Resistor Color Code Calculator

RESISTORS

Examples

3 bands:

Yellow, violet, black --> 47 ohm 20%

Orange, orange, brown --> 330 ohm 20%

Brown, black, red --> 1k 20%

4 bands:

Green, blue, red, gold --> 5.6kohm 5%

Red, yellow, orange, gold --> 24kohm 5%

Blue, gray, yellow, silver --> 680k 10%

More 4 band resistor color code examples: E12 and E24 series.

5 bands:

Red, yellow, orange, black, brown --> 243 ohms, 1% precision 5-band resistor

Yellow, violet, gold, gold, yellow --> 4.7 ohms, 5% - this resistor is calculated with the 4-band rule (the yellow band is ignored).

Orange, black, black, brown, brown --> 3.00 k ohms, 1% - note: this is a non-standard 1% (E96) resistor, but some manufacturers make every value from the E24 series with 1% tolerance!

More: 5 band E48 (2%) series resistor color code examples.

6 bands:

Red, red, brown, brown, brown, red --> 2.21k, 1% 50ppm/°C

White, black, white, brown, red, red --> 9.09k, 2% 50ppm/°C

- do not enter the last band (red in the two examples above)

For standard precision resistors (four bands) : As mentioned above, standard precision resistors use four color bands. An image of the standard precision resistor is also shown above. For standard precision resistors,

• The First band indicates the first digit of the resistance value.
• The second band indicates the second digit of the resistance value.
• The third band indicates the number of zeros to be added after the first two digits. Except when the color is silver or golden. Example 2 given below shows what should be done if the color is silver or golden.
• The fourth band indicates tolerance.

What is a Resistor?

An electric resistor is a two-terminal passive component specifically used to oppose and limit current. A resistor works on the principle of Ohm’s Law which states that voltage across the terminals of a resistor is directly proportional to the current flowing through it.

Ohm’s Law: V = IR

where V is the voltage applied across resistor,

             I is the current flowing through it,

             and R is the constant called resistance.

The unit of resistance is ohms.

Types of Resistors:

Resistors can be broadly classified based on the following criteria: the type of material used, the power rating and resistance value.

1.        Fixed resistors.

2.    Variable Resistor

Fixed Resistor:

Types Of Fixed Resistor

Types of Resistors by Composition

There are 3 main types of resistors based on their composition: carbon-composition resistors, carbon-film resistors, and metal-film resistors.

Carbon-composition Resistors

Carbon-composition resistors are resistors that are made of finely divided carbon or graphite mixed with a powdered insulating material as a binder in the proportions need for the desired R value.

More carbon produces less resistance, while more binder equals greater resistance. The resistor element is enclosed in a plastic case for insulation and mechanical strength. Joined to the two ends of the carbon resistance element are metal caps with leads of tinned copper wire for soldering the connections into a circuit. Carbon-composition resistors normally have a brown body and are cylindrical.

Carbon-composition resistors are commonly available in resistance values of 1Ω to 20MΩ. The power rating is generally 0.1, 0.125, 0.25, 0.5, 1, or 2W.

Carbon-film Resistors

A carbon-film resistor is a resistor in which a thin film of carbon is deposited onto an insulated substrate and then cut into a spiral body.

The resistance value of the resistor is controlled by varying the proportion of carbon to insulator. More carbon gives less resistance, while more insulating material gives greater resistance.

Compared to carbon-composition resistors, carbon-film resistors have the following advantages: lower and tighter tolerances, less sensitivity to temperature changes and aging, and less noise generated internally.

Metal-film Resistors

A metal-film resistor is a resistor in which a thin film of metal is sprayed onto a ceramic substrate and then cut into a spiral body.

The length, thickness, and width of the metal spiral determine the exact resistance value.

Metal-film resistors offer more precise resistance values than the other type of film resistors, which are carbon-film resistors. Like carbon-film resistors, metal-film resistors are affected very little by temperature changes and aging. They also generate very little noise internally. 

Between the three types of resistors based on composition, carbon-composition resistors, carbon-film resistors, and metal-film resistors, in overall performance, metal-film resistors are the best, carbon-film the next best, and carbon-composition resistors last. 

Power Wirewound Resistors

Power wirewound resistors are resistors that can handle a large amount of power, usually up to 50 watts.

Typical resistors normally can handle between 0.25W to 2W of power. Power wirewound resistors can handle much, much more and are suitable for use in high-power applications.

Fusible Resistor

A Fusible Resistor is a wire-wound resistor that is designed to burn open easily when the power rating of the resistor is exceeded.

In this way, a fusible resistor serves dual functions. When the power isn't exceeded, it serves as a resistor limiting current. When the power rating is exceeded, it functions as a fuse, burning up, and becoming an open in the circuit to protect components in the circuit from excess current.

Variable Resistor

Types of Variable Resistor

Potentiometers

A potentiometer is a 3-terminal variable resistor. By adjusting the wiper terminal, it can be used to represent a wide range of resistances in a circuit from anywhere near 0Ω to the specified resistance rating of the potentiometer. Therefore, for example, a 10KΩ potentiometer can be adjusted to give the resistance range from almost 0Ω to 10KΩ by adjusting the potentiometer knob.

Potentiometers are in wide use in circuits for a variety of uses, but their main fuction remains the same: to increase or decrease the amplitude of a signal in a circuit. When the resistance of the potentiometer is decreased, the amplitude of the signal increases. When the resistance is increased, the amplitude of the signal decreases. This can be used in circuits to control volume levels such as on speakers or for any adjustable controls.

Rheostats

A rheostat is a 2-terminal variable resistor.

As a variable resistor, it serves to vary the amount of voltage or current in a circuit.

Just like potentiometers, rheostats can be used to vary AC or DC signals. They differ from potentiometers in the fact that they only have two leads of which potentiometers have 3. However, the two still achieve the same function. While a potentiometer uses a third terminal to serve as the adjustable part, the rheostat uses a slider to vary resistance. If the slider isn't moved, the rheostat functions as a fixed resistor.

A rheostat is connected in a circuit by having the two leads connected in series with the load.

Thermistors

A thermistor is a thermally sensitive resistor whose resistance value changes with changes in operating temperature.

Because of the self-heating effect of current in a thermistor, the device changes resistance with changes in current.

Thermistors exhibit either a positive temperature coefficient (PTC) or a negative temperature coefficient (NTC). If a thermistor has a positive temperature coefficient, its resistance increases as the operating temperature increases. Conversely, if a thermistor has a negative temperature coefficient, its resistance decreases as the operating temperature increases.

How much the resistance changes with changes in the operating temperature depends on the size and construction of the thermistor. It's always best to check the datasheet of the thermistor in use to find out all the specifications of the thermistors.

Thermistors are frequently used in electronic circuits that handle temperature measurement, temperature control, and temperature compensation.

Photoresistors

Photoresistors are resistors whose resistance values change according to the light striking the surface of the resistor. In a dark environment, the resistance of a photoresistor is very high, possibly several MΩ, depending on the resistance rating of the specific photoresistor in use. When intense light hits the surface, the resistance of the photoresistor drops dramatically, possibly to as low as 400Ω.

Thus, photoresistors are variable resistors whose resistance values change in regard to the amount of light hitting its surface.

The above list is an extensive list of the types of resistors which exist today. The last 4 resistors are variable resistors which change according to knob adjustments, heat, and light, respectively.