PIC (Programmable Interface Controllers) Microcontrollers Course are widely used in embedded systems, automation, robotics, and many other applications. These microcontrollers are small computers capable of performing tasks like reading input, processing data, and generating output signals.

1. Top Microcontroller Courses
Online-BES
Introduction:
PIC (Programmable Interface
Controllers) Microcontrollers Course are widely
used in embedded systems, automation, robotics,
and many other applications. These
microcontrollers are small computers capable of
performing tasks like reading input, processing
data, and generating output signals. They have
become an essential component of modern-day
devices and systems. Due to their popularity, there
is a growing demand for engineers and hobbyists
who can program and use these microcontrollers.
This PIC Microcontroller Training Certification
Online Course is designed to introduce PIC
microcontrollers and their programming
comprehensively.

2. Learn about Microcontrollers
• With the rise of edge computing and IoT, these MCUs can provide
power and operation within a small space. A knowledge of
microcontroller units allows you to build a career exploring the
farthest reaches of these devices and their operation. EdX.org offers
courses in partnership with leading institutions in the field. You’ll
learn skills related to IoT and edge computing and their components,
allowing you to build a rewarding career in research and innovation.

3. Course Content:
• Introduction to PIC Microcontrollers:
• The first section of the course covers the basics of PIC
microcontrollers, their features, architecture, and programming
model. This section introduces students to the various types of PIC
microcontrollers and their specifications. It also covers the essential
elements of PIC microcontrollers, including their internal memory,
peripherals, and timers. Students will also learn about the
architecture of PIC microcontrollers, including the CPU, registers, and
memory map. The section concludes with an overview of the
programming model of PIC microcontrollers.

4. PIC Microcontroller Interfacing:
• The fourth section of the course covers interfacing PIC
microcontrollers with various devices, such as sensors, actuators,
displays, and communication interfaces (e.g. UART, SPI, I2C). Students
will learn how to connect these devices to PIC microcontrollers and
write programs to control and read data from these devices. The
section covers using standard communication protocols such as UART,
SPI, and I2C and how to use these protocols to communicate with
other devices.

5. PIC Microcontroller Projects:
• The fifth section of the course provides hands-on experience with PIC
microcontroller projects. Students will learn how to develop real-
world projects using PIC microcontrollers, including LED blinking, LCD
interfacing, motor control, and communication with other devices.
They will also learn how to design circuits and develop schematics for
their projects. The section provides a practical application of the
knowledge gained in the previous areas of the course.

6. PIC Microcontroller Debugging and Testing:
• The course’s final section covers techniques for debugging and testing
PIC microcontroller programs. Students will learn to use simulators
and hardware debuggers to debug their programs. They will also learn
how to perform testing and troubleshooting of their programs. The
section concludes with a review of the best practices for debugging
and testing PIC microcontroller programs.

7. Microcontroller Courses and Certifications
• UT Austin offers a three-course series in Embedded Systems. You’ll learn
everything you need to know about MCU and SOC systems, their firmware,
and the different types of operating systems required to build these
devices. If you need to start with the fundamentals, Itmo University offers a
primer in IoT systems with everything you need to know. You’ll discuss IoT’s
beginnings as well as the technical skills, including an intro to the PIC
microcontroller Arduino, you’ll need to implement your designs and work
in the field. MIT offers a practical course on building systems using
microcontrollers in an advanced course. You’ll learn how PID controllers
gave way to state-space controllers due to lower costs. You’ll learn how
new products use this microchip technology to improve performance and
to design your own copper levitated arm.

8. Course Benefits:
• Obtain a thorough understanding of PIC microcontroller
programming, assembly language, and C programming.
• Learn how to interface PIC microcontrollers with various devices and
develop real-world projects.
• Receive a certificate of completion to demonstrate your skills to
potential employers or clients.
• Access to course materials, including lecture notes, code examples,
and project schematics.

9. Conclusion:
• The PIC Microcontroller Training Certification Online Course is an
excellent opportunity for anyone who wants to learn about PIC
microcontrollers and how to program them. By the end of BES course,
you will have the knowledge and skills to develop your PIC
microcontroller projects and apply for jobs requiring proficiency in
embedded systems and microcontroller programming.