Type MLS 125 °C Flatpack, Ultra Long Life, Aluminum

Type MLS 125 °C Flatpack, Ultra Long Life, Aluminum Electrolytic
Now Available with High Vibration and High Reliability Options
Encased in rugged stainless steel, the MLS is perfect for high reliability
military systems and applications operating above 85 °C. For our
highest performing 125 °C Flatpacks, choose type HVMLS available in
a special stainless steel case for high vibration applications up to 50g.
Specify type HRMLS for high reliability Flatpacks which are subjected
to MIL level burn-in processes to ensure established reliability.
Highlights
Specifications
- Near-hermetic welded seal
- Stainless-steel case
- 100 years expected operating life
- Withstands more than 80,000 feet altitude
- Type HV up to 50g
- Type HR, High Reliability
Temperature Range
–55 °C to +125 °C
Rated Voltage Range
5.0 Vdc to 250 Vdc
Capacitance Range
220 µF to 47,000 µF
Capacitance Tolerance
±20%
Leakage Current
≤ 0.002 CV µA, @ 25 °C and 5 mins.
Ripple Current Multipliers
Case Temperature
45 °C 55 °C 65 °C 75 °C 85 °C
95 °C 105 °C 115 °C 125 °C
1.41
0.87
1.32
1.22
1.12
1.00
0.71
0.50
0.00
Ambient Temperature, No Heatsink
45 °C
55 °C
65 °C
75 °C
85 °C 95 °C 105 °C 115 °C 125 °C
0.63
0.58
Frequency
0.54
0.49
0.44
50 Hz
0.38
60 Hz 120 Hz 360 Hz
0.31
1 kHz
0.00
5 kHz
10 kHz &
up
5 to 40 V
0.95
0.96
1.00
1.03
1.04
1.04
1.04
60 to 250 V
0.80
0.84
1.00
1.18
1.25
1.30
1.30
Low Temperature Characteristics
Impedance ratio: Z–55 ⁰C ∕ Z+25 ⁰C
≤ 10 (5 - 20 Vdc)
≤ 2 (25 - 250 Vdc)
Endurance Life Test
10,000 h @ full load at 85 °C
∆ Capacitance ±10%
ESR 200% of limit
DCL 100% of limit
DC Life Test
2000 h at rated voltage &125 °C
∆ Capacitance ±10%
ESR 200% of limit
DCL 100% of limit
Shelf Life Test
500 h at 125 °C
Capacitance 100% of limit
ESR 100% of limit
DCL 100% of limit
Vibration
Standard MLS Flatpack: 10g
10 Hz to 2 kHz Sine Swept, 0.06” pp max and 10g.
Type HVMLS Flatpack 1.5” and 2.0” case length, 50g
Type HVMLS Flatpack 2.5” and 3.0” case length, 30g
MIL-STD-202, Meth. 204, Sine Swept, IEC 60068-2-6
Mounting: Vibration capability is dependent upon mounting restraint. The
optional welded mounting tabs, alone, are not capable of sustaining the high
vibration levels.
To achieve the high vibration levels as published on right, additional mounting
restraint is required.
0.22
CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800
Type MLS 125 °C Flatpack, Ultra Long Life, Aluminum Electrolytic
Available with High Vibration and High Reliability Options
Vibration Test
Level
The specimens, while deenergized or operating under the load conditions
specified, shall be subjected to the vibration amplitude, frequency range,
and duration specified for each case size.
Amplitude
The specimens shall be subjected to a simple harmonic motion having
an amplitude of either 0.06-inch double amplitude (maximum total
excursion) or peak level specified above (XXg peak), whichever is less. The
tolerance on vibration amplitude shall be ±10 percent.
Frequency Range
The vibration frequency shall be varied logarithmically between the
approximate limits of 10 to 2,000 Hz.
Sweep Time and Duration
The entire frequency range of 10 to 2,000 Hz and return to 10 Hz shall be
traversed in 20 minutes. This cycle shall be performed 12 times in each
of three mutually perpendicular directions (total of 36 times), so that
the motion shall be applied for a total period of approximately 12 hours.
Interruptions are permitted provided the requirements for rate of change
and test duration are met.
