Garuda - Garba Rujukan Digital

PERANCANGAN SISTEM KOMUNIKASI DATA DAN PENGENDALIAN KECEPATAN PUTARAN MOTOR DC Arnita Arnita; M Jasmanda
Jurnal Teknik Elektro Vol 3, No 1 (2014): Jurnal Teknik Elektro
Publisher : Situs resmi ITP Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (377.716 KB)

Dalam dunia industri , data besaran listrik pada saat motor bekerja , biasanya dapat diukur seperti arus, tegangan, kecepatan, berat beban dan lain-lain. Dari hasil data pengukuran ini , operator dapat mengumpulkan informasi untuk menganalisis kondisi besaran listrik , kehandalan , kerusakan dan kerugian Motor berjalan . Selain jumlah konsumsi listrik dan bahan baku berat yang diangkut oleh Motor sulit bagi operator dalam pengumpulan data. Agar hasil motor belt conveyor data pengukuran kerja dapat ditampilkan dan disimpan dalam bentuk data base pada PC ( Personal Computer ) , maka dirancang sistem komunikasi data pada prototipe dengan menggunakan motor DC . Komunikasi data dirancang menggunakan Delphi 7.0 . persentase kesalahan pengukuran digital dari alat ukur analog pada beban saat pengujian 2,025 % , persentase kesalahan uji teganganAC 2,22 % , persentase kesalahan sensor kecepatan pengujian 0,01 % dan persentase kesalahan sensor berat pada pengujian adalah 0,2 % .

PERANCANGAN DAN IMPLEMENTASI VENTILATOR FRIENDLY SEBAGAI ALAT BANTU PERNAPASAN Hidayat Hidayat; Iman Satria; Arnita Arnita; Seflahir Dinata
EPIC (Journal of Electrical Power Instrumentation and Control) Vol 5, No 1 (2022): EPIC
Publisher : Universitas Pamulang, Prodi teknik Elektro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32493/epic.v5i1.18524

Pandemi Covid-19 yang melanda dunia menyebabkan kurangnya ketersediaan ventilator alat bantu pernapasan. Makalah ini menyajikan perancangan, dan implementasi ventilator yang ramah, disebut Ventilator Friendly. Ventilator yang dikembangkan tipe ventilasi tekanan positif yaitu Controlled Mechanical Ventilation (CMV) dan Cycled Volume Mode (CVM) dengan konstruksi simple dan bersahabat. Pemantauan dan pengoperasianya dapat dilakukan melalui remote, sehingga menghindarkan kontak langsung dengan pasien. Pemanfaatan teknologi ambu bag dengan cara mengatur besaran dan siklus tekanan. Perancangan dan implementasi meliputi sistem mekanis penekan ambu bags dan sistem kontrol berbasis arduino. Parameter dapat dikontrol secara remote atau mode layar sentuh. Hal ini bertujuan untuk memberi kemudahan dan mengurangi resiko penularan Covid-19 pada tenaga medis. Dari hasil penelitian diketahui bahwa nilai aktual yang tampil pada layar sama dengan nilai yang di-setting. Dimana nilai setting mempunyai nilai BPM 5-20, IER dari 1:1 hingga 1:4 serta persentase TV 40-100%. Sehingga dapat dikatakan bahwa alat ventilator friendly ini dapat bekerja dengan baik. Kata kunci : ventilator; friendly; ambu bag; remote

PELATIHAN PEMBUATAN PAVING BLOCK DARI SAMPAH PLASTIK KE JASA KEBERSIHAN KAMPUS Maria Ulfah; Burmawi Burmawi; Arnita Arnita; Inna Kholidasari; Yusra Yusra
Jurnal Media Pengabdian Kepada Masyarakat Vol. 1 No. 1 (2022): JM-PKM
Publisher : Lembaga Penelitian dan Pengabdian Kepada Masyarakat

ABSTRACT Training on making paving blocks from plastic waste (colored and or clear bags) for cleaning services of campus 3 Universitas Bung has been conducted. The Community Service (PKM) aims to transfer knowledge and skills in the manufacture of paving blocks which have a higher selling value than plastic bag waste. The long-term goal of this program is to support the Padang City Government program to reduce the amount of waste to the Final Disposal Site and become a community business opportunity to increase sources of income. The methods used in this PKM are: 1) preparation of socialization activities, and 2) counseling and training. The campus cleaning service is enthusiastic about this activity and considers that the training adds to their insight in the utilization of plastic waste into paving blocks, which they never knew about that.

