How to Add a Power Factor Correction to a CFL Light Bulb How to Add a Power Factor Correction to a CFL Light Bulb
Power factor correction through the use of CFL light bulbs is commonly used in industrial settings, where large inductive load exists; in which case supply inefficiencies are best eradicated, and greater longevity of the appliances achieved.
Inbuilt Power Factor Conditioning
The usual power factor for a consumer ranges from 75% to 90% depending on the inductive loads such as from a pool pump or a koi pond pump – if the unit does not draw current during "idle" mode when no inductive load is there and potentially CFL lighting which ranges from 55% to 75%. Most up to date home piece of equipment that have inductive loads, for example air conditioners and refrigerators and come with power factor conditioning built in.
There is a great deal of talk about Compact Fluorescent Lamps in recent times. These are petite glass fluorescent tubes normally shaped into a coil, intended to directly replace regular incandescent light bulbs. These new CFL’s have been publicizing to save energy, and they do definitely save major amounts of electricity. But there are some attractive and largely anonymous facts about these strategies. It would come out that those sold within the United States and other countries may be particularly designed to permit the utility corporations to bill us almost double what we ought to be paying for their use.
Actual Power Saving
Collectively these aspects insure we are not capable to see all the feasible savings on our electric bills that these new lamps should offer. And in reality, when “AC Power Factor” in customer devices is inspected closer in general, it would appear that CFL’s are only the tilt of the iceberg while it comes to home and small trade Customers paying more than they be believed to for power, to a truly incredible extent. All for the desire of an inexpensive capacitor.