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Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Zaenudin, Ahmad, Rony Darpono, and Ulil Albab. "NOMOR ANTRIAN BERBASIS ATMEGA16A." Power Elektronik: Jurnal Orang Elektro 7, no. 1 (January 10, 2019): 6–9. http://dx.doi.org/10.30591/polektro.v7i1.1178.

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2

Noviana, Eva, and Saiful Manan. "ALAT PENGGERUS OBAT OTOMATIS BERBASIS MIKROKONTROLER AVR ATMEGA 16 DISERTAI TAMPILAN LCD." Gema Teknologi 17, no. 1 (October 1, 2012): 25. http://dx.doi.org/10.14710/gt.v17i1.8914.

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Анотація:
Eva Noviana, Saiful Manan, in paper otomatic drug muller based on ATMEGA16 mikrokontroler with LCD monitor explain that in a pharmacy a pharmacist made ​​in accordance with the prescription drugs that have been recommended from the doctor to the patient. The drug is sometimes exist in the form of capsules, so the pharmacist must erode the drug first. Usually the process is still done manually which is less saves time. Because in today's tools - the tools are completely automated. With Automatic Tool muller Drugs Accompanied ATmega16 AVR Microcontroller Based LCD Display is possible to ease the burden on pharmacists, where the application is made up of four series, namely a series of push buttons, ATmega16 AVR microcontroller series, LCD series, muller motor driver circuit. Push button as input in the form of a pushbutton. ATmega16 AVR microcontroller as the central control input and outputan the grinding process medication. LCD ( Liquid Crystal Display ) as output capable of displaying output characters , either letters or numbers. Muller motor driver as government Universal AC to drive the motor. As for writing the program used in this application using C language C language is the software that becomes part of the system which are programs that regulate the working of the microcontroller ATmega16 and overall hardware (hardware ) is connected to the microcontroller ATmega16. Keywords : ATmega16 AVR microcontroller, LCD, muller motor driver.
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3

Huang, Song Lin, and Jian Zhong Cui. "The Design of Isolated RS485 Bus System Based on ATmega162." Advanced Materials Research 1046 (October 2014): 223–26. http://dx.doi.org/10.4028/www.scientific.net/amr.1046.223.

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Анотація:
As a multipoint differential data transmission electrical specification, RS485 bus has become the industry one of the most widely used standard communication interface. This communication interface allows the simple multi-point two-way communication on a pair of twisted pair, with which the noise suppression capability, data transfer rate, cable length and the reliability is unmatched by other standards. But this way of differential signal transmission is highly susceptible to common-mode interference, EMI electromagnetic interference and strong signal interference. In this paper, optical isolation devices were adopted on RS485 bus, which can effectively solve the interference problem of signal transmission process.
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4

Fajrin, Hanifah Rahmi, Rilda Gigan Hamdu Malik S, and Brama Sakti Handoko. "Rancang Bangun Medicooler Insulin Berbasis Atmega16." Medika Teknika : Jurnal Teknik Elektromedik Indonesia 3, no. 2 (April 26, 2022): 59–64. http://dx.doi.org/10.18196/mt.v3i2.14225.

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Анотація:
Pada dasarnya, lingkungan penyimpanan insulin membutuhkan waktu dan kondisi suhu yang stabil dengan kisaran suhu 15 °C hingga 20 °C untuk menjaga kualitasnya. Pada penelitian ini akan dibuat alat penyimpan insulin berupa medicooler dengan menggunakan elemen Peltier sebagai penghasil dingin dan aluminium sebagai media penghantar dingin. Metode pengumpulan data dilakukan dengan mengukur suhu menggunakan dua termometer pembanding, yaitu termometer 1 untuk mengukur suhu dalam box dan termometer 2 untuk mengukur suhu dalam cairan yakult (pengganti insulin) dengan menggunakan set point 17°C. Dari hasil pengujian didapatkan nilai error termometer 1 dengan error 1%, nilai error termometer 2 kurang dari 2%. Dapat disimpulkan bahwa alat ini dapat digunakan sebagai tempat penyimpanan insulin.
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5

Fajrin, Hanifah Rahmi, Rilda Gigan Hamdu Malik S, and Brama Sakti Handoko. "Rancang Bangun Medicooler Insulin Berbasis Atmega16." Medika Teknika : Jurnal Teknik Elektromedik Indonesia 3, no. 2 (April 26, 2022): 59–64. http://dx.doi.org/10.18196/mt.v3i2.14225.

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Анотація:
Pada dasarnya, lingkungan penyimpanan insulin membutuhkan waktu dan kondisi suhu yang stabil dengan kisaran suhu 15 °C hingga 20 °C untuk menjaga kualitasnya. Pada penelitian ini akan dibuat alat penyimpan insulin berupa medicooler dengan menggunakan elemen Peltier sebagai penghasil dingin dan aluminium sebagai media penghantar dingin. Metode pengumpulan data dilakukan dengan mengukur suhu menggunakan dua termometer pembanding, yaitu termometer 1 untuk mengukur suhu dalam box dan termometer 2 untuk mengukur suhu dalam cairan yakult (pengganti insulin) dengan menggunakan set point 17°C. Dari hasil pengujian didapatkan nilai error termometer 1 dengan error 1%, nilai error termometer 2 kurang dari 2%. Dapat disimpulkan bahwa alat ini dapat digunakan sebagai tempat penyimpanan insulin.
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6

Liu, Cai Xia, and De Li Gong. "Development of Wireless Resistance Strain Gage Based on ATmega16." Applied Mechanics and Materials 34-35 (October 2010): 859–63. http://dx.doi.org/10.4028/www.scientific.net/amm.34-35.859.

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Анотація:
Measuring a large amount of parameters of work piece, resistance strain gage will have to use many resistive signal conversion boxes and long electric wires. Data acquisition becomes slow, inaccurate and discontinuous. Disorder and thermal of contact potential in the contacts affect the measurement signal and converting precision. In this paper, a wireless portable resistance strain gage is developed. ATmega16 is an 8-bit embedded and high-speed AVR single-chip microcomputer with 16k FlASH, and that is the core of system. Amplifier is designed to amplify and filter micro-voltage signals to improve measure accuracy. Wireless Bluetooth technology links ATmega16 and PC. Visual Basic software displays and processes data from ATmega16 in real time. This system is small in size and highly reliable, strong anti-interference ability and better economic performance.
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7

Malinowski, Tomasz, Tadeusz Mikolajczyk, and Adrian Olaru. "Control of Articulated Manipulator Model Using ATMEGA16." Applied Mechanics and Materials 555 (June 2014): 147–54. http://dx.doi.org/10.4028/www.scientific.net/amm.555.147.

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Анотація:
The paper presents a model for the construction of an articulated manipulator with 3 degrees of freedom (DOF). It is made from lightweight metal. To drive was used the stepper motors. Manipulator control system was made using a ATMEGA16 microcontroller. The control software was elaborated in BASCOM. Manipulator were tested using a manually control by joystick and in automation mode using a data file in array form. Presented solution is useful for didactics. By using more powerful motors and more complicated design it can be used to implementation in industrial conditions.
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8

Ariadi, Muhammad Mispu, Iwan Sugriwan, and Arfan Eko Fahrudin. "Sistem Alat Ukur Kekeruhan Berbasis Mikrokontroler ATMega16A-PU." Jurnal Fisika FLUX 1, no. 1 (January 26, 2019): 112. http://dx.doi.org/10.20527/flux.v1i1.6154.

