| Part | RoHS | Manufacturer | Capacitor Type | Mounting Feature | Capacitance | Rated DC Voltage (URdc) | Maximum Operating Temperature | Dielectric Material | Tan Delta | Minimum Operating Temperature | Temperature Coef (ppm/Cel) | Terminal Finish | Leakage Current (mA) | Package Shape | Polarity | Manufacturer Series | Height | Width | Ripple Current (mA) | Diameter | Multi-layer | Equivalent Series Resistance / ESR (mohm ) | Additional Features | Packing Method | Size Code | JESD-609 Code | Series | No. of Terminals | Package Style (Meter) | Rated AC Voltage (URac) | Length | Terminal Shape | Positive Tolerance | Temperature Characteristics Code | Reference Standard | Negative Tolerance | Custom Capabilities | Terminal Pitch |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
CHASSIS MOUNT |
250 uF |
100 V |
105 Cel |
TANTALUM (SOLID POLYMER) |
0.05 |
-55 Cel |
TIN |
0.188 |
POLARIZED |
11.1 mm |
50.6 mm |
1275 |
30 |
ESR IS MEASURED AT 100 KHZ, RIPPLE CURRENT IS MEASURED AT 40KHZ |
BULK |
e3 |
2 |
Chassis Mount |
52.1 mm |
LUG |
20 % |
20 % |
12.71 mm |
||||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
CHASSIS MOUNT |
250 uF |
100 V |
105 Cel |
TANTALUM (SOLID POLYMER) |
0.05 |
-55 Cel |
TIN LEAD |
0.188 |
RECTANGULAR PACKAGE |
POLARIZED |
11.1 mm |
50.6 mm |
1275 |
30 |
ESR IS MEASURED AT 100 KHZ, RIPPLE CURRENT IS MEASURED AT 40KHZ |
BULK |
e0 |
2 |
Chassis Mount |
52.1 mm |
LUG |
20 % |
20 % |
12.71 mm |
||||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
CHASSIS MOUNT |
250 uF |
100 V |
105 Cel |
TANTALUM (SOLID POLYMER) |
0.05 |
-55 Cel |
TIN LEAD |
0.188 |
RECTANGULAR PACKAGE |
POLARIZED |
11.1 mm |
50.6 mm |
1275 |
30 |
ESR IS MEASURED AT 100 KHZ, RIPPLE CURRENT IS MEASURED AT 40KHZ |
BULK |
e0 |
2 |
Chassis Mount |
52.1 mm |
LUG |
20 % |
20 % |
12.71 mm |
||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
THROUGH HOLE MOUNT |
.1 uF |
3000 V |
125 Cel |
CERAMIC |
-55 Cel |
15% |
MATTE TIN OVER NICKEL |
18.29 mm |
6.89 mm |
Yes |
STANDARD: MIL-PRF-49467 |
BULK |
e3 |
2 |
Radial |
19.56 mm |
WIRE |
80 % |
X7R |
20 % |
17.14 mm |
||||||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
100 uF |
10 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
-55 Cel |
0.1 |
POLARIZED |
2.8 mm |
4.3 mm |
592.5 |
80 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
22 uF |
25 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
-55 Cel |
0.055 |
POLARIZED |
2.8 mm |
4.3 mm |
685 |
60 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
THROUGH HOLE MOUNT |
.00027 uF |
100 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
MATTE TIN OVER NICKEL |
5.08 mm |
2.54 mm |
Yes |
TR, 12 INCH |
e3 |
2 |
Radial |
3.81 mm |
WIRE |
5 % |
C0G |
5 % |
5.08 mm |
|||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
THROUGH HOLE MOUNT |
.0027 uF |
2000 V |
125 Cel |
CERAMIC |
-55 Cel |
15% |
Matte Tin (Sn) - with Nickel (Ni) barrier |
RECTANGULAR PACKAGE |
6.6 mm |
3.81 mm |
Yes |
BULK |
e3 |
2 |
Radial |
5.08 mm |
WIRE |
10 % |
X7R |
10 % |
5.08 mm |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
THROUGH HOLE MOUNT |
.00068 uF |
3000 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
MATTE TIN OVER NICKEL |
9.14 mm |
5.08 mm |
Yes |
BULK |
e3 |
2 |
Radial |
7.62 mm |
WIRE |
5 % |
C0G |
5 % |
5.08 mm |
|||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
THROUGH HOLE MOUNT |
.00082 uF |
2000 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
MATTE TIN OVER NICKEL |
RECTANGULAR PACKAGE |
9.14 mm |
5.08 mm |
Yes |
BULK |
e3 |
2 |
Radial |
7.62 mm |
WIRE |
5 % |
C0G |
5 % |
5.08 mm |
||||||||||||||
|
|
KEMET Corporation |
FILM CAPACITOR |
STUD MOUNT |
80 uF |
85 Cel |
