Cascaded optical modulation system with high linearity

US 5,278,923 A
Filed: 09/02/1992
Issued: 01/11/1994
Est. Priority Date: 09/02/1992
Status: Expired due to Term

First Claim

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1. An optical modulator comprisinga plurality of electro-optic modulator stages, each modulator stage having at least one optical waveguide input port and at least one optical waveguide output port, said modulator stages being cascade coupled together in a tandem arrangement such that input ports of one stage are connected to output ports of a previous stage, each modulator stage also having electrode means for applying electrical voltages thereto,electrical drive means for applying modulating electrical voltages to said electrode means of each of said modulator stages, said modulating electrical voltages for all modulator stages being derived from a single input electrical signal, said electrical drive means including at least one electrical splitter connected to receive said input electrical signal and adapted to split said received input electrical signal into at least two of said modulating electrical voltages proportional to said single input electrical signal, wherein said electrical splitter comprises a broadband windingless transmission line transformer.

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Abstract

An optical modulation system having cascade-coupled electro-optic modulator stages in either dual tandem or split tandem configurations. An electrical splitter derives multiple electrical drives for the multiple stages from a single modulating input signal. The multiple drive signals are linearly related in magnitude and preferably induce simultaneous antiphase (180° out-of-phase) optical modulation in the tandem stages. While a double Mach-Zehnder cascade configuration could be used, at least one modulator stage might instead be a balanced-bridge interfometer-type modulator having at least one directional coupler. At least one directional coupler in such a configuration may be a Δβ coupler. Application of bias voltages to the interferometer sections and to coupler sections by means of a parametric feedback loop is done in order to simultaneously enhance the linear modulation coefficient, minimize odd order distortions and null the even order distortions that are associated with biased Δβ couplers.

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38 Claims

1. An optical modulator comprisinga plurality of electro-optic modulator stages, each modulator stage having at least one optical waveguide input port and at least one optical waveguide output port, said modulator stages being cascade coupled together in a tandem arrangement such that input ports of one stage are connected to output ports of a previous stage, each modulator stage also having electrode means for applying electrical voltages thereto,electrical drive means for applying modulating electrical voltages to said electrode means of each of said modulator stages, said modulating electrical voltages for all modulator stages being derived from a single input electrical signal, said electrical drive means including at least one electrical splitter connected to receive said input electrical signal and adapted to split said received input electrical signal into at least two of said modulating electrical voltages proportional to said single input electrical signal, wherein said electrical splitter comprises a broadband windingless transmission line transformer.

2. An optical modulator comprisinga plurality of electro-optic modulator stages, each modulator stage having at least one optical waveguide input port and at least one optical waveguide output port, said modulator stages being cascade coupled together in a tandem arrangement such that input ports of one stage are connected to output ports of a previous stage, each modulator stage also having electrode means for applying electrical voltages thereto,electrical drive means for applying modulating electrical voltages to said electrode means of each of said modulator stages, said modulating electrical voltages for all modulator stages being derived from a single input electrical signal, said electrical drive means including at least one electrical splitter connected to receive said input electrical signal and adapted to split said received input electrical signal into at least two of said modulating electrical voltages proportional to said single input electrical signal, wherein said at least two modulating electrical voltages are selected to induce antiphase optical retardation modulation signals simultaneously in at least two of said modulator stages, said antiphase optical retardation modulation signals being proportional to said single input electrical signal.
- View Dependent Claims (3)
- - 3. The modulator of claim 2 wherein said two modulating voltages have equal amplitudes of modulation.

