Anggoro, Andri (2019) Desain Diagram Ladder Untuk Banyak Objek Pada Factory Automatic Trainer menggunakan Metode Petri Net. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Factory automatic trainer adalah miniatur proses industri manufaktur yang terdapat separation, pick and place, stopper, drilling machine dan gripper. Pada sistem factory automatic trainer yang beroperasi secara otomatis memerlukan sebuah kontroler yang tahan lama dan efisien, dalam hal ini kontroler yang digunakan adalah PLC. Pada PLC memiliki banyak bahasa pemrograman salah satunya adalah ladder diagram. Permasalahan pada tugas akhir kali ini merancang proses operasi sistem yang dapat bekerja dengan objek yang banyak serta pengulangan pada operasi sistem factory automatic trainer. Petri net merupakan salah satu metode perancangan ladder diagram yang digunakan untuk mengatasi permasalahan tersebut. Metode petri net sendiri adalah pemodelan grafis yang dapat disimulasikan berdasarkan operasi sistem yang dirancang. Perancangan ladder diagram menggunakan metode petri net yang di implementasikan pada factory automatic trainer dihasilkan pengujian yaitu 70 rung, 82 relay, 6 timer, 12 counter dan data program sebesar 30kb. Waktu yang dibutuhkan proses satu per satu pada factory automatic trainer benda kerja hitam rata-rata 22.38 detik, benda kerja biru rata-rata 21.23 detik dan benda kerja silver rata-rata 05.85 detik. Waktu yang dibutuhkan proses berurutan pada factory automatic trainer rata-rata 01.08.33 menit. Sedangkan untuk waktu yang dibutuhkan proses acak pada factory automatic trainer rata-rata benda kerja hitam paling belakang memiliki waktu terlama 01.09.07 menit, rata-rata benda kerja biru paling belakang memiliki waktu 01.06.57 menit, dan rata-rata benda kerja silver paling belakang memiliki waktu tercepat 01.01.74 menit.
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Factory automatic trainer is a miniature manufacturing process that includes separation, pick and place, stopper, drilling machine and gripper. In the factory automatic system trainers that operate automatically require a controller that is durable and efficient, in this case the controller used is PLC. The PLC has many programming languages, one of which is ladder diagram. The problem in this final project is to design a system operating process that can work with many objects and repetition of the factory automatic trainer operating system. Petri net is one of the methods of designing a ladder diagram that is used to overcome these problems. The petri net method itself is graphical modeling that can be simulated based on the designed system operation. The design of ladder diagrams using the petri net method which is implemented at factory automatic trainer is produced testing that is 70 units, 82 relays, 6 timers, 12 counters and program data of 30kb. The time needed for processing one by one in factory automatic trainer black workpieces averaged 22.38 seconds, blue workpieces averaged 21.23 seconds and silver workpieces averaged 05.85 seconds. The time required for the sequential process at the factory automatic trainer is an average of 01.08.33 minutes. Whereas for the time needed by the random automatic factory trainer the average black workpiece at the back has the longest time of 01.09.07 minutes, the average blue workpiece at the back has 01.06.57 minutes, and the average silver workpiece is the most The back has the fastest time 01.01.74 minutes.
| Item Type: | Thesis (Other) |
|---|---|
| Additional Information: | RSE 629.895 Ang d-1 2019 |
| Uncontrolled Keywords: | Factory Automatic Trainer, PLC, Diagram Ladder, Petri Net |
| Subjects: | Q Science > QA Mathematics > QA76.6 Computer programming. T Technology > T Technology (General) > T57.62 Simulation T Technology > T Technology (General) > T57.83 Dynamic programming T Technology > TJ Mechanical engineering and machinery > TJ223.P76 Programmable controllers T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7871.674 Detectors. Sensors T Technology > TS Manufactures > TS176 Manufacturing engineering. Process engineering (Including manufacturing planning, production planning) |
| Divisions: | Faculty of Electrical Technology > Electrical Engineering > 20201-(S1) Undergraduate Thesis |
| Depositing User: | Andri Anggoro |
| Date Deposited: | 17 Mar 2023 04:43 |
| Last Modified: | 20 Mar 2023 02:26 |
| URI: | http://repository.its.ac.id/id/eprint/63700 |
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