I have given some points (2D-coordinates) and want to find the smallest circle, that includes all of this points. The algorithm doesn't have to be very efficient (while it would be nice naturally).
This is the so-called Smallest Enclosing Balls problem (in your case, Smallest Enclosing Circle), a.k.a. Miniball. There are several algorithms and implementations out there for this problem – all of the following are linear-time solutions (i.e., given n balls, they run in O(n) if you consider the dimension d fixed, d=2 in your case):
Note: If you are looking for an algorithm to compute the smallest enclosing sphere of spheres, you will find a C++ implementation in the Computational Geometry Algorithms Library (CGAL). (You do not need to use all of CGAL; simply extract the required header and source files.)