Embedded systems using ATmega series#5
Graghical LCD
What you will learn
Learn about the drivers of graphical Lcds and their related programs
Mastering the display of textual, graphical and kinetic information and images on graphical Lcds
Mastering the use of graphical Lcds in order to exchange data and information between the investor and the electronic devices
Help him learn what is happening inside the Microcontrollers because he can display the values and results of the program
Why take this course?
THE COURSE:
When designing an electronic project, it is necessary to present the project information,
whether final results or preliminary measurements or phase tests on graphical LCDs in one of their textual,
graphical or project-specific forms.
this course makes you able to execute and program this stage of design of all kinds for your project with professionally.
Adopts the principle of a successful designer should be familiar with the HARDWARE entity as such his knowledge.
of the programming language.
So, the details of the Microcontrollers' electronic structure teach you how to use them successfully.
Where we begin to explain the structure of the Microcontroller and its components and then explain its programming and use in applications
Simplified and then simulated so that they are well understood and cost you a small part of the exercise to try it yourself.
Finally, you can compile them later and invest them in allocating your project resources.
How the trainee can acquire skills very quickly and at the lowest possible costs:
For the trainee, we have the method of training by using simulation programs. And that's what big companies do in their work.
We can shorten the time of designing and experimenting with electronic circuits and projects by drawing them on the simulation program.
Benefits of simulation software:
1. Shorten time:
We can shorten the time of understanding any terminal in the microcontroller by drawing the electronic circuit on the simulation programs and experimenting with the circuit Then we take the result.
In order to take the desired result, we can easily change the devices connected to the microcontroller and we can reconnect them and also modify the programming of the microcontroller until we reach the correct result.
All this work is virtual without the use of hard devices and without real board.
And we shorten the time of installing the devices and welding or re-disassembling and installing them again and also the time of using a programmer device.
2- Reducing material and financial costs:
You don't need to buy everything you've tried, and you don't need to reprint the board many times.
Just buy accessories last scheme.