Reduce your energy costs and protect your equipment
with the
Transient Voltage Surge Suppressor (TVSS)
Providing
the 'next step' in TVSS products, manufactured since 1974
What
Sta'bl-POWER™ Can Do For You !!
Protection:
Protect your entire electrical system and equipment from damaging
externally and internally generated transient voltage surge activity.
Savings:
Cuts electrical usage by 10 - 20%. Filters out harmonics, which are
heat causing, voltage stressing elements from the power line.
Reducing the transients to all electrical equipment and lighting
provides increased operating efficiency.
Longer Life:
Electrical transients, surges, and spikes bombard electrical circuits
up to 400,000 times per hour. As a result, your electrical equipment
is being gradually (sometimes suddenly) destroyed. Reduction of these
transients will increase the life span of your expensive equipment.
What are the Main Benefits?
Decentralized
power conditioning
Low cost
protection of all of your electrical equipment
Less downtime
and production losses
Greater lamp
and ballast life.
Reduced motor
stress and overheating
Constant and
accurate protection of computers and digital electronics
Provides
overall EFFECTIVE electrical system protection - not point of use
The fastest
clamping speed and UL listed device on the market
Controls
incoming power quality and in-house induced system harmonics
By
controlling voltage surges, electric motors operate cooler and thus
more efficiently
Provides
protection to motor windings and control circuits
Extends the
life of expensive lighting, minimizes maintenance expenses for bulb replacement
Defers
capital expenses in replacing existing lighting with low wattage
alternatives and general equipment replacement
Last but not
least, in addition to the above maintenance savings, the units are
guaranteed in writing to reduce overall electric billing costs by
10%, with a 5% reduction in maintenance costs.
Used at:
Manufacturing Plants
Hospitals
Credit Unions
Clinics & Doctor's Office
Malls & Office Buildings
Restaurants
Grocery Stores
Schools
Banks
Residences
The costly effects of power quality problems are most
clearly seen when equipment or products suffer damage. Not only is
there downtime for the affected equipment, there are also repair and
replacement costs. In addition, loss of product means expensive
rework, loss of productivity, and higher overhead costs.
While most people think that power quality problems
only affect sensitive electronic components, other aspects, in
particular a new disturbance known as harmonic distortion, also
affect normal loads such as motors, and transformers. The entire
system, from transmission, to distribution, to utilization, is now
subject to damage and destruction from various power quality phenomena.
Power anomalies come in many forms and go by many
names. Briefly, these disturbances are broken down into six
categories. Although not mentioned as a separate category, please
note that the power system itself is a major contributor to existing
power quality problems, especially continuity, and the quality of
grounding connections.
The first category is Transients. These are subcycle
disturbances with a very fast voltage change. They typically have
frequencies of tens to hundreds of kilohertz, with some even into
megahertz. The voltage excursions range from hundreds to thousands of
volts. Transients are also called spikes, impulses, and surges.
The second category, Momentary Interruptions, refers
to a loss of voltage ranging from less than a cycle to several
cycles. Though they do not last long enough to be called outages, in
reality that's what they are.
Voltage Sags And Swells are the third category. These
are variations in the RMS voltage from about one half cycle to
several seconds. They are characterized by changes in the RMS voltage
value. Sags refer to a reduction in the voltage, while swells deal
with a voltage increase.
Should a sag or swell last for longer than several
seconds, it is referred to as an Undervoltage or Overvoltage. This is
the fourth category. These disturbances may last indefinitely.
The fifth category is Harmonic Distortion. If the
voltage or current waveshape is not sinusoidal, it is considered
distorted. Since our entire power system was developed with sine
waves in mind, harmonic distortion challenges many of our basic
concepts about how to transmit, distribute, use and maintain electric power.
The last category is Electrical Noise, sometimes
called electromagnetic interference, or EMI. EMI consists of high
frequency, low voltage signals coupled onto the power lines.
Frequencies may vary from the kilohertz to the megahertz range, and
magnitudes may be up to 10 or 20 volts.
Compare our
Performance and Price --- The Savings are Obvious!
We
welcome International Sales 