• DocumentCode
    2519729
  • Title

    Phase noise in oscillators: DAEs and colored noise sources

  • Author

    Demir, A.

  • Author_Institution
    Bell Labs., Murray Hill, NJ, USA
  • fYear
    1998
  • fDate
    8-12 Nov. 1998
  • Firstpage
    170
  • Lastpage
    177
  • Abstract
    Oscillators are key components of electronic systems. Undesired perturbations, i.e. noise, in practical electronic systems adversely affect the spectral and timing properties of oscillators resulting in phase noise, which is a key performance limiting factor, being a major contributor to bit-error-rate (BER) of RF communication systems, and creating synchronization problems in clocked and sampled data systems. We first present a theory and numerical methods for nonlinear perturbation and noise analysis of oscillators described by a system of differential algebraic equations (DAEs), which extends our recent results on perturbation analysis of autonomous ordinary differential equations (ODEs). In developing the above theory, we rely on novel results we establish for linear periodically time varying (LPTV) systems: Floquet theory for DAEs. We then use this nonlinear perturbation analysis to derive the stochastic characterization, including the resulting oscillator spectrum, of phase noise in oscillators due to colored (e.g., 1/f noise), as opposed to white noise sources. The case of white noise sources has already been treated by us in a recent publication (A. Demir et al., 1998). The results of the theory developed in this work enabled us to implement a rigorous and effective analysis and design tool in a circuit simulator for low phase noise oscillator design.
  • Keywords
    circuit simulation; differential equations; oscillators; phase noise; stochastic processes; time-varying systems; 1/f noise; DAEs; Floquet theory; RF communication systems; autonomous ordinary differential equations; bit-error-rate; circuit simulator; colored noise sources; differential algebraic equations; electronic systems; linear periodically time varying systems; low phase noise oscillator design; noise analysis; nonlinear perturbation; nonlinear perturbation analysis; oscillator spectrum; oscillators; perturbation analysis; phase noise; sampled data systems; stochastic characterization; synchronization problems; timing properties; white noise sources; Bit error rate; Clocks; Colored noise; Communication systems; Oscillators; Phase noise; Radio frequency; Synchronization; Timing; White noise;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Computer-Aided Design, 1998. ICCAD 98. Digest of Technical Papers. 1998 IEEE/ACM International Conference on
  • Conference_Location
    San Jose, CA, USA
  • Print_ISBN
    1-58113-008-2
  • Type

    conf

  • DOI
    10.1109/ICCAD.1998.144262
  • Filename
    742868