Hidayat, Akhmad Afan (2023) Simulator Sensor Proximity dengan Web Interface. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Sensor proximity merupakan salah satu jenis sensor yang sangat umum digunakan di berbagai sektor karena kemampuannya yang dapat mendeteksi objek secara otomatis tanpa kontak langsung. Sebagai komponen yang memegang peranan penting pada proses produksi maupun proses pembelajaran, penting untuk memastikan bahwa sensor proximity yang digunakan dapat bekerja dengan benar dan sesuai. Namun saat ini, alat untuk menguji kinerja dan performa sensor proximity masih belum banyak beredar di masyarakat, hal ini tentunya membuat konsumen merasa kesulitan untuk menentukan sensor proximity yang sesuai dengan kebutuhan. Oleh karena itu, penelitian ini berfokus pada pembuatan alat simulator untuk menguji jarak deteksi dan kepresisian dari sensor proximity, sehingga dapat diketahui karakteristik dan sensitivitas dari masing-masing sensor proximity yang digunakan. Penelitian ini menggunakan dua jenis sensor proximity yaitu IFM Inductive Proximity Sensor ii5300, dan Inductive Proximity Sensor Autonics PR30-15AO, serta menggunakan satu sensor jarak yaitu Module VL53L1X Time-of-Flight Distance Sensor. Setiap sensor tersebut diuji dengan lima material logam yang memiliki karakteristik berbeda-beda, yaitu aluminium, baja, besi, stainless steel, serta tembaga. Perancangan alat simulator ini menggunakan mikrokotroller NodeMCU ESP32 DevKit V1 untuk mengolah data sensor dan LCD 16x2 untuk menampilkan hasil pembacaan sensor. Selain itu, dilakukan juga proses digitalisasi dengan cara mentransmisikan nilai sensor melalui internet agar dapat ditampilkan pada web interface dashboard monitoring online sehingga dapat dipantau secara real-time dari jarak jauh. Hasil pengujian menunjukkan bahwa sensor Inductive Proximity Sensor Autonics PR30-15AO memiliki jarak deteksi lebih jauh dibandingkan dengan IFM Inductive Proximity Sensor ii5300. Namun kedua sensor memiliki tingkat kepresisian yang sama sama tinggi yaitu mencapai 100%. Sementara itu, Module VL53L1X Time-of-Flight Distance Sensor memiliki tingkat keakurasian sebesar 85.21% pada jarak pengujian 0 hingga 50 mm. Hasil pengujian juga membuktikan bahwa jenis material logam yang digunakan mempengaruhi jarak deteksi dan kepresisian dari sensor proximity
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The proximity sensor is one of the commonly used sensor types across various sectors due to its ability to detect objects automatically without direct contact. As a component playing a crucial role in both production and learning processes, it is important to ensure that the utilized proximity sensor functions correctly and accurately. However, currently, there is a scarcity of available tools to test the performance and precision of proximity sensors, which makes it challenging for consumers to determine the most suitable proximity sensor for their needs. Therefore, this research focuses on developing a simulator device to assess the detection range and precision of proximity sensors, thereby revealing the characteristics and sensitivities of each employed proximity sensor. This study employs two types of proximity sensors, namely the IFM Inductive Proximity Sensor ii5300 and the Inductive Proximity Sensor Autonics PR30-15AO, along with a distance sensor known as the Module VL53L1X Time-of-Flight Distance Sensor. Five different metallic materials, namely aluminum, steel, iron, stainless steel, and copper, are tested using each of these sensors due to their distinct characteristics. The designed simulator device utilizes the NodeMCU ESP32 DevKit V1 microcontroller for sensor data processing, while an LCD 16x2 screen is employed to display sensor readings. Additionally, a digitalization process is implemented to transmit sensor values over the internet, enabling real-time monitoring through a web interface dashboard from remote locations. The test results indicate that the Inductive Proximity Sensor Autonics PR30-15AO exhibits a longer detection range compared to the IFM Inductive Proximity Sensor ii5300. However, both sensors demonstrate equally high precision levels, reaching 100%. On the other hand, the Module VL53L1X Time-of-Flight Distance Sensor achieves an accuracy rate of 85.21% within the testing range of 0 to 50 mm. Furthermore, the test outcomes prove that the type of metallic material used significantly affects the detection range and precision of proximity sensors.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Jarak Deteksi, Kepresisian, Sensor Proximity; Material Logam, Digitalisasi, Detection Distance, Precision, Sensor Proximity, Type of Metals, Digitalization |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK351 Electric measurements. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5103.2 Wireless communication systems. Two way wireless communication T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105.888 Web sites--Design. Web site development. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7878 Electronic instruments |
| Divisions: | Faculty of Vocational > Instrumentation Engineering |
| Depositing User: | Akhmad Afan Hidayat |
| Date Deposited: | 24 Aug 2023 07:58 |
| Last Modified: | 24 Aug 2023 07:58 |
| URI: | http://repository.its.ac.id/id/eprint/102932 |
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