POLYPROPYLENE |
-25 Cel |
50 mm |
2 |
Quick Connect |
470 V |
133 mm |
CONNECTOR |
5 % |
5 % |
|||||||||||||||||||||||
|
|
KEMET Corporation |
FILM CAPACITOR |
STUD MOUNT |
110 uF |
85 Cel |
POLYPROPYLENE |
-25 Cel |
60 mm |
2 |
Quick Connect |
470 V |
133 mm |
CONNECTOR |
5 % |
5 % |
|||||||||||||||||||||||
|
|
KEMET Corporation |
FILM CAPACITOR |
STUD MOUNT |
55 uF |
85 Cel |
POLYPROPYLENE |
-25 Cel |
50 mm |
2 |
Quick Connect |
470 V |
133 mm |
CONNECTOR |
5 % |
5 % |
|||||||||||||||||||||||
|
KEMET Corporation |
FILM CAPACITOR |
STUD MOUNT |
3 uF |
85 Cel |
POLYPROPYLENE |
-25 Cel |
CYLINDRICAL PACKAGE |
BULK |
2 |
SPECIAL |
5 % |
5 % |
||||||||||||||||||||||||||
|
|
KEMET Corporation |
FILM CAPACITOR |
SURFACE MOUNT |
10 uF |
50 V |
125 Cel |
POLYESTER |
-55 Cel |
7 mm |
15 mm |
TR, 13 INCH |
6560 |
2 |
SMT |
30 V |
16.5 mm |
WRAPAROUND |
20 % |
AEC-Q200 |
20 % |
||||||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
.18 uF |
2000 V |
125 Cel |
CERAMIC |
-55 Cel |
15% |
Nickel (Ni) |
HV |
18.29 mm |
6.89 mm |
Bulk |
7727 |
HV-HIGH VOLT |
2 |
Radial |
19.56 mm |
10 % |
X7R |
10 % |
17.14 mm |
||||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.00001 uF |
16 V |
125 Cel |
CERAMIC |
-55 Cel |
15% |
MATTE TIN OVER NICKEL |
RECTANGULAR PACKAGE |
.5 mm |
.5 mm |
Yes |
TR, PAPER, 7 INCH |
0402 |
e3 |
2 |
SMT |
1 mm |
WRAPAROUND |
10 % |
X7R |
10 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.000012 uF |
25 V |
125 Cel |
CERAMIC |
-55 Cel |
15% |
Matte Tin (Sn) - with Nickel (Ni) barrier |
RECTANGULAR PACKAGE |
.5 mm |
.5 mm |
Yes |
TR, PAPER, 7 INCH |
0402 |
e3 |
2 |
SMT |
1 mm |
WRAPAROUND |
10 % |
X7R |
10 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.00001 uF |
100 V |
125 Cel |
CERAMIC |
-55 Cel |
15% |
Matte Tin (Sn) - with Nickel (Ni) barrier |
RECTANGULAR PACKAGE |
.8 mm |
.8 mm |
Yes |
TR, PAPER, 7 INCH |
0603 |
e3 |
2 |
SMT |
1.6 mm |
WRAPAROUND |
10 % |
X7R |
10 % |
||||||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
330 uF |
16 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
Tin/Lead (Sn/Pb) |
0.528 |
POLARIZED |
4 mm |
4.3 mm |
581 |
50 |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e0 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
||||||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
330 uF |
16 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
Tin/Lead (Sn/Pb) |
0.528 |
POLARIZED |
4 mm |
4.3 mm |
821.5 |
25 |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e0 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
||||||||||||||
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.0001 uF |
50 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
TIN LEAD OVER NICKEL |
.5 mm |
.5 mm |
Yes |
TR, PUNCHED PAPER, 7 INCH |
0402 |
e0 |
2 |
SMT |
1 mm |
WRAPAROUND |
10 % |
C0G |
10 % |
||||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.0001 uF |
100 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
Matte Tin (Sn) - with Nickel (Ni) barrier |
.78 mm |
1.6 mm |
Yes |
TR, EMBOSSED PLASTIC, 7 INCH |
1206 |
e3 |
2 |
SMT |
3.2 mm |
WRAPAROUND |
10 % |
C0G |
10 % |
|||||||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
100 uF |
25 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.25 |
RECTANGULAR PACKAGE |
POLARIZED |
2.8 mm |
4.3 mm |
702.5 |
40 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 13 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
100 uF |
25 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.25 |
RECTANGULAR PACKAGE |
POLARIZED |
2.8 mm |
4.3 mm |
572.5 |
60 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
18 uF |
50 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.09 |
RECTANGULAR PACKAGE |