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Анотація:
The fabrication of the ATMega16A-PU microcontroller-based the system turbidity sensor consists of sensor module Turbidity SKU:SEN0189 including with the signal conditioning, power supply unit, the ATMega16A-PU microcontroller module, LCD 16 x 2 character, and personal computer (PC). The measuring system is used to measure the quality of water on theriverMartapura South Kalimantan, Indonesia. The physical parameters that measured is the of water. The measuring of turbidity detected by the sensor through the light that traverse the suspended particles in water. The output signal from the sensor in from of the voltage signal is connectedwith ATMega16A-PU microcontroller viaport A0. The voltage signal output is inversely proportional to the turbidity. Theequation of sensor characteristic is obtained by comparing the measuring device with HACH DR 890 Colorimeter turbid meter gauge. The characteristic equation obtained is counted into five equations to get a small error value, where v1 = -0.0036k1 + 4.0834, v2 = -0.0024k2 + 3.9351, v3 = -0.003k3 + 4.1777, v4 = -0.0033k4 + 4.3355, v5 = -0.0034k5 + 4.4315, the five equations have different measurement ranges. The result of data measurement are displayed on the LCD 16 x 2 character and the personal computer (PC) with the Delphi.7 interface program. The advantages of personal computer (PC) interface are the data measurement result could monitor and stroge in excel and database format. The results of the measuring instrument show a difference of 1 NTU to 15 NTU with the largest deviation is ± 28.7 and a standard deviation of ± 4.57 in the range of 31 NTU to 510 NTU
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9

David, David. "Kendali Logika Fuzzy Pada Robot Line Follower." Creative Information Technology Journal 3, no. 1 (January 12, 2016): 15. http://dx.doi.org/10.24076/citec.2015v3i1.62.

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Анотація:
Pada Penelitian ini, dirakit dan dikodekan program sebuah robot line follower menggunakan sensor cahaya. Logika fuzzy digunakan sebagai kendali dalam mengidentifikasi kecepatan robot agar dapat bergerak dan berjalan sesuai dengan jalur/garis pita berwarna hitam. Metode yang digunakan adalah metode Mindstorms dengan robot line follower berbasiskan microcontroller seri ATMega16. Metode ini adalah metode sederhana yang terdiri dari empat tahapan yaitu mencari ide untuk robot, membangun robot, memprogram robot dan dokumentasi. Pemrograman robot dengan menggunakan bahasa pemrograman BASCOM AVR digunakan untuk mendapatkan program yang bekerja terbaik. Pengujian dilakukan terhadap penggunaan sensor, motor DC dan ketelitian gerak line follower. Robot line follower yang dibuat dengan menggunakan microcontroller ATMega16 dapat melakukan scanning jalur pita berwarna hitam dan laju pergerakan berdasarkan kendali logika fuzzy.In this study, assembled and coded program a line follower robot using a light sensor. Fuzzy logic is used as a control in order to identify the speed of the robot can move and run in accordance with the path / line black ribbon. The method used is a method Mindstorms robot line follower based microcontroller ATmega16 series. This method is a simple method that consists of four stages, namely looking for ideas for robots, building robots, robot programming and documentation. Programming robots using BASCOM AVR programming language used to get a program that works best. Tests conducted on the use of sensors, DC motors and precision motion line follower. Line follower robot created using ATmega16 microcontroller can scan a black ribbon path and rate of movement is based on fuzzy logic control.
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10

Dong, Zeng Shou, Yue Jun Hao, Ren Wang Song, and Jian Chao Zeng. "Wireless Data Acquisition Module Design Based on ATmega16." Applied Mechanics and Materials 48-49 (February 2011): 1363–67. http://dx.doi.org/10.4028/www.scientific.net/amm.48-49.1363.

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This paper designs a failure signal remote collection terminal based on engineering mechanical hydraulic system. The terminal takes ATmega16 microcontroller as control core, using BenQ M22A module for GPRS wireless transmission. It overcomes region and time limit of engineering machinery and monitors engineering machinery's running status at any real-time, provides the basis for engineering machinery's breakdown service.
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11

Raj, S. Naga Mallik, and S. Neeraja. "BLUETOOTH BASED HOME ROBOTIZATION BY USING ATmega16 MICROCONTROLLER." International Journal of Smart Home 12, no. 1 (April 30, 2018): 13–20. http://dx.doi.org/10.21742/ijsh.2018.12.1.03.

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12

Sharma, Karan, Kunal Mandil, and Nancy Gupta. "POWER SAVER STREET LIGHTING USING MICROCONTROLLER USING ATmega16." International Journal of Engineering Technologies and Management Research 5, no. 2 (April 30, 2020): 107–13. http://dx.doi.org/10.29121/ijetmr.v5.i2.2018.630.

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Street lights remain illuminated for whole nights and most of them used for lighting-up of highways are high energy consumption lamps. Preservation and sustainable use of energy and resources is an important factor of planning and development these days as Natural resources are depleting day by day, which pose a risk of scarcity and non-availability of the same for our presidenting generations. There is an acute need for devising a well thought out plan to prevent wastage of electricity. Perhaps, the government should think of implementing automatic street light control systems using LDR (light dependent resistor). This review paper illustrates the street light illumination system automated by the movement (frequency) of vehicles on that particular street. The crux of this paper is to emancipate the necessity and usage of street light control systems which combines various technologies is Timers, Photodiodes, Light Emitting Diodes (LED), and IR Sensors.
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13

Al Kautsar, Hanggoro Aji, Sujiliani Heristian, Rachmat Adi Purnama, Agus Tri Purnomo, and Ehon Abdulmanan. "Pembuatan Alat Pencuci Kaki Otomatis Berbasis Mikrokontroler AtMega16." Jurnal Teknik Komputer 5, no. 1 (February 6, 2019): 1–6. http://dx.doi.org/10.31294/jtk.v5i1.4518.

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Prayer is an obligation that must not be abandoned except because of aging or obstruction that is justified by religious law, such as; women who have menstruation or postpartum. The person who leaves the prayer without a reason that is justified in the shari'ah of the law is an infidel. One of the conditions of prayer is in a holy and clean condition, but researchers can see the condition of a prayer house or mosque, the condition of the lower floor is dirty because many people pass by stepping on the floor of the lower terrace with the condition of using shoes. There is also a new one from the bathroom with no feet who then stepped on the floor. Stepping on a dirty floor will cause doubts. To cancel these doubts, it is better for researchers to maintain proper ablution conditions. Therefore, researchers made Automatic Foot Washers with Pear Sensors Based on Atmega Microcontroller 16. PIR (Pasive Infra Read) is one tool that can be used as a sensor to detect human presence which is then developed into an automatic footwashing device. And with the addition of an automatic door, the pilgrims will be orderly to wash their feet before entering the mosque. As well as the drying fan that the researcher added after the doorstop will make the pilgrim's feet dry immediately before stepping on the prayer area at the mosque.
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14

Alfianto, Indra, Trias Andromeda, and Munawar Agus Riyadi. "PERANCANGAN SYNCHRONOUS POWER CONVERTER TIPE BUCK BERBASIS ATMEGA16." TRANSIENT 6, no. 3 (November 9, 2017): 432. http://dx.doi.org/10.14710/transient.6.3.432-439.

