scholarly journals RANCANG BANGUN ALAT PENGADUK BUBUR OTOMATIS MENGGUNAKAN SENSOR SUHU BERBASIS ARDUINO UNO

2017 ◽  
Vol 10 (3) ◽  
pp. 87-100
Author(s):  
Thamrin Thamrin ◽  
Delsina Faiza ◽  
Ilmiyati Rahmy Jasril
Keyword(s):  
Temperature Rise ◽  
Food Processing ◽  
Temperature Sensor ◽  
Input Data ◽  
Rotation Speed ◽  
Time Cost ◽  
Lcd Display ◽  
Arduino Uno

The aim of this research is to design and make stirring tool of corn grits with rotation speed of stirring based on temperature rise level detected by temperature sensor. Arduino Uno as reader of input data from temperature sensor and set output in the form of motor rotation stirrer, LCD display and buzzer. The benefits of this research in the field of application of electronics sensors in food processing, especially the effective and efficient corn grits processing. Both in terms of time, cost, energy and safety. Keywords: Designing, Stirring, Corn Grits, Arduino Uno, Sensor

scholarly journals RANCANG BANGUN SISTEM KONTROL KECEPATAN MOTOR MENGGUNAKAN SENSOR SUHU LM 35

2018 ◽  
Vol 4 (1) ◽  
pp. 15-19
Author(s):  
Sonny Rumalutur
Keyword(s):  
Energy Consumption ◽  
Success Rate ◽  
Temperature Sensor ◽  
Room Temperature ◽  
Rotation Speed ◽  
Activation Process ◽  
Test Results ◽  
Software And Hardware ◽  
Arduino Uno

This research is about controlling the circulation of room temperature which is done automatically if the room temperature is cold then motor rotation speed so slowly and vice versa if the room temperature is hot then motor rotation speed will be faster. In this study controlling the circulation of the room temperature with the fan in the activation is made automatically that is equipped with LM 35 temperature sensor which is then controlled using Arduino Uno and can adjust the speed of rotation from the fan. The fan can work automatically so it can simplify the man who previously the fan activation process is done by humans. And also can be more efficient in energy consumption because the fan works at the necessary time only. From the test results obtained that the system can work well in accordance with the planning and the role of the sensor is very important that can affect the overall success rate that is after the adjustment between software and hardware is equal to 80% by conducting tests periodically.

scholarly journals Smart Forest Fire Identification and Notification System Using Iot Based Wireless Sensor Networks

2020 ◽  
Author(s):  
Santhiya M ◽  
Siva Rathnam M ◽  
Radha Krishnan T ◽  
Nishanth S
Keyword(s):  
Forest Fire ◽  
Temperature Sensor ◽  
Input Data ◽  
Wireless Sensor ◽  
Raspberry Pi ◽  
Residential Areas ◽  
Notification System ◽  
Lcd Display ◽  
High And Low Temperatures ◽  
Smoke Sensor

Wildlife and wildlife authorities face the problem of animal migration from woodland to residential areas in the present environment. Natural calamities triggered by nature, wind and dry undergrowth will destroy acres of land and consume everything in their way that causes significant harm to both natural and human capital. The proposed system to design an IoT-based system that will be able to detect the fire as soon as possible before the fire spreads over the wide area and prevent poaching. Raspberry interfacing with a temperature sensor, a smoke sensor, webcam and a buzzer. GSM gateway is used to conduct this project to provide the user with the final SMS via given number in simulation program. The temperature sensor used to indicate high and low temperatures, the PIR sensor designed to track human activity on the LCD display, the flame sensor used to signify the intensity of flames and the forest fire observed on the LCD display. Once large, image processing is used to determine the accuracy of the fire rate. Wireless Sensor Network (WSN) for data processing to be used as input data in our control system. WSN comprising of temperature sensor system and GPS module to sense forest fire by measuring the level and sending its position to the server utilizing GSM communication contact and GPS functionality. Raspberry Pi cluster, a complicated computation is broken into multiple parts using MPI, and each component runs on separate raspberry pi device. Such sections will be analysed in sequence and then MPI must merge the output and turn it over to the user, essentially they operate as individual units (but in tandem and together) to produce very quick results.

