An analytical method to predict the data pattern dependent jitter is presented. Results obtained are shown to be in excellent agreement with those obtained by computer simulation and laboratory measurement. In order to find methods that can generate an ISI (intersymbol interference) and jitter-free bandlimited Nyquist signal, a double-intervaled raised cosine and its spectral characteristics are studied. Based on this, a search for new double-intervaled pulses having low spectral sidelobes is conducted. Pulses having desirable spectral characteristics and their application in communication systems are discussed. Two methods for the generation of ISI and jitter-free Nyquist signals are described. The first one uses the concept of pulse overlapping while the second one incorporates the nonlinear switching concept. These two methods are equivalent as they can generate the same output signals. Hardware implementation and measured results on this nonlinear switching filter are given. The simplicity of its design and its low cost will enable this type of nonlinear switching filter suitable for use in low bit rate satellite communication systems.
[1]
F. Jager,et al.
Tamed Frequency Modulation, A Novel Method to Achieve Spectrum Economy in Digital Transmission
,
1978,
IEEE Trans. Commun..
[2]
F. Amoroso,et al.
Pulse and Spectrum Manipulation in the Minimum (Frequency) Shift Keying (MSK) Format
,
1976,
IEEE Trans. Commun..
[3]
I. Kalet,et al.
A Look at Crosstalk in Quadrature-Carrier Modulation Systems
,
1977,
IEEE Trans. Commun..
[4]
J. M. Manley.
The generation and accumulation of timing noise in PCM systems-an experimental and theoretical study
,
1969
.
[5]
Marvin K. Simon,et al.
A Generalization of Minimum-Shift-Keying (MSK)-Type Signaling Based Upon Input Data Symbol Pulse Shaping
,
1976,
IEEE Trans. Commun..