In an electronic device, plural circuit boards are plugged into respective connectors, or sockets, in a common backplane circuit board. The backplane maintains the flat circuit boards in fixed relation to one another. Each circuit board is provided with a respective optical transmitter and/or receiver to allow for the transmission of (typically digital) information via a high speed carrier in a light beam through unobstructed free space between the circuit boards. The circuit boards may also be provided with optical splitters and/or combiners as well as apertures to permit light signals to pass through the board's substrate to allow for communication between plural circuit boards. The circuit boards may further include small lenses and/or opaque elements to provide an optical path having selected physical characteristics. The light signals are transmitted through free space between the circuit boards in the connection of a circuit board in the electronic device is determined by the alignment of its optical transmitter and/or receiver to make the connection. With each circuit board typically "locked" into place in the backplane by means of latches, each circuit board is sized and configured so that when in position, the receivers and transmitters of the circuit boards are aligned so as to define a common signal path. Each circuit board is designed to determine in which slot in the backplane it has been inserted to permit the circuit boards to be used in a daisy-chain approach, allowing any circuit board to communicate with any other circuit board.