System, a wavelength isolator and methods therein for supervision of a passive optical network

The invention claimed is: 1. A system for supervision of a Passive Optical Network, PON, comprising: an Optical Time Domain Reflectometer, OTDR device, adapted to generate N+1 OTDR signals of wavelengths λ 0 , λ 1 , . . . , λ N , respectively, and to inject the OTDR signals in a fibre link towards Optical Network Users, ONUs, a splitter having N output branches, wherein an input of the splitter is connected to the output of the OTDR device and the output branches of the splitter are connected to the ONUs, wherein the splitter is arranged to split the received OTDR signals and forward them towards the ONUs, and a wavelength isolator having inputs connected to the splitter output branches, the wavelength isolator being configured to isolate, on individual inputs, one predetermined wavelength of the received OTDR signals per individual input, wherein two inputs of the wavelength isolator do not isolate the same wavelength and to forward, from each of the inputs of the wavelength isolator, the received OTDR signals except the respective isolated wavelength to associated outputs of the wavelength isolator towards the ONUs, which are connected to the wavelength isolator by individual fibre links, thereby filtering out one predetermined wavelength of the OTDR signal per fibre link, wherein each individual input of the wavelength isolator is connected to a second port of a respective first circulator having three ports, wherein a third port of the first circulator is connected to a reflector reflecting one predetermined wavelength specific for each individual input, the reflector further being connected to a first port of a second circulator having three ports, wherein the second port of the second circulator is connected to one individual output of the wavelength isolator associated with a respective individual input, wherein the third port of the second circulator is connected to a first port of the first circulator. 2. The system according to claim 1 , wherein the wavelength isolator is adapted to receive backscattered light from along the fibre links and to forward the received backscattered light to the splitter towards the OTDR device. 3. The system according to claim 1 , wherein the number of generated OTDR signals of individual wavelengths is at least one more than the number of ONUs which are connected to the splitter by the individual fibre links. 4. A wavelength isolator having inputs connectable to splitter output branches of a splitter, the wavelength isolator being configured to receive OTDR signals on the inputs and to isolate one predetermined wavelength of a received optical signal per individual input, wherein two inputs of the wavelength isolator do not isolate the same wavelength, the wavelength isolator further being adapted to forward, from each of the inputs of the wavelength isolator, a received OTDR signal of any wavelengths except the respective isolated wavelength for each respective input to associated individual outputs of the wavelength isolator and to output from the individual outputs, the forwarded respective OTDR signals, wherein each individual input of the wavelength isolator is connected to a second port of a respective first circulator having three ports, wherein a third port of the first circulator is connected to a reflector reflecting one predetermined wavelength specific for each individual input, the reflector further being connected to a first port of a second circulator having three ports, wherein the second port of the second circulator is connected to one individual output of the wavelength isolator associated with a respective individual input, wherein the third port of the second circulator is connected to a first port of the first circulator. 5. The wavelength isolator according to claim 4 , wherein when the wavelength isolator is employed in a Passive Optical Network, PON, the inputs of the wavelength isolator are connected to splitter output branches of a splitter and the outputs of the wavelength isolator are connected to fibre links towards Optical Network Users, ONUs. 6. The wavelength isolator according to claim 4 , wherein each individual input of the wavelength isolator is associated with one individual output of the wavelength isolator. 7. The wavelength isolator according to claim 4 , wherein the reflector is a Bragg reflector. 8. A method in a system for supervision of a Passive Optical Network, PON, comprising: generating, in an OTDR device, N+1 OTDR signals of wavelengths λ 0 , λ 1 , . . . , λ N , respectively, and injecting the OTDR signals in fibre links to a splitter towards Optical Network Users, ONUs, receiving and splitting, in the splitter having N output branches, the OTDR signals, wherein the OTDR signals are received on an input of the splitter and are outputted on output branches to a wavelength isolator towards the ONUs, and receiving the OTDR signals in the wavelength isolator and isolating, in the wavelength isolator having inputs connected to the splitter output branches, on individual inputs, one predetermined wavelength of the received OTDR signals per individual input, wherein two inputs of the apparatus do not isolate the same wavelength and forwarding, from each of the inputs of the wavelength isolator, the respective received OTDR signals except the respective isolated wavelength to associated outputs of the wavelength isolator towards the ONUs, which are connected to the wavelength isolator by individual fibre links, thereby filtering out one predetermined wavelength of the N+1 OTDR signal per individual fibre link to individual ONUs, wherein output branch k from the splitter is to be supervised, the method further comprising: generating, at the OTDR device, a reference OTDR signal comprising one wavelength, λ 0 , which wavelength is not isolated in the wavelength isolator for any output branch and injecting the reference OTDR in fibre links to the splitter towards the ONUs, receiving, at the OTDR device, backscattered light from the reference OTDR signal constituting reference trace, generating, at the OTDR device, a second OTDR signal comprising wavelength λ k which wavelength is isolated in the wavelength isolator only for output branch k of the wavelength isolator and injecting the second OTDR signal in fibre links to the splitter towards the ONUs, receiving, at the OTDR device, backscattered light from the second OTDR signal constituting a second trace, and subtracting, at the OTDR device, the second trace from the reference trace, thereby obtaining a trace for output branch k from the splitter. 9. The method according to claim 8 , further comprising receiving, at the wavelength isolator, backscattered light from the fibre links to the ONUs from the N+1 OTDR signals and forwarding, from the wavelength isolator, the received backscattered light to the splitter towards the OTDR device, the backscattered light constituting traces when received at the OTDR device. 10. The method according to claim 8 , wherein the number of generated OTDR signals is at least one more than the number of ONUs which are connected to the splitter. 11. A method in a wavelength isolator connectable to splitter output branches of a splitter, for isolating, on individual inputs, one predetermined wavelength of received OTDR signals, from an OTDR device, per individual input, wherein two inputs of the wavelength isolator do not isolate the same wavelength, the method comprising: receiving the OTDR signals on inputs of the wavelength isolator, isolating, on each individual inputs, one predetermined wavelength of the received OTDR signals, which isolated wavelength is specific for one specific input, forwarding, from each of the inputs of the