Your electricity supply is not delivered in a smooth steady stream, as you might imagine; instead it is full of waves, surges, peaks and troughs which can cause all sorts of power quality problems for your site. Voltage stabilization is the
process of taking a very unstable incoming supply and using our technology to make it stable.

A stable supply saves you money by reducing consumption; it also reduces your carbon footprint and is much better for your equipment, which is designed to run on a steady supply. It can mitigate the damage caused by brown outs, power sags and dips, over-voltages and power surges, thus giving additional cost savings.

The basics
Voltage stabilization in its most basic form is a means of saving energy by delivering the lowest supply voltage to a site’s equipment. By maintaining a steady supply, and counteracting the peaks and troughs inherent in all electricity supplies, consumption is reduced and equipment is protected.

The benefits
A stabilized and balanced output from a voltage stabilizer will lower the average voltage by 7 volts more than a voltage optimizer, giving savings of up to 40% more than a voltage optimizer.

Stabilization doesn’t just save money and reduce consumption; it can also help with other power quality issues such as under supply where the ‘troughs’ in your supply drop below the minimum level, brown outs, power sags and dips, over-voltages and power surges.

Why does it matter?
Our voltage stabilization can help you to save money, reduce your consumption and carbon footprint and prolong equipment life. Our full site survey will determine exactly how it can help but amongst other things it will:
• Guarantee voltage stability
• Mitigate damage from other power quality issues
• Give additional savings to optimization
• Further reduce carbon emissions
• Give a potentially quicker ROI
• Give higher equipment efficiency
• Give you a tailored solution for your site conditions
• Adapt to future changes

The most common problems associated with voltage instability are:
• Power failure
• Loss of data
• Reject products
• Production Interruption
• Higher energy consumption by appliances
• Appliances failures and faults
• Production quality
• Safety and security issues