Optical wireless communications
First Claim
1. An optical wireless LAN comprising at least one base station and a plurality of terminal stations, the at least one base station comprising an optical transmitter providing a line-of-sight optical downlink to transmit data to a terminal station receiver in each of the plurality of terminal stations,wherein each of the plurality of terminal stations is provided with a terminal station transmitter providing an uplink for transmitting data to a base station receiver in the at least one base station, said uplink comprising at least one of an undirected optical link and a radio link, andwherein the optical transmitter comprises:
- a) an integrated solid state light emitter comprising a two dimensional unit cell array of solid state light sources formed in an emitter layer and superposed on a corresponding two dimensional unit cell array of respective drive circuits formed in a driver layer, each drive circuit for producing a shaped drive signal for the corresponding light source in response to an input logic signal, wherein the surface area of each unit cell of the drive circuit array is less than or equal to the surface area of each unit cell of the light source array, whereby each drive circuit is confined within a region underlying the corresponding light source unit cell; and
b) at least one adaptive optical element positioned in the path of light from the light sources.
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Accused Products
Abstract
An optical wireless local area network using line of sight optical links. The base station and terminal stations are provided with optical transceivers which include a transmitter array and detector array. The transmitter array consists of an array of resonant cavity light emitting diodes integrated using flip-chip technology with a CMOS driver circuit. The driver circuit includes constant bias, current peaking and charge extraction. The driver circuitry is compact and can be confined within a region underlying the corresponding light source. The detector array consists of an array of photo diodes, provided with sense circuitry consisting of a pre-amplifier and post-amplifier. The diodes and sense circuitry are also integrated using a flip-chip technique. The light emitter and the detector may include adaptive optical elements to steer and/or focus the light beams.
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Citations
1 Claim
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1. An optical wireless LAN comprising at least one base station and a plurality of terminal stations, the at least one base station comprising an optical transmitter providing a line-of-sight optical downlink to transmit data to a terminal station receiver in each of the plurality of terminal stations,
wherein each of the plurality of terminal stations is provided with a terminal station transmitter providing an uplink for transmitting data to a base station receiver in the at least one base station, said uplink comprising at least one of an undirected optical link and a radio link, and wherein the optical transmitter comprises: - a) an integrated solid state light emitter comprising a two dimensional unit cell array of solid state light sources formed in an emitter layer and superposed on a corresponding two dimensional unit cell array of respective drive circuits formed in a driver layer, each drive circuit for producing a shaped drive signal for the corresponding light source in response to an input logic signal, wherein the surface area of each unit cell of the drive circuit array is less than or equal to the surface area of each unit cell of the light source array, whereby each drive circuit is confined within a region underlying the corresponding light source unit cell; and
b) at least one adaptive optical element positioned in the path of light from the light sources.
- a) an integrated solid state light emitter comprising a two dimensional unit cell array of solid state light sources formed in an emitter layer and superposed on a corresponding two dimensional unit cell array of respective drive circuits formed in a driver layer, each drive circuit for producing a shaped drive signal for the corresponding light source in response to an input logic signal, wherein the surface area of each unit cell of the drive circuit array is less than or equal to the surface area of each unit cell of the light source array, whereby each drive circuit is confined within a region underlying the corresponding light source unit cell; and
Specification