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Анотація:
Ciri khas pada elektronika daya adalah efisiensi, penggunaan regulator linear dengan berdasarkan prinsip pembagi tegangan atau pembagi arus dinilai sudah tidak efisien karena banyaknya daya yang terdisipasi menjadi panas. Untuk meminimalisir daya yang terdisipasi menjadi panas, maka penggunaan regulator linear dihindari dan digantikan dengan switching regulator/MOSFET. Aplikasi penggantian dioda menjadi MOSFET merupakan dasar dari MOSFET sinkronisasi karena MOSFET sinkronisasi memiliki rugi konduksi yang lebih rendah dari dioda. Penelitian ini akan memapaparkan kinerja efisiensi dan rugi konduksi pada MOSFET sinkronisasi serta pengaruh penggunaan MOSFET sinkronisasi untuk menggantikan fungsi dioda pada topologi buck converter standard, besarnya efisiensi dan rugi konduksi pada dioda dibandingkan dan dianalisa.Hasil pengujian menunjukkan bahwa pada duty cycle 20%-80% efisiensi MOSFET sinkronisasi lebih besar dari diode pada beban 48Ω dan duty cycle 30%-60% pada beban 60Ω, efisiensi maksimal yang dapat dicapai yaitu 96%. Pengujian variasi deadtime menunjukkan bahwa pada duty cycle 10%, deadtime terbesar memiliki efisiensi tertinggi yaitu 49,98%, pada duty cycle 50% ketiga variasi cenderung mempunyai nilai efisiensi yang sama yaitu berkisar antara 85%-86%, dan pada duty cycle 80%.
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15

Husni, Khairiati, Wildian Wildian, and Meqorry Yusfi. "Rancang Bangun Shaking Water Bath Berbasis Mikrokontroler ATmega16." Jurnal Fisika Unand 6, no. 1 (January 5, 2017): 9–16. http://dx.doi.org/10.25077/jfu.6.1.9-16.2017.

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Анотація:
Shaking water bath berbasis mikrokontroler ATmega16 telah dirancang-bangun. Shaking water bath terdiri dari alat shaking dan water bath. Water bath digunakan untuk memanaskan sampel dalam air pada suatu temperatur konstan. Air dipanaskan oleh elemen pemanas dan temperaturnya diindera oleh sensor temperatur LM35. Temperatur air dipertahankan sesuai dengan rentang yang diinginkan. Elemen pemanas dikendalikan dalam modus on-off dengan menghidup-matikan relai. Alat shaking water bath menggunakan motor mesin cuci 220 V untuk menguncang-guncang (shaking). Laju motor diatur secara manual dengan sebuah potensiometer pada rangkaian pengendali. Nilai temperatur air dan lama waktu pemanasan yang diinginkan dimasukan melalui keypad dan ditampilkan pada LCD. Uji akhir alat memperlihatkan bahwa alat ini mampu mengendalikan temperatur air yang diinginkan dalam lebarrentang (span) optimal sebesar 10 C. Alat mampu beroperasi paling lama sekitar 30 menit sebelum motor mengalami kelebihan panas yang menyebabkan putarannya melambat. Kata kunci: shaking water bath, modus on-off, LM35, mikrokontroler
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16

Gupta, Ashutosh. "A New Revolutionary Infrared Life Detection System Using ATMega168." International Journal of Embedded Systems and Applications 2, no. 3 (September 30, 2012): 117–22. http://dx.doi.org/10.5121/ijesa.2012.2313.

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17

Acakpovi, Amevi, Quist-Aphetsi Kester, and Koudjo Mawuefam Koumadi. "Semi-Automatic Car Anti-Theft Design using ATMega168 Microcontroller." International Journal of Computer Applications 63, no. 20 (February 15, 2013): 41–46. http://dx.doi.org/10.5120/10586-5765.

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18

Pratama, Donny, and Subali Subali. "PEMROGRAMAN SISTEM PENGAMAN RUMAH OTOMATIS YANG TERHUBUNG DENGAN TELEPON SELULER BERBASIS MIKROKONTROLER ATMEGA8 DAN ATMEGA162." Gema Teknologi 17, no. 1 (October 1, 2012): 37. http://dx.doi.org/10.14710/gt.v17i1.8915.

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Анотація:
Donny Pratama, Subali, in paper programming of auto home security system connected to mobile phone based on microcontroller ATMEGA8 and ATMEGA162 explain that in modernization era, almost all using automation tools, both in industrial, office, especially at home. Especially with the advance of age more unemployment also exist. With so many unemployed crime was more rampant. Therefore, the security of the home and its contents is very necessary for every homeowner. Especially when the house in a discharged condition or homeowners are doing activities outside the home. Home security system that uses a microcontroller-based mobile phone as a medium of information is a tool that is needed in every home. Where this system in any room in the home will attach several sensors are used to monitor the condition of the house. The sensors used include PIR sensor (Passive Infra - Red) to detect motion, gas sensors to detect a gas leak and also uses a temperature sensor to determine the temperature of the room. All these sensors are programmed according to the function of each tool. And as a basic programming language used compiler (Bascom) to support the work of all the sensors. For sensor work will then be processed by a microcontroller which will then be sent the information to a cell phone via a modem homeowners. Keyword : home security systems, mobile telephone, microcontroller, ATMEGA8, ATMega162
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19

Rismawati, Rismawati, and Muhammad Sadli. "Desain Data Logger Sensor Suhu Berbasis Mikrokontroler ATMega16 dengan Empat Kanal Input." Jurnal Litek : Jurnal Listrik Telekomunikasi Elektronika 17, no. 1 (March 28, 2020): 19. http://dx.doi.org/10.30811/litek.v17i1.1705.

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Анотація:
Penelitian ini bertujuan untuk merancang dan membuat sistem data logger sensor suhu berbasis mikrokontroler ATMega16 dengan empat kanal input. Rangkaian dibangun menggunakan mikrokontroler ATMega16 yang dilengkapi dengan empat sensor suhu LM35, sebuah LCD sebagai penampil data, dan sebuah modul USB sebagai pengirim data dari modul mikrokontroler ke komputer. Sistem data logger ini dapat menyimpan data hasil pengukuran secara real time setiap detik, dengan format text document (*.txt) dan Microsoft excel (*.xls). Tahapan eksperimen mulai dari perancangan, pembuatan, sampai pengujian sistem Data Logger. Informasi data suhu ditampilkan pada LCD dalam derajat celsius, dan grafik ditampilkan pada layar monitor komputer. Dari hasil pengujian yang dilakukan, sensor suhu LM35 dapat mengukur suhu dari 0°C sampai dengan 100°C, dengan akurasi pembacaan suhu sebesar 99,49%.
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20

Azwar, Azwar. "SISTEM KONTROL ROBOT INDUSTRI BERBASIS ATMEGA 16L." Simtek : jurnal sistem informasi dan teknik komputer 4, no. 1 (April 8, 2019): 1–5. http://dx.doi.org/10.51876/simtek.v4i1.39.

