Capacitor Code Chart

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Capacitor Chart Tantalum Capacitor Color Codes Charts Color Color 1st Figure 2nd Figure Multiplier Voltage Black 0 1 10 Brown 1 1 10 Red 2 2 100 Orange 3 3 Parallel Capacitance Math: C T = C 1 + C 2 + C 3 Series Capacitance Math: 1/C T = 1/C 1 + 1/C 2 + 1/C 3 Yellow 4 4 6.3 Green 5 16 Blue 6 6. Capacitor value table from 0.001uF to 220uF. Every value shown in microfarads, nanofarads, picofarads, European and EIA/MIL codes, and colour codes. Handy formulae for series and parallel capacitors, stored charge, and stored energy. Summary of common capacitor types and uses. Capacitor Code Chart Pdf Free Capacitor Code Information This table is designed to provide the value of alphanumeric coded ceramic, mylar and mica capacitors in general. They come in many sizes, shapes, values and ratings; many different manufacturers worldwide produce them and not all play by the same rules. Capacitor Color Codes for Identification Chart. Capacitors may be marked with 4 or more colored bands or dots. The colors encode the first and second most significant digits of the value, and the third color the decimal multiplier in picofarads. Additional bands have meanings which may vary from one type to another. Air Variable; Polypropylene Film (1600V) Capacitor Markings; Ceramic; Electrolytic; Film; Multi-Section Electrolytic; Silver Mica; Chassis & Enclosures. Chassis & Bottom Plates-Natural Aluminum Finish; Chassis & Bottom Plates-Painted Steel; Chokes. Filter (153-159 Series) Tube Guitar Amplifier - Chokes; Connectors.

Capacitor Color Codes for Identification Chart

Capacitors may be marked with 4 or more colored bands or dots. The colors encode the first and second most significant digits of the value, and the third color the decimal multiplier in picofarads. Additional bands have meanings which may vary from one type to another. Low-tolerance capacitors may begin with the first 3 (rather than 2) digits of the value. It is usually, but not always, possible to work out what scheme is used by the particular colors used. Cylindrical capacitors marked with bands may look like resistors.

Capacitance Color Coding Table #1
1st Digit (A)
Mutilplier (C)
Black
0
±20%
1
10
Red
2
±2%
3
1,000
Yellow
4
±4%
5
100,000
Blue
6
±6%
7
-
Grey
8
±8%
9
-
Gold
-
±5%
-
-
No Color
-
±20%
Color
Multiplier
Charateristic
Operating
Temperature
Black
1
???
???55 °C to +70 °C
Brown
10
B
???
Red
100
C
???55 °C to +85 °C
Orange
1 000
D
???
Yellow
10 000
E
???55 °C to +125 °C
Green
100 000
F
???
Blue
1 000 000
???
???55 °C to +150 °C
Violet
10 000 000
???
???
Grey
???
???
???
White
???
???
???
Gold
???
???
???
Silver
???
???
???
Code Black Brown Red Orange Yellow Green Blue Violet Grey White Gold Silver

Extra bands on ceramic capacitors will identify the voltage rating class and temperature coefficient characteristics. A broad black band was applied to some tubular paper capacitors to indicate the end that had the outer electrode; this allowed this end to be connected to chassis ground to provide some shielding against hum and noise pickup.

Polyester film and 'gum drop' tantalum electrolytic capacitors are also color-coded to give the value, working voltage and tolerance.

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A common question when looking at ceramic capacitors is what do the temperature coefficient numbers/letters mean? These numbers will generally break down to a temperature range and the variation in capacitance over that specific range. The first thing you need to understand with what standard and class you are looking at. These are split between the International Electrotechnical Commission (IEC) and the Electronic Industries Alliance (EIA)

Capacitor Code Charts

Here is a chart on the different classes and definitions:

IEC/EN 603841 &
IEC/EN 60384-8/9/21/22		EIA RS-198
Class 1 ceramic caps offer high stability and low losses for resonant circuit applicationsClass I ceramic caps offer high stability and low losses for resonant circuit applications
Class 2 ceramic capacitors offer high volumetric efficiency for smoothing, by-pass, coupling and decoupling applicationsClass II (or written class 2) ceramic capacitors offer high volumetric efficiency with change of capacitance lower than −15% to +15% and a temperature range greater than −55 °C to +125 °C, for smoothing, by-pass, coupling and decoupling applications
Class 3 ceramic capacitors are barrier layer capacitors which are not standardized anymoreClass III (or written class 3) ceramic capacitors offer higher volumetric efficiency than EIA class II and typical change of capacitance by −22% to +56% over a lower temperature range of 10 °C to 55 °C. They can be substituted with EIA class 2- Y5U/Y5V or Z5U/Z5V capacitors
Class IV (or written class 4) ceramic capacitors are barrier layer capacitors which are not standardized anymore

With class definitions understood you can look how the temperature coefficients break down.