High Reliability Test/Burn-in
Established Reliability capacitors shall be subjected to a minimum of 100
percent of the dc rated voltage at 85 ºC for 48 hours minimum but not to
exceed 96 hours. During this test, capacitors shall be adequately protected
against temporary voltage surges of 10 percent or more of the test
voltage. After burn-in, the capacitors shall be returned to room ambient
conditions and the dc leakage, capacitance, and ESR shall be measured
with respect to specified limits.
Thermal Resistance
Large Sides
Heatsinked
one
both
Case Length
1.5"
2.0"
3.0"
Insulation
ºC/W
ºC/W
ºC/W
None
3.3
1.8
1.3
Polyester
4.5
2.6
1.6
None
2.8
2.2
1.1
Polyester
4.0
3.2
1.6
ESL
≤30 nH measured 1/4” from case at 1 MHz
Weight
Case EK 43 g typical
Case EA 76 g typical
Case EB 92 g typical
Terminals
18 AWG copper wire with 60/40 tin-lead electroplate, 20 amps max
Ripple Current Capability
The ripple current capability is set by the maximum permissible internal
core temperature, 125 ºC.
Air Cooled
The ripple currents in the ratings tables are for 85 ºC case temperatures.
For air temperatures without a heatsink use the multipliers Ambient
Temperature, No Heatsink.
Heatsink Cooled
Temperature rise from the internal hottest spot, the core, to ambient air is
∆T = I2(ESR)(θcc + θca)
where θcc is the thermal resistance from core to case and θca from case to
ambient. To calculate maximum ripple capability with the MLS attached to
a heatsink use the maximum core temperature and the values for θcc.
Example
As an illustration, suppose you operate an insulated MLS332M060EB1C
in 65 ºC air and attach it to a commercial heatsink with a free-air thermal
resistance of 2.7 ºC/W. Use a good thermal grease between the MLS and
the heatsink, and the total thermal resistance is 2.7 +1.8 or 4.5 ºC/W. The
power which would heat the core to 125 °C is (125 - 65)/4.5 or 13.3 W. For
an ESR of 31 mΩ, 13.3 W equates to a ripple current of 20.7 A, however, the
wire leads are rated for only 20 A.
CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800
Type MLS 125 °C Flatpack, Ultra Long Life, Aluminum Electrolytic
Available with High Vibration and High Reliability Options
Part Numbering System
HV
HR
MLS
821
Optional
Optional
Type
Capacitance
M
200
Tolerance Rated Voltage
High
High
MLS
821=820 µF
M=±20%
Vdc
Vibration Reliability
102 = 1000 µF
Examples:
L +0.375
Standard MLS:
MLS821M200EB0C 0.156 ±0.01 SLOT
±0.03
High Reliability:
HRMLS821M200EB0C
0.040 DIA, 18 AWG LEADS
(TYP)
0.188 ±0.01
High Vibration:
HVMLS821M200EB0C
High
Reliability,
High Vibration: HVHRMLS821M200EB0C
0.156
Dia
EB
0
A
Case Code
Insulation
Mounting Style
EK, L=1.5 in.
EA, L=2.0 in
EB, L=3.0 in.
* other sizes
available
0 = bare can
1 = polyester
•
±0.01
Outline Drawings
1.00
±0.01
1.75
±0.01
+
(TYP)
0.188 ±0.01
•
0.156 Dia
±0.01
0.375 ±0.01
Style A: Mounting Tabs
•
L ±0.02
1.5 MIN
0.50 MAX
Style C: No Tabs
0.040 DIA, 18 AWG LEADS
(TYP)
L +.375
±0.03
.156
0.01
1.750
0.01
1.00±.01
1.00
0.01
0.01
L ±0.02
1.75±.01
L ±.02
1.5 MIN
.036
.030
1.5 MIN
0.50 MAX
0.50 MAX
Style D: Hook Leads
.188±.010
L +.375
±.03
.156 Dia
0.01
.156 ±0.01 SLOT
1.75±.01
1.00±.01
.375±.010
.036
.030
1.75
±0.01
Type HV, Rilled Construction
.030
.036
0.50 MAX
.375
1.00
±0.01
•
.030
.036
.188±.01
L +0.375
±0.03
Note: The polyester tape wrap may add up to 0.020 inches to the thickness and width +of the capacitor.
