When playing checkers, you seek to gain an advantage over your opponent by taking his or her pieces and crowning your own. Losing your pieces and allowing your opponent to crown his or her pieces is not desirable, so you avoid doing it.
Board game engines usually revolve around a position evaluation function. For checkers, my first guess would be something like this:
score = number of allies - number of opponents
+ 3 * number of crowned allies - 3 * number of crowned opponents
Given a board, this function will return the score of the board. The higher the score, the better your position. The lower the score, the worse your position.
To make a naive checkers "engine", all you need to do is find the best move given a board position, which is just searching through all immediate legal moves and finding the one that maximizes your score.
Your engine won't think ahead more than one move, but it will be able to play against you somewhat.
The next step would to give your engine the ability to plan ahead, which essentially is predicting your opponent's responses. To do that, just find your opponent's best move (here comes recursion) and subtract it from your score.