Optical data link dual wavelength coupler

US 4,904,043 A
Filed: 06/15/1988
Issued: 02/27/1990
Est. Priority Date: 06/15/1988
Status: Expired due to Term

First Claim

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1. A dual wavelength optical communication arrangement for providing optical communication between an optical fiber and a pair of colocated semiconductor optical devices, the arrangement comprisinga first semiconductor optical device operable with a first optical signal at a first wavelength;

a second semiconductor optical device operable with a second optical signal at a second wavelength;

a first lens positioned to couple said first optical signal associated with said first semiconductor optical device;

a second lens positioned to couple said second optical signal associated with said second semiconductor optical device;

a dichroic filter positioned between said first lens and second lens so as to prevent both said first optical signal from entering said second lens and said second optical signal from entering said first lens; and

a third lens positioned between said dichroic filter and said optical fiber for coupling said first and second optical signal with said optical fiber.

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Abstract

A dual wavelength optical coupler is disclosed which provides either bidirectional or unidirectional communication at different wavelengths over a single fiber. The coupler utilizes a dichroic filter and a set of three lenses to achieve dual wavelength communication. Additional blocking filters may be incorporated to decrease the degree of optical crosstalk present in the system.

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30 Claims

1. A dual wavelength optical communication arrangement for providing optical communication between an optical fiber and a pair of colocated semiconductor optical devices, the arrangement comprisinga first semiconductor optical device operable with a first optical signal at a first wavelength;
- a second semiconductor optical device operable with a second optical signal at a second wavelength;
  
  a first lens positioned to couple said first optical signal associated with said first semiconductor optical device;
  
  a second lens positioned to couple said second optical signal associated with said second semiconductor optical device;
  
  a dichroic filter positioned between said first lens and second lens so as to prevent both said first optical signal from entering said second lens and said second optical signal from entering said first lens; and
  
  a third lens positioned between said dichroic filter and said optical fiber for coupling said first and second optical signal with said optical fiber.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A dual wavelength optical communication arrangement as defined in claim 1 wherein the first and second semiconductor optical devices comprise semiconductor optical transmitting devices.
  - 3. A dual wavelength optical communication arrangement as defined in claim 2 wherein both optical transmitters comprise light emitting diodes.
  - 4. A dual wavelength optical communication arrangement as defined in claim 3 wherein the first device comprises an LED operating at a first wavelength of approximately 870 nm and the second device comprises an LED operating at a second wavelength of approximately 1300 nm.
  - 5. A dual wavelength optical communication arrangement as defined in claim 1 wherein the first and second semiconductor optical devices comprise semiconductor optical receiving devices.
  - 6. A dual wavelength optical communication arrangement as defined in claim 5 wherein both optical receivers comprise PIN photodiodes.
  - 7. A dual wavelength optical communication arrangement as defined in claim 6 wherein the first device comprises an InGaAs PIN photodiode and the second device comprises a silicon PIN photodiode.
  - 8. A dual wavelength optical communication arrangement as defined in claim 1 wherein the first semiconductor optical device comprises a transmitting device and the second semiconductor optical device comprises a receiving device.
  - 9. A dual wavelength optical communication arrangement as defined in claim 8 wherein the first device comprises an LED and the second second comprises a PIN photodiode.
  - 10. A dual wavelength optical communication arrangement as defined in claim 9 wherein the first device is chosen from the group consisting of 870 nm LEDs and 1300 nm LEDs, and the second device is chosen from the group consisting of InGaAs photodiodes and silicon photodiodes.

11. A dual wavelength bidirectional optical coupler comprisingoptical transmitting means for providing an outgoing optical signal at a first wavelength λ
- ₁ ;
  
  optical receiving means for detecting an incoming optical signal at a second wavelength λ
  
  ₂ ;
  
  a first lens element capable of collimating said incoming optical signal and focusing said outgoing optical signal;
  
  a dichroic filter positioned so as to transfer the collimated incoming optical signal exiting said first lens into said optical receiving means and transfer the outgoing optical signal produced by said optical transmitting means into said first lens;
  
  a second lens disposed at an appropriate distance behind said dichroic filter for focusing said incoming optical signal at the optical receiving means; and
  
  a third lens disposed at an appropriate location between said dichoric filter and said optical transmitting means for collimating said outgoing optical signal produced by said optical transmitting means and directing the collimated outgoing optical signal into said dichroic filter.
- View Dependent Claims (12, 13, 14, 15, 16, 17)
- - 12. A dual wavelength bidirectional optical coupler as defined in claim 11 whereinthe first lens comprises a graded index lens;
    - andthe second and third lenses comprise a pair of spherical lenses.
  - 13. A dual wavelength bidirectional optical coupler as defined in claim 11 whereinthe first lens comprises a plano-convex lens;
    - andthe second and third lenses comprise a pair of spherical lenses.
  - 14. A dual wavelength bidirectional optical coupler as defined in claim 11 wherein the optical transmitting means is chosen from the group consisting of 870 nm light emitting diodes and 1300 nm light emitting diodes, and the optical receiving means is chosen from the group consisting of InGaAs PIN photodiodes and silicon photodiodes.
  - 15. A dual wavelength bidirectional optical coupler as defined in claim 14 whereinthe first lens comprises a quarter pitch graded index lens having a diameter of approximately 1.8 mm;
    - the dichroic filter is disposed at an angle of approximately 30°
      
      to allow for transmission of the incoming optical signal and reflection of the outgoing optical signal;
      
      the second lens comprises a glass spherical lens having a diameter of approximately 3 mm; and
      
      the third lens comprises a sapphire spherical lens having a diameter of approximately 2 mm.
  - 16. A dual wavelength bidirectional optical coupler as defined in claims 11 or 12 wherein the coupler further comprises a receiver blocking filter disposed between the dichroic filter and the second lens for preventing the outgoing optical signal from reaching the optical receiving means.
  - 17. A dual wavelength bidirectional optical coupler as defined in claims 11 or 12 wherein the coupler further comprises a transmitter blocking filter disposed between the dichroic filter and the third lens for preventing the incoming optical signal from reaching the optical transmitting means.

