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Pembangkit Listrik Tenaga Picohydro Menggunakan Turbin Ulir Dengan Monitoring Berbasis Google Sheet Pada Aliran Sungai Desa Masangan Wetan
wildan arief prasetyo;
Arief Wisaksono Wisaksono;
indah sulistiyowati sulistiyowati
Prosiding Seminar Sains Nasional dan Teknologi Vol 12, No 1 (2022): VOL 12, NO 1 (2022): PROSIDING SEMINAR NASIONAL SAINS DAN TEKNOLOGI
Publisher : Fakultas Teknik Universitas Wahid Hasyim
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DOI: 10.36499/psnst.v12i1.7097
Perkembangan terus di lakukan untuk memenuhi kebutuhan listrik masyarakat di Indonesia. Masih sangat membutuhkan listrik sebagai selah satu penunjang kehidupan, Pembangkit Listrik Tenaga Picohiydro (PLTPh) merupakan alternatif yang murah, keunggulan dari turbin air adalah ramah lingkungan, karena tidak menggangu ekosistem air pada sungai yang ada disetiap perdesaan menjadi potensi besar dalam mengembangkan Pembangkit Listrik Picohiydro (PLTPh). Metode yang dilakukan penulis yaitu dengan merancang alat untuk dilakukan pengukuran putaran generator, daya yang keluar pada generator, dan lain-lain. dimana aliran air melewati kisi-kisi turbin sehingga menggerakkan poros turbin dan menghasilkan energi listrik melalui generator kemudian listrik dapat disimpan di baterai dan dapat digunakan untuk tegangan kerja yang sesuai yaitu 12vdc. Dalam proses pengisian juga dilakukan pembacaan oleh sensor, untuk mendeteksi voltase dan arus yang kemudian diolah oleh Nodemcu Esp 32 untuk kemudian ditransmisikan ke dalam bentuk Google sheet.
Paid Board Prototype With Monitoring Google Sheet
Rakhmad Fajar Ashari;
Arief Wisaksono;
Indah Sulistiyowati;
Akhmad Ahfas
Procedia of Engineering and Life Science Vol 3 (2022): Proceedings of the 5th Seminar Nasional Sains 2022
Publisher : Universitas Muhammadiyah Sidoarjo
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DOI: 10.21070/pels.v3i0.1308
Many people prefer the money deposit box as a method of money storage even if there are many different types of useful places to do so. As a result, a Banknote Piggy Bank Prototype with Google Sheet Monitoring was created. a device that provides data on the amount of money saved. to use RFID as an access tool to scan ID cards. Three ID cards are included with this tool: a savings ID card, an unregistered ID card, and an ID card that may be used to withdraw money from savings accounts. The TCS34725 sensor is used in the design to read the money's nominal value and detect color. 20X4 LCD is being used as a display. can use a Wemos d1 small to monitor data after it has been saved and shown in a Google SpreadSheet. The piggy bank door lock employs a Servo Motor SG 90 for media, a Relay to start the motor, and an RTC Ds1307 to display the time and date. For use as a method of lowering the voltage in the system circuit is the LM2596 Regulator module. While the entire system needs an Arduino Microcontroller to be controlled.
Automatic Stove Control System Based on the NodeMCU ESP8266 Microcontroller
Muhammad Nauval Khoiron Hamdani;
Indah Sulistiyowati;
Shazana Dhiya Ayuni
Journal of Electrical Technology UMY Vol 6, No 2 (2022): December
Publisher : Universitas Muhammadiyah Yogyakarta
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DOI: 10.18196/jet.v6i2.16308
A stove is a handy tool for humans. The use of stoves in everyday life brings beneficial and detrimental impacts. A stove is a tool used to help human activities, but the impact of its weakness can cause household accidents caused by the negligence of the community itself. The NodeMCU-based automatic hob was built to address this problem. This stove can set the cooking time and automatically stop working at the specified time. This stove can also turn off automatically if the sensor does not detect the presence of people around to minimize the occurrence of household accidents. This automatic stove is expected to be a technological reformer in household appliances and a solution to reduce the number of accidents caused by stoves.
