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Catégorie :Category: nCreator TI-Nspire
Auteur Author: juancho11diaz
Type : Classeur 3.0.1
Page(s) : 1
Taille Size: 2.97 Ko KB
Mis en ligne Uploaded: 07/04/2025 - 17:43:38
Uploadeur Uploader: juancho11diaz (Profil)
Téléchargements Downloads: 2
Visibilité Visibility: Archive publique
Shortlink : http://ti-pla.net/a4567086
Type : Classeur 3.0.1
Page(s) : 1
Taille Size: 2.97 Ko KB
Mis en ligne Uploaded: 07/04/2025 - 17:43:38
Uploadeur Uploader: juancho11diaz (Profil)
Téléchargements Downloads: 2
Visibilité Visibility: Archive publique
Shortlink : http://ti-pla.net/a4567086
Description
Fichier Nspire généré sur TI-Planet.org.
Compatible OS 3.0 et ultérieurs.
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V1_re=V1(1:nmpc1); I1_re=I1(1:nmpc1); V2_re=V2(1:nmpc2); I2_re=I2(1:nmpc2); V3_re=V3(1:nmpc3); I3_re=I3(1:nmpc3); % valores eficaces V1rms=rms(V1_re); V2rms=rms(V2_re); V3rms=rms(V3_re); I1rms=rms(I1_re); I2rms=rms(I2_re); I3rms=rms(I3_re); table(V1rms,V2rms,V3rms,I1rms,I2rms,I3rms) %valores maximos V1max=max(V1_re); V2max=max(V2_re); V3max=max(V3_re); I1max=max(I1_re); I2max=max(I2_re); I3max=max(I3_re); table(V1max,V2max,V3max,I1max,I2max,I3max) % Valor medio V1m=mean(V1_re); V2m=mean(V2_re); V3m=mean(V3_re); I1m=mean(I1_re); I2m=mean(I2_re); I3m=mean(I3_re); table(V1m,V2m,V3m,I1m,I2m,I3m) %Vlir medio absoluto V1mab1=mean(abs(V1_re)); V2mab1=mean(abs(V2_re)); V3mab1=mean(abs(V3_re)); I1mab1=mean(abs(I1_re)); I2mab1=mean(abs(I2_re)); I3mab1=mean(abs(I3_re)); table(V1mab1,V2mab1,V3mab1,I1mab1,I2mab1,I3mab1) %Valor pico pico V1pp=V1max-min(V1_re); V2pp=V2max-min(V2_re); V3pp=V3max-min(V3_re); I1pp=I1max-min(I1_re); I2pp=I2max-min(I2_re); I3pp=I3max-min(I3_re); table(V1pp,V2pp,V3pp,I1pp,I2pp,I3pp) %Factor de cresta fcV1=V1max/V1rms; fcV2=V2max/V2rms; fcV3=V3max/V3rms; fcI1=I1max/I1rms; fcI2=I2max/I2rms; fcI3=I3max/I3rms; table(fcV1,fcV2,fcV3,fcI1,fcI2,fcI3) %Factor de forma fmV1=V1rms/V1mab1; fmV2=V2rms/V2mab1; fmV3=V3rms/V3mab1; fmI1=I1rms/I1mab1; fmI2=I2rms/I2mab1; fmI3=I3rms/I3mab1; table(fmV1,fmV2,fmV3,fmI1,fmI2,fmI3) hold on plot(V1,I1) plot(V2,I2) plot(V3,I3) hold off %potencia de dimensionamiento S1=I1rms*rms(V1_re); S2=I2rms*rms(V2_re); S3=I3rms*rms(V3_re); %potencia activa P1=mean(V1_re.*I1_re); P2=mean(V2_re.*I2_re); P3=mean(V3_re.*I3_re); %potencia no activa Q1=sqrt(S1^2-P1^2); Q2=sqrt(S2^2-P2^2); Q3=sqrt(S3^2-P3^2); %factor de potencia fp1=P1/S1; fp2=P2/S2; fp3=P3/S3; table(S1,P1,Q1,fp1) table(S2,P2,Q2,fp2) table(S3,P3,Q3,fp3) % P = V*I % P = R* I^2 % R = P/I^2 is2_rms = rms(is2); % Valores R1, L1 R1 = Pramal2/(is2_rms^2); xl1 = Qramal2/((is2_rms)^2); L1 = xl1/(2*pi*60); table(R1,xl1,L1) % Valores condensador v2_2rms=rms(v2_2); C = Qc2/((2*pi*60)*v2_2rms^2); table(C) % Valores R y L i2_2rms = rms(i2_2); R2 = Prl2/(i2_2rms^2); xl2 = Qrl2/((i2_2rms)^2); L2 = xl2/(2*pi*60); table(R2,xl2,L2) Sf = rms(vs_re)*rms(is); Pf = mean(vs_re.*is); Qf = sqrt(Sf^2-Pf^2); Fpf = Pf/Sf; % Hallamos budeanu n1 = nmpc/4; Ib1 = [is((n1+1):nmpc) is(1:n1)]; Qb1 = mean(vs_re.*Ib1); Db1 = sqrt(Sf^2-Pf^2-Qb1^2); Made with nCreator - tiplanet.org
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Compatible OS 3.0 et ultérieurs.
