18 CIRCUIT CONCEPTS
TABLE 1.2.2Standard Color-Coded Bands for Evaluating Resistance and Their InterpretationColor bands 1–4 b 1 b 2 b 3 b 4Color of Band Digit of Band Multiplier % Tolerance in Actual ValueBlack 0 100 —
Brown 1 101 —
Red 2 102 —
Orange 3 103 —
Yellow 4 104 —
Green 5 105 —
Blue 6 106 —
Violet 7 107 —
Grey 8 108 —
White 9 — —
Gold — 10 −^1 ±5%
Silver — 10 −^2 ±10%
Black or no color — — ±20%
Resistance value=( 10 b 1 +b 2 )× 10 b^3 .of 10 ranging from 10to about 22× 106 . For example, 8.2,82, 820,... , 820 k
are standard available values.
The maximum allowable power dissipation orpower ratingis typically specified for com-
mercial resistors. A common power rating for resistors used in electronic circuits is^1 4 W; other
ratings such as^1 8 ,^1 2 , 1, and 2 W are available with composition-type resistors, whereas larger
ratings are also available with other types. Variable resistors, known aspotentiometers, with a
movable contact are commonly found in rotary or linear form. Wire-wound potentiometers may
have higher power ratings up to 1000 W.
The advent of integrated circuits has given rise topackaged resistance arraysfabricated by
using film technology. These packages are better suited for automated manufacturing and are
usually less costly than discrete resistors in large production runs.
An important property of the resistor is its ability to convert energy from electrical form into
heat. The manufacturer generally states the maximum power dissipation of the resistor in watts.
If more power than this is converted to heat by the resistor, the resistor will be damaged due to
overheating. The instantaneous power absorbed by the resistor is given by
p(t)=v(t)i(t)=i^2 R=v^2 /R=v^2 G (1.2.4)
wherevis the voltage drop across the resistance andiis the current through the resistance. It can
be shown (see Problem 1.2.13) that the average value of Equation (1.2.4) is given by
Pav=VrmsIrms=Irms^2 R=Vrms^2 /R=Vrms^2 G (1.2.5)
for periodically varying current and voltage as a function of time. Equation (1.2.5) gives the
expression for the power converted to heat by the resistor.