Relevant bibliographies by topics / Microcontroller boards

Academic literature on the topic 'Microcontroller boards'

Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Microcontroller boards"

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Abdrakhmanov, V. Kh, R. B. Salikhov, and S. A. Popov. "Experience of Using EasyEDA to Develop Training Boards on the PIC16f887 Microcontroller." Journal of Physics: Conference Series 2096, no. 1 (November 1, 2021): 012098. http://dx.doi.org/10.1088/1742-6596/2096/1/012098.

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Abstract A brief overview of computer-aided design (CAD) systems widely used in Russia is presented, and the main requirements for tracing PCB boards are given. The main features of the actively developing cloud CAD system EasyEDA are shown, and the expediency of its use is justified. The idea of creating low-cost electronic training boards based on the PIC16F887 microcontroller for studying the basics of microprocessor technology is presented. Electronic training boards demonstrate all the capabilities of the microcontroller – the operation of the I/O ports, serial port, analog-to-digital converter( ADC), with a two-line liquid crystal display (LCD), with temperature sensors, with a DC motor, with a stepper motor, etc. The experience of developing a budget electronic training boards based on a PIC microcontroller in EasyEDA, which can be used to study the programming of microcontrollers, is shown. Shown are the possibilities of using the jlcpcb.com service to order PCB boards in the largest PCB prototyping enterprise in China, called JLCPCB.
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Myers, Sharon A., Troy D. Cognata, and Hugh Gotts. "FTIR analysis of printed-circuit board residue." Proceedings, annual meeting, Electron Microscopy Society of America 54 (August 11, 1996): 264–65. http://dx.doi.org/10.1017/s0424820100163782.

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Logic boards were failing at Enhanced Mac Minus One (EMMO) test or Integrated Circuit Test (ICT) after printed circuit board (PCB) rework. The failure to boot was originally traced to a suspected bad microcontroller chip. Replacing this chip, or an oscillator tied to the microcontroller circuit, did not consistently solve the boot problem. With further testing, it was found the microcontroller circuit was very sensitive to resistance and was essentially shorted.A resistor in the microcontroller circuit was identified on the flip side of the PCB. Several areas on the board, including the resistor R161, were seen to have a slight white haze/ low gloss appearance on the surface of the PCB. To test if the residue was electrically conductive, five boards were selected whose sole failure was R161. The resistance of the individual resistors was measured with a digital multimeter (DMM). The resistor was then cleaned with isopropyl alcohol and a cotton swab. Each board was retested at ICT and the individual resistors measured again with a DMM. Cleaning the area surrounding the resistor with isopropyl alcohol, corrected the failure four of the times.
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El-Mahlawy, Mohamed H., Sherif Hussein, and Gouda I. Mohamed. "New Hybrid-Based Self-Test Strategy for Faulty Modules of Complex Microcontroller Systems." Electronics ETF 22, no. 2 (September 19, 2019): 59. http://dx.doi.org/10.7251/els1822059e.

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In this paper, a new hybrid test strategy, called hybrid-based self-test (HYBST), is presented to test complex digital circuits such as microcontrollers. This test strategy integrates the signature multi-mode hardware-based self-test (SM-BST) with the software-based self-test (SBST). In this test strategy, the microcontroller is divided into a number of main modules, and then test subroutines are used to functionally test each module, based on its instruction set architecture (ISA). The ISA is used to generate test subroutines that represent test pattern generators (TPGs) and part of the test controller. The SMHBST represents the other part of the test controller and the test response compaction (TRC). The experimental results illustrate the superiority of the HYBST in the memory utilization, test application time, testing of internal modules of the microcontroller, and testing of general-purpose input-output (GPIO) pins of the microcontroller. In addition, an integrated test solution for fault diagnosis of the circuit boards including random logic integrated circuits (ICs) and microcontroller chips is presented to indicate a real practical test strategy.
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Moharkar, Krunal A. "Review on Different Microcontroller Boards Used in IoT." International Journal for Research in Applied Science and Engineering Technology 10, no. 1 (January 31, 2022): 234–42. http://dx.doi.org/10.22214/ijraset.2022.39778.

