IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0431277
(2003-05-06)
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등록번호 |
US-7277641
(2007-10-02)
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발명자
/ 주소 |
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출원인 / 주소 |
- Ball Aerospace & Technologies Corp.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
18 인용 특허 :
36 |
초록
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The present invention relates to a multiple access space laser communications optical system. According to the present invention, multiple optical signals containing a number of channels are simultaneously received and demultiplexed at a multiple access communication device. Separate communication s
The present invention relates to a multiple access space laser communications optical system. According to the present invention, multiple optical signals containing a number of channels are simultaneously received and demultiplexed at a multiple access communication device. Separate communication signals may be multiplexed by the multiple access communication device, and transmitted through the same or a different telescope optical assembly used to receive communication signals. Double-pass reflection is used to selectively polarize signals and to ensure that signals are substantial normal to optical bandpass filters, to avoid large shifts in the wavelengths transmitted by the optical bandpass filters. The system is capable of providing discrete communications with a number of communication endpoints, regardless of where the communication endpoints are located within the field of view of the telescope optical assembly.
대표청구항
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What is claimed is: 1. A multiple access optical communication device, comprising: an optical signal multiplexer/demultiplexer operable to at least one of multiplex and demultiplex optical signals, including: a primary optical signal polarization discriminator, including: a primary polarizing beam
What is claimed is: 1. A multiple access optical communication device, comprising: an optical signal multiplexer/demultiplexer operable to at least one of multiplex and demultiplex optical signals, including: a primary optical signal polarization discriminator, including: a primary polarizing beam splitter defining two signal transmission paths; a first wavelength discriminator assembly, including: a first polarizing beam splitter located within a first of said two signal transmission paths but not within a second of said two signal transmission paths; a first quarter wave plate, wherein said first quarter wave plate is located within a transmission path of said light reflected by said first polarizing beam splitter; and a first bandpass filter, wherein said first bandpass filter is substantially normal to said transmission path of said light reflected by said first polarizing beam splitter, wherein said first bandpass filter receives light from said first quarter wave plate, wherein light having a wavelength within a passband of said first bandpass filter is passed as a first communication channel, and wherein light having a wavelength outside of said passband of said first bandpass filter is reflected; a second quarter wave plate, wherein light reflected by said first bandpass filter is transmitted by said first polarizing beam splitter and is incident upon and transmitted by said second quarter wave plate; and a second bandpass filter, wherein said second bandpass filter is substantially normal to a transmission path of said light reflected by said first bandpass filter, wherein light having a wavelength within a passband of said second bandpass filter is passed as a second communication channel, and wherein light having a wavelength outside of said passband of said second bandpass filter is reflected. 2. The device of claim 1, further comprising: a telescope optical assembly, operable to at least one of receive and transmit optical signals. 3. The device of claim 2, wherein said telescope optical assembly receives optical signals, and wherein received optical signals are provided to said optical signal multiplexer/demultiplexer. 4. The device of claim 2, wherein said telescope optical assembly transmits optical signals, and wherein said telescope optical assembly receives optical signals for transmission from said optical signal multiplexer/demultiplexer. 5. The device of claim 1, further comprising: a first optical signal transceiver, wherein a signal having a first wavelength is at least one of received from or provided to said first wavelength discriminator assembly by said first optical signal transceiver; and a second optical signal transceiver wherein a signal having a second wavelength is at least one of received from or provided to said first wavelength discriminator assembly by said second optical signal transceiver. 6. The device of claim 5, wherein said first optical signal transceiver comprises a light source. 7. The device of claim 5, wherein said first optical transceiver comprises an optical receiver. 8. The device of claim 5, wherein said first optical transceiver comprises an optical receiver and wherein said second optical transceiver comprises a light source. 9. The system of claim 5, further comprising: a first mirror, operable to selectively steer a first signal towards a boresight of said first optical transceiver, wherein said first mirror has a first effective range of motion; a second mirror, operable to selectively steer said first signal towards said boresight of said first optical transceiver, wherein said second mirror has a second effective range of motion. 10. The system of claim 5, further comprising: a first mirror, operable to selectively steer a first signal towards a boresight of said first optical transceiver, wherein said first mirror has a first effective range of motion; and a second mirror, operable to remove jitter with respect to a plurality of signals, wherein said second mirror has a second effective range of motion and wherein said plurality of signals includes said first signal. 11. The device of claim 10, further comprising: a telescope optical assembly having substantially zero angular distortion. 12. The device of claim 1, further comprising a second wavelength discriminator assembly. 