scholarly journals Kendali Kecepatan Motor Listrik Satu Phasa Berdasarkan Suhu Ruangan

2021 ◽  
Vol 7 (1) ◽  
pp. 21-28
Author(s):  
I Made Adiswara Wirama ◽  
I Made Aris Dharma Putra ◽  
I Made Weda Maharta Putra ◽  
Anak Agung Ngurah Made Narottama ◽  
Anak Agung Ngurah Gde Sapteka
Keyword(s):  
Temperature Control ◽  
Temperature Sensor ◽  
Room Temperature ◽  
Rotation Speed ◽  
Speed Controller ◽  
Arduino Uno ◽  
Motor Exhaust

Sistem pengendalian suhu ruangan secara otomatis diyakini mampu memberikan penghematan tanpa mengurangi performansinya. Pengendalian suhu ruangan dilakukan dengan mengatur kecepatan putaran motor exhaust fan dengan SCR speed controller. Hal ini sangat diperlukan untuk menghemat pengeluaran listrik. Dalam mengkoneksikan antara sensor suhu dengan SCR speed controller diperlukan mikrokontroler Arduino Uno sebagai pengolah data keluaran dari sensor sehingga dapat mengendalikan speed controller 1 dengan keluaran tegangan 180 volt dan speed controller 2 dengan keluaran tegangan 200 volt. Alat ini cocok digunakan untuk mengatur suhu di ruangan tertutup agar selalu stabil. An automated room temperature control is a way to do savings without reducing its performance. The temperature control is done by adjusting the rotation speed of the exhaust fan motor using an SCR speed controller. This mechanism will give a great advantage on power usage reduction. To connect the temperature sensor with the SCR speed controller, an Arduino Uno microcontroller is used as a processor of the outputs from the sensor so it can control the 1st speed controller with 180 Volt and the 2nd speed controller with 200 Volt. This tool is suitable for maintaining the temperature of a closed room temperature.

Intelligent Thermometer Design Based on SCM

2013 ◽  
Vol 433-435 ◽  
pp. 1563-1566
Author(s):  
Jian Lin Zhang
Keyword(s):  
Data Collection ◽  
System Design ◽  
Temperature Sensor ◽  
Embedded Software ◽  
Excellent Performance ◽  
Display Module ◽  
Sensor Module ◽  
Lcd Display ◽  
Processing Module ◽  
Sensor Temperature

An intelligent thermometer system design is presented in this paper. There are temperature sensor module, data collection module, data processing module, keyboard number tube module, voice module and LCD display module in this system. Due to excellent performance of temperature sensor, temperature sensor is used in system to obtain the temperature, transform the voltage, amplify OP precisely, and get 12 bits accuracy of samples. In order to make the system interface friendly, embedded software is developed to realize such functions as alarm temperature settings, LED screen display, audio playback and so on.

scholarly journals Alat Pendeteksi Kebakaran Menggunakan SMS

2020 ◽  
Vol 1 (2) ◽  
pp. 251-254
Author(s):  
Sindi Permata Sari ◽  
Oriza Candra ◽  
Jhefri Asmi
Keyword(s):  
Human Factors ◽  
Temperature Sensor ◽  
Human Life ◽  
Fire Detection ◽  
Smoke Detectors ◽  
Fire Detector ◽  
Arduino Uno ◽  
Main Component ◽  
The Brain ◽  
Early Fire Detection