POLARIZED |
2.8 mm |
4.3 mm |
467.5 |
90 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
33 uF |
16 V |
105 Cel |
TANTALUM (SOLID POLYMER) |
0.08 |
-55 Cel |
MATTE TIN |
0.0528 |
RECTANGULAR PACKAGE |
POLARIZED |
1.1 mm |
2.8 mm |
472.5 |
45 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
1411 |
e3 |
2 |
SMT |
3.5 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
10 uF |
50 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.05 |
RECTANGULAR PACKAGE |
POLARIZED |
1.8 mm |
4.3 mm |
432.5 |
90 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
10 uF |
75 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.075 |
RECTANGULAR PACKAGE |
POLARIZED |
4 mm |
4.3 mm |
707.5 |
50 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 13 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
10 uF |
75 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.075 |
RECTANGULAR PACKAGE |
POLARIZED |
4 mm |
4.3 mm |
707.5 |
50 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
100 uF |
25 V |
105 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.25 |
RECTANGULAR PACKAGE |
POLARIZED |
4 mm |
4.3 mm |
912.5 |
30 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 13 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
15 uF |
75 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.1125 |
RECTANGULAR PACKAGE |
POLARIZED |
4 mm |
4.3 mm |
845 |
35 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 13 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
33 uF |
50 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
MATTE TIN |
0.165 |
RECTANGULAR PACKAGE |
POLARIZED |
4 mm |
4.3 mm |
707.5 |
50 |
ESR AND RIPPLE CURRENT IS MEASURED AT 100KHZ |
TR, EMBOSSED PLASTIC, 13 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
22 uF |
25 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
Tin/Lead (Sn/Pb) |
0.055 |
RECTANGULAR PACKAGE |
POLARIZED |
2.8 mm |
4.3 mm |
433 |
75 |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e0 |
2 |
SMT |
7.3 mm |
J BEND |
10 % |
10 % |
|||||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
4.7 uF |
63 V |
105 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
TIN LEAD |
.03 |
RECTANGULAR PACKAGE |
POLARIZED |
2.8 mm |
4.3 mm |
1732 |
75 |
TR, 7 INCH |
2917 |
e0 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
|||||||||||||
|
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
4.7 uF |
63 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.1 |
-55 Cel |
Matte Tin (Sn) |
0.03 |
RECTANGULAR PACKAGE |
POLARIZED |
2.8 mm |
4.3 mm |
433 |
75 |
TR, EMBOSSED PLASTIC, 7 INCH |
2917 |
e3 |
2 |
SMT |
7.3 mm |
J BEND |
20 % |
20 % |
||||||||||||
|
KEMET Corporation |
TANTALUM CAPACITOR |
SURFACE MOUNT |
100 uF |
3 V |
125 Cel |
TANTALUM (SOLID POLYMER) |
0.08 |
-55 Cel |
TIN LEAD |
0.03 |
POLARIZED |
1.9 mm |
2.8 mm |
315 |
80 |
TR, EMBOSSED PLASTIC, 7 INCH |
1411 |
e0 |
2 |
SMT |
3.5 mm |
J BEND |
20 % |
20 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
THROUGH HOLE MOUNT |
.0022 uF |
100 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
Matte Tin (Sn) - with Nickel (Ni) barrier |
3.81 mm |
Yes |
TR, 12 INCH |
e3 |
2 |
Axial |
6.1 mm |
WIRE |
5 % |
C0G |
5 % |
|||||||||||||||||
|
|
KEMET Corporation |
ALUMINUM ELECTROLYTIC CAPACITOR |
CHASSIS MOUNT |
10000 uF |
25 V |
125 Cel |
ALUMINUM (WET) |
-55 Cel |
0.504 |
CYLINDRICAL PACKAGE |
POLARIZED |
5300 |
35 mm |
27 |
2 |
Screw Ends |
51 mm |
SCREW |
30 % |
10 % |
||||||||||||||||||
|
|
KEMET Corporation |
ALUMINUM ELECTROLYTIC CAPACITOR |
CHASSIS MOUNT |
4700 uF |
40 V |
125 Cel |
ALUMINUM (WET) |
-55 Cel |
0.38 |
CYLINDRICAL PACKAGE |
POLARIZED |
4800 |
35 mm |
32 |
2 |
Screw Ends |
