Weibull method for environmental test time reduction for optical splitter

Weibull method for environmental test time reduction for optical splitter

This article develops a life test plan for a standard optical splitter, which provides insight into its lifetime and reliability R (t). According to the GR-2866 standard, the environmental variables to be analyzed are temperature (T) and humidity (H) and 12 samples must be run. During the analysis,...

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Main Authors: Barraza-Contreras, Jesús Manuel, Piña-Monarrez, Manuel Román, Rodríguez Borbón, Manuel Iván
Format: Online
Language:spa
Published: Universidad Autónoma de Baja California 2019
Online Access:https://recit.uabc.mx/index.php/revista/article/view/45
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spelling recit-article-452022-10-17T18:53:39Z Weibull method for environmental test time reduction for optical splitter Método Weibull para la reducción de tiempo de prueba ambiental para divisor óptico Barraza-Contreras, Jesús Manuel Piña-Monarrez, Manuel Román Rodríguez Borbón, Manuel Iván Life tests Temperature cycle test Coffin-Manson model Reliability Weibull distribution. Pruebas de vida Prueba de ciclo de temperatura Modelo Coffin-Manson Confiabilidad Distribución Weibull. This article develops a life test plan for a standard optical splitter, which provides insight into its lifetime and reliability R (t). According to the GR-2866 standard, the environmental variables to be analyzed are temperature (T) and humidity (H) and 12 samples must be run. During the analysis, 720 cycles of T and H were performed during a 30-day trial period (Temp. = 85 °, -40 ° and Hum. = 85%). Thus, in order to reduce the test time, using the Taguchi method, the most significant temperature range was determined. With this new test temperature range (T = 100 °, -45 ° and H = 85%) in the Coffin-Manson model, the new test time was 10.33 days. The experimental tests were carried out using an environmental camera and optical equipment that allowed measuring the amount of attenuation in decibels (dB) caused by stress from temperature and humidity. For this new test range the Weibull parameters are β = 3.19 and η = 92.47. En este artículo se desarrolla un plan de prueba de vida para un divisor óptico estándar, que permite conocer su tiempo de vida útil y su confiabilidad R(t). De acuerdo con el estándar GR-2866, las variables ambientales a analizar son temperatura (T) y humedad (H) y se deben de correr 12 muestras. Durante el análisis, 720 ciclos de T y H fueron realizados durante un periodo de prueba de 30 días (Temp. = 85°, -40° y Hum. = 85%). Así, con la finalidad de reducir el tiempo de prueba, haciendo uso del método Taguchi, el rango de temperatura más significante fue determinado. Con este nuevo rango de temperatura de prueba (T = 100°, -45° y H = 85%) en el modelo de Coffin-Manson, el nuevo tiempo de prueba fue de 10.33 días.  Las pruebas experimentales se realizaron mediante el uso de una cámara ambiental y equipo óptico que permitió medir la cantidad de atenuación en decibeles (dB) causada por el estrés de la temperatura y humedad. Para este nuevo rango de prueba los parámetros Weibull son β = 3.19 y η = 92.47. Universidad Autónoma de Baja California 2019-09-30 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Research article Articulo de Investigación application/pdf text/html application/xml https://recit.uabc.mx/index.php/revista/article/view/45 10.37636/recit.v23137143 REVISTA DE CIENCIAS TECNOLÓGICAS; Vol. 2 No. 3 (2019): July-September; 137-143 REVISTA DE CIENCIAS TECNOLÓGICAS; Vol. 2 Núm. 3 (2019): Julio-Septiembre; 137-143 2594-1925 spa https://recit.uabc.mx/index.php/revista/article/view/45/78 https://recit.uabc.mx/index.php/revista/article/view/45/89 https://recit.uabc.mx/index.php/revista/article/view/45/150 Copyright (c) 2019 Jesús Manuel Barraza-Contreras, Manuel Román Piña-Monarrez, Manuel Iván Rodríguez Borbón http://creativecommons.org/licenses/by/4.0
institution RECIT
collection OJS
language spa
format Online
author Barraza-Contreras, Jesús Manuel
Piña-Monarrez, Manuel Román
Rodríguez Borbón, Manuel Iván
spellingShingle Barraza-Contreras, Jesús Manuel
Piña-Monarrez, Manuel Román
Rodríguez Borbón, Manuel Iván
Weibull method for environmental test time reduction for optical splitter
author_facet Barraza-Contreras, Jesús Manuel
Piña-Monarrez, Manuel Román
Rodríguez Borbón, Manuel Iván
author_sort Barraza-Contreras, Jesús Manuel
title Weibull method for environmental test time reduction for optical splitter
title_short Weibull method for environmental test time reduction for optical splitter
title_full Weibull method for environmental test time reduction for optical splitter
title_fullStr Weibull method for environmental test time reduction for optical splitter
title_full_unstemmed Weibull method for environmental test time reduction for optical splitter
title_sort weibull method for environmental test time reduction for optical splitter
description This article develops a life test plan for a standard optical splitter, which provides insight into its lifetime and reliability R (t). According to the GR-2866 standard, the environmental variables to be analyzed are temperature (T) and humidity (H) and 12 samples must be run. During the analysis, 720 cycles of T and H were performed during a 30-day trial period (Temp. = 85 °, -40 ° and Hum. = 85%). Thus, in order to reduce the test time, using the Taguchi method, the most significant temperature range was determined. With this new test temperature range (T = 100 °, -45 ° and H = 85%) in the Coffin-Manson model, the new test time was 10.33 days. The experimental tests were carried out using an environmental camera and optical equipment that allowed measuring the amount of attenuation in decibels (dB) caused by stress from temperature and humidity. For this new test range the Weibull parameters are β = 3.19 and η = 92.47.
publisher Universidad Autónoma de Baja California
publishDate 2019
url https://recit.uabc.mx/index.php/revista/article/view/45
_version_ 1792095364415750144

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