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V1_re=V1(1:nmpc1); I1_re=I1(1:nmpc1); V2_re=V2(1:nmpc2); I2_re=I2(1:nmpc2); V3_re=V3(1:nmpc3); I3_re=I3(1:nmpc3); % valores eficaces V1rms=rms(V1_re); V2rms=rms(V2_re); V3rms=rms(V3_re); I1rms=rms(I1_re); I2rms=rms(I2_re); I3rms=rms(I3_re); table(V1rms,V2rms,V3rms,I1rms,I2rms,I3rms) %valores maximos V1max=max(V1_re); V2max=max(V2_re); V3max=max(V3_re); I1max=max(I1_re); I2max=max(I2_re); I3max=max(I3_re); table(V1max,V2max,V3max,I1max,I2max,I3max) % Valor medio V1m=mean(V1_re); V2m=mean(V2_re); V3m=mean(V3_re); I1m=mean(I1_re); I2m=mean(I2_re); I3m=mean(I3_re); table(V1m,V2m,V3m,I1m,I2m,I3m) %Vlir medio absoluto V1mab1=mean(abs(V1_re)); V2mab1=mean(abs(V2_re)); V3mab1=mean(abs(V3_re)); I1mab1=mean(abs(I1_re)); I2mab1=mean(abs(I2_re)); I3mab1=mean(abs(I3_re)); table(V1mab1,V2mab1,V3mab1,I1mab1,I2mab1,I3mab1) %Valor pico pico V1pp=V1max-min(V1_re); V2pp=V2max-min(V2_re); V3pp=V3max-min(V3_re); I1pp=I1max-min(I1_re); I2pp=I2max-min(I2_re); I3pp=I3max-min(I3_re); table(V1pp,V2pp,V3pp,I1pp,I2pp,I3pp) %Factor de cresta fcV1=V1max/V1rms; fcV2=V2max/V2rms; fcV3=V3max/V3rms; fcI1=I1max/I1rms; fcI2=I2max/I2rms; fcI3=I3max/I3rms; table(fcV1,fcV2,fcV3,fcI1,fcI2,fcI3) %Factor de forma fmV1=V1rms/V1mab1; fmV2=V2rms/V2mab1; fmV3=V3rms/V3mab1; fmI1=I1rms/I1mab1; fmI2=I2rms/I2mab1; fmI3=I3rms/I3mab1; table(fmV1,fmV2,fmV3,fmI1,fmI2,fmI3) hold on plot(V1,I1) plot(V2,I2) plot(V3,I3) hold off %potencia de dimensionamiento S1=I1rms*rms(V1_re); S2=I2rms*rms(V2_re); S3=I3rms*rms(V3_re); %potencia activa P1=mean(V1_re.*I1_re); P2=mean(V2_re.*I2_re); P3=mean(V3_re.*I3_re); %potencia no activa Q1=sqrt(S1^2-P1^2); Q2=sqrt(S2^2-P2^2); Q3=sqrt(S3^2-P3^2); %factor de potencia fp1=P1/S1; fp2=P2/S2; fp3=P3/S3; table(S1,P1,Q1,fp1) table(S2,P2,Q2,fp2) table(S3,P3,Q3,fp3) % P = V*I % P = R* I^2 % R = P/I^2 is2_rms = rms(is2); % Valores R1, L1 R1 = Pramal2/(is2_rms^2); xl1 = Qramal2/((is2_rms)^2); L1 = xl1/(2*pi*60); table(R1,xl1,L1) % Valores condensador v2_2rms=rms(v2_2); C = Qc2/((2*pi*60)*v2_2rms^2); table(C) % Valores R y L i2_2rms = rms(i2_2); R2 = Prl2/(i2_2rms^2); xl2 = Qrl2/((i2_2rms)^2); L2 = xl2/(2*pi*60); table(R2,xl2,L2) Sf = rms(vs_re)*rms(is); Pf = mean(vs_re.*is); Qf = sqrt(Sf^2-Pf^2); Fpf = Pf/Sf; % Hallamos budeanu n1 = nmpc/4; Ib1 = [is((n1+1):nmpc) is(1:n1)]; Qb1 = mean(vs_re.*Ib1); Db1 = sqrt(Sf^2-Pf^2-Qb1^2); Made with nCreator - tiplanet.org
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