Helmet for Body Temperature Measurement and Accident Location Detector With Telegram
Muhammad Nur Fahmi Febriansyah;
Indah Sulistiyowati;
Syamsuduha Syahrorini
Procedia of Engineering and Life Science Vol 2 No 2 (2022): Proceedings of the 4th Seminar Nasional Sains 2022
Publisher : Universitas Muhammadiyah Sidoarjo
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DOI: 10.21070/pels.v2i2.1326
The increasing number of accidents among online motorcycle taxi drivers. The difficulty of monitoring the location of the accident on the driver is also due to the various paths traversed by the driver. Especially with the problem of the Covid-19 pandemic. Therefore, the purpose of this research is to create a tool that can track the whereabouts of online motorcycle taxi drivers in the event of an accident while also functioning as a Covid 19 detector through body temperature for online motorcycle taxi drivers which is applied to the helmet of the driver. The research method used in this research is by having several people detect their body temperature with the MLX90614 sensor on the tool and also by dropping the helmet as an indicator of an accident due to a collision with the helmet. In this study, the MLX90614 sensor is used to measure the body temperature of passengers and is displayed on the OLED display layer. To detect the accident using the FSR402 sensor which will be useful for detecting collisions on the helmet which will then send the point where the collision occurred via telegram bot. To detect the location using the GPS sensor Ublox Neo 6m. The results obtained by the MLX90614 sensor have an accuracy of 95% at an object distance of 5cm from the sensor. The reading from the FSR402 sensor is 1024 at the time of a collision or accident. And the Ublox Neo 6m GPS sensor is able to provide readings with an accuracy of about 99% for the longitude and latitude coordinates.
Sistem Telemetri Mobil Listrik IMEI TEAM UMSIDA Berbasis Iot Dan Ublox Gps Neo-6m
Mochammad Syeh Maulana;
Indah Sulistiyowati
SinarFe7 Vol. 3 No. 1 (2020): Sinarfe7-3 2020
Publisher : FORTEI Regional VII Jawa Timur
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Sistem Telemetri diperlukan Pada kompetisi Formula One (F1) dan Shell Eco Marathon (SEM) untuk memonitor kondisi dan performa mobil selama perlombaan. Sistem telemetri dapat memberikan informasi kecepatan, jarak tempuh dan instrument lainnya. Data kecepatan dan jarak tempuh akan dikumpulkan dan ditampilkan di Android. Data yang telah diterima dapat digunakan untuk menentukan strategi dan evaluasi. Perancangan sistem ini menggunakan modul UBLOX GPS NEO-6M sebagai penerima data kecepatan dan jarak tempuh. Modul Nodemcu ESP 8266 sebagai mikrokontroller. Sistem tersebut akan melakukan transfer data melalui media Wifi, data yang diterima dapat ditampilkan oleh Android. Kecepatan dan jarak tempuh mobil dapat termonitor. Pada sistem ini akan dilakukan percobaan pemantauan kecepatan dan jarak tempuh, untuk pemantauan parameter lain akan menjadi bahan pengembangan pada penelitian selanjutnya. Diharapkan sistem telemetri ini mampu bekerja dengan baik sehingga dapat digunakan untuk menentukan strategi dan evaluasi serta dapat digunakan pada kendaraan apapun.
Google Sheet-based Monitoring of Screw Turbine Pico Hydro Power Plant on Masangan Wetan Village's River Flow
Wildan Arief Prasetyo;
Arief Wisaksono;
Indah Sulistiyowati
Procedia of Engineering and Life Science Vol 3 (2022): Proceedings of the 5th Seminar Nasional Sains 2022
Publisher : Universitas Muhammadiyah Sidoarjo
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DOI: 10.21070/pels.v3i0.1348
Developments continue to be made to meet the electricity needs of the people in Indonesia. Still, in dire need of electricity as a life support, the Pico hydro Power Plant (PLTPH) is a cheap alternative, the advantage of the water turbine is that it is environmentally friendly because it does not disturb the water ecosystem in the rivers that exist in every rural area. The method used by the author is to design a tool to measure the rotation of the generator, the power that comes out of the generator, and others. where the flow of water passes through the turbine lattice so that it moves the turbine shaft and produces electrical energy through a generator then electricity can be stored in the battery and can be used for the appropriate working voltage of 12VDC. In the charging process, reading is also carried out by the sensor, to detect the voltage and current which is then processed by the NodeMCU Esp 32 and then transmitted into the Google sheet.
Automatic Fish Feeder and Telegram Based Aquarium Water Level Monitoring
Bagas Dewantara;
Indah Sulistiyowati;
Jamaaluddin Jamaaluddin
Buletin Ilmiah Sarjana Teknik Elektro Vol. 5 No. 1 (2023): March
Publisher : Universitas Ahmad Dahlan
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DOI: 10.12928/biste.v5i1.7575
An important factor in maintaining fish in an aquarium is the timeliness of feeding fish. Most fish keepers are worried about the aquarium's feeding and water conditions, which must be done every day. Therefore, an automatic fish feeding tool and telegram-based monitoring of aquarium water levels were made to make it easier for fish keepers and aquarium owners to provide and monitor fish feed automatically according to a predetermined schedule. Monitoring the remaining feed and water level in the aquarium is done via Telegram. The components used in this tool are Esp 8266 as a microcontroller, RTC as a timer for scheduling fish feed, Ultrasonic as a detector for remaining fish feed, JSN-SR04T as a water level detector, LCD to display time and date as well as notifications and a servo motor functions to open and close the fish feed. The conclusion from the results obtained from this device is that the device works well and helps the aquarium owner to monitor and feed efficiently, despite some challenges such as delay due to poor internet connection.