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Abstract: Today’s technology has been evolved into stand-alone systems which can do all necessary processes by themselves without any additional hardware. Advance microcontrollers have become microcomputers that are also known as single board computers. These systems take their power from powerful microcontrollers. These microcontrollers have many integrated circuits on board so they can achieve many different processes by themselves. They are being used in many applications from powerful industrial devices to simple home appliances. In today’s market, there are many different microcontrollers with different structure and capabilities. Therefore, understanding the concepts related to the microcontrollers is really important for choosing the best hardware. This paper presents the main concepts of microcontrollers and reveals the basis of their structure. Their components and abilities have been discussed and a comparison of well-known single board computers has been given. Keywords: Microcontrollers, Integrated Circuits, Arduino UNO, Raspberry PI, BeagleBone Black, ESP8266.
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Zhang, Cai Rong, Guo Liang Liu, and Bin Wei. "Design and Implementation of Electronic Bus Stop Boards System Based on Wireless Communication Module." Applied Mechanics and Materials 651-653 (September 2014): 2441–44. http://dx.doi.org/10.4028/www.scientific.net/amm.651-653.2441.

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To the convenience of passenger travel, a kind of electronic bus stop boards system is discussed in this paper, which can be considered as intelligent equipment based on wireless communication technology. The combination between short-range wireless and long-distance communication module, together with the microcontroller composes the electronic bus stop boards system. The electronic bus stop boards system indicates the number of stations away from passengers’ station board on different nearest buses, current time and real-time humiture. The test results showed that the system could realize short-range and long-distance communication function and display the necessary information. With the advantages of high reliability and efficiency at low cost, the electronic bus stop boards system has more practical popularized value to replace traditional intelligent station boards with GPS and GPRS by cheap wireless communication module.
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Mabbott, Gary A. "Teaching Electronics and Laboratory Automation Using Microcontroller Boards." Journal of Chemical Education 91, no. 9 (July 21, 2014): 1458–63. http://dx.doi.org/10.1021/ed4006216.

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Schubert, Thomas W., Alessandro D’Ausilio, and Rosario Canto. "Using Arduino microcontroller boards to measure response latencies." Behavior Research Methods 45, no. 4 (April 13, 2013): 1332–46. http://dx.doi.org/10.3758/s13428-013-0336-z.

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Talanov, M. V., and V. M. Talanov. "Software and hardware solution for digital signal processing algorithms testing." E3S Web of Conferences 124 (2019): 03006. http://dx.doi.org/10.1051/e3sconf/201912403006.

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The article describes the microprocessor system for various digital signal processing algorithms testing. The development of electric drive control systems is carried out with the usage of modeling systems such as, MATLAB/Simulink. Modern digital control systems are based on specialized digital signal microcontrollers. The present market offers evaluation boards, for example STM32F4DISCOVERY, which enables to connect a microcontroller to a personal computer. It makes possible to use the microcontroller as a part of the mathematical model of the control system. However, the designing of the control system simulation model and the program for the microprocessor is carried out in different programming environments. Thus, the software and hardware solution for testing programs for the microprocessor, which is a part of the control system, is relevant. This article deals with the designing of the modeling method in which the prototype program for the microprocessor is debugged as a part of the electric drive control system simulation model.
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Nugmanova, S. A., and М. Erbolat. "TEACHING STUDENTS TO WTHE USE OF MICROCOMPUTER IN TEACHING STUDENTS." BULLETIN Series of Physics & Mathematical Sciences 69, no. 1 (March 10, 2020): 387–97. http://dx.doi.org/10.51889/2020-1.1728-7901.70.

