196 HVC ENYCAP Datasheet

196 HVC ENYCAP™
www.vishay.com
Vishay BCcomponents
Hybrid Energy Storage Capacitors
FEATURES
• Polarized energy storage capacitor with high
capacity and energy density
• Voltage flexibility: 1.4 V (single cell) to 2.8 V /
4.2 V / 5.6 V / 7.0 V / 8.4 V (multiple cells)
• Available in stacked through-hole (STH, radial),
surface-mount flat (SMF) and lay flat
configurations (LFC) with wire and connectors
• Useful life: up to 2000 h at 85 °C
• No cell balancing necessary
• Soft and low transient-voltage-controlled charging
characteristic
• Non-hazardous electrolyte
• Maintenance-free, no service necessary
• Evaluation kits for engineering are available under
ordering code: MAL219699001E3
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• Power backup for memory controller, flash backup, RAID
systems, SRAM, DRAM
• Power failure and write cache protection for enterprise
SSD and HDD
• Real time clock power source
• Burst power support for flash lights, wireless transmitters
• Backup power for industrial PC’s and industrial controls
• Storage device for energy harvesting
• Emergency light and micro UPS power source
MARKING
The capacitors are marked with the following information:
• Rated capacitance (in F)
• Rated voltage (in V)
• Date code
• Negative / positive terminal identification
Image is not to scale
PACKAGING
Supplied in ESD trays only
QUICK REFERENCE DATA
VALUE
SINGLE CELL
2 CELLS
3 CELLS
4 CELLS
5 CELLS
6 CELLS
7 x 15
7 x 12.5
7 x 10
7 x 7.5
7x5
7 x 2.5
Nominal case size (Ø D x L in mm)
12 x 15
12 x 12.5
12 x 10
12 x 7.5
12 x 5
12 x 2.5
Stacked Through-Hole (STH)
35 x 25 x 15
35 x 25 x 10
35 x 25 x 7.5
7 x 7 x 2.5
7 x 14 x 2.5
13 x 14 x 2.5
14 x 14 x 2.5
Nominal case size (Ø W x L x H in mm)
12 x 12 x 2.5
12 x 24 x 2.5
22 x 24 x 2.5
24 x 24 x 2.5
Surface-Mount Flat (SMF)
Nominal case size (W x L x H in mm)
14.5 x 12 x 2.5 14.5 x 24 x 2.5 14.5 x 36 x 2.5 14.5 x 48 x 2.5 14.5 x 60 x 2.5 14.5 x 72 x 2.5
Lay Flat (LFC)
4.0 F
4.0 F
4.0 F
4.0 F
4.0 F
4.0 F
Rated capacitance range, CR
15.0 F
15.0 F
15.0 F
15.0 F
15.0 F
15.0 F
90.0 F
90.0 F
90.0 F
Tolerance on CR at 20 °C
-20 % to +80 %
1.4 V
2.8 V
4.2 V
5.6 V
7.0 V
8.4 V
Rated voltage, UR
1.6 V
3.2 V
4.8 V
6.4 V
8.0 V
9.6 V
Maximum surge voltage, US (max. 30 s)
22 Ws
27 Ws
18 Ws
13 Ws
4 Ws
9 Ws
87 Ws
105 Ws
70 Ws
52 Ws
Minimum stored energy
17 Ws
35 Ws
460 Ws
345 Ws
230 Ws
Energy density
9 Ws/g to 13 Ws/g
4.0 F: -20 °C to +70 °C
Category temperature range
15.0 F / 90.0 F: -20 °C to +85 °C
Storage temperature range
-40 °C to +85 °C
4.0 F:
at 70 °C: 1000 h
15.0 F: at 85 °C: 1000 h
90.0 F: at 85 °C: 2000 h
Useful life at UR
at 55 °C: 2800 h
at 70 °C: 2800 h
at 70 °C: 5600 h
at 45 °C: 5600 h
at 60 °C: 5600 h
at 60 °C: 11 200 h
Shelf life
1000 h at upper category temperature
Climatic category IEC 60068
25/085/21
DESCRIPTION
Revision: 31-May-16
Document Number: 28409
1
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND FORM AT UPPER CATEGORY TEMPERATURE (UCT)
CR
(F)
4
15
90
UR (V)
FORM
A2
B2
B3
C
D
E
A2
B2
B3
C
D
E
F
G
H
1.4
7.0 x 2.5
2.8
7.0 x 5.0
4.2
7.0 x 7.5
5.6
7.0 x 10.0
7.0
7.0 x 12.5
8.4
7.0 x 15.0
7.0 x 2.5
7.0 x 5.0
7.0 x 7.5
7.0 x 10.0
7.0 x 12.5
7.0 x 15.0
7.0 x 7.0 x 2.5
7.0 x 7.0 x 2.5
12.0 x 2.5
7.0 x 14.0 x 2.5
12.0 x 5.0
13.0 x 14.0 x 2.5
12.0 x 7.5
14.0 x 14.0 x 2.5
12.0 x 10.0
12.0 x 12.5
12.0 x 15.0
12.0 x 2.5
12.0 x 5.0
12.0 x 7.5
12.0 x 10.0
12.0 x 12.5
12.0 x 15.0
12.0 x 12.0 x 2.5
12.0 x 12.0 x 2.5
14.5 x 12.0 x 2.5
12.0 x 24.0 x 2.5
14.5 x 24.0 x 2.5
22.0 x 24.0 x 2.5
14.5 x 36.0 x 2.5
24.0 x 24.0 x 2.5
14.5 x 48.0 x 2.5
14.5 x 60.0 x 2.5
14.5 x 72.0 x 2.5
-
35 x 25 x 7.5
35 x 25 x 10
35 x 25 x 15
-
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
STACKED THROUGH HOLE CONFIGURATION (STH): Examples VERTICAL MOUNT
Ø Dmax.
