Variable optical attenuator device
First Claim
1. A variable optical attenuator device comprising:
- a first electrically conductive electrode that is transparent to an optical wavelength of input light;
a second electrically conductive electrode that is reflective to said optical wavelength of said input light;
an electrochromic attenuator interposed between said first and second electrically conductive electrodes, and having electrochromic attenuation properties thereof controllably adjustable in accordance with respective electrical potentials applied to said first and second electrically conductive electrodes;
a light input interface configured to direct said input light along at least one input optical path that is incident upon said first electrically conductive electrode and extends through said first electrically conductive electrode and said electrochromic attenuator, so that said input light traveling along said at least one input optical path reflects from said second electrically conductive electrode along at least one exit optical path through said electrochromic attenuator and aid first electrically conductive electrode, and exits said electrically conductive electrode; and
a light output interface configured to extract output light from light traveling along said at least one exit optical path and exiting said first electrically conductive electrode, and wherein said light output interface is configured to direct said output light extracted by said light output interface along a further optical path, cascaded with said exit optical path and incident upon said first electrically conductive electrode and extending through said first electrically conductive electrode and said electrochromic attenuator, so that said extracted output light travels along said further optical path and reflects from said second electrically conductive electrode along a further exit optical path through said electrochromic attenuator and said first electrically conductive electrode and exits said first electrically conductive electrode.
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Accused Products
Abstract
A variable optical attenuator device is provided for modulating an optical signal. The attenuator device includes a variable attenuation assembly with an electrochromic structure interposed between a first electrode and a second electrode. The electrochromic structure is configured to reversibly change its optical characteristics from a bleached off state to a colored active state under the influence of an electrical potential applied to the first and second electrodes to thereby modulate the optical signal. The optical attenuator device includes at least one lens attached to the variable attenuation assembly. The lens cooperates with the variable attenuation assembly to direct the optical signal towards the electrochromic structure. Waveguides such as optical fibers define ports at the outer endface of the lens for the optical signal.
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Citations
12 Claims
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1. A variable optical attenuator device comprising:
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a first electrically conductive electrode that is transparent to an optical wavelength of input light;
a second electrically conductive electrode that is reflective to said optical wavelength of said input light;
an electrochromic attenuator interposed between said first and second electrically conductive electrodes, and having electrochromic attenuation properties thereof controllably adjustable in accordance with respective electrical potentials applied to said first and second electrically conductive electrodes;
a light input interface configured to direct said input light along at least one input optical path that is incident upon said first electrically conductive electrode and extends through said first electrically conductive electrode and said electrochromic attenuator, so that said input light traveling along said at least one input optical path reflects from said second electrically conductive electrode along at least one exit optical path through said electrochromic attenuator and aid first electrically conductive electrode, and exits said electrically conductive electrode; and
a light output interface configured to extract output light from light traveling along said at least one exit optical path and exiting said first electrically conductive electrode, and wherein said light output interface is configured to direct said output light extracted by said light output interface along a further optical path, cascaded with said exit optical path and incident upon said first electrically conductive electrode and extending through said first electrically conductive electrode and said electrochromic attenuator, so that said extracted output light travels along said further optical path and reflects from said second electrically conductive electrode along a further exit optical path through said electrochromic attenuator and said first electrically conductive electrode and exits said first electrically conductive electrode. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of attenuating an input light beam to produce an attenuated output light beam comprising the steps of:
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(a) providing a variable attenuator device, said variable attenuator device having a first electrically conductive electrode that is transparent to an optical wavelength of said input light beam, a second electrically conductive electrode that is reflective to said optical wavelength of said input light beam, and an electrochromic attenuator interposed between said first and second electrically conductive electrodes, and having electrochromic attenuation properties thereof controllably adjustable in accordance with respective electrical potentials applied to said first and second electrically conductive electrodes;
(b) directing said input light beam along an input optical path that passes through said first electrically conductive electrode and said electrochromic attenuator, so that said input light beam reflects from said second electrically conductive electrode and travels along an exit optical path that passes through said electrochromic attenuator and said first electrically conductive electrode, so that said input light beam is attenuated by said variable attenuator device as said input light beam travels therethrough along said input and exit optical paths, so as to realize said attenuated output light beam; and
(c) extracting said attenuated output light beam exiting said first electrically conductive electrode, and wherein step (b) further comprises redirecting said attenuated output light beam along a further optical path, cascaded with said exit optical path and incident upon said first electrically conductive electrode and extending through said first electrically conductive electrode and said electrochromic attenuator, so that said attenuated output light beam travels through said electrochromic attenuator along said further optical path and reflects from said second electrically conductive electrode along a further exit optical path through said electrochromic attenuator and said first electrically conductive electrode, and exits said first electrically conductive electrode as a further attenuated optical beam; and
wherein step (c) comprises extracting said further attenuated output light beam exiting said first electrically conductive electrode.- View Dependent Claims (8, 9, 10, 11, 12)
(b1) coupling said input light beam through a first lens that directs said input light beam along said input optical path through said first electrically conductive electrode, (b2) coupling said exit path through said first lens to a second lens that directs said attenuated output light beam along said further optical path to realize said further attenuated optical beam, and (b3) coupling said further attenuated optical beam through said second lens. -
12. The method according to claim 11, wherein said second electrically conductive electrode and said electrochromic attenuator are partitioned to form independently variable electrochromic attenuator portions, comprising a first variable electrochromic attenuator portion through which said input optical path and said exit optical path pass, and a second variable electrochromic attenuator portion through which said further optical path passes.
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Specification