4. An optical modulator comprisinga plurality of electro-optic modulator stages, each modulator stage having at least one optical waveguide input port and at least one optical waveguide output port, said modulator stages being cascade coupled together in a tandem arrangement such that input ports of one stage are connected to output ports of a previous stage, each modulator stage also having electrode means for applying electrical voltages thereto, at least one of said modulator stages being a balanced bridge interferometer (BBI) modulator with at least one directional coupler (DC) section therein, wherein at least one directional coupler of at least one said BBI modulator is a Δ
- β
  
  coupler, said at least one Δ
  
  β
  
  coupler being characterized by a change in a relative phase delay, Δ
  
  β
  
  , between two coupler paths thereof, in addition to a change in a coupling coefficient, κ
  
  , between said coupler paths, in response to a bias voltage applied to said Δ
  
  β
  
  coupler,electrical drive means for applying modulating electrical voltages to said electrode means of each of said modulator stages, andmeans for applying said bias voltage to said Δ
  
  β
  
  coupler.

5. An apparatus for modulating a light beam comprisingat least two integrated electro-optic cascaded modulator stages, including an input stage and an output stage, the input modulator stage having an optical waveguide input for receiving a light beam and the output stage having at least one optical waveguide output, at least one of said modulator stages being of the balanced-bridge interferometer type with at least one directional coupler section, each stage having separate bias means, wherein at least one directional coupler of said at least one balanced-bridge interferometer type modulator stage is a Δ
- β
  
  coupler, said at least one Δ
  
  β
  
  coupler being characterized by a change in a relative phase delay, Δ
  
  β
  
  , between two coupler paths thereof, in addition to a change in a coupling coefficient, ε
  
  , between said coupler paths, in response to a bias voltage applied to said Δ
  
  β
  
  coupler,means for driving the optical waveguide input of the input stage with a continuous wave light source;
  
  means for producing antiphase modulation of the light beam in said two stages simultaneously; and
  
  means for receiving a portion of the light beam emitted from each optical waveguide output of the output stage and deriving therefrom bias signals applied to said bias means, said at least one directional coupler section, including said at least one Δ
  
  β
  
  coupler, having bias voltages applied thereto which are selected to minimize third and fifth order intermodulation distortions over all possible coupling ratio values.
- View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13)
- - 6. The apparatus of claim 5 wherein said means for deriving said bias signals adjusts said bias signals continuously in response to the received portion of the light beam.
  - 7. The apparatus of claim 5 wherein said means for deriving said bias signal adjusts said bias signals at discrete time intervals.
  - 8. The apparatus of claim 5 further defined by each modulator stage having an interferometer section, at least one interferometer section having an electrode with one of said bias signals applied thereto.
  - 9. The apparatus of claim 8 wherein said means for deriving said bias signals adjusts said bias signals applied to said at least one interferometer section to minimize at least even order intermodulation distortions.
  - 10. The apparatus of claim 5 wherein said coupling ratio is also selected to maximize the linear modulation coefficient over all possible coupling ratio values.
  - 11. The apparatus of claim 5 wherein said third order distortion is substantially nulled and said fifth order distortion is at a minimum non-zero value over all possible coupling ratio values consistent with said third order distortion being substantially nulled.
  - 12. The apparatus of claim 11 wherein said coupling ratio is also selected to maximize the linear modulation coefficient over all possible coupling ratio values.
  - 13. The apparatus of claim 5, wherein at least one of said modulator stages is a balanced-bridge interferometer having first and second coupler sections, each coupler section having a cross over ratio substantially equal to 0.5.

14. An optical modulator comprisinga first electro-optic modulator stage having an optical waveguide input port, N optical waveguide output ports and a first electrical port, said first modulator stage characterized by a first 1×
- N transfer matrix,a second electro-optic modulator stage having N optical waveguide input ports, M optical waveguide output ports and a second electrical port, said second modulator stage characterized by a second N×
  
  M transfer matrix said N input ports of said second modulator stage being butt coupled to said N output ports of said first modulator stage, andan electrical splitter having an input connected to receive an input electrical signal and having two electrical output terminals connected to said first and second electrical ports for applying respective first and second modulating voltages thereto, said modulating voltages being voltages derived from said input electrical signal,wherein at least one of said modulator stages is a balanced-bridge interferometer (BBI) modulator with at least one directional coupler (DC) section therein, at least one directional coupler of at least one said BBI modulator being a Δ
  
