torsi terinduksi versus slip

TUGAS DSTL MUFIDAH SA’ADAH / 2214105041 / Kelas Y 1.PROGRAM MATLAB MENAMPILKAN GRAFIK TORSI TERINDUKSI TERHADAP SLIP %Torsi Terinduksi terhadap Slip clc; %spesifikasi phi=3.14; f=60; Ws=2*phi*f; Xm=13.08; %medan magnet stator Rc=242; %resistansi core R1=0.087; %resistansi stator R2=0.228; %resistansi rotor X1=0.302; %reaktansi bocor stator X2=X1; %reaktansi bocor rotor Vn=460; %tegangan 3 phasa (wye) V1=Vn/sqrt(3); %tegangan terminal %main program for s = 1:1:100; ss=s/100; Z = (R1 + R2 + R2*(1-ss)/ss) + j*( X1 + X2 ); I2=V1/Z; Im=V1/Rc+V1/(j*Xm); I1=Im+I2; Cos_Phi=cos(angle(I1)); P_In = sqrt(3)*abs(V1)*abs(I1)*Cos_Phi; P_Loss = (abs(I2)^2*R1 + abs(V1)^2/Rc); P_AG = P_In - P_Loss; T_ind(s) = P_AG / Ws end s=1/100:1/100:1; plot(s,T_ind); set(gca, 'xdir', 'reverse'); ylabel('Torsi Terinduksi (T_ind)'); xlabel('Slip (S)'); title('Kurva Torsi vs. Slip'); grid on;

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TUGAS DSTLMUFIDAH SA’ADAH / 2214105041 / Kelas Y

1. PROGRAM MATLAB MENAMPILKAN GRAFIK TORSI TERINDUKSI TERHADAP SLIP

%Torsi Terinduksi terhadap Slip

clc;

%spesifikasiphi=3.14;f=60; Ws=2*phi*f;Xm=13.08; %medan magnet statorRc=242; %resistansi coreR1=0.087; %resistansi statorR2=0.228; %resistansi rotorX1=0.302; %reaktansi bocor statorX2=X1; %reaktansi bocor rotorVn=460; %tegangan 3 phasa (wye)V1=Vn/sqrt(3); %tegangan terminal

%main programfor s = 1:1:100; ss=s/100; Z = (R1 + R2 + R2*(1-ss)/ss) + j*( X1 + X2 ); I2=V1/Z; Im=V1/Rc+V1/(j*Xm); I1=Im+I2; Cos_Phi=cos(angle(I1)); P_In = sqrt(3)*abs(V1)*abs(I1)*Cos_Phi; P_Loss = (abs(I2)^2*R1 + abs(V1)^2/Rc); P_AG = P_In - P_Loss; T_ind(s) = P_AG / Wsend s=1/100:1/100:1;plot(s,T_ind); set(gca, 'xdir', 'reverse');ylabel('Torsi Terinduksi (T_ind)'); xlabel('Slip (S)');title('Kurva Torsi vs. Slip'); grid on;