MUHAMAD NUR FAUZAN E1 PT MEKATRONIKA 17

advertisement
E:\ozan C++\New folder\ozan Unidirectional11.cir 12/02/18 16:24:22
*NAMA
*NIM
*KELAS
: MUHAMMAD NUR FAUZAN*
: 17518241017*
: PENDIDIKAN TEKNIK MEKATRONIKA E1 17*
*AC REGULATOR 3 FASA UNIDIRECTIONAL BINTANG*
.PARAM Vs=220
.PARAM ALPHA=60
.PARAM R=820
.PARAM L=60MH
.PARAM F=50
.PARAM VM = ({Vs*SQRT(2)/SQRT(3)}
.PARAM DELAY = {1/(6*F)}
.PARAM PW = {.5/F} TALPHA={ALPHA/(F*360)}
.PARAM TRF = 10US
VAN 1 0 SIN(0 {VM} 50 0 0 0)
VBN 6 0 SIN(0 {VM} 50 0 0 -120)
VCN 10 0 SIN(0 {VM} 50 0 0 -240)
D1 1 2 DMOD
S1 2 3 DR 0 SMOD
D2 3 1 DMOD
D3 6 7 DMOD
S2 7 8 DS 0 SMOD
D4 8 6 DMOD
D5 10 11 DMOD
S3 11 12 DT 0 SMOD
D6 12 10 DMOD
R1 3 4 {R}
L1 4 5 {L}
R2 8 9 {R}
L2 9 5 {L}
R3 12 13 {R}
L3 13 5 {L}
V1 DR 0 PULSE(-10 10 {TALPHA}{TRF} {TRF} {PW} {1/F})
V2 DS 0 PULSE(-10 10 {TALPHA+3*DELAY}{TRF} {TRF} {PW} {1/F})
V3 DT 0 PULSE(-10 10 {TALPHA+2*DELAY}{TRF} {TRF} {PW} {1/F})
.MODEL SMOD VSWITCH(RON=0.001)
.MODEL DMOD D
.TRAN .1MS 40MS
.PROBE
.END
Page: 1
Date/Time run: 12/02/18 15:45:59
*AC REGULATOR 3 FASA UNIDIRECTIONAL BINTANG*
Temperature: 27.0
(A) ozan Unidirectional (active)
1
40pA
2
60W
(152.235,43.497)
(720.000,12.923
40W
(720.000,49.78
20pA
20W
0A
-0W
-20W
-20pA
-40W
>>
-40pA
-60W
0s
1
100s
200s
RMS(I(V1)+I(V2)+I(V3))
Date: December 02, 2018
2
300s
400s
500s
600s
700s
800s
RMS(V1(R1)*I(R1)+V1(R2)*I(R2)+V1(R3)*I(R3))
Time*2*180*50
Page 1
Time: 16:21:53
Date/Time run: 12/02/18 15:45:59
*AC REGULATOR 3 FASA UNIDIRECTIONAL BINTANG*
Temperature: 27.0
(B) ozan Unidirectional (active)
1
2
480V
200V
(57.747,307.874)
(452.599,178.650)
(94.986,178.165)
250V
100V
m,126.953m)
-0V
(720.000,693.66
(359.859,-697.048n)
0V
-100V
-250V
.832,-178.105)
-200V
>>
-480V
0s
1
Date: December 02, 2018
100s
V1(R1) 2
200s
V(3,4)
300s
400s
Time*2*180*50
Page 2
500s
600s
700s
800s
Time: 16:21:53
E:\ozan C++\New folder\ozan Unidirectional12.cir 12/02/18 16:44:05
*AC REGULATOR 3 FASA UNIDIRECTIONAL DELTA*
.PARAM Vs=220
.PARAM ALPHA=60
.PARAM R=600
.PARAM L=720MH
.PARAM F=50
.PARAM VM = ({Vs*SQRT(2)/SQRT(3)}
.PARAM DELAY = {1/(6*F)}
.PARAM PW = {.5/F} TALPHA={ALPHA/(F*360)}
.PARAM TRF = 10US
VAN 1 0 SIN(0 {VM} 50 0 0 0)
VBN 6 0 SIN(0 {VM} 50 0 0 120)
VCN 10 0 SIN(0 {VM} 50 0 0 240)
D1 1 2 DMOD
S1 2 3 DR 0 SMOD
D2 3 1 DMOD
D3 6 7 DMOD
S2 7 8 DS 0 SMOD
D4 8 6 DMOD
D5 10 11 DMOD
S3 11 12 DT 0 SMOD
D6 12 10 DMOD
R1 3 4 {R}
L1 4 6 {L}
R2 8 9 {R}
L2 9 10 {L}
R3 12 13 {R}
L3 13 1 {L}
V1 DR 0 PULSE(-10 10 {TALPHA}{TRF} {TRF} {PW} {1/F})
V2 DS 0 PULSE(-10 10 {TALPHA+3*DELAY}{TRF} {TRF} {PW} {1/F})
V3 DT 0 PULSE(-10 10 {TALPHA+2*DELAY}{TRF} {TRF} {PW} {1/F})
.MODEL SMOD VSWITCH(RON=0.001)
.MODEL DMOD D
.TRAN .1MS 40MS
.PROBE
.END
Page: 1
Date/Time run: 12/02/18 16:26:31
*AC REGULATOR 3 FASA UNIDIRECTIONAL DELTA*
Temperature: 27.0
(A) ozan Unidirectional12 (active)
1
40pA
2
500W
(60.000,30.000p)
(422.069,399.898)
(608.276,13.391p)
(720.000,310.68
0A
-40pA
250W
>>
0W
0s
1
100s
200s
RMS(I(V1)+I(V2)+I(V3))
A1:(406.207,78.991) A2:(0.000,30.000p)
Date: December 02, 2018
300s
400s
500s
600s
700s
800s
RMS(V1(R1)*I(R1)+V1(R2)*I(R2)+V1(R3)*I(R3))
Time*2*180*50
DIFF(A):(406.207,78.991)
Page 1
Time: 16:43:40
2
Date/Time run: 12/02/18 16:26:31
*AC REGULATOR 3 FASA UNIDIRECTIONAL DELTA*
Temperature: 27.0
(B) ozan Unidirectional12 (active)
1
240V
2
480V
200V
(420.771,156.049)
(139.267,288.995)
47.232,132.596)
250V
(55.693,16.670)
(720.000,808.33
(418.837,105.017m)
0V
0V
(720.000,-224.4
-250V
-200V
>>
-240V
-480V
0s
1
100s
V1(R1) 2
200s
V(3,4)
B1:(420.771,156.049) B2:(0.000,798.716m)
Date: December 02, 2018
300s
400s
Time*2*180*50
DIFF(B):(420.771,155.250)
Page 2
500s
600s
700s
800s
Time: 16:43:40
Download
Related flashcards
Create Flashcards