PDF uses "named" characters, in the sense that a character is a name and not a numeric code. Character "a" has name "a", character "2" has name "two" and the euro sign has name "euro", to give a few examples. PDF defines a few "standard" "base" encodings (named "WinAnsiEncoding", "MacRomanEncoding" and a few more, can't remember exactly), an encoding being a one-to-one correspondence between character names and byte values (yes, only 0 to 255). The exact, normative values for these predefined encodings are in the PDF specification. All these encodings use the ASCII values for the US-ASCII characters, but they differ in higher byte values.
A PDF file may define new encodings by taking a "base" encoding (say, WinAnsiEncoding) and redefining a few bytes, so a PDF author may, for example, define a new encoding named "MySuperbEncoding" as WinAnsiEncoding but with byte value 65 changed to mean character "ntilde" (this definition goes inside the PDF file), and then specifying that some strings in the file use encoding "MySuperbEncoding". In this case, a string containing byte values 65-66-67 would mean characters "ñBC" and not "ABC". And note that I mean characters, nothing to do with glyphs or fonts. Different strings withing the PDF file may use different encodings (this provides a way for using more tan 256 characters in the PDF file, even though every string is defined as a byte sequence, and one byte always corresponds to one character).
So, the answer to your question is: characters within a PDF file can well be encoded internally in an ad-hoc encoding made on the spot for that specific PDF file. PDF parsers should make the appropriate substitutions when necessary. I do not know PDFMiner but I'm surprised that it (being a PDF parser) gives incorrect values, as the specification is very clear on how this must be interpreted. It IS possible to get all the necessary information from the PDF file, but, as Mattias said, it might be a large project and I think a program named PDFMiner should do exactly this kind of job.