DESAIN DAN IMPLEMENTASI ALAT PENGUJI KUALITAS INTI STATOR BERBASIS KOMPUTER UNTUK MENINGKATKAN KUALITAS PERKULIAHAN, HASIL PERENCANAAN DANPELAKSANAAN MEMBELIT MOTOR LISTRIK

Abstract

Abstrak

Belum tersedianya alat penguji inti stator di pasaran menyebabkantidak dilakukannya pengujian kualitas inti stator, baik pada perkuliahan maupun pada industri atau jasa perencanaan-perbaikan mesin listrik.Akibatnya kualitas inti stator tidak diketahui, sehinggakualitas hasil perkuliahan dan kinerja produknya tidakmaksimum.Pendekatan yang digunakan adalah penelitian dan pengembangan (riset and development).Hasil penelitian menunjukkan: (1) alat penguji inti stator mesin listrik berbasis komputer yang dihasilkan dapat membedakan inti stator rusak atau baikdan keputusannyaditampilkan di monitor komputer; (2) implementasi alat yang dihasilkan pada perkuliahan perencanaan-perbaikan mesin listrik,tingkat kelulusan mahasiswa87,50% dengan nilai rerata79,68 melampaui indikator keberhasilan yang ditetapkan. Kinerja produkhasil mahasiswa memilikiefisiensi minimum 75,97%, suhu maksimum 55,75ºC, dan slip maksimum 6,38%, juga melampaui indikator keberhasilan yang ditetapkan; dan (3) implementasi alat penguji inti stator di industriperencanaan-perbaikan mesin listrik, kinerja hasil produknya memiliki efisiensi 76,81%, suhu maksimum 58,00ºC, slip maksimum 5,30%, dan garansi 12 bulan, juga melampaui indikator keberhasilan yang ditetapkan dan hanya life-time sama dengan masa garansi. Pihak industri juga bersedia mengimplementasi-kan alat penguji inti stator pada proses produksi selanjutnya. Kesimpulan,alat penguji inti stator berbasis komputer yang dihasilkan dapat membedakan kualitas inti stator dan keputusan rusak atau baik ditunjukkan di monitor komputer; dapatmeningkatkan kualitas hasil perkuliahan; dan dapat meningkatkan kinerja produk yang dihasilkan mahasiswa dan pihak industri perencanaan-perbaikan mesin listrik.

Kata kunci:Desain dan implementasi, alat pengujiinti stator, berbasis komputer, peningkatan, hasil kuliah, dan kinerjaproduk.

Abstract

Lack of stator core testers on the market did not cause the stator core quality testing, both in lectures and in the industrial or service-improvement planning electric machine. As        a result the quality of the stator core is unknown, so the quality of the lectures and the performance of their products is not the maximum. The approach used is a research and development (research and development). The results showed: (1) prober-based electrical machine stator core computer generated to distinguish the damaged stator core or both and the decision is displayed on a computer monitor; (2) implementation tools produced at the lecture plan-repair electrical machinery, 87.50% student graduation rate, with a mean value of 79.68% exceeds the specified indicators of success. Product performance results of students have a minimum efficiency of 75.97%, the maximum temperature of 55.75ºC, and maximum slip is 6.38%, well beyond the specified indicator of success; and (3) implementation of the stator core testers in planning industrial-electrical machinery repair, performance of the product has an efficiency of 76.81%, 58.00ºC maximum temperature, maximum slip is 5.30%, and the warranty of 12 months, well beyond the specified indicators of success and life-time just the same as the warranty period. The industry is also willing to implement the stator core testers in the production process further. Conclusion, prober-based stator core computer generated to distinguish the quality of the stator core and a decision either damaged or shown on a computer monitor; to improve the quality of the lectures, and to improve the performance of the products of students and party-planning industry repair electrical machines.

Keywords: Design and implementation, stator core testers, computer-based, improvement, results of college, and product performance.