Fundamental Principles on How the Electrical Savings System Works.

How the System Works

 

   The Electrical Savings System is installed at the breaker panel, and to include all sub panels. The system will start working immediately once the installation is complete.

First we will talk about examples of electrical leakage, electromotive, and electromagnetic currents. To help you understand the functions of the System, and how the System works.

 

   Example 1:  If you were to bury an electric line for ¼ mile under a set of high power supply lines, the buried line will induce enough electrical current from the other lines to actually supply the lights in your home.  Although the buried line is not connected at one end, while the other end is connected to your breaker panel. The electrical leakage and electromagnetic fields are very strong thus allowing such to happen. Please note this also is occurring in your home or place of business.

   Example 2:   If you recall back in science class the nail with a wire coiled around the perimeter of the nail. The wire was not touching the nail, yet when the wire was electrically charged the nail become charged as well, due to the electromotive and electromagnetic currents.  This very same theory still applies to your existing electrical applications in your home or business.

    Now with these two theories / examples in mind, you can clearly see the basic understanding of electrical leakage, electromotive, and electromagnetic currents, these unstable factors are occurring from your electrical supply down to every appliance, equipment, or any electrical device.

 

   Works and functions of the system: The neutral wire is induced by the above examples, although its purpose is to carry the unused energy back to the sub-station and regenerated by a special step-up transformer. As your appliances, equipment, etc… draw the power needed it is measured in kilowatts, the unused electric and the electrical leakage is not being credited to your kilowatt usage, resulting in a lost percentage of cost that you paid for and never used.  Many applications you will find that the neutral will be carrying many amps, etc… being costly and harmful to your electrical devices.

 

   Once the System is installed the process of the (known as: Electromotive Rectification Unit) will begin. The system will filter the dirty electricity, stabilizing the watts, amps, volts, power factor, etc…  Controlling the electrical leakage, electromotive, and electromagnetic currents.  Controlling of wasted and unused electric, utilizing all the power that has been drawn.  This will purify and rectify a much cleaner and consistent flow of energy consumption and use the maximum amount of power drawn by your devices. In return the life of your appliances, equipment, etc… will be prolonged by a purified electrical flow of energy. Older equipment also creates many of the mentioned factors due to wear of armatures, windings brushes, etc…

 

   All is vital to the inductive rectification of the neutral to be stabilized to its original state for the main purpose in which it is intended. That is where our system comes in to effect, saving you money and obtaining maximum use of energy consumption .

The Cutt-A-Watt Electrical Energy Conservation Savings System has so many features and benefits in one package, you shouldn't be without it.

The Nature of Electromagnetic Radiation

An AC electric current is defined as the movement of electrons in roughly the same direction, usually through a wire. This current, in turn, produces two types of fields: an AC electric field and an AC magnetic field, which together are called an electromagnetic field. The AC electric fields result from the strength of the charge and the AC magnetic fields result from the motion of the charge (i.e., the flow of electrons comprising the electric current). The AC electric field represents the force that electric charges exert on other charges, and this force may either repel (as with two positive charges, for example) or attract. The AC magnetic field forms a closed continuous doughnut-shaped loop around the current and radiates at a right angle to the direction of the current.

People can sense an electric field of more than about 20 kilovolts/meter (kV/m) as a slight tingling sensation on their skin. This level can be found underneath high voltage power lines. On the other hand, most people cannot feel the presence of AC magnetic fields, except at extraordinarily strong levels (although some people claim they can sense even low levels of EMF).

Interestingly, while an AC electric current creates an AC magnetic field, it is also true that an AC magnetic field creates an AC electric current in a nearby conductor. This is the principle of induction, and it is how we detect and measure AC EMF fields. Induction is also the principle by which a transformer raises or lowers voltages. In a transformer, an AC electric current flowing through a coil of wire radiates an AC magnetic field, and another adjacent coil of wire picks up the AC magnetic field and converts it back into AC electric current. The number of coils on each side of the transformer determine by how much the voltage is increased or decreased.

In order to distribute electricity economically over long distances, high voltages are used. Between the power plant and your home, a series of transformers reduce the voltage along the way so that by the time it reaches your home, the voltage has been reduced to the 120/240 volt level. It is desirable to use alternating current (AC), since most transformers work only with AC. AC means that the direction of the current alternates back and forth. The frequency of the back and forth cycle is measured in Hertz (Hz), which stands for cycles per second. Hence, when we talk about a 60 Hz current, which is the standard in the United States, this means that the direction of the current is changing back and forth 60 times per second. In Europe and other parts of the world, the frequency of AC electric power is 50 Hz rather than 60 Hz.

A graph of AC current (voltage vs. time) will form a sine wave, with a positive voltage for half of the time, and a negative voltage for the other half. The same is true of the electric and magnetic fields, which travel in one direction and then the other, corresponding with the changes in direction of the AC current. Since power lines, household wiring and appliances all carry electricity with a 60 Hz cycle, the resulting AC electric and AC magnetic fields also oscillate at 60 Hz. Such frequencies are at the low end of the electromagnetic spectrum, and are referred to as extremely low frequency (ELF) fields. The 60 Hz frequency originates at the power generating station and ends up in our household appliances. Higher voltages change the strength of the fields, but not the 60 Hz frequency.