Detail publikace

Time-Domain Pre-Distortion Technique Using Raised Cosine Shaping for High-Speed Serial Signaling

Originální název

Time-Domain Pre-Distortion Technique Using Raised Cosine Shaping for High-Speed Serial Signaling

Anglický název

Time-Domain Pre-Distortion Technique Using Raised Cosine Shaping for High-Speed Serial Signaling

Jazyk

en

Originální abstrakt

In this paper the innovative time-domain pre-distortion method is proposed. This method (PWM-RC) uses raised-cosine (RC) pulse shaping and pulse-width modulation (PWM) scheme to achieve better output channel data response. The conventional pre-distortion methods based on finite impulse response (FIR) filtering are not compatible with modern low-power CMOS design. Existing perspective time-domain pre-distortion methods show many high frequency harmonic components in the pre-emphasized signal. It can cause more system crosstalk susceptibility, where the additional pre-emphasis boosted the undesirable high frequency components. The proposed method reduces the content of higher harmonic components at the pre-emphasized output signal and ISI (inter-symbol interference) effects. Advantageous properties of the PWM scheme such as high channel loss compensation are preserved. Finally, the simulation results realized in MathCAD and ADS Agilent Development Studio are introduced.

Anglický abstrakt

In this paper the innovative time-domain pre-distortion method is proposed. This method (PWM-RC) uses raised-cosine (RC) pulse shaping and pulse-width modulation (PWM) scheme to achieve better output channel data response. The conventional pre-distortion methods based on finite impulse response (FIR) filtering are not compatible with modern low-power CMOS design. Existing perspective time-domain pre-distortion methods show many high frequency harmonic components in the pre-emphasized signal. It can cause more system crosstalk susceptibility, where the additional pre-emphasis boosted the undesirable high frequency components. The proposed method reduces the content of higher harmonic components at the pre-emphasized output signal and ISI (inter-symbol interference) effects. Advantageous properties of the PWM scheme such as high channel loss compensation are preserved. Finally, the simulation results realized in MathCAD and ADS Agilent Development Studio are introduced.

BibTex


@article{BUT74453,
  author="Břetislav {Ševčík} and Lubomír {Brančík}",
  title="Time-Domain Pre-Distortion Technique Using Raised Cosine Shaping for High-Speed Serial Signaling",
  annote="In this paper the innovative time-domain pre-distortion method is proposed. This method (PWM-RC) uses
raised-cosine (RC) pulse shaping and pulse-width modulation (PWM) scheme to achieve better output channel
data response. The conventional pre-distortion methods based on finite impulse response (FIR) filtering are not
compatible with modern low-power CMOS design. Existing perspective time-domain pre-distortion methods
show many high frequency harmonic components in the pre-emphasized signal. It can cause more system
crosstalk susceptibility, where the additional pre-emphasis boosted the undesirable high frequency components.
The proposed method reduces the content of higher harmonic components at the pre-emphasized output signal
and ISI (inter-symbol interference) effects. Advantageous properties of the PWM scheme such as high channel
loss compensation are preserved. Finally, the simulation results realized in MathCAD and ADS Agilent
Development Studio are introduced.",
  chapter="74453",
  journal="ElectroScope - http://www.electroscope.zcu.cz",
  number="4",
  volume="2011",
  year="2011",
  month="november",
  pages="1--6",
  type="journal article - other"
}