Chevrolet TrailBlazer, Service Manual

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which receive power from a single circuit. This lessens the amount of wire needed to
power components on the vehicle.
How Does Electricity Work: The Water Analogy
Electricity is the flow of electrons-the subatomic particles that constitute the outer shell of
an atom. Electrons spin in an orbit around the center core of an atom. The center core is
comprised of protons (positive charge) and neutrons (neutral charge). Electrons have a
negative charge and balance out the positive charge of the protons. When an outside force
causes the number of electrons to unbalance the charge of the protons, the electrons will
split off the atom and look for another atom to balance out. If this imbalance is kept up,
electrons will continue to move and an electrical flow will exist.
Many people have been taught electrical theory using an analogy with water. In a
comparison with water flowing through a pipe, the electrons would be the water and the
wire is the pipe.
The flow of electricity can be measured much like the flow of water through a pipe. The
unit of measurement used is amperes, frequently abbreviated as amps (a). You can
compare amperage to the volume of water flowing through a pipe. When connected to a
circuit, an ammeter will measure the actual amount of current flowing through the circuit.
When relatively few electrons flow through a circuit, the amperage is low. When many
electrons flow, the amperage is high.
Water pressure is measured in units such as pounds per square inch (psi); The electrical
pressure is measured in units called volts (v). When a voltmeter is connected to a circuit, it
is measuring the electrical pressure.
The actual flow of electricity depends not only on voltage and amperage, but also on the
resistance of the circuit. The higher the resistance, the higher the force necessary to push
the current through the circuit. The standard unit for measuring resistance is an ohm.
Resistance in a circuit varies depending on the amount and type of components used in
the circuit. The main factors which determine resistance are:
Material-some materials have more resistance than others. Those with high
resistance are said to be insulators. Rubber materials (or rubber-like plastics) are
some of the most common insulators used in vehicles as they have a very high
resistance to electricity. Very low resistance materials are said to be conductors.
Copper wire is among the best conductors. Silver is actually a superior conductor
to copper and is used in some relay contacts, but its high cost prohibits its use as
common wiring. Most automotive wiring is made of copper.
Size-the larger the wire size being used, the less resistance the wire will have. This
is why components which use large amounts of electricity usually have large wires
supplying current to them.
Length-for a given thickness of wire, the longer the wire, the greater the resistance.
The shorter the wire, the less the resistance. When determining the proper wire for
a circuit, both size and length must be considered to design a circuit that can
handle the current needs of the component.
Temperature-with many materials, the higher the temperature, the greater the
resistance (positive temperature coefficient). Some materials exhibit the opposite