%!PS-Adobe-3.0 EPSF-3.0 %%BoundingBox: 4 518 541 834 %%Title: Modal_decomposition_example %%CreationDate: Fri Nov 18 11:18:32 2016 %%Creator: Tgif-4.2.5-QPL written by William Chia-Wei Cheng (bill.cheng@acm.org) %%ProducedBy: (unknown) %%Pages: 1 %%DocumentFonts: (atend) %%EndComments %%BeginProlog /tgifdict 56 dict def tgifdict begin /tgifellipsedict 6 dict def tgifellipsedict /mtrx matrix put /TGEL % tgifellipse { tgifellipsedict begin /yrad exch def /xrad exch def /y exch def /x exch def /savematrix mtrx currentmatrix def x y translate xrad yrad scale 0 0 1 0 360 arc savematrix setmatrix end } def /tgifarrowtipdict 8 dict def tgifarrowtipdict /mtrx matrix put /TGAT % tgifarrowtip { tgifarrowtipdict begin /dy exch def /dx exch def /h exch def /w exch def /y exch def /x exch def /savematrix mtrx currentmatrix def x y translate dy dx atan rotate 0 0 moveto w neg h lineto w neg h neg lineto savematrix setmatrix end } def /TGMAX { exch dup 3 1 roll exch dup 3 1 roll gt { pop } { exch pop } ifelse } def /TGMIN { exch dup 3 1 roll exch dup 3 1 roll lt { pop } { exch pop } ifelse } def /TGSW { stringwidth pop } def /tgifstrw 0 def /bd { bind def } bind def /GS { gsave } bd /GR { grestore } bd /NP { newpath } bd /CP { closepath } bd /CHP { charpath } bd /CT { curveto } bd /L { lineto } bd /RL { rlineto } bd /M { moveto } bd /RM { rmoveto } bd /S { stroke } bd /F { fill } bd /TR { translate } bd /RO { rotate } bd /SC { scale } bd /MU { mul } bd /DI { div } bd /DU { dup } bd /NE { neg } bd /AD { add } bd /SU { sub } bd /PO { pop } bd /EX { exch } bd /CO { concat } bd /CL { clip } bd /EC { eoclip } bd /EF { eofill } bd /IM { image } bd /IMM { imagemask } bd /ARY { array } bd /SG { setgray } bd /RG { setrgbcolor } bd /SD { setdash } bd /W { setlinewidth } bd /SM { setmiterlimit } bd /SLC { setlinecap } bd /SLJ { setlinejoin } bd /SH { show } bd /FF { findfont } bd /MS { makefont setfont } bd /AR { arcto 4 {pop} repeat } bd /CURP { currentpoint } bd /FLAT { flattenpath strokepath clip newpath } bd /TGSM { tgiforigctm setmatrix } def /TGRM { savematrix setmatrix } def end %%EndProlog %%Page: 1 1 %%PageBoundingBox: 4 518 541 834 tgifdict begin /tgifsavedpage save def 1 SM 1 W 0 SG 72 0 MU 72 11.602 MU TR 72 128 DI 100.000 MU 100 DI DU NE SC GS /tgiforigctm matrix currentmatrix def % TEXT NP /tgifstrw 0 def /tgifstrw tgifstrw /Courier FF [25 0 0 -25 0 0] MS (Modal decomposition network) TGSW add def 0 SG GS 1 W 30 25 M GS 0 SG /Courier FF [25 0 0 -25 0 0] MS (Modal decomposition network) SH GR GR % OVAL 0 SG NP 100 225 5 5 TGEL F GS GS NP 100 225 5 5 TGEL 3 W S GR GR % OVAL 0 SG NP 100 135 5 5 TGEL F GS GS NP 100 135 5 5 TGEL 3 W S GR GR % OVAL 0 SG NP 100 395 5 5 TGEL F GS GS NP 100 395 5 5 TGEL 3 W S GR GR % POLY/OPEN-SPLINE 0 SG GS NP 105 135 M 170 135 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 105 225 M 170 225 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 105 395 M 430 395 L TGSM 1 W S GR % POLYGON/CLOSED-SPLINE 0 SG GS 380 200 TR [0.000 -1.000 1.000 0.000 35 35] CO 380 NE 200 NE TR NP 380 215 M 415 200 L 450 215 L 415 230 L CP GS GR GS TGSM S GR GR % POLY/OPEN-SPLINE 0 SG GS 425 210 TR [0.000 -1.000 1.000 0.000 0 -20] CO 425 NE 210 NE TR GS NP 425 210 M 425 220 L TGSM 1 W S GR GR % POLY/OPEN-SPLINE 0 SG GS 420 215 TR [0.000 -1.000 1.000 0.000 10 -20] CO 420 NE 215 NE TR GS