Trailing-Edge
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PDP-10 Archives
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decuslib20-03
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decus/20-0087/lan2.bas
There is 1 other file named lan2.bas in the archive. Click here to see a list.
00010 ' LAN2.BAS DUANE MOORE D I G I T A L
00020 ' USED IN CONJUNCTION WITH LAN1.BAS WHICH CREATES THE
��00030 ' FILE *YPARAM.LAN*. THIS FILE HAS THE FOLLOWING FORMAT:
���00040 ' FREQ,MAG(Y(1,1)),ARG(Y(1,1)),MAG(Y(1,2)),ARG(Y(1,2)),
00050 ' MAG(Y(2,1)),ARG(Y(2,1)),MAG(Y(2,2)),ARG(Y(2,2))
�00060 ' ARGUMENTS ARE IN RADIANS.
���00070 ' FILE *TERM.LAN* CONTAINS THE TERMINATION INFORMATION:
00080 ' RS(1),CS(1),LS(1),RL(1),CL(1),LL(1),RS(2),...,LL(N)
��00090 ' WHICH ARE THE SERIES CONNECTED ELEMENTS OF THE SOURCE
00100 ' THE CALCULATED DATA IS WRITTEN INTO THE FILE *GAIN.LAN*
���00110 ' THIS FILE HAS THE FOLLOWING FORMAT:
���00120 ' [BLANK LINE]
�00130 ' RS(1),CS(1),LS(1)
�00140 ' RL(1),CL(1),LL(1)
�00150 ' [BLANK LINE]
�00160 ' MAGNITUDE AND ARGUMENT OF: AI, ZIN, AV, AND ZOUT
00170 ' MAGNITUDE AND ARGUMENT OF: AVS, AIS
��00180 ' 8 ZEROS (FOR FUTURE EXPANSION)
���00190 ' POWER GAIN, LINVILLE STABILITY FACTOR, STERN STABILITY FACTOR
��00200 '
00210 ' 3-22-75
�00220 '
00230 FILES YPARAM.LAN,TERM.LAN,GAIN.LAN
���00240 MARGIN #3,132
����00250 SCRATCH #3
��00260 LET P1=3.141592654
����00270 LET P2=2*P1
�00280 DIM Y2(2,2),Y3(2,2)
���00290 DIM C0(8),C1(8),C2(8),C3(8),Y0(2,2),Y1(2,2)
����00300 DIM X(21),G(20)
��00310 GOTO 3000
���00320 IF END#1,GOTO 2940
����00330 INPUT #1,F
��00340 INPUT #1, Y2(1,1),Y3(1,1)
��00350 INPUT #1, Y2(1,2),Y3(1,2)
��00360 INPUT #1, Y2(2,1),Y3(2,1)
��00370 INPUT #1, Y2(2,2),Y3(2,2)
��00380 LET M0=4
����00390 LET C2(1)=Y2(1,1)
00400 LET C2(2)=Y2(1,2)
00410 LET C2(3)=Y2(2,1)
00420 LET C2(4)=Y2(2,2)
00430 LET C3(1)=Y3(1,1)
00440 LET C3(2)=Y3(1,2)
00450 LET C3(3)=Y3(2,1)
00460 LET C3(4)=Y3(2,2)
00470 GOSUB 2720
��00480 LET Y0(1,1)=C0(1)
00490 LET Y0(1,2)=C0(2)
00500 LET Y0(2,1)=C0(3)
00510 LET Y0(2,2)=C0(4)
00520 LET Y1(1,1)=C1(1)
00530 LET Y1(1,2)=C1(2)
00540 LET Y1(2,1)=C1(3)
00550 LET Y1(2,2)=C1(4)
00560 LET O=P2*F
��00570 IF X(1)=0 GOTO 600
����00580 LET X(6)=O*X(2)-1/(O*X(1))
�00590 GOTO 610
����00600 LET X(6)=O*X(2)
��00610 IF X(4)=0 GOTO 640