13. The device of claim 12, wherein said second wavelength discriminator assembly includes: a first polarizing beam splitter operable to transmit light having a first polarization and to reflect light having a second polarization; a first quarter wave plate, wherein said first quarter wave plate is located within a transmission path of said light reflected by said first polarizing beam splitter; and a first bandpass filter, wherein said first bandpass filter is substantially normal to said transmission path of said light reflected by said first polarizing beam splitter, wherein said first bandpass filter receives light from said first quarter wave plate, wherein light having a wavelength within a passband of said bandpass filter is passed as a first single communication channel, and wherein light having a wavelength outside of said passband of said first bandpass filter is reflected. 14. The device of claim 12, further comprising: a first optical signal transceiver, wherein a signal that is received from a first one of said first wavelength discrimination assembly and said second wavelength discrimination assembly is received by said first optical signal transceiver; and a second optical signal transceiver, wherein a signal is provided to a second one of said first wavelength discrimination assembly and said second wavelength discrimination assembly by said second optical signal transceiver. 15. The device of claim 14, further comprising: a single telescope optical assembly. 16. The device of claim 1, wherein said primary optical signal polarization discriminator further comprises: a primary linear polarization retarder. 17. The device of claim 16, wherein said primary linear polarization retarder comprises a quarter wave plate. 18. The device of claim 1, further comprising a second wavelength discriminator assembly, wherein said first wavelength discriminator assembly receives light having a first polarization from or provides light having a first polarization to said primary optical signal polarization discriminator, and wherein said second wavelength discriminator assembly receives light having a second polarization from or provides light having a second polarization to said primary optical signal polarization discriminator. 19. The device of claim 1, wherein said first wavelength discriminator assembly further comprises: a half wave plate located along said first transmission path and between said primary optical signal polarization discriminator and said first polarizing beam splitter. 20. The device of claim 1, wherein said first wavelength discriminator assembly further comprises: a third bandpass filter, wherein said third bandpass filter receives said light reflected by said second bandpass filter and by said first polarizing beam splitter, wherein said third bandpass filter is substantially normal to a transmission path of said light reflected by said first polarizing beam splitter, and wherein light having a wavelength within a passband of said third bandpass filter is passed as a third communication channel. 21. The device of claim 1, wherein said optical signal multiplexer/demultiplexer is provided as part of a communication satellite. 22. A multiple access optical communication device, comprising: an optical signal multiplexer/demultiplexer operable to at least one of multiplex and demultiplex optical signals, including: a primary optical signal polarization discriminator; and a first wavelength discriminator assembly, wherein signals having a first polarization and a different wavelength are at least one of: a) received from said first optical signal polarization discriminator assembly and separated, and b) combined and provided to said first optical signal polarization discriminator; wherein said first wavelength discriminator assembly comprises: a first polarizing beam splitter located within a first transmission path of signals at least one of transmitted to and received from said primary optical signal polarization discriminator assembly and operable to reflect light having a first polarization and to transmit light having a second polarization; a first quarter wave plate, wherein said first quarter wave plate is located within a transmission path of said light reflected by said first polarizing beam splitter; a first bandpass filter, wherein said first bandpass filter is substantially normal to said transmission path of said light reflected by said first polarizing beam splitter, wherein said first bandpass filter receives light from said first quarter wave plate, wherein light having a wavelength within a passband of said first bandpass filter is passed as a first communication channel, and wherein light having a wavelength outside of said passband of said first bandpass filter is reflected; a second quarter wave plate, wherein light reflected by said first bandpass filter is transmitted by said first polarizing beam splitter and is incident upon and transmitted by said second quarter wave plate; a second bandpass filter, wherein said second bandpass filter is substantially normal to a transmission path of said light reflected by said first bandpass filter, wherein light having a wavelength within a passband of said second bandpass filter is passed as a second communication channel, and wherein light having a wavelength outside of said passband of said second bandpass filter is reflected; wherein said light reflected by said second bandpass filter is reflected by said first polarizing beam splitter, and wherein said first wavelength discriminator assembly further comprises: a second polarizing beam splitter operable to reflect light having said first polarization and to reflect light having said second polarization, wherein said second polarizing beam splitter receives light reflected by said second bandpass filter and by said first polarizing beam splitter, and wherein said second polarizing beam splitter reflects said light; a third quarter wave plate, wherein said third quarter wave plate is located within a transmission path of said light reflected by said second polarization beam splitter; and a third bandpass filter, wherein said third bandpass filter receives said light reflected by said second polarizing beam splitter and transmitted by said third quarter wave plate, wherein said third bandpass filter is substantially normal to a transmission path of said light reflected by said second polarizing beam splitter, wherein light having a wavelength within a passband of said third bandpass filter is passed as a third single communication channel, and wherein light having a wavelength outside of said passband of said third bandpass filter is reflected. 