Claims
- 1. A large electronic-optic interconnect switch for connecting communication lines, said switch comprising:
A) a plurality of switch units, each switch unit comprising:
1) a processor controlled electronic multi-switch switch comprising a plurality of micro-switches, re-configurable upon computer command and having a plurality of electronic input ports and a plurality of output ports, 2) a plurality of input communication lines connected to a portion of said input ports, 3) a plurality of output communication lines connected to a portion of said output ports, 4) an optical emitter array in communication with a portion of said output ports, said array comprising a plurality of optical emitters for emitting light beams for carrying optical communication signals, and 5) an optical detector array unit comprising a plurality of detectors for detecting optical communication signals in light beams and converting the optical signals to electronic signals, said detector array unit being configured to provide said electronic signals to a portion of said input ports; B) a free space optical interconnection configuration for directing light beams from said plurality of emitters in said emitter arrays in said plurality of switch units to said plurality of detectors in said detector array in said plurality of switch units; and C) a computer processor programmed with an algorithm for configuring said micro-switches to produce desired connections among said input communication lines and said output communication lines.
- 2. An interconnect switch as in claim 1 wherein each multi-switch in said plurality of switch units is a cross point switch.
- 3. An interconnect switch as in claim 1 wherein said interconnect switch is configured to switch fiber optic lines.
- 4. An interconnect switch as in claim 3 wherein each of said switch unit comprises an optics to electronic conversion array for converting optical signals to electronic signals.
- 5. An interconnect switch as in claim 1 wherein said optical interconnection configuration comprises a plurality of emitter lenses each lens in said plurality of emitter lenses defining a focal length and positioned said focal length away from each emitter array and a plurality of detector lenses each lens in said plurality of detector lenses defining a focal length and positioned said focal length away from each detector array.
- 6. An interconnect switch as in claim 1 wherein said optical interconnection configuration comprises a mirror positioned to reflect light beams from emitters in said emitter arrays to detectors in said detector arrays.
- 7. An interconnect switch as in claim 6 wherein said mirror is a curved mirror.
- 8. An interconnect switch as in claim 7 wherein said curved mirror is configured to permit said emitter arrays and said detector arrays to be aligned symmetrically.
- 9. An interconnect switch as in claim 7 wherein said curved mirror is a spherical mirror.
- 10. An interconnect switch as in claim 1 wherein said optical interconnection configuration comprises a mirror positioned to reflect light beams from each emitters in said emitter arrays to a single separate detector in said detector arrays.
- 11. An interconnect switch as in claim 1 wherein said algorithm is a Clos algorithm.
- 12. An interconnect switch as in claim 1 wherein each of said emitter arrays are laser arrays.
- 13. An interconnect switch as in claim 1 wherein each of said emitter arrays are an array of laser modulators.
- 14. An interconnect switch as in claim 1 wherein each of said switch units also comprises a driver array for driving said emitters in said optical array.
- 15. An interconnect switch as in claim 1 wherein each of said optical detector units comprises an amplifier array for amplifying electronic signals produced by said array of optical detectors, said amplifier array configured to provide amplified electronic signals to a portion of said input ports.
- 16. An interconnect switch as in claim 6 and further comprising at least one additional mirror, said mirror and said at least one additional mirror being configured to provide a compact optical path reducing said interconnect switch size.
- 17. An interconnect switch as in claim 1 wherein said interconnect switch is configured in a standard Clos architecture.
- 18. An interconnect switch as in claim 1 wherein said optical interconnection configuration comprises a plurality of lenses each lens in said plurality of lenses defining a focal length and positioned said focal length away from an emitter array and a detector array and configured to direct light away from said emitter in a desired direction and to focus light on detectors in said detector array.
Parent Case Info
[0001] This application is a continuation-in-part application of U.S. patent application Ser. No. 09/716,196 filed Nov. 17, 2000 and Ser. No. 09/666,898 filed Sep. 20, 2000 both of which are incorporated by reference herein. This invention relates to switching of optical communication signals.
Continuation in Parts (2)
|
Number |
Date |
Country |
Parent |
09716196 |
Nov 2000 |
US |
Child |
09976857 |
Oct 2001 |
US |
Parent |
09666898 |
Sep 2000 |
US |
Child |
09976857 |
Oct 2001 |
US |