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NRW686M04R8

Description
CAPACITOR, TANTALUM, SOLID, POLARIZED, 4V, 68uF, SURFACE MOUNT, 1411, CHIP
CategoryPassive components    capacitor   
File Size91KB,6 Pages
ManufacturerTOKO, INC.
Websitehttps://www.murata.com/
Download Datasheet Parametric View All

NRW686M04R8 Overview

CAPACITOR, TANTALUM, SOLID, POLARIZED, 4V, 68uF, SURFACE MOUNT, 1411, CHIP

NRW686M04R8 Parametric

Parameter NameAttribute value
Objectid1966553864
package instruction, 1411
Reach Compliance Codeunknown
ECCN codeEAR99
capacitance68 µF
Capacitor typeTANTALUM CAPACITOR
dielectric materialsTANTALUM (DRY/SOLID)
Manufacturer's serial numberR
Installation featuresSURFACE MOUNT
negative tolerance20%
Number of terminals2
Maximum operating temperature125 °C
Minimum operating temperature-55 °C
Package shapeRECTANGULAR PACKAGE
method of packingTR, PLASTIC, 7 INCH
polarityPOLARIZED
positive tolerance20%
Rated (DC) voltage (URdc)4 V
size code1411
surface mountYES
Delta tangent0.15
Terminal shapeWRAPAROUND
TANTALUM CAPACITORS
R Series Tantalum Chip Capacitors
DIMENSIONS [mm]
L
L
H
PERFORMANCE CHARACTERISTICS
W
1
H
L
H
W
1
Y
W
1
Operating temperature range
−55
to +125°C with proper voltage
derating as shown in the following table.
DC working voltage and surge voltage
Rated voltage
2.5 4 6.3 10 16 20 25 35 50 V
2.5 4 6.3 10 16 20 25 35 50 V
at 85°C
W
2
Z
Z
B2
only
Z
Z
W
2
W
2
Working
Surge
Z
Z
at 125°C 1.6 2.5 4 6.3 10 13 16 22 32 V
at 85°C
3.3 5.2 8 13 20 26 33 46 65 V
[A2, A cases]
[B3, B2 cases]
[B, C, D, and D2 cases]
(Unit: mm)
Case
EIA code
Code
A2 (U)
A
B3 (W)
B2 (S )
B
C
D2 (T)
D
3216L
3216
3528L
3528
6032
5846
7343
L
W
1
W
2
H
Z
Y
3.2
±
0.2 1.6
±
0.2 1.2
±
0.1 1.1
±
0.1 0.8
±
0.2
3.2
±
0.2 1.6
±
0.2 1.2
±
0.1 1.6
±
0.2 0.8
±
0.2
3.5
±
0.2 2.8
±
0.2 2.2
±
0.1 1.1
±
0.1 0.8
±
0.2
3.5
±
0.2 2.8
±
0.2 2.3
±
0.1 1.9
±
0.2 0.8
±
0.2
4.7
±
0.2 2.6
±
0.2 1.4
±
0.1 2.1
±
0.2 0.8
±
0.2
6.0
±
0.2 3.2
±
0.2 2.2
±
0.1 2.5
±
0.2 1.3
±
0.2
5.8
±
0.2 4.6
±
0.2 2.4
±
0.1 3.2
±
0.2 1.3
±
0.2
7.3
±
0.2 4.3
±
0.2 2.4
±
0.1 2.8
±
0.2 1.3
±
0.2
0.5 C
0.4 C
0.4 C
(STANDARD C-V VALUE REFERENCE BY CASE CODE)
DC Rated
Voltage
(
Vdc
)
0.47
0.68
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
C
C
D2, D
D2, D
B2, B
C
C
D2, D
D2, D
A
A
B2, B
C
C
D2, D
D2, D
A
A
B2, B
C
C
D2, D
D2, D
A
A
B2, B
C
C
D2, D
D2, D
A
A
B2, B
C
C
D2, D
D2, D
B2, B
A
4
6.3
10
16
20
25
A
35
B2, B
B2, B
B2, B
C
C
C, D
D2, D
D2, D
50
B2
C
C
C
D
D, D2
D
µ
F
Capacitance (at 20°C, 120 Hz)
Range:
0.47
µ
