Integrated wavelength-select transmitter
First Claim
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1. An integrated optical transmitter for use in an optical system, comprising:
- an optical head assembly including a laser diode for providing an optical beam; and
a lens assembly including at least one lens for collecting said optical beam and generating therefrom a formed optical beam;
an optical modulator for receiving said formed optical beam and for providing a modulated optical beam in response to received modulation signals; and
interface optics adapted to receive said formed optical beam and to present the formed optical beam to said optical modulator, said interface optics providing optical coupling with said optical modulator to reduce insertion loss to the formed optical beam and to maintain a fixed optical relationship therewith.
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Abstract
An integrated optical transmitter for use in an optical system includes an optical head assembly having an optical beam generator for providing an optical beam and a lens assembly for collecting the optical beam and generating therefrom a formed optical beam. Interface optics receive the formed optical beam for coupling the beam to a modulator so as to reduce nsertion loss to the optical beam. The optical modulator receives the optical beam from the interface optics and provides a modulated optical beam in response to received modulation signals. The optical modulator is coupled to the interface optics to be in a fixed relationship therewith. The integrated optical transmitter can include a means for sampling the optical beam and controlling the temperature of and/or the current supplied to the optical beam generator for controlling the wavelength of the optical transmitter. The optical head assembly and the modulator can be compliantly mounted to a mounting surface reducing the effects of thermal stress on the performance of the optical transmitter.
109 Citations
29 Claims
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1. An integrated optical transmitter for use in an optical system, comprising:
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an optical head assembly including a laser diode for providing an optical beam; and
a lens assembly including at least one lens for collecting said optical beam and generating therefrom a formed optical beam;
an optical modulator for receiving said formed optical beam and for providing a modulated optical beam in response to received modulation signals; and
interface optics adapted to receive said formed optical beam and to present the formed optical beam to said optical modulator, said interface optics providing optical coupling with said optical modulator to reduce insertion loss to the formed optical beam and to maintain a fixed optical relationship therewith. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
wherein said wavelength stabilization means further comprises a beamsplitter for providing a split beam to an optical filter for reflecting and transmitting beams to a pair of optical detectors before presentation to respective optical detectors. -
8. The integrated optical transmitter of claim 7, wherein said optical detectors are mounted with said optical filter.
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9. The integrated optical transmitter of claim 1, wherein said optical beam generator is a semiconductor laser emanating said optical beam from a first facet thereof, and wherein said transmitter further includes:
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an optical filter for receiving an optical beam of radiation from a second facet of said laser and reflecting a reflected beam and for transmitting a transmitted beam;
a pair of detectors, a first of said pair for receiving said reflected beam and a second thereof for receiving said transmitted beam, said detectors for producing first and second detected signals, respectively;
a thermal control element in thermal communication with said laser for controlling the temperature of said laser; and
a controller responsive to said detectors for controlling the thermal control element and hence the temperature of laser for controlling the wavelength thereof responsive to said detected signals received from said detectors.
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10. The integrated optical transmitter of claim 9, wherein said thermal control element includes a thermo electric cooler.
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11. The integrated optical transmitter of claim 9, wherein said optical head assembly and said modulator are compliantly mounted to a mounting surface, and wherein said interface optics includes a focusing lens rigidly secured to said modulator.
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12. The integrated optical transmitter of claim 11, wherein said focusing lens is rigidly secured to said optical head assembly.
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13. The integrated optical transmitter of claim 9, wherein said optical head assembly is rigidly mounted to a mounting surface and wherein said modulator is compliantly mounted to said mounting surface, and herein said interface optics includes a focusing lens rigidly secured to said modulator.
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14. The integrated optical transmitter of claim 9, wherein said optical filter includes a wedge shaped substrate having a filter deposited thereon.
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15. The integrated optical transmitter of claim 14, wherein said pair of detectors is mounted to said optical filter.
