Upgrading PON systems using a multi-cycle field AWG

What is claimed is: 1. A method comprising: receiving, at an optical system, a feeder optical signal and optical network unit signals; and multiplexing/demultiplexing, at the optical system, between the feeder optical signal and the optical network unit signals, wherein for a first period of time, the feeder optical signal comprises a first optical line terminal signal comprising a wavelength in a first upstream free spectral range and a wavelength in a first downstream free spectral range, and each optical network unit signal comprises a first upstream wavelength in the first upstream free spectral range and a first downstream wavelength in the first downstream free spectral range, and wherein for a second period of time subsequent to the first period of time, the feeder optical signal comprises the first optical line terminal signal and a second optical line terminal signal, the second optical line terminal signal comprising a wavelength in a second upstream free spectral range and a wavelength in a second downstream free spectral range, and each optical network unit signal comprises the first upstream wavelength in the first upstream free spectral range, the first downstream wavelength in the first downstream free spectral range, a second upstream wavelength in the second upstream free spectral range, and a second downstream wavelength in the second downstream free spectral range. 2. The method of claim 1 , further comprising, for the first period of time, transmitting at least one of the optical network unit signals from the optical system to a first optical network unit optically connected with the optical system and configured to receive an optical network unit signal having the first upstream wavelength in the first upstream free spectral range and the first downstream wavelength in the first downstream free spectral range. 3. The method of claim 1 , further comprising, for the second period of time, transmitting at least one of the optical network unit signals from the optical system to: a first optical network unit optically connected with the optical system and configured to receive an optical network unit signal having the first upstream wavelength in the first upstream free spectral range and the first downstream wavelength in the first downstream free spectral range; and a second optical network unit optically connected with the optical system and configured to receive an optical network unit signal having the second upstream wavelength in the second upstream free spectral range and the second downstream wavelength in the second downstream free spectral range. 4. The method of claim 3 , wherein the first optical network unit and the second network unit operate using different protocols. 5. The method of claim 3 , wherein the first optical network unit and the second optical network unit each comprises a fixed bandpass filter. 6. The method of claim 1 , wherein for a third period of time subsequent to the second period of time, the feeder optical signal comprises the second optical line terminal signal absent the first optical line terminal signal, and each optical network unit signal comprises the second upstream wavelength in the second upstream free spectral range and the second downstream wavelength in the second downstream free spectral range, absent the first upstream wavelength in the first upstream free spectral range and the first downstream wavelength in the first downstream free spectral range. 7. The method of claim 6 , further comprising, for the third period of time, transmitting at least one of the optical network unit signals from the optical system to a second optical network unit optically connected with the optical system and configured to receive an optical network unit signal having the second upstream wavelength in the second upstream free spectral range and the second downstream wavelength in the second downstream free spectral range. 8. The method of claim 1 , wherein the first upstream free spectral range and the first downstream free spectral range are associated with a first protocol, and the second upstream free spectral range and the second downstream free spectral range are associated with a second protocol different from the first protocol. 9. The method of claim 1 , wherein the optical system comprises a cyclical arrayed waveguide grating. 10. The method of claim 1 , wherein the optical system comprises an arrayed waveguide grating having outputs, wherein at least two outputs are optically connected with a coupler. 11. A method comprising: receiving, at an optical system, a feeder optical signal and optical network unit signals; and multiplexing/demultiplexing, at the optical system, between the feeder optical signal and the optical network unit signals, wherein for a first period of time, the feeder optical signal comprises a first optical line terminal signal and a second optical line terminal signal, the first optical line terminal signal comprising a wavelength in the first upstream free spectral range and a wavelength in the first downstream free spectral range, the second optical line terminal signal comprising a wavelength in the second upstream free spectral range and a wavelength in the second downstream free spectral range, each optical network unit signal comprises a first upstream wavelength in the first upstream free spectral range, a first downstream wavelength in the first downstream free spectral range, a second upstream wavelength in the second upstream free spectral range, and a second downstream wavelength in the second downstream free spectral range, and wherein for a second period of time subsequent to the first period of time, the feeder optical signal comprises the second optical line terminal signal absent the first optical line terminal signal, and each optical network unit signal comprises the second upstream wavelength in the second upstream free spectral range, and a second downstream wavelength in the second downstream free spectral range, absent the first upstream wavelength in the first upstream free spectral range and the first downstream wavelength in the first downstream free spectral range. 12. The method of claim 11 , further comprising for a third period of time subsequent to the second period of time, the feeder optical signal comprises a third optical line terminal signal, different from the first and second optical line terminal signals, and the second optical line terminal signal, the third optical line terminal signal comprising wavelengths in the first upstream free spectral range and the first downstream free spectral range, the second optical line terminal signal comprising wavelengths in the second upstream free spectral range and the second downstream free spectral range, each optical network unit signal comprises a third upstream wavelength in the first upstream free spectral range, a third downstream wavelength in the first downstream free spectral range, the second upstream wavelength in the second upstream free spectral range, and the second downstream wavelength in the second downstream free spectral range. 13. The method of claim 12 , wherein the wavelengths of the first upstream spectral range and the first downstream free spectral range are associated with a first protocol for the first period of time and a second protocol for the third period of time, and the wavelengths of the second upstream free spectral range and the second downstream free spectral range are associated with a third protocol for the first, second, and third periods of time, the third protocol different than the first and/or second protocol.