F to 680
µ
F
Tolerance:
±
20%, (±10%)
Capacitance change with temperature
Not to exceed
−12%
at
−55°C,
+12% at
85°C, and +15% at 125°C
Tangent of loss angle (at 20°C, 120 Hz)
(Standard)
0.047
µ
F to 4.7
µ
F: less than 0.04
6.8
µ
F to 68
µ
F: less than 0.06
(Extended)
(1)
2.5 Vdc to 10 Vdc: less than 0.08
16 Vdc to 35 Vdc: less than 0.06
DC leakage current (at 20°C)
0.01 C
V
(2)
µ
A or 0.5
µ
A, whichever is greater
Damp heat (90 to 95% RH at 40°C, 56 days (1344 h))
Capacitance change:
±5%
(±12%)
(3)
Tangent of loss angle: 150% of initial
requirements
DC leakage current:
initial requirements
Endurance (at 85°C, DC rated voltage, 2000 h)
Capacitance change:
±10%
(±12%)
(3)
Tangent of loss angle: initial requirements
DC leakage current:
125% of
initial requirements
Resistance to soldering heat
(solder reflow at 260°C, 10 s.
or solder dip at 260°C, 5 s.)
Capacitance change: +5% (+12%)
(3)
Leakage current:
initial requirements
Tangent of loss angle: initial requirements
We obtained IEC Qualification Approval on R
Series Standard Ratings in September 1987.
1.
Refer to standard ratings for tangent of loss angle of the follow-
ing items:
2.5 V/15
µ
F, 22
µ
F, 4 V/10
µ
F, 15
µ
F, 22
µ
F, 6.3 V/15
µ
F prod-
ucts in A2 case.
2.5 V/47
µ
F, 68
µ
F, 4 V/33
µ
F, 47
µ
F, 6.3 V/22
µ
F, 33
µ
F, 47
µ
F,
10 V/22
µ
F, 16 V/10
µ
F products in A case.
2.5 V/47
µ
F, 68
µ
F, 100
µ
F, 4 V/33
µ
F, 47
µ
F, 68
µ
F, 100
µ
F, 6.3 V/22
µ
F, 33
µ
F, 47
µ
F, 10V/15
µ
F, 22
µ
F, 16 V/10
µ
F products in B3 case.
2.5 V/150
µ
F, 220
µ
F, 4 V/100
µ
F, 150
µ
F, 6.3 V/68
µ
F, 100
µ
F
products in B2 case.
2.5 V/220
µ
F, 470
µ
F, 4 V/150
µ
F, 220
µ
F, 330
µ
F, 6.3 V/100
µ
F,
150
µ
F, 220
µ
F products in C case.
2.5 V/330
µ
F, 4 V/220
µ
F, 6.3 V/150
µ
F, 10 V/100
µ
F products
in D2 case.
2.5 V/470
µ
F, 4 V/330
µ
F, 470
µ
F, 680
µ
F, 6.3 V/220
µ
F, 330
µ
F,
470
µ
F, 10 V/150
µ
F, 220
µ
F, 16V/100
µ
F products in D case.
2.
Product of capacitance in
µ
F and voltage in V.
3.
Capacitance change of
±
12% applies to
2.5 V/4.7
µ
F to 22
µ
F, 4 V/4.7
µ
F to 22
µ
F, 6.3 V/3.3
µ
F to 15
µ
F, 10 V/2.2
µ
F to 10
µ
F, 16 V/1.5
µ
F, 2.2
µ
F, 20 V/1
µ
F, 1.5
µ
F
products in A2 case;
2.5 V/15
µ
F to 68
µ
F, 4 V/10
µ
F to 47
µ
F, 6.3 V/6.8
µ
F to 47
µ
F,
10 V/4.7
µ
F to 22
µ
F, 16 V/3.3
µ
F to 6.8
µ
F, 20 V/2.2
µ
F to 4.7
µ
F, 25 V/1.5
µ
F, 2.2
µ
F, 35 V/1
µ
F, 1.5
µ
F products in A case;
2.5 V/33
µ
F to 150
µ
F, 4 V/100
µ
F, 6.3 V/68
µ
F, 100
µ
F, 10 V/
4.7
µ
F products in B2 case;
9

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