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All Journal TESLA: Jurnal Teknik Elektro Integrated Lab Journal Jurnal Studi Keperawatan
Siswoko Siswoko
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Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Electrical & Electronics Engineering Engineering Health Professions Industrial & Manufacturing Engineering Medicine & Pharmacology Nursing Public Health

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Otomatisasi Kendali Power Window Berbasis Perubahan Konsentrasi Kadar Oksigen Dan Karbon Mono-Oksida Di Dalam Ruang Mobil Achmad Komarudin; Fathoni Fathoni; Siswoko Siswoko
Integrated Lab Journal Vol. 8 No. 2 (2020)
Publisher : UIN Sunan Kalijaga Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14421/ilj.2020.080204

Abstract

In the car, when we drive, we often know that a driver smokes in the car, the cigarette will produce smoke that is detrimental to the health of those who inhale it. Such as carbon monoxide gas that is inhaled will cause health problems until poisoning to result in death. Lack of oxygen levels in the body for the gas inhaler also results in drowsiness and can lead to accidents.To minimize this, the car must be equipped with a carbon monoxide sensor and an oxygen level sensor connected to the power window. So that the power window can open automatically according to the speed of the drive, i.e. when the sensor detects the target when the car is not driving (0km / h), the window will open 100% (40cm), when the car is driving at 1-40km / h, the car window will open by 75% (30cm), and when the car is traveling at a speed of 41-80km / h, the car window will open by 50% (20cm), and when the car is traveling more than 81km / h the car window will open by 25% (10cm).
Kontrol Elektronik Mesin Penetas Telur Hybrid Matahari Berbasis Arduino Siswoko Siswoko; Edi Sulistio Budi; Achmad Komarudin
Integrated Lab Journal Vol. 8 No. 2 (2020)
Publisher : UIN Sunan Kalijaga Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14421/ilj.2020.080206

Abstract

This paper presents the electronic control of a solar hybrid egg incubator using Arduino. In the process of hatching eggs, there are 2 methods, namely naturally incubated by the parent itself and artificially by using an egg incubator. In general, egg incubators utilize electrical energy, where we know that electrical energy from fossils is expected to run out in 2020. In this solar hybrid egg incubator, it is able to minimize the use of electricity and is environmentally friendly which uses 2 energies, namely, sunlight as a source of heat in the process of hatching eggs and electrical energy with a heater as the actuator to back up when the heat absorbed does not meet the needs. In the process of hatching eggs, heat energy is required in the form of a temperature of 29 to 34 degrees Celsius. In the process of absorbing sunlight, heat storage accumulators are used directly. By using a heat storage accumulator and utilizing this heat energy directly, it can optimize energy from the sun by 80%, in contrast to solar panels that absorb solar energy and convert solar energy to electrical energy in a maximum of 20%.
Risiko Preeklamsi Pada Ibu Hamil dengan Penyakit Penyerta Siswoko Siswoko; Cipto Cipto; Teguh Wahyudi
Jurnal Studi Keperawatan Vol 3, No 1 (2022): MARCH 2022
Publisher : Program Studi Keperawatan Blora, Politeknik Kesehatan Kementerian Kesehatan Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (558.375 KB) | DOI: 10.31983/j-sikep.v3i1.8371

Abstract

Latar belakang : Salah satu penyebab utama kematian Ibu di Indonesia disamping perdarahan adalah preeklamsia atau eklamsia. Kejadian preeklamsi belum diketahui secara jelas factor penyebabnya, namun kondisi tersebut sering dijumpai pada ibu hamil dengan riwayat penyakit penyerta seperti diabetes mellitus dan hipertensi.Tujuan : Studi ini menganalisa tentang seberasa besar risiko ibu hamil dengan penyakit penyerta (diabeter mellitus dan atau hipertensi) mengalami preeklamsi.Metode : studi ini menggunakan penelitian analitik kasus kontrol yang merupakan salah satu bentuk rancangan penelitian analitik dengan pendekatan waktu retrospektif  dengan mengobservasi 600 data proses perjalanan penyakit hipertensi, diabetes mellitus dan kejadian preeklamsia pada ibu bersalin ke arah belakang tanpa melakukan intervensi.Hasil : Hasil penelitian menunjukkan dua variabel yang bermakna menjadi faktor pencetus terjadinya preeklamsia pada ibu bersalin yaitu riwayat hipertensi (OR = 2,149; CI= 95%) riwayat diabetus mellitus (OR = 6,682 ; CI = 95%).Kesimpulan : Ibu hami dengan penyakit penyerta hipertensi berisiko 2,149 kali mengalami preeklamsi dibandingan dengan ibu hamil tanpa hipertensi. Ibu hamil dengan diabetes mellitus berisiko 6,682 kali mengalami preeklamsi dibandingkan dengan ibu hamil tanpa penyakit penyerta diabetes mellitus. Keywords: preeklamsi, ibu hamil, hipertensi, diabetes melitus
RANCANG BANGUN STASIUN CUACA BERBASIS WIRELESS SENSOR NETWORK DENGAN LORA SX1278 Firda Aini Zulafah; Denda Dewatama; Siswoko Siswoko
TESLA: Jurnal Teknik Elektro Vol 24 No 2 (2022): TESLA: Jurnal Teknik Elektro
Publisher : Universitas Tarumanagara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24912/tesla.v24i2.18463