Lately, there are frequent fires caused by human factors. Because we cannot predict the process of fire in advance. And the delay in knowing the occurrence of a fire is very fatal to the safety of human life and property. With advances in technology, we can overcome fires by making early fire detection devices. With the presence of temperature and smoke detectors, we can detect fires as early as possible and be delivered quickly via alarms and SMS gateways. The main component of this fire detector is the Arduino Uno. This Arduino uno acts as the brain of the fire detection device. This tool works based on the detection of the temperature condition by the DHT11 temperature sensor, which is when the temperature is above normal, an alert notification will be sent via the SMS gateway and so will the MQ2 smoke and the buzzer will sound as a warning alarm.

scholarly journals ZigBee standard implementation for a wireless temperature system

2021 ◽  
Author(s):  
Ritchinder R. S. Samrai
Keyword(s):  
Power Supply ◽  
Temperature Sensor ◽  
Application Programming Interface ◽  
Input Voltage ◽  
Base Station ◽  
Voltage Range ◽  
Lcd Display ◽  
Remote Station ◽  
Temperature Measurement System ◽  
Zigbee Standard

This project is concerned with the application of the ZigBee communication standard for implementing a temperature measurement system. Due to ZigBee's low-power and low data rate features, it is ideal for analog sensor systems. Digi's ZigBee devices called XBee are used in this project. The XBee devices meet all the ZigBee standard. The XBee device has the advantage of being programmed with API firmware (application programming interface). XBee's API provides fast and reliable communication between the remote stations and the base station. The remote station has three different modules: power supply, temperature sensor and XBee device. The power supply is designed to output 3.3V. The temperature sensor is designed so that the output stays within the XBee's maximum analog input voltage range of 0V to 1.2V. The XBee device is programmed as a router. The base station has three different modules: Arduino microcontroller, LCD display and XBee device. The Arduino is programmed to receive the analog readings from the XBee device and convert them into temperature readings The temperature readings are displayed on the LCD display. The XBee device is programmed as a coordinator. The design successfully worked for 3 remote stations and 1 base station.

scholarly journals Studi Penentuan Kalor Jenis Air dan Larutan Garam Menggunakan Mikrokontroler Arduino Uno

2019 ◽  
Vol 3 (2) ◽  
pp. 86-97
Author(s):  
Valentinus Galih Vidia Putra ◽  
Andrian Wijayono ◽  
Endah Purnomosari ◽  
Ngadiono Ngadiono ◽  
Irwan Irwan
Keyword(s):  
Specific Heat ◽  
Salt Solution ◽  
Temperature Sensor ◽  
Measurement Method ◽  
Water Solution ◽  
Pure Water ◽  
Heating Wire ◽  
Arduino Uno

This research was conducted to determine specific heat of pure water and salt solution using the calorimeter measurement method based on the Arduino Uno microcontroller. The salt solution and pure water solution were heated by the heating wire with 2.4 A and 0.54 Ω. The temperature of the pure water and the salt solution was measured using the Arduino Uno microcontroller and DS18B20 temperature sensor. In this study, the Cv of pure water and salt solution has been found.

scholarly journals Rancang Bangun Pintu Air Otomatis Menggunakan Water Level Float Switch Berbasis Mikrokontroler

2015 ◽  
Vol 4 (1) ◽  
pp. 22
Author(s):  
Heki Apriyanto
Keyword(s):  
Water Level ◽  
Lcd Display ◽  
Arduino Uno

