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Pendidikan Teknik Elektro, Fakultas Teknik Universitas Negeri Medan
Control & Systems Engineering Electrical & Electronics Engineering Mechanical Engineering

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PENGEMBANGAN TRAINER MIKROKONTROLER BERBASIS ARDUINO NANO PADA MATA PELAJARAN TEKNIK PEMROGRAMAN, MIKROPROSESOR DAN MIKROKONTROLER KELAS XI Kardo Simanjuntak; Panahatan Sitorus
JEVTE: Journal of Electrical Vocational Teacher Education Vol 1, No 2 (2021): November 2021
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (317.394 KB) | DOI: 10.24114/jevte.v1i2.29251

Abstract

Abstract This study aims to determine how the process of developing a Microcontroller Trainer as a learning medium and producing a Microcontroller trainer that has been developed is feasible as a learning medium. This research uses research and development methods. The steps for developing the Arduino Nano trainer include: (1) Potential and Problems; (2) Data Collection; (3) Product Design; (4) Design Validation; (5) Design Revision; (6) Product Trial; (7) Product Revision; (8) Trial of Use; (9) Product Revision; (10) Determination of Trainer Eligibility. The object of this research is the Arduino Nano Microcontroller Trainer. The data collection method in this study used a trainer requirements test validation questionnaire and a trainer validation test. The trainer requirement test was conducted on the Expert Practitioners and the trainer validation test was conducted on the Media Expert. Technical analysis of the data used in this study is descriptive qualitative, quantitative and descriptive statistics. The result of this research is the Arduino Nano Microcontroller Trainer which consists of IR sensor input devices, light sensors and output devices such as LEDs, LCD Matrix, Dot Matrix, Seven Segment Displays, Relays, DC Motors and Buzzers. The results of the trainer requirements test by Expert Practitioners are 92.5% (very feasible) and the results of the trainer validation test by Media Experts are 91.25% (very feasible). Based on the total scores of the trainer requirements test results and the results of the media validation test, it was concluded that the Arduino Nano-Based Microcontroller Trainer was very suitable to be used as a learning medium for class XI TAV at SMK N.1 Lubuk Pakam. Keywords: Learning Media Trainer, Arduino Nano, AbstrakPenelitian ini bertujuan untuk mengetahui bagaimana proses pengembangan Trainer Mikrokontroler sebagai media pembelajaran dan Menghasilkan trainer Mikrokontroler yang telah dikembangkan layak sebagai media pembelajaran. Penelitian ini menggunakan metode penelitian pengembangan (research and development). Langkah-langkah pengembangan trainer Arduino Nano ini meliputi : (1) Potensi Dan Masalah; (2) Pengumpulan Data; (3) Desain Produk; (4) Validasi Desain; (5) Revisi Desain; (6) Uji Coba Produk; (7) Revisi Produk; (8) Uji Coba Pemakaian; (9) Revisi Produk; (10) Penetapan Kelayakan Trainer. Objek pada penelitian ini adalah Trainer Mikrokontroler Arduino Nano. Metode pengumpulan data pada penelitian ini menggunakan angket validasi uji persyaratan trainer dan uji validasi Trainer. Uji persyaratan trainer dilakukan terhadap Ahli Praktisi dan uji validasi trainer dilakukan terhadap Ahli Media. Teknis analisis data yang digunakan pada penelitian ini adalah deskriptif kualitatif, kuantitatif dan statistik deskriptif. Hasil penelitian in adalah Trainer Mikrokontroler Arduino Nano yang terdiri dari piranti input sensor IR, Sensor cahaya dan piranti output seperti LED, LCD Matriks, Dot Matriks, Peragah Seven Segmen, Relay, Motor DC dan Buzzer. Hasil uji persyaratan trainer oleh Ahli Praktisi sebesar 92,5% (sangat layak) dan hasil uji validasi trainer oleh Ahli Media sebesar 91,25% (sangat layak). Berdasarkan jumlah skor hasil uji persyaratan trainer dan hasil uji validasi media disimpulkan bahwa Trainer Mikrokontroler Berbasis Arduino Nano sangat layak digunakansebagai media pembelajaran untuk kelas XI TAV di SMK N.1 Lubuk Pakam. Kata Kunci : Media Pembelajaran Trainer, Arduino Nano
PENGEMBANGAN PROTOTYPE TRAFFIC LIGHT MIKROKONTROLER BERBASIS RDUINO MEGA PADA MATA PELAJARAN TEKNIK PEMROGRAMAN MIKROPROSESOR DAN MIKROKONTROLER DI SMK NEGERI 1 PERCUT SEI TUAN Berynta Dalimunte; Panahatan Sitorus
JEVTE: Journal of Electrical Vocational Teacher Education Vol 1, No 1 (2021): Mei 2021
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (338.405 KB) | DOI: 10.24114/jevte.v1i1.25042

Abstract

Abstract The purpose of this research is to develop a Prototype Traffic Light Microcontroller based on Arduino Mega. This research was conducted in class XI TAV SMK Negeri 1 Percut Sei Tuan. This development research uses the Borg and Gall research model adapted from Sugiyono. Product data is in the form of qualitative data obtained from suggestions from media experts and practitioners and in the form of qualitative data from media experts and practitioners. The results of the study are: (1) Making the Prototype Traffic Light learning media the steps include making the product design developed, collecting supporting materials, finishing, protootype assessment by media experts and practitioners, product revision. (2) The results of the feasibility of the Ttraffic Light Prototype are as follows: the assessment of the Prototype by the media obtained a score of 90.25% in the very feasible category, the Prototype assessment by the practitioner obtained a score of 93.5% with the very feasible category. (3) The results of the eligibility of the Job Sheet Prototype by the practitioner obtained a chord of 92% in the very feasible category. Key Words: Development of traffic light prototype, Arduino mega, R&D AbstrakPenelitian ini bertujuan untuk mengembangkan Prototype Traffic Light Mikrokontroler berbasis Arduino Mega. Penelitian ini dilakukan  di kelas XI TAV SMK Negeri 1 Percut Sei Tuan. Penelitian pengembangan ini menggunakan model penelitian Borg and Gall yang diadaptasi dari Sugiyono. Data produk berupa data kualitatif yang didapat dari saran dari ahli media dan praktisi serta berupa  data kualitatif yang berasal dari ahli media dan praktisi. Hasil penelitian adalah : (1) Pembuatan media pembelajaran Prototype Ttraffic Light langkah-langkah meliputi membuat desain produk yang dikembangkan, mengumpulkan bahan-bahan pendukung, Finishing, penilaian Protootype oleh ahli media dan praktisi, revisi produk. (2) Hasil kelayakan Prototype Ttraffic Light sebagai berikut : penilaian Prototype oleh media diperoleh skor 90,25% dengan kategori sangat layak, penilaian Prototype oleh praktisi diperoleh skor 93,5% dengan kategori sangat layak. (3) Hasil kelayakan Job Sheet Prototypeoleh praktisi diperoleh akor 92% dengan kategori sangat layak. Kata Kunci:  Pengembangan prototype traffic light, arduino mega, R&D
Co-Authors Berynta Dalimunte Kardo Simanjuntak