-
-
Lmax.
+
Ø 0.8
+
0.5
6 +- 0.5
(2 x)
-
Ø 0.64
F
Fig. 1 - Form A2: Stacked Through Hole (example 4 cells, 2 pins) (1)
STACKED THROUGH HOLE CONFIGURATION (STH): Examples HORIZONTAL MOUNT
Ø Dmax.
Lmax.
+
3.5 +- 0.5
0.5 (2 x)
F
Ø 0.64
Fig. 2 - Form B2: Stacked Through Hole (example 5 cells, 2 pins) (1)
Ø Dmax.
Lmax.
+
0.5
3.5 +- 0.5
(3 x)
Ø 0.64 (3 x)
F
F1
Fig. 3 - Form B3: Stacked Through Hole (example 4 cells, keyed polarity - 3 pins) (1)
Note
(1) Bottom and top are not isolated.
Revision: 31-May-16
Document Number: 28409
2
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
www.vishay.com
Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
SURFACE MOUNT FLAT CONFIGURATION (SMF): Examples
Lmax.
-
1
3.8 max.
+
0.1 (2 x)
0.5 (2 x)
0.5
4 +- 0.5
(2 x)
Ø Dmax.
3 (2 x)
3.5 +- 0.5
0.5 (2 x)
Fig. 4 - Form C: Surface Mount Flat (single cell, keyed polarity)
0.1 (2 x)
1
-
2
2 +- 0.5
0.5
Ø 7.5 max.
2.8 max.
+
0.2
2 +- 0.2
0.5
Ø Dmax.
Fig. 5 - Form D1: Surface Mount Flat (single cell, keyed polarity)
0.1 (2 x)
-
1
2
2.8 max.
0.5
3 +- 0.5
Ø 12.5 max.
+
0.2
3.5 +- 0.2
1.0 (2 x)
Ø Dmax.
Fig. 6 - Form D2: Surface Mount Flat (single cell, keyed polarity)
0.5 (2 x)
1 (2 x)
+
0.1 (2 x)
-
3 (2 x)
Ø Dmax.
3.8 max.
0.5
4 +- 0.5
(2 x)
Fig. 7 - Form E2: Surface Mount Flat
+
-
3 (2 x)
0.1 (2 x)
3.8 max.
Hmax.
0.5 (2 x)
1 (2 x)
4 ± 1 (2 x)
Lmax.
Fig. 8 - Form E3: Surface Mount Flat
Revision: 31-May-16
Document Number: 28409
3
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
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Vishay BCcomponents
3 (2 x)
1 (2 x)
+
3.8 max.
0.5 (2 x)
4 +- 11 (2 x)
Hmax.
0.1 (2 x)
Lmax.
Fig. 9 - Form E4: Surface Mount Flat
LAY FLAT CONFIGURATION (LFC) WITH CONNECTOR: Example 5 cells in series
Red (AWG 28, UL 1061)
+
Pin 1: red
Ø Dmax.
Black (AWG 28, UL 1061)
-
Pin 2: black
Molex connector;
Housing: 51146-0200
Terminal: 50641-8041
3.5 max.
50 +- 55
Lmax.
Fig. 10 - Form F: Lay Flat (example for 5 cells)
35 max.
25 max.
Lmax.
+
0.5
1 +- 0.5
(2 x)
-
+
3 (3 x)
0.25 (2 x)
F1
F
Fig. 11 - Form G: Stacked Through Hole Oval (PCBD)
35 max.