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16. The integrated optical transmitter of claim 15, wherein said optical head assembly include a mounting plate to which said laser and said optical filter is secured, and wherein said thermal control element includes a thermoelectric cooler in thermal communication with said mounting plate.
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17. The integrated optical transmitter of claim 9, wherein said laser is a tunable semiconductor laser tunable over a wavelength range of approximately 60 nm, said wavelength range including a wavelength of 1550 nm.
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18. The integrated optical transmitter of claim 1, wherein said optical beam generator is a semiconductor laser emanating said optical beam from a first facet thereof, and wherein said transmitter further includes:
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an optical filter for receiving an optical beam of radiation from a second facet of said laser and reflecting a reflected beam and for transmitting a transmitted beam;
a pair of detectors, a first of said pair for receiving said reflected beam and a second thereof for receiving said transmitted beam for producing first and second detected signals, respectively; and
a controller for controlling the current supplied to said laser for controlling the wavelength thereof responsive to a feedback signal determined in response to detected signals received from said detectors.
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19. The integrated optical transmitter of claim 18, wherein said thermal control element includes a thermo electric cooler.
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20. The integrated optical transmitter of claim 18, wherein said optical head assembly and said modulator are compliantly mounted to a mounting surface, and wherein said interface optics includes a focusing lens rigidly secured to said modulator.
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21. The integrated optical transmitter of claim 18, wherein said focusing lens is rigidly secured to said optical head assembly.
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22. The integrated optical transmitter of claim 18, wherein said optical head assembly is rigidly mounted to a mounting surface and wherein said modulator is compliantly mounted to said mounting surface, and herein said interface optics includes a focusing lens rigidly secured to said modulator.
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23. The integrated optical transmitter of claim 18, wherein said optical filter includes a wedge shaped substrate having a filter layer deposited thereon.
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24. The integrated optical transmitter of claim 23, wherein said pair of detectors is mounted to said optical filter.
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25. The integrated optical transmitter of claim 24, wherein said optical head assembly includes a mounting plate to which said laser and said optical filter are secured, and wherein said thermal control element includes a thermo electric cooler in thermal communication with said mounting plate.
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26. The integrated optical transmitter of claim 18, wherein said laser is a tunable semiconductor laser tunable over a wavelength range of approximately 60 nm, said wavelength range including a wavelength of 1550 nm.
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27. A method of controlling the wavelength of light radiated by a semiconductor laser of an optical transmitter, comprising the steps of
providing an optical filter for receiving a light beam from a facet of the laser such that the optical filter reflects a first beam and transmits a second beam; -
detecting the first beam and second beams providing first and second detected signals, respectively;
comparing the first and second detected signals for generating a feedback signal responsive to the wavelength of the laser for controlling one of the current supplied to the laser and the temperature of the laser responsive to the feedback signal for controlling the wavelength of the light emanated by the laser. - View Dependent Claims (28, 29)
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Specification
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Current AssigneeLumentum Operations, LLC (Lumentum Holdings Inc.)
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Original AssigneeUniphase Telecommunications Products, Inc.
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InventorsAde, Robert W., Logan, Ronald T. Jr., Kissa, Karl, Munks, Timothy C., Gertel, Eitan, Dunn, Paul, Ball, Gary A.
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Primary Examiner(s)Ullah, Akm E.
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Application NumberUS09/306,108Time in Patent Office726 DaysField of Search385/111, 385/147, 369/215, 369/244, 369/44.14, 369/44.37, 356/345, 356/357, 356/359US Class Current385/14CPC Class CodesG02B 6/4201 Packages, e.g. shape, const...G02B 6/4215 the intermediate optical el...G02B 6/4239 Adhesive bonding; Encapsula...G02B 6/4244 Mounting of the optical ele...G02B 6/4266 Thermal aspects, temperatur...G02B 6/4271 with thermo electric coolingG02B 6/4285 Optical modules characteris...