Class 1 per EIA-RS-198

Temperature coefficient α
10-6 /K Letter code		Multiplier of the temperature
coefficient Number code		Tolerance of the temperature
coefficient Letter code
C: 0.00: -1G: ± 30
B: 0.31: -10H ± 60
L: 0.82: −100J: ±120
A: 0.93: −1000K: ±250
M: 1.04: +1L: ±500
P: 1.56: +10M: ±1000
R: 2.27: +100N: ±2500
S: 3.38: +1000
T: 4.7
V: 5.6
U: 7.5

Class 1 per IEC/EN 60384-8/21 and EIA-RS-198

Ceramic namesTemperature coefficient α 10-6 /Kα-Tolerance 10-6 /KSub-classIEC/ EN- letter codeEIA letter code
P100100±301BAGM7G
NP00±301BCGC0G
N33−33±301BHGH2G
N75−75±301BLGL2G
N150−150±601BPHP2H
N220−220±601BRHR2H
N330−330±601BSHS2H
N470−470±601BTHT2H
N750−750±1201BUJU2J
N1000−1000±2501FQKQ3K
N1500−1500±2501FVKP3K

Smd Capacitor Code Chart

Looking at these charts you see, an “NP0” capacitor with EIA code “C0G” will have 0 drift, with a tolerance of ±30 ppm/K, while an “N1500” with the code “P3K” will have −1500 ppm/K drift, with a maximum tolerance of ±250 ppm/°C.

Note that the IEC and EIA capacitor codes are industry capacitor codes and not the same as military capacitor codes.

Capacitor Code Chart Pdf

Class 2 per EIA RS-198

Letter Code for Low TempNumber Code for High TempLetter code for change of capacitance
over the temp range
X = −55 °C (−67 °F)4 = +65 °C (+149 °F)P = ±10%
Y = −30 °C (−22 °F)5 = +85 °C (+185 °F)R = ±15%
Z = +10 °C (+50 °F)6 = +105 °C (+221 °F)S = ±22%
7 = +125 °C (+257 °F)T = +22/−33%
8 = +150 °C (+302 °F)U = +22/−56%
9 = +200 °C (+392 °F)V = +22/−82%

For instance, a Z5U capacitor will operate from +10 °C to +85 °C with a capacitance change of at most +22% to −56%. An X7R capacitor will operate from −55 °C to +125 °C with a capacitance change of at most ±15%.

Here are some common Class 2 configurations:

  • X8R (−55/+150, ΔC/C0 = ±15%),
  • X7R (−55/+125 °C, ΔC/C0 = ±15%),
  • X6R (−55/+105 °C, ΔC/C0 = ±15%),
  • X5R (−55/+85 °C, ΔC/C0 = ±15%),
  • X7S (−55/+125, ΔC/C0 = ±22%),
  • Z5U (+10/+85 °C, ΔC/C0 = +22/−56%),
  • Y5V (−30/+85 °C, ΔC/C0 = +22/−82%),

Class 2 per IEC/EN 60384-9/22

Code for capacitance changeMax capacitance change
ΔC/C0 at U = 0		Max capacitance
change
ΔC/C0 at U = UN		Code for temp rangeTemp Range
2B±10%+10/−15%1−55 … +125 °C
2C±20%+20/−30%2−55 … +85 °C
2D+20/−30%+20/−40%3−40 … +85 °C
2E+22/−56%+22/−70%4−25 … +85 °C
2F+30/−80%+30/−90%5(-10 … +70) °C
2R±15%6+10 … +85 °C
2X±15%+15/−25%--

Capacitor Code Chart Pdf

In some cases it is possible to translate the EIA code into the IEC/EN code. Slight variations can occur, but normally are tolerable.

Electrolytic Capacitor Code Chart

  • X7R correlates with 2X1
  • Z5U correlates with 2E6
  • Y5V similar to 2F4, aberration: ΔC/C0 = +30/−80% instead of +30/−82%
  • X7S similar to 2C1, aberration: ΔC/C0 = ±20% instead of ±22%
  • X8R no IEC/EN code available