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4.6 ELECTRICAL LOAD
4.6.1 BALANCING LOADS
When operating your Wallenstein generator
please be aware of load balancing when using
120v receptacles.
The alternator powers two legs of 120v each
(series). Each leg supplies half the amps, specific
to receptacles on each leg (one leg to each 120v
receptacle and both legs to 240v receptacle).
240V will balance automatically since both legs
are connected to the same load.
Since 120v legs are independent of each other
they can be loaded differently and become unbal-
anced. Significantly unbalanced loads will cause
one leg of the alternator to heat up more than the
other causing uneven wear in the alternator and
can lead to eventual failure.
Before connecting loads to the generator, find
the amperage draw of each load and combine
and distribute the loads so that they are bal-
anced across all receptacles. Balancing can be
achieved, for example, by spreading multiple
loads over 2 receptacles rather than running all
loads from one receptacle.
When using 120v exclusively, activating the full
power switch causes the legs to share the load
(parallel) and there is no need to balance the load.
Make sure the accumulated wattage rating of
tools or appliances does not exceed that of the
generator.
4.6.2 WATTAGE AND LOAD
Your Wallenstein generator has two wattage
(power) specifications that need to be considered
when you are connecting loads: continuous watts
and maximum watts.
At the same time there are two different types of
loads, resistive and reactive.
Reactive Load
Generally a tool or appliance that contains an
electric motor
is a reactive load, Reactive loads
have two modes of operation: startup and running.
An electric motor
starting watts
(reactive load)
could possibly require up to 3 x its
running watts
at start up.
In other words wattage will spike at starting and
level off to running (continuous) wattage when it is
operating normally. (See wattage chart)
Resistive Load
A resistive load is
lighting, hot plate, TV,
etc,
Resistive loads generally will not spike and start-
ing wattage is the same as running wattage.
(See
wattage chart)
Continuous Wattage
Continuous wattage is the wattage range that
can be safely generated by the alternator for an
extended period.
Maximum Wattage
Maximum wattage is the wattage range the gen-
erator can produce but for only short periods of
time (MAX time 30 minutes). Drawing maximum
wattage for extended periods will cause damage
to the alternator and void the warranty.
4.6.3 CALCULATING LOAD
When calculating load in watts, you will need to
determine two wattage values:
• running w starting wattage:
de-
termine the starting wattage of your reactive
loads and add them to the running wattage of
your resistive loads.
• running wattage only:
add up the running
wattage of both the resistive and reactive
loads.
The example totals match the second combination
on the chart, and shows that the run status is OK.
Wattage Combination
Status
total starting w total running wattage is
within the continuous rating
OK
total starting wattage is over the continuous
rating but below maximum, and total running
wattage is within continuous rating
OK
total starting wattage is over the continuous &
maximum rating, and total running wattage is
within continuous rating
Stop
total starting wattage is over the continuous &
maximum rating, and total running wattage is
over continuous rating
Stop
both the total starting wattage and total running
wattage are over the continuous rating but
below maximum
Stop
Qty
Load
Starting
Watts
Running
Watts
1
Refrigerator/Freezer
1200
192
1
Furnace Fan (1/8 hp)
500
300
6
Lighting (40w ea)
240
240
Totals
1940
732
Load Calculation Example
Generator Spec: 2000 maximum watt, 1500 continuous watt
