====== Introduction to Digital Systems ======

No matter, whether you have to deal with a programmable logic controller (PLC) of a robot in the future, or if you just want to know how a mobile phone controls a display (or a microcontroller controls a light emitting diode) - the following chapters are indispensable. The knowledge gained can also be transferred to pure application programming in languages like Java or C.

[[Introduction]] \\  
<wrap indent>Or: How to deal with the course? </wrap> \\ \\
0 [[Tools]]  \\  \\
1 [[Boolean Algebra]] \\ 
<wrap indent>Or: 2B + /2B? </wrap> \\ 

2 [[Number Systems]] \\  
<wrap indent>Or: When is 1 + 1 = 1? </wrap> \\ 

3 [[Combinatorial Logic]] \\ 
<wrap indent>Or: A different kind of logic puzzles </wrap> \\ 

4 [[Realization of comb. Logic]] \\ 
<wrap indent>Or: The logic behind the mensa card </wrap> \\ 

5 [[Storage Elements]] \\  
<wrap indent>Or: The short-term memory of a controller </wrap> \\ 

6 [[Sequential Logic]] \\  
<wrap indent>Or: Inside a vending machine </wrap> \\ 

===== Tips for the exam =====

  - [[Tips for the exam]]



===== continuing Links =====

  - [[https://github.com/hneemann/Digital/releases/latest|Digital]]: this tool is used for simulating digital circuits. From Github only the zipfile: Digital.zip is needed.
  - [[https://www.nand2tetris.org/course|From NAND to Tetris]]: A course starting at the same point like this course, but developing a full microcontroller, operating system an game onto it.
  - [[http://elektroniktutor.de/digital1.html|Digital technology on elektroniktutor.de]] and [[http://www.inf-schule.de/|INF-Schule]]: \\  Here you can find further explanations of our chapters on vocational school/gymnasium level in German.