18. A dual wavelength unidirectional optical transmitter comprisinga first optical transmitting device for providing a first output signal at a first wavelength;
- a first lens disposed to receive and collimate said first output signal;
  
  a second optical transmitting device for providing a second output signal at a second wavelength;
  
  a second lens disposed to receive and collimate said second output signal;
  
  a coupling lens for focusing both said first collimated output signal and said second collimated output signal into a transmission waveguide; and
  
  a dichroic filter positioned to transfer said collimated output signal exiting said first lens into said coupling lens, and reflecting the second collimated output signal exiting said second lens into said coupling lens.
- View Dependent Claims (19, 20, 21, 22, 23)
- - 19. A dual wavelength unidirectional optical transmitter as defined in claim 18 wherein the first and second optical transmitting devices comprise light emitting diodes.
  - 20. A dual wavelength unidirectional optical transmitter as defined in claim 19 wherein the light emitting diodes operate at 870 nm and 1300 nm.
  - 21. A dual wavelength unidirectional optical transmitter as defined in claim 18 wherein the first lens and second lens comprise a pair of spherical lenses and the coupling lens comprises a graded index lens.
  - 22. A dual wavelength unidirectional optical transmitter as defined in claim 18 wherein the first lens and second lens comprise a pair of spherical lenses and the coupling lens comprises a plano-convex lens.
  - 23. A dual wavelength unidirectional optical transmitter as defined in claim 18 wherein the coupler further comprisesa first blocking filter disposed between the dichroic filter and the first lens for preventing the second output signal from passing through the dichroic filter and entering the first lens;
    - anda second blocking filter disposed between said dichroic filter and the second lens for preventing the first output signal from passing through the dichroic filter and entering the second lens.

24. A dual wavelength unidirectional optical receiver comprisinga first optical receiving device responsive to a first input signal at a first wavelength;
- a first lens disposed to receive said first input signal and focus said first input signal into said first optical receiving device;
  
  a second optical receiving device responsive to a second input signal at a second wavelength;
  
  a second lens disposed to receive said second input signal and focus said second input signal into said second optical receiving device;
  
  a collimating lens for receiving both said first and second input signals and providing as an output collimated versions thereof;
  
  a dichroic filter positioned to transfer the collimated first input signal exiting said collimating lens to said first lens, and reflect the collimated second input signal exiting said collimating lens to said second lens.
- View Dependent Claims (25, 26, 27, 28, 29)
- - 25. A dual wavelength unidirectional optical receiver as defined in claim 24 wherein the first and second optical receiving devices comprise a pair of photodiodes.
  - 26. A dual wavelength unidirectional optical receiver as defined in claim 25 wherein the photodiodes comprise a silicon photodiode and an InGaAs PIN diode.
  - 27. A dual wavelength unidirectional optical receiver as defined in claim 24 wherein the first and second lens comprise a pair of spherical lenses and the collimating lens comprises a graded index lens.
  - 28. A dual wavelength unidirectional optical receiver as defined in claim 24 wherein the first and second lens comprise a pair of spherical lenses and the collimating lens comprises a plano-convex lens.
  - 29. A dual wavelength unidirectional optical receiver as defined in claim 24 wherein the receiver further comprisesa first blocking filter disposed between the first lens and the dichroic filter for preventing the second input signal from entering said first lens;
    - anda second blocking filter disposed between the second lens and said dichroic filter for preventing the first input signal from entering said second lens.

30. A bidirectional dual wavelength optical multiplexer comprisingan optical transmitting device for providing an optical output signal at a first wavelength;
- first circuit means for providing an electrical input signal to said optical transmitting device;
  
  an optical receiving device responsive to an optical input signal at a second wavelength and providing as an output an electrical version thereof;
  
  second circuit means coupled to said optical receiving device for providing an electrical output signal in response to the received optical input signal, said first and second circuit means being formed on a single circuit board;
  
  an optical multiplexer subassembly for mating with said circuit board, said optical multiplexer subassembly comprisinga first lens element capable of collimating said optical input signal and focusing said optical output signal;
  
  a dichroic filter positioned so as to transfer the collimated input signal exiting said first lens element and transfer the optical output signal into said first lens element;
  
  a second lens disposed at an appropriate distance behind said dichroic filter for focusing said collimated optical input signal into said optical receiving device;
  
  a third lens disposed at an appropriate location between said dichroic filter and said optical transitting device for collimating said optical output signal and directing said collimated optical output signal at said dichroic filter.

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Current Assignee
American Telephone & Telegraph Company (AT&T, Inc.), Bell Telephone Laboratories, Inc. (Nokia Corporation)
Original Assignee
American Telephone & Telegraph Company (AT&T, Inc.)
Inventors
Schweizer, Rudolph C.
Primary Examiner(s)
Lee, John D.
Assistant Examiner(s)
Ullah, Akm E.

Application Number

US07/207,342
Time in Patent Office

622 Days
Field of Search

350/96.15, 350/96.18, 350/96.19
US Class Current

398/42
CPC Class Codes

G02B 6/29362   Serial cascade of filters o...

G02B 6/2937   In line lens-filtering-lens...

G02B 6/4246   Bidirectionally operating p...

Optical data link dual wavelength coupler

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Abstract

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30 Claims

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Optical data link dual wavelength coupler

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

30 Claims

Specification

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Solutions

Use Cases

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