Title :
Pulse-Shaping With Digital, Electrical, and Optical Filters—A Comparison
Author :
Schmogrow, R. ; Ben-Ezra, S. ; Schindler, Philipp C. ; Nebendahl, Bernd ; Koos, C. ; Freude, W. ; Leuthold, Juerg
Author_Institution :
Karlsruhe Inst. of Technol., Karlsruhe, Germany
Abstract :
We investigate the performance of sinc-shaped QPSK signal pulses generated in the digital, electrical, and optical domains. To this end an advanced transmitter with a digital pulse-shaper is compared to analog transmitters relying on pulse-shaping with electrical and optical filters, respectively. The signal quality is assessed within a single carrier setup as well as within an ultra-densely spaced WDM arrangement comprising three channels. An advanced receiver providing additional digital filtering with an adaptive equalization algorithm to approximate an ideal brick-wall Nyquist filter has been used for all schemes. It is found that at lower symbol rates, where digital processing is still feasible, digital filters with a large number of filter coefficients provide the best performance. However, transmitters equipped with only electrical or optical pulse-shapers already outperform transmitters sending plain unshaped NRZ signals, so that for higher symbol rates analog electrical and optical techniques not only save costs, but are the only adequate solution.
Keywords :
channel spacing; digital filters; optical filters; optical information processing; optical pulse generation; optical pulse shaping; optical receivers; optical transmitters; quadrature phase shift keying; wavelength division multiplexing; adaptive equalization algorithm; advanced receiver; advanced transmitter; digital domain; digital filter; digital processing; digital pulse-shaper; electrical domain; electrical filter; electrical pulse-shaper; filter coefficients; ideal brick-wall Nyquist filter; optical domain; optical filter; optical pulse-shaper; plain unshaped NRZ signals; pulse-shaping; signal quality; sinc-shaped QPSK signal pulse generation; single carrier setup; symbol rates; ultradensely spaced WDM arrangement; Optical attenuators; Optical filters; Optical imaging; Optical pulses; Optical receivers; Optical transmitters; Phase shift keying; Optical modulation; optical pulses; optical transmitters; pulse-shaping methods;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2271513
