Non-standard use and successful implementation of I2C protocol for a temperature measurement system in high altitude Andean small towns

Authors

  • Joel Fernando Palomino Masco Pontificia Universidad Católica del Perú
  • Juan Antonio Paco Fernández Pontificia Universidad Católica del Perú
  • Michel Anyelo Zarzosa Rojas Pontificia Universidad Católica del Perú

DOI:

https://doi.org/10.26439/interfases2020.n013.4832

Keywords:

I2C protocol, sensors, temperature, data acquisition

Abstract

This article describes the design and development of a compact low energy consumption temperature data acquisition system using the I2C protocol with cables up to eight meters long. This system has been used in the implementation of a Peruvian government project aimed at validating the use of Trombe walls in small towns located at high altitude (4000 - 5000 m.a.s.l.). This article explains the construction of the module, the data acquisition subsystem, and presents an overview of the implementation of the developed system.

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References

Ana, B., Anabela, P., e Ivo, P. (2016). Dynamic Simulation of the Trombe Wall Thermal Performance. IAHS World Conference. Algarbe.

Foncodes. (2017). Ministerio de Desarrollo e Inclusión Social. Proyecto Mi Abrigo. Recuperado de http://www.foncodes.gob.pe/portal/index.php/proyectos/miabrigo

General Cable/ Carol Brand. (2018). 4 Wire Multi-Conductor Foild Shield Computer Cable. Recuperado de https://www.generalcable.com/assets/documents/LATAM%20Documents/Mexico%20Site/Cat%C3%A1logos/Electronics.pdf?ext=.pd

LabJack Measurement & Automation. (2017). Digit Datasheet. Recuperado de https://labjack.com/support/datasheets/digit

National Renewable Energy Laboratory. (2017). NREL. Recuperado de U.S. Deparment ofEnergy: https://www.nrel.gov/docs/legosti/fy98/22834.pdf

NXP Semiconductors. (2014). I2C Bus Specification and User Manual. Recuperado de: https://www.nxp.com/docs/en/user-guide/UM10204.pdf

Sousa, J. (2017). I2C Network for Home Automation. Portugal: University of Porto.

Texas Instruments. (2018). Digital Temperature Sensors With SMBus and TwoWire Serial Interface in SOT563. Dallas.

Truchsess, W. (2010). Effects on Varying I2C Pull Up Resistors. Recuperado de https://www.thebackshed.com/forum/uploads/BobD/2013-01-26_175209_I2C_-_Effects_of_Varying_Pullup_Resistors.pdf

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Published

2020-12-22

Issue

No. 013 (2020)

Section

Research papers

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Last updated 03/05/21

How to Cite

Non-standard use and successful implementation of I2C protocol for a temperature measurement system in high altitude Andean small towns. (2020). Interfases, 13(013), 16-30. https://doi.org/10.26439/interfases2020.n013.4832