  β
  
  coupler having means for applying a bias voltage thereto, said at least one Δ
  
  β
  
  coupler being characterized by a change in a relative phase delay, Δ
  
  β
  
  , between two coupler paths thereof, in addition to a change in a coupling coefficient, κ
  
  , between said coupler paths, in response to said bias voltage applied to said Δ
  
  β
  
  coupler, the transfer matrix characterizing the BBI modulator stage with at least one Δ
  
  β
  
  coupler being a function of at least the bias voltage applied to the Δ
  
  β
  
  coupler of that modulator stage, said first 1×
  
  N transfer matrix and said second N×
  
  M transfer matrix having been selected such that at least one power series coefficient for an overall transfer characteristic between said input port of said first modulator stage and at least one of said M output ports of said second modulator stage is minimized.
- View Dependent Claims (15, 16, 17, 18)
- - 15. The modulator of claim 14 wherein all even order power series coefficients for said overall transfer characteristic are essentially nulled by said selection of said transfer matrices.
  - 16. The modulator of claim 14 wherein the third order power series coefficient for said overall transfer characteristic is essentially nulled by said selection of said transfer matrices.
  - 17. The modulator of claim 14 wherein the fifth order power series coefficient for said overall transfer characteristic is minimized by said selection of said transfer matrices.
  - 18. The modulator of claim 14 wherein N is selected from the set of integers consisting of 1 and 2, and wherein M is selected from the set of integers consisting of 1 and 2.

19. An optical modulator comprisinga first electro-optic modulator stage having an optical waveguide input port, N optical waveguide output ports and a first electrical port, said first modulator stage characterized by a first 1×
- N transfer matrix,a second electro-optic modulator stage having N optical waveguide input ports, M optical waveguide output ports and a second electrical port, said second modulator stage characterized by a second N×
  
  M transfer matrix, said N input ports of said second modulator stage being butt coupled to said N output ports of said first modulator stage, andan electrical splitter having an input connected to receive an input electrical signal and having two electrical output terminals connected to said first and second electrical ports for applying respective first and second modulating voltages thereto, said modulating voltages being voltages derived from said input electrical signal, said first 1×
  
  N transfer matrix and said second N×
  
  M transfer matrix having been selected such that at least one power series coefficient for an overall transfer characteristic between said input port of said first modulator stage and at least one of said M output ports of said second modulator stage is minimized, wherein said electrical splitter comprises a broadband windingless transmission line.
- View Dependent Claims (20)
- - 20. The modulator of claim 19 wherein said transmission line is a coaxial cable with an outer conductor shorted at one end to ground and sheathed in ferrite material.

21. A linear electro-optic integrated modulator comprising:
- a first modulating stage of a 1×
  
  2 interferometer-type electro-optic modulator device, said first stage having an optical waveguide input port, a Y-junction splitter with two waveguide outputs, a first interferometer section including two noninteracting optical waveguides, each optical waveguide having an input port and an output port, said input port, of said two noninteracting optical waveguides being butt coupled to said two waveguide outputs of said Y-junction splitter, said first interferometer section also having modulation and bias means, and a 2×
  
  2 optical connecting port with two optical input waveguides and two optical output wave-guides, said two optical input waveguides of said connecting port being butt coupled to said output ports of said two noninteracting optical waveguides of said first interferometer section, said two optical output waveguides of said connecting port forming two optical waveguide output ports of said first modulating stage,a second modulating stage of a 2×
  
  M interferometer-type electro-optic modulator device, wherein values for M are selected from the set consisting of the integers 1 and 2, the second stage having a second interferometer section including two noninteracting optical waveguides, each optical waveguide having an input port and an output port, said input ports of said two noninteracting optical waveguides of said second interferometer section forming two optical waveguide input ports of said second modulating stage and being butt coupled to said two optical waveguide output ports of said first modulating stage, said second interferometer section also having modulation means, and a 2×
  
  M optical multiport with two optical input waveguide ports and M optical output waveguide ports, said two optical input waveguide ports of said multiport being butt coupled to said two optical waveguide output ports of said second interferometer section, said M optical output waveguide ports of said multiport forming M output ports of said second modulating stage,means for receiving a modulating electrical signal and deriving therefrom first and second output signals which are linearly related to said modulating electrical signal, said receiving means being connected to provide said output signals, respectively, to the modulation means of the first and second stages; and
  
  means for generating individual bias signals, said bias signals being connected, respectively, to bias means of at least one of said first and second modulating sections, voltage levels of said bias means being mutually adjusted to minimize even-order intermodulation distortions over all possible coupling ratio values, and to minimize third order intermodulation distortion terms in said optical waveguide output over all possible coupling ratio values,whereby, when a continuous-wave light source is connected to the modulator optical waveguide input port and an electrical modulating signal is connected to the signal splitting means, the light emitting from the at least one optical waveguide output port is modulated by the modulating signal.
- View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29)
- - 22. The modulator of claim 21 wherein said 2×
    - 2 optical connecting port is an optical directional coupler.
  - 23. The modulator of claim 21 wherein said 2×
    - 2 optical connecting port comprises a Y-junction combiner with two input waveguide ports forming the two optical input waveguides of the connecting port and with an output port, and a Y-junction splitter with an input port butt coupled to the output port of the Y-junction combiner and with two output wave-guide ports forming the two optical output waveguides of the connecting ports.
  - 24. The modulator of claim 21 wherein M=2 and said 2×
    - M optical multiport comprises a 2×
      
      2 directional coupler.
  - 25. The modulator of claim 21 wherein M=1 and said 2×
    - M optical multiport comprises a 2×
      
      1 Y-junction combiner.
  - 26. The modulator of claim 21 wherein said modulation and bias means comprises electrode means for generating electric fields that substantially overlap said optical waveguides of said interferometer sections and that modulate light by an electro-optic effect, said electric fields being proportional to a modulating voltage applied to said electrode means.
  - 27. The modulator of claim 21 wherein all even order intermodulation distortions are substantially nulled.
  - 28. The modulator of claim 21 wherein the third order intermodulation distortion is substantially nulled.
  - 29. The modulator of claim 21 wherein the fifth order intermodulation distortion is minimized.

30. An integrated electro-optic modulator comprising:
- an input Y-junction having an optical input port for receiving light and having a pair of optical outputs;
  
  a first interferometer section having a pair of waveguides forming optical paths connected to receive light from the Y-junction optical outputs, said interferometer section having a pair of optical outputs, said interferometer section having modulating electrodes disposed thereon for receiving an electrical modulating signal such that light traversing at least one optical waveguide is modulated in response to said electrical modulating signal, said interferometer section also having a bias means for receiving an electrical bias signal;
  
  a first directional coupler section having a pair of optical waveguides, said directional coupler having a predetermined coupling ratio, the coupler optical waveguides being connected to receive the optical outputs of the first interferometer section, and having a pair of optical outputs, said coupler section having a bias means for receiving an electrical bias signal;
  
  a second interferometer section of like structure to the first interferometer section and having its waveguides connected to receive the optical outputs of the first directional coupler;
  
  a second directional coupler of like structure to the first directional coupler and having its optical paths connected to receive the optical outputs of the second interferometer section, said coupler having a pair of optical outputs, said outputs comprising a pair of modulator optical output ports;
  
  means for receiving an electrical modulating signal and deriving therefrom a pair of signals for connection, respectively to the modulating electrodes of at least one of the first and second interferometer sections; and
  
  means for biasing first and second interfero meter sections and at least one directional coupler to voltage levels adjusted to minimize intermodulation distortion terms in the optical outputs and to maximize the linear modulation efficiency, wherein at least one of said directional couplers is a Δ
  
