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Home Energy Magazine Online July/August 1997
TRENDS
Pulling the Plug on Leaking Electricity
 |
| Figure 1. Comparison of operating and standby energy
use of various compact audio systems. |
Electronics manufacturers have been producing an
increasing number of products, such as TVs, VCRs, and compact audio systems,
that do not have a true off switch. These devices stay in a standby mode
ready to be switched on by a remote control. Although they appear off,
they are actually drawing energy (see "Leaking
Electricity," HE Nov/Dec '93, p. 33, and "Off
Is a Three-Letter Word," HE July/Aug '96, p. 42).
How much electricity "leaks" in these new electronics?
Recent measurements of several different devices by researchers at the
Lawrence Berkeley National Laboratory revealed some surprising results.
The standby power of different appliances and
of different brands of the same appliance varies considerably. As Figure
1 shows, the operating power of four different compact audio systems consumes
between 8 and 26 watts. The standby power varies from 5 to 14 watts for
these systems. If a compact audio system plays for one hour per day (average
use), and consumes 25 watts while turned on and 12 watts in the standby
mode, its overall electricity use is more than 10 times what it would be
if it were truly off.
The measurements also revealed that the size
of the appliance does not necessarily correspond to the amount of leaking
energy. For example, the new generation of projection TVs with 46- to 60-inch
screens are among the less thirsty standby guzzlers. Switched on, they
consume between 130 and 190 watts. On standby they use between 1 and 4
watts. This standby performance is better than that of a standard-size
screen TV (7 watts).
Other TV features, such as electronic program
guides (EPGs) demand higher standby power. When using EPGs, such as Starsight,
certain components of a TV--that is, the tuner, amplifiers, filters, demodulator,
and the Starsight module--must stay on 24 hours per day in order to receive
the needed data.
Standby energy gets used in various ways. About
25% of standby power is due to transformer losses. This is because the
transformer is designed for nominal output and is poorly utilized in the
partial load range. The other 75% is channeled into components of the electronic
device such as the clock, which generally uses 10% of standby power.
These hidden juice guzzlers can add up; they
typically consume about half the energy used by a new energy-efficient
refrigerator. The best way to avoid this waste of energy (and money) is
to identify the losses and to raise consumer awareness so that buyers can
make more informed decisions when choosing an appliance.
Because the market for TVs is very competitive,
features like energy efficiency may play a bigger role in the future. Consumers
have not yet taken an interest in the standby energy performance of appliances,
and little information on this feature is currently available. The U.S.
Environmental Protection Agency's Energy Star Program on TVs and VCRs will
be launched January 1, 1998. The program should begin to change this situation
by drawing more attention to an appliance's standby and overall energy
performance.
Although you can't plug up leaky appliances,
you can unplug them. Read the energy consumption labels and disconnect
these appliances when you are going to be away for a long time.
Wolfgang Huber is a visiting researcher at Lawrence
Berkeley National Laboratory.
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