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This article discusses the prerequisites for using the Arduino Uno brand of hardware and software, which are necessary when creating simple automation and robotics systems for non-professional users in teaching the basics of microcontroller robotics. The article discusses the capabilities of the Arduino hardware computing platform as applied to mechatronic complexes. A functional description and technical specifications are given using the Arduino UNO board as an example. A comparative analysis of the hardware of the most relevant boards has been compiled. The prospects for the use of the Arduino microprocessor platform for training and design in the field of physical process control are determined. The article compares various microcontrollers Arduino, Raspberry Pi, Lego Mindstroms. based on the analysis, it is concluded that Lego Mindstroms microcontrollers are the most convenient for teaching younger students, and for teaching middle and high school students - Arduino microcontrollers. Mindstorms microcontrollers are sold complete with instructions, peripherals, parts, and sensors. Their body protects against damage, and familiar to many children LEGO allows you to create various mechanisms and robots using a visual programming language. This set is easily mastered by primary and secondary school students. High school students can develop programming skills in the integrated Arduino environment.
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Detkova, Anna Vasil'evna. "Module for checking Arduino family boards." Vestnik of Astrakhan State Technical University. Series: Management, computer science and informatics 2023, no. 1 (January 31, 2023): 43–49. http://dx.doi.org/10.24143/2073-5529-2023-1-43-49.

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The article highlights the results of developing an electronic module for testing Arduino boards. The hardware and software platform mentioned is often used for educational purposes to study microcontroller systems and robotic devices. The ability of testing the board before reusing it helps troubleshoot the electronic device. In the course of the study electrical structural and circuit diagrams of the module were developed, and a special test program was created. The module implements software and hardware diagnostic methods, which allows testing with high precision and ensuring the necessary reliability of robotic devices developed on its basis. To create a diagnostic module there were identified the nodes of the Arduino hardware-software platform with a high failure rate, an input-output line check node, an ADC and power system check node, an EEPROM check node and a power supply with a fuse. A practical value of the development lies in the fact that the test program is loaded directly into the microcontroller of the tested board allowing to quickly and accurately test I / O lines with a high failure rate. Nowadays, there are no such devices for diagnosing malfunctions of the Arduino hardware and software platforms. Using the Arduino software and hardware platform in educational processes opens the new opportunities for both students and schoolchildren. Projects implemented in secondary professional technical institutions motivate students to acquire new knowledge, develop interest in technology, programming and design, develop logical and algorithmic thinking.
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Dissertations / Theses on the topic "Microcontroller boards"

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Demín, Martin. "Development Board for 32-bit Microcontroller Atmel AT91SAM9261." Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2009. http://www.nusl.cz/ntk/nusl-236649.

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Vestavený hardware je velice populární v této době. Proto jsme se rozhodli vytvořit desku s mikrokontrolérem AT91SAM9261 spolu so standartným a nestandartným hardwarem. Standartným, běžným by se dal nazvat port LAN alebo audio vstup-výstup. Nestandartným, špecialním by mohl být obvod FPGA firmy Xilinx o velikosti 200k. Toto dovoluje využít zažízení v oblastech, kde výpočetní síla obyčejnýho CPU již není dostačující.
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Bertuzzi, Alberto. "Microcontroller based flow control for spacecraft electric propulsion." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018.

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Balasubramanian, Radhika. "PIC Microcontroller Based Smart Inhaler System for Asthma Patients." University of Cincinnati / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1342544475.

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Rakurthi, Aparna. "Development of an Optical Heart Rate Monitor using a Microchip PIC24-microcontroller based development board." University of Cincinnati / OhioLINK, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1335461428.

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O'Brien, Robert Philip. "Embedded System Design for Real-time Monitoring of Solitary Embedded System Design for Real-time Monitoring of Solitary." Scholar Commons, 2015. https://scholarcommons.usf.edu/etd/5546.

