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What is
Electricity?
Energy is around us in a variety of forms, which
include, to name just a few, gasoline, running water,
light and electricity. We often transfer energy from one
form to another, for example, when an automobile uses
the chemical energy in fuel to move. Some types of
energy are easy to store (i.e. chemical) and others are
easy to move from one place to another (i.e. electricity
and light). Electricity is one form of energy that we
have harnessed in the past 100 years. By definition,
electricity is the energy available from the movement of
electrons within a conducting material. It is analogous
to water flowing out of a hose; the electrons are like
drops of water. Enough electrons with force behind them
can perform useful work.
Amp hours and
Watt hours...
In power systems we describe the total amount of energy
consumed over a certain period in either amp hours or
watt hours. A one amp current draw for 4 hours has used
a total of 4 amp hours (AHr). A 100 watt light bulb over
24 hours uses 2400 watt hours (WHr) or 2.4 kilowatt
hours (kWHr) of energy. Note: a kilowatt equals 1000
watts, and a kilowatt hour equals 1000 watt hours. Your
local hydro utility charges per kilowatt hour used.
AC versus DC
current...
Just to make things interesting, electrical energy is
moved from place to place in two ways. Alternating
current (AC) is the most common form; utility power
arrives to us as high voltage AC current. Alternating
current is like water sloshing back and forth in a bath,
the same electrons doing the work in one spot. Solar
panels and batteries produce direct current (DC), which
is easier to store. DC current is usually used at lower
voltages, i.e. 12 or 24 VDC
Inverters
convert DC to AC power...
You may choose to install an inverter to complete your
power system. An inverter converts battery energy, which
is DC power, to AC power, so that regular 120 volt
appliances will operate. An inverter allows you to you
use microwaves, toasters and TVs without a generator.
The Inverter section of this catalogue lists many models
that are suitable for installation in homes, cottages,
RVs and at industrial sites.
Advantages of
higher voltages...
In all power systems we have to move the electricity
from one place to another. The transfer is not 100%
efficient, and we must take care to minimize the power
losses en route. In wire, the loss of electrical power
is a factor of the resistance of the wire, and the
amount of current going through it. In general, for a
given wire size, the lower the current and in turn, the
lower the power loss.
The difference
between volts, amps and watts
The common units that are used to represent the quantity
of electricity are: Volts: Electrical force or pressure
behind the electrons in a circuit. Analogous to water
pressure or PSI, it tells us the system voltage. Ampere
(Amps): The number of electrons flowing past a defined
point in a second. Like gallons per second in a pipe, it
defines the electrical current in a wire. Watts: Total
amount of electrical energy. Watts = Volts x Amps Q: How
many amps does a 60 watt light bulb use? A: This depends
on the system voltage. 1. At 12 volts, 60 watts/12 volts
= 5 amps. 2. At 120 volts, 60 watts/120 volts = 0.5
amps. Amps = Watts / Volts
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Appliance Power Ratings |
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Ceiling Fan (DC)
Cell Phone Charger
Coffee Maker
Computer
Drill
Freezer (10 cu. ft.)
Furnace Fan
Hair Dryer |
25
20
600
100-300
300
300
500-600
1500 |
Laser Printer
Lights - Incandescent
Lights - Fluorescent
Microwave
Radio (DC)
Refrigerator
Skill Saw
Stereo (AC) |
400-600
15-100
7-80
800
5
250-500
1000
10-30 |
Television (20”)
Television (30”)
Toaster
VCR
Water Pump (DC)
Well Pump (AC) |
75
125
1000
20
120
1400 |
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*the above table
shows the approximate draw of common
household appliances in watts. |
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