Alat Pendeteksi Dan Monitoring Kematangan Tape

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Karina Djunaidi
Hendra Jatnika
Rahma Farah Ningrum
Wali Syahputro Cahoyo Kabidoyo

Abstract

Cassava tape is a type of food made from the result  of fermentation involving yeast in the manufacturing process. Detection of temperature, humidity and weight is carried out to observe the fermentation process  in cassava into tape. The purpose of this study is to design a device that detects whether tape has reached the desired state  automatically using the Dht11 sensor and load cell sensor, with the Arduino uno as the microcontroller.  The result of  this study showed that cassava tape which was fermented at 30-35 degrees Celsius in 24 hours was said to be in the perfect state  and this was marked by the change in  texture, aroma, color and taste of the cassava tape. So it can be concluded that tape fermentation using the detection device  can improve the quality of the tape produced.


 

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References

[1] M. Astawan and M. Astawan, "Teknologi Pengolahan Pangan Nabati Tepat Guna. Bogor," Akademika Presssiado, 1991.
[2] I. Ganjar, "Tapai from Cassava and Sereals," First International Symposium and Workshop on Insight into the World of Indigenous Fermented Foods for Technology Development and Food Safety, pp. 1-10, 2003.
[3] T. Susanto and B. Saneto, Teknologi Pengolahan Hasil Pertanian, Surabaya: Bina Ilmu, 1994.
[4] E. Novary, Penanganan dan Pengolahan Sayuran Segar, Jakarta: Penebar Swadaya, 1999.
[5] I. P. Aminah, "Mutu Fisik, Kadar Serat dan Sifat Organoleptik Nata de Cassava Berdasarkan Lama Fermentasi," Jurnal Pangan dan Gizi, pp. 29-38, 2013.
[6] M. Adiptya and H. Wibawanto, "Sistem Pengamatan Suhu dan Kelembaban Pada Rumah Berbasis Mikrokontroller ATmega8," Jurnal Teknik Elektr, pp. 15-17, 2013.
[7] M. Asnawi, "Karateristik tape ubi kayu (manihot utilissima) melalui proses pematangan dengan penggunaan pengontrol suhu," Jurnal Universitas Brawijaya, pp. 56-66, 2013.
[8] A. H. Saptadi, "Perbandingan Akurasi Pengukuran Suhu dan Kelembaban Antara Sensor DHT11 dan DHT22 Studi Komparatif pada Platform ATMEL AVR dan Arduino," Jurnal Infotel, pp. 49-56, 2014.
[9] Susanti MN, Arianto R, Siregar RR. Embedded System Practicum Module for Increase Student Comprehension of Microcontroller. TELKOMNIKA. 2018 Feb 1;16(1):53-60.