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Анотація:
Pembuatan sistem robot pembantu kerja manusia dengan menggunakan mikrokontroller merupakan sebuah kemajuan di bidang teknologi, dengan adanya mikrokontroller maka kecerdasan tiruan dapat diaplikasikan dengan sistem robot yang memiliki fungsi untuk membantu kerja manusia. Namun pada kenyataannya masih banyak industri yang masih menggunakan tenaga manusia sebagai tenaga kerja untuk melakukan pekerjaan yang sangat beresiko, untuk itu dibuatlah rancangan prototype robot industry Berbasis Mikrokontroler ATMega16L untuk mempermudah kerja manusia yang beresiko tinggi. Sistem terdiri atas perangkat keras dan perangkat lunak. Perangkat keras terdiri atas mikrokontroler ATMega16L, rangkaian penerjemah motor DC IC L298, sistem mekanik lengan robot dengan komposisi mekanika gear. Perangkat lunak mikrokontroler dalam penelitian ini diprogram dengan menggunakan bahasa C. Sedangkan untuk sistem pengendalinya dilakukan dengan program yang telah di input ke mikrokontroller. Perangkat ini diuji dengan menggunakan pengujian white box testing. Hasil pengujian menunjukkan penggunaan ATmega 16L sebagai Mikrokontroller Robot dapat diimplemetasikan walaupun disegi mekanik masih kurang maksimal.
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21

SUSANA, RATNA, ANGGA NUGRAHA, and DECY NATALIANA. "Perancangan dan Realisasi Web-Based Data Logging System menggunakan ATmega16 melalui Hypertext Transfer Protocol (HTTP)." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 3, no. 1 (January 1, 2015): 1. http://dx.doi.org/10.26760/elkomika.v3i1.1.

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ABSTRAKHypertext Transfer Protocol (HTTP) merupakan protokol jaringan pada lapisan aplikasi TCP/IP yang menjadi dasar komunikasi pada World Wide Web (WWW). Penelitian ini merancang dan merealisasikan web-based data logging system yang bertujuan untuk memperkenalkan aturan HTTP, sehingga perangkat elektronik dapat berkomunikasi dengan website secara langsung. Sistem dirancang dengan dua sub sistem utama yaitu website data logger dan website. Data logger direalisasikan menggunakan ATMega16 yang diintegrasikan dengan sumber data analog dan digital, RTC serta modem GSM. Data logger berfungsi sebagai pengirim data, sedangkan website berfungsi sebagai pengatur, penerima, pengolah dan penyaji data. Sistem ini telah berhasil melakukan komunikasi antara data logger dengan website melalui HTTP, artinya protokol ini dapat diimplementasikan pada data logger yang menggunakan ATmega16. Perubahan data analog dan status logika 0 dan 1 dari data digital yang terjadi pada data logger dapat dilihat pada tampilan di website.Kata kunci: basis data, data logger, Hypertext Transfer Protocol (HTTP), website, protokol jaringan.ABSTRACTHypertext Transfer Protocol (HTTP) is an application layer network protocols in TCP/IP is the basis of communication on the World Wide Web (WWW). This research was to design and realize a web-based data logging system that aims to introduce the rules of HTTP, so that electronic devices could communicate with the website directly. The system was designed with two main sub-system, namely data logger and website. The data logger was realized using ATmega16 are integrated with analog and digital data sources, RTC and a GSM modem. Data logger function as the sender of data, while the website functions as regulator, receiver, processing and presenter data. This system had been successfully perform communication between the data logger to a website via HTTP, meaning that this protocol could be implemented on a data logger that uses ATmega16. Website could receive and process the data transmitted by the data logger and organize system entities. Changes in analog data and status logic 0 and 1 of digital data could be seen on display at the website.Keywords: database, data logger, Hypertext Transfer Protocol (HTTP), network protocol, website.
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22

Astharini, Dwi, Rona Regen, Nasrullah Nasrullah, Ibrahim Ibrahim, and Surya Agam. "Perancangan Robot Pengikut Garis Sederhana Sebagai Perangkat Pelatihan Tingkat Pemula." JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI 1, no. 2 (October 3, 2011): 42. http://dx.doi.org/10.36722/sst.v1i2.25.

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<p>Tulisan ini melaporkan perancangan robot sederhana pengikut garis. Dalam hal ini hasil rancangan akan digunakan sebagai perangkat pelatihan siswa sekolah menengah, sehingga rancangan dibatasi pada fungsi minimumnya agar pembuatan dapat dilakukan secara <em>in house</em>. Perangkat keras dibangun menggunakan photodioda dan LED IR pada sistem sensor, ATMega16 sebagai pengendali utama dan PCB buatan sendiri.</p><p>Design of a simple line follower robot is reported in this paper. In order to meet the needs on training for school student, the design is restricted to have just the minimum function so that the implementation can be done in house. The hardware built utilizes photodiodes and IR LED as sensor system, ATMega16 as main controller and manually made PCB.</p>
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23

An, Min, Jie Sun, and Yin Yang Zhang. "Research of Ultrasonic Thickness Measurement Method Based on the Pulse Reflection Type." Applied Mechanics and Materials 380-384 (August 2013): 798–801. http://dx.doi.org/10.4028/www.scientific.net/amm.380-384.798.

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The thickness measurement and monitoring of all kinds of equipment and parts, especially making general investigations on the thickness of boiler, pressure vessel and pipelines regularly, monitoring their thinning after corrosion in the process of using, and ensuring the safety production have attracted more and more attention among the companies. Based on the thickness measurement principle of pulse reflection type ultrasonic, the measurement method of the steel plate thickness was studied, and AVR Atmega16 single chip microcomputer as control chip was used. The analysis and comparison of ultrasonic transmitting circuit, receiving circuit, amplifying circuit, LCD display circuit, keyboard circuit, communication circuit, counter 232 AVR Atmega16 line were also included. The performance of this system regarding the steel plate as sample was tested, and then the data and the causes of measurement error were presented.
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24

Rath, Arun Kumar, Gurdev Sahoo, Gayatri Dash, Sachin Tiwari, and Satish Singh. "Solar Tracker Design for PV System using Microcontroller ATmega16." International Journal of Scientific and Engineering Research 7, no. 4 (April 25, 2016): 905–8. http://dx.doi.org/10.14299/ijser.2016.04.004.

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25

Supriyadi, Agus, and Jamaaluddin Jamaaluddin. "Analisa Efisiensi Penjejak Sinar Matahari Dengan Menggunakan Kontrol ATMEGA16." JEEE-U (Journal of Electrical and Electronic Engineering-UMSIDA) 2, no. 1 (April 26, 2018): 8–15. http://dx.doi.org/10.21070/jeee-u.v2i1.1172.

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Solar cells known so far still have many shortcomings in terms of Mounting and positioning against the sun, so the performance of solar cells in Battery charging is not maximal. There fore additional tools are required As a support for the solar cell to work optimally, and the electric current Is generated larger. Sunlight tracking with LDR system as As the sensor to direct to the sunlight rays will be compared With a passive system. Atmega16 as motor control and auto carger, LDR As a recipient of sunlight, DC motor as a direction player Sunlight. Solar cell is used with a capacity of 20 WP.And auto carger system using microcontroller is more cost-efficient and installation. After the two systems will be compared first in order Know the difference how much power generated by solar system Cell using a tracker and a passive one. Data retrieval will be Implemented for one week with sytem tracker and one week with Passive system. With the results of data to be in can be analyzed system comparison And known how much efficiency. Expected with a solar tracker system Cell can increase battery charging faster than with Passive position.
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26

ARNOLD, Krzysztof. "Możliwości pomiaru niskich temperatur z wykorzystaniem oscylatora RC mikrokontrolera ATmega16A." PRZEGLĄD ELEKTROTECHNICZNY 1, no. 11 (November 5, 2017): 105–8. http://dx.doi.org/10.15199/48.2017.11.22.