4 +- 0.5
0.5 (2 x)
0.5
Lmax.
+
0.5
5 +- 0.5
1 (3 x)
F1
-
0.2 (2 x)
F
Fig. 12 - Form H: Stacked Through Hole Oval Horizontal
Revision: 31-May-16
Document Number: 28409
4
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
www.vishay.com
Vishay BCcomponents
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL CASE SIZE
D x L x H (mm)
FORM
Ø Dmax.
Lmax.
L1max.
Hmax.
MASS
(g)
7.0 x 7.0 x 2.5
7.0 x 7.0 x 2.5
A2, B2, B3
7.5
2.3 + 0.3
7.0 + 0.5
-
0.5
C
7.5
7.0
7.0 + 8.0
-
0.5
7.0 x 7.0 x 2.5
D1
7.5
7.0
7.0 + 4.0
-
0.5
7.0 x 7.0 x 5.0
A2, B2, B3
7.5
4.2
4.2 + 0.5
-
0.8
7.0 x 7.0 x 7.5
A2, B2, B3
7.5
7.5
7.8 + 0.5
-
1.5
7.0 x 7.0 x 10.0
A2, B2, B3
7.5
10.5
10.2 + 0.5
-
1.8
7.0 x 7.0 x 12.5
A2, B2, B3
7.5
12.5
12.4 + 0.5
-
2.5
7.0 x 7.0 x 15.0
A2, B2, B3
7.5
14.8
14.8 + 0.5
-
3.0
12.0 x 12.0 x 2.5
A2, B2, B3
12.5
2.3
2.3 + 0.5
-
1.2
12.0 x 12.0 x 2.5
C
12.5
12.5
12.5 + 8.0
-
1.0
12.0 x 12.0 x 2.5
D2
12.5
12.5
12.5 + 4.0
-
1.0
12.0 x 12.0 x 5.0
A2, B2, B3
12.5
4.2
4.2 + 0.5
-
2.2
12.0 x 12.0 x 7.5
A2, B2, B3
12.5
8.0
7.8 + 0.5
-
3.3
12.0 x 12.0 x 10.0
A2, B2, B3
12.5
10.5
10.5 + 0.5
-
4.0
12.0 x 12.0 x 12.5
A2, B2, B3
12.5
12.5
12.5 + 0.5
-
5.4
12.0 x 12.0 x 15.0
A2, B2, B3
12.5
14.8
14.8 + 0.5
-
6.5
7.0 x 14.0 x 2.5
E2
7.5
14.8
14.8 + 8.0
-
1.0
12.0 x 24.0 x 2.5
E2
12.5
24.0
24.0 + 8.0
-
2.0
13.0 x 14.0 x 2.5
E3
14.0
15.0
14.8 + 8.0
14.0
1.2
22.0 x 24.0 x 2.5
E3
24.0
24.0
24.8 + 8.0
15.0
3.3
14.0 x 14.0 x 2.5
E4
15.0
15.0
14.8 + 8.0
22.5
1.5
24.0 x 24.0 x 2.5
E4
24.0
24.0
24.8 + 8.0
24.0
4.4
14.5 x 12.0 x 2.5
F
14.5
12.0
12.0 + 50.0
-
1.0
14.5 x 24.0 x 2.5
F
14.5
24.0
24.0 + 50.0
-
3.0
14.5 x 36.0 x 2.5
F
14.5
36.0
36.0 + 50.0
-
4.0
14.5 x 48.0 x 2.5
F
14.5
48.0
48.0 + 50.0
-
6.0
14.5 x 60.0 x 2.5
F
14.5
60.0
60.0 + 50.0
-
7.5
14.5 x 72.0 x 2.5
F
14.5
72.0
72.0 + 50.0
-
9.0
35 x 25 x 7.5
G, H
35 x 25
7.5
7.5 + 0.5
-
15.0
35 x 25 x 10.0
G, H
35 x 25
10.5
10.5 + 0.5
-
22.5
35 x 25 x 15.0
G, H
35 x 25
15.5
15.0 + 0.5
-
30.0
ORDERING EXAMPLE
ELECTRICAL DATA
Hybrid Storage Capacitor
SYMBOL
DESCRIPTION
Rated capacitance, tolerance -20 %/+80 %, 
measured by constant current discharge method
15 F/1.4 V
CR
Upper category temperature
Ordering code: MAL219691211E3
UCT
IL
Max. leakage current after 24 h at UR
RI
Max. internal resistance at 1 kHz
Nominal case size: Ø 12.0 mm x 2.5 mm; Form B3
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa and RH = 45 % to 75 %.
