Energy consumption of an internet of things development board
Internet of Things is a highly applicable technology due to its versatility in areas such as agronomy, health applications, and industry. Besides, portability makes these devices affordable. IoT development boards communicate through Wi-Fi transmitted messages via the Internet, depending on the inne...
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Universidad Autónoma de Baja California
2022
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| גישה מקוונת: | https://recit.uabc.mx/index.php/revista/article/view/234 |
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recit-article-2342023-08-10T01:14:04Z Energy consumption of an internet of things development board Consumo de energía de una placa de desarrollo de internet de las cosas Álvarez-Rosado, Gabriel Lee Martínez-Hernández, Kevin Adrián Camarillo-Ramos, Mario Alberto Quintero-Rosas, Verónica Díaz-Ramírez, Arnoldo López-Avitia, Roberto IoT Energy consumption ESP32 Microcontroller IoT Consumo de energía ESP32 Microcontrolador Internet of Things is a highly applicable technology due to its versatility in areas such as agronomy, health applications, and industry. Besides, portability makes these devices affordable. IoT development boards communicate through Wi-Fi transmitted messages via the Internet, depending on the inner workings of the IoT development board, energy consumption can vary in such transmission. Furthermore, this consumption could change if the board is powered by different power supplies and the quantity of Wi-Fi transmitted messages. This paper provides a methodology to acquire an energy profile when sending data (byte) using Message Queue Telemetry Transport (MQTT) protocol on DEVKIT V1 NodeMCU-32 (ESP32) development board. Three different power supplies were used for the board, a 3.7 LiPo Battery, 5v usb Power bank and 9V NiMh rechargeable battery. The higher current consumption obtained was using a 3.7 battery, followed by 5v and the lowest current consumption was when using 9v. However, results demonstrate that when using the 9v power supply the energy consumption is two times higher than using 3.7v. Therefore, the best voltage source for transmission and energy consumption using a NodeMCU-32 development board will be 3.7 volts. El Internet de las Cosas es una tecnología de gran aplicación por su versatilidad en áreas como la agronomía, las aplicaciones sanitarias y la industria. Además, la portabilidad hace que estos dispositivos sean asequibles. Las placas de desarrollo de IoT se comunican a través de mensajes transmitidos por Wi-Fi a través de Internet, según el funcionamiento interno de la placa de desarrollo de IoT, el consumo de energía puede variar en dicha transmisión. Además, este consumo podría cambiar si la placa se alimenta con diferentes fuentes de alimentación y la cantidad de mensajes transmitidos por Wi-Fi. Este documento proporciona una metodología para adquirir un perfil de energía al enviar datos (byte) mediante el protocolo de transporte de telemetría de cola de mensajes (MQTT) en la placa de desarrollo DEVKIT V1 NodeMCU-32 (ESP32). Se utilizaron tres fuentes de alimentación diferentes para la placa, una batería LiPo 3.7, un banco de energía USB de 5v y una batería recargable NiMh de 9V. El mayor consumo de corriente obtenido fue al utilizar una batería de 3.7, seguido de 5v y el menor consumo de corriente fue al utilizar 9v. Sin embargo, los resultados demuestran que cuando se usa la fuente de alimentación de 9v, el consumo de energía es dos veces mayor que cuando se usa la fuente de alimentación de 3,7v. Por lo tanto, la mejor fuente de voltaje para transmisión y consumo de energía utilizando una placa de desarrollo NodeMCU-32 será de 3,7 voltios. Universidad Autónoma de Baja California 2022-11-23 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf text/html text/xml https://recit.uabc.mx/index.php/revista/article/view/234 10.37636/recit.v5n4e234 REVISTA DE CIENCIAS TECNOLÓGICAS; Vol. 5 No. 4 (2022): October-December; e234 REVISTA DE CIENCIAS TECNOLÓGICAS; Vol. 5 Núm. 4 (2022): Octubre-Diciembre; e234 2594-1925 eng https://recit.uabc.mx/index.php/revista/article/view/234/395 https://recit.uabc.mx/index.php/revista/article/view/234/396 https://recit.uabc.mx/index.php/revista/article/view/234/451 Copyright (c) 2022 Gabriel Lee Álvarez-Rosado, Kevin Adrián Martínez-Hernández, Mario Alberto Camarillo-Ramos, Verónica Quintero-Rosas, Arnoldo Díaz-Ramírez, Roberto López-Avitia https://creativecommons.org/licenses/by/4.0 |
| institution |
RECIT |
| collection |
OJS |
| language |
eng |
| format |
Online |
| author |
Álvarez-Rosado, Gabriel Lee Martínez-Hernández, Kevin Adrián Camarillo-Ramos, Mario Alberto Quintero-Rosas, Verónica Díaz-Ramírez, Arnoldo López-Avitia, Roberto |
| spellingShingle |
Álvarez-Rosado, Gabriel Lee Martínez-Hernández, Kevin Adrián Camarillo-Ramos, Mario Alberto Quintero-Rosas, Verónica Díaz-Ramírez, Arnoldo López-Avitia, Roberto Energy consumption of an internet of things development board |
| author_facet |
Álvarez-Rosado, Gabriel Lee Martínez-Hernández, Kevin Adrián Camarillo-Ramos, Mario Alberto Quintero-Rosas, Verónica Díaz-Ramírez, Arnoldo López-Avitia, Roberto |
| author_sort |
Álvarez-Rosado, Gabriel Lee |
| title |
Energy consumption of an internet of things development board |
| title_short |
Energy consumption of an internet of things development board |
| title_full |
Energy consumption of an internet of things development board |
| title_fullStr |
Energy consumption of an internet of things development board |
| title_full_unstemmed |
Energy consumption of an internet of things development board |
| title_sort |
energy consumption of an internet of things development board |
| description |
Internet of Things is a highly applicable technology due to its versatility in areas such as agronomy, health applications, and industry. Besides, portability makes these devices affordable. IoT development boards communicate through Wi-Fi transmitted messages via the Internet, depending on the inner workings of the IoT development board, energy consumption can vary in such transmission. Furthermore, this consumption could change if the board is powered by different power supplies and the quantity of Wi-Fi transmitted messages. This paper provides a methodology to acquire an energy profile when sending data (byte) using Message Queue Telemetry Transport (MQTT) protocol on DEVKIT V1 NodeMCU-32 (ESP32) development board. Three different power supplies were used for the board, a 3.7 LiPo Battery, 5v usb Power bank and 9V NiMh rechargeable battery. The higher current consumption obtained was using a 3.7 battery, followed by 5v and the lowest current consumption was when using 9v. However, results demonstrate that when using the 9v power supply the energy consumption is two times higher than using 3.7v. Therefore, the best voltage source for transmission and energy consumption using a NodeMCU-32 development board will be 3.7 volts. |
| publisher |
Universidad Autónoma de Baja California |
| publishDate |
2022 |
| url |
https://recit.uabc.mx/index.php/revista/article/view/234 |
| _version_ |
1792095379045482496 |
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