Patent ID: 6243177
Filing Date: 2001-06-05
Classification: G02B,H04B,H04J

Abstract:
A bidirectional wavelength division multiplexed optical communication system having a bidirectional add-drop multiplexer interposed along a bidirectional optical waveguide, the bidirectional add-drop multiplexer comprising:a first optical circulator having at least first, second and third optical ports configured such that optical signals entering the first optical port exit through the second optical port and optical signals entering the second optical port exit through the third optical port;a first optical waveguide configured to carry a bidirectional wavelength division multiplexed optical communication signal, the bidirectional wavelength division multiplexed optical communication signal comprising a first wavelength division multiplexed optical communication signal including a plurality of first optical channels propagating in a first direction and further comprising a second wavelength division multiplexed optical communication signal comprising a plurality of second optical channels propagating in a second direction, the first optical waveguide optically communicating with the first optical port of the first optical circulator;a second optical waveguide having first and second ends, the first end of the second optical waveguide optically communicating with the second port of the first optical circulator, the second optical waveguide configured to receive the first wavelength division multiplexed signal propagating in the first direction from the first optical port of the first optical circulator;a second optical circulator having at least first, second and third optical ports configured such that optical signals entering the first optical port exit through the second optical port and optical signals entering the second optical port exit through the third optical port, the second end of the second waveguide optically communicating with the first port of the second optical circulator;a first optical channel selector for selecting one or more first optical channels from a wavelength division multiplexed optical communication signal optically communicating with the second optical port of the second optical circulator, the first optical channel selector configured to route the selected one or more first optical channels back towards the second optical port of the second optical circulator such that the selected one or more optical channels are dropped from the first wavelength division multiplexed optical communication signal and exit through the third port of the second optical circulator while remaining first channels of the first wavelength division multiplexed optical communication signal pass through the first optical channel selector;a third optical circulator having at least first, second and third optical ports configured such that optical signals entering the first optical port exit through the second optical port and optical signals entering the second optical port exit through the third optical port, the first optical port of the third optical circulator optically communicating with the first optical channel selector for receiving the remaining first channels of the first wavelength division multiplexed optical communication signal;a third optical waveguide optically communicating with the third port of the third optical circulator, the third optical waveguide optically communicating with a source of one or more first optical channels to be added to the first wavelength division multiplexed optical communication signal propagating in the first direction and configured such that the first optical channels to be added enter the third port of the third optical circulator and are output through the first port of the third optical circulator such that the first one or more optical channels to be added optically interact with the first optical channel selector and are routed back through the first port of the third optical circulator and exit through the second port of the third optical circulator along with remaining first channels from the first wavelength division multiplexed optical communication signal;a fourth optical circulator having at least first, second and third optical ports configured such that optical signals entering the first optical port exit through the second optical port and optical signals entering the third optical port exit through the first optical port, the third port of the fourth optical circulator configured to receive the remaining first channels of the first wavelength division multiplexed optical communication signal and the first set of one or more added channels from the second port of the third optical circulator such that the first wavelength division multiplexed optical communication signal exits through the first port of the fourth optical circulator;a fourth optical waveguide configured to carry the bidirectional wavelength division multiplexed optical communication signal optically communicating with the first optical port of the fourth optical circulator for receiving the first wavelength division multiplexed optical communication signal propagating in the first direction from the first port of the fourth optical circulator and for supplying the second wavelength division multiplexed optical communication signal propagating in the second direction to the first port of the fourth optical circulator;a fifth optical waveguide having first and second ends, the first end of the fifth optical waveguide optically communicating with the second port of the fourth optical circulator, the fifth optical waveguide configured to receive the second wavelength division multiplexed signal propagating in the second direction from the first port of the fourth optical circulator;a fifth optical circulator having at least first, second and third optical ports configured such that optical signals entering the first optical port exit through the second optical port and optical signals entering the second optical port exit through the third optical port, the second end of the fifth waveguide optically communicating with the first port of the fifth optical circulator;a second optical channel selector for selecting one or more second optical channels from the second wavelength division multiplexed optical communication signal, the second optical channel selector optically communicating with the second optical port of the fifth optical circulator, the second optical channel selector configured to route the selected one or more second optical channels back towards the second optical port of the fifth optical circulator such that the selected one or more optical channels are dropped from the second wavelength division multiplexed optical communication signal and exit through the third port of the fifth optical circulator while remaining second channels of the second wavelength division multiplexed optical communication signal pass through the second optical channel selector;a sixth optical circulator having at least first, second and third optical ports configured such that optical signals entering the first optical port exit through the second optical port and optical signals entering the third optical port exit through the first optical port, the first optical port of the sixth optical circulator optically communicating with the second optical channel selector;a sixth optical waveguide optically communicating with the third port of the sixth optical circulator, the sixth optical waveguide optically communicating with a source of one or more second optical channels to be added to the second wavelength division multiplexed optical communication signal propagating in the second direction and configured such that the second optical channels to be added enter the third port of the sixth optical circulator and are output through the first port of the sixth optical circulator such that the second one or more optical channels to be added optically interact with the second optical channel selector and are routed back through the first port of the sixth optical circulator and exit through the second port of the sixth optical circulator along with remaining second channels from the second wavelength division multiplexed optical communication signal;a seventh optical waveguide optically communicating with the second port of the sixth optical circulator and the third port of the first optical circulator configured such that the second wavelength division multiplexed optical signal and the second one or more added channels exiting through the second optical port of the sixth optical circulator are routed to the third optical port of the first optical circulator and output through the first optical port of the first optical circulator onto the first optical waveguide.