����00620 LET X(7)=O*X(5)-1/(O*X(4))
�00630 GOTO 650
����00640 LET X(7)=O*X(5)
��00650 LET M0=2
����00660 LET C0(1)=X(0)
���00670 LET C1(1)=X(6)
���00680 LET C0(2)=X(3)
���00690 LET C1(2)=X(7)
���00700 GOSUB 2370
��00710 LET X(8)=C2(1)
���00720 LET X(9)=C3(1)
���00730 LET X(10)=C2(2)
��00740 LET X(11)=C3(2)
��00750 IF C2(1)<>0 GOTO 780
��00760 LET C2(1)=1E35
���00770 GOTO 790
����00780 LET C2(1)=1/C2(1)
00790 IF C2(2)<>0 GOTO 820
��00800 LET C2(2)=1E35
���00810 GOTO 830
����00820 LET C2(2)=1/C2(2)
00830 LET C3(1)=-C3(1)
�00840 LET C3(2)=-C3(2)
�00850 GOSUB 2720
��00860 LET X(12)=C0(1)
��00870 LET X(13)=C0(2)
��00880 LET X(14)=Y0(2,1)*Y0(1,2)-Y1(2,1)*Y1(1,2)
�00890 LET X(15)=Y0(2,1)*Y1(1,2)+Y0(1,2)*Y1(2,1)
�00900 LET X(16)=Y0(1,1)+X(12)
����00910 LET X(17)=Y0(2,2)+X(13)
����00920 LET X(18)=C1(2)+Y1(2,2)
����00930 LET X(19)=C1(1)+Y1(1,1)
����00940 ' CURRENT GAIN
�00950 LET C2(1)=Y2(1,1)*Y2(2,2)
��00960 LET C3(1)=Y3(1,1)+Y3(2,2)
��00970 LET C2(2)=Y2(1,2)*Y2(2,1)
��00980 LET C3(2)=Y3(1,2)+Y3(2,1)
��00990 GOSUB 2720
��01000 LET C0(2)=C0(1)-C0(2)
�01010 LET C1(2)=C1(1)-C1(2)
�01020 GOSUB 2370
��01030 LET X(20)=C2(2)
��01040 LET X(21)=C3(2)
��01050 IF ABS(X(10))<1E20 GOTO 1070
����01060 GOTO 3080
���01070 LET C2(1)=C2(2)*X(10)
�01080 LET C3(1)=C3(2)+X(11)
�01090 GOSUB 2720
��01100 LET C0(2)=C0(1)+Y0(1,1)
����01110 LET C1(2)=C1(1)+Y1(1,1)
����01120 GOSUB 2370
��01130 IF C2(2)<>0 GOTO 1160
�01140 LET G(0)=1E35
����01150 GOTO 1170
���01160 LET G(0)=-Y2(2,1)/C2(2)
����01170 LET G(1)=Y3(2,1)-C3(2)
01180 ' INPUT IMPEDANCE
���01190 LET C2(1)=Y2(2,2)*X(10)
����01200 LET C3(1)=Y3(2,2)+X(11)
����01210 GOSUB 2720
��01220 LET C0(1)=1+C0(1)
01230 GOSUB 2370
��01240 IF C2(2)<>0 GOTO 1270
�01250 LET G(2)=1E35
����01260 GOTO 1280
���01270 LET G(2)=C2(1)/C2(2)
��01280 LET G(3)=C3(1)-C3(2)
��01290 ' VOLTAGE GAIN
�01300 LET C0(1)=X(17)
��01310 LET C1(1)=X(18)
��01320 GOSUB 2370
��01330 IF C2(1)<>0 GOTO 1370
�01340 LET G(4)=0
��01350 LET G(5)=0
��01360 GOTO 1410
���01370 LET G(4)=-Y2(2,1)/C2(1)
����01380 IF ABS(G(4))>1E-35 GOTO 1400
����01390 LET G(4)=0
��01400 LET G(5)=Y3(2,1)-C3(1)
01410 ' ZOUT
����01420 IF ABS(X(8))<1E20 GOTO 1460
01430 LET G(6)=Y2(1,1)/X(20)
01440 LET G(7)=Y3(1,1)-X(21)
01450 GOTO 1610
���01460 LET C2(1)=X(20)*X(8)
��01470 LET C3(1)=X(21)+X(9)
��01480 LET C2(2)=Y2(1,1)*X(8)
01490 LET C3(2)=Y3(1,1)+X(9)
