Bibliographic citations
Rojas, H., (2023). Diseño de un sistema de potencia y control automatizado para riego en beneficio de los agricultores del distrito de Paramonga - 2021 [Universidad de Ciencias y Humanidades (UCH)]. http://hdl.handle.net/20.500.12872/809
Rojas, H., Diseño de un sistema de potencia y control automatizado para riego en beneficio de los agricultores del distrito de Paramonga - 2021 []. PE: Universidad de Ciencias y Humanidades (UCH); 2023. http://hdl.handle.net/20.500.12872/809
@misc{renati/689709,
title = "Diseño de un sistema de potencia y control automatizado para riego en beneficio de los agricultores del distrito de Paramonga - 2021",
author = "Rojas Ipanaqué, Helen Josselin",
publisher = "Universidad de Ciencias y Humanidades (UCH)",
year = "2023"
}
Currently, Peru is one of the countries with the largest food exports in recent years in Latin America, this is due to the fact that in recent years agriculture has been developed by applying different types of technology that serve to increase production; however, in some cultivation areas throughout the country, productive progress is complicated due to the different climatic and soil conditions. The Design of a control and power system for the automation of the irrigation system that is proposed, includes the design and development of a monitoring interface that obtains, analyzes and sends the data from the PLC to a personal computer that is responsible for taking Irrigation decisions through the network using Ethernet protocols, if this is automated with previously established parameters, or if it is worked manually, then the user decides whether to irrigate or do nothing. The data collected from the Irrigation System are: soil moisture, minimum level of water in the main tank and rainfall. The system consists of two subsystems, the first is the network of pipes, pressure pump, solenoid valves, sprinklers, water tank, this subsystem is responsible for guiding the amount of water to the plantation. The second subsystem is the control of the first subsystem, which is responsible for sending the signal to turn on or off the pressure pump and the solenoid valves through the PLC and which is controlled locally or remotely by the user interface, but always doing reading of humidity, rain and low level of stored water sensors
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