Revision: 31-May-16
Document Number: 28409
5
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
www.vishay.com
Vishay BCcomponents
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
(μF)
NOMINAL
CASE SIZE
ØDxL
DxLxH
(mm)
ESR
MIN.
I
ESR
CASE
F
F1 UCT L AC (1)
STORAGE PACKAGING
24 h
FORM
DC (2)
CODE
(mm) (mm) (°C)
1 kHz
ENERGY QUANTITIES
(mA)
()
()
(Ws)
ORDERING CODE
STACKED THROUGH HOLE CONFIGURATION (STH) - VERTICAL MOUNT
1.4
4 000 000
7.0 x 2.5
2 pin
A2
7.5
-
70 0.03
2.5
7.5
4.6
80
MAL219691101E3
2.8
4 000 000
7.0 x 5.0
2 pin
A2
7.5
-
70 0.03
5.0
4.2
4 000 000
7.0 x 7.5
2 pin
A2
7.5
-
70 0.03
7.5
15.0
9.2
80
MAL219691102E3
22.5
13.8
80
MAL219691103E3
5.6
4 000 000
7.0 x 10.0
2 pin
A2
7.5
-
70 0.03 10.0
30.0
18.4
80
MAL219691104E3
7.0
4 000 000
7.0 x 12.5
2 pin
A2
7.5
8.4
4 000 000
7.0 x 15.0
2 pin
A2
7.5
-
70 0.03 12.5
37.5
23.0
84
MAL219691105E3
-
70 0.03 15.0
45.0
27.6
84
MAL219691106E3
1.4
15 000 000
12.0 x 2.5
2 pin
A2
12.5
-
85 0.12
0.6
2.5
17.5
80
MAL219691201E3
2.8
15 000 000
12.0 x 5.0
2 pin
4.2
15 000 000
12.0 x 7.5
2 pin
A2
12.5
-
85 0.12
1.2
5.0
35.0
80
MAL219691202E3
A2
12.5
-
85 0.12
1.8
7.5
52.5
80
MAL219691203E3
5.6
15 000 000
12.0 x 10.0
2 pin
A2
12.5
-
85 0.12
2.4
10.0
70.0
80
MAL219691204E3
7.0
15 000 000
8.4
15 000 000
12.0 x 12.5
2 pin
A2
12.5
-
85 0.12
3.0
12.5
87.5
90
MAL219691205E3
12.0 x 15.0
2 pin
A2
12.5
-
85 0.12
3.6
15.0
105.0
90
MAL219691206E3
STACKED THROUGH HOLE CONFIGURATION (STH) - HORIZONTAL MOUNT
1.4
4 000 000
7.0 x 2.5
2 pin
B2
3.2
-
70 0.03
2.5
7.5
4.6
100
MAL219691121E3
2.8
4 000 000
7.0 x 5.0
2 pin
B2
5.4
-
70 0.03
5.0
15.0
9.2
100
MAL219691122E3
4.2
4 000 000
7.0 x 7.5
2 pin
B2
7.5
-
70 0.03
7.5
22.5
13.8
96
MAL219691123E3
5.6
4 000 000
7.0 x 10.0
2 pin
B2
8.8
-
70 0.03 10.0
30.0
18.4
96
MAL219691124E3
7.0
4 000 000
7.0 x 12.5
2 pin
B2
12
-
70 0.03 12.5
37.5
23.0
60
MAL219691125E3
8.4
4 000 000
7.0 x 15.0
2 pin
B2
14.5
-
70 0.03 15.0
45.0
27.6
60
MAL219691126E3
1.4
15 000 000
12.0 x 2.5
2 pin
B2
3.2
-
85 0.12
0.6
2.5
17.5
100
MAL219691221E3
2.8
15 000 000
12.0 x 5.0
2 pin
B2
5.8
-
85 0.12
1.2
5.0
35.0
100
MAL219691222E3
4.2
15 000 000
12.0 x 7.5
2 pin
B2
8.3
-
85 0.12
1.8
7.5
52.5
80
MAL219691223E3
5.6
15 000 000
12.0 x 10.0
2 pin
B2
11.0
-
85 0.12
2.4
10.0
70.0
90
MAL219691224E3
7.0
15 000 000
12.0 x 12.5
2 pin
B2
13.4
-
85 0.12
3.0
12.5
87.5
40
MAL219691225E3
8.4
15 000 000
12.0 x 15.0
2 pin
B2
15.7
-
85 0.12
3.6
15.0
105.0
40
MAL219691226E3
1.4
4 000 000
7.0 x 2.5
3 pin
B3
2.8
2.5
70 0.03
2.5
7.5
4.6
100
MAL219691111E3
2.8
4 000 000
7.0 x 5.0
3 pin
B3
5.1
2.5
70 0.03
5.0
15.0
9.2
100
MAL219691112E3
4.2
4 000 000
7.0 x 7.5
3 pin
B3
7.5
2.5
70 0.03
7.5
22.5
13.8
96
MAL219691113E3
5.6
4 000 000
7.0 x 10.0
3 pin
B3
10.0
2.5
70 0.03 10.0
30.0
18.4
96
MAL219691114E3
7.0
4 000 000
7.0 x 12.5
3 pin
B3
12.0
2.5
70 0.03 12.5
37.5
23.0
60
MAL219691115E3
8.4
4 000 000
7.0 x 15.0
3 pin
B3
14.5
2.5
70 0.03 15.0
45.0
27.6