  β
  
  coupler characterized by a change in a relative phase delay, Δ
  
  β
  
  , between two coupler paths thereof, in addition to a change in a coupling coefficient, κ
  
  , between said coupler paths, in response to a bias voltage applied to said Δ
  
  β
  
  coupler, said biasing means adjusting the voltage level applied to said Δ
  
  β
  
  coupler to minimize at least a third order intermodulation distortion term and adjusting the voltage level applied to at least one of said interferometer sections to minimize even order intermodulation distortion terms for the particular bias voltage level applied to said Δ
  
  β
  
  coupler.
- View Dependent Claims (31, 32)
- - 31. An integrated modulator as in claim 30 further including an RF splitter for receiving an RF modulation signal and for supplying first and second electrical signals for connection to the modulating electrodes of first and second interferometer sections, respectively, said electrical signals being related in phase such that each of said electrical signals modulates the light traversing its respective interferometer section so that the optical outputs therefrom are substantially 180 degrees out of phase with respect to the other.
  - 32. An integrated modulator as in claim 31 further including an electrical delay means, associated with electrical signal transport means connecting outputs of said RF splitter to said interferometer biasing means, for fine adjustment of said phase of said electrical signals such that propagation delays experienced by light in said two interferometer sections are compensated.

33. An optimal modulator comprisinga first electro-optical modulator stage having an optical waveguide input port, two optical waveguide output ports and a first electrical port, said first modulator stage characterized by a first 1×
- 2 transfer matrix,a first branch of a second electro-optic modulator stage having two optical waveguide input ports, M optical waveguide output ports and a second electrical port, said first branch characterized by a second K×
  
  M transfer matrix one of said input ports of said first branch being butt coupled to a first one of said two output ports of said first modulator stage,a second branch of said second electro-optic modulator stage of like structure to said first branch having K optical waveguide input ports, N optical waveguide output ports and a third electrical port, said branch characterized by a third K×
  
  N transfer matrix one of said input ports of said second branch being butt coupled to a second one of said two output ports of said first modulator stage, andan electrical splitter forming a linear electrical network having an input connected to receive an input electrical signal and having three electrical output terminals connected to said first, second and third electrical ports for applying respective first, second and third modulating voltages thereto, said modulating voltages being voltages derived from said input electrical signal and selected to minimize intermodulation distortions of at least one order.
- View Dependent Claims (34, 35, 36, 37, 38)
- - 34. The modulator of claim 33 wherein M is selected from the group consisting of the integers 1 and 2, and wherein N is also selected from the group consisting of the integers 1 and 2.
  - 35. The optical modulator of claim 33 wherein K is a value selected from the set of integers consisting of 1 and 2.
  - 36. The optical modulator of claim 33 wherein said selected modulating voltages substantially null all even order intermodulation distortions.
  - 37. The optical modulator of claim 33 wherein said selected modulating voltages substantially null third order intermodulation distortion.
  - 38. The optical modulator of claim 37 wherein said selected modulating voltages minimize fifth order intermodulation distortion.

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Current Assignee
Aurora Networks, Inc. (CommScope Holding Company, Inc.)
Original Assignee
Harmonic Lightwaves, Inc.
Inventors
Simler, Yaron, Kagan, Yishai, Nazarathy, Moshe
Primary Examiner(s)
Gonzalez, Frank
Assistant Examiner(s)
BARNS, STEPHEN

Application Number

US07/939,940
Time in Patent Office

496 Days
Field of Search

385/1, 385/2, 385/3, 385/4, 385/8
US Class Current

385/3
CPC Class Codes

G02F 1/225   in an optical waveguide str...

G02F 1/3136   of interferometric switch type

G02F 2201/16   series; tandem

G02F 2203/19   linearised modulation; redu...

Cascaded optical modulation system with high linearity

First Claim

12 Assignments

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Abstract

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38 Claims

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Cascaded optical modulation system with high linearity

First Claim

12 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

38 Claims

Specification

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Solutions

Use Cases

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