
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IMPEDANCE (Z)
102
Z/Z0
10
1
0.1
-60 -40 -20
0
20
40
60
80
100 120 140 160
T (°C)
Z0 = Typical impedance Z at 20 °C, 100 kHz
Fig. 11 - Typical multiplier of impedance
as a function of temperature
102
103
Curve 1: 680-25-1616
Curve 2: 1000-25-1816
Curve 3: 1500-25-1621
Curve 4: 2200-25-1821
Z (Ω)
10
102
1
2
3
4
1
Curve 1: 330-50-1616
Curve 2: 470-50-1816
Curve 3: 680-50-1621
Curve 4: 1000-50-1821
Z (Ω)
1
2
3
4
10
1
0.1
0.1
0.01
0.01
10
102
103
104
Tamb = 20 °C
105
10
102
f (Hz)
103
104
Tamb = 20 °C
Fig. 12 - Typical impedance as a function of frequency
105
f (Hz)
Fig. 13 - Typical impedance as a function of frequency
RIPPLE CURRENT AND USEFUL LIFE
Table 8
ENDURANCE TEST DURATION AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL CASE SIZE
ØDxL
(mm)
CASE CODE
ENDURANCE
AT 150 °C
(h)
USEFUL LIFE
AT 150 °C
(h)
USEFUL LIFE AT 40 °C
1.8 x IR APPLIED
(h)
16 x 16 x 16
1616
1000
1500
350 000
16 x 16 x 21
1621
1500
2000
400 000
18 x 18 x 16
1816
1000
1500
350 000
18 x 18 x 21
1821
1500
2000 (1)
400 000
Note
(1) 18 x 18 x 21 at 80 V only useful life of 1500 h.
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RIPPLE CURRENT AND USEFUL LIFE
MBC245
IA 4.8
IR
4.5
4.3
4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
Lifetime multiplier
0
1.
3.2
3.1
3.0
5
1.
0
2.
2.
5
2.8
0
4.
0
8.
12
2.4
20
2.2
30
2.0
50
0
0
20
40
0
(1)
0
60
1.6
1.4
1.2
1.0
0.8
0.5
0.0
10
1.8
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 150 °C
(1)
Useful life at 150 °C and IR applied;
see Table 7
0
6.
2.6
40
50
60
70
80
90
100
110
120
130
140
150
160
Tamb (°C)
Fig. 14 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 9
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
Revision: 26-Apr-16
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 16 V TO 80 V
50
0.40
100
0.60
300
0.75
1000
0.80
3000
0.90
10 000
0.95
30 000
0.97
100 000
1.00
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Table 10
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Mounting
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load
refer to chapter “Mounting”
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
Endurance
IEC 60384-18 / 
CECC 32300,
subclause 4.15
Tamb = 150 °C; UR applied;
for test duration see Table 7
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 150 °C; UR and IR applied;
for test duration see Table 7
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 60384-18 / 
CECC 32300,
subclause 4.17
Tamb = 150 °C; no voltage applied;
1000 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements
see “Endurance test” above
Reverse voltage
IEC 60384-18 / 
CECC 32300,
subclause 4.16
Tamb = 150 °C:
125 h at U = -0.5 V,
followed by 125 h at UR
C/C: ± 15 %
tan   1.5 x spec. limit
IL2  spec. limit
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requirements as per JEDEC JS709A standards. Please note that some Vishay documentation may still make reference
to the IEC 61249-2-21 definition. We confirm that all the products identified as being compliant to IEC 61249-2-21
conform to JEDEC JS709A standards.
Revision: 02-Oct-12
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Document Number: 91000