60
MAL219691116E3
1.4
15 000 000
12.0 x 2.5
3 pin
B3
3.2
5.0
85 0.12
0.6
2.5
17.5
100
MAL219691211E3
2.8
15 000 000
12.0 x 5.0
3 pin
B3
5.8
5.0
85 0.12
1.2
5.0
35.0
100
MAL219691212E3
4.2
15 000 000
12.0 x 7.5
3 pin
B3
8.0
5.0
85 0.12
1.8
7.5
52.5
80
MAL219691213E3
5.6
15 000 000
12.0 x 10.0
3 pin
B3
11.0
5.0
85 0.12
2.4
10.0
70.0
90
MAL219691214E3
7.0
15 000 000
12.0 x 12.5
3 pin
B3
13.0
5.0
85 0.12
3.0
12.5
87.5
40
MAL219691215E3
8.4
15 000 000
12.0 x 15.0
3 pin
B3
16.0
5.0
85 0.12
3.6
15.0
105.0
40
MAL219691216E3
Revision: 31-May-16
Document Number: 28409
6
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
www.vishay.com
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
(μF)
NOMINAL
CASE SIZE
ØDxL
DxLxH
(mm)
ESR
MIN.
I
ESR
CASE
F
F1 UCT L AC (1)
STORAGE PACKAGING
(2)
24 h
FORM
DC
CODE
(mm) (mm) (°C)
1 kHz
ENERGY QUANTITIES
(mA)
()
()
(Ws)
ORDERING CODE
SURFACE MOUNT FLAT CONFIGURATION (SMF)
1.4
4 000 000
2 pin
C
-
-
70 0.03
2.5
7.5
4.6
50
MAL219691131E3
1.4
15 000 000 12.0 x 12.0 x 2.5
7.0 x 7.0 x 2.5
2 pin
C
-
-
85 0.12
0.6
2.5
17.5
100
MAL219691231E3
1.4
4 000 000
2 pin
D1
-
-
70 0.03
2.5
7.5
4.6
50
MAL219691141E3
1.4
15 000 000 12.0 x 12.0 x 2.5
2 pin
D2
-
-
85 0.12
0.6
2.5
17.5
100
MAL219691241E3
2.8
4 000 000
7.0 x 14.0 x 2.5
2 pin
E2
-
-
70 0.03
5.0
15.0
9.2
50
MAL219691152E3
2.8
15 000 000 12.0 x 24.0 x 2.5
2 pin
E2
-
-
85 0.12
1.2
5.0
35.0
50
MAL219691252E3
4.2
4 000 000
13.0 x 14.0 x 2.5
3 pin
E3
-
-
70 0.03
7.5
22.5
13.8
70
MAL219691153E3
4.2
15 000 000 22.0 x 24.0 x 2.5
3 pin
E3
-
-
85 0.12
1.8
7.5
52.5
35
MAL219691253E3
5.6
4 000 000
14.0 x 14.0 x 2.5
4 pin
E4
-
-
70 0.03 10.0
30.0
18.4
70
MAL219691154E3
5.6
15 000 000 24.0 x 24.0 x 2.5
4 pin
E4
-
-
85 0.12
2.4
10.0
70.0
35
MAL219691254E3
7.0 x 7.0 x 2.5
LAY FLAT CONFIGURATION (LFC)
1.4
15 000 000 14.5 x 12.0 x 2.5
2 pin
F
-
-
85 0.12
0.6
2.5
17.5
40
MAL219691261E3
2.8
15 000 000 14.5 x 24.0 x 2.5
2 pin
F
-
-
85 0.12
1.2
5.0
35.0
40
MAL219691262E3
4.2
15 000 000 14.5 x 36.0 x 2.5
2 pin
F
-
-
85 0.12
1.8
7.5
52.5
40
MAL219691263E3
5.6
15 000 000 14.5 x 48.0 x 2.5
2 pin
F
-
-
85 0.12
2.4
10.0
70.0
20
MAL219691264E3
7.0
15 000 000 14.5 x 60.0 x 2.5
2 pin
F
-
-
85 0.12
3.6
12.5
87.5
20
MAL219691265E3
8.4
15 000 000 14.5 x 72.0 x 2.5
2 pin
F
-
-
85 0.12
4.8
15.0
105.0
20
MAL219691266E3
STACKED THROUGH HOLE OVAL
2.8
90 000 000
35 x 25 x 7.5
3 pin
G
7
10
85
0.5
0.03 0.090
230.0
25
MAL219690103E3
4.2
90 000 000
35 x 25 x 10
3 pin
G
10
10
85
0.5
0.04 0.135
345.0
25
MAL219690101E3
5.6
90 000 000
35 x 25 x 15
3 pin
G
15
10
85
0.5
0.06 0.180
460.0
25
MAL219690102E3
STACKED THROUGH HOLE OVAL HORIZONTAL
2.8
90 000 000
35 x 25 x 7.5
3 pin
H
25
10
85
0.5
0.03 0.090
230.0
25
MAL219690113E3
4.2
90 000 000
35 x 25 x 10
3 pin
H
25
10
85
0.5
0.04 0.135
345.0
25
MAL219690111E3
5.6
90 000 000
35 x 25 x 15
3 pin
H
25
10
85
0.5
0.06 0.180
460.0
25
MAL219690112E3
Notes
(1) ESR AC 1 kHz are typical values.
(2) ESR DC are typical values.
Table 3
LOAD CURRENTS AND VOLTAGES
CR (μF)
RECOMMENDED
CHARGE CURRENT
MAX. CHARGE
CURRENT
MAX. DISCHARGE
CURRENT
LOWEST DISCHARGE
VOLTAGE (1)
4 000 000
2 mA to 8 mA
14 mA
25 mA
n x 0.8 V
15 000 000
5 mA to 20 mA
50 mA
70 mA
n x 0.8 V
90 000 000
0.3 A to 1 A
1.5 A
3A
n x 0.8 V
Note
(1) n... number of cells, permanent operation below lowest discharge voltage is not permitted.
Revision: 31-May-16
Document Number: 28409
7
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
196 HVC ENYCAP™
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MEASURING OF CHARACTERISTICS
CAPACITANCE (C)
A
Capacitance shall be measured by constant current
discharge method.
PARAMETER
Rated capacitance, CR
Discharge current, ID
VALUE
15
15
4
4
UR
V
UNIT
F
mA
90
90
Constant
current
discharger
+
DISCHARGE CURRENT AS A FUNCTION OF
RATED CAPACITANCE
C
Fig. 14 - Test Circuit for Capacitance Measurement
INTERNAL RESISTANCE (RI) AT 1 kHz
ΔU3
UC  V 
R I    = ----------------3
10
U1
U2
1 mA
A
+
t1
30 min
t2
C
(s)
V
1 kHz
Fig. 13 - Voltage Diagram for Capacitance Measurement
Capacitance value CR is given by discharge current ID, time
t and rated voltage UR, according to the following equation:
CR
UR
U1
U2
U3
t1
t2
ID
Rated capacitance, in F
Rated voltage, in V
Starting voltage, in V
Ending voltage, in V
Voltage drop at internal resistance, in V
Time from start of discharge until voltage U1 is
reached, in s
Time from start of discharge until voltage U2 is
reached, in s
Discharge current, in A
Fig. 15 - Test Circuit for RI Measurement
LEAKAGE CURRENT (IL)
Leakage current shall be measured after 30 min application
of rated voltage UR:
US  V 
I L  A  = ---------------4
10
V
RS
ID  A  x  t2  s  - t1  s  
C R  F  = ---------------------------------------------------------U1  V  - U2  V 
100 Ω
+
+
C
For ID, U1, and U2 the following definitions have to be used:
Table 4
Fig. 16 - Test Circuit for Leakage Current
CAPACITANCE
C (F)
4
4
4
4
4
4
15
15
15
15
15
15
90
90
90
ID (A)
0.004
0.004
0.004
0.004
0.004
0.004
0.015
0.015
0.015
0.015
0.015
0.015
0.090
0.090
0.090
UR (V)
1.4
2.8
4.2
5.6
7.0
8.4
1.4
2.8
4.2
5.6
7.0
8.4
2.8
4.2
5.6
Note
• For U2 see also Table 5.