NP 420 215 M 430 215 L TGSM 1 W S GR GR % POLY/OPEN-SPLINE 0 SG GS 395 215 TR [0.000 -1.000 1.000 0.000 35 5] CO 395 NE 215 NE TR GS NP 395 215 M 405 215 L TGSM 1 W S GR GR % POLY/OPEN-SPLINE 0 SG GS NP 200 130 M 200 140 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 195 135 M 205 135 L TGSM 1 W S GR % OVAL GS 190 135 TR [0.000 1.000 -1.000 0.000 20 -20] CO 190 NE 135 NE TR 0 SG GS GS NP 210 155 20 20 TGEL TGSM S GR GR GR % POLY/OPEN-SPLINE 0 SG GS NP 180 130 M 180 140 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 200 220 M 200 230 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 195 225 M 205 225 L TGSM 1 W S GR % OVAL GS 190 225 TR [0.000 1.000 -1.000 0.000 20 -20] CO 190 NE 225 NE TR 0 SG GS GS NP 210 245 20 20 TGEL TGSM S GR GR GR % POLY/OPEN-SPLINE 0 SG GS NP 180 220 M 180 230 L TGSM 1 W S GR % POLYGON/CLOSED-SPLINE 0 SG GS 250 310 TR [0.000 -1.000 1.000 0.000 35 35] CO 250 NE 310 NE TR NP 250 325 M 285 310 L 320 325 L 285 340 L CP GS GR GS TGSM S GR GR % POLY/OPEN-SPLINE 0 SG GS 295 320 TR [0.000 -1.000 1.000 0.000 0 -20] CO 295 NE 320 NE TR GS NP 295 320 M 295 330 L TGSM 1 W S GR GR % POLY/OPEN-SPLINE 0 SG GS 290 325 TR [0.000 -1.000 1.000 0.000 10 -20] CO 290 NE 325 NE TR GS NP 290 325 M 300 325 L TGSM 1 W S GR GR % POLY/OPEN-SPLINE 0 SG GS 265 325 TR [0.000 -1.000 1.000 0.000 35 5] CO 265 NE 325 NE TR GS NP 265 325 M 275 325 L TGSM 1 W S GR GR % POLY/OPEN-SPLINE 0 SG GS NP 210 225 M 300 225 L 300 275 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 300 345 M 300 395 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 210 135 M 430 135 L 430 170 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 430 235 M 430 395 L TGSM 1 W S GR % POLYGON/CLOSED-SPLINE 0 SG GS 500 130 TR [0.000 -1.000 1.000 0.000 35 35] CO 500 NE 130 NE TR NP 500 145 M 535 130 L 570 145 L 535 160 L CP GS GR GS TGSM S GR GR % POLY/OPEN-SPLINE 0 SG GS 515 145 TR [0.000 -1.000 1.000 0.000 35 5] CO 515 NE 145 NE TR GS NP 515 145 M 549 145 L TGSM 1 W S GR GS TGSM NP 550 110 8.000 3.000 0 -40 TGAT CP F GR GR % OVAL 0 SG NP 780 40 5 5 TGEL F GS GS NP 780 40 5 5 TGEL 3 W S GR GR % OVAL 0 SG NP 780 250 5 5 TGEL F GS GS NP 780 250 5 5 TGEL 3 W S GR GR % POLY/OPEN-SPLINE 0 SG GS NP 775 40 M 550 40 L 550 100 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 775 250 M 550 250 L 550 165 L TGSM 1 W S GR % POLYGON/CLOSED-SPLINE 0 SG GS 500 445 TR [0.000 -1.000 1.000 0.000 35 35] CO 500 NE 445 NE TR NP 500 460 M 535 445 L 570 460 L 535 475 L CP GS GR GS TGSM S GR GR % POLY/OPEN-SPLINE 0 SG GS 515 460 TR [0.000 -1.000 1.000 0.000 35 5] CO 515 NE 460 NE TR GS NP 515 460 M 549 460 L TGSM 1 W S GR GS TGSM NP 550 425 8.000 3.000 0 -40 TGAT CP F GR GR % OVAL 0 SG NP 780 345 5 5 TGEL F GS GS NP 780 345 5 5 TGEL 3 W S GR GR % OVAL 0 SG NP 780 555 5 5 TGEL F GS GS NP 780 555 5 5 TGEL 3 W S GR GR % POLY/OPEN-SPLINE 0 SG GS NP 775 345 M 550 345 L 550 415 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 775 555 M 550 555 L 550 480 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 480 395 M 480 555 L 555 555 L TGSM 1 W S GR % POLY/OPEN-SPLINE 0 SG GS NP 550 250 M 480 250 L 480 395 L 430 395 L TGSM 1 W S GR % TEXT NP /tgifstrw 0 def /tgifstrw tgifstrw /Courier FF [25 0 0 -25 0 0] MS ( Mode 1) TGSW add def 0 SG GS 1 W 840 50 M GS 0 SG /Courier FF [25 0 0 -25 0 0] MS ( Mode 1) SH GR GR % TEXT NP 0 