1. Resistor Calculator 3 Bands
2. Color Code Calculator
3. 4 Band Resistor Code

How does the resistor color code work? Check out All About Circuits Resistor Color Code Calculator, a handy tool for reading resistor color code values. Resistor values are often indicated with color codes. Practically all leaded resistors with a power rating up to one watt are marked with color bands. The coding is defined in the international standard IEC 60062. This standard describes the marking codes for resistors and capacitors. It includes also numerical codes, as for example often used for SMD resistors. The color code is given by several bands. Together they specify the resistance value, the tolerance and sometimes the reliability or failure rate. The number of bands varies from three till six. As a minimum, two bands indicate the resistance value and one band serves as multiplier. The resistance values are standardized, these values are called preferred value. Resistor color code chart The chart below shows how to determine the resistance and tolerance for resistors. The table can also be used to specify the color of the bands when the values are known. An automatic resistor calculator can be used to quickly find the resistor values. [embedit snippet='adsense'] Tips for reading resistor codes In the sections below examples are given for different numbers of bands, but first some tips are given to read the color code: The reading direction might not always be clear. Sometimes the increased space between band 3 and 4 give away the reading direction. Also, the first band is usually the closest to a lead. A gold or silver band (the tolerance) is always the last band. It is a good practice to check the manufacturer’s documentation to be sure about the used coding system. Even better is to measure the resistance with a multi-meter. In some cases this might even be the..

1. What are resistor color codes used for? For very small electronic components a color code instead of printed text is used to indicate the value, rating or and tolerance. Resistors come in variations with 4, 5 or more color bands where a 4-band color code is most common.
2. Five (5) Band Resistor / Resistance Color Code Calculator. Online electrical calculator to determine the value of resistance and tolerance of five band resistors based on the color of the bands selected. The values for the selected band is expressed in terms of ohms and percentage.

JRCaLc is a free resistor color code calculator which is intended to do both color code to value and value to color code calculations for resistors. In both of these calculations, the color code scheme is applicable for 4, 5, and 6 band resistors. 9 different color bands are provided to add tolerance to the resistor.

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Band 1	Band 2	Band 3	Band 3	Band 4	Band 6
Color	1st	2nd	3rd	Multiplier	Tolerance	TCR (10-6/K)
Black	0	0	x100	±250
Brown	1	1	1	x101	±1%	±100
Red	2	2	2	x102	±2%	±50
Orange	3	3	3	x103	±0.05%	±15
Yellow	4	4	4	x104	±0.02%	±25
Green	5	5	5	x105	±0.5%	±20
Blue	6	6	6	x106	±0.25%	±10
Violet	7	7	7	x107	±0.1%	±5
Grey	8	8	8	x108	±0.01%	±1
White	9	9	9	x109
Gold	x10-1	±5%
Silver	x10-2	±10%
Pink	x10-3

This calculator will help you identify the value, tolerance and temperature coefficient of a color coded resistor by simply selecting the bands colors. It will also calculate the minimum and maximum values based on the tolerance ratio. This calculator supports resistors with 3, 4, 5, and 6 bands.

How to use?

To use the calculator, follow these easy steps:

1. Select the number of bands on the resistor you are trying to identify.
2. For each band, select the matching color in the table column indicating the band number.
3. The resistance value will be calculated and shown along with the minimum and maximum values.

Resistor Color-coding

Color-coding is a method used to indicate the resistive value, tolerance, and temperature coefficient of resistors with low wattage rating because of their small size. Color bands are used because they can be easily and cheaply printed on a small electronic component. Color-coding is also used for capacitors, inductors and diodes.

When the resistor body surface is large enough, as in large wattage resistors, the resistance value, tolerance, and wattage are usually printed on the body of the resistor. Surface mounted resistors (SMD) use another coding system that uses alphanumeric codes printed on its surface instead of color codes.

The coding is defined in the international standard IEC 60062:2016. It describes the coding standard for both resistors and capacitors.

Reading Color Codes

Resistors cases usually have three to six bands that indicate their resistance, tolerance and sometimes their temperature coefficient of resistance (TCR). The bands are read from left to right. The reading direction is not always clear. To distinguish the reading direction, the tolerance band width is sometimes printed with 1.5 - 2 times the width of other bands. A larger gap between the tolerance band and the other bands is sometimes noticeable. If a gold or silver band is present, then they must be at the right end since they are never used for significant digits. It is always better to check the manufacturer’s documentation or use a multimeter to get the exact resistance value.

In a three-band resistor, the first two bands represent the first two significant digits followed by one band for the multiplier. Since no tolerance band is available, the tolerance will always be ±20%.

In a four-band resistor, which is the most common, the first two bands also represent the first two significant digits. The third band represents the multiplier. The fourth band represents the tolerance.

In a five-band resistor, the first three bands represent the first three significant digits. The fourth band represents the multiplier. The fifth band represents the tolerance.

In a six-band resistor, the first five bands have the same representation as a five-band resistor followed by one extra sixth band that represents the temperature coefficient of resistance (TCR).

Tolerance

Tolerance is the percentage of error between the actual measured resistive value and the stated value. This is due to the manufacturing process and it is expressed as a percentage of its preferred value

Calculating

To calculate the resistance value, you need to group the values of the significant digits bands — i.e., the values of the first two or three bands from the left, depending on the total number of bands. Then you need to multiply that value by the multiplier to get the resistance value of the resistor.

Let's take for example a four-band resistor with the following band colors: VioletGreenYellowGold

Resistor Calculator 3 Bands

Since it is a four-band resistor, the first two bands (violet and green) will indicate the significant digits which are, according to the table above; 75.

Color Code Calculator

We then multiply that number by the multiplier indicated with the 3^rd band (yellow) which has the value of; x10⁴ = 10000.
The result of the multiplication will be: 75 x 10000 = 750000Ω = 750kΩ.

The fourth band (gold) will indicate the tolerance which in our example is: ±5%
To calculate the minimum and maximum resistance values, we multiply the resistance value by the tolerance percentage to come up with the following values:
Minimum = 750000 - (750000 x 5/100) = 750000 - 37500 = 712500 = 712.5kΩ
Maximum = 750000 + (750000 x 5/100) = 750000 + 37500 = 787500 = 787.5kΩ

Exceptions

A zero-ohm resistor is a resistor having a single black band. Its resistance is approximately zero and it is used to connect two traces on a printed circuit board (PCB). Is it used in automated PCB assembly where using the same equipment used to mount other resistors is easier than using a separate machine to install a wire jumper.

Resistors manufactured for military use, may include an additional band indicating the failure rate.

4 Band Resistor Code

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