There are many
reasons for using Automatic ServoVoltage Stabilizers. They are highly efficient; they last longer; and have
a better duty cycle performance. There are many more reasons for choose these transformers.
Highly
Efficient
Some of the
best automatic stabilizers are more than 98% efficient. The typical stabilizers
cannot offer these high efficiencies. Besides, their efficiencies will also
depend on the input voltage. Even a 1% difference in efficiency could mean loss
of tens of thousands of rupees annually in a commercial setting. Even small businesses
could make huge savings.
Longer
Life
A high quality
automatic stabilizer could last for more than a decade even when working at full
load. Some of them could even last for more than two decades. On the other hand,
conventional systems have warrantees only for a few years. Most of the traditional
machines are designed to last for not more than 3 years. But the best automatic
systems come with warranties of at least 5 years.
Better
Duty Cycle
A conventional
Servo Voltage Stabilizer is designed
for up to 40% load on regular duty cycle. This is perhaps one of the biggest advantages
after the efficiency factor. Automatic stabilizers are designed to be heavy
duty and could be used for 100% load with regular duty cycle. This means that if
you need a stabilizer for a load of 200kVA, there is no need to use a traditional
500kVA system. You can use a 200 or 250kVA system for the purpose and save money.
The
traditional voltage regulators can withstand maximum temperatures of 55 degrees.
But a quality Servo Voltage Stabilizer
is designed to keep the temperature under control, and it can keep it at below
50% of its conventional counterparts. This
also allows the system to withstand overloading without any damage to the equipment.
These are the
main reasons you should consider using Automatic
Servo Voltage Stabilizers. They are more reliable, more efficient (and thus
economical) and last longer. You will save more and thus offset the initial
investment within a short period of time.
