Claims
- 1. An optical distributor having:
- one optical input device and 2.sup.n optical output devices, where n is an integer greater than 1,
- said distributor being adapted to split an optical signal received at said input device into 2.sup.n optical signals distributed one to each of said optical output devices, whereby said distributor provides one complete optical beam path from said input device to each of said output devices;
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and two or more transflective surfaces;
- said mirror and transflective surfaces being arranged such that:
- the intersections of said complete beam paths and said transflective surfaces define 2.sup.n -1 transflective means,
- each of said transflective means splits an incident beam path into a reflected beam path and a transmitted beam path,
- every complete beam path makes exactly n transitions of said transflective means, and
- at least one of said transflective surfaces contains at least two of said transflective means.
- 2. An optical distributor having:
- one optical input device and 2.sup.n optical output devices where n is an integer greater than 2,
- said distributor being adapted to split an optical signal received at said input device into 2.sup.n optical signals distributed one to each of said optical output devices, whereby said distributor provides one complete optical beam path from said input device to each of said output devices;
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and n transflective surfaces;
- said mirror and transflective surfaces being arranged such that:
- the intersections of said complete beam paths and said transflective surfaces define 2.sup.n -1 transflective means,
- each of said transflective means splits an incident beam path into a reflected beam path and a transmitted beam path,
- every complete beam path makes exactly n transistions of said transflective means, and
- one of said transflective surfaces contains 2.sup.n-1 of said transflective means.
- 3. An optical distributor having:
- one optical input device and 2.sup.n optical output devices where n is an integer greater than 2,
- said distributor being adapted to split an optical signal received at said input device into 2.sup.n optical signals distributed one to each of said optical output devices, whereby said distributor provides one complete optical beam path from said input device to each of said output devices;
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and n transflective surfaces;
- said mirror and transflective surfaces being arranged such that:
- the intersections of said complete beam paths and said transflective surfaces define 2.sup.n-1 transflective means, namely one first transflective surface, one last transflective surface and (n-2) intermediate transflective surfaces,
- each of said transflective means splits an incident beam path into a reflected beam path and a transmitted beam path,
- every complete beam path makes exactly n transitions of said transflective means,
- said first transflective surface contains one transflective means,
- said last transflective surface contains (2.sup.n-1) transflective means, each having its reflective beam path and its transmitted beam path connected to different ones of said output devices such that each output device is connected to one of said transflective means,
- for the or each integral value of m in the range m=1 to m=n-2 inclusive; there is an intermediate transflective surface which contains 2.sup.m of the transflective means.
- 4. An optical distributor according to claim 3, which has one mirror surface, and all of said transflective surfaces are parallel to said mirror surface.
- 5. An optical distributor according to claim 4, wherein the transmitted beam from each transflective means in said first transflective surface and the or each intermediate transflective surface goes directly to another transflective means and each reflected beam from said transflective means goes to another transflective means by way of reflection from said mirror.
- 6. An optical distributor according to claim 3, wherein all of said transflective surfaces are coplanar, whereby all of said transflective means are located in a single transflective plane, and each of said transflective surfaces is located between and parallel to two mirror surfaces.
- 7. An optical distributor having:
- 2.sup.n optical input devices and 2.sup.n optical output devices, where n is an integer greater than 1,
- said distributor being adapted to split an optical signal received at any one of said input devices into 2.sup.n optical signals distributed one to each of said optical output devices, whereby said distributor provides one complete optical beam path from each of said input devices to each of said output devices;
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and two or more transflective surfaces;
- said mirror and transflective surfaces being arranged such that:
- the intersections of said complete beam paths and said transflective surfaces define n2.sup.n-1 transflective means,
- each of said transflective means has two primary paths and two secondary paths, such that an optical signal received by either one of said primary paths is provided as a reflected signal in one of said secondary paths, and as a transmitted signal in the other of said secondary paths,
- every complete beam path makes exactly n transitions of said transflective means, and
- at least one of said transflective surfaces contains at least 2 of said transflective means.
- 8. An optical distributor having:
- 2.sup.n optical input devices and 2.sup.n optical output devices, where n is 154 integer greater than 1,
- said distributor being adapted to split an optical signal received at any one of said input devices into 2.sup.n optical signals distributed one to each of said optical output devices, whereby said distributor provides one complete optical beam path from each of said input devices to each of said output devices;
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and two or more transflective surfaces;
- said mirror and transflective surfaces being arranged such that:
- the intersections of said complete beam paths and said transflective surfaces define n2.sup.n-1 transflective means,
- each of said transflective means has two primary paths and two secondary paths, such that an optical signal received by either one of said primary paths is provided as a reflected signal in one of said secondary paths, and as a transmitted signal in the other of said secondary paths,
- every complete beam path makes exactly n transitions of said transflective means, and
- at least one of said transflective surfaces contains 2.sup.n-1 of said transflective means.
- 9. An optical distributor having:
- 2.sup.n optical input devices and 2.sup.n optical output devices where n is an integer greater than 2,
- said distributor being adapted to split an optical signal received at any one of said input devices into 2.sup.n optical signals distributed one to each of said optical output devices, whereby said distributor provides one complete optical beam path from each of said input devices to each of said output devices;
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and n transflective surfaces;
- said mirror and transflective surfaces being arranged such that:
- the intersections of said complete beam paths and said transflective surfaces define n2.sup.n-1 transflective means,
- each of said transflective means has two primary paths and two secondary paths, such that an optical signal received by either one of said primary paths is provided as a reflected signal in one of said secondary paths, and as a transmitted signal in the other of said secondary paths,
- every complete beam path makes exactly n transitions of said transflective means, and
- each of said transflective surfaces contains 2.sup.n-1 of said transflective means.
