The objective of the project is to provide a universal monitoring and management system for consumption and electrical variables to be controlled, easily adaptable to any type of installation - regardless of whether it is connected to the general network or has a self-supply system-, for the control of the energy resources of companies, and that using a robust data acquisition and communication system, provide the necessary monitoring and control, using management software integrated into an application for commercial mobile devices.
For the development of this innovation we will work on the integration of the following components:
Data acquisition system:
The acquisition system proposed for the data collection of the values to be controlled will be a mini-computer, such as Arduino, Raspberry Pi, or a programmable automaton (PLC). All these devices are reduced-board computers, consisting of a processor, several USB ports, RAM, GPU, etc. They are characterized by being of a small size, a robustness already attested, ease for the coupling of multiple sensors varied, senillez of use and a low cost, on which will apply a software created specifically for the purpose of data collection and its later management.
The values to be controlled will be varied, from the intensity of current, voltages, frequencies, power factor, reactive energy, etc. All these data will be taken through a series of sensors, which will be selected according to their efficiency and simplicity for data collection, as well as the ease of coupling with the data acquisition system finally chosen.
Communications system: will be based on a redundant 3G / GPRS system, through which the system can be commanded and reinitialized remotely; this will prevent the movement for connection recovery procedures.
Control system: The control will be carried out through the management of 4 potential-free relays, which can be configured for different actions, some could be: turn off / on the system, activation of alarms, restoration of communications, etc ...
Support systems: A support system will be designed to facilitate and ensure a good installation of the equipment.
Therefore, this project aims to integrate the four systems described, so as to facilitate the implementation of control software, which, based on the technology of the Internet of Things, provides a very attractive and simple user experience, providing all the control and monitoring tools necessary to comfortably achieve the objectives pursued.
For the development of this innovation we will work on the integration of the following components:
Data acquisition system:
The acquisition system proposed for the data collection of the values to be controlled will be a mini-computer, such as Arduino, Raspberry Pi, or a programmable automaton (PLC). All these devices are reduced-board computers, consisting of a processor, several USB ports, RAM, GPU, etc. They are characterized by being of a small size, a robustness already attested, ease for the coupling of multiple sensors varied, senillez of use and a low cost, on which will apply a software created specifically for the purpose of data collection and its later management.
The values to be controlled will be varied, from the intensity of current, voltages, frequencies, power factor, reactive energy, etc. All these data will be taken through a series of sensors, which will be selected according to their efficiency and simplicity for data collection, as well as the ease of coupling with the data acquisition system finally chosen.
Communications system: will be based on a redundant 3G / GPRS system, through which the system can be commanded and reinitialized remotely; this will prevent the movement for connection recovery procedures.
Control system: The control will be carried out through the management of 4 potential-free relays, which can be configured for different actions, some could be: turn off / on the system, activation of alarms, restoration of communications, etc ...
Support systems: A support system will be designed to facilitate and ensure a good installation of the equipment.
Therefore, this project aims to integrate the four systems described, so as to facilitate the implementation of control software, which, based on the technology of the Internet of Things, provides a very attractive and simple user experience, providing all the control and monitoring tools necessary to comfortably achieve the objectives pursued.
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