Abstract: An electron beam controlled semiconductor switch is capable of carrying large currents without being restricted by the space charge limited current condition. The switch includes a block of semiconductor material having ohmic contacts connectable to first and second electrical conductors. Semi-insulating GaAs may be used as the semiconductor material. A shallow donor or acceptor doped layer may be formed at the surface receiving the electron beam for increased band-edge radiation. This recombination radiation ionizes, together with X-rays produced by Bremsstrahlung, the bulk of the semiconductor block to provide relatively high current density and current gain.

Abstract: A light activated semiconductor switch is capable of carrying large currents without requiring continuous illumination of the semiconductor to sustain conduction. The switch includes a block of semiconductor material having ohmic contacts connectable to first and second electrical conductors and a deep acceptor level between conduction and valence bands that may be counterdoped with shallow donors. The source of light used to switch between the ON and OFF states is an electromagnetic radiation device which directs first and second beams onto the block between the ohmic contacts. The first beam causes photo-excitation of electrons form the deep acceptor level into the conduction band to provide initial electrons for conduction between the first and second electrical conductors. The second beam causes electrons from the conduction band and holes from the deep acceptor level to combine, thereby interrupting conduction between the first and second electrical conductors.

Abstract: A communication network and method implementing a star-tree topology utilizes conventional hardward and the CSMA/CD protocol. The network comprises in one embodiment at least two sets of user devices, in turn comprised of at least two user devices, connected through optical connectors and intelligent hubs to one another. Within each set of devices, the devices themselves are connected together by optical connectors through an optical coupler and an intelligent hub.The method according to one embodiment involves the steps of assigning unique addresses to each hub and subhub in the network and of assigning a device address to each user device. The device address need only be different from the addresses of the other devices in the family. The messages are sent from any one station through a passive coupler to all the other stations connected thereto.

Abstract: The disclosure relates to a method for continuously measuring the concentration of water in a gas stream. Several stations are utilized to perform the measuring function and to particularly determine the amount of moisture in the sample gas stream. The gas sample is extracted from a duct and initially condensed at a relatively lower temperature to further extract heavy organic materials. The gas stream is then subjected to a first orifice in a heated oven to measure the gas flow before water vapor has been condensed out. After this measuring step the gas is subjected to an ice bath and a drying column to extract the water vapor from the gas sample. The flow rate dried gas sample is again measured by an orifice in a controlled environment. The molar flow rates can be compared to determine the water concentration of the flue gas.