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27

Cheng, Yue. "Design of Control System for Automotive CVT Based on ATmega164P MCU." Advanced Materials Research 479-481 (February 2012): 1897–900. http://dx.doi.org/10.4028/www.scientific.net/amr.479-481.1897.

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Control system and some functional circuits of automotive CVT (Continuously Variable Transmission) based on ATmega164P single chip computer were introduced in this paper. Hydraulic system of the CVT was controlled according to the throttle position signal, oil pressure, rotating speed of the engine and transmission output speed etc. This system has achieved the clamping force control of the metal belt.
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28

Fahmi, Muhammad, Budi Santoso, Maisyaroh Maisyaroh, Agus Sunandar, and Ilham Wahyudi. "Prototipe Alat Simulasi Taman Pintar Dengan Pengontrol Bluetooth HC-05 Berbasis Mikrokontroller." BINA INSANI ICT JOURNAL 7, no. 2 (December 28, 2020): 177. http://dx.doi.org/10.51211/biict.v7i2.1427.

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Abstrak: Pengontrol Taman Pintar dibuat untuk memudahkan aktivitas bertanam sehari-hari, aktivitas ini biasanya dilakukan secara manual yang tentu saja membuat orang kadang malas atau mempunyai kesibukan untuk melakukan aktivitas menyiram tanaman, menyalakan lampu, membuka gerbang taman. Bagi orang-orang yang memiliki rutinitas kesibukan yang padat akan sangat susah untuk mengurus taman sendiri dirumah, sehingga dengan membuat alat simulasi taman pintar menggunakan pengontrol Bluetooth HC-05 berbasis mikrokontroler dapat mempermudah para pemilik taman dirumah yang tidak memiliki banyak waktu luang untuk dapat menyiram taman, menyalakan lampu taman, membuka gerbang taman hanya dengan mengontrol melalui Bluetooth di smartphone android miliknya. Alat yang dibuat ini memakai komponen elektronik yaitu, Atmega16, Bluetooth HC-05, Motor Servo, dan Relay. Komponen-komponen elektronik tersebut digunakan untuk mendukung sistem otomatis yang akan dibuat. Alat ini memiliki kelebihan dapat mengontrol penyiraman tanaman, membuka gerbang atau pintu taman, menyalakan lampu taman hanya dengan mengontrol melalui smartphone android tanpa harus memerlukan tenaga yang banyak. Kata kunci: atmega16, bluetooth hc-05, motor servo, relay. Abstract: Smart Park controllers are made to facilitate daily farming activities, this activity is usually done manually which of course makes people sometimes lazy or have a busy life doing activities to water plants, turn on lights, open garden gates. For people who have a busy routine, it will be very difficult to manage their own garden at home, so making a smart garden simulation tool using a microcontroller-based Bluetooth HC-05 controller can make it easier for garden owners at home who don't have much free time to be able to water the garden. , turn on the garden light, open the garden gate by simply controlling via Bluetooth on his android smartphone. This tool is made using electronic components, namely, Atmega16, Bluetooth HC-05, Servo Motor, and Relay. These electronic components are used to support the automatic system to be created. This tool has the advantage of being able to control plant watering, open garden gates or doors turn on garden lights by simply controlling via an Android smartphone without requiring a lot of energy. Keywords: atmega16, bluetooth hc-05, motor servo, relay.
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Sun, Qian, Feng Yi Guo, Bin Li, Fei Yin, and Peng Xu. "Design of Mining Portable Static Resistance Strain Gauge Based on ATmega16L." Advanced Materials Research 383-390 (November 2011): 5917–22. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.5917.

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Mining portable static resistance strain gauge based on ATmega16L is introduced in this paper. It is used to monitor stress of bolt support in coal mines. The strain gauge is high-precision, simple and Chinese-displaying. It offers a more portable testing method of bolt support in coal mines for the workers.
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30

Sawita, I. Kadek Agus Sara, I. Wayan Supardi, and I. Gusti Agung Putra Adnyana. "Alat Monitoring Suhu Melalui Aplikasi Android Menggunakan Sensor LM35 dan Modul SIM800L Berbasis Mikrokontroler ATMega16." BULETIN FISIKA 18, no. 2 (October 26, 2017): 58. http://dx.doi.org/10.24843/bf.2017.v18.i02.p03.

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It has been successfully designed a temperature monitoring instrument through android application using LM35 sensor and SIM800L module based on ATMega16 microcontroller. The temperature is measured using a LM35 sensor which produces a voltage and sent to ADC. Microcontroller ATMega16 is using as the main processor of this monitoring instrument to calculate the program, so that analog data in the form of input voltage are converted into digital data form a measurable temperature. The measurable temperature is sent and saved in the database on the server computer using the SIM800L module so it can be displayed on the website. The website pages are accessed with android programs that installed on the smartphone so that measurable temperature data can be monitored using a smartphone. The measurable temperature results can be displayed on a 2x16-character LCD in the instrument designed. Compatibility of monitoring instrument with comparison instrument is 99,97 %.
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31

Hu, Gui Hua, Jun Ming Xu, Ji Jun Zhou, and Xiaoping Hu. "Design of Li-Ion Battery Management System Based on Atmega16." Applied Mechanics and Materials 263-266 (December 2012): 335–38. http://dx.doi.org/10.4028/www.scientific.net/amm.263-266.335.

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Due to the negative effect of li-ion battery monomer inconsistent performance in electric bicycle, a low-cost intelligent li-ion BMS (battery management system) is designed based on atmega16. Multi-channel analog switch and differential amplifier are used for multi-channel data acquisition, and the equalization circuit is used for the balance of each single cell. The results show that the design can realize the intelligent management of li-ion battery.
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32

Fei, Ji You, Hua Li, and Bin Gao. "Based on the Single Chip Microcomputer Atmega168 Robot Control System Design." Applied Mechanics and Materials 341-342 (July 2013): 700–703. http://dx.doi.org/10.4028/www.scientific.net/amm.341-342.700.

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based on the single chip microcomputer atmega168 robot control system design This paper introduces using micro controller, many sensors, such as ultrasonic distance measuring sensor, infrared range sensor, infrared obstacle avoidance sensor, and also using motor driving module and dc motor design a robot which can operate independently, The robot can detect its own attitude, obstacles, competition venues edge automatically, then according to signal which the sensor feedback to micro controller controlling the motor produce pushing or avoid action. In the design of the robot, we using the sensor redundancy design positioning obstacles in front of robot, we take full advantage of the proximity detector features in order to make the robot highly efficient and stable operation. The robot in the experiment operating in good condition, and it has reference significance for robot design.
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33

Surya Merta, I. Gede, I. Gusti Agung Widagda, and Ida Bagus Alit Paramarta. "Perancangan Alat Ukur Kadar Alkohol Menggunakan Sensor Mq-3 Berbasis Mikrokontroler Atmega16." BULETIN FISIKA 18, no. 2 (September 24, 2017): 74. http://dx.doi.org/10.24843/bf.2017.v18.i02.p06.

