Abstract: The optical module of the invention for high-speed bidirectional transceiver consists of a signal receiving unit, a signal transmitting unit, a common receiving-transmitting optical fiber, and a fiber coupling unit. The laser diode and the photodiode are arranged parallel to each other in closely located recesses of the module housing. Such an arrangement makes it possible to shorten distances for guiding lead wires from the terminals of the PC board to the respective terminals of the transmitting and receiving diodes. The laser diode emits a first transmitting laser beam that passes through a microobjective that collimates the beam and directs into onto a full-reflection mirror located inside the module housing. The full-reflection mirror reflects the first transmitting beam at an angle of 90° and transmits it to the end face of an optical fiber through an optical fiber collimator that centers the beam with the fiber core.

Abstract: An electronic system includes a common power bus and a variable load connected to the common power bus. A first power supply output node and a first sense line node of a first power supply are connected to the common power bus. A second power supply output node and a second sense line node of a second power supply are connected to the common power bus. A sense line load adjustment circuit is linked to the common power bus, the first sense line node, and the second sense line node. The sense line load adjustment circuit is configured to generate a mirror voltage that provides a corrected reference voltage at the first sense line node and the second sense line node in the presence of a relatively small variable load.

Abstract: A novel virtual port method and apparatus for use in the communication between multiple nodes in a network system is disclosed. Particularly, the virtual port concept is implemented in a switching unit having a plurality of physical ports. According to the present invention, at least one virtual port can be defined by the user to represent a corresponding number of group of physical ports. In this case, a single virtual port identification can be used by the network manager to identify all the physical ports belonging to a trunking group. By using one virtual port identification address instead of a group of physical port addresses, a tremendous reduction in processing overhead in the network manager can be achieved.

Abstract: A local area network switch which implements packet segmentation and reassembly for cell-based switching on a backplane cell bus. A plurality of packet processing units are each coupled to a backplane cell bus wherein each packet processing unit hosts a plurality of local area network ports. Each packet processing unit is associated with a single packet buffer memory that is shared by the ports associated with the packet processing unit. The segmentation of local area network packets into fixed-size cells facilitates an efficient local area network switch which provides dedicated bandwidth for each of the ports associated with the switch. There is also provision for coupling the local area network ports to communicate with a high-speed network interface.