Claims
- 1. An optical switch for switching between a plurality of main light emitters respectively emitting light components having wavelengths different from each other and a backup light emitter adapted to replace any of said main light emitters;
said optical switch comprising:
a base member formed with a plurality of main waveguides for respectively inputting main light components from said main light emitters and guiding said main light components to a multiplexer; and a backup waveguide, disposed so as to intersect said main waveguides obliquely, for introducing a backup light component from said backup light emitter from the downstream side to upstream side in the advancing direction of said main light components; a plurality of mirrors, disposed so as to be insertable into and retractable from respective intersections between said backup waveguide and said main waveguides, for blocking said main light components from said main light emitters and reflecting said backup light component from said backup light emitter toward said multiplexer when inserted; and a plurality of driving sections for the respective mirrors for inserting said mirrors into and retracting said mirrors from said intersections.
- 2. An optical switch according to claim 1, wherein said base member is further formed with a verification waveguide for guiding said backup light component from said backup light emitter to a verification light receiver for verifying said backup light emitter when all said mirrors are retracted from said intersections.
- 3. An optical switch for switching between a plurality of main light receivers respectively receiving light components having wavelengths different from each other and a backup light receiver adapted to replace any of said main light receivers;
said optical switch comprising:
a base member formed with a plurality of main waveguides for respectively inputting demultiplexed light components demultiplexed by a demultiplexer directed to said main light receivers and guiding said demultiplexed light components to said main light receivers; and a backup waveguide, disposed so as to intersect said main waveguides obliquely, extending from the downstream side to upstream side in the advancing direction of said demultiplexed light components so as to terminate at said backup light receiver; a plurality of mirrors, disposed so as to be insertable into and retractable from respective intersections between said backup waveguide and said main waveguides, for reflecting said demultiplexed light components from said demultiplexer toward said backup light receiver when inserted; and a plurality of driving sections for the respective mirrors for inserting said mirrors into and retracting said mirrors from said intersections.
- 4. An optical switch according to claim 3, wherein said base member is further formed with a verification waveguide for guiding a light component from a verification light emitter for verifying said backup light receiver into said backup light receiver when all the mirrors are retracted from said intersections.
- 5. An optical switch according to claims 1 to 4, wherein said driving section comprises:
mirror supporting means including a cantilever disposed on an upper face of said base member, and a first comb electrode formed on a predetermined surface of said cantilever at a predetermined position, said mirror being placed at a predetermined position of said cantilever near a free end thereof such that said mirror is inserted into or retracted from said intersection; a second comb electrode, placed on said upper face of said base member so as to oppose said first comb electrode, having teeth alternately inserted between teeth of said first comb electrode; and electrostatic force generating means for generating an electrostatic force between said first and second comb electrodes by applying a predetermined voltage between said first and second comb electrodes; said electrostatic force generating means generating said electrostatic force so as to drive said first comb electrode toward or away from said second comb electrode, thereby inserting said mirror into or retracting said mirror from said intersection.
- 6. A light emitter switching method for switching from one failed main light emitter to a backup light emitter by using the optical switch according to claim 2;said method comprising:
an adjusting step of adjusting an optical output characteristic of said backup light emitter such that said backup light emitter replaces said one main light emitter; a backup light emitting step of emitting a backup light component from said backup light emitter adjusted in said adjusting step; a verifying step of receiving said backup light component with said verification light receiver and verifying whether said backup light emitter is adjusted normally or not according to data of thus received light; and a mirror inserting step of causing said driving section to insert a mirror into the intersection between the main waveguide corresponding to said one main light emitter and said backup waveguide when a result verifying that said backup light emitter is adjusted normally is obtained.
- 7. A light receiver switching method for switching from one failed main light receiver to a backup light receiver by using the optical switch according to claim 4;said method comprising:
a verification light receiving step of emitting a verification light component from said verification light emitter toward said backup light receiver and receiving said verification light component with said backup light receiver; a verifying step of verifying whether said backup light receiver operates normally or not according to data of verification light received by said backup light receiver; and a mirror inserting step of causing said driving section to insert a mirror into the intersection between the main waveguide corresponding to said one main light receiver and said backup waveguide when a result verifying that said backup light receiver operates normally is obtained.
- 8. A multiplexer comprising the optical switch according to claim 1.
- 9. A multiplexer comprising the optical switch according to claim 2.
- 10. A demultiplexer comprising the optical switch according to claim 3.
- 11. A demultiplexer comprising the optical switch according to claim 4.
- 12. An optical communication system comprising the optical switch according to claim 1.
- 13. An optical communication system comprising the optical switch according to claim 2.
- 14. An optical communication system comprising the optical switch according to claim 3.
- 15. An optical communication system comprising the optical switch according to claim 4.
- 16. An optical communication system comprising the optical switch according to claim 5
Priority Claims (1)
Number |
Date |
Country |
Kind |
P2002-264529 |
Sep 2002 |
JP |
|
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application claims priority to Provisional Application Serial No. 60/411,098 filed on Sep. 17, 2002, which is/are hereby incorporated by reference in its/their entirety.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60411098 |
Sep 2002 |
US |