Topic 12Main contentsLast lecture reviewAC square waveforms inverterTheorem of SPWM (2)
Main contents • Last lecture review • AC square waveforms inverter • Theorem of SPWM (2) Topic 12
1.1 Square wave and sinusoidal waveFourierSeriesdl.Such a periodic arbitrary function01can be expanded in an infinitela/2series of exponential timefunctions called the Fourier series ,u (t)- + [a, cos(no,t) +b, sin(no,t)]2n=1x(t)dtwhereao2x(t) sin(n o,t)dtx(t)cos(n ,t)dt6a.nTT.JOE-mail:
E-mail: xjhuang@bjtu.edu.cn 1.1 Square wave and sinusoidal wave U1, f1 v1 t Fourier Series Such a periodic arbitrary function can be expanded in an infinite series of exponential time functions called the Fourier series , 1 1 2 n n [a cos(n b sin(nt)] n=1 u (t)= a0 + t) + where T 0 T x(t)dt 0 a = 2 T n T 0 1 a = x(t) cos(n 2 t)dt T n T 0 1 b = x(t)sin(n 2 t)dt
U1if1dlExpressionofsguarewaveinFourierseriesformotVal2≥ u= msi(,)= /2y sin(0,) = si(a,) /元uu10.512-2-1C5
1 1 1 sin( 2 2V Vd sin( 4 u u1 = V1m sin(1 t)= t) = t) U1, f1 v1 t Expression of square wave in Fourier series form
Expressionof squarewave inFourier series formotu = Vim sin( /,t) + V3m sin(3 /t)Vu/4=[sin(α,t) + = sin(3 ,t)]3元2
U1, f1 v 1 t 1 1 [ s i n ( sin(3 13 d 2 4 V u V1m sin( 1 t) + V3m sin(3 1t) = t ) + t)] Expression of square wave in Fourier series form
Expressionofsguarewave inFourierseriesformotu = Vm sin(@,t)+ V3m sin(30,t)+ Vsm sin(50t)Vu/-[sin(αt) += sin(3の,t) += sin(5@ t)].L35元0.5-112-2C
U1, f1 v1 t 1 1 1 [sin( 2 3 5 Vd 4 1 1 u V1m sin(1 t)+V3m sin(31 t)+V5m sin(51 t) = t) + sin(3 t) + sin(5 t)] Expression of square wave in Fourier series form