[edit: fix spelling errors]
Please post the data file and code you used to make the initial figure.
You said you experimented with a 30 Hz sinusoid. However, your figures show a sinusoid with a period of about 0.32, i.e. frequency approximately 3 Hz, not 30 Hz. Please clarify which frequency you mean. Perhaps this will explain the results you have observed.
The code below creates a 3 Hz sinusoid, with Fs=1600 Hz, like the sinusoid in your figures. The signal is down-sampled by factors of 15, 50, and 160.
In the code below, I use functions from the DSP toolbox. The leading points of the down-sampled signal are zeros. You could discard these points, or limit the x-axis range of the plot, but I have not done that here, so you can see what is happening.
sine = dsp.SineWave(1,3,'SampleRate',1600,'SamplesPerFrame',1600);
tx = (0:length(x)-1)/sine.SampleRate;
firrc1 = dsp.FIRRateConverter(1,15);
[delay,FsOut] = outputDelay(firrc1,FsIn=FsIn);
ty1 = (0:length(y1)-1)/FsOut-delay;
firrc2 = dsp.FIRRateConverter(1,50);
[delay,FsOut] = outputDelay(firrc2,FsIn=FsIn);
ty2 = (0:length(y2)-1)/FsOut-delay;
firrc3 = dsp.FIRRateConverter(1,160);
[delay,FsOut] = outputDelay(firrc3,FsIn=FsIn);
ty3 = (0:length(y3)-1)/FsOut-delay;
plot(tx,x,'k.',ty1,y1,'ro',ty2,y2,'g+',ty3,y3,'bs');
grid on; xlabel('Time (s)');
legend('Fs=1600 Hz','1600/15 Hz','1600/50 Hz','1600/160 Hz')
The figure above shows that when the downsampling factor is 160, dsp.FIRRateConverter produces only leading zero points (roughly zero), which are not helpful.
Use resample(), instead of the DSP toolbox functions:
ty1=(0:length(y1)-1)/(FsIn/15);
ty2=(0:length(y2)-1)/(FsIn/50);
ty3=(0:length(y3)-1)/(FsIn/160);
plot(tx,x,'k.',ty1,y1,'ro'); hold on
plot(ty2,y2,'gd',MarkerSize=8,MarkerFaceColor='g')
plot(ty3,y3,'bs',MarkerSize=10,MarkerFaceColor='b');
grid on; xlabel('Time (s)');
legend('Fs=1600 Hz','1600/15 Hz','1600/50 Hz','1600/160 Hz')
The results above look good, for down-sampling by 15, 50, and 160.
