nverter 5000
watts 5000 watt AC DC power inverter high power inverter inverter
inverter inverter 5000 watts 5000 watt AC DC power inverter high
power inverter inverter inverter inverter 5000
BIG 5000 WATT POWER INVERTERS!
10,000 Watts Surge!
Now available in 12
or 24 volt input!!!!!!!
The largest 12 or 24 volt
inverter available on
the market today!
5000 watts can run a cabin or even
a smallhousehold.
Buy a wind turbine, 12 volt batteryand this inverter and become energy independent!
At last
an inverter BIG enough to be useful!
Even powerful
enough to run a 9000 BTU air conditioner!
A large bank of fully
charged auto batteries can last for days.
Rechargethem
while driving or with solar and wind power
OUT OF STOCK!!!!!!!!!!!!!!
OUT OF STOCK!!!!!!!!!!!!!!
OUT OF STOCK!!!!!!!!!!!!!!
OUT OF STOCK!!!!!!!!!!!!!!
OUT OF STOCK!!!!!!!!!!!!!!
OUT OF STOCK!!!!!!!!!!!!!!
12 Volt DC input - 5000
Watt 110 AC output. (10,000
Watts Surge!)
Model #MSW500012 Only
$799.95
Plus $59.05 S&H each (Anywhere
in the contiguous 48 states USA)
At this low price we
can ONLY sell the MSW series to retail customers only!
Design notes: Mount your inverters inside the home
so you can get all the free heat they put off to heat your home
in the winter.
Warning: Mount inverters in a cool place at least
120 inches away from flammable materials, liquids or gases.
Hint: Try calling places that sell used fork lifts.
The 12 volt batteries that run fork lifts are the best! Many
of these old batteries are discarded because they can no longer
operate a fork lift for a full 8 hour work day but they still
have enough operational life to run your household for many decades.
Many can be bought at recycling prices and still have 100 times
more amperage than a brand new bank of automotive batteries.
(Note: They are VERY heavy)
THE WHOLE INVERTER STORY-
The Worlds largest 12 volt POWER inverter available on the
market today!------
5000 watts can run a cabin or even a household. 5000 Watts
is a lot of power!!! ------
At last a power inverter BIG enough to be useful!---
Even powerful enough to run a 9000 BTU air conditioner! -----
Operate almost any 110 volt appliance in your household:-----
-Washing machines.
-Gas heated cloths dryers.
-Hair blow dryers.
-Microwave ovens.
-Refrigerators and deep freezers.
-Circular and cutoff saws.
-Sump pumps.
-Big screen TV's
-Garbage disposers.
-Electric chain saws.
-Small Air compressors.
-Flood lights.
-Air conditioners and space heaters.
-Motors up to 2 1/2 horse power!------
BASICALLY YOUR ENTIRE HOUSE HOLD!
Great for Cabins, remote work shops, contractors on the job
site will fall in LOVE with this portable Power-Station that runs
on their truck battery! Great for energy efficient homes too!
-----
Great for motor homes! Forget all that generator noise and
smell. Will run your microwave oven and the whole coach at the
same time! NO SWEAT!!! ----
Fully charged auto batteries can last for days. Recharge them
while driving or with solar panels or wind power.-------
NOTE: IF you hook up an inverter to DC power backwards you
will FRY it!!! This mistake is what kill's 99% of inverters. Hook
it up properly by putting the red to positive and black to negative
and this baby with last a lifetime!!!!!!---- Human error and excess
HEAT kills most inverters not workmanship!!!!!
NEVER FEAR ANOTHER POWER OUTAGE!!! Emergency back up power!
This powerful 5000 Watt inverter can run your whole household!
or construction site !!!
If you build one of these
Build a powerful battery
charger for those cloudy or windless days using our powerful
PMA's
Photo shows two of our PMA units that
one of our customers powered with an 8 HP engine. After thousands
of hours the PMA's are just NOW getting broke in and stating
their 75 year projected life cycle since there are no brushes
to wear out or worry about.
(Do not forget to order a cooling
fan kit!)
Modified Sine Wave Inverters(MSW Inverter)
Versus Full Sine WaveWhat is aMSW inverter??
Confused about whether
a modified sine wave (MSW) or true sine wave
inverter is best for your
application? We'll try to help you sort it out...
True sinewave inverters are best suited to low power
applications (under 300 Watts) where their poor efficiency is
not a concern. They are great for small appliances like TV's
or a computer, etc.
Sinewave inverters simply do not make sense in high power
inverter applications. Here's what their makers hope you won't
discover until AFTER you have purchased and installed it.
