Reconfigurable optical switch apparatus
First Claim
1. A reconfigurable optical switch apparatus comprising:
- m input ports each arranged to receive an optical signal having a respective one of y wavelengths;
m output ports each arranged to output an optical signal having a respective one of the y wavelengths;
k add ports each arranged to receive an optical signal to be added at one of the y wavelengths;
k drop ports each arranged to output an optical signal to be dropped at one of the y wavelengths; and
a switch matrix comprising m×
k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port,wherein each one of the wavelength selective optical switches comprises a first port and a fourth port arranged in a respective one of said columns and a second port and a third port arranged along a respective one of said rows, each one of the wavelength selective optical switches having an OFF state in which each optical signal having one of the y wavelengths received at the third port is output at the second port and each optical signal having one of the y wavelengths received at the fourth port is output at the first port and each one of the wavelength selective optical switches having an ON state in which an optical signal having a preselected wavelength of the y wavelengths received at the third port is output at the first port and an optical signal having said preselected wavelength received at the fourth port is output at the second port, and in which each optical signal received which does not have the preselected wavelength is routed in the same manner as in the OFF state;
and wherein the columns are grouped in adjacent pairs, in each pair a first column being connected to a respective drop port on a first side of the switch matrix and each wavelength selective switch in said first column having the fourth port arranged on said first side and a second column, adjacent the first column, being connected to a respective drop port on a second side, opposite the first side, of the switch matrix and each one of the wavelength selective switches in said second column having the fourth port arranged on said second side, and wherein each of m, k and y is an integer which is at least 2.
1 Assignment
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Accused Products
Abstract
A reconfigurable optical switch apparatus comprising m input ports, m output ports, k add ports, k drop ports and a switch matrix comprising m×k wavelength selective optical switches arranged in m rows and k columns. Each switch comprises first, second, third and fourth ports. The columns are grouped in adjacent pairs, in each pair a first column being connected to a respective drop port on a first side of the switch matrix and each wavelength selective switch in said first column having the fourth port arranged on said first side and a second column, adjacent the first column, being connected to a respective drop port on a second side, opposite the first side, of the switch matrix and each wavelength selective switch in said second column having the fourth port arranged on said second side.
7 Citations
18 Claims
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1. A reconfigurable optical switch apparatus comprising:
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m input ports each arranged to receive an optical signal having a respective one of y wavelengths; m output ports each arranged to output an optical signal having a respective one of the y wavelengths; k add ports each arranged to receive an optical signal to be added at one of the y wavelengths; k drop ports each arranged to output an optical signal to be dropped at one of the y wavelengths; and a switch matrix comprising m×
k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port,wherein each one of the wavelength selective optical switches comprises a first port and a fourth port arranged in a respective one of said columns and a second port and a third port arranged along a respective one of said rows, each one of the wavelength selective optical switches having an OFF state in which each optical signal having one of the y wavelengths received at the third port is output at the second port and each optical signal having one of the y wavelengths received at the fourth port is output at the first port and each one of the wavelength selective optical switches having an ON state in which an optical signal having a preselected wavelength of the y wavelengths received at the third port is output at the first port and an optical signal having said preselected wavelength received at the fourth port is output at the second port, and in which each optical signal received which does not have the preselected wavelength is routed in the same manner as in the OFF state; and wherein the columns are grouped in adjacent pairs, in each pair a first column being connected to a respective drop port on a first side of the switch matrix and each wavelength selective switch in said first column having the fourth port arranged on said first side and a second column, adjacent the first column, being connected to a respective drop port on a second side, opposite the first side, of the switch matrix and each one of the wavelength selective switches in said second column having the fourth port arranged on said second side, and wherein each of m, k and y is an integer which is at least 2. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A reconfigurable optical add drop multiplexer comprising:
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a plurality of optical signal demultiplexers each arranged to receive an input wavelength division multiplexed optical signal and arranged to demultiplex the input optical signal into a plurality of optical signals each having a different one of y wavelengths; a reconfigurable optical switch apparatus comprising; m input ports each arranged to receive a respective said optical signal, m output ports each arranged to output an optical signal having a respective one of the y wavelengths, k add ports each arranged to receive an optical signal to be added at one of the y wavelengths, k drop ports each arranged to output an optical signal to be dropped at one of the y wavelengths, a switch matrix comprising m×
k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port,wherein each one of the wavelength selective optical switches comprises a first port and a fourth port arranged in a respective one of said columns and a second port and a third port arranged along a respective one of said rows, each one of the wavelength selective optical switches having an OFF state in which each optical signal having one of the y wavelengths received at the third port is output at the second port and each optical signal having one of the y wavelengths received at the fourth port is output at the first port and each one of the wavelength selective optical switches having an ON state in which an optical signal having a preselected wavelength of the y wavelengths received at the third port is output at the first port and an optical signal having said preselected wavelength received at the fourth port is output at the second port, and in which each optical signal received which does not have the preselected wavelength is routed in the same manner as in the OFF state, and wherein the columns are grouped in adjacent pairs, in each pair a first column being connected to a respective drop port on a first side of the switch matrix and each wavelength selective switch in said first column having the fourth port arranged on said first side and a second column, adjacent the first column, being connected to a respective drop port on a second side, opposite the first side, of the switch matrix and each one of the wavelength selective switch in said second column having the fourth port arranged on said second side, and wherein each of m, k and y is an integer which is at least 2; a plurality of optical signal multiplexers each arranged to receive a respective optical signal from a plurality of the output ports and arranged to multiplex the received optical signals into an output wavelength division multiplexed optical signal; and a controller configured to generate a switch control signal arranged to cause a wavelength selective optical switch to change between the OFF state and the ON state. - View Dependent Claims (10)