Revision: 31-May-16
U1 (V)
1.3
2.7
4.0
5.4
6.7
8.1
1.3
2.7
4.0
5.4
6.7
8.1
2.7
4.0
5.4
U2 (V)
0.7
1.9
3.1
4.4
5.6
6.9
0.7
1.9
3.1
4.4
5.6
6.9
1.9
3.1
4.4
t1 (s)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
t2 (s)
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
100 000
IL
(μA)
Curve 1: 90 F (2.8 V to 5.6 V)
Curve 2: 15 F (1.4 V to 8.4 V)
Curve 3: 4 F (1.4 V to 8.4 V)
10 000
1000
1
100
2
10
1
3
0
10
20
30
40
50
60
70
80
Time (h)
Fig. 17 - Typical Leakage Current at 20 °C as a Function of Time
Document Number: 28409
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Table 5
VOLTAGE TO BE USED FOR SERIES CONNECTION
N CELLS IN SERIES
UR (V)
U1 (V)
U2 (V)
1
1.4
1.3
0.7
2
2.8
2.7
1.9
3
4.2
4.0
3.1
4
5.6
5.4
4.4
5
7.0
6.7
5.6
6
8.4
8.1
6.9
DISCHARGE CHARACTERISTICS
Backup time of 196 HVC series capacitors depends on minimum memory holding voltage and discharge current (corresponding
with the current consumption of the load).
For minimum backup times of standard and vertical miniaturized series see figure 18 to figure 20 (charging time 24 h and
CC-CV charging according to table 3).
100 000
Backup
time
(s)
10 000
106
Backup
time
(s) 5
10
104
1000
103
100
102
10
10
C = 4 F (1.4 V to 8.4 V)
1
0.1
C = 15 F (1.4 V to 8.4 V)
1
1
0.1
10
100
Discharge current (mA)
Fig. 18 - Typical Backup Time as a Function of Discharge Current
1
10
100
Discharge current (mA)
Fig. 19 - Typical Backup Time as a Function of Discharge Current
106
Backup
time
(s) 5
10
104
103
102
10
C = 90 F (2.8 V to 5.6 V)
1
1
10
100
1000
10 000
Discharge current (mA)
Fig. 20 - Typical Backup Time as a Function of Discharge Current
Revision: 31-May-16
Document Number: 28409
9
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CHARGE CHARACTERISTICS
Charge cc 4 mA/5.6 V and discharge 4 mA/3.2 V
10
Charge cccv 4 mA/5.6 V + 30 min and discharge 4 mA/3.2 V
10
6
7.5
5
7.5
4
5
4
5
3
2.5
3
2.5
2
0
2
0
6
15
-5
25
20
0
0
t (min)
Fig. 21 - Constant Current (CC) with V-Limit Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 4 F/5.6 V
10
20
35
40
50
60
70
t (min)
40
Charge cccv 10 mA/5.6 V + 30 min and discharge 15 mA/3.2 V
40
6
5
30
5
30
4
20
4
20
3
10
3
10
2
0
2
0
Voltage
1
0
5
10
15
20
25
30
35
40
45
Voltage (V)
Current (mA)
Voltage
Current
0
-10
1
-20
50
0
-10
Current
0
10
20
35
40
50
60
70
80
-20
90
t (min)
t (min)
Fig. 23 - Constant Current (CC) with V-Limit Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 15 F/5.6 V
Fig. 24 - Constant Current (CC)-Constant Voltage (CV)
Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 15 F/5.6 V
Charge cc 300 mA/5.6 V and discharge 1 A/3.2 V
1500
Charge cccv 300 mA/5.6 V + 30 min and discharge 1 A/3.2 V
1500
6
5
1000
5
4
500
4
500
3
0
3
0
2
-500
6
Voltage (V)
Current (mA)
Voltage (V)
Voltage
Voltage
2
0
2
4
6
8
10
12
14
16
18
1000
-500
Current
Current
1
0
Current (mA)
-5
80
Fig. 22 - Constant Current (CC)-Constant Voltage (CV)
Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 4 F/5.6 V
Charge cc 10 mA/5.6 V and discharge 15 mA/3.2 V
6
Voltage (V)
-2.5
Current
Current (mA)
10
1
Current (mA)
5
Voltage (V)
-2.5
Current
0
Current (mA)
Voltage (V)
1
0
Voltage
Voltage
5
-1000
1
-1500
20
0
-1000
0
10
20
35
40
50
-1500
60
t (min)
t (min)
Fig. 25 - Constant Current (CC) with V-Limit Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 90 F/5.6 V
Fig. 26 - Constant Current (CC)-Constant Voltage (CV)
Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 90 F/5.6 V
Note
• Charge and discharge cycles at room temperature (RT) - maximal 50 000 cycles at room temperature allowed!
