1 / 12

EE354 : Communications System I

EE354 : Communications System I. Lecture 20-21: Phase Modulations Aliazam Abbasfar. Outline. Summary of amplitude modulations Phase Modulation FM/PM. Amplitudes modulations - summary. Linear modulation Modulates the carrier amplitude Frequency spectrum shifted to f c

esben
Download Presentation

EE354 : Communications System I

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. EE354 : Communications System I Lecture 20-21: Phase Modulations Aliazam Abbasfar

  2. Outline • Summary of amplitude modulations • Phase Modulation • FM/PM

  3. Amplitudes modulations - summary • Linear modulation • Modulates the carrier amplitude • Frequency spectrum shifted to fc • W< Bandwidth < 2W • Transmitted signal • xo(t) = Am x(t) cos(wct) + Am x’(t) sin(wct) + Accos(wct) • Coherent demodulation • Strong carrier helps simplify the receiver • AM/SSB • Peak detection for demodulation • Good for broadcasting

  4. Non-linear modulations • Phase and frequency modulation • Transmitted signal • xo(t) = Accos(wct + f(t)) = Re[ Ac exp( jwct + jf(t) ) ] • Constant envelope, but time-varying phase • A(t) = Ac , Q(t)= f(t) • PXo = Pc • Phase modulation (PM) • f(t)= fD x(t) • fD : phase deviation • Frequency modulation (FM) • f(t)= fc + 1/2pdf(t)/dt • f(t) = fc + fD x(t) • fD x(t) << fc • fD : frequency deviation • PM: f(t) =? • PM and FM modulators are interchangeable • Zero crossings are not periodic

  5. Narrowband PM/FM • Narrowband PM/FM (NBPM/NBFM) • f(t) << 1 rad • xI(t) = Ac , xQ(t)= Acf(t) • Xlp(f) = Acd(f) + AcF(f) • NBPM : F(f) = fD X(f) • NBFM : F(f) = -j fD X(f)/f • Modulated BW = 2 W • Example : sinc(2Wt) • X(f) = rect(f/2W)/2W • What if we include 2nd terms too? • xI(t) = Ac(1- f2(t)/2 ) , xQ(t)= Acf(t)

  6. Tone modulation (FM) • x(t) = Amcos(wmt) • f(t) = Am fD/fm sin (wmt) = b sin (wmt) • b = Am fD/fm • b indicates maximum phase change • xlp(t) = Ac exp( j b sin (wmt)) • Periodic with fundamental frequency of fm • c(n fm) = Jn(b) • nth order Bessel function with argument b • J-n(b) = (-1)nJn(b) • Modulated signal • Carrier frequency line • Infinite # of sidebands lines

  7. FM bandwidth • If (n/b)>>1, then Jn(b) << 1 • BW is a function of b • NBFM • b < 0.2 • Only J0 and J1 • Acceptable distortion • PB / PT > 0.98 • N = (b +1) • B = 2(b +1)fm • Arbitrary signal • b = Am fD/fm • D = xmaxfD/fmax • Carlson’s rule • B = 2(1+ D)W • If |x(t)|< 1, B = 2(fD+W) • NBFM : B = 2W • WBFM : B = 2fD

  8. Distortion in FM/PM • xo(t) = Accos(wct + f(t)) • Linear distortion • Amplitude distortion • FM to AM conversion • Not a big problem • Use clipping to mitigate FM to AM conversion • Phase distortion • Distorts message • Should be equalized • Non-linear distortion • y(t) = A0 + A1cos(wct + f(t)) + A2cos(2wct + 2f(t)) • Distortion can be filtered out • FM/PM is resistant to non-linear distortion

  9. FM Modulator • Voltage controlled oscillator (VCO) • Oscillation frequency is proportional to input voltage • C = C0 – kx(t) • f = fc + k fc/2C0 • Indirect modulation • Use NBFM modulator • fc1 = 200KHz, fD = 25 Hz • Frequency multiplier • n = 3000  fc1 = 600 MHz, fD = 75 MHz • Mixer • fLO = 500 MHz  fc = 100 MHz

  10. FM demodulation • Discriminator • Frequency to amplitude (voltage) conversion • |H(f)| = V0 + k(f-fc) • A differentiator • AM demodulation • Needs a limiter to regulate Ac

  11. FM demodulation • Balanced discriminator • Wider linear range • WBFM • No DC block is needed • Phase locked loop (PLL)

  12. Reading • Carlson Ch. 5.1, 5.2 • Proakis & Salehi 3.3

More Related