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Alzheimer's disease and other forms of dementia cause cognitive disabilities in the afflicted person. As a result, the person with dementia often requires assistance from a primary caregiver. However, while the caregiver is away from the home they are unaware of the person's status and may not be able to find out without returning to the home due to dementia's effects on cognition. In this thesis work, a system of embedded devices is presented which tracks a solitary dementia patient in the home in real-time. The system is composed of three main hardware components. Multiple passive and active sensors are strategically placed to monitor the patient. A number of custom battery-powered embedded systems read the sensors and wirelessly transmit the sensor's values. A central computational node collects the wireless transmissions and analyzes the data. Two algorithms were developed that detect the patient's eating activities and location throughout the home from the sensor data. A web-based user interface was designed that allows a primary caregiver to remotely view the patient's status while away from the home. Numerous trials are performed which test the system's ability to monitor the patient's eating activities and location. The positive results of the trials show that the proposed system is able to detect eating patterns as defined by rules and localize in real-time the patient in the home, accurate to a single quadrant of a room. The proposed embedded system is highly affordable and has two novel features, namely eating detection and patient localization accurate to a single quadrant of any room in the home. Both features use sensors installed in the home and do not require the patient to wear any sensors on their person. The state-of-the-art products currently available are able to localize only to a single room without the patient wearing sensors.
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De, Beer Daniel Nel. "The development of an 8051 micro-controller evaluation and training board." Thesis, Cape Technikon, 1996. http://hdl.handle.net/20.500.11838/1095.

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Thesis MTech(Electrical Engineering)--Cape Technikon, Cape Town, 1996
The development of the 8051 Evaluation and Training Board was in response to fulfill a need to have a training board available for students at the start of a micro-controller course. This board must be used to get hands-on experience in the internal architecture, programming and operation of the controller through the testing of sample programs and exercises. It can act as an example of a practical micro-controller application board, and also as part of, or as an aid in the design and application of own projects. The board had to be cheap enough so that each student can be issued with a personal board for the duration of the course. It had to be adequately selfsufficient to be portable and to operate independent of a host PC. In addition, it had to contain adequate "intelligence" to guide the student in the use of the board: have a quick re-programming turn-around cycle; and it must be possible to use the board for user program testing and debugging. After drawing up an initial set of objectives and investigating the economic viability of similar systems in industry, an outline of the required design was made. This included the selection of suitable communication between the onboard Operating System and a user; the easiest way to load user programs into the board memory; and methods to test and debug this program. All the normal support circuitry required by a micro-controller to accommodate a minimum system for operation was included into a single Field Programmable Gate Array. The execution of the project was therefore divided into three distinct sections, the hardware, the firmware (Programmable Array configuration) and the software. In the design, the harmony between these sections had to be consolidated to yield a successful final product. The simplicity and ergonomics of the operation and application from a user's point of view, had to be accentuated and kept in mind throughout. In a design of the complexity such as this, careful planning and the investigation of various methods of approach were essential. The use of many computer-aided design and other relevant computer packages was incorporated. Interaction between the user and the Operating System on the board was done through a standard 16-character by 1-line LCD Display Module and a 32-key keyboard. The main feature of the Operating System was to enable the inspection and editing of all the memory locations on the micro-processor.
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Andersson, Peter. "Design of a channel board used in an electronic warfare target simulator." Thesis, Linköping University, Department of Electrical Engineering, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-7529.

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A channel board was designed for a DRFM circuit. The DRFM is implemented in a Virtex-4 FPGA from Xilinx. In the future a similar channel board is intended to be used for target echo generation in ELSI which is an electronic warfare simulator at Saab Bofors Dynamics in Linköping.

Besides the DRFM circuit the channel board consists of analog-to-digital converters, digital-to-analog converters, Ethernet plug-in board with a microcontroller, voltage regulators, FPGA configuration memory, voltage amplifiers, current amplifiers, oscillator, buffers/drivers and bus transceivers. The sample rate is 200 MHz and LVDS signalling standard is used between the DRFM circuit and the converters.

The channel board has a JTAG interface which enables in-system programming of the FPGA. This implies that the DRFM can easily be redesigned. An external computer can manage the channel board via Ethernet. Software was developed for the microcontroller on the channel board and for the external computer. The function of the channel board is heavily dependent on the DRFM circuit.

The channel board design resulted in the assembly of a prototype circuit board. Measurements were performed in a lab and the channel board was approved to be integrated in ELSI for further tests.