Perancangan dan Implementasi Ventilator Friendly Sebagai Alat Bantu Pernapasan Hidayat Hidayat; Iman Satria; Arnita Arnita; Seflahir Dinata
EPIC (Journal of Electrical Power Instrumentation and Control) Vol 5, No 1 (2022): EPIC
Publisher : Universitas Pamulang, Prodi teknik Elektro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32493/epic.v5i1.18524

Pandemi Covid-19 yang melanda dunia menyebabkan kurangnya ketersediaan ventilator alat bantu pernapasan. Makalah ini menyajikan perancangan, dan implementasi ventilator yang ramah, disebut Ventilator Friendly. Ventilator yang dikembangkan tipe ventilasi tekanan positif yaitu Controlled Mechanical Ventilation (CMV) dan Cycled Volume Mode (CVM) dengan konstruksi simple dan bersahabat. Pemantauan dan pengoperasianya dapat dilakukan melalui remote, sehingga menghindarkan kontak langsung dengan pasien. Pemanfaatan teknologi ambu bag dengan cara mengatur besaran dan siklus tekanan. Perancangan dan implementasi meliputi sistem mekanis penekan ambu bags dan sistem kontrol berbasis arduino. Parameter dapat dikontrol secara remote atau mode layar sentuh. Hal ini bertujuan untuk memberi kemudahan dan mengurangi resiko penularan Covid-19 pada tenaga medis. Dari hasil penelitian diketahui bahwa nilai aktual yang tampil pada layar sama dengan nilai yang di-setting. Dimana nilai setting mempunyai nilai BPM 5-20, IER dari 1:1 hingga 1:4 serta persentase TV 40-100%. Sehingga dapat dikatakan bahwa alat ventilator friendly ini dapat bekerja dengan baik. Kata kunci : ventilator; friendly; ambu bag; remote

The development of APIO : Solar Power Plant Based Technology for Automatic Fish Dryer Equipment Arnita Arnita; Cahayahati Cahayahati; Mirzazoni Mirzazoni
Andalas Journal of Electrical and Electronic Engineering Technology Vol. 3 No. 1 (2023): May 2023
Publisher : Electrical Engineering Dept, Engineering Faculty, Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/ajeeet.v3i1.36

APIO is a fish drying equipment that utilizes sunlight which is converted into electrical energy using a solar power plant. This dryer works automatically using a control system that can control temperature and weight in predetermined settings. APIO designed in the form of a closed box with a heater and fan using a battery as an energy source. APIO uses a load cell and thermocouple as control input using an Arduino microcontroller and regulates the heat temperature in the box between 40-50?C. This tool was tested in the Pasie Nan Tigo Padang, Sumatra Barat. APIO tested using the Arduino uno control at night from 23:00 to 03:15 using fish weighing 5108 grams, data collection was carried out once for 15 minutes for 18 times. The average heater temperature was 32.71?C and the outside temperature was 25?C. The heater voltage was 11.33 V and the heater current was 36.02 A with clear weather conditions. The test results showed a decrease in fish weight to 4208 grams dry. Day time tested from 13:00 to 15:15 using fish weighing 1012 grams, taking data once for 15 minutes for 10 times the average heater temperature is 43.85?C, outside temperature is 30?C and fish weight reaches 208 grams dry.

The development of APIO : Solar Power Plant Based Technology for Automatic Fish Dryer Equipment Arnita Arnita; Cahayahati Cahayahati; Mirzazoni Mirzazoni
Andalas Journal of Electrical and Electronic Engineering Technology Vol. 3 No. 1 (2023): May 2023
Publisher : Electrical Engineering Dept, Engineering Faculty, Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/ajeeet.v3i1.36

APIO is a fish drying equipment that utilizes sunlight which is converted into electrical energy using a solar power plant. This dryer works automatically using a control system that can control temperature and weight in predetermined settings. APIO designed in the form of a closed box with a heater and fan using a battery as an energy source. APIO uses a load cell and thermocouple as control input using an Arduino microcontroller and regulates the heat temperature in the box between 40-50?C. This tool was tested in the Pasie Nan Tigo Padang, Sumatra Barat. APIO tested using the Arduino uno control at night from 23:00 to 03:15 using fish weighing 5108 grams, data collection was carried out once for 15 minutes for 18 times. The average heater temperature was 32.71?C and the outside temperature was 25?C. The heater voltage was 11.33 V and the heater current was 36.02 A with clear weather conditions. The test results showed a decrease in fish weight to 4208 grams dry. Day time tested from 13:00 to 15:15 using fish weighing 1012 grams, taking data once for 15 minutes for 10 times the average heater temperature is 43.85?C, outside temperature is 30?C and fish weight reaches 208 grams dry.

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