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All Journal Jurnal Nasional Aplikasi Mekatronika, Otomasi dan Robot Industri (AMORI)
Fitri Adi Iskandarianto
Institut Teknologi Sepuluh Nopember
Control & Systems Engineering Electrical & Electronics Engineering Mechanical Engineering

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Design of an automatic cost-effective cracker dryer as an effort to increase the production of squid crackers at Banyuwangi Regency raafi'u, Brian; Iskandarianto, Fitri Adi; Susilo, Joko; Septyaningrum, Erna; Amrinsyah, Rakmad; Alam, Badrul; Agasta, Tedy
Jurnal Nasional Aplikasi Mekatronika, Otomasi dan Robot Industri (AMORI) Vol 3, No 2 (2024): December
Publisher : Institut Teknologi Sepuluh Nopember

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.12962/j27213560.v3i2.7834

Abstract

Banyuwangi is a regency with a coastline length of about 175.8 km with 10 islands. The east coast of Banyuwangi (Bali Strait) is one of the largest fish producers in East Java. Banyuwangi is the second largest producer of fishery commodities in Indonesia. One of the villages in Banyuwangi Regency, Mojopanggung Village, has the potential for a thriving squid cracker business. The management of crackers in this village has not changed significantly from year to year, 90% of the management of the ponds is done traditionally, starting from the process of making raw materials for crackers, drying crackers to the marketing process. The most common problem faced by cracker business owners is the loss caused by the rainy season. Almost 50% to 75% of the crackers are not produced in a period of 1 to 4 months due to limited sunlight as a medium for drying crackers. This is evident from the decreasing amount of production. The most influential factor is the heating medium that changes based on natural conditions. Meanwhile, the demand for all types of crackers continues to grow. In its management, one of the dynamic elements that need to be considered is the temperature of the cracker dryer. Some of the physical variables that affect the quality of the drying process are temperature, humidity, and automatic scheduling, and to support the success of the cracker drying process, these parameters really need to be known by SME cracker business owners in Banyuwangi Regency. So the need for a cheap and energy-efficient technology for the drying process of crackers, which can produce good quality crackers, so that cracker-producing SMEs can significantly increase their production without any restrictions on natural conditions.
Design a monitoring system for the output voltage, current, and frequency of a 3-phase generator in a mini power plant module at the instrumentation engineering department raafi'u, Brian; Iskandarianto, Fitri Adi; Darwito, Purwadi Ags; Fadilah, Titin Nur; Amrinsyah, Rakmad; Alam, Badrul; Adhim, Fauzi Imaduddin; Ash-Shiddieqy, Rizaldy Hakim
Jurnal Nasional Aplikasi Mekatronika, Otomasi dan Robot Industri (AMORI) Vol 3, No 2 (2024): December
Publisher : Institut Teknologi Sepuluh Nopember

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.12962/j27213560.v3i2.7250

Abstract

Electrical energy is a requirement in everyday human life. The stability of the electrical energy generation system is something that must be considered, one of the power generation instruments that are often used is a generator, which converts mechanical energy into electrical energy. The generator has physical variables that must be maintained, including voltage, current and frequency. So as to know the amount of voltage and current produced by the generator, a system is made that can measure the amount of current, voltage and frequency produced by the generator with a portable system (plug and play). In this system, the generator output parameters are monitored using various sensors including the ZMPT101B voltage sensor to measure the generator output voltage, the ACS712 sensor to measure the current variable and the zero crossing detector to measure the frequency variable. From the test data of the monitoring system, the results obtained are the ZMPT101B voltage sensor which has an error reading of 0.01 for the ACS712 sensor reading error of 0.09 and for the frequency sensor reading error of 0.01. These three sensors were successfully used in the monitoring system of voltage, current and generator output frequency in the mini power plant module.
Co-Authors Adhim, Fauzi Imaduddin Agasta, Tedy Alam, Badrul Amrinsyah, Rakmad Ash-Shiddieqy, Rizaldy Hakim Darwito, Purwadi Ags Fadilah, Titin Nur Joko Susilo raafi'u, brian Septyaningrum, Erna