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11. A method of controlling reconfigurable optical switch apparatus, wherein the apparatus includes m input ports, m output ports, k add ports, and k drop ports, and a switch matrix comprising m×
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the method comprising;
selecting one of the input ports; selecting one of the output ports and the drop ports to be connected to the selected input port; selecting a path for an optical signal at a selected one of y wavelengths across the switch matrix from the selected input port to the selected one of the output ports and the drop ports; generating and transmitting a switch control signal for each one of the wavelength selective optical switches required to change between an OFF state and an ON state to establish the selected path; selecting one of the drop ports to be connected to the selected input port and selecting one of the add ports and one of the output ports to be connected; selecting a first path for a first optical signal at a selected one of the y wavelengths across the switch matrix from the selected input port to the selected drop port and selecting a second path for a second optical signal at the selected wavelength across the switch matrix from the selected add port to the selected output port, wherein the first path and the second path share one of the wavelength selective optical switches; and generating and transmitting a switch control signal for said shared wavelength selective optical switch, the switch control signal being arranged to cause said shared wavelength selective optical switch to be in the ON state to simultaneously establish the first path and the second path. - View Dependent Claims (12)
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the method comprising;
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13. A data carrier having computer readable instructions embodied therein, the computer readable instructions being for providing access to resources available on a processor, the computer readable instructions comprising instructions to cause the processor to perform the following operations on an apparatus, wherein the apparatus includes m input ports, m output ports, k add ports, and k drop ports, and a switch matrix comprising m×
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the operations comprising;
selecting one of the input ports; selecting one of the output ports and the drop ports to be connected to the selected input port; selecting a path for an optical signal at a selected one of y wavelengths across the switch matrix from the selected input port to the selected one of the output ports and the drop ports; and generating and transmitting a switch control signal for each one of the wavelength selective optical switches required to change between an OFF state and an ON state to establish the selected path; selecting one of the drop ports to be connected to the selected input port and selecting one of the add ports and one of the output ports to be connected;
selecting a first path for a first optical signal at a selected one of the y wavelengths across the switch matrix from the selected input port to the selected the drop port and selecting a second path for a second optical signal at the selected wavelength across the switch matrix from the selected add port to the selected the output port, wherein the first path and the second path share one of the wavelength selective optical switches; andgenerating and transmitting a switch control signal for said shared wavelength selective optical switch, the switch control signal being arranged to cause said shared wavelength selective optical switch to be in the ON state to simultaneously establish the first path and the second path. - View Dependent Claims (14)
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the operations comprising;
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15. A method of controlling reconfigurable optical switch apparatus, wherein the apparatus includes m input ports, m output ports, k add ports, and k drop ports, and a switch matrix comprising m×
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the method comprising;
selecting one of the input ports; selecting one of the drop ports to be connected to the selected input port and selecting one of the add ports and one of the output ports to be connected; selecting a first path for a first optical signal at a selected one of the y wavelengths across the switch matrix from the selected input port to the selected drop port and selecting a second path for a second optical signal at the selected wavelength across the switch matrix from the selected add port to the selected output port, wherein the first path and the second path share one of the wavelength selective optical switches; and generating and transmitting a switch control signal for said shared wavelength selective optical switch, the switch control signal being arranged to cause said shared wavelength selective optical switch to be in an ON state to simultaneously establish the first path and the second path. - View Dependent Claims (16)
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the method comprising;
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17. A data carrier having computer readable instructions embodied therein, the computer readable instructions being for providing access to resources available on a processor, the computer readable instructions comprising instructions to cause the processor to perform the following operations on an apparatus, wherein the apparatus includes m input ports, m output ports, k add ports, and k drop ports, and a switch matrix comprising m×
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the operations comprising;
selecting one of the input ports; selecting one of the drop ports to be connected to the selected input port and selecting one of the add ports and one of the output ports to be connected; selecting a first path for a first optical signal at a selected one of the y wavelengths across the switch matrix from the selected input port to the selected the drop port and selecting a second path for a second optical signal at the selected wavelength across the switch matrix from the selected add port to the selected the output port, wherein the first path and the second path share one of the wavelength selective optical switches; and generating and transmitting a switch control signal for said shared wavelength selective optical switch, the switch control signal being arranged to cause said shared wavelength selective optical switch to be in an ON state to simultaneously establish the first path and the second path. - View Dependent Claims (18)
- k wavelength selective optical switches arranged in m rows, each connected between a respective input port and a respective output port, and further arranged in k columns, each connected at one end to a respective drop port and at an opposite end to a respective add port, the operations comprising;
Specification