PowerPoint Presentation

[Virtual Presenter] We are delighted to present this brief overview of Microcontrollers. They have become increasingly important in automation and control embedded systems data acquisition and processing communication and prototyping and development. We believe that Microcontrollers are a powerful tool that can help businesses and individuals achieve their goals in a variety of fields..

[Audio] Our presentation focuses on the topic of microcontrollers. A microcontroller is a compact integrated circuit that serves as the brain of an embedded system. It contains a processor memory and input/output (I/O) peripherals on a single chip. This makes it an ideal solution for controlling a specific operation in an embedded system. Whether you are designing a robot a medical device or a home automation system a microcontroller can help you achieve your goals..

[Audio] Microcontrollers are versatile and suitable for a wide range of applications from consumer electronics to industrial automation. They are cost-effective and accessible for both hobbyists and manufacturers facilitating the creation of cost-efficient products and solutions. Microcontrollers come with user-friendly development tools and extensive libraries which simplify the programming and integration process. For example platforms like Arduino provide a simplified environment that lowers the barrier to entry for beginners. Additionally microcontrollers have low power consumption which is crucial for battery-powered devices and energy-efficient applications. They integrate a variety of functions into a single chip which reduces the need for additional components and saves space making them ideal for small embedded systems..

[Audio] Microcontrollers are essential for automation and control in various applications. They provide precise control and can execute complex algorithms for managing different operations. In embedded systems microcontrollers serve as the brain of the device handling specific functions like data acquisition processing and communication. They facilitate communication between different components or systems using various protocols which is vital for networked systems remote monitoring and IoT applications..

WHAT NEXT???????????.

ARDUINO.

[Audio] Our electronics platform is designed to make it easier for non-engineers and beginners to build interactive electronic projects. Our boards consist of a microcontroller digital and analog input/output pins USB connection for programming and a power supply. These boards can be connected to various sensors actuators and other components to create a wide range of electronic projects. Our community is made up of a large group of makers hobbyists and professionals and there are numerous online resources forums and tutorials available to help you get started. Additionally there are many shields and modules available that can be used to extend the functionality of your Arduino board. We use the Arduino Integrated Development Environment (I-D-E--) to write and upload code to the board. The programming language is a simplified version of C/C plus plus with a lot of built-in libraries to facilitate coding. With Arduino anyone can create interactive electronic projects from simple light up circuits to complex robots..

[Audio] Arduino was conceived in 2005 by a team of researchers at the Interaction Design Institute Ivrea in Italy. The goal of the project was to create a low-cost easy-to-use platform for students and non-engineers to learn about electronics and programming. The first Arduino board known as the Arduino Serial was released in 2005. It used the ATmega8 microcontroller and was designed to be easy to use with a simple programming interface. In 2007 the Arduino Diecimila was released which was an improvement on the original design and featured an ATmega168 microcontroller and a more user-friendly layout. Arduino grew rapidly in popularity due to its ease of use and the growing maker movement. The introduction of the Arduino Uno in 2010 became a standard for many users and Arduino boards became widely adopted in education hobby projects and prototyping. In 2013 the Arduino Foundation was established to support and develop the Arduino platform. It aimed to enhance the open-source nature of the project and ensure its sustainability. Arduino has continued to evolve with new boards and components being introduced. Innovations include more powerful microcontrollers wireless communication capabilities and advanced sensors. Arduino’s ecosystem has expanded to include platforms like Arduino Cloud for IoT applications. Today Arduino is widely used in educational settings for teaching electronics and programming. It is also used in professional prototyping and product development. Arduino has had a significant impact on the D-I-Y electronics world fostering a community of creators and innovators. Its emphasis on simplicity and openness has made it a valuable tool for both beginners and advanced users..

[Audio] 1. The Arduino Uno microcontroller board utilizes an ATmega328P microcontroller and operates on a voltage of 5 volts. 2. It features 14 digital I/O pins 6 of which provide pulse-width modulation (P-W-M--) output and 6 analog input pins. 3. The board's current consumption is 20 milliampere for the I/O pins and 50 milliampere for the 3.3 volts pin. 4. The Arduino Uno has 32 kilobytes of flash memory with 0.5 kilobytes used by the bootloader and 2 kilobytes of S-R-A-M and 1 kilobytes of EEPROM for data storage. 5. The clock speed of the board is 16 MHz and it supports U-S-B Type-B connections. 6. The dimensions of the board are 68.6 millimeters x 53.4 millimeters..