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Jež, David. "Univerzální vývojová deska pro mikrokontrolery řady Pic18F." Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2009. http://www.nusl.cz/ntk/nusl-236733.

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My work describes design of the universal development board usefull with a various types of microcontrollers and the unified interfaces for the microcontroller's module board. It introduce the design and the interface and list of the Microchip PIC microcontrollers which can be used with development board. It also describes the features of the PIC18F4550 microcontroller and means about an different types of anothers manufactures. There is also describe of the design, creating the schemes of the boards, printed circuit boards and 3D visualization models in my work.
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Колос, М. О. "Дистанційна система для контролю та моніторингу фотоелектричної системи." Thesis, Чернігів, 2020. http://ir.stu.cn.ua/123456789/20545.

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Колос, М. О. Дистанційна система для контролю та моніторингу фотоелектричної системи : магістерська робота : 172 Телекомунікації та радіотехніка / М. О. Колос; керівник роботи Гусев О. О. ; Національний університет «Чернігівська політехніка», кафедра радіотехнічних та вбудованих систем. – Чернігів, 2020. – 61 с.
Дипломна робота присвячена розробці дистанційної системи для контролю та моніторингу фотоелектричної системи. Головним завданням дистанційної системи є швидкий та зручний доступу до панелі моніторингу фотоелектричної системи з можливістю зручно переглядати та зберігати всі можливі вхідні данні з пристрою. В роботі було розроблено електричну структурну схему, електричну принципову схему та зроблений опис цих схем, зроблений розрахунок елементів схеми, розроблена блок схема для програмної частини. До складу пристрою входить мікроконтролер ESP32-WROOM.
The master's thesis is devoted to the development of a remote system for control and monitoring of the photovoltaic system. The main task of the remote system is quick and easy access to the monitoring panel of the photovoltaic system with the ability to conveniently view and store all possible input data from the device. The electric structural scheme, electric schematic scheme and the description of these schemes are made in the work, the calculation of elements of the scheme is made, the block scheme for a software part is developed. The device includes an ESP32-WROOM microcontroller.
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Соловей, В. С. "Система обліку кількості відвідувачів в приміщеннях." Thesis, Чернігів, 2020. http://ir.stu.cn.ua/123456789/20549.

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Соловей, В. С. Система обліку кількості відвідувачів в приміщеннях : магістерська робота : 172 Телекомунікації та радіотехніка / В. С. Соловей; керівник роботи Хоменко М. А. ; Національний університет «Чернігівська політехніка», кафедра радіотехнічних та вбудованих систем. – Чернігів, 2020. – 54 с.
Мета роботи – розробка, проектування, програмування і практична реалізація проекту, яка буде відповідати вхідним параметрам. В дипломному проекті було розроблено схему електричну структурну, схему електричну принципову, схему програми. Було створено друковану плату для схеми електричної принципової. Для вище перерахованих схем були зроблені розрахунки, і описано принцип їх роботи.
The purpose of the work - development, design, programming and practical implementation of the project, which will meet the input parameters. In the diploma project the electric structural scheme, the electric basic scheme, the program scheme were developed. A printed circuit board was created for the electrical circuit diagram. Calculations were made for the above schemes, and the principle of their work is described.
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Books on the topic "Microcontroller boards"

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Bell, William Frederick. The design and testing of a Z80 based microcontroller target board. [S.l: The Author], 1995.

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Linsin, Marc. Arduino Oscilloscope Projects : Microcontroller Board with Advanced Oscilloscope: Arduino uno Features. Independently Published, 2021.

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Gilliland, Matt. The Microcontroller Application Cookbook, Vol 2. with BASIC Stamp 2 Homework Board. Woodglen Press, 2002.

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Reith, A., and O. Feger. MC-Tools for PC Xt/AT Using the Microcontroller SAB80C535: Board HEX-LOAD, Debugger, and OSCI-Programs for Development and Training. Siemens, 1992.

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Book chapters on the topic "Microcontroller boards"

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Vidhyotma and Jaiteg Singh. "Comparative Analysis of Existing Latest Microcontroller Development Boards." In Lecture Notes in Electrical Engineering, 1011–25. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-5802-9_88.