51 mm |
SCREW |
30 % |
10 % |
||||||||||||||||||
|
|
KEMET Corporation |
ALUMINUM ELECTROLYTIC CAPACITOR |
THROUGH HOLE MOUNT |
47 uF |
400 V |
105 Cel |
ALUMINUM (WET) |
0.2 |
-25 Cel |
0.574 |
CYLINDRICAL PACKAGE |
POLARIZED |
265 |
16 mm |
BULK |
2 |
Radial |
25 mm |
WIRE |
20 % |
20 % |
7.5 mm |
||||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.0001 uF |
100 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
Matte Tin (Sn) - with Nickel (Ni) barrier |
.78 mm |
1.25 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0805 |
e3 |
2 |
SMT |
2 mm |
WRAPAROUND |
5 % |
C0G |
AEC-Q200 |
5 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.0001 uF |
50 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
Matte Tin (Sn) - with Nickel (Ni) barrier |
.78 mm |
1.25 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0805 |
e3 |
2 |
SMT |
2 mm |
WRAPAROUND |
5 % |
C0G |
AEC-Q200 |
5 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.001 uF |
50 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
Matte Tin (Sn) - with Nickel (Ni) barrier |
.78 mm |
1.25 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0805 |
e3 |
2 |
SMT |
2 mm |
WRAPAROUND |
5 % |
C0G |
AEC-Q200 |
5 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.000022 uF |
50 V |
125 Cel |
CERAMIC |
-55 Cel |
30ppm/Cel |
MATTE TIN OVER NICKEL |
.78 mm |
1.25 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0805 |
e3 |
2 |
SMT |
2 mm |
WRAPAROUND |
5 % |
C0G |
AEC-Q200 |
5 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
10 uF |
4 V |
85 Cel |
CERAMIC |
-55 Cel |
15% |
Matte Tin (Sn) - with Nickel (Ni) barrier |
RECTANGULAR PACKAGE |
.5 mm |
.5 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0402 |
e3 |
2 |
SMT |
1 mm |
WRAPAROUND |
20 % |
X5R |
20 % |
||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
.47 uF |
6.3 V |
85 Cel |
CERAMIC |
-55 Cel |
15% |
Matte Tin (Sn) - with Nickel (Ni) barrier |
.5 mm |
.5 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0402 |
e3 |
2 |
SMT |
1 mm |
WRAPAROUND |
10 % |
X5R |
10 % |
|||||||||||||||
|
|
KEMET Corporation |
CERAMIC CAPACITOR |
SURFACE MOUNT |
4.7 uF |
6.3 V |
85 Cel |
CERAMIC |
-55 Cel |
15% |
Matte Tin (Sn) - with Nickel (Ni) barrier |
.5 mm |
.5 mm |
Yes |
TR, PUNCHED PAPER, 13 INCH |
0402 |
e3 |
2 |
SMT |
1 mm |
WRAPAROUND |
20 % |
X5R |
20 % |
Fixed capacitors are electronic components that have a fixed capacitance value that cannot be changed. They are used in electronic circuits to provide a specific capacitance value for a given application.
Fixed capacitors are made using a variety of dielectric materials, including ceramic, tantalum, aluminum electrolytic, polyester, and polypropylene. The choice of dielectric material depends on the specific requirements of the application, such as operating voltage, temperature range, and stability.
Fixed capacitors are available in a variety of shapes and sizes, such as through-hole, surface mount, and leaded types. They can also be classified based on their operating voltage, tolerance, and temperature coefficient.
Some common applications of fixed capacitors include decoupling, filtering, timing, and coupling circuits. In decoupling circuits, fixed capacitors are used to filter out unwanted high-frequency noise and ensure stable power supply operation. In timing circuits, fixed capacitors are used to set the time constant and determine the frequency of oscillation.
One of the main advantages of fixed capacitors is their stable capacitance value, which does not change over time or with changes in operating conditions. This makes them suitable for applications that require consistent and predictable performance.