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It has been successfully designed an alcohol levels measuring instrument using MQ-3 sensor. The detected alcohol levels processed to be displayed on GUI Visual Basic 6.0 through several circuits, the sensor circuit, the Atmega16 microcontroller minimum system, 5V voltage regulator circuits, CH340 serial communication module and GUI Visual Basic 6.0. The entire circuit is powered by 5VDC regulator circuit. The measurement range of this instrument measures alcohol level in the range 0% to 70%, the levels measured by the instrument will be classified according to the regulations sets by Indonesian government. The instrument works by employing the characteristics of the MQ-3 sensor which has proportional voltage change with alcohol levels that is detected. The Atmega16 circuit is the main unit for data processing, the microcontroller performs the analog to digital data conversion and estimates this digital data into matching alcohol levels. Alcohol content data that processed is displayed on the GUI Visual Basic 6.0 through serial communication module CH340. Detected alcohol levels by this instrument compared with the alcohol levels of sample is match by 99.57%.
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34

Febriansyah, Aan, Muslim Fathillah, and Nurdin Nurdin. "Petunjuk Waktu Untuk Tuna Netra Dengan Output Suara." Manutech : Jurnal Teknologi Manufaktur 10, no. 02 (May 17, 2019): 1–7. http://dx.doi.org/10.33504/manutech.v10i02.60.

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Nowaday time indicator as hour and calendar constitutes necessary for thing a lot of person to trip routines. In general, the clock and the calendar can only be seen by normal people. People with special needs, its example is blind will have difficulty in using the clock and the calendar Get bearing with that problem, therefore to help that blind is designed and made by time indicator tool with voice output. Generally, the tool's instructions when using RTC DS1307, is microcontroller ATmega16 and ISD 25 120. Information about hour, minute, date, month, and year obtained from DS1307 RTC is accessed using microcontroller ATmega16, then from the data when the information obtained is matched in the voice storage unit on ISD25120. As a results,will be obtained time information data such as voice. Besides, time setting, alarm, battery level indicator, and charge the battery with the sound as well is the tool is equipped permanently. Finally, this tool can help the blind people to be more independent in making it easier to tell the time in living day-to-day activities.
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35

Wang, Xiao Li. "Counter System Design According to ATmega16L-8PC on the Machine Production Line." Applied Mechanics and Materials 58-60 (June 2011): 680–84. http://dx.doi.org/10.4028/www.scientific.net/amm.58-60.680.

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Along with electronics technique of development rapidly, SCM has become essential tool to the development of modern electronic technology. This paper introduces the core of ATmega16L-8PC microcontroller, and the MAX485 with low-power transceiver for the system of products counting on the production line system. The system is highly integrated, strongly stable and low power consumption, very convenient use and maintenance, with high Cost effective and practical value.
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36

Aryanto, Didik, Ernawati Saptaningrum, and Wijayanto Wijayanto. "Rancang Bangun Viskosimeter Fluida Metode Bola Jatuh Bebas Berbasis Mikrokontroler ATMEGA16." Jurnal Fisika dan Aplikasinya 8, no. 2 (June 14, 2012): 120208. http://dx.doi.org/10.12962/j24604682.v8i2.872.

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37

Prayudi, Muhammad Arif, Edy Victor Haryanto Sianturi, Iwan Fitrianto Rahmad, and Khairul Ummi. "Perancangan Robot Line Follower Pemisah Benda Berdasarkan Warna Berbasis Mikrokontroler ATMega16." Creative Information Technology Journal 1, no. 3 (April 2, 2015): 183. http://dx.doi.org/10.24076/citec.2014v1i3.20.

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Line Follower Robot adalah sebuah robot otomatis yang dapat mengikuti garis yang dibuat dengan menggunakan bahan yang berwarna gelap (hitam) yang didukung oleh rangkain komponen elektronika yang dilengkapi dengan roda dan digerakan oleh motor. Pengendalian kecepatan sangat bergantung pada bata putaran dan pergesekan antara ban robot dengan lantainya. Robot tersebut dirancang untuk bernavigasi dan bergerak secara otomatis mengikuti sebuah alur garis yang dibuat. Untuk membaca garis, robot dilengkapi dengan sensor optik yang diletakkan diujung depan dari robot tersebut. Line Follower Robot ini memiliki jenis dan bentuk serta memiliki beberapa sistem penggerak dan pengendali sebagai pengatur kinerja yang beraneka ragam sesuai dengan kreatifita pembuatnya. Pada perancangan proyek line follower robot kali ini akan dibahas tentang pemisah warna benda dan dianalisi lebih dalam terhadap faktor suatu kecepatan robot dengan gerakan motor yang dikontrol oleh pengendali Prorportional Integral Derivative (PID) sehingga gerakan robot dapat dinamis sesuai dengan track yang akan diujikan.Line Follower Robot is an automated robot that can follow a line that is made using a dark -colored material (black) which is supported by a chain of electronics components are equipped with wheels and is moved by a motor. Speed control is very dependent on the brick and the friction between the tire rotation robot with the floor. The robot is designed to navigate and move automatically in response to a flow line made . To read the line, the robot is equipped with an optical sensor that is placed in front of the tip of the robot. Line Follower Robot has the type and shape and have some drive and control system as a regulator of diverse performance in accordance with the maker's creativity. In designing the project time line follower robot will be discussed on the object color separator and analyzed over a factor in the speed of movement of the robot with a motor that is controlled by the controller Proportional Integral Derivative (PID) so that the robot can move dynamical in accordance with a track that will be tested.
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38

SUSANA, RATNA, DECY NATALIANA, and UMMI ATIAH. "Sistem Monitoring Pendeteksi Kebocoran LPG berbasis Mikrokontroller ATmega16 menggunakan RF APC220." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 3, no. 2 (July 1, 2015): 191. http://dx.doi.org/10.26760/elkomika.v3i2.191.

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ABSTRAKPenggunaan LPG sebagai bahan bakar alternatif pengganti bahan bakar minyak dirasakan lebih efektif dan praktis. Namun kandungan senyawa di dalamnya memiliki efek yang negatif jika menguap di udara bebas. Sistem detektor gas LPG dapat menjadi salah satu solusi untuk mengetahui lebih dini terjadinya kebocoran gas. Implementasi sistem detektor gas LPG pada penelitian ini berupa sistem monitoring nirkabel yang dilengkapi alarm sebagai indikasi jika terjadi kebocoran gas. Sistem terdiri dari bagian Remote Controller dan Master Controller. Remote Controller menggunakan mikrokontroler ATMega16 yang terintegrasi dengan sensor MQ5, LCD dan transceiver RF APC220. Sedangkan Master Controller berupa komputer (PC) yang dapat menampilkan kondisi ruangan yang dideteksi oleh bagian Remote Controller. Sistem berhasil mendeteksi gas LPG dan menampilkan kadar konsentrasinya dalam rentang 200 sampai dengan 1000 ppm. Ketika kadar konsentrasi gas mencapai 5000 ppm, alarm aktif secara otomatis dan memberikan status waspada. Pengiriman data secara nirkabel dengan adanya sejumlah penghalang berhasil dilakukan sampai jarak 200 m.Kata kunci: Sistem Monitoring, Remote Controller, Master Controller, LPG, RF APC220 ABSTRACTThe use of LPG as a fuel alternative to fossil fuels may be more effective and practical. Neverfluless its compound has a negative effect if it evaporates to the air. LPG gas detector system may be one solution to determine the early occurrence of gas leak. The detector system implementation in this study was a wireless monitoring system that had alarm to indicate if there was the gas leak. The system consisted of the Remote Controller and the Master Controller. Remote Controller used ATmega16 microcontroller integrated with MQ5 sensor, LCD and RF transceiver APC220. While the Master Controller in the form of a computer (PC) that could display a room condition was detected by the Remote Controller section. LPG gas system successfully detected and displayed the levels of concentration in 200 up to 1000 range ppm. When the concentration of gas reached 5000 ppm, the alarm activated automatically and provided alert status. The wirelless sending data with a number of barriers was carried out successfully up to a distance of 200 m.Keywords: Monitoring System, Remote Controller, Master Controller, LPG, RF APC220
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39

Ge, Yue Tao, Xiao Ming Liu, and Xiao Tong Yin. "Hardware Design of Automotive Parking Heater Remoter and Receiver." Applied Mechanics and Materials 599-601 (August 2014): 326–31. http://dx.doi.org/10.4028/www.scientific.net/amm.599-601.326.

