Abstract: A well telemetry system supplies power to downhole sensor nodes employed for obtaining telemetry data in oil wells. The nodes are held in the cement that lines the well and surround the casing. At the surface, an AC power unit is connected to the casing and geological structure that surrounds the cement. Power to nodes is supplied using an AC resonant circuit that generates standing waves of electrical power on the casing. Power from the standing waves is delivered to the nodes which are located at antinodes of the standing wave. The nodes are held in cement that surround the casing, with one of their two electrodes connected to the casing and the other connected to the cement or to geological structure.

Abstract: A space-based phased antenna array provides one- or two-dimensional beam steering, yet is compact upon launch and does not require gravity to maintain its shape or orientation. An exemplary antenna array includes a central satellite and at least three peripheral satellites. Each peripheral satellite is mechanically connected to the central satellite by an extendible tether. At launch, the tethers are retracted, so the peripheral satellites are close to, or within, the central satellite. Once in position, the central satellite rotates and extends the tethers, thereby deploying the peripheral satellites in a planar radial pattern. Multiple antenna elements, some disposed on each tether, collectively form a planar phased array that can be electronically beam steered in two dimensions. The antenna array may relay signals, such as between local companion satellites or planet-based stations, and earth. Linear versions, with as few as two tethered satellites, are beam steerable in one dimension.

Abstract: A space-based phased antenna array provides one- or two-dimensional beam steering, yet is compact upon launch and does not require gravity to maintain its shape or orientation. An exemplary antenna array includes a central satellite and at least three peripheral satellites. Each peripheral satellite is mechanically connected to the central satellite by an extendible tether. At launch, the tethers are retracted, so the peripheral satellites are close to, or within, the central satellite. Once in position, the central satellite rotates and extends the tethers, thereby deploying the peripheral satellites in a planar radial pattern. Multiple antenna elements, some disposed on each tether, collectively form a planar phased array that can be electronically beam steered in two dimensions. The antenna array may relay signals, such as between local companion satellites or planet-based stations, and earth. Linear versions, with as few as two tethered satellites, are beam steerable in one dimension.

Abstract: A space-based phased antenna array provides one- or two-dimensional beam steering, yet is compact upon launch and does not require gravity to maintain its shape or orientation. An exemplary antenna array includes a central satellite and at least three peripheral satellites. Each peripheral satellite is mechanically connected to the central satellite by an extendible tether. At launch, the tethers are retracted, so the peripheral satellites are close to, or within, the central satellite. Once in position, the central satellite rotates and extends the tethers, thereby deploying the peripheral satellites in a planar radial pattern. Multiple antenna elements, some disposed on each tether, collectively form a planar phased array that can be electronically beam steered in two dimensions. The antenna array may relay signals, such as between local companion satellites or planet-based stations, and earth. Linear versions, with as few as two tethered satellites, are beam steerable in one dimension.

Abstract: A well telemetry system supplies power to downhole sensor nodes employed for obtaining telemetry data in oil wells. The nodes are held in the cement that lines the well and surround the casing. At the surface, an AC power unit is connected to the casing and geological structure that surrounds the cement. Power to nodes is supplied using an AC resonant circuit that generates standing waves of electrical power on the casing. Power from the standing waves is delivered to the nodes which are located at antinodes of the standing wave. The nodes are held in cement that surround the casing, with one of their two electrodes connected to the casing and the other connected to the cement or to geological structure.