[Audio] The microcontroller's operating voltage input voltage number of digital and analog I/O pins current consumption memory capabilities clock speed and U-S-B connectivity have been included. The dimensions of the microcontroller have also been provided..

[Audio] The Atmel sam3x8e microcontroller is designed for a variety of uses. It features a 32-bit A-R-M Cortex-M3 microcontroller with a recommended operating voltage of 3.3V although it can operate on input voltages ranging from 7 to 12 volts via the V-I-N pin. The microcontroller has 54 digital I/O pins 12 of which provide pulse-width modulation (P-W-M--) output and 12 analog input pins 2 analog output pins (D-A-C--) and 3.3 volts pins limited to 3.3 milliampere. It also includes 512 kilobytes of flash memory but no S-R-A-M or EEPROM. The clock speed is 84 MHz and it has a U-S-B Type-B connection. It measures 102 millimeters x 25.5 millimeters making it a versatile and convenient option for a range of applications..

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[Audio] We recommend the ATmega32U4 microcontroller for any project due to its versatile features. This microcontroller has an operating voltage of 5 volts and an input voltage of 7-12V making it perfect for handling a wide range of power requirements. With 20 digital I/O pins including 7 P-W-M output pins this microcontroller provides precise control over digital signals. Additionally it features 12 analog input pins providing accurate measurement of AC and DC currents. The microcontroller has a DC current per I/O pin of 40 milliampere and a DC current for the 3.3 volts pin of 50 mA making it suitable for a wide range of power requirements. It also has 32 kilobytes of flash memory and 4 kilobytes of S-R-A-M providing ample storage for your project's data and program. The microcontroller has 1 kilobytes of EEPROM making it easy to store and retrieve data from non-volatile memory. With a clock speed of 16 MHz this microcontroller is designed to handle demanding projects. It also features a micro-USB connection making it easy to program and debug your projects. The dimensions of the microcontroller are 68.6 millimeters x 53.4 millimeters making it a compact and space-efficient choice for any project..

[Audio] Arduino is an open-source hardware platform that enables the creation of interactive objects robots and electronic devices. It offers several models such as Uno Mega Leonardo Nano Processor 16 MHz 84 MHz 16 MHz 32 kilobytes Flash 2kb Sram 1 Eeprom 512 kilobytes Flash 96kb Sram 256 kilobytes Flash 8kb Sram 4kb Eeprom 32 kilobytes Flash 2.5kb Sram 1 Eeprom Digital 10 14 54 54 20 14 Analog VO 6 Input 16 Input 16 Input 12 Input 8 Input Operating Voltage 3.3 volts..

[Audio] We are excited to introduce Arduino a comprehensive framework designed to simplify and empower the creation of interactive electronic projects. Arduino consists of two main components: Arduino boards and the Arduino I-D-E development environment. Arduino boards are physical boards equipped with microcontrollers that serve as the foundation for interactive electronic projects. They vary in size processing power and input/output options making them suitable for a wide range of projects. Examples include the Arduino Uno Nano Mega and Due. The Arduino I-D-E is the development environment used to write compile and upload code to Arduino boards. It is a free software that supports a simplified version of C/C plus plus and provides a user-friendly interface for programming. With the Arduino I-D-E users can easily develop test and deploy their interactive electronic projects..

[Audio] Shields are add-on boards that provide additional functionality to microcontrollers. They can be used to add wireless communication motor control or G-P-S capabilities to your project. Shields are designed to be easy to use and can be connected to your microcontroller through standard interfaces. Modules on the other hand are smaller individual components that can be connected to your microcontroller to extend its capabilities. They are designed to be modular and can be easily integrated into your project. Discussed the integration of Arduino Cloud into our IoT projects. Arduino Cloud is a platform for building and managing Internet of Things (IoT) projects. It enables remote monitoring control and data visualization of Arduino-based systems. With Arduino Cloud you can easily manage your IoT projects from anywhere at any time. Finally discussed the support and collaboration available within the Arduino community. The Arduino community is vast with forums tutorials and project examples available online. This collaborative environment supports learning and innovation offering guidance and inspiration. Whether you're just starting out or an experienced Arduino user there's always something new to learn and explore within the Arduino community..

THANK YOU.