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In order to achieve 600 meters radio frequency communication and 2-10 meters serial cable communication between remote controller and parking heater, the paper designed the hardware of remote controller and vehicle receivers. Select CC1100 as radio frequency chip, select PIC16F914, ATmega16L as remote control and receiver SPI control chip, select CE8301, LM117 as remote control and receiver power supply module. Finally, the circuit diagram of the receiver and remoter are designed.
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40

Dewi, Ratih Kusuma, and Arkhan Subari. "RANCANG BANGUN APLIKASI PENGUKURAN TINGGI BADAN, BERAT BADAN, SUHU TUBUH, DAN TEKANAN DARAH BERBASIS MIKTROKONTROLER ATMEGA16." Gema Teknologi 17, no. 1 (October 1, 2012): 43. http://dx.doi.org/10.14710/gt.v17i1.8916.

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Анотація:
Ratih Kusuma Dewi, Arkhan Subari, in paper design and application of measurement stature , body weight , body temperature , and pressure based miktrokontroler atmega16 explain that now almost all uses of automation , both in the world of health . Equipment needed is the automation of the measurement tool capable of measuring several variables simply using a tool . The tool consists of ultrasonic sensors as a means of height measurement , the sensor strain guage as a means of weight measurement , LM35 temperature sensor as a means mengkuran body temperature , as well as a combination of MPX5100DP pressure sensors , motor driver , relay driver , as well as a mini compressor pressure gauge blood . The method used in the manufacture and testing of the tool by comparing the output of this tool with measuring devices in the market . The measurement results will be issued in the form of LCD , Voice Processor , and Database . Height measurement tool using these tools has a percentage error of 1.52 % , while for 2.314 % of body weight , body temperature by 1.62% , to pressure systole of 1.41 % , and for the pressure dystole of 0.858 % . Keywords : Ultrasonic Sensor, Strain Guage Sensor, Sensor LM35, MPX 5100DP, Microcontroller ATMega16.
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41

ARNOLD, Krzysztof. "Wpływ niskich temperatur na czas wykonania operacji w systemach pomiarowych z mikrokontrolerem ATmega16A." PRZEGLĄD ELEKTROTECHNICZNY 1, no. 11 (November 5, 2015): 311–14. http://dx.doi.org/10.15199/48.2015.11.71.

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42

Guo, He, and Guo Hua Cao. "Design of Humanoid Robot Control System." Advanced Materials Research 850-851 (December 2013): 397–400. http://dx.doi.org/10.4028/www.scientific.net/amr.850-851.397.

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Анотація:
According to the function requirement of humanoid robot, advance a distributed control system of humanoid robot control system which use AVR (Mega2560) microcontroller as its main computer. The ATmega168 SCM acts as the core chip of the Joint controller, it receives instructions by serial port communicating with the main computer, and output byte signal,which processed by 74HC595 will finally turn into PWM signal and realize the servo control. Experiments show that the proposed control system is stable and feasible.
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43

Paryanta, Paryanta, Robby Rachmatullah, and Yohana Kusuma Kristiani. "Prototipe Robot Pemadam Api Berbasis Mikrokontroler ATMEGA16 dengan Sistem Navigasi Wall Following." Go Infotech: Jurnal Ilmiah STMIK AUB 24, no. 1 (June 10, 2018): 69. http://dx.doi.org/10.36309/goi.v24i1.95.

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Анотація:
<p><em>Perkembangan teknologi komputer dengan tujuan untuk mempermudah pekerjaan manusia mengalami suatu perkembangan, salah satu bentuk teknologi yang mempermudah pekerjaan manusia adalah robot. Dari sekian banyak jenis robot, wall follower yang paling populer. Wall follower dapat dikembangkan menjadi robot pemadam api, yakni sebuah robot yang dapat mengikuti tembok dan memadamkan api yang berasal dari lilin. Pembuatan robot pemadam api dilakukan dengan merakit komponen seperti mikrokontroler atmega 16 sebagai pengendali robot, sensor ultrasonik sebagai pendeteksi halangan berupa tembok, flame sensor sebagai sensor api, dan kipas sebagai pemadam api lilin. Langkah selanjutnya dari pembuatan robot adalah memasukkan program ke dalam mikrokontroler atmega 16 dengan menggunakan bahasa pemrograman arduino. Dengan menggunakan flame sensor yang berfungsi dapat mendeteksi api, mikrokontroler atmega 16 akan memberikan perintah kepada robot untuk berjalan ke arah sumber api, kipas akan bekerja dan memadamkan api lilin. Seluruh perangkat keras dan perangkat lunak dikontrol dan dikendalikan oleh mikrokontroler atmega 16. Dengan diciptakannya robot pemadam api ini akan mempermudah pekerjaan manusia dan menemukan titik api sehingga api tidak menyebar.</em></p>
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44

Ras, Jim, and Albert M. K. Cheng. "A deterministic run-time environment for Ada-05 on the ATmega16 microcontroller." ACM SIGAda Ada Letters 30, no. 3 (November 5, 2010): 13–22. http://dx.doi.org/10.1145/1879097.1879072.

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45

Paryanta, Paryanta, Widyo Ari Utomo, and Deta Wahyu Herlambang. "Perancangan dan Realisasi Pengatur Kadar Garam pada Aquarium Air Laut Berbasis Mikrokontroler ATMEGA16." Go Infotech: Jurnal Ilmiah STMIK AUB 25, no. 1 (June 12, 2019): 35. http://dx.doi.org/10.36309/goi.v25i1.102.

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Анотація:
<p><em>Aquarium sea water is a place to keep the fish that live in sea water. Setting levels of salt in the water is one of the problems that often occur. The intensity of the impact on the salt content of appetite that can lead to stress fish so that the fish will die. This thesis will be made the design and realization of the regulator saline seawater aquarium. The main characteristics of the sensor voltage values salinity is issued is inversely proportional to the value of the water levels are detected. If the salt content the higher the voltage value becomes lower. The sensors used in the form of parallel metal pieces which serves as a detector of the change in resistance. The output of the censor will be the input to the ADC. While calculations using ATmega16 microcontroller and the result is displayed on the LCD. If the value of the salt content of sea water aquarium turned microcontroller ATmega16 control valves salt water and fresh water faucet to stabilize the salinity at a certain value. With this thesis is realized, it is expected to reduce the problems in the maintenance of saltwater fish.</em></p>
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46

Wang, Zheng Hao, Zhong Li Yang, Zhi Liang Yu, and Xue Fan Zheng. "Intelligent and Compositive Protector for Motor Based on AVR Single-Chip Microcomputer." Applied Mechanics and Materials 462-463 (November 2013): 672–77. http://dx.doi.org/10.4028/www.scientific.net/amm.462-463.672.