01500 GOSUB 2720
��01510 LET C0(1)=C0(1)+Y0(2,2)
����01520 LET C1(1)=C1(1)+Y1(2,2)
����01530 LET C0(2)=C0(2)+1
01540 GOSUB 2370
��01550 IF ABS(C2(1))>1E-20 GOTO 1590
���01560 LET G(6)=1E35
����01570 LET G(7)=0
��01580 GOTO 1610
���01590 LET G(6)=C2(2)/C2(1)
��01600 LET G(7)=C3(2)-C3(1)
��01610 ' LINVILL STABILITY FACTOR
����01620 LET G(18)=(2*Y0(1,1)*Y0(2,2)-X(14))
��01630 IF G(18)=0 GOTO 1740
��01640 IF ABS(X(14))<1E18 GOTO 1660
����01650 LET X(14)=SGN(X(14))*1E18
��01660 IF ABS(X(15))<1E18 GOTO 1680
����01670 LET X(15)=SGN(X(15))*1E18
��01680 IF ABS(X(14))>1E-18 GOTO 1700
���01690 LET X(14)=0
�01700 IF ABS(X(15))>1E-18 GOTO 1720
���01710 LET X(15)=0
�01720 LET G(18)=SQR(X(14)*X(14)+X(15)*X(15))/G(18)
���01730 GOTO 1750
���01740 LET G(18)=1E35
���01750 ' STERN STABILITY FACTOR
�01760 LET G(19)=(SQR(X(14)*X(14)+X(15)*X(15))+X(14))
�01770 IF G(19)=0 GOTO 1810
��01780 IFABS(CLOG(ABS(X(16)))+CLOG(ABS(X(17)))-CLOG(ABS(G(19))))>35GOTO1810
����01790 LET G(19)=2*X(16)*X(17)/G(19)
���01800 GOTO 1820
���01810 LET G(19)=SGN(X(16))*1E35
��01820 ' AVSL V(RL)/V(G)
�01830 IF ABS(X(10))>1E-20 GOTO 1870
���01840 LET G(8)=0
��01850 LET G(9)=0
��01860 GOTO 2060
���01870 IF ABS(G(2))<1E20 GOTO 1910
01880 LET G(8)=G(4)*X(3)/X(10)
���01890 LET G(9)=G(5)-X(11)
���01900 GOTO 2060
���01910 LET C2(1)=G(2)
���01920 LET C3(1)=G(3)
���01930 LET C2(2)=X(8)
���01940 LET C3(2)=X(9)
���01950 GOSUB 2720
��01960 LET C0(1)=C0(1)+C0(2)
�01970 LET C1(1)=C1(1)+C1(2)
�01980 GOSUB 2370
��01990 LET C2(1)=C2(1)*X(10)
�02000 LET C3(1)=C3(1)+X(11)
�02010 IF ABS(C2(1))>1E-20 GOTO 2040
���02020 LET G(8)=1E35
����02030 GOTO 2050
���02040 LET G(8)=G(2)*G(4)*X(3)/C2(1)
���02050 LET G(9)=G(3)+G(5)-C3(1)
���02060 ' POWER TO LOAD/POWER FROM SOURCE
��02070 LET M0=1
����02080 IF ABS(X(3))>1E-18 GOTO 2110
����02090 LET G(20)=0
�02100 GOTO 2190
���02110 LET C2(1)=G(2)
���02120 LET C3(1)=G(3)
���02130 GOSUB 2720
��02140 LET C0(1)=C0(1)+X(0)
��02150 LET C1(1)=C1(1)+X(6)
��02160 GOSUB 2370
��02170 LET C2(1)=C2(1)*C2(1)
�02180 LET G(20)=G(8)*G(8)*C2(1)/(X(3)*C0(1))
����02190 ' WRITE OUT RESULTS
�02200 PRINT #3,F
��02210 LET M0=8
����02220 FOR I=1 TO 8
02230 LET C2(I)=G(2*I-2)
����02240 LET C3(I)=G(2*I-1)
����02250 NEXT I
�02260 GOSUB 2800
��02270 FOR J=1 TO 7 STEP 2
���02280 FOR I=J TO J+1
���02290 PRINT #3,C2(I),C3(I),,;