SG GS 1 W 855 440 M GS 0 SG /Courier FF [25 0 0 -25 0 0] MS ( mode 2) SH GR 0 25 RM GS GR GR % POLY/OPEN-SPLINE 0 SG GS NP 780 230 M -170 0 atan DU cos 8.000 MU 780 exch SU exch sin 8.000 MU 60 exch SU L TGSM 1 W S GR GS TGSM NP 780 60 8.000 3.000 0 -170 TGAT 1 SG CP F 0 SG NP 780 60 8.000 3.000 0 -170 TGAT CP F GR % POLY/OPEN-SPLINE 0 SG GS NP 780 530 M -160 0 atan DU cos 8.000 MU 780 exch SU exch sin 8.000 MU 370 exch SU L TGSM 1 W S GR GS TGSM NP 780 370 8.000 3.000 0 -160 TGAT 1 SG CP F 0 SG NP 780 370 8.000 3.000 0 -160 TGAT CP F GR % POLY/OPEN-SPLINE 0 SG GS NP 100 380 M -130 0 atan DU cos 8.000 MU 100 exch SU exch sin 8.000 MU 250 exch SU L TGSM 1 W S GR GS TGSM NP 100 250 8.000 3.000 0 -130 TGAT 1 SG CP F 0 SG NP 100 250 8.000 3.000 0 -130 TGAT CP F GR % POLY/OPEN-SPLINE 0 SG GS NP 50 380 M -230 0 atan DU cos 8.000 MU 50 exch SU exch sin 8.000 MU 150 exch SU L TGSM 1 W S GR GS TGSM NP 50 150 8.000 3.000 0 -230 TGAT 1 SG CP F 0 SG NP 50 150 8.000 3.000 0 -230 TGAT CP F GR % OVAL 0 SG GS GS NP 195 180 45 90 TGEL S GR GR % TEXT NP 0 SG GS 1 W 70 50 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (Voltage sources required ) SH GR 0 16 RM GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (by Spice for current sensing) SH GR GR % POLY/OPEN-SPLINE 0 SG GS NP 160 70 M 20 10 atan DU cos 8.000 MU 170 exch SU exch sin 8.000 MU 90 exch SU L TGSM 1 W S GR GS TGSM NP 170 90 8.000 3.000 10 20 TGAT 1 SG CP F 0 SG NP 170 90 8.000 3.000 10 20 TGAT CP F GR % TEXT NP 0 SG GS 1 W 60 310 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (V1) SH GR GR % TEXT NP 0 SG GS 1 W 10 240 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (V2) SH GR GR % TEXT NP 0 SG GS 1 W 790 130 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (Vm1) SH GR GR % TEXT NP 0 SG GS 1 W 790 410 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (Vm2) SH GR GR % TEXT NP 0 SG GS 1 W 570 130 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (Im1=TII\(1,1\)I1) SH GR 0 16 RM GS 0 SG /Courier FF [14 0 0 -14 0 0] MS ( +TII\(1,2\)I2) SH GR GR % POLY/OPEN-SPLINE 0 SG GS NP 265 135 M 0 50 atan DU cos 8.000 MU 315 exch SU exch sin 8.000 MU 135 exch SU L TGSM 1 W S GR GS TGSM NP 315 135 8.000 3.000 50 0 TGAT 1 SG CP F 0 SG NP 315 135 8.000 3.000 50 0 TGAT CP F GR % POLY/OPEN-SPLINE 0 SG GS NP 220 225 M 0 50 atan DU cos 8.000 MU 270 exch SU exch sin 8.000 MU 225 exch SU L TGSM 1 W S GR GS TGSM NP 270 225 8.000 3.000 50 0 TGAT 1 SG CP F 0 SG NP 270 225 8.000 3.000 50 0 TGAT CP F GR % TEXT NP 0 SG GS 1 W 290 130 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (I2) SH GR GR % TEXT NP 0 SG GS 1 W 245 215 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (I1) SH GR GR % TEXT NP 0 SG GS 1 W 575 465 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (Im2=TII\(2,1\)I1) SH GR 0 16 RM GS 0 SG /Courier FF [14 0 0 -14 0 0] MS ( +TII\(2,2\)I2) SH GR GR % TEXT NP 0 SG GS 1 W 125 305 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (V1=TV\(1,1\)Vm1) SH GR 0 16 RM GS 0 SG /Courier FF [14 0 0 -14 0 0] MS ( +TV\(1,2\)Vm2) SH GR GR % TEXT NP 0 SG GS 1 W 265 180 M GS 0 SG /Courier FF [14 0 0 -14 0 0] MS (V2=TV\(2,1\)Vm1) SH GR 0 16 RM GS 0 SG /Courier FF [14 0 0 -14 0 0] MS ( +TV\(2,2\)Vm2) SH GR GR GR tgifsavedpage restore end showpage %%Trailer %MatchingCreationDate: Fri Nov 18 11:18:32 2016 %%DocumentFonts: Courier %%EOF