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Анотація:
A kind of intelligent and compositive motor protector designed by ATMEGA16 single-chip microcomputer was introduced. The product, which has a set of high precision, high sensitivity and reliability, has many functions, such as overload or lightload protection, phase loss, overvoltage or lightvoltage, short circuit, locked rotor, leakage and phase imbalance protection. This product is a perfect substitute to the traditional motor protection devices, which has a good cost performance and broad market prospects.
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47

Tang, Jing Tian, Hong Ying He, and Xin Wu. "Design and Implementation of the System Based on the Mechanical Topology Smart Furniture." Applied Mechanics and Materials 329 (June 2013): 497–502. http://dx.doi.org/10.4028/www.scientific.net/amm.329.497.

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Анотація:
Using microcontroller ATmega16L designed a remote smart home control system based on the wireless network technology. The system contains mechanical equipments such as motor-driven window and curtain and manipulator. The manipulator is to control the on/off state of the valve to the gas tank .The paper presents the main function of the system's components and systems, and a part of the system block diagram as well as some part of the hardware circuit diagram and program. Some subsystem of the smart home system can be used for automatic control in industrial field.
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48

Ardianto, Adibatul. "SISTEM TEKANAN MEKANIK BERBASIS MIKROKONTROLER AT-MEGA 16 UNTUK PEMBUATAN KERUPUK PELOMPONG GUNA MENUNJANG PRODUKSI HOME INDUSTRY BAROKAH DI TUBAN JAWA TIMUR." Elinvo (Electronics, Informatics, and Vocational Education) 2, no. 1 (May 15, 2017): 41–48. http://dx.doi.org/10.21831/elinvo.v2i1.17197.

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Анотація:
Tujuan pembuatan alat ini adalah untuk mendapatkan rancang bangun hardware, program perangkat lunak dan unjuk kerja Sistem tekanan mekanik berbasis mikrokontroler AT-Mega 16 untuk pembuat kerupuk pelompong guna menunjang proses produksi home Industry Barokah di Tuban Jawa Timur.Pembuatan sistem tekanan mekanik berbasis mikrokontroler AT-Mega 16 terdiri dari beberapa tahapan yaitu identifikasi kebutuhan, analisa kebutuhan, blok diagram sistem, perancangan sistem, langkah pembuatan alat, diagram alir program, pengujian alat dan pengambilan data. Pembuatan frame menggunakan besi jenis tabung, siku dan kanal C. Alat ini menggunakan komponen sistem minimum Atmega16, driver motor BTS7960 sebagai pengatur putaran dan kecepatan motor, dongkrak mekanik yang sudah di modifikasi dengan motor DC digunakan sebagai penggerak untuk menekan adonan kerupuk, LCD Displays 16x2 sebagai media penampil yang terdapat perintah kecepatan yang diinginkan, push button berfungsi sebagai pemberi masukan data yang akan diolah pada kontroler ATmega16 lalu akan menggerakan putaran motor DC. Berdasarkan hasil pengujian yang sudah dilakukan, diperoleh hasil bahwa sistem tekanan mekanik berbasis mikrokontroler AT-Mega 16 berfungsi dengan baik dan sesuai dengan kondisi di home industry Barokah, keunggulan sistem ini cukup 1 orang untuk mencetak (membuat) kerupuk pelompong, dibandingnkan dengan alat tradisional yang ada di home industry Barokah untuk mencetak perlu 2 orang untuk mengerjakan, secara efesiensi waktu sistem tekanan mekanik ini lebih cepat dengan selisih rata-rata 3 menit untuk menyelesaikan cetakan per tabung adonan.
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49

Rofiq, Muhammad, and Bambang Tri Wahjo Utomo. "IMPLEMENTASI ALGORITMA ELGAMAL DALAM SISTEM LOCK BRANKAS BERBASIS MIKROKONTROLER ATMEGA16 DAN SMARTPHONE ANDROID." Jurnal Ilmiah Informatika 1, no. 1 (June 9, 2016): 7–16. http://dx.doi.org/10.35316/jimi.v1i1.437.

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Анотація:
Most of Safes lock system is still using conventional methods nowadays. The conventional method leads to the safes’ burglary. Some of the causes are the safes’ code that can be tracked easily and the key can be duplicated. Previous research on safes’ security has ever been done. The weakness of the study is there is no security system using cryptographic algorithms for data security. The development of a safes security system by implementing ElGamal algorithms is done by following the engineering approach with the stages of methods analysis and design system, implementation and testing of the analysis and the discussion of the overall system. In the analysis and design of mathematical models using ElGamal algorithms, uses fast powering theorems and applications design uses Object OrientedProgramming. In the analysis of hardware refers to the datasheet and calculation of the value of electrical characteristics of the circuit. In the safes lock system, the outcome of the research is a safes prototype which is equipped with enhancements that include a series of processing algorithms, the data viewer, a wireless data transfer device, the Android smartphone as a system of user authorization. For the lock safes systems is using a locked solenoid. The control system is done by a lock safes android smartphone via Bluetooth communication. The test results also indicate the system will open the safes if the code and the public key is entered correctly, and the system will not open if one of the codes or the public-keys are wrong or both are wrong.
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50

Harahap, Partaonan, Benny Oktrialdi, and Cholish Cholish. "Perancangan Conveyor Mini untuk Pemilahan Buah Berdasarkan Ukuran yang Dikendalikan oleh Mikrokontroller Atmega16." Prosiding Seminar Nasional Teknoka 3 (December 22, 2018): 37. http://dx.doi.org/10.22236/teknoka.v3i0.2818.

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Анотація:
Berkembang dan bervariasi, untuk memenuhi kebutuhan tersebut industri membutuhkan suatu alat yangdapat mengontrol dan mengendalikan proses permesinan secara otomatis sehingga mempermudah danmenghemat tenaga manusia. sebagian besar industri menerapkan sistem control menggunakanMikrokontroller sebagai alat kontrol kerja produksi, seperti alat conveyor untuk pemilahan buah berdasarkan ukuran yang dikendalikan oleh Mikrokontroller ATMEGA16, dengan menggunakan sensorultrasonic sebagai pengukur ukuran objek dan kombinasi photodioda dan motor servo dapat mendeteksikeberadaan objek lalu dapat mensortirnya. Perancangan conveyor pada penelitian ini menggunakan jenis Belt Conveyor dengan komponen utama roller dari bahan pvc, kerangka dari bahan akrelit, sabuk (Belt) dari bahan lakban, motor dc sebagai penggerak sabuk juga roda gigi (pulley) dan Terdapat 3 buah motor servo yang difungsikan untuk memilah buah jeruk berdasarkan ukuran kecil, sedang, dan besar. Perancangan conveyor yang dilengkapi pemilah benda ini dapat dibuat dengan menggunakan ATMEGA 16 sebagai kontrolernya. Sensor ultrasonic HC-SR04 berfungsi dengan baik untuk mengukur ukuran objek, dan kombinasi photodioda dan motor servo dapat mendeteksi keberadaan objek lalu dapat memilahnya. Kemudian data dicacah oleh mikrokontroller dan ditampilkan pada layar LCD.
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