23. A multiple access optical communication device, comprising: an optical signal multiplexer/demultiplexer operable to at least one of multiplex and demultiplex optical signals, including: a primary optical signal polarization discriminator; and a first wavelength discriminator assembly, wherein signals having a first polarization and a different wavelength are at least one of: a) received from said first optical signal polarization discriminator assembly and separated, and b) combined and provided to said first optical signal polarization discriminator; wherein said first wavelength discriminator assembly comprises: a first polarizing beam splitter located within a first transmission path of signals at least one of transmitted to and received from said primary optical signal discriminator and operable to reflect light having a first polarization and to transmit light having a second polarization; a first quarter wave plate, wherein said first quarter wave plate is located within a transmission path of said light transmitted by said first polarizing beam splitter; and a first bandpass filter, wherein said first bandpass filter is substantially normal to said transmission path of said light transmitted by said first polarizing beam splitter, wherein said first bandpass filter receives light from said first quarter wave plate, wherein light having a wavelength within a passband of said first bandpass filter is passed as a first communication channel, and wherein light having a wavelength outside of said passband of said first bandpass filter is reflected; a second quarter wave plate, wherein light reflected by said first bandpass filter is reflected by said first polarizing beam splitter and is incident upon and transmitted by said second quarter wave plate; and a second bandpass filter, wherein said second bandpass filter is substantially normal to a transmission path of said light reflected by said first bandpass filter and said first polarizing beam splitter, wherein light having a wavelength within a passband of said second bandpass filter is passed as a second communication channel, and wherein light having a wavelength outside of said passband of said second bandpass filter is reflected. 24. The device of claim 23, wherein said first wavelength discriminator assembly further comprises: a third bandpass filter, wherein said third bandpass filter receives said light reflected by said second bandpass filter after said light reflected by said second bandpass filter has been transmitted by said first polarizing beam splitter, wherein said third bandpass filter is substantially normal to a transmission path of said light reflected by said second quarter wave plate and transmitted by said first polarizing beam splitter, and where light having a wavelength within a passband of said third bandpass filter is passed as a third communication channel. 25. A method for providing a multiple access optical communication system, comprising: receiving at a first optical assembly a first signal comprising a number of data channels and comprising light having a first circular polarization; transforming said first circular polarization of said first signal into a first linear polarization; and first reflecting in a first polarizing beam splitter said first signal having a first linear polarization; second reflecting in a second polarizing beam splitter said first signal; transforming said first linear polarization of said first signal into one of said first circular polarization and a second circular polarization; after transforming said first linear polarization of said first signal into one of said first circular polarization and a second circular polarization, passing light included in said first signal within at least a first range of wavelengths through a first bandpass filter and reflecting light included in said first signal within at least a second range of wavelengths using said first bandpass filter; providing said light passed by said first bandpass filter to a first detector; transforming said light reflected by said first bandpass filter into one of said first linear polarization and a second linear polarization; after transforming said light reflected by said first bandpass filter into one of said first linear polarization and a second linear polarization, passing said light through said second polarizing beam splitter; transforming said light passed through said second polarizing beam splitter into one of said first circular polarization and said second circular polarization. 26. The method of claim 25, further comprising: receiving at said first optical assembly a second signal comprising a number of data channels and comprising light having a second frequency and a second circular polarization; and transforming said second circular polarization of said second signal into a second linear polarization. 27. The method of claim 26, further comprising: transforming said second linear polarization of said second signal into a circular polarization; separating light having a second wavelength from said second signal; transforming said circular polarization of said second signal into said first linear polarization. 28. The method of claim 25, further comprising: providing light having a second circular polarization to said first optical assembly; and transmitting from said first optical assembly said light having a second circular polarization. 29. The method of claim 25, wherein said step of receiving at a first optical assembly a first signal comprises a first step of receiving, and wherein a ray associated with said first signal has a first angle with respect to said first optical assembly, said method further comprising: a second step of receiving at said first optical assembly said first signal, wherein said first signal has a second angle with respect to said first optical assembly. 30. The method of claim 25, further comprising: after transforming said light passed through said second polarizing beam splitter into one of said first circular polarization and said second circular polarization, passing light included in said first signal within at least a third range of wavelengths through a second bandpass filter and reflecting light included in said first signal within at least a fourth range of wavelengths; providing said light passed by said second bandpass filter to a second detector; transforming said light reflected by said second bandpass filter into one of said first linear polarization and said second linear polarization; after transforming said light reflected by said second bandpass filter into one of said first linear polarization and said second linear polarization, third reflecting in said second polarizing beam splitter said first signal, wherein said first signal is without said light within said first, second or third ranges of wavelengths.
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