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A carbon composition resistor is a type of fixed resistor that limits or reduces the electric current in a circuit. It is made of a solid cylindrical body of carbon or graphite powder mixed with a binder, such as clay or resin. The carbon powder acts as a conductor, while the binder acts as an insulator. The resistor has two metal leads or caps attached to its ends, which connect it to the circuit.

Carbon composition resistors were widely used in the past, but they are now replaced by other types of resistors, such as metal film or wire wound resistors, because of their low stability and high cost. However, carbon composition resistors still have some advantages and applications, especially in high-energy pulse circuits.

How to Read the Resistance Value of a Carbon Composition Resistor?

The resistance value of a carbon composition resistor is indicated by color bands on its body. The color bands represent digits, multipliers, and tolerances according to a standard code. There are two types of color coding used for carbon composition resistors: general and precision.

General Color Coding

General color coding has four color bands and is used for resistors with a tolerance of ±5% or more. The first two color bands represent the first and second digits of the resistance value. The third color band represents the multiplier, which is the power of 10 by which the digits are multiplied. The fourth color band represents the tolerance, which is the percentage of deviation from the nominal value.

For example, a resistor with brown, black, red, and gold bands has a resistance value of 10 x 10^2 Ω = 1 kΩ with a tolerance of ±5%.

Precision Color Coding

Precision color coding has five color bands and is used for resistors with a tolerance of less than ±2%. The first three color bands represent the first, second, and third digits of the resistance value. The fourth color band represents the multiplier, which is the power of 10 by which the digits are multiplied. The fifth color band represents the tolerance, which is the percentage of deviation from the nominal value.

For example, a resistor with brown, black, black, orange, and brown bands has a resistance value of 100 x 10^3 Ω = 100 kΩ with a tolerance of ±1%.

What are the Advantages and Disadvantages of Carbon Composition Resistors?

Carbon composition resistors have some advantages and disadvantages compared to other types of resistors. Some of them are:

Advantages

• They can withstand high-energy pulses without damage or failure.

• They can have high resistance values up to several megaohms.

• They are cheap and easy to manufacture.

Disadvantages

• They have poor stability and accuracy due to changes in resistance value over time, temperature, humidity, voltage, and soldering.

• They have a high-temperature coefficient (TCR), which means their resistance value changes significantly with temperature variations.

• They have low power dissipation capacity and need to be derated above 70 °C.

• They have high noise levels due to the random contact between carbon particles and binders.

• They have low insulation resistance and high voltage dependence.

What are the Applications of Carbon Composition Resistors?

Carbon composition resistors are suitable for applications that require high-energy pulse handling, surge or discharge protection, current limiting, high voltage power supplies, high power or strobe lighting, welding, and other circuits that do not need high precision or stability. They are also used in some vintage or antique electronic devices for their authentic look and sound.

How is Carbon Composition Resistors Made?

Carbon composition resistors are made by mixing fine carbon or graphite powder with an insulating binder material in a specific ratio. The mixture is then molded into rods and baked at high temperatures to form a solid body. The rods are then cut into pieces of desired length and diameter. The ends of the pieces are coated with metal caps or leads that are soldered or welded to them. The body of the resistor is then covered with plastic or ceramic casing to protect it from moisture and dust. Finally, the resistor is painted with color bands to indicate its resistance value.

How to Choose a Carbon Composition Resistor?