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Verma, Varnita, Piyush Goyal, C. S. Meera, Mukul Kumar Gupta, and Piyush Chauhan. "Virtual Simulation of Regulated Power Supply for Various Microcontroller Boards and Their Peripherals." In Advances in Intelligent Systems and Computing, 627–35. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-8618-3_65.

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Gadre, Dhananjay V., and Sarthak Gupta. "Tiva C Series Microcontroller Breakout Board." In Getting Started with Tiva ARM Cortex M4 Microcontrollers, 53–60. New Delhi: Springer India, 2017. http://dx.doi.org/10.1007/978-81-322-3766-2_5.

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Maki, R. A., and J. J. Leonard. "A microcontroller board for agricultural applications." In Agricultural Engineering, 1359–64. London: CRC Press, 2022. http://dx.doi.org/10.1201/9781003211471-77.

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Cheng, Qian. "Design Method of Experimental Development Board Based on STM32 Microcontroller." In Cyber Security Intelligence and Analytics, 998–1004. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-97874-7_145.

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"Building Your Own Circuit Boards." In Microcontroller Programming, 615–19. CRC Press, 2006. http://dx.doi.org/10.1201/9781420006612.axb.

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Ibrahim, Dogan. "ARM Cortex microcontroller development boards." In Arm-Based Microcontroller Multitasking Projects, 33–45. Elsevier, 2021. http://dx.doi.org/10.1016/b978-0-12-821227-1.00003-7.

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Ibrahim, Dogan. "STM32 Nucleo Development Boards." In ARM-Based microcontroller projects using MBED, 43–49. Elsevier, 2019. http://dx.doi.org/10.1016/b978-0-08-102969-5.00004-5.

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Ibrahim, Dogan. "STM32 Nucleo Expansion Boards." In ARM-Based microcontroller projects using MBED, 405–41. Elsevier, 2019. http://dx.doi.org/10.1016/b978-0-08-102969-5.00017-3.

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Smith, Jack R. "MBasic Compiler and Development Boards." In Programming the PIC Microcontroller with MBASIC, 10–27. Elsevier, 2005. http://dx.doi.org/10.1016/b978-075067946-6/50004-3.

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Conference papers on the topic "Microcontroller boards"

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Turley, Curtis, Maria Alessandra Montironi, and Harry H. Cheng. "Programming Arduino Boards With the C/C++ Interpreter Ch." In ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/detc2015-47837.

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This paper presents the ChArduino package which is designed to control the Atmel AVR microcontroller based Arduino boards through the C/C++ interpreter Ch. Traditionally, Arduino boards are programmed using the official Arduino IDE or lower-level AVR C libraries. These methods require specific cross-compilation tools to compile the code and upload it onto the board. Whenever a change is made to the source code, it needs to be recompiled and uploaded, making application development cumbersome, especially for beginners and as the size of the application grows. The approach presented in this paper is aimed at reducing the effort associated with code compilation, especially in classroom environments where microcontroller programming is first introduced. In fact, when using this method, code is executed in an interpreted manner and every function call is processed separately by the interpreter, thus compilation and uploading are not required to make changes effective. The ChArduino package consists of a library of functions running on a computer and a specialized firmware loaded onto the Arduino board. The firmware on the Arduino board is pre-compiled and the latest version is automatically uploaded at run time, if not already. At power-up, the firmware initializes the board and then waits for a command from the computer. The use of the C/C++ interpreter Ch also makes available line-by-line debugging, numerical analysis, and plotting capabilities. The supported communication protocols between the Arduino board and the computer are serial and Bluetooth. The application code written using this package is completely compatible with the entire spectrum of Arduino boards and can be ported to the Arduino IDE with minimal changes. The applications of the method described in this paper are general but apply especially to the K-12 education field in that the package creates a simple, user-friendly, environment for the absolute beginner to learn the basic principles of mechatronic systems including programming, microcontrollers, and electrical circuits. Lesson plans are being developed to use the ChArduino package in microcontroller introductory courses and the package is currently being introduced for preliminary testing in schools through the UC Davis C-STEM Center.
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Nam, Wonsuk. "DESIGN EDUCATION PLANNING FOR MICROCONTROLLER BOARDS." In 2nd Eurasian Conference on Educational Innovation 2019. International Institute of Knowledge Innovation and Invention Private Limited, 2019. http://dx.doi.org/10.35745/ecei2019v2.091.