����02300 NEXT I
�02310 PRINT #3,
���02320 NEXT J
�02330 PRINT #3,G(16),,G(17)
�02340 PRINT #3,G(20),,G(18),G(19)
02350 PRINT #3,
���02360 GOTO 320
����02370 ' RECTANGULAR TO POLAR CONVERSION
��02380 FOR M=1 TO M0
����02390 IF C0(M)<>0 GOTO 2430
�02400 LET C2(M)=ABS(C1(M))
��02410 LET C3(M)=90*SGN(C1(M))
����02420 GOTO 2700
���02430 IF C1(M)<>0 GOTO 2470
�02440 LET C2(M)=C0(M)
��02450 LET C3(M)=0
�02460 GOTO 2700
���02470 IF ABS(C0(M))>1E18 GOTO 2510
����02480 IF ABS(C0(M))<1E-18 GOTO 2510
���02490 IF ABS(C1(M))>1E18 GOTO 2510
����02500 IF ABS(C1(M))>=1E-18 GOTO 2660
��02510 LET A0=LOG(ABS(C0(M)))
02520 LET A1=LOG(ABS(C1(M)))
02530 IF ABS(A0-A1)<87 GOTO 2620
�02540 LET A2=(A0+A1)/2
�02550 IF A0>A1 GOTO 2590
����02560 LET C2(M)=C0(M)
��02570 LET C3(M)=0
�02580 GOTO 2700
���02590 LET C2(M)=C1(M)
��02600 LET C3(M)=90
02610 GOTO 2700
���02620 LET A0=EXP(2*(A0-A2))
�02630 LET A1=EXP(2*(A1-A2))
�02640 LET C2(M)=EXP(LOG(A0+A1)/2+A2)
��02650 GOTO 2670
���02660 LET C2(M)=SQR(C0(M)*C0(M)+C1(M)*C1(M))
����02670 LET C3(M)=57.295779*ATN(C1(M)/C0(M))
�02680 IF C0(M)>0 GOTO 2700
��02690 LET C2(M)=-C2(M)
�02700 NEXT M
�02710 RETURN
�02720 ' POLAR TO RECTANGULAR CONVERSION
��02730 FOR M=1 TO M0
����02740 IF ABS(C3(M))>1E-18 GOTO 2760
���02750 LET C3(M)=0
�02760 LET C0(M)=C2(M)*COS(C3(M)/57.295779)
�02770 LET C1(M)=C2(M)*SIN(C3(M)/57.295779)
�02780 NEXT M
�02790 RETURN
�02800 ' PHASE SCALER
�02810 FOR M=1 TO M0
����02820 IF C2(M)>=0 GOTO 2850
�02830 LET C2(M)=-C2(M)
�02840 LET C3(M)=C3(M)+180
���02850 IF C3(M)>=0 GOTO 2880
�02860 LET C3(M)=C3(M)+360
���02870 GOTO 2850
���02880 IF C3(M)<359.999 GOTO 2920
�02890 LET C3(M)=C3(M)-360
���02900 IF C3(M)>=0 GOTO 2920
�02910 LET C3(M)=0
�02920 NEXT M
�02930 RETURN
�02940 RESTORE #1
��02950 PRINT #3,-1010101" ";
�02960 FOR I=1 TO 30
����02970 PRINT #3,"*+";
���02980 NEXT I
�02990 PRINT #3,"*"
03000 IF END#2, GOTO 3070
���03010 INPUT #2,X(0),X(1),X(2),X(3),X(4),X(5)
����03020 PRINT #3,
���03030 PRINT #3,X(0),X(1),X(2)
����03040 PRINT #3,X(3),X(4),X(5)
����03050 PRINT #3,
���03060 GOTO 330
����03070 CHAIN LAN,200
����03080 LET G(0)=0
��03090 LET G(1)=0
��03100 LET G(2)=Y2(2,2)/X(20)
03110 LET G(3)=Y3(2,2)-X(21)
03120 LET G(4)=-Y2(2,1)/Y2(2,2)
��03130 LET G(5)=Y3(2,1)-Y3(2,2)
���03140 GOTO 1410
���03150 END
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