Expressions are allowed to have different meanings depending on which context they're evaluated in. The three main contexts are list, scalar, and void, though there exists several subcontexts of scalar context (boolean, string, and numeric being the most important ones).
The comma operator is no exception to this rule. In list context, the comma operator acts as a list concatenation operator, evaluating its operands in list context and combining the resulting lists into a single list. This is likely the context you're familiar with when dealing with the comma operator.
However, in scalar context, the comma operator functions much like the comma operator in C; it evaluates a sequence of expressions and discards their results, except for the rightmost expression which it returns (as a side note, the expressions that are discarded are evaluated in void context, and the expression that's returned is evaluated in scalar context). To learn how each of the perl operators behave in different contexts, I suggest reading perlop.
In order to fully understand context, you have to realize that the outermost operator enforces a context on its operands, whose operators then enforce a context on their operands, and so on (another side note: the outermost expression of a line is always evaluated in void context). So, for example, when the assignment operator is being used with an array or hash variable (beginning with a % or @), the right-hand side of the assignment is consequently evaluated in list context. If the variable is a scalar, however, the right-hand side of the assignment is evaluated in scalar context instead. This is why the comma operators in the assignments below:
@foo = ('cc', '-E', $bar);
$foo = ('cc', '-E', $bar);
act in completely different ways.
For more information on how you can write code that controls or reacts to context, read about the scalar and wantarray operators.