Household power saving devices recently have received a lot of positive attention from both household consumers and manufacturers. It is generally used in residential homes to save energy and to reduce electricity bills. It is a small device which is to be plugged in any of the AC sockets in the house (Mostly near the Energy Meter). Some of the household and companies claim that the power savers they are using save up to 40% of the energy. Almost all people who buy power savers do it to reduce their power consumption and electricity bills. People searching for power saver devices, Energy Saver, Reducing Electricity, power saver devices in Bangalore etc., your search ends here. Introducing an effective Power Saving device from Olopie.
Many people who have used these power savers said that they could reduce their electricity bills with the devices; however, the reduction was either more than what they had expected or a little lesser than that.
WORKING PRINCIPLE OF POWER SAVER
A Power Saver is a device which can be plugged into a power socket. Apparently just by keeping the device connected it will immediately reduce your power consumption. General claims are savings between 25% and 40%.
It is well known that the electricity that comes to our homes is not stable in nature. There are many fluctuations, raise and falls, and surges/spikes in this current. This unstable current cannot be used by any of the household appliances. Moreover, the fluctuations waste the electric current from the circuit by converting electrical energy into heat energy.
This heat energy not only gets wasted to the atmosphere but also harms the appliances and wiring circuit.
Basically, the Power savers work on the principle of surge protection technology. Power savers work on straightening this unstable electric current to provide a smooth and constant output. The fluctuation in voltage is unpredictable and cannot be controlled. However, the power savers utilise current fluctuation to provide a usable power by acting like a filter and allowing only smooth current to pass through the circuit. Power savers use capacitors for this purpose. When there is a surge of current in the circuit, the capacitor of the power saver stores the excess current and releases it when there is a sudden drop. Thus only smooth output current comes out of the device.
Moreover, a power saver also removes any type of carbon in the system, which facilitates further smoother flow. The main advantage of power savers is not that they provide a backup system in times of low current, but that it protects the household appliances. It is known that a sudden rise in the power can destroy the electrical appliance. Thus, the power saver not only protects the appliance but also increases its life. Moreover, they also reduce the energy consumption and thus the electricity bills.
The amount of power saved by a power save depends on the number of appliances on the electrical circuit. Also, the system takes at least a week to adapt itself fully to the circuit, before it starts showing its peak performance. The maximum amount of voltage savings will be seen in areas wherein the current fluctuation is the highest.