Stepper Motor Controlled by Pic 16F84 Microcontroller
Author(s): Awafung Emmanuel Adie*, Faithpraise Fina, Wilson Ibu and Paul Anyin
Background: Most times in engineering and other fields, engines need to be transformed from one form to another, in circuits and most components we are familiar with, electrical engines, impulses, digital information and etc needs to be changed from one level to another, this is done by a motor, be it in any kind, pending on the desired function. This literature review examines various research that has been done using the PIC 16F84 microcontroller for the control of stepper motors. The PIC 16F84 is a popular choice for stepper motor control applications due to its simplicity, low cost, and ease of programmability.
This review highlights several key control techniques that have been implemented using the PIC 16F84, including full-step mode, half-step mode, closed�loop control with position feedback, and speed control. The peripheral interfacing aspects are also discussed, covering the integration of stepper motor driver circuits, rotary encoders, and user interface components. The firmware development approaches for the PIC 16F84 are explored, demonstrating how researchers have programmed the microcontroller’s digital I/O, timers, and interrupts to precisely control the stepper motor windings and respond to feedback signals. While the PIC 16F84 has proven to be a capable platform for stepper motor control, the review also identifies some limitations, such as the microcontroller’s restricted resources and potential scalability challenges as the complexity of the control system increases. Suggestions for future research include exploring more advanced microcontrollers, integrating the PIC 16F84 with additional hardware, and developing more sophisticated control algorithms to enhance the performance and robustness of the stepper motor control systems.
Conclusion: The CMOS circuit stands as drive circuit between the PIC IC and the stepper motor which provides the precision in advance control methods of designs and production.
View PDF