Standard
Type MLS 1.5 MIN
L ±0.02
0.375 ±0.01
A = mounting tabs
C = two leads/no tabs
D = hook leads/tabs
* other mounting 0.156
tab ±0.01 SLOT
options available 0.040 DIA, 18 AWG L
L ±0.02
0.040 DIA, 18 AWG LEADS
(TYP)
.175 ±0.01 DIA
0.50 MAX
.26±.01
Case
Length
Weight
Code
L (in)
(g)
EK
1.5
43
EA
2.0
76
EB
3.0
92
Mounting tabs are welded to the case.
CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800
Type MLS 125 °C Flatpack, Ultra Long Life, Aluminum Electrolytic
Available with High Vibration and High Reliability Options
Ratings
Cap
(µF)
Catalog Part Number
ESR max
Ripple (A)
25 °C (mΩ)
Case @ 85°C
120 Hz 20 kHz 120 Hz
Length
Cap
20 kHz (inches)
(µF)
125 °C: 5 Vdc, 105 °C: 7.5 Vdc, 25 °C Surge: 10 Vdc
19,000
MLS193M5R0EK0C
76
66
12.6
13.6
1.5
28,000
MLS283M5R0EA0c
50
44
19.9
21.4
2.0
MLS473M5R0EB0C
30
26
32.0
34.4
3.0
47,000
ESR max
Ripple (A)
25 °C (mΩ)
Case @ 85°C
Length
Catalog Part Number 120 Hz 20 kHz 120 Hz 20 kHz (inches)
2,100
MLS212M060EA0C
72
52
11.9
14.1
2.0
3,300
MLS332M060EB0C
44
31
15.3
18.2
3.0
125 °C: 75 Vdc, 105 °C: 100 V, 25 °C Surge: 125 Vdc
125 °C: 7.5 Vdc, 105 °C: 10 V, 25 °C Surge: 13 Vdc
1,100
MLS112M075EK0C
112
78
9.6
11.5
1.5
1,600
MLS162M075EA0C
76
54
11.6
13.8
2.0
2,700
MLS272M075EB0C
46
33
14.9
17.6
3.0
17,000
MLS173M7R5EK0C
77
67
12.5
13.5
1.5
26,000
MLS263M7R5EA0c
51
45
19.8
21.1
2.0
43,000
MLS433M7R5EB0C
31
27
31.5
33.8
3.0
500
MLS501M100EK0C
355
248
5.4
6.4
1.5
770
MLS771M100EA0C
238
166
6.6
7.8
2.0
13.3
1.5
1,300
MLS132M100EB0C
143
100
8.5
10.1
3.0
400
MLS401M150EK0C
388
253
5.1
6.4
1.5
600
MLS601M150EA0C
261
168
6.3
7.8
2.0
1,000
MLS102M150EB0C
158
100
8.1
10.1
3.0
125 °C: 100 Vdc, 105 °C: 150 V, 25 °C Surge: 180 Vdc
125 °C: 10 Vdc, 105 °C: 16 V, 25 °C Surge: 20 Vdc
13,000
MLS133M010EK0C
81
69
12.2
23,000
MLS233M010EA0C
51
45
19.8
21.1
2.0
38,000
MLS383M010EB0C
31
27
31.5
33.8
3.0
125 °C: 150 Vdc, 105 °C: 200 V, 25 °C Surge: 250 Vdc
125 °C: 20 Vdc, 105 °C: 30 V, 25 °C Surge: 40 Vdc]
6,800
MLS682M020EK0C
84
69
11.0
12.2
1.5
10,000
MLS103M020EA0C
56
46
13.6
15.0
2.0
MLS173M020EB0C
33
27
17.6
19.5
3.0
17,000
125 °C: 200 Vdc, 105 °C: 250 Vdc, 25 °C Surge: 300 Vdc
125 °C: 40 Vdc, 105 °C: 50 V, 25 °C Surge: 63 Vdc
4,400
MLS442M040EK0C
97
70
10.3
12.1
1.5
6,600
MLS662M040EA0C
62
46
12.9
15.0
2.0
11,000
MLS113M040EB0C
36
27
16.9
19.5
3.0
11.5
1.5
MLS152M060EK0C
106
77
9.8
MLS331M200EK0C
426
258
4.9
6.2
1.5
490
MLS491M200EA0C
285
172
6.0
7.7
2.0
820
MLS821M200EB0C
172
103
7.7
10.0
3.0
220
MLS221M250EK0C
597
393
4.1
5.1
1.5
330
MLS331M250EA0C
399
262
5.0
6.3
2.0
560
MLS561M250EB0C
240
157
6.5
8.1
3.0
125 °C: 250 Vdc, 105 °C: 250 Vdc, 25 °C Surge: 300 Vdc
125 °C: 60 Vdc, 105 °C: 80 V, 25 °C Surge: 100 Vdc
1,500
330
Typical Performance Curves
Type MLS Operating Life in Kilohours vs Ripple Current (90% V)
Expected Operating Life, kh
1000
45 ⁰C
55 ⁰C
100
65 ⁰C
75 ⁰C
85 ⁰C
10
1
0
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
1
1.1 1.2 1.3 1.4 1.5
Rated Ripple-Current Multiple
CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800
Type MLS 125 °C Flatpack, Ultra Long Life, Aluminum Electrolytic
Available with High Vibration and High Reliability Options
Typical Performance Curves
MLS ESR vs Temperature and Frequency, 1100 µF, 75 V
MLS Capacitance vs Temperature & Frequency, 1100 µF 75 V
1
125 ºC
65 ºC
1102 µF
25 ºC
0 ºC
•
–20 ºC
970 µF –40 ºC
0.8
881µF –55 ºC
0.6
0.4
15.3
10
0.47 Ω
–55 ºC
–40 ºC
1
–20 ºC
•
0.033 Ω
0.028 Ω
0.2
0 ºC
25 ºC
65 ºC
|
500000
125 ºC
0
100
1000
10000
Frequency (Hz)
100000
0.1
1000000
10
100
1000
10000
Frequency (Hz)
100000
Capacitance vs Temperature & Frequency, 820 µF, 200 V
1.2
125 ºC
100 ºC
85 ºC
1
65 ºC
45 ºC
25 ºC
0 ºC
0.8
–20 ºC
0.6
–40 ºC
0.4
0.2
0
10
100
1000
Frequency (Hz)
10000
100000
MLS103M150EB0D Life Test at 125 °C, 150 V
1000
100
90
Capacitance
800
80
ESR
70
600
60
50
400
ESR (mΩ)
Capacitance (µF)
10
Ratio to 25 ºC, 120 Hz Value
Ratio to 25 ºC, 120 Hz Value
1.12
Ratio ESR to 25 ºC, 120 Hz Value
1.2
100
40
30
200
20
10
0
0
0
2000
4000
6000
Test Hours
8000
10000
12000 13000
CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800
1000000
Notice and Disclaimer: All product drawings, descriptions, specifications, statements, information and
data (collectively, the “Information”) in this datasheet or other publication are subject to change. The
customer is responsible for checking, confirming and verifying the extent to which the Information contained in this datasheet or other publication is applicable to an order at the time the order is placed. All
Information given herein is believed to be accurate and reliable, but it is presented without any guarantee, warranty, representation or responsibility of any kind, expressed or implied. Statements of suitability
for certain applications are based on the knowledge that the Cornell Dubilier company providing such
statements (“Cornell Dubilier”) has of operating conditions that such Cornell Dubilier company regards
as typical for such applications, but are not intended to constitute any guarantee, warranty or representation regarding any such matter – and Cornell Dubilier specifically and expressly disclaims any guarantee,
warranty or representation concerning the suitability for a specific customer application, use, storage,
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and manufacturing of its products, in light of the current state of the art, isolated component failures may
still occur. Accordingly, customer applications which require a high degree of reliability or safety should
employ suitable designs or other safeguards (such as installation of protective circuitry or redundancies
or other appropriate protective measures) in order to ensure that the failure of an electrical component
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cautions and notes must be observed, the customer should not assume that all safety measures are indicated in such warnings, cautions and notes, or that other safety measures may not be required.