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People in general have a desire to live a healthy life. One way to keep health is by consuming herbal drinks, one of them is known as jamu. Jamu which is commonly found is "jamu gendong" which is a home-based herbal product that is marketed in the form of liquid in the bottle. When buying jamu, the seller will mix various types of jamu by pouring jamu from each bottle into a glass according to the buyer's request. However, mixing several types of jamu is carried out using the seller estimate, so the dosage of several types of jamu to the glass will vary according to the pouring. The purpose of this research is to make a arduino Mega based automatic jamu beverage mixing system. This system uses an LDR sensor to detect the presence of a glass with a resistance value read by an LDR sensor is > 500 ohm and a DC motor can move by the stirrer. The selection of the jamu menu's is done by pressing the keypad button from the code '1' to the code '8'. After the menu is selected, the jamu will flow to the glass and the volume of jamu will be calculated using a water flow sensor that uses multiplier values. For the volume of 150 mL is used to multiplie factor 3.7 , for the volume of 100 mL is used to multiplie factor 2.9 , and for the volume of 50 mL is used to multiplie factor 1.2.
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 Yenni, Helda, M.Ridwan. 2015. Implementasi Kendali Mikrokontroler ATMega8535 pada Alat Pembuat Kopi Otomatis. Jurnal Edukasi dan Penelitian Informatika (JEPIN) Vol. 1, (2).
 Andrian, Heri, A.Darmawan. 2016. Arduino Belajar Cepat dan Pemrograman. Bandung : Informatika
 Zaini, E.Irhamdi. 2015. Perancangan Sistem Otomatisasi Gedung dengan Arduino dan Raspberry Pi. Padang : Andalas University Press
 Istiyanto, Jozi Eko. 2014. Pengantar Elektronika dan Implementasi Pendekatan Project Arduino dan Android. Yogyakarta : Andi Offset
 Tanpa Nama. Tanpa Tahun. Arduino Mega. Diakses melalui https://www.arduino.cc/en/Main/arduinoBoardMega/ , tanggal 8 Maret 2018
 Safaat H, Nazruddin. 2011. Android Pemrograman Aplikasi Mobile Smartphone dan Tablet PC Berbasis Android. Bandung : Informatika
 Siregar, KTT , Takdir T, Bisma P. 2013. Viskosimeter Digital Menggunakan Water Flow Sensor G1/2 Berbasis Mikrokontroller 8535. JSF Vol 4, (1)
[9 Hersyah, M. (2017, March 20). Identifikasi Rancang Bangun Alat Ukur dan Sistem Kendali Kadar Total Dissolved Solid (TDS) Pada Air Berbasis Mikrokontroller. Journal of Information Technology and Computer Engineering, 1(01), 26-34.
 Parallax Inc. Tanpa Tahun. PCB Relay G2RL. Diakses https://www.parallax.com/sites/default/files/downloads/400-00052-Omron-12V-Relay-Datasheet.pdf , tanggal 14 Maret 2018
 Ihsanto, Eko , I.Buchori. 2017. Disain dan Implementasi Sistem Monitoring Pengisian Cairan Melalui Wifi dan Web. Jurnal Sinergi Vol.21 (1)
 Winarto, Tim Lentera. 2004. Khasiat dan Manfaat Kunyit. Jakarta : Agromedia Pustaka
 Wulandari, Rahmi Ayu , R.Azrianingsih. 2014. Etnobotani Jamu Gendong Berdasarkan Persepsi Produsen Jamu Gendong di Desa Karangrejo, Kecamatan Kromengan, Kabupaten Malang. Jurnal Biotropika Vol.2 (4)
 Koswara,Sutrisno. 2006. Jahe, Rimpang dengan Sejuta Khasiat. Jakarta : Pustaka Sinar Harapan
 Satria, Dedi , Yeni.Y, Maulinda. 2017. Rancang Bangun Sistem Penjadwalan Bel Sekolah Berbasis Arduino Uno dengan Antarmuka Berbasis Web Menggunakan Ethernet Web Server. Jurnal Serambi Engineering Vol.2 (3)
 Badidi, J., Asri, E., & Aisuwarya, R. (2018, March 29). Rancang Bangun Robot Tank Automatik Pendeteksi Halangan dengan Kendali Fuzzy Logic. Journal of Information Technology and Computer Engineering, 2(01), 7-18.
 Pramujianto, MA. 2010. Aplikasi Mikrokontroler ATMega85335 Untuk Otomatisasi Pompa Motor DC dan Solenoid Valve pada Alat Ukur Tekanan Darah dan Denyut Nadi Gluterma Meter Digital. Diakses melalui http://eprints.undip.ac.id/20853/1/jurnalQ_arief.pdf , tanggal 17 April 2018
 Amazon.com Inc. Tanpa Tahun. VEEROBOT 5V Hobby DC Motor. Diakses melalui https://www.amazon.in/VEEROBOT-5V-Hobby-MotorLeads/ , tanggal 17 April 2018