AVR Microcontroller Training in Chandigarh with Certification by TheCoreSystems
Since 2005, The Core Systems has been providing Chandigarh with the best AVR microcontroller training available. For Microcontroller project development and implementation, The Core Systems has created a variety of development modules for AVR as well as other microcontroller platforms such as PIC, ARM, Arduino, Raspberry PI, and others. The Core Systems has also created a number of ISP burning systems that are used for microcontroller code loading.
In the dynamic world of embedded systems, AVR microcontrollers have established themselves as a cornerstone for innovation and development. To harness the full potential of these versatile microcontrollers, enthusiasts, students, and professionals in Chandigarh turn to The Core Systems, a leading company that provides AVR Microcontroller Training. This article sheds light on the invaluable training offered by The Core Systems, giving aspiring engineers and tech enthusiasts the tools they need to excel in the world of embedded systems.
Why AVR Microcontrollers?
AVR microcontrollers, designed by Atmel (now a part of Microchip Technology), are renowned for their efficiency, versatility, and ease of use. These microcontrollers are at the heart of countless electronic devices, from simple appliances to sophisticated gadgets. Learning how to work with AVR microcontrollers opens doors to a myriad of exciting career opportunities and creative projects.
The Core Systems: A Beacon of AVR Training Excellence
The Core Systems, based in Chandigarh, has carved a niche for itself in the field of embedded systems and microcontroller training. With a passionate and experienced team, they provide high-quality AVR Microcontroller Training that is tailored to the unique needs of every learner.
What Sets The Core Systems Apart?
- Expert Instructors: The Core Systems boasts a team of instructors who are not only experienced but also passionate about imparting their knowledge. They are well-versed in AVR microcontroller programming and electronics, ensuring that students receive the most comprehensive training available.
- Hands-On Approach: Theory alone doesn’t cut it in the world of microcontrollers. The Core Systems believes in a hands-on approach, where students work on real-world projects and experiment with AVR microcontrollers. This practical experience is invaluable for building a strong foundation and gaining confidence in working with these microcontrollers.
- Customized Curriculum: The Core Systems understands that every student has different goals and backgrounds. Their training programs are designed to be flexible, allowing students to choose the course that best suits their needs, whether they are beginners or experts looking to sharpen their skills.
- Supportive Learning Environment: The Core Systems creates a supportive and collaborative learning environment, fostering creativity and innovation among its students. The focus is not just on education but on the overall development of individuals.
- Real-World Applications: In addition to theory and practical exercises, The Core Systems emphasizes the practical applications of AVR microcontrollers, ensuring that students leave with skills that are directly transferable to real-world projects.
- Industry-Relevant Training: The Core Systems stays up-to-date with the latest industry trends and technologies. This means that students receive training that is relevant and applicable to the demands of the job market.
Why AVR microcontrollers for Industrial Training in Chandigarh for six weeks and six months?
The Core Systems has created a Special Hardware Development Board for Avr training, which may be used for Avr Microcontroller training and project development.
Atmel created the AVR in 1996 as a modified Harvard design 8-bit / 16bit / 32bit RISC single-chip microcontroller. The AVR was one of the first microcontroller families to employ on-chip flash memory for programme storage, as opposed to One-Time Programmable ROM, EPROM, or EEPROM, which were commonly used by other microcontrollers at the time. Nowadays, a very popular Embedded Systems Platform is known as Arduino is employed. Arduino is built around the well-known Atmega328 and Atmega2560 AVR Controllers.
“The AVR architecture was developed by two students at the Norwegian Institute of Technology (NTH) in Norway, Alf-Egil Bogen and Vegard Wollan.”
Contents of the course:
- The distinction between the MC-51 (CISC) and AVR (RISC) microcontroller families
- The AVR family’s microcontroller’s RISC architecture
- An Overview of Different AVR Mic Microcontrollers ( Atmega8515, ATmega8535, ATmega8, Atmega16 etc.)
- Atmega8515, ATmega8535, ATmega8, ATmega16, and other pin details
- Embedded C programming and several Embedded C compilers
- Techniques and software for burning machine code
- Hardware interface and programming with AVR microcontrollers in embedded c of the following external and on-chip devices:
Led (using PORTS as Output)
- Switch ( Using PORTS as input)
- Relay matrix keyboard (To control Switching of AC devices e.g. Bulb, Fan, Heater, etc.)
- The Stepper Motor (Speed and Direction Control)
- a direct current motor (Speed and Direction Control)
- Avr microcontroller-based LCD display system
- Display with seven segments
- Only one channel Converter from analogue to digital (ADC0804)
- Analog to Digital Converter with Multiple Channels (adc809)
- Analog to Digital Converters
- Serial Real-Time Clock Based on I2C (DS1307)
- Serial communication between the microcontroller and the PC Hardware and software interrupts are used in the programming of two microcontrollers.
- Programming and practical implementation of on-chip timer and counter PWM generating utilising an on-chip PWM generator.
- On-chip Analog Comparator Programming and Practical Implementation
- Programming and practical implementation of an on-chip multichannel analogue to digital converter (Atmega8535, Atmega8, Atmega16) for sensor interfacing.
- Design and testing of AVR family Microcontroller Evaluation Boards using AVR Microcontrollers