The Downside of True Sinewave Inverters
1. True sinewave inverters waste considerable battery energy
due to their voracious appetite for idle current (typically 120
Amp-hours per day) and poor conversion efficiency (75 to 85%
typically). These unacceptable losses must be made up necessitating
2-3 more generator hours per day than you would experience with
our brand MSW inverter under identical usage!
2. Many motors that will start and run properly with a MSW
inverter may fail to start or run properly when powered with
a true sinewave inverter due to much lower surge and power factor
capability.
3. True sinewave inverters are physically much larger than
MSW inverters.
4. True sinewave inverters have considerably more components
operating at higher speeds and stress levels resulting in greatly
reduced reliability.
5. A typical true sinewave inverter costs up to 4 times more
than a MSW inverter does!
A CLOSER LOOK... - Idle Current
Idle current is the power consumed from your battery to run
the inverter internal electronics. Since this current does not
power your load, it is wasted power. Typical 5000 Watt true
sinewave inverter draws about 5 Amps of idle current, an unacceptable
loss!
It is interesting to note that the Idle Current specification
has been conveniently omitted on every true sinewave inverter
data sheet we have ever seen!
Idle Current is one of the most important parameters to
consider when selecting an inverter!
Conversion Efficiency
The MSW inverters we sell have well over a 90% conversion
efficiency which saves you lots of power.
SMART IDEAS: Since all Inverter give off a fair amount
of heat energy it is a good idea to mount them indoors so you
can us this residual heat to warm up your home if you live in
cooler climate areas (keep the batteries outside) In hot climates
or in the summer you definitely want to mount it outside!
Waveform
It makes little difference whether an inverter's output waveform
is a sinewave or a MSW if it cannot properly handle a load "power-factor"
requirement. If the loads power factor cannot be handled, severe
distortion of the voltage waveform will result and the load will
either not run at all or will not run properly. (This is mathematically
indisputable).
Therefore, the type of waveform used (true sinewave or MSW)
is not particularly important as long as the loads power factor
is properly handled and the peak voltage, RMS voltage and frequency
are all maintained correctly while the load is running.
Power Factor
Power Factor occurs when the current drawn by a load is not
in phase with the applied voltage. The three basic AC load groups
are:
1. Resistive: A heater is an example of a resistive
load. The current drawn by this type of load is in phase with
the applied voltage. (0 degree phase angle.) This is the simplest
type of load for an inverter to run.
2. Capacitive: Not many loads are capacitive. The
current drawn leads the applied voltage. (Up to -90 degree phase
angle.)
3. Inductive: Appliances with motors and transformers
are examples of inductive loads. The current drawn lags the applied
voltage. (Up to +90 degree phase angle). Heavy inductive motor
loads separate real inverters from the wimps! The MSW will really
perform extra well on these types of loads, effectively leaving
the full sinewave models in the dust!!!!!!!!
Background: When a resistive load is connected to
the power company, the voltage and current are in phase and therefore
power flows from the power company toward the load. However,
a reactive load (capacitive or inductive) draws current that
is not in phase with the applied voltage. The phase displacement
of a reactive load can vary +/- 90 degrees. When the phase angle
is not zero, there are two portions of each cycle when the current
and voltage are of the same polarity and two portions of the
cycle when the current and voltage have differing polarities.
During the former, power flows from the power company toward
the load. During the latter, power stored in the load reactance
flows from the load back toward the power company. Naturally,
more power flows toward the load than is returned. Otherwise
the AC appliance would not run. The larger the voltage/current
phase angle, the lower the power factor (numerically lower PF
means greater phase displacement).
It is essential that an inverter handle power factor precisely
the same as a power company does or some appliances (particularly
those with motors) will not run. That is, battery power must
be able to flow through the inverter toward the load and power
stored in the load reactance must be able to flow back through
the inverter toward the battery. An inverter design that does
not permit bi-directional power flow will fail to run
many appliances.
The MSW inverter uses a direct 60 Hertz waveform synthesis
that properly allows bi-directional power flow. This is one of
the many reasons that our MSW inverters run loads that fail to
run on many competing true sinewave inverters!
Note: For those interested, Power Factor is equal to the
cosine of the voltage/current phase angle; e.g., a resistive
load has a PF of 1. A freezer with a 45 degree voltage/current
phase displacement has a PF of .707 etc.
Heat and parts-count are the enemy of reliability. The MSW5000
inverter uses less parts and operates cooler (due to higher efficiency)
than competing true sinewave inverters. The result is lower cost
and higher reliability.
BIG 5000 WATT POWER INVERTERS!
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