Revision: 31-May-16
Document Number: 28409
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CHARGING VOLTAGE AT DIFFERENT TEMPERATURES
OPERATING TEMPERATURE RANGE
Charge voltage
0 °C UP TO +45 °C
1 cell
UR + 0.03 V
2 cells
UR + 0.06 V
3 cells
UR + 0.09 V
> 4 cells
UR + 0.10 V
+45 °C UP TO +60 °C
+60 °C UP TO +70 °C/+85 °C
UR
UR - n (1) x 0.0015 x (T[°C] - 45)
Notes
• Capacitor is polarized, product will be damaged if reverse charged.
• Voltages higher than specified need to be avoided; otherwise reduction of life time, internal gas generation or damage of HVC hybrid
capacitor will occur.
• For other operating temperatures, a temperature derating factor has to be considered for correct charging voltage.
• Surge voltage is only allowed a few seconds per day, but not as a charging process.
(1) n... number of cells
DERATING
Working voltage at temperatures above 60 °C should be below rated voltage UR. A derating-factor of -1.5 mV/°C per cell is
recommended.
PRODUCT AND MOUNTING CHARACTERISTICS
Attention: parts are pre-charged at delivery - handle appropriate.
At delivery products are pre-charged and voltage over terminals is near nominal voltage. Short circuiting of product terminals
is permitted. Do not short circuit permanently. Short circuiting of charged cells may heat up the cells. Cells will fulfill UL 2054 Tcell < 150 °C due to self heating in case of short circuiting. Products are UL 810A recognized.
For printed circuit board mounting it has to be taken into account, that for certain form factors top and bottom of products may
not be insulated.
Capacitor disposal methods should be in accordance with local and state regulations.
Table 6.1
TEST PROCEDURES AND REQUIREMENTS
IEC 60384-4/
EN 130300
SUBCLAUSE
PROCEDURE
(quick reference)
Damp heat, steady state
4.12
500 h at 55 °C; RH 90 % to 95 %; no voltage applied
Endurance
4.13
Useful life
-
NAME OF TEST
Storage at upper category
temperature
Self discharge
Characteristics at high and
low temperature
Surge voltage
4.17
-
4.19
-
Tamb = 70 °C / 85 °C; rated voltage UR applied;
4.0 F, 15 F: 1000 h
90 F: 2000 h
Tamb = 70 °C / 85 °C; rated voltage UR applied;
4.0 F, 15 F: 1000 h
90 F: 2000 h
Tamb = 70 °C / 85 °C; no voltage applied;
1000 h
24 h storage at room temperature after application
of UR for 1 h
Step 1: reference measurement at 20 °C of C, RI, and IL
Step 2: measurement at -20 °C
Step 3: measurement at +20 °C
Step 4: measurement at +70 °C
Step 5: measurement at +20 °C
Max. 30 s at room temperature
US = n (1) x 1.6 V
REQUIREMENTS (2)
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
Remaining voltage:  (UR x 0.9)
C/C: ± 30 % of +20 °C value
RI  5 x the +20 °C value
IL  4 x the +20 °C value
No change of parameter!
After surge voltage, discharge
product below rated voltage
Notes
(1) n... number of cells
(2) R equals ESR
I
AC or ESRDC.
Revision: 31-May-16
Document Number: 28409
11
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Table 6.2: Stacked Through Hole configuration (STH), Surface Mount Flat configuration (SMF), and Lay Flat
configuration with Connector
TEST PROCEDURES AND REQUIREMENTS
NAME OF TEST
IEC 60384-4/
EN 130300
SUBCLAUSE
PROCEDURE
(quick reference)
REQUIREMENTS (1)
Robustness of terminations
4.4
Tensile strength; application of load force for 10 s:
20 N (standard series)
5 N (vertical miniaturized series)
No breaks
Resistance to soldering heat
4.5
Solder bath; 260 °C; 5 s
C/C: ± 10 %
RI and IL  spec. limit
Solderability
4.6
Solder bath; 236 °C; 2 s
 75 % tinning
4.8
10 Hz to 55 Hz; 1.5 mm; 3 directions; 
2 h per direction
C/C: ± 10 %
RI and IL  spec. limit
Vibration
Notes
• Robustness - bending limited to ± 15°, force in direction of tab.
• Solder bath test: max. allowed case temperature during test is e.g. 85 °C or immersion of one (1) pad only.
• Wave soldering allowed.
(1) R equals ESR
I
AC or ESRDC.
SOLDERING
As a general principle, temperature and duration shall be the minimum necessary required to ensure good soldering
connections. However, the maximum specified soldering time and case temperature should never be exceeded.
EVALUATION KIT
Evaluation kits are available under ordering code: MAL219699001E3. The engineering kit includes a charge and discharge demo
board with different 196 HVC capacitor samples.
For further details, please contact [email protected].
Revision: 31-May-16
Document Number: 28409
12
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Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that
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Revision: 02-Oct-12
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