Method and apparatus for local optimization of an optical transmitter

Abstract

Consistent with the present disclosure, an optical receiver is paired with an optical transmitter in a transceiver card or module, for example. During normal operation, the optical transmitter supplies optical signals for downstream transmission on a first optical communication path, and the optical receiver receives additional optical signals from a second optical communication path. During a transmitter monitoring mode (or 'loopback'), however, when monitoring of transmitter parameters is desired, an optical switch directs the output or portion thereof from the transmitter to the receiver. The receiver may then supply monitoring data or information to a control or processor circuit, which, in turn, may supply control signals to the transmitter. In response to such control signals, the performance of the transmitter may be optimized, for example, by reducing BER and/or OSNR to a desired level. The switch is then configured to block transmission of the transmitter output or portion and normal operation is commenced. Thus, consistent with the present disclosure, an optical receiver is provided to detect optical signals inbound on one optical communication path during normal operation is also used to receive optical signals directly from the transmitter during the monitoring mode. Accordingly, a dedicated monitoring receiver is not required and the system is rendered less expensive, power consumption may be minimized and space may be conserved.