Design of Turbine Aerator with Remote Control and Internet of Things (IoT)-Based Water pH Monitoring
Mohammad Amar Juliyanto;
Indah Sulistiyowati;
Ahmad Ahfas
Buletin Ilmiah Sarjana Teknik Elektro Vol. 5 No. 1 (2023): March
Publisher : Universitas Ahmad Dahlan
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DOI: 10.12928/biste.v5i1.7863
Water plays a very important role for living things including fish, with good water fish can grow optimally and healthily. The acidic and alkaline content of water and also oxygen greatly affects its growth. Currently, the majority of fish farmers monitor the pH and oxidation process of the pond manually. Therefore, in an aquaculture business, water quality must be monitored by fish farmers. In this research, an internet of things (IoT) based tool will be made that will produce oxygen in the water in tilapia ponds and is equipped with a pH sensor that will read how much pH value is contained in it, then the data can be viewed remotely via a cellphone connected to the internet. The telemetry system of this aerator research uses the NodeMCU ESP8266 microcontroller then the pH sensor reading data can be seen through the cellphone with the Blynk application as well as the aerator control can be easily done from the application. fish farmers can easily monitor the quality of water pH in real-time as well as control the aerator. The results achieved by the aerator can cause the oxidation process (dissolved oxygen) in water from the rotation of the impeller. Testing was carried out on a tilapia pond with a pond diameter of 15m2. The methodology used is quantitative with the results obtained from 10x experiments and comparison of the pH sensor and also the pH meter shows 96% accuracy of the pH sensor 4502C while 4% for the error value. the pH value before the aerator is active is 6 which means acidic. After the aerator is active and the dissolved oxygen process runs the pH value of the water becomes 7-7.5 which means neutral, this value is good for freshwater fish to breed well. from the help of this tool, fish farming farmers can more efficiently monitor water pH and aerator control.
Automatic Steering System on The Prototype Electric Car UMSIDA
Indah Sulistiyowati;
Miftachur Rifki Antoni
JEECS (Journal of Electrical Engineering and Computer Sciences) Vol. 1 No. 2 (2016): JEECS (Journal of Electrical Engineering and Computer Sciences)
Publisher : Fakultas Teknik Universitas Bhayangkara
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DOI: 10.54732/jeecs.v1i2.176
Currently the electronic device can not be separated from human life, especially is the gadget. Gadgets in daily activities is almost inseparable from our grasp, from children to adults. Many devices are now directly connected with android smartphone. Hence the idea to do some research occurred android smartphone is connected to a steering system of the car. In this case study is used as a prototype electric car UMSIDA. Here we create an electronic circuit that we put on the car steering system, which by using blutooth connection connects to an android smartphone that we use. As for the electronic devices we use Arduino is programmed using C language to run the motor that moves according to the input data transmitted via android smartphone. Where the results of tests show that the speed turns on bluetooth pairing process is more influenced by the android version and hardware high.
Perancangan Alat Perbaikan Faktor Listrik Rumah Tangga Dengan Monitoring Telegram
Pian pian;
Indah Sulistiyowati;
Arief Wisaksono
Journal of Electrical Engineering and Computer (JEECOM) Vol 5, No 1 (2023)
Publisher : Universitas Nurul Jadid
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DOI: 10.33650/jeecom.v5i1.5841
Energi listrik merupakan salah satu kebutuhan hidup. Penggunaan beban listrik induktif dapat menurunkan nilai factor daya pada listrik, faktor daya yang baik adalah antara 0,85 sampai 1. Oleh karena itu perlu ditambahkan kompensasi daya reaktif yang timbul dari beban listrik induktif untuk menghindari kerugian yang timbul akibat kekurangan daya. nilai faktor daya. Dengan menggunakan kapasitor yang dipasang secara paralel dapat mengimbangi daya reaktif dan meningkatkan nilai faktor daya. Alat ini menggunakan ESP32 sebagai mikrokontroler dan sensor PZEM 004T untuk mengukur besaran listrik. Hasil pengukuran ditampilkan pada LCD dan smartphone Android yang dikirimkan melalui internet. Modul relai digunakan sebagai sakelar pemilihan kapasitor otomatis untuk peningkatan faktor daya. Ditemukan bahwa hasil tes pembacaan sensor memiliki akurasi hingga 99,7%. Untuk peningkatan efisiensi, nilai faktor daya dapat mencapai 95%, dan peningkatan tertinggi adalah 35,8%. Sedangkan pengujian pengiriman data juga dapat dilakukan pada jarak 53 Km.