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The present invention provides an apparatus and method for free-space optical communication. The apparatus includes a first board with a plurality of optoelectronic converter components mounted on the first board. The apparatus additionally includes at least one optics element optically aligned wit

The present invention provides an apparatus and method for free-space optical communication. The apparatus includes a first board with a plurality of optoelectronic converter components mounted on the first board. The apparatus additionally includes at least one optics element optically aligned with at least one of the optoelectronic converter components, where the optics element is configured to pass light directly between free-space and the plurality of optoelectronic converter components, and electronics coupled to at least one of the plurality of optoelectronic converter component. In one embodiment, communication is achieved by providing electric signals to a plurality of lasers that are mounted on a first board, generating a plurality of optical signals with the plurality of lasers and directing the plurality of optical signals into free-space with a plurality of optics elements.

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What is claimed is: 1. An apparatus for optical communication, comprising: a first board; a plurality of optoelectronic converter components mounted on the first board; at least one optics element optically aligned with at least one of the optoelectronic converter components and configured to pass

What is claimed is: 1. An apparatus for optical communication, comprising: a first board; a plurality of optoelectronic converter components mounted on the first board; at least one optics element optically aligned with at least one of the optoelectronic converter components and configured to pass light directly between free-space and the at least one of the optoelectronic converter components; and electronics coupled to the plurality of optoelectronic converter components for distributing the same signal to each of the optoelectronic converter components such that the plurality of the optoelectronic converter components transmit the same optical signal into free-space; wherein the plurality of optoelectronic converter components generate a plurality of optical signals that are positioned such that their divergence causes them to overlap and combine to sum to provide optical power at a receiver. 2. The apparatus as claimed in claim 1, wherein the electronics are mounted on the first board. 3. The apparatus as claimed in claim 1, further comprising: a second board having the electronics mounted thereon, wherein the second board is positioned to a side of the first board opposite the at least one optics element. 4. The apparatus as claimed in claim 1, further comprising: a plurality of optics elements wherein each one of the plurality of optical elements is optically aligned with one of the plurality of optoelectronic converter components. 5. The apparatus as claimed in claim 4,wherein the plurality of optics elements provide an array of optics elements secured together and fixed in position relative to the plurality of optoelectronic converter components. 6. The apparatus as claimed in claim 1, further comprising: a plurality of electronics, wherein each of the plurality of electronics couples with at least one of the plurality of optoelectronic converter components. 7. The apparatus as claimed in claim 1, wherein at least one of the plurality of optoelectronic converter components comprises a laser for transmitting optical signals into free-space. 8. The apparatus as claimed in claim 1, further comprising an additional plurality of optoelectronic converter components comprising one or more photodiodes for detecting optical signals from free-space. 9. The apparatus as claimed in claim 1, further comprising: a plurality of electronics; each of the plurality of optoelectronic converter components is coupled with at least one of the plurality of electronics, wherein the plurality of optoelectronic converter components are distributed across at least a portion of the first board such that at least two of the plurality of optoelectronic converter components are at equal signal distances from one of the plurality of electronics. 10. A method of optically communicating comprising the steps of: providing the same electric signals to a plurality of lasers that are mounted on a first board; generating a plurality of optical signals with the plurality of lasers in response to the same electric signals; and directing the plurality of optical signals into free-space with at least one optics element optically aligned with at least one of the plurality of lasers and configured to pass the optical signals directly from the at least one laser into free-space with the plurality of optical signals being position such that their divergence causes them to overlap and combine to sum to provide optical power at a receiver. 11. The method as claimed in claim 10, wherein the step of providing comprises the step of: providing electric signals to the plurality of lasers with electrical components that are mounted on the first board and electrically coupled to the plurality of lasers. 12. The method as claimed in claim 10, wherein the step of providing comprises the step of: providing electric signals to the plurality of lasers with electrical components that are mounted on a second board positioned to a side of the first board opposite the at least one optics element and electrically coupled to the plurality of lasers. 13. The method as debited in claim 10, wherein the step of directing including directing the plurality of optical signals into free-space with a plurality of optics element optically aligned with at least one of the plurality of lasers, wherein the plurality of optics elements are configured to pass the plurality of optical signals directly from the plurality of lasers into free-space. 14. The method as claimed in claim 10, wherein the step of providing includes providing electric signals to the plurality of lasers further comprising the step of: communicating the electrical signals over a plurality of equal signal distances on the first board. 15. The method as claimed in claim 10, further comprising the steps of: receiving a receive optical signal from free-space with a receive optics element; directing the receive optical signal directly onto a detector that is mounted on the first board and tat is optically aligned with the receive optics element so that the received optical signal can be passed directly from free-space to the detector; and detecting the receive optical signal with the detector to generate a corresponding receive electrical signal. 16. A method of optically communicating, comprising the steps of: receiving from a single remote transmitting device over a free-space link subject to atmospheric conditions an optical signal comprising a sum of a plurality of optical beams each communicating the same data from free-space with one or more optics elements wherein the sum of plurality of optical beams results from the plurality of optical beams being positioned such that their divergence causes them to overlap and combine to sum; directing the optical signal onto one or more detectors that are mounted on a first board and that are optically aligned with the one or more optics elements so that the optical signal is passed directly from free-space to the one or more detectors; and detecting at least one of the plurality of optical beams of the optical signal with the one or more detectors to generate corresponding electrical signals based on the detected optical signal. 17. The method as claimed in claim 16, further comprising the step of. receiving the electric signals from the one or more detectors with electrical components that are mounted on the first board and electrically coupled to the one or more detectors. 18. The method as claimed in claim 16, wherein the step of providing comprises the step of: receiving the electric signals from the one or more detectors with electrical components that are mounted on a second board positioned to a side of the first board opposite the optics element and electrically coupled to the plurality of detectors. 19. The method as claimed in claim 16, wherein: the step of directing including each of the one or more optics elements directing the optical signal onto only one of the one or more detectors where each of the one or more detectors are optically aligned with only one of the one or more optics elements so that the optical signal can be passed directly from free-space to the one or more detectors; and detecting the optical signal with the one or more detectors to generate the corresponding electrical signals.