Optical transmitter for wdm systems

Abstract

An optical transmitter for generating any one of N carrier signals for use in an M-channel WDM system (M≧N), each channel operating at a different carrier wavelength &lgr;,(s=1, 2 . . . M), includes an optical source for generating the carrier signals at any one of multiplicity of N wavelengths &lgr;,(i=1, 2 . . . N), where (1≦N≦M). A first controller selects a particular one of the wavelengths &lgr;,at which the source operates. An optical modulator receives the carrier signal corresponding to the selected wavelength &lgr;,and impresses information on the received signal. The modulator has a characteristic electronic bandgap and a wavelength &lgr;,corresponding thereto. At a given temperature, &lgr;,is offset from each &lgr;,by an amount &Dgr;&lgr;,. For each wavelength &lgr;,there is a predetermined value of &Dgr;&lgr;,which delivers preferred (e.g., optimum) transmission performance. In general, however, the actual &Dgr;&lgr;,may not be equal to the predetermined &Dgr;&lgr;,for all values of i. The difference between the actual &Dgr;&lgr;,and the predetermined &Dgr;&lgr;,is termed the detuning error. In accordance with one aspect of my invention, the transmitter includes a second controller for minimizing the detuning error. In a preferred embodiment, the second controller changes the temperature of the modulator as the wavelength of the source is changed (i.e., as different &lgr;,are selected) so that &Dgr;&lgr;,is controlled according to the above criterion. In one embodiment, in which the wavelength of the source can be tuned independent of the temperature of the modulator, the second controller maintains the detuning error essentially zero for all values of i selected. In another embodiment, in which the wavelength of source is not tuned independent of the temperature of the modulator, &lgr;,is detuned from &lgr;,by a predetermined amount related to the rate of change of &lgr;,and &lgr;,with respect to temperature.