Optical module and optical switch constituting the same
First Claim
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1. An optical module comprising:
- a silica-based optical waveguide circuit comprising a 1×
N thermo-optic effect optical switch with one input and N outputs, where N is an integer equal to or greater than three; and
a driving electronic circuit for providing said optical waveguide circuit with a refractive index variation to modify an optical output characteristic, said driving electronic circuit being mounted on a silica-based substrate of said optical waveguide circuit together with said optical waveguide circuit,said 1×
N thermo-optic effect optical switch comprising;
one silica-based input waveguide placed on the substrate of said optical waveguide circuit;
N silica-based output waveguides placed on the substrate of said optical waveguide circuit;
N silica-based gate optical switches, each of which is connected to one of said N output waveguides on the substrate of said optical waveguide circuit, for controlling passing of light; and
a plurality of 1×
2 optical switches placed between said input waveguide and said gate optical switches, for continuously switching its path in response to a level of an electrical signal from driving power supply circuit in said driving electronic circuit, whereinsaid plurality of 1×
2 optical switches are divided into a plurality of groups, each of which is assigned one of said driving power supply circuits, and said optical module further comprises electrical digital switches incorporated into integrated circuits (ICs) for controlling levels of electrical signals supplied from said driving power supply circuits to said plurality of 1×
2 optical switches so as to energize only one group of the plurality of groups of optical switches.
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Abstract
An optical module controls its output characteristics electrically and an optical switch constitutes the optical module. An optical waveguide circuit (PLC) and an electronic circuit (IC) for driving the PLC are mounted on the same substrate. The IC is composed of a bare chip to be molded afterward. Wiring of the IC is grouped and integrated on the PLC substrate to achieve higher density and miniaturization of the optical module.
28 Citations
10 Claims
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1. An optical module comprising:
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a silica-based optical waveguide circuit comprising a 1×
N thermo-optic effect optical switch with one input and N outputs, where N is an integer equal to or greater than three; anda driving electronic circuit for providing said optical waveguide circuit with a refractive index variation to modify an optical output characteristic, said driving electronic circuit being mounted on a silica-based substrate of said optical waveguide circuit together with said optical waveguide circuit, said 1×
N thermo-optic effect optical switch comprising;one silica-based input waveguide placed on the substrate of said optical waveguide circuit; N silica-based output waveguides placed on the substrate of said optical waveguide circuit; N silica-based gate optical switches, each of which is connected to one of said N output waveguides on the substrate of said optical waveguide circuit, for controlling passing of light; and a plurality of 1×
2 optical switches placed between said input waveguide and said gate optical switches, for continuously switching its path in response to a level of an electrical signal from driving power supply circuit in said driving electronic circuit, whereinsaid plurality of 1×
2 optical switches are divided into a plurality of groups, each of which is assigned one of said driving power supply circuits, and said optical module further comprises electrical digital switches incorporated into integrated circuits (ICs) for controlling levels of electrical signals supplied from said driving power supply circuits to said plurality of 1×
2 optical switches so as to energize only one group of the plurality of groups of optical switches. - View Dependent Claims (2, 3, 4, 5)
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6. An optical module comprising:
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a silica-based optical waveguide circuit comprising a thermo-optic effect optical matrix switch for linking mth input waveguide to lth output waveguide with an M×
L thermo-optic effect optical cross-point switch, where M and L are an integer equal to or greater than 2, and m and f satisfy relationships 1≦
m≦
M and 1≦
l≦
L, respectively; anda driving electronic circuit for providing said optical waveguide circuit with a refractive index variation to modify an optical output characteristic, said driving electronic circuit being mounted on a silica-based substrate of said optical waveguide circuit together with said optical waveguide circuit, said thermo-optic effect optical matrix switch comprising; M silica-based input waveguides placed on the substrate of said optical waveguide circuit; L silica-based output waveguides placed on the substrate of said optical waveguide circuit; and an M×
L silica-based optical cross-point switch placed between said M input waveguides and said L output input waveguides on the substrate of said optical waveguide circuit, and consisting of a duplex type optical switch including 1×
2 optical switches and 2×
1 optical switches, each of which continuously switching its path in response to the level of the electrical signal fed from said driving electronic circuit, whereinsaid 1×
2 optical switches and said 2×
1 optical switches are divided into a plurality of groups, each of which is assigned one of driving power supply circuits in said driving electronic circuits, and said optical module further comprises electrical digital switches incorporated into integrated circuits (ICs) for controlling levels of electrical signals supplied from said driving power supply circuits to said 1×
2 optical switches and to said 2×
1 optical switches so as to energize only one group of the plurality of groups of optical switches. - View Dependent Claims (7, 8, 9, 10)
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Specification