Common Aperiodic Waveforms
Signal Processing Toolbox™ provides functions for generating several widely used aperiodic waveforms.
gauspuls
generates a Gaussian-modulated sinusoidal pulse with a specified time, center frequency, and fractional bandwidth. Optional parameters return in-phase and quadrature pulses, the RF signal envelope, and the cutoff time for the trailing pulse envelope.chirp
generates a linear, logarithmic, or quadratic swept-frequency sinusoidal signal. An optional parameter specifies alternative sweep methods. An optional parameter allows an initial phase to be specified in degrees.
Compute 2 seconds of a linear chirp signal with a sample rate of 1 kHz that starts at DC and crosses 150 Hz at 1 second.
t = 0:1/1000:2; y = chirp(t,0,1,150);
Plot the spectrogram of the chirp. Specify 90% of overlap between adjoining windowed segments.
pspectrum(y,t,'spectrogram','OverlapPercent',90)
Use gauspuls
to plot a 50 kHz Gaussian RF pulse with 60% bandwidth, sampled at a rate of 1 MHz. Truncate the pulse where the envelope falls 40 dB below the peak.
tc = gauspuls('cutoff',50e3,0.6,[],-40);
t = -tc : 1e-6 : tc;
yi = gauspuls(t,50e3,0.6);
plot(t,yi)