Abstract
In this project you have the control of the passage of the current in each outlet, for example, in a house where each outlet will be registered with a certain continuous electrical power for appliances, computers, among others. Every electrical device that has been registered and is connected to any outlet will work, if any other device that has not been registered is connected, it will not work in any socket. In addition, once any power outlet is connected, the system will detect where it is connected and we will know the place where it was connected. With this project, we will have a lower cost of electricity and economic savings. Keywords: Arduino, Sensor, Electric Current, Saving, Hall.
Highlights
The scheme that shows this particularity is called curve or load diagram, which allows the identification of periods of high or low demand called peak hours and off-peak hours, respectively. [3]
The public electricity service in the city of Lima is commercialized and distributed between two companies that divide the market according to geographical criteria, without competing among them: Luz del Sur and Enel DP
There is no significant difference in the number of samples taken for the calculation of the peak-to-peak voltage and later the rms current
Summary
The human being as such through his reason we use natural resources, we transform them and we use them for some necessary good, such is the case of the electricity that today is the main source of energy that makes all apparatus, machine work either for domestic use as well as for the industrial. Due to the increase in consumption and the rate it is necessary to create some kind of energy saving mechanism, for this we will make a saving system that allows to cut the flow of current when the person is not in said place This stage is powered by a digital output, interposing an optocoupler to galvanically isolate both circuits. K = kilo = 1000 W = watts = power unit H = hora = unit of time 1Kwh consumed for 10 hours per day, which is the equivalent of keeping 10 100-watt lamps on for 10 continuous hours, yields an energy consumption of 10 Kwh / day, which in turn remains constant during the 30 days one month we will have an energy consumption of 300 Kwh/month
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