Abstract

Paragliding is a type of free-flying sport using cloth wings, commonly called a parachute. At the time of takeoff, this sport utilizes the thrust generated by the wind and lands using the feet. Based on the available data, there are still many tourists and amateur paragliding users who have difficulty finding weather information in the takeoff and landing areas. Weather is an important factor in this sport to minimize accidents and avoid flight failures due to not being able to control a parachute hit by strong winds. Therefore, based on the existing problems, a system is needed that can provide weather condition data for takeoff and landing safety with wind speed parameters using an anemometer sensor, for temperature and humidity using a DHT-22 sensor, and a wind direction sensor using a Wind Vane Direction sensor. The data processed by the Arduino Mega2560 will be displayed on a 20×4 LCD (Liquid Crystal Display). The results of the process are also sent through a data transmission system using LoRa (Long Range) technology. From the results of the tests carried out, it shows that the functionality of all sensors is running as it should. The average calibration error of the DHT sensor data is 22 for temperature, 2,14 % and humidity, 1,37% and the wind speed sensor is 2,85 %. In addition, the LoRa communication test between the node and the gateway shows good results with the average RSSI (Received Signal Strength Indicator) value at node 1 being -77 dBm and node 2 being -34 dBm ABSTRAK: Paralayang merupakan salah satu jenis olahraga terbang bebas dengan menggunakan sayap kain atau biasa disebut dengan parasut. Pada saat lepas landas olahraga ini memanfaatkan gaya dorong yang dihasilkan oleh angin dan mendarat menggunakan kaki. Berdasarkan data yang ada masih banyak wisatawan maupun pengguna paralayang amatir yang mengalami kesulitan untuk mengetahui informasi cuaca pada area lepas landas dan pendaratan. Cuaca menjadi faktor penting dalam olahraga ini untuk meminimalisir terjadinya kecelakaan dan menghindari terjadinya gagal terbang akibat tidak bisa mengendalikan parasut yang diterpa angin kencang. Maka dari itu, berdasarkan permasalahan yang ada diperlukan suatu sistem yang dapat memberikan data kondisi cuaca untuk keselamatan lepas landas  dan mendarat dengan parameter kecepatan angin yang menggunakan sensor Anemometer, untuk suhu dan kelembaban menggunakan sensor DHT 22, dan sensor arah angin menggunakan sensor Wind Vane Direction dan data yang diproses oleh Arduino Mega2560 ditampilkan pada LCD (Liquid Crystal Display) 20×4, hasil dari proses tersebut juga dikirim melalui sistem transmisi data dengan menggunakan teknologi LoRa (Long Range). Dari hasil pengujian yang dilakukan menunjukkan bahwa fungsionalitas semua sensor sudah berjalan sebagaimana mestinya, rata-rata kesalahan kalibrasi data sensor DHT 22 untuk suhu 2,14% dan kelembaban 1,37%, dan sensor kecepatan angin sebesar 2,85%. Selain itu pengujian komunikasi LoRa antara node dan gateway menunjukan hasil yang baik dengan nilai RSSI (Received Signal Strength Indicator) rata-rata pada node 1 adalah -77 dBm dan node 2 adalah -34 dBm.
Co-Authors Aldi Wildan Ramadani Aldilah Alfariz mukti Amri Nur Yahya Bagus Aji Miftahudin Bambang Priyadi Brigita Audhy Chairawati Cipto Cipto Dewatama, Denda Edi Sulistio Budi Eka Mandayatma Evril Bagas Prasetyo Fahmi El-Zaatari Fathoni Fathoni Fenza Maulana Firda Aini Zulafah Firnanda Nabilla Ramadhani Herman Hariyadi Herman Hariyadi Ari Murtono Ifan Ihza Isac Ilham Akbar Habibi Komarudin Achmad M. Fu’at Amin Nurdiansyah Mohammad Luqman Muhammad Titan Aryasatya Waluyo Muhammad Ubaidillah Idrus Ratna Ika Putri Rizky Agita Indrawan Roudlotul Jannah Setiawan, Budhy Shofi Hadi Arrohman Sidik Nurcahyo Subiyantoro Sumarno, Agus Sukoco Heru Teguh Wahyudi Winarno, Totok Yulianto Yulianto Yusril Azza Ramadhan