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Lita, Adrian Ioan, Daniel Alexandru Visan, Alin Gheorghita Mazare, and Ioan Lita. "Microcontroller based thermal enclosure for electronic boards testing." In 2017 40th International Spring Seminar on Electronics Technology (ISSE). IEEE, 2017. http://dx.doi.org/10.1109/isse.2017.8000940.

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Purahong, Boonchana. "Learning the basics of microcontroller starter kit boards AVR (eSnack)." In 2013 IEEE International Conference on Teaching, Assessment and Learning for Engineering (TALE). IEEE, 2013. http://dx.doi.org/10.1109/tale.2013.6654393.

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Rankovska, Valentina V. "Review of Open-source Microcontroller and Programmable Logic Development Boards." In 2021 XXX International Scientific Conference Electronics (ET). IEEE, 2021. http://dx.doi.org/10.1109/et52713.2021.9580150.

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Nicolae, Petre-Marian, Ileana-Diana Nicolae, and Dan-Gabriel Stănescu. "Using GTEM cells for immunity tests on electronic boards with microcontroller." In 2012 IEEE International Symposium on Electromagnetic Compatibility - EMC 2012. IEEE, 2012. http://dx.doi.org/10.1109/isemc.2012.6351752.

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Abdrakhmanov, Vali Kh, Niaz N. Bikbaev, and Renat B. Salikhov. "Development of low-cost electronic training boards based on universal microcontroller." In 2016 13th International Scientific-Technical Conference on Actual Problems of Electronics Instrument Engineering (APEIE). IEEE, 2016. http://dx.doi.org/10.1109/apeie.2016.7802285.

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Renzi, Adam D., and Wayne W. Walter. "Autonomous Pipe Searching Robots." In 2002 4th International Pipeline Conference. ASMEDC, 2002. http://dx.doi.org/10.1115/ipc2002-27383.

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A pair of autonomous microcontroller-based robots were designed, built, and tested to inspect the inside of an 8 in pipe. The pair consists of a “scout” which travels along the inside of the pipe and scans the surface for holes using an array of touch sensors. Once a hole is found, the “scout” communicates the position of the hole to a second “mule” robot that has an on-board sealant dispensing system. After the scout moves out of the way, the mule moves to the hole location and dispenses sealant to seal the hole. Both robots are controlled by a BASIC Stamp microcontroller and propelled by servomotor driven wheels in response to sensor input. Communication is accomplished using wireless RF transceiver boards. This paper discusses the design, build, and test of these cooperative robots; the problems encountered, and how these problems were solved in order to successfully meet the project requirements of creating a two robot system that could find and simulate the sealing of holes in pipes.
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Gimenez, Nil Llisterri, Felix Freitag, JunKyu Lee, and Hans Vandierendonck. "Comparison of Two Microcontroller Boards for On-Device Model Training in a Keyword Spotting Task." In 2022 11th Mediterranean Conference on Embedded Computing (MECO). IEEE, 2022. http://dx.doi.org/10.1109/meco55406.2022.9797171.

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Kishor, Yugal, and R. N. Patel. "Computational Capability of Low-Cost Microcontroller boards for Controlling Power Electronics Converter: An Experimental Study." In 2021 IEEE Bombay Section Signature Conference (IBSSC). IEEE, 2021. http://dx.doi.org/10.1109/ibssc53889.2021.9673213.

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Reports on the topic "Microcontroller boards"

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Edwards, R. Evaluation of single-board microcontroller suitable for rapid prototyping. Office of Scientific and Technical Information (OSTI), February 1987. http://dx.doi.org/10.2172/6472103.

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