DocumentCode
759978
Title
Constant Envelope Bandlimited BPSK Signal
Author
Yazdani, Hoosmand ; Feher, Kamilo ; Steenaart, Willem
Author_Institution
Telesat Canada, Ottawa, Ont., Canada
Volume
28
Issue
6
fYear
1980
fDate
6/1/1980 12:00:00 AM
Firstpage
889
Lastpage
897
Abstract
A modified BPSK modulation technique using premodulation filtering is presented. The modified BPSK modulator achieves a smooth phase transition from 0 to π rad by going through an intermediate value of 
rad. The resultant PSK signal has a very low AM component, particularly suitable for data transmission through nonlinear channels. Experimental tests performed in a channel having a high degree of AM nonlinearity (AM-to-AM conversion), have shown that the modified BPSK signal, when passed through a hard-limiter, has a spectrum with greatly reduced spectral sidelobes compared to the conventional BPSK signal. The modified BPSK signal has spectral lines at the carrier frequency plus multiples of the signaling frequency, which in some cases might be useful for timing recovery in the demodulation process.
rad. The resultant PSK signal has a very low AM component, particularly suitable for data transmission through nonlinear channels. Experimental tests performed in a channel having a high degree of AM nonlinearity (AM-to-AM conversion), have shown that the modified BPSK signal, when passed through a hard-limiter, has a spectrum with greatly reduced spectral sidelobes compared to the conventional BPSK signal. The modified BPSK signal has spectral lines at the carrier frequency plus multiples of the signaling frequency, which in some cases might be useful for timing recovery in the demodulation process.Keywords
PSK modulation/demodulation; Binary phase shift keying; Data communication; Filtering; Frequency; Performance evaluation; Phase modulation; Phase shift keying; Signal processing; Testing; Timing;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOM.1980.1094728
Filename
1094728
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