Title :
Self-Consistent Steady-State Simulation of Microwave Photonic Systems Using Harmonic Balance
Author :
Amini, Arash Ali ; Gunupudi, Pavan
Author_Institution :
Dept. of Electron., Carleton Univ., Ottawa, ON, Canada
Abstract :
This paper presents a technique to perform steady-state simulation of optical-electrical systems using the harmonic balance (HB). One of the unique features of this method is that it includes the phase of the optical signal in finding the steady-state solution of the system. The inclusion of phase in a framework using HB poses several challenges since all system variables in HB are assumed to be periodic, whereas the phase of optical signals is, in general, nonperiodic, owing to the nonzero chirp present in laser diodes that are used as drivers for the optical systems. Several examples are presented that demonstrate the feasibility of the proposed method, and, where possible, the results are compared with theory and existing techniques.
Keywords :
microwave photonics; semiconductor lasers; HB; harmonic balance; laser diodes; microwave photonic systems; nonzero chirp; optical signal; optical-electrical systems; self-consistent steady-state simulation; steady-state simulation; steady-state solution; Diode lasers; Mathematical model; Microwave circuits; Optical imaging; Optical mixing; Chirp; circuit simulation; diode lasers; frequency-locked loops; integrated optoelectronics; microwave communication; microwave generation; microwave photonics; negative feedback; optical mixing; optoelectronic devices; photonic integrated circuits;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2013.2286527
