Development of low cost 16-channel data acquisition to measure the heat distribution of Arjuna 1.0 electron beam machine

Development of low cost 16-channel data acquisition to measure the heat distribution of electron beam machine Arjuna 1.0. The penetration and irradiation dose rate of electron beam are measured using the Cellulose Triacetate (CTA) dosimeter. However, this measurement cannot be carried out directly a...

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Hauptverfasser:	Shobari, Ikhsan, Subchan, Muhamad, Hidayat, Umar Sahiful, Satmoko, Ari, Suntoro, Achmad, Saefurrochman, Saefurrochman
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cellulose triacetate Channels Data acquisition Data recording Data retrieval Electron beams Heat Heat distribution Low cost Measurement methods Radiation dosage Temperature sensors
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creator	Shobari, Ikhsan Subchan, Muhamad Hidayat, Umar Sahiful Satmoko, Ari Suntoro, Achmad Saefurrochman, Saefurrochman
description	Development of low cost 16-channel data acquisition to measure the heat distribution of electron beam machine Arjuna 1.0. The penetration and irradiation dose rate of electron beam are measured using the Cellulose Triacetate (CTA) dosimeter. However, this measurement cannot be carried out directly and continuously. In this study, the calorimetric method is proposed to change the previous measurement method. This method is conducted by measuring the fluctuations and distribution of heat distribution caused by the reaction of the material exposed to irradiation, by installing a number of temperature sensors. A data acquisition with at least 16 input channels from the temperature sensor were required. The data acquisition were designed and constructed based on microcontroller Arduino Mega 2560 and MAX6675. The data acquisition were combined with the Teraterm free software as a data recording. From the results of the measurement and data retrieval tests on Arjuna 1.0 electron beam machine, the module can be worked well for 16 channels, by retrieving 4 data every second with an accuracy resolution of 0.25°C.
doi_str_mv	10.1063/5.0192840
format	Conference Proceeding
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The penetration and irradiation dose rate of electron beam are measured using the Cellulose Triacetate (CTA) dosimeter. However, this measurement cannot be carried out directly and continuously. In this study, the calorimetric method is proposed to change the previous measurement method. This method is conducted by measuring the fluctuations and distribution of heat distribution caused by the reaction of the material exposed to irradiation, by installing a number of temperature sensors. A data acquisition with at least 16 input channels from the temperature sensor were required. The data acquisition were designed and constructed based on microcontroller Arduino Mega 2560 and MAX6675. The data acquisition were combined with the Teraterm free software as a data recording. 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The penetration and irradiation dose rate of electron beam are measured using the Cellulose Triacetate (CTA) dosimeter. However, this measurement cannot be carried out directly and continuously. In this study, the calorimetric method is proposed to change the previous measurement method. This method is conducted by measuring the fluctuations and distribution of heat distribution caused by the reaction of the material exposed to irradiation, by installing a number of temperature sensors. A data acquisition with at least 16 input channels from the temperature sensor were required. The data acquisition were designed and constructed based on microcontroller Arduino Mega 2560 and MAX6675. The data acquisition were combined with the Teraterm free software as a data recording. 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The penetration and irradiation dose rate of electron beam are measured using the Cellulose Triacetate (CTA) dosimeter. However, this measurement cannot be carried out directly and continuously. In this study, the calorimetric method is proposed to change the previous measurement method. This method is conducted by measuring the fluctuations and distribution of heat distribution caused by the reaction of the material exposed to irradiation, by installing a number of temperature sensors. A data acquisition with at least 16 input channels from the temperature sensor were required. The data acquisition were designed and constructed based on microcontroller Arduino Mega 2560 and MAX6675. The data acquisition were combined with the Teraterm free software as a data recording. 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source	AIP Journals Complete
subjects	Cellulose triacetate Channels Data acquisition Data recording Data retrieval Electron beams Heat Heat distribution Low cost Measurement methods Radiation dosage Temperature sensors
title	Development of low cost 16-channel data acquisition to measure the heat distribution of Arjuna 1.0 electron beam machine
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