- 10. An optical distributor having:
- one optical input device, and 2.sup.n optical output devices, where n is an integer greater than 2, said distributor being adapted to split an optical signal received at said input device into 2.sup.n optical signals and to provide one of said signals to each of said output devices whereby said distributor provides one complete optical path from said input device to each of said optical devices,
- wherein said distributor also comprises:
- one or more plane mirror surfaces, and
- a sequence of n transflective stages said sequence including one first transflective stage; (n-2) intermediate transflective stages, and, one last transflective stage
- wherein:
- said first transflective stage includes one transflective means whereat the one beam path defined by the input device is split into a reflected beam path and transmitted beam path;
- the or each of said intermediate transflective states has a predecessor transflective stage being either the first transflective stage or another of said intermediate transflective stages and a successor transflective stage being either the last transflective stage or another intermediate transflective stage different from said predecessor transflective stage and each of said intermediate transflective stages contains twice as many transflective means as its predecessor transflective stage; and
- said last transflective stage has the or one of said intermediate transflective stages as its predecessor transflective stage and it includes 2.sup.n-1 transflective means each of which splits an incident beam path into a reflected beam path directed to one of said output devices and a transmitted beam path directed to a different one of said output devices whereby each output device is located on one of said beam paths;
- wherein:
- each transflective means contained in the or each intermediate transflective stage has an incident beam path directed from a transflective means in the predecessor transflective stage said incident beam path being split into a reflected beam path forming the incident beam path to one of the transflective means in the successors transflective stage and a transmitted beam path forming the incident beam path of a different one of the transflective means in said successor transflective stage,
- and wherein:
- all of the transflective means contained in at least one of said intermediate and last transflective stages are located on a single transflective surface.
- 11. An optical distributor according to claim 10, which comprises one transflective surface corresponding to each one of said transflective stages wherein each of said transflective surfaces contains the or all of the transflective means in the corresponding transflective stage.
- 12. An optical distributor according to claim 11, which has one mirror surface, and all of said transflective surfaces are parallel to said mirror surface.
- 13. An optical distributor according to claim 11, wherein all of said transflective surfaces are coplanar, whereby all of said transflective means are located in a single transflective plane, and each of said transflective surfaces is located between and parallel to two mirror surfaces.
- 14. An optical distributor having:
- 2.sup.n optical input devices, and 2.sup.n optical output devices, where n is an integer greater than 2, said distributor being adapted to split an optical signal received at any one of said input devices into 2.sup.n optical signals and to provide one of said signals to each of said output devices whereby said distributor provides one complete optical path from each said input device to each of said output devices,
- wherein said distributor also comprises one or more plane mirror surfaces, and
- a sequence of n transflective stages each of which contains 2.sup.n-1 transflective means and said sequence includes one first transflective stage, (n-2) intermediate transflective stages, and, one last transflective stage;
- wherein:
- each of said transflective means has two primary paths and two secondary paths, such that an optical signal received by either one of said primary paths is provided as a reflected signal in one of said secondary paths, and as a transmitted signal in the other of said secondary paths,
- the one beam path defined by each of the input devices is received as one of the primary beam paths of one of the transflective means in said first transflective stage;
- the or each of said intermediate transflective stages has a predecessor transflective stage being either the first transflective stage or another of said intermediate transflective stages and a successor transflective stage being either the last transflective stage or another intermediate transflective stage different from said predecessor transflective stage;
- said last transflective stage has the or one of said intermediate transflective stages as its predecessor transflective stage and each secondary beam path of each transflective means contained in said last transflective stage is directed to one of said output devices whereby each output device is located on one of said beam secondary paths;
- wherein:
- each transflective means contained in the or each intermediate transflective stage has its primary beam paths directed from different transflective means in the predecessor transflective stage and its secondary beam paths directed to different transflective means in the successor transflective stage;
- and wherein:
- all of the transflective means contained in at least one of said first, intermediate and last transflective stages are located on a single transflective surface.
- 15. An optical distributor according to claim 14, which comprises one transflective surface corresponding to each one of said transflective stages wherein each of said transflective surfaces contains the or all of the transflective means in the corresponding transflective stage.
- 16. An optical distributor according to claim 15, wherein all of said transflective surfaces and all of said mirror surfaces are parallel.
- 17. An optical distributor according to claim 11, wherein all of said transflective surfaces are coplanar, whereby all of said transflective means are located in a single transflective plane, and each of said transflective surfaces is located between and parallel to at least two mirror surfaces.
Priority Claims (1)
Number |
Date |
Country |
Kind |
8721472 |
Sep 1987 |
GBX |
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Parent Case Info
This is a continuation of application Ser. No. 07/358,358, filed as PCT/GB88/00746, Sep. 9, 1988, now abandoned.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
2267948 |
Rantsch |
Dec 1941 |
|
3501640 |
Harris |
Mar 1970 |
|
Foreign Referenced Citations (3)
Number |
Date |
Country |
2454996 |
May 1976 |
DEX |
2341873 |
Oct 1976 |
FRX |
2187861A |
Sep 1987 |
GBX |
Non-Patent Literature Citations (2)
Entry |
Japanese Patent Abstracts, vol. 7, No. 73 Mar. 25, 1983. |
Journal of Lightwave Technology, Vo LT-3, No. 2, Apr. 1985 4.times.4 Optical Gate Matrix Switch, Himeno et al. |
Continuations (1)
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Number |
Date |
Country |
Parent |
358358 |
May 1989 |
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