Penelitian ini bertujuan untuk membangun sistem pintu air otomatis membuka ataupun menutup pintu berdasarkan ketinggian air pada bendungan yang sebelumnya masih bersifat konvensional atau masih menggunakan tenaga manusia. Pintu air yang bersifat konvensional dinilai kurang efektif, mengingat curah hujan yang cukup tinggi disertai sulitnya memperkirakan ketinggian air yang selalu berubah-ubah, selain faktor tersebut ketinggian air pada suatu bendungan dipengaruhi juga oleh banjir kiriman didaerah lain. Metode penelitian yang digunakan dengan menggunakan pengumpulan data dan pengembangan perangkat yang terdiri dari perencanaan, analisis, perancangan dan implementasi, dimana dalam analisis menggunakan analisis SWOT untuk menilai layak atau tidaknya rancangan ini diterapkan. Hasil yang diharapkan adalah terwujudnya pintu air otomatis untuk meringankan manusia dalam menjalankan tugas serta membuat sistem yang berjalan dengan lebih efisien. Rancang bangun pintu air otomatis ini menggunakan mikrokontroler arduino uno dan nano sebagai alat pemroses, serta dilengkapi dengan sensor ultrasonik, water level float switch sensor, LCD display, motor servo. Water level float switch sensor yang berfungsi untuk memutar motor servo untuk mengangkat atau menurunkan pintu air sesuai batas ketinggian air. Hasil yang diharapkan adalah terciptanya sistem pintu air otomatis pada suatu bendungan dan dapat mengurangi kelalaian manusia dalam bertugas mengingat sulitnya memperkirakan ketinggian air yang selalu berubah-ubah dalam waktu tertentu.

scholarly journals Urinoir Analyzer Pintar Pendeteksi Kelainan Pada Fungsi Ginjal Dengan Analisis Kadar Ph Dan Warna Pada Urin

2020 ◽  
Vol 2 (1) ◽  
pp. 32-40
Author(s):  
M. Iqbal Febryansah ◽  
Anton Yudhana ◽  
Alfian Ma'arif
Keyword(s):  
Urine Sample ◽  
Urine Analysis ◽  
Ph Value ◽  
Color Sensor ◽  
Lcd Display ◽  
Accuracy Level ◽  
Arduino Uno ◽  
Input Variables

Perkembangan pemeriksaan penyakit kelainan ginjal melalui analisa urin saat ini dilakukan dalam dua proses pemeriksaan secara makroskopis dan mikroskopis. Pada dasarnya dibutuhkan sebuah alat yang mampu memproses dan menganalisis sebuah sampel urin secara otomatis agar tidak terjadinya kesalahan dalam melakukan pemeriksaan penyakit melalui sampel urin. Awalan perkembangan ini menggunakan sebuah Kontroler Arduino UNO dan dua buah variabel masukan yaitu sensor warna TCS3200 dan sensor PH meter SKU SEN0161. Dua buah variabel masukan sensor bekerja secara berdampingan dengan sensor TCS3200 memiliki hasil keluaran berupa nilai frekuensi RGB dan diproses kembali menjadi frekuensi keabuan. Lalu, sensor PH meter SKU SEN0161 menghasilkan sebuah nilai PH pada sampel urin. Hasil dari pemeriksaan tersebut ditampilkan pada sebuah penampil berupa LCD berukuran 16x2. Hasil pemeriksaan dari alat ini dibandingkan dengan hasil analisa pakar dari Balai Laboratorium Kesehatan Yogyakarta bagian Urology. dan mendapatkan tingkatan nilai akurasi 93% dengan keberhasilan data sebanyak 28 dari 30 data yang diambil. The development of examining kidney disorders through urine analysis is currently carried out in two processes of examination, macroscopic and microscopic. Basically, we need a tool that is able to process and analyze a urine sample automatically so that there are no errors in carrying out disease checks through the urine sample. The beginning of this development used an Arduino UNO controller and two input variables, namely the TCS3200 color sensor and the SKU SEN0161 PH meter sensor. Two sensor input variables working side by side with the TCS3200 sensor have an output in the form of RGB frequency values and are processed back into gray frequencies. Then, the PH meter SKU SEN0161 sensor generates a PH value in the urine sample. The results of these checks are displayed on a 16x2 LCD display. The examination results of this tool are compared with the results of the analysis of experts from the Yogyakarta Health Laboratory Center, Urology section. and get an accuracy level of 93% with the success of the data as much as 28 of the 30 data taken.

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