15-04-2017, 04:50 PM
Demand for energy is increasing day by day and regular power cuts are a cause of many problems in a wide range of areas such as homes, hospitals and industries. A substitute arrangement for the supply of electricity is a necessity.
In this controller for the uninterrupted power supply project there are 4 keys to display the particular breakdown of that power supply. When out of the four any of the pushing keys confirms the lack of that exact spring, the keys are linked to the microcontroller as incoming signals. 8051 micro-controller family is put to use. The productivity of the microcontroller is set in the transmitter IC, which controls the transmission suitable to keep the power supply continuous to the load. The output has to be controlled by means of a lamp that takes the electricity source from the network originally. In case of malfunction of the mains supply (which is activated by pressing the appropriate button), the load obtains the power source from the subsequent source, such as an inverter.
If the inverter also stops working, return to the next existing power supply and so on. The state of electricity, as to which power supply the load is also displayed on an LCD. As it is not possible to give the four different supply springs supply, a spring with exchange switches are given to obtain similar utility.
The uninterrupted power supply can also be improved by means of other springs, such as wind speed power as well and then take into account to bring into play the best feasible power whose duty it keeps low at that time.
It can be understood in the following video:
In this controller for the uninterrupted power supply project there are 4 keys to display the particular breakdown of that power supply. When out of the four any of the pushing keys confirms the lack of that exact spring, the keys are linked to the microcontroller as incoming signals. 8051 micro-controller family is put to use. The productivity of the microcontroller is set in the transmitter IC, which controls the transmission suitable to keep the power supply continuous to the load. The output has to be controlled by means of a lamp that takes the electricity source from the network originally. In case of malfunction of the mains supply (which is activated by pressing the appropriate button), the load obtains the power source from the subsequent source, such as an inverter.
If the inverter also stops working, return to the next existing power supply and so on. The state of electricity, as to which power supply the load is also displayed on an LCD. As it is not possible to give the four different supply springs supply, a spring with exchange switches are given to obtain similar utility.
The uninterrupted power supply can also be improved by means of other springs, such as wind speed power as well and then take into account to bring into play the best feasible power whose duty it keeps low at that time.
It can be understood in the following video: