diff options
Diffstat (limited to 'Windows/spice/examples/TransmissionLines')
19 files changed, 0 insertions, 3062 deletions
diff --git a/Windows/spice/examples/TransmissionLines/cpl1_4_line.sp b/Windows/spice/examples/TransmissionLines/cpl1_4_line.sp deleted file mode 100644 index 7c46b655..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl1_4_line.sp +++ /dev/null @@ -1,63 +0,0 @@ -MOSdriver -- 6.3inch 4 lossy line CPL model -- C load - -m1 1 2 6 1 mp1p0 w = 36.0u l=1.0u -m2 1 3 7 1 mp1p0 w = 36.0u l=1.0u -m3 1 4 8 1 mp1p0 w = 36.0u l=1.0u -m4 1 10 5 1 mp1p0 w = 36.0u l=1.0u -m5 1 11 13 1 mp1p0 w = 36.0u l=1.0u -m6 1 12 13 1 mp1p0 w = 36.0u l=1.0u - -m7 0 2 6 0 mn0p9 w = 18.0u l=0.9u -m8 0 3 7 0 mn0p9 w = 18.0u l=0.9u -m9 0 4 8 0 mn0p9 w = 18.0u l=0.9u -m10 0 10 5 0 mn0p9 w = 18.0u l=0.9u -m11 14 11 13 0 mn0p9 w = 18.0u l=0.9u -m12 0 12 14 0 mn0p9 w = 18.0u l=0.9u - -* -CN5 5 0 0.025398e-12 -CN6 6 0 0.007398e-12 -CN7 7 0 0.007398e-12 -CN8 8 0 0.007398e-12 -CN9 9 0 0.097398e-12 -CN10 10 0 0.007398e-12 -CN11 11 0 0.003398e-12 -CN12 12 0 0.004398e-12 -CN13 13 0 0.008398e-12 -CN14 14 0 0.005398e-12 - -* -P1 5 6 7 8 0 9 10 11 12 0 pline - -* -* -vdd 1 0 DC 5.0 -v3 3 0 DC 5.0 -* -VS1 2 0 PULSE ( 0 5 15.9NS 0.2NS 0.2NS 15.8NS 32NS) -VS2 4 0 PULSE (0 5 15.9NS 0.2NS 0.2NS 15.8NS 32NS ) -* -.control -TRAN 0.2N 47.9N 0 0.05N -plot V(5) V(6) V(7) V(8) V(9) V(10) V(11) V(12) -.endc -.MODEL mn0p9 NMOS VTO=0.8 KP=48U GAMMA=0.30 PHI=0.55 LAMBDA=0.00 CGSO=0 CGDO=0 -+CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL mp1p0 PMOS VTO=-0.8 KP=21U GAMMA=0.45 PHI=0.61 LAMBDA=0.00 CGSO=0 CGDO=0 -+CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL PLINE cpl -+R=0.03 0 0 0 -+ 0.03 0 0 -+ 0.03 0 -+ 0.03 -+L=9e-9 5.4e-9 0 0 -+ 9e-9 5.4e-9 0 -+ 9e-9 5.4e-9 -+ 9e-9 -+G=0 0 0 0 0 0 0 0 0 0 -+C=3.5e-13 -3e-14 0 0 -+ 3.5e-13 -3e-14 0 -+ 3.5e-13 -3e-14 -+ 3.5e-13 -+length=6.3 -.END diff --git a/Windows/spice/examples/TransmissionLines/cpl2_2_line.sp b/Windows/spice/examples/TransmissionLines/cpl2_2_line.sp deleted file mode 100644 index 713e3334..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl2_2_line.sp +++ /dev/null @@ -1,46 +0,0 @@ -MOSdriver -- 24inch 2 lossy lines CPL model -- C load - -m1 0 268 299 0 mn0p9 w = 18.0u l=1.0u -m2 299 267 748 0 mn0p9 w = 18.0u l=1.0u -m3 0 168 648 0 mn0p9 w = 18.0u l=0.9u -m4 1 268 748 1 mp1p0 w = 36.0u l=1.0u -m5 1 267 748 1 mp1p0 w = 36.0u l=1.0u -m6 1 168 648 1 mp1p0 w = 36.0u l=1.0u -* -CN648 648 0 0.025398e-12 -CN651 651 0 0.007398e-12 -CN748 748 0 0.025398e-12 -CN751 751 0 0.009398e-12 -CN299 299 0 0.005398e-12 -* -P1 648 748 0 651 751 0 PLINE -* -vdd 1 0 DC 5.0 -VK 267 0 DC 5.0 -* -*VS 168 0 PWL 4 15.9N 0.0 16.1n 5.0 31.9n 5.0 32.1n 0.0 -*VS 268 0 PWL 4 15.9N 0.0 16.1n 5.0 31.9n 5.0 32.1n 0.0 -* -VS1 168 0 PULSE (0 5 15.9N 0.2N 0.2N 15.8N 60N) -VS2 268 0 PULSE (0 5 15.9N 0.2N 0.2N 15.8N 60N) -* -.control -TRAN 0.2N 47.9NS 0 1N -plot v(648) v(651) v(751) -.endc -* -.MODEL PLINE CPL -+R=0.2 0 -+ 0.2 -+L=9.13e-9 3.3e-9 -+ 9.13e-9 -+G=0 0 0 -+C=3.65e-13 -9e-14 -+ 3.65e-13 -+length=24 -******************* MODEL SPECIFICATION ********************** -.MODEL mn0p9 NMOS VTO=0.8 KP=48U GAMMA=0.30 PHI=0.55 LAMBDA=0.00 CGSO=0 CGDO=0 -+ CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL mp1p0 PMOS VTO=-0.8 KP=21U GAMMA=0.45 PHI=0.61 LAMBDA=0.00 CGSO=0 CGDO=0 -+ CJ=0 CJSW=0 TOX=18000N LD=0.0U -.END diff --git a/Windows/spice/examples/TransmissionLines/cpl3_4_line.sp b/Windows/spice/examples/TransmissionLines/cpl3_4_line.sp deleted file mode 100644 index d5715481..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl3_4_line.sp +++ /dev/null @@ -1,37 +0,0 @@ -6.3inch 4 lossy lines CPL model -- R load - -Ra 1 2 1K -Rb 0 3 1K -Rc 0 4 1K -Rd 0 5 1K -Re 6 0 1Meg -Rf 7 0 1Meg -Rg 8 0 1Meg -Rh 9 0 1Meg -* -P1 2 3 4 5 0 6 7 8 9 0 LOSSYMODE -* -* -VS1 1 0 PWL(15.9NS 0.0 16.1Ns 5.0 31.9Ns 5.0 32.1Ns 0.0) -* -.control -TRAN 0.2NS 50NS 0 0.05N -PLOT V(1) V(2) V(6) V(7) V(8) V(9) -.endc -.MODEL LOSSYMODE CPL -+R=0.3 0 0 0 -+ 0.3 0 0 -+ 0.3 0 -+ 0.3 -+L=9e-9 5.4e-9 0 0 -+ 9e-9 5.4e-9 0 -+ 9e-9 5.4e-9 -+ 9e-9 -+G=0 0 0 0 0 0 0 0 0 0 -+C=3.5e-13 -3e-14 0 0 -+ 3.5e-13 -3e-14 0 -+ 3.5e-13 -3e-14 -+ 3.5e-13 -+length=6.3 - -.END diff --git a/Windows/spice/examples/TransmissionLines/cpl4_txl_2_line.sp b/Windows/spice/examples/TransmissionLines/cpl4_txl_2_line.sp deleted file mode 100644 index 986c9b63..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl4_txl_2_line.sp +++ /dev/null @@ -1,378 +0,0 @@ -BJTdriver -- 2in st. lin -- 20in coupled line CPL -- 2in st line -- DiodeCircuit - -* This unclassified circuit is from Raytheon, courtesy Gerry Marino. -* -* _______ -* -------- 2in _________________ 2in | | -* | BJT |______| |______|Diode| -* | |------| |------| | -* | Drvr | line | 2-wire | line |rcvr.| -* -------- | coupled | |_____| -* | transmission | -* |-/\/\/\/\----| line |-------\/\/\/\/\----| -* | 50ohms | | 50ohms | -* | | | | -* Ground ----------------- Ground -* -* -* Each inch of the lossy line is modelled by 10 LRC lumps in the -* Raytheon model. - -* The line parameters (derived from the Raytheon input file) are: -* L = 9.13nH per inch -* C = 3.65pF per inch -* R = 0.2 ohms per inch -* K = 0.482 [coupling coefficient; K = M/sqrt(L1*L2)] -* Cc = 1.8pF per inch -* -* coupled ltra model generated using the standalone program -* multi_decomp - -* the circuit -*tran 0.1ns 60ns - -v1 1 0 0v pulse(0 4 1ns 1ns 1ns 20ns 40ns) -*v1 1 0 4v pulse(4 0 1ns 1ns 1ns 20ns 40ns) -vcc 10 0 5v - -* series termination -*x1 1 oof 10 bjtdrvr -*rseries oof 2 50 - -x1 1 2 10 bjtdrvr -rt1 3 0 50 - - -* convolution model -x2 2 3 4 5 conv2wetcmodel - -* rlc segments model -*x2 2 3 4 5 rlc2wetcmodel - -x3 4 dioload -rt2 5 0 50 - - - -.model qmodn npn(bf=100 rb=100 cje=0.09375pF cjc=0.28125pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpd npn(bf=100 rb=100 cje=0.08187pF cjc=0.2525pF is=1e-12 -+pe=0.5 pc=0.5) -.model qmodpdmine npn(bf=100 rb=100 cje=0.08187pF cjc=0.05pF is=1e-12 -+pe=0.5 pc=0.5) - -.model dmod1 d(n=2.25 is=1.6399e-4 bv=10) - -.model dmod2 d - -.model dmod d(vj=0.3v) - -.model diod1 d(tt=0.75ns vj=0.6 rs=909 bv=10) - -.model diod2 d(tt=0.5ns vj=0.3 rs=100 bv=10) - -.options acct reltol=1e-3 abstol=1e-12 -.control -tran 0.1ns 60ns 0 0.35N -plot v(2) v(4) v(5) -.endc - -* bjt driver - 19=input, 268=output, 20=vcc; wierd node numbers from -* the Raytheon file - -.subckt bjtdrvr 19 268 20 -q1 22 18 13 qmodn -q2 18 16 13 qmodn -qd2 21 9 0 qmodn -q4 14 14 0 qmodn -q3 16 15 14 qmodpd -q5 8 13 17 qmodn -q6 25 12 0 qmodn -q7 6 17 0 qmodpd -qd1 26 10 0 qmodn -q8 7 11 10 qmodn -*q10 268 17 0 qmodpd -q10 268 17 0 qmodpdmine -q9 7 10 268 qmodn - -d1 0 19 dmod1 -d2 18 19 dmod2 -d3 13 19 dmod -dq1 18 22 dmod -dq2 16 18 dmod -d502 9 21 dmod -dq3 15 16 dmod -d10 24 8 dmod -d4 15 6 dmod -dq6 12 25 dmod -dq7 17 6 dmod -dd1 17 10 dmod -d7 11 6 dmod -dd2 17 26 dmod -d9 23 6 dmod -dq8 11 7 dmod -d501 17 268 dmod -dq9 10 7 dmod -d14 20 27 dmod -d8 0 268 dmod - -r1 18 20 6k -r2 22 20 2.2k -r4 0 13 7k -rd1 9 13 2k -rd2 21 13 3k -r3 16 20 10k -r5 15 20 15k -r9 0 17 4k -r6 24 20 750 -r10 12 17 2k -r12 24 11 1.5k -r11 25 17 3k -r15 23 20 10k -r13 0 10 15k -r14 7 27 12 - -.ends bjtdrvr - -* subckt dioload - diode load: input=28, output=4, vcc=5 - -.subckt dioload 28 -*comment out everything in dioload except d5 and r503, and watch -* the difference in results obtained between a tran 0.1ns 20ns and -* a tran 0.01ns 20ns -vccint 5 0 5v - -c1 28 0 5pF -r503 0 4 5.55 -r4 0 28 120k -r5 1 5 7.5k - -d5 4 28 diod2 -d1 1 28 diod1 -d4 2 0 diod1 -d3 3 2 diod1 -d2 1 3 diod1 -.ends dioload - -* subckt rlclump - one RLC lump of the lossy line - -.subckt rlclump 1 2 -*r1 1 3 0.02 -*c1 3 0 0.365pF -*l1 3 2 0.913nH - -l1 1 3 0.913nH -c1 2 0 0.365pF -r1 3 2 0.02 - -*r1 1 3 0.01 -*c1 3 0 0.1825pF -*l1 3 4 0.4565nH -*r2 4 5 0.01 -*c2 5 0 0.1825pF -*l2 5 2 0.4565nH - -*c1 1 0 0.365pF -*l1 1 2 0.913nH -.ends lump - -.subckt rlconeinch 1 2 -x1 1 3 rlclump -x2 3 4 rlclump -x3 4 5 rlclump -x4 5 6 rlclump -x5 6 7 rlclump -x6 7 8 rlclump -x7 8 9 rlclump -x8 9 10 rlclump -x9 10 11 rlclump -x10 11 2 rlclump -.ends rlconeinch - -.subckt rlctwoinch 1 2 -x1 1 3 rlconeinch -x2 3 2 rlconeinch -.ends rlctwoinch - -.subckt rlcfourinch 1 2 -x1 1 3 rlconeinch -x2 3 4 rlconeinch -x3 4 5 rlconeinch -x4 5 2 rlconeinch -.ends rlcfourinch - -.subckt rlcfiveinch 1 2 -x1 1 3 rlconeinch -x2 3 4 rlconeinch -x3 4 5 rlconeinch -x4 5 6 rlconeinch -x5 6 2 rlconeinch -.ends rlcfiveinch - -.subckt rlctwentyrlcfourinch 1 2 -x1 1 3 rlcfiveinch -x2 3 4 rlcfiveinch -x3 4 5 rlcfiveinch -x4 5 6 rlcfiveinch -x5 6 2 rlcfourinch -.ends rlctwentyrlcfourinch - -.subckt rlclumpstub A B C D -x1 A int1 rlcfiveinch -x2 int1 int2 rlcfiveinch -x3 int2 1 rlcfiveinch -x4 1 2 rlcfourinch -x5 1 int3 rlcfiveinch -x6 int3 B rlconeinch -x7 2 C rlcfiveinch -x8 2 D rlcfourinch -.ends rlclumpstub - -.subckt ltrastub A B C D -yy1 A 0 1 0 ylline15in -yy2 1 0 B 0 ylline6in -yy3 1 0 2 0 ylline4in -yy4 2 0 C 0 ylline5in -yy5 2 0 D 0 ylline4in -.ends ltrastub - -*modelling using R and lossless lines - -*5 segments per inch -.model yllfifth txl r=0 g=0 l=9.13e-9 c=3.65e-12 length=0.2 - -.subckt xlump 1 2 -y1 1 0 3 0 yllfifth -r1 2 3 0.04 -.ends xlump - -.subckt xoneinch 1 2 -x1 1 3 xlump -x2 3 4 xlump -x3 4 5 xlump -x4 5 6 xlump -x5 6 2 xlump -*x5 6 7 xlump -*x6 7 8 xlump -*x7 8 9 xlump -*x8 9 10 xlump -*x9 10 11 xlump -*x10 11 2 xlump -.ends xoneinch - -.subckt xFourinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 2 xoneinch -.ends xfourinch - -.subckt xfiveinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 6 xoneinch -x5 6 2 xoneinch -.ends xfiveinch - -.subckt xlumpstub A B C D -x1 A int1 xfiveinch -x2 int1 int2 xfiveinch -x3 int2 1 xfiveinch -x4 1 2 xfourinch -x5 1 int3 xfiveinch -x6 int3 B xoneinch -x7 2 C xfiveinch -x8 2 D xfourinch -.ends xlumpstub - -* modelling a 2 wire coupled system using RLC lumps -* 10 segments per inch -* -* 1---xxxxx----2 -* 3---xxxxx----4 - -.subckt rlc2wlump 1 3 2 4 -l1 1 5 0.913nH -c1 2 0 0.365pF -r1 5 2 0.02 -l2 3 6 0.913nH -c2 4 0 0.365pF -r2 6 4 0.02 -cmut 2 4 0.18pF -k12 l1 l2 0.482 -.ends rlc2wlump - -.subckt rlc2woneinch 1 2 3 4 -x1 1 2 5 6 rlc2wlump -x2 5 6 7 8 rlc2wlump -x3 7 8 9 10 rlc2wlump -x4 9 10 11 12 rlc2wlump -x5 11 12 13 14 rlc2wlump -x6 13 14 15 16 rlc2wlump -x7 15 16 17 18 rlc2wlump -x8 17 18 19 20 rlc2wlump -x9 19 20 21 22 rlc2wlump -x10 21 22 3 4 rlc2wlump -.ends rlc2woneinch - -.subckt rlc2wfiveinch 1 2 3 4 -x1 1 2 5 6 rlc2woneinch -x2 5 6 7 8 rlc2woneinch -x3 7 8 9 10 rlc2woneinch -x4 9 10 11 12 rlc2woneinch -x5 11 12 3 4 rlc2woneinch -.ends rlc2wfiveinch - -.subckt rlc2wtwentyinch 1 2 3 4 -x1 1 2 5 6 rlc2wfiveinch -x2 5 6 7 8 rlc2wfiveinch -x3 7 8 9 10 rlc2wfiveinch -x4 9 10 3 4 rlc2wfiveinch -.ends rlc2wtwentyinch - -.subckt rlc2wetcmodel 1 2 3 4 -x1 1 5 rlctwoinch -x2 5 2 6 4 rlc2wtwentyinch -x3 6 3 rlctwoinch -.ends rlc2wetcmodel - -* Subcircuit conv2wtwentyinch -* conv2wtwentyinch is a subcircuit that models a 2-conductor transmission line with -* the following parameters: l=9.13e-09, c=3.65e-12, r=0.2, g=0, -* inductive_coeff_of_coupling k=0.482, inter-line capacitance cm=1.8e-12, -* length=20. Derived parameters are: lm=4.40066e-09, ctot=5.45e-12. -* -* It is important to note that the model is a simplified one - the -* following assumptions are made: 1. The self-inductance l, the -* self-capacitance ctot (note: not c), the series resistance r and the -* parallel capacitance g are the same for all lines, and 2. Each line -* is coupled only to the two lines adjacent to it, with the same -* coupling parameters cm and lm. The first assumption imply that edge -* effects have to be neglected. The utility of these assumptions is -* that they make the sL+R and sC+G matrices symmetric, tridiagonal and -* Toeplitz, with useful consequences. -* -* It may be noted that a symmetric two-conductor line will be -* accurately represented by this model. - -* swec model -.model plines cpl -+R=0.2 0 -+ 0.2 -+L=9.13e-9 4.4e-9 -+ 9.13e-9 -+G=0 0 0 -+C=5.45e-12 -1.8e-12 -+ 5.45e-12 -+length=20 - -.model yconvtwoinch txl r=0.2 g=0 l=9.13e-9 c=3.65e-12 length=2.0 -.subckt conv2wetcmodel 1 2 3 4 -y1 1 0 5 0 yconvtwoinch -p2 5 2 0 6 4 0 plines -y2 6 0 3 0 yconvtwoinch -.ends conv2wetcmodel - -.end diff --git a/Windows/spice/examples/TransmissionLines/cpl_ibm1.sp b/Windows/spice/examples/TransmissionLines/cpl_ibm1.sp deleted file mode 100644 index 1077d00e..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl_ibm1.sp +++ /dev/null @@ -1,82 +0,0 @@ -6-line coupled multiconductor with ECL drivers -vemm mm 0 DC -0.4 -vepp pp 0 DC 0.4 -vein_left lin 0 PULSE (-0.4 0.4 0N 1N 1N 7N 200N) -vein_right rin 0 PULSE (-0.4 0.4 2N 1N 1N 7N 200N) - -* upper 2 lines -x1 lin 0 1 1outn ECL -x2 mm 0 2 2outn ECL -x7 7 0 7r 7routn ECL -x8 8 0 8r 8routn ECL - -c7r 7r 0 0.1P -c8r 8r 0 0.1P - -* lower 2 lines -x11 pp 0 11 11outn ECL -x12 rin 0 12 12outn ECL -x5 5 0 5l 5loutn ECL -x6 6 0 6l 6loutn ECL - -c5l 5l 0 0.1P -c6l 6l 0 0.1P - -p1 1 2 3 4 5 6 0 7 8 9 10 11 12 0 pline - -.model pline cpl -+C = 0.900000P -0.657947P -0.0767356P -0.0536544P -0.0386514P -0.0523990P -+ 1.388730P -0.607034P -0.0597635P -0.0258851P -0.0273442P -+ 1.39328P -0.625675P -0.0425551P -0.0319791P -+ 1.07821P -0.255048P -0.0715824P -+ 1.06882P -0.692091P -+ 0.900000P -+L = 0.868493E-7 0.781712E-7 0.748428E-7 0.728358E-7 0.700915E-7 0.692178E-7 -+ 0.866074E-7 0.780613E-7 0.748122E-7 0.711591E-7 0.701023E-7 -+ 0.865789E-7 0.781095E-7 0.725431E-7 0.711986E-7 -+ 0.867480E-7 0.744242E-7 0.725826E-7 -+ 0.868022E-7 0.782377E-7 -+ 0.868437E-7 -+R = 0.2 0 0 0 0 0 -+ 0.2 0 0 0 0 -+ 0.2 0 0 0 -+ 0.2 0 0 -+ 0.2 0 -+ 0.2 -+G = 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -+ -+length = 2 - -*XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX -.SUBCKT ECL EIN GND 9 8 -* Input-GND-OUTP-OUTN -RIN 1 2 0.077K -REF 5 6 0.077K -R1 7 N 1.0K -R2 P 3 0.4555K -R3 P 4 0.4555K -R4 8 N 0.615K -R5 9 N 0.615K -RL1 8 GND 0.093K -RL2 9 GND 0.093K -LIN EIN 1 0.01U -LREF 5 GND 0.01U -CIN 1 GND 0.68P -CL1 8 GND 1P -CL2 9 GND 1P -Q1 3 2 7 JCTRAN -Q2 4 6 7 JCTRAN -Q3 P 3 8 JCTRAN -Q4 P 4 9 JCTRAN -VEP P GND DC 1.25 -VEN N GND DC -3 -.ENDS ECL - -.control -TRAN 0.1N 20N -plot V(3) V(5) V(8) V(11) V(12) -.endc -.MODEL JCTRAN NPN BF=150 VAF=20 IS=4E-17 RB=300 RC=100 CJE=30F CJC=30F -+ CJS=40F VJE=0.6 VJC=0.6 VJS=0.6 MJE=0.5 MJC=0.5 -+ MJS=0.5 TF=16P TR=1N -.END diff --git a/Windows/spice/examples/TransmissionLines/cpl_ibm2.sp b/Windows/spice/examples/TransmissionLines/cpl_ibm2.sp deleted file mode 100644 index 8aeff85d..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl_ibm2.sp +++ /dev/null @@ -1,22 +0,0 @@ -Simple coupled transmissionlines -VES IN 0 PULSE (0 1 0N 1.5N 1.5N 4.5N 200N) -R1 IN V1 50 -R2 V2 0 10 -p1 V1 V2 0 V3 V4 0 cpl1 -.model cpl1 cpl -+R = 0.5 0 -+ 0.5 -+L = 247.3e-9 31.65e-9 -+ 247.3e-9 -+C = 31.4e-12 -2.45e-12 -+ 31.4e-12 -+G = 0 0 0 -+length = 0.3048 -*length = 0.6096 -R3 V3 0 100 -R4 V4 0 100 -.control -TRAN 0.1N 20N -plot v(in) v(v1) v(v3) -.endc -.END diff --git a/Windows/spice/examples/TransmissionLines/cpl_ibm3.sp b/Windows/spice/examples/TransmissionLines/cpl_ibm3.sp deleted file mode 100644 index 0a0d5e22..00000000 --- a/Windows/spice/examples/TransmissionLines/cpl_ibm3.sp +++ /dev/null @@ -1,70 +0,0 @@ -Mixed single and coupled transmission lines -c1g 1 0 1P -l11a 1 1a 6e-9 -r1a7 1a 7 0.025K -rin6 in 6 0.075K -l67 6 7 10e-9 -c7g 7 0 1P -P2 1 7 0 2 8 0 PLINE -.MODEL PLINE CPL -+R = 2.25 0 -+ 2.25 -+L = 0.6e-6 0.05e-6 -+ 0.6e-6 -+G = 0 0 0 -+C = 1.2e-9 -0.11e-9 -+ 1.2e-9 -+length = 0.03 -c2g 2 0 0.5P -r2g 2 0 0.05K -r23 2 3 0.025K -l34 3 4 5e-9 -c4g 4 0 2P -l89 8 9 10e-9 -c9g 9 0 1P -Y1 9 0 10 0 txline -.model txline txl R = 1 L =0.6e-6 G = 0 C= 1.0e-9 length=0.04 -l1011 10 11 10e-9 -c11g 11 0 0.5P -r11g 11 0 0.05K -r1112 11 12 0.025K -l1213 12 13 5e-9 -c13g 13 0 2P -r1116 11 16 0.025K -l1617 16 17 5e-9 -c17g 17 0 2P -P1 4 2 13 17 0 5 14 15 18 0 PLINE1 - -.MODEL PLINE1 CPL -+R = 3.5 0 0 0 -+ 3.5 0 0 -+ 3.5 0 -+ 3.5 -+L = -+1e-6 0.11e-6 0.03e-6 0 -+ 1e-6 0.11e-6 0.03e-6 -+ 1e-6 0.11e-6 -+ 1e-6 -+G = 0 0 0 0 0 0 0 0 0 0 -+C = -+1.5e-9 -0.17e-9 -0.03e-9 0 -+ 1.5e-9 -0.17e-9 -0.03e-9 -+ 1.5e-9 -0.17e-9 -+ 1.5e-9 -+length = 0.02 - -D1 5 0 dmod -D2 14 0 dmod -D3 15 0 dmod -D4 18 0 dmod - -.model dmod d - -VES in 0 PULSE (0 5 0 1.1ns 0.1ns 0.9ns 200ns) - -.control -TRAN 0.2N 10.0N -plot v(3) v(6) v(7) v(8) v(11) v(15) -.endc - -.END diff --git a/Windows/spice/examples/TransmissionLines/ltra1_1_line.sp b/Windows/spice/examples/TransmissionLines/ltra1_1_line.sp deleted file mode 100644 index 2d9c93bb..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra1_1_line.sp +++ /dev/null @@ -1,19 +0,0 @@ -MOSdriver -- lossy line LTRA model -- C load -m5 0 168 2 0 mn0p9 w = 18.0u l=0.9u -m6 1 168 2 1 mp1p0 w = 36.0u l=1.0u -CN2 2 0 0.025398e-12 -CN3 3 0 0.007398e-12 -o1 2 0 3 0 lline -vdd 1 0 dc 5.0 -VS 168 0 PULSE (0 5 15.9NS 0.2NS 0.2NS 15.8NS 32NS ) -.control -TRAN 0.2N 47N 0 0.1N -plot v(2) v(3) ylimit -0.5 5 -.endc -.MODEL mn0p9 NMOS VTO=0.8 KP=48U GAMMA=0.30 PHI=0.55 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL mp1p0 PMOS VTO=-0.8 KP=21U GAMMA=0.45 PHI=0.61 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.model lline ltra rel=1 r=12.45 g=0 l=8.972e-9 c=0.468e-12 -+len=16 steplimit compactrel=1.0e-3 compactabs=1.0e-14 -.end diff --git a/Windows/spice/examples/TransmissionLines/ltra1_4_line.sp b/Windows/spice/examples/TransmissionLines/ltra1_4_line.sp deleted file mode 100644 index 8d30a757..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra1_4_line.sp +++ /dev/null @@ -1,144 +0,0 @@ -MOSdriver -- 6.3inch 4 lossy line LTRA model -- C load - -m1 1 2 6 1 mp1p0 w = 36.0u l=1.0u -m2 1 3 7 1 mp1p0 w = 36.0u l=1.0u -m3 1 4 8 1 mp1p0 w = 36.0u l=1.0u -m4 1 10 5 1 mp1p0 w = 36.0u l=1.0u -m5 1 11 13 1 mp1p0 w = 36.0u l=1.0u -m6 1 12 13 1 mp1p0 w = 36.0u l=1.0u - -m7 0 2 6 0 mn0p9 w = 18.0u l=0.9u -m8 0 3 7 0 mn0p9 w = 18.0u l=0.9u -m9 0 4 8 0 mn0p9 w = 18.0u l=0.9u -m10 0 10 5 0 mn0p9 w = 18.0u l=0.9u -m11 14 11 13 0 mn0p9 w = 18.0u l=0.9u -m12 0 12 14 0 mn0p9 w = 18.0u l=0.9u - - -* -CN5 5 0 0.025398e-12 -CN6 6 0 0.007398e-12 -CN7 7 0 0.007398e-12 -CN8 8 0 0.007398e-12 -CN9 9 0 0.097398e-12 -CN10 10 0 0.007398e-12 -CN11 11 0 0.003398e-12 -CN12 12 0 0.004398e-12 -CN13 13 0 0.008398e-12 -CN14 14 0 0.005398e-12 - -* -* Subcircuit test -* test is a subcircuit that models a 4-conductor transmission line with -* the following parameters: l=9e-09, c=2.9e-13, r=0.3, g=0, -* inductive_coeff_of_coupling k=0.6, inter-line capacitance cm=3e-14, -* length=6.3. Derived parameters are: lm=5.4e-09, ctot=3.5e-13. -* -* It is important to note that the model is a simplified one - the -* following assumptions are made: 1. The self-inductance l, the -* self-capacitance ctot (note: not c), the series resistance r and the -* parallel capacitance g are the same for all lines, and 2. Each line -* is coupled only to the two lines adjacent to it, with the same -* coupling parameters cm and lm. The first assumption implies that edge -* effects have to be neglected. The utility of these assumptions is -* that they make the sL+R and sC+G matrices symmetric, tridiagonal and -* Toeplitz, with useful consequences (see "Efficient Transient -* Simulation of Lossy Interconnect", by J.S. Roychowdhury and -* D.O Pederson, Proc. DAC 91). - -* It may be noted that a symmetric two-conductor line is -* represented accurately by this model. - -* Subckt node convention: -* -* |--------------------------| -* 1-----| |-----n+1 -* 2-----| |-----n+2 -* : | n-wire multiconductor | : -* : | line | : -* n-1-----|(node 0=common gnd plane) |-----2n-1 -* n-----| |-----2n -* |--------------------------| - - -* Lossy line models -.model mod1_test ltra rel=1.2 nocontrol r=0.3 l=2.62616456193e-10 g=0 c=3.98541019688e-13 len=6.3 -.model mod2_test ltra rel=1.2 nocontrol r=0.3 l=5.662616446e-09 g=0 c=3.68541019744e-13 len=6.3 -.model mod3_test ltra rel=1.2 nocontrol r=0.3 l=1.23373835171e-08 g=0 c=3.3145898046e-13 len=6.3 -.model mod4_test ltra rel=1.2 nocontrol r=0.3 l=1.7737383521e-08 g=0 c=3.01458980439e-13 len=6.3 - -* subcircuit m_test - modal transformation network for test -.subckt m_test 1 2 3 4 5 6 7 8 -v1 9 0 0v -v2 10 0 0v -v3 11 0 0v -v4 12 0 0v -f1 0 5 v1 0.371748033738 -f2 0 5 v2 -0.601500954587 -f3 0 5 v3 0.601500954587 -f4 0 5 v4 -0.371748036544 -f5 0 6 v1 0.60150095443 -f6 0 6 v2 -0.371748035044 -f7 0 6 v3 -0.371748030937 -f8 0 6 v4 0.601500957402 -f9 0 7 v1 0.601500954079 -f10 0 7 v2 0.37174803072 -f11 0 7 v3 -0.371748038935 -f12 0 7 v4 -0.601500955482 -f13 0 8 v1 0.371748035626 -f14 0 8 v2 0.601500956073 -f15 0 8 v3 0.601500954504 -f16 0 8 v4 0.371748032386 -e1 13 9 5 0 0.371748033909 -e2 14 13 6 0 0.601500954587 -e3 15 14 7 0 0.601500955639 -e4 1 15 8 0 0.371748036664 -e5 16 10 5 0 -0.60150095443 -e6 17 16 6 0 -0.371748035843 -e7 18 17 7 0 0.371748032386 -e8 2 18 8 0 0.601500957319 -e9 19 11 5 0 0.601500955131 -e10 20 19 6 0 -0.371748032169 -e11 21 20 7 0 -0.371748037896 -e12 3 21 8 0 0.601500954513 -e13 22 12 5 0 -0.371748035746 -e14 23 22 6 0 0.60150095599 -e15 24 23 7 0 -0.601500953534 -e16 4 24 8 0 0.371748029317 -.ends m_test - -* Subckt test -.subckt test 1 2 3 4 5 6 7 8 -x1 1 2 3 4 9 10 11 12 m_test -o1 9 0 13 0 mod1_test -o2 10 0 14 0 mod2_test -o3 11 0 15 0 mod3_test -o4 12 0 16 0 mod4_test -x2 5 6 7 8 13 14 15 16 m_test -.ends test -* -x1 5 6 7 8 9 10 11 12 test -* -* -vdd 1 0 PULSE (0 5 0Ns 0.1Ns 0.1Ns 600Ns 800Ns) -v3 3 0 PULSE (0 5 0Ns 0.1Ns 0.1Ns 600Ns 800Ns) - -.model mn0p9 nmos LEVEL=1 vto=0.8V kp=48u gamma=0.3 phi=0.55 lambda=0.00 -+ PHI=0.55 LAMBDA=0.00 CGSO=0 CGDO=0 CGBO=0 -+ CJ=0 CJSW=0 TOX=18000N NSUB=1E16 LD=0.0U - -.model mp1p0 pmos vto=-0.8V kp=21u gamma=0.45 phi=0.61 lambda=0.00 -+ PHI=0.61 LAMBDA=0.00 CGSO=0 CGDO=0 CGBO=0 -+ CJ=0 CJSW=0 TOX=18000N NSUB=3E16 LD=0.0U - -VS1 2 0 PULSE (0 5 15.9Ns 0.2Ns 0.2Ns 15.8Ns 32Ns) -VS2 4 0 PULSE (0 5 15.9Ns 0.2Ns 0.2Ns 15.8Ns 32Ns) - -.control -TRAN 0.1N 47.9N -plot v(5) v(6) v(7) v(8) v(9) v(10) v(11) v(12) -.endc -* - -.END - diff --git a/Windows/spice/examples/TransmissionLines/ltra2_2_line.sp b/Windows/spice/examples/TransmissionLines/ltra2_2_line.sp deleted file mode 100644 index 2a4ceaa7..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra2_2_line.sp +++ /dev/null @@ -1,24 +0,0 @@ -MOSdriver -- 2 lossy lines LTRA model -- C load -m5 0 168 2 0 mn0p9 w = 18.0u l=0.9u -m6 1 168 2 1 mp1p0 w = 36.0u l=1.0u -m1 0 3 4 0 mn0p9 w = 18.0u l=0.9u -m2 1 3 4 1 mp1p0 w = 36.0u l=1.0u -CN2 2 0 0.025398e-12 -CN3 3 0 0.007398e-12 -CN4 4 0 0.025398e-12 -CN5 5 0 0.007398e-12 -o1 2 0 3 0 lline -o2 4 0 5 0 lline -vdd 1 0 dc 5.0 -VS 168 0 PULSE (0 5 15.9NS 0.2NS 0.2NS 15.8NS 32NS ) -.control -TRAN 0.2N 47N 0 0.1N -plot v(2) v(3) v(4) v(5) -.endc -.MODEL mn0p9 NMOS VTO=0.8 KP=48U GAMMA=0.30 PHI=0.55 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL mp1p0 PMOS VTO=-0.8 KP=21U GAMMA=0.45 PHI=0.61 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.model lline ltra rel=1 r=12.45 g=0 l=8.972e-9 c=0.468e-12 -+len=16 steplimit compactrel=1.0e-3 compactabs=1.0e-14 -.end diff --git a/Windows/spice/examples/TransmissionLines/ltra3_2_line.sp b/Windows/spice/examples/TransmissionLines/ltra3_2_line.sp deleted file mode 100644 index 1a756520..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra3_2_line.sp +++ /dev/null @@ -1,98 +0,0 @@ -MOSdriver -- 24inch 2 lossy lines LTRA model -- C load - -m1 0 268 299 0 mn0p9 w = 18.0u l=1.0u -m2 299 267 748 0 mn0p9 w = 18.0u l=1.0u -m3 0 168 648 0 mn0p9 w = 18.0u l=0.9u -m4 1 268 748 1 mp1p0 w = 36.0u l=1.0u -m5 1 267 748 1 mp1p0 w = 36.0u l=1.0u -m6 1 168 648 1 mp1p0 w = 36.0u l=1.0u - -* -CN648 648 0 0.025398e-12 -CN651 651 0 0.007398e-12 -CN748 748 0 0.025398e-12 -CN751 751 0 0.009398e-12 -CN299 299 0 0.005398e-12 -* -* Subcircuit test -* test is a subcircuit that models a 2-conductor transmission line with -* the following parameters: l=9.13e-09, c=2.75e-13, r=0.2, g=0, -* inductive_coeff_of_coupling k=0.36144, inter-line capacitance cm=9e-14, -* length=24. Derived parameters are: lm=3.29995e-09, ctot=3.65e-13. -* -* It is important to note that the model is a simplified one - the -* following assumptions are made: 1. The self-inductance l, the -* self-capacitance ctot (note: not c), the series resistance r and the -* parallel capacitance g are the same for all lines, and 2. Each line -* is coupled only to the two lines adjacent to it, with the same -* coupling parameters cm and lm. The first assumption implies that edge -* effects have to be neglected. The utility of these assumptions is -* that they make the sL+R and sC+G matrices symmetric, tridiagonal and -* Toeplitz, with useful consequences (see "Efficient Transient -* Simulation of Lossy Interconnect", by J.S. Roychowdhury and -* D.O Pederson, Proc. DAC 91). - -* It may be noted that a symmetric two-conductor line is -* represented accurately by this model. - -* Subckt node convention: -* -* |--------------------------| -* 1-----| |-----n+1 -* 2-----| |-----n+2 -* : | n-wire multiconductor | : -* : | line | : -* n-1-----|(node 0=common gnd plane) |-----2n-1 -* n-----| |-----2n -* |--------------------------| - - -* Lossy line models -.model mod1_test ltra rel=1.2 nocontrol r=0.2 l=5.83005279316e-09 g=0 c=4.55000000187e-13 len=24 -.model mod2_test ltra rel=1.2 nocontrol r=0.2 l=1.24299471863e-08 g=0 c=2.75000000373e-13 len=24 - -* subcircuit m_test - modal transformation network for test -.subckt m_test 1 2 3 4 -v1 5 0 0v -v2 6 0 0v -f1 0 3 v1 0.707106779721 -f2 0 3 v2 -0.707106782652 -f3 0 4 v1 0.707106781919 -f4 0 4 v2 0.707106780454 -e1 7 5 3 0 0.707106780454 -e2 1 7 4 0 0.707106782652 -e3 8 6 3 0 -0.707106781919 -e4 2 8 4 0 0.707106779721 -.ends m_test - -* Subckt test -.subckt test 1 2 3 4 -x1 1 2 5 6 m_test -o1 5 0 7 0 mod1_test -o2 6 0 8 0 mod2_test -x2 3 4 7 8 m_test -.ends test -* -x1 648 748 651 751 test -* -* -vdd 1 0 DC 5.0 -VK 267 0 DC 5.0 -* -VS1 168 0 PULSE (0 5 15.9N 0.2N 0.2N 15.8N 60N) -VS2 268 0 PULSE (0 5 15.9N 0.2N 0.2N 15.8N 60N) -* -.control -TRAN 0.2N 47.9NS -PLOT v(648) v(651) v(751) -.endc -* -.model mn0p9 nmos LEVEL=1 vto=0.8V kp=48u gamma=0.3 phi=0.55 lambda=0.0 -+ PHI=0.55 LAMBDA=0.00 CGSO=0 CGDO=0 CGBO=0 -+ CJ=0 CJSW=0 TOX=18000N NSUB=1E16 LD=0.0U - -.model mp1p0 pmos LEVEL=1 vto=-0.8V kp=21u gamma=0.45 phi=0.61 lambda=0.0 -+ PHI=0.61 LAMBDA=0.00 CGSO=0 CGDO=0 CGBO=0 -+ CJ=0 CJSW=0 TOX=18000N NSUB=3E16 LD=0.0U - -.END diff --git a/Windows/spice/examples/TransmissionLines/ltra4_1_line.sp b/Windows/spice/examples/TransmissionLines/ltra4_1_line.sp deleted file mode 100644 index 8dc8ada6..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra4_1_line.sp +++ /dev/null @@ -1,239 +0,0 @@ - BJTdriver -- 24inch lossy line LTRA model -- DiodeCircuit - -* This unclassified circuit is from Raytheon, courtesy Gerry Marino. -* It consists of a BJT driver connected by a 24 inch lossy line to a -* passive load consisting mostly of diodes. Each inch -* of the lossy line is modelled by 10 LRC lumps in the Raytheon -* model. - -* The line parameters (derived from the Raytheon input file) are: -* L = 9.13nH per inch -* C = 3.65pF per inch -* R = 0.2 ohms per inch - -* the circuit - -v1 1 0 0v pulse(0 4 1ns 1ns 1ns 20ns 40ns) - -vcc 10 0 5v -*rseries 1 2 5 -x1 1 2 10 bjtdrvr -*t1 2 0 3 0 z0=50.0136 td=4.38119ns rel=10 -o2 2 0 3 0 lline1 -*x2 2 3 oneinch -*x2 100 101 twentyfourinch -*x2 100 101 xtwentyfourinch -vtest1 2 100 0 -vtest2 101 3 0 -x3 3 4 10 dioload -*rl 3 0 5 -*dl 0 3 diod2 - -.model lline1 ltra rel=1 r=0.2 g=0 l=9.13e-9 c=3.65e-12 len=24 steplimit - -.model qmodn npn(bf=100 rb=100 cje=0.09375pF cjc=0.28125pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpd npn(bf=100 rb=100 cje=0.08187pF cjc=0.2525pF is=1e-12 -+pe=0.5 pc=0.5) -.model qmodpdmine npn(bf=100 rb=100 cje=0.08187pF cjc=0.05pF is=1e-12 -+pe=0.5 pc=0.5) - -.model dmod1 d(n=2.25 is=1.6399e-4 bv=10) - -.model dmod2 d - -.model dmod d(vj=0.3v) - -.model diod1 d(tt=0.75ns vj=0.6 rs=909 bv=10) - -.model diod2 d(tt=0.5ns vj=0.3 rs=100 bv=10) - -.options acct -+reltol=1e-3 abstol=1e-14 -.control -tran 0.1ns 60ns -plot v(1) v(2) v(3) -.endc - -* bjt driver - 19=input, 268=output, 20=vcc; wierd node numbers from -* the Raytheon file - -.subckt bjtdrvr 19 268 20 -q1 22 18 13 qmodn -q2 18 16 13 qmodn -qd2 21 9 0 qmodn -q4 14 14 0 qmodn -q3 16 15 14 qmodpd -q5 8 13 17 qmodn -q6 25 12 0 qmodn -q7 6 17 0 qmodpd -qd1 26 10 0 qmodn -q8 7 11 10 qmodn -q10 268 17 0 qmodpdmine -*q10 268 17 0 qmodpd -q9 7 10 268 qmodn - -d1 0 19 dmod1 -d2 18 19 dmod2 -d3 13 19 dmod -dq1 18 22 dmod -dq2 16 18 dmod -d502 9 21 dmod -dq3 15 16 dmod -d10 24 8 dmod -d4 15 6 dmod -dq6 12 25 dmod -dq7 17 6 dmod -dd1 17 10 dmod -d7 11 6 dmod -dd2 17 26 dmod -d9 23 6 dmod -dq8 11 7 dmod -d501 17 268 dmod -dq9 10 7 dmod -d14 20 27 dmod -d8 0 268 dmod - -r1 18 20 6k -r2 22 20 2.2k -r4 0 13 7k -rd1 9 13 2k -rd2 21 13 3k -r3 16 20 10k -r5 15 20 15k -r9 0 17 4k -r6 24 20 750 -r10 12 17 2k -r12 24 11 1.5k -r11 25 17 3k -r15 23 20 10k -r13 0 10 15k -r14 7 27 12 - -.ends bjtdrvr - -* subckt dioload - diode load: input=28, output=4, vcc=5 - -.subckt dioload 28 4 5 -*comment out everything in dioload except d5 and r503, and watch -* the difference in results obtained between a tran 0.1ns 20ns and -* a tran 0.01ns 20ns -c1 28 0 5pF -r503 0 4 5.55 -r4 0 28 120k -r5 1 5 7.5k - -d5 4 28 diod2 -d1 1 28 diod1 -d4 2 0 diod1 -d3 3 2 diod1 -d2 1 3 diod1 -.ends dioload - -* subckt lump - one RLC lump of the lossy line - -*10 segments per inch -.subckt lump 1 2 -*r1 1 3 0.02 -*c1 3 0 0.365pF -*l1 3 2 0.913nH - -l1 1 3 0.913nH -c1 2 0 0.365pF -r1 3 2 0.02 - -*r1 1 3 0.01 -*c1 3 0 0.1825pF -*l1 3 4 0.4565nH -*r2 4 5 0.01 -*c2 5 0 0.1825pF -*l2 5 2 0.4565nH - -*c1 1 0 0.365pF -*l1 1 2 0.913nH -.ends lump - -.subckt oneinch 1 2 -x1 1 3 lump -x2 3 4 lump -x3 4 5 lump -x4 5 6 lump -x5 6 7 lump -x6 7 8 lump -x7 8 9 lump -x8 9 10 lump -x9 10 11 lump -x10 11 2 lump -.ends oneinch - -.subckt fourinch 1 2 -x1 1 3 oneinch -x2 3 4 oneinch -x3 4 5 oneinch -x4 5 2 oneinch -.ends fourinch - -.subckt fiveinch 1 2 -x1 1 3 oneinch -x2 3 4 oneinch -x3 4 5 oneinch -x4 5 6 oneinch -x5 6 2 oneinch -.ends fiveinch - -.subckt twentyfourinch 1 2 -x1 1 3 fiveinch -x2 3 4 fiveinch -x3 4 5 fiveinch -x4 5 6 fiveinch -x5 6 2 fourinch -.ends twentyfourinch - -*modelling using R and lossless lines -*5 segments per inch -.model llfifth ltra nocontrol noprint rel=10 r=0 g=0 l=9.13e-9 -+c=3.65e-12 len=0.2 steplimit quadinterp -.subckt xlump 1 2 -o1 1 0 3 0 llfifth -r1 2 3 0.04 -.ends xlump - -.subckt xoneinch 1 2 -x1 1 3 xlump -x2 3 4 xlump -x3 4 5 xlump -x4 5 6 xlump -x5 6 2 xlump -*x5 6 7 xlump -*x6 7 8 xlump -*x7 8 9 xlump -*x8 9 10 xlump -*x9 10 11 xlump -*x10 11 2 xlump -.ends xoneinch - -.subckt xfourinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 2 xoneinch -.ends xfourinch - -.subckt xfiveinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 6 xoneinch -x5 6 2 xoneinch -.ends xfiveinch - -.subckt xtwentyfourinch 1 2 -x1 1 3 xfiveinch -x2 3 4 xfiveinch -x3 4 5 xfiveinch -x4 5 6 xfiveinch -x5 6 2 xfourinch -.ends xtwentyfourinch - -.end diff --git a/Windows/spice/examples/TransmissionLines/ltra5_1_line.sp b/Windows/spice/examples/TransmissionLines/ltra5_1_line.sp deleted file mode 100644 index 35459404..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra5_1_line.sp +++ /dev/null @@ -1,530 +0,0 @@ - Example 3 for interconnect simulation - -* From neug1, Mosaic aluminum lines. 2um thick, 11um wide. Assuming -* 10um above the ground. -* Material: aluminum; resistivity (sigma) = 2.74uohm-cm = 2.74e-8 ohm-m -* Dielectric: SiO2, dielectric constant (epsilon) =3.7 -* epsilon0 = 8.85e-12 MKS units -* mu0 = 4e-7*PI -* speed of light in free space = 1/sqrt(mu0*epsilon0) = 2.9986e8 MKS units -* -* Line parameter calculations: -* capacitance: parallel plate -* C = epsilon*epsilon0 * A / l -* C = 3.7*8.85e-12 * 11e-6 * 1(metre) / 10e-6 = 36.02e-12 F/m -* + 30% = 46.8e-12 F/m = 0.468pF/cm -* -* C_freespace = 46.8e-12/epsilon = 12.65e-12 F/m -* speed of light in free space v0 = 2.9986e8 = 1/sqrt(L0*C0) -* => L0 = 1/C0*v0^2 -* L0 = 1/(12.65e-12 * 8.9916e16) = 1/113.74e4 = 0.008792e-4 H/m -* = 0.8792 uH/m = 8.792nH/cm -* -* R = rho * l / A = 2.74e-8 * 1 / (11e-6*2e-6) = 1245.45 ohms/m -* = 12.45ohms/cm -* -* transmission line parameters: -* nominal z0 = sqrt(L/C) = 137 ohms -* td = sqrt(LC) = 64.14e-12 secs/cm = 0.064ns/cm -* -* - - -vcc vcc 0 5 - -v1 1 0 0v pulse(0 5 0.1ns 0.1ns 0.1ns 1ns 100ns) -rs 1 2 10 -xdrv 1 2 vcc bjtdrvr -xrcv 3 4 vcc bjtdrvr -xrcv 3 4 vcc dioload -d1 3 vcc diod -d2 0 3 diod -cl 3 0 1pF -o1 2 0 3 0 lline -*x1 2 3 sixteencm -x1 2 3 xonecm - -.model diod d -.model lline ltra rel=1.8 r=12.45 g=0 l=8.792e-9 c=0.468e-12 len=16 steplimit - -.control -* 1cm -* 2cm -* 4cm -* 6cm -* 8cm -* 10cm -* 12cm -*tran 0.001ns 15ns 0 0.1ns -* 24cm -tran 0.001ns 10ns 0 0.1ns -* onecm10 -*tran 0.001ns 10ns 0 0.01ns -plot v(1) v(2) v(3) -.endc - - -* 1. define the subckt r10 to be one tenth of the resistance per cm. -* 2. define the subckt onecm to be one of onecm10 (modelled using -* 10 segments), onecm8, onecm4, onecm2 and lump1. Then use -* the subckts onecm, fourcm, fivecm, tencm, twelvecm, -* twentyfourcm in the circuit. The line is modelled as rlc segments. -* 3. define the subckt xonecm to be one of xonecm10, xonecm8, -* xonecm4, xonecm2 and xlump1. Use the subckts xonecm, -* xfourcm, xfivecm, xtencm, xtwelvecm, xtwentyfourcm in the -* circuit. The line will be modelled as r-lossless lumps. - -.subckt xonecm 1 2 -*x1 1 2 xlump1 -x1 1 2 xonecm4 -.ends xonecm - -.subckt onecm 1 2 -*x1 1 2 lump1 -x1 1 2 onecm4 -.ends onecm - -.subckt r10 1 2 -r1 1 2 1.245 -.ends r10 - -* ECL driver and diode receiver models - from Raytheon - -.model qmodn npn(bf=100 rb=100 cje=0.09375pF cjc=0.28125pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpd npn(bf=100 rb=100 cje=0.08187pF cjc=0.2525pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpdmine npn(bf=100 rb=100 cje=0.08187pF cjc=0.05pF is=1e-12 -+pe=0.5 pc=0.5) - -.model dmod1 d(n=2.25 is=1.6399e-4 bv=10) - -.model dmod2 d - -.model dmod d(vj=0.3v) - -.model diod1 d(tt=0.75ns vj=0.6 rs=909 bv=10) - -.model diod2 d(tt=0.5ns vj=0.3 rs=100 bv=10) - -* bjt driver - 19=input, 268=output, 20=vcc; wierd node numbers from -* the Raytheon file - -.subckt bjtdrvr 19 268 20 -q1 22 18 13 qmodn -q2 18 16 13 qmodn -qd2 21 9 0 qmodn -q4 14 14 0 qmodn -q3 16 15 14 qmodpd -q5 8 13 17 qmodn -q6 25 12 0 qmodn -q7 6 17 0 qmodpd -qd1 26 10 0 qmodn -q8 7 11 10 qmodn -q10 268 17 0 qmodpdmine -*q10 268 17 0 qmodpd -q9 7 10 268 qmodn - -d1 0 19 dmod1 -d2 18 19 dmod2 -d3 13 19 dmod -dq1 18 22 dmod -dq2 16 18 dmod -d502 9 21 dmod -dq3 15 16 dmod -d10 24 8 dmod -d4 15 6 dmod -dq6 12 25 dmod -dq7 17 6 dmod -dd1 17 10 dmod -d7 11 6 dmod -dd2 17 26 dmod -d9 23 6 dmod -dq8 11 7 dmod -d501 17 268 dmod -dq9 10 7 dmod -d14 20 27 dmod -d8 0 268 dmod - -r1 18 20 6k -r2 22 20 2.2k -r4 0 13 7k -rd1 9 13 2k -rd2 21 13 3k -r3 16 20 10k -r5 15 20 15k -r9 0 17 4k -r6 24 20 750 -r10 12 17 2k -r12 24 11 1.5k -r11 25 17 3k -r15 23 20 10k -r13 0 10 15k -r14 7 27 12 - -.ends bjtdrvr - -* subckt dioload - diode load: input=28, output=4, vcc=5 - -.subckt dioload 28 4 5 -c1 28 0 5pF -r503 0 4 5.55 -r400 0 28 120k -r500 1 5 7.5k - -d5 4 28 diod2 -d1 1 28 diod1 -d4 2 0 diod1 -d3 3 2 diod1 -d2 1 3 diod1 -.ends dioload - -* End ECL driver and Diode receiver models from Raytheon - -*10 segments per cm -.subckt lump10 1 2 -l1 1 3 0.0.8792nH -c1 2 0 0.0468pF -x1 3 2 r10 -.ends lump10 - -*1 segment per cm -.subckt lump1 1 2 -l1 1 3 8.792nH -c1 2 0 0.468pF -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 8 r10 -x6 8 9 r10 -x7 9 10 r10 -x8 10 11 r10 -x9 11 12 r10 -x10 12 2 r10 -.ends lump1 - -*2 segments per cm -.subckt lump2 1 2 -l1 1 3 4.396nH -c1 2 0 0.234pF -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 2 r10 -.ends lump2 - -*4 segments per cm -.subckt lump4 1 2 -l1 1 3 2.198nH -c1 2 0 0.117pF -x1 3 4 r10 -x2 4 5 r10 -x3 5 2 r10 -x4 5 2 r10 -.ends lump4 - -*8 segments per cm -.subckt lump8 1 2 -l1 1 3 1.099nH -c1 2 0 0.0585pF -x1 3 4 r10 -x2 4 2 r10 -x3 4 2 r10 -x4 4 2 r10 -x5 4 2 r10 -.ends lump8 - -.subckt onecm10 1 2 -x1 1 3 lump10 -x2 3 4 lump10 -x3 4 5 lump10 -x4 5 6 lump10 -x5 6 7 lump10 -x6 7 8 lump10 -x7 8 9 lump10 -x8 9 10 lump10 -x9 10 11 lump10 -x10 11 2 lump10 -.ends onecm10 - -.subckt onecm8 1 2 -x1 1 3 lump8 -x2 3 4 lump8 -x3 4 5 lump8 -x4 5 6 lump8 -x5 6 7 lump8 -x6 7 8 lump8 -x7 8 9 lump8 -x8 9 2 lump8 -.ends onecm8 - -.subckt onecm4 1 2 -x1 1 3 lump4 -x2 3 4 lump4 -x3 4 5 lump4 -x4 5 2 lump4 -.ends onecm4 - -.subckt onecm2 1 2 -x1 1 3 lump2 -x2 3 2 lump2 -.ends onecm2 - -.subckt twocm 1 2 -x1 1 3 onecm -x2 3 2 onecm -.ends twocm - -.subckt threecm 1 2 -x1 1 3 onecm -x2 3 4 onecm -x3 4 2 onecm -.ends threecm - -.subckt fourcm 1 2 -x1 1 3 onecm -x2 3 4 onecm -x3 4 5 onecm -x4 5 2 onecm -.ends fourcm - -.subckt fivecm 1 2 -x1 1 3 onecm -x2 3 4 onecm -x3 4 5 onecm -x4 5 6 onecm -x5 6 2 onecm -.ends fivecm - -.subckt sixcm 1 2 -x1 1 3 fivecm -x2 3 2 onecm -.ends sixcm - -.subckt sevencm 1 2 -x1 1 3 sixcm -x2 3 2 onecm -.ends sevencm - -.subckt eightcm 1 2 -x1 1 3 sevencm -x2 3 2 onecm -.ends eightcm - -.subckt ninecm 1 2 -x1 1 3 eightcm -x2 3 2 onecm -.ends ninecm - -.subckt tencm 1 2 -x1 1 3 fivecm -x2 3 2 fivecm -.ends tencm - -.subckt elevencm 1 2 -x1 1 3 tencm -x2 3 2 onecm -.ends elevencm - -.subckt twelvecm 1 2 -x1 1 3 tencm -x2 3 4 onecm -x3 4 2 onecm -.ends twelvecm - -.subckt sixteencm 1 2 -x1 1 3 eightcm -x2 3 2 eightcm -.ends sixteencm - -.subckt twentyfourcm 1 2 -x1 1 3 twelvecm -x2 3 2 twelvecm -.ends twentyfourcm - - -*modelling using R and lossless lines -* 10 segments per cm -.model lless10 ltra nocontrol rel=10 r=0 g=0 l=8.792e-9 -+c=0.468e-12 len=0.1 steplimit quadinterp - -* 8 segments per cm -.model lless8 ltra nocontrol rel=10 r=0 g=0 l=8.792e-9 -+c=0.468e-12 len=0.125 steplimit quadinterp - -* 4 segments per cm -.model lless4 ltra nocontrol rel=10 r=0 g=0 l=8.792e-9 -+c=0.468e-12 len=0.25 steplimit quadinterp - -* 2 segments per cm -.model lless2 ltra nocontrol rel=10 r=0 g=0 l=8.792e-9 -+c=0.468e-12 len=0.5 steplimit quadinterp - -* 1 segment per cm -.model lless1 ltra nocontrol rel=10 r=0 g=0 l=8.792e-9 -+c=0.468e-12 len=1 steplimit quadinterp - -*10 segments per cm -.subckt xlump10 1 2 -o1 1 0 3 0 lless10 -x1 3 2 r10 -.ends xlump10 - -*1 segment per cm -.subckt xlump1 1 2 -o1 1 0 3 0 lless1 -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 8 r10 -x6 8 9 r10 -x7 9 10 r10 -x8 10 11 r10 -x9 11 12 r10 -x10 12 2 r10 -.ends xlump1 - -*2 segments per cm -.subckt xlump2 1 2 -o1 1 0 3 0 lless2 -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 2 r10 -.ends xlump2 - -*4 segments per cm -.subckt xlump4 1 2 -o1 1 0 3 0 lless4 -x1 3 4 r10 -x2 4 5 r10 -x3 5 2 r10 -x4 5 2 r10 -.ends xlump4 - -*8 segments per cm -.subckt xlump8 1 2 -o1 1 0 3 0 lless8 -x1 3 4 r10 -x2 4 2 r10 -x3 4 2 r10 -x4 4 2 r10 -x5 4 2 r10 -.ends xlump8 - -.subckt xonecm10 1 2 -x1 1 3 xlump10 -x2 3 4 xlump10 -x3 4 5 xlump10 -x4 5 6 xlump10 -x5 6 7 xlump10 -x6 7 8 xlump10 -x7 8 9 xlump10 -x8 9 10 xlump10 -x9 10 11 xlump10 -x10 11 2 xlump10 -.ends xonecm10 - -.subckt xonecm8 1 2 -x1 1 3 xlump8 -x2 3 4 xlump8 -x3 4 5 xlump8 -x4 5 6 xlump8 -x5 6 7 xlump8 -x6 7 8 xlump8 -x7 8 9 xlump8 -x8 9 2 xlump8 -.ends xonecm8 - -.subckt xonecm4 1 2 -x1 1 3 xlump4 -x2 3 4 xlump4 -x3 4 5 xlump4 -x4 5 2 xlump4 -.ends xonecm4 - -.subckt xonecm2 1 2 -x1 1 3 xlump2 -x2 3 2 xlump2 -.ends xonecm2 - - -.subckt xtwocm 1 2 -x1 1 3 xonecm -x2 3 2 xonecm -.ends xtwocm - -.subckt xthreecm 1 2 -x1 1 3 xonecm -x2 3 4 xonecm -x3 4 2 xonecm -.ends xthreecm - -.subckt xfourcm 1 2 -x1 1 3 xonecm -x2 3 4 xonecm -x3 4 5 xonecm -x4 5 2 xonecm -.ends xfourcm - -.subckt xfivecm 1 2 -x1 1 3 xonecm -x2 3 4 xonecm -x3 4 5 xonecm -x4 5 6 xonecm -x5 6 2 xonecm -.ends xfivecm - -.subckt xsixcm 1 2 -x1 1 3 xfivecm -x2 3 2 xonecm -.ends xsixcm - -.subckt xsevencm 1 2 -x1 1 3 xsixcm -x2 3 2 xonecm -.ends xsevencm - -.subckt xeightcm 1 2 -x1 1 3 xsevencm -x2 3 2 xonecm -.ends xeightcm - -.subckt xninecm 1 2 -x1 1 3 xeightcm -x2 3 2 xonecm -.ends xninecm - -.subckt xtencm 1 2 -x1 1 3 xfivecm -x2 3 2 xfivecm -.ends xtencm - -.subckt xelevencm 1 2 -x1 1 3 xtencm -x2 3 2 xonecm -.ends xelevencm - -.subckt xtwelvecm 1 2 -x1 1 3 xtencm -x2 3 4 xonecm -x3 4 2 xonecm -.ends xtwelvecm - -.subckt xsixteencm 1 2 -x1 1 3 xeightcm -x2 3 2 xeightcm -.ends xsixteencm - -.subckt xtwentyfourcm 1 2 -x1 1 3 xtwelvecm -x2 3 2 xtwelvecm -.ends xtwentyfourcm - -.end diff --git a/Windows/spice/examples/TransmissionLines/ltra6_2_line.sp b/Windows/spice/examples/TransmissionLines/ltra6_2_line.sp deleted file mode 100644 index 45279129..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra6_2_line.sp +++ /dev/null @@ -1,394 +0,0 @@ -BJTdriver -- 2in st. lin -- 20in coupled line LTRA -- 2in st line -- DiodeCircuit - -* This unclassified circuit is from Raytheon, courtesy Gerry Marino. -* -* _______ -* -------- 2in _________________ 2in | | -* | BJT |______| |______|Diode| -* | |------| |------| | -* | Drvr | line | 2-wire | line |rcvr.| -* -------- | coupled | |_____| -* | transmission | -* |-/\/\/\/\----| line |-------\/\/\/\/\----| -* | 50ohms | | 50ohms | -* | | | | -* Ground ----------------- Ground -* -* -* Each inch of the lossy line is modelled by 10 LRC lumps in the -* Raytheon model. - -* The line parameters (derived from the Raytheon input file) are: -* L = 9.13nH per inch -* C = 3.65pF per inch -* R = 0.2 ohms per inch -* K = 0.482 [coupling coefficient; K = M/sqrt(L1*L2)] -* Cc = 1.8pF per inch -* -* coupled ltra model generated using the standalone program -* multi_decomp - -* the circuit - -v1 1 0 0v pulse(0 4 1ns 1ns 1ns 20ns 40ns) - -vcc 10 0 5v - -* series termination -*x1 1 oof 10 bjtdrvr -*rseries oof 2 50 - -x1 1 2 10 bjtdrvr -rt1 3 0 50 - - -* convolution model -x2 2 3 4 5 conv2wetcmodel - -* rlc segments model -*x2 2 3 4 5 rlc2wetcmodel - -x3 4 dioload -rt2 5 0 50 - - - -.model qmodn npn(bf=100 rb=100 cje=0.09375pF cjc=0.28125pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpd npn(bf=100 rb=100 cje=0.08187pF cjc=0.2525pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpdmine npn(bf=100 rb=100 cje=0.08187pF cjc=0.05pF is=1e-12 -+pe=0.5 pc=0.5) - -.model dmod1 d(n=2.25 is=1.6399e-4 bv=10) - -.model dmod2 d - -.model dmod d(vj=0.3v) - -.model diod1 d(tt=0.75ns vj=0.6 rs=909 bv=10) - -.model diod2 d(tt=0.5ns vj=0.3 rs=100 bv=10) - -.options acct reltol=1e-3 abstol=1e-12 -.control -tran 0.1ns 60ns -plot v(2) v(4) v(5) -.endc - -* bjt driver - 19=input, 268=output, 20=vcc; wierd node numbers from -* the Raytheon file - -.subckt bjtdrvr 19 268 20 -q1 22 18 13 qmodn -q2 18 16 13 qmodn -qd2 21 9 0 qmodn -q4 14 14 0 qmodn -q3 16 15 14 qmodpd -q5 8 13 17 qmodn -q6 25 12 0 qmodn -q7 6 17 0 qmodpd -qd1 26 10 0 qmodn -q8 7 11 10 qmodn -*q10 268 17 0 qmodpd -q10 268 17 0 qmodpdmine -q9 7 10 268 qmodn - -d1 0 19 dmod1 -d2 18 19 dmod2 -d3 13 19 dmod -dq1 18 22 dmod -dq2 16 18 dmod -d502 9 21 dmod -dq3 15 16 dmod -d10 24 8 dmod -d4 15 6 dmod -dq6 12 25 dmod -dq7 17 6 dmod -dd1 17 10 dmod -d7 11 6 dmod -dd2 17 26 dmod -d9 23 6 dmod -dq8 11 7 dmod -d501 17 268 dmod -dq9 10 7 dmod -d14 20 27 dmod -d8 0 268 dmod - -r1 18 20 6k -r2 22 20 2.2k -r4 0 13 7k -rd1 9 13 2k -rd2 21 13 3k -r3 16 20 10k -r5 15 20 15k -r9 0 17 4k -r6 24 20 750 -r10 12 17 2k -r12 24 11 1.5k -r11 25 17 3k -r15 23 20 10k -r13 0 10 15k -r14 7 27 12 - -.ends bjtdrvr - -* subckt dioload - diode load: input=28, output=4, vcc=5 - -.subckt dioload 28 -*comment out everything in dioload except d5 and r503, and watch -* the difference in results obtained between a tran 0.1ns 20ns and -* a tran 0.01ns 20ns -vccint 5 0 5v - -c1 28 0 5pF -r503 0 4 5.55 -r4 0 28 120k -r5 1 5 7.5k - -d5 4 28 diod2 -d1 1 28 diod1 -d4 2 0 diod1 -d3 3 2 diod1 -d2 1 3 diod1 -.ends dioload - -* subckt rlclump - one RLC lump of the lossy line - -.subckt rlclump 1 2 -*r1 1 3 0.02 -*c1 3 0 0.365pF -*l1 3 2 0.913nH - -l1 1 3 0.913nH -c1 2 0 0.365pF -r1 3 2 0.02 - -*r1 1 3 0.01 -*c1 3 0 0.1825pF -*l1 3 4 0.4565nH -*r2 4 5 0.01 -*c2 5 0 0.1825pF -*l2 5 2 0.4565nH - -*c1 1 0 0.365pF -*l1 1 2 0.913nH -.ends lump - -.subckt rlconeinch 1 2 -x1 1 3 rlclump -x2 3 4 rlclump -x3 4 5 rlclump -x4 5 6 rlclump -x5 6 7 rlclump -x6 7 8 rlclump -x7 8 9 rlclump -x8 9 10 rlclump -x9 10 11 rlclump -x10 11 2 rlclump -.ends rlconeinch - -.subckt rlctwoinch 1 2 -x1 1 3 rlconeinch -x2 3 2 rlconeinch -.ends rlctwoinch - -.subckt rlcfourinch 1 2 -x1 1 3 rlconeinch -x2 3 4 rlconeinch -x3 4 5 rlconeinch -x4 5 2 rlconeinch -.ends rlcfourinch - -.subckt rlcfiveinch 1 2 -x1 1 3 rlconeinch -x2 3 4 rlconeinch -x3 4 5 rlconeinch -x4 5 6 rlconeinch -x5 6 2 rlconeinch -.ends rlcfiveinch - -.subckt rlctwentyrlcfourinch 1 2 -x1 1 3 rlcfiveinch -x2 3 4 rlcfiveinch -x3 4 5 rlcfiveinch -x4 5 6 rlcfiveinch -x5 6 2 rlcfourinch -.ends rlctwentyrlcfourinch - -.subckt rlclumpstub A B C D -x1 A int1 rlcfiveinch -x2 int1 int2 rlcfiveinch -x3 int2 1 rlcfiveinch -x4 1 2 rlcfourinch -x5 1 int3 rlcfiveinch -x6 int3 B rlconeinch -x7 2 C rlcfiveinch -x8 2 D rlcfourinch -.ends rlclumpstub - -.subckt ltrastub A B C D -o1 A 0 1 0 lline15in -o2 1 0 B 0 lline6in -o3 1 0 2 0 lline4in -o4 2 0 C 0 lline5in -o5 2 0 D 0 lline4in -.ends ltrastub - -*modelling using R and lossless lines - -*5 segments per inch -.model llfifth ltra nocontrol rel=10 r=0 g=0 l=9.13e-9 -+c=3.65e-12 len=0.2 steplimit quadinterp - -.subckt xlump 1 2 -o1 1 0 3 0 llfifth -r1 2 3 0.04 -.ends xlump - -.subckt xoneinch 1 2 -x1 1 3 xlump -x2 3 4 xlump -x3 4 5 xlump -x4 5 6 xlump -x5 6 2 xlump -*x5 6 7 xlump -*x6 7 8 xlump -*x7 8 9 xlump -*x8 9 10 xlump -*x9 10 11 xlump -*x10 11 2 xlump -.ends xoneinch - -.subckt xFourinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 2 xoneinch -.ends xfourinch - -.subckt xfiveinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 6 xoneinch -x5 6 2 xoneinch -.ends xfiveinch - -.subckt xlumpstub A B C D -x1 A int1 xfiveinch -x2 int1 int2 xfiveinch -x3 int2 1 xfiveinch -x4 1 2 xfourinch -x5 1 int3 xfiveinch -x6 int3 B xoneinch -x7 2 C xfiveinch -x8 2 D xfourinch -.ends xlumpstub - -* modelling a 2 wire coupled system using RLC lumps -* 10 segments per inch -* -* 1---xxxxx----2 -* 3---xxxxx----4 - -.subckt rlc2wlump 1 3 2 4 -l1 1 5 0.913nH -c1 2 0 0.365pF -r1 5 2 0.02 -l2 3 6 0.913nH -c2 4 0 0.365pF -r2 6 4 0.02 -cmut 2 4 0.18pF -k12 l1 l2 0.482 -.ends rlc2wlump - -.subckt rlc2woneinch 1 2 3 4 -x1 1 2 5 6 rlc2wlump -x2 5 6 7 8 rlc2wlump -x3 7 8 9 10 rlc2wlump -x4 9 10 11 12 rlc2wlump -x5 11 12 13 14 rlc2wlump -x6 13 14 15 16 rlc2wlump -x7 15 16 17 18 rlc2wlump -x8 17 18 19 20 rlc2wlump -x9 19 20 21 22 rlc2wlump -x10 21 22 3 4 rlc2wlump -.ends rlc2woneinch - -.subckt rlc2wfiveinch 1 2 3 4 -x1 1 2 5 6 rlc2woneinch -x2 5 6 7 8 rlc2woneinch -x3 7 8 9 10 rlc2woneinch -x4 9 10 11 12 rlc2woneinch -x5 11 12 3 4 rlc2woneinch -.ends rlc2wfiveinch - -.subckt rlc2wtwentyinch 1 2 3 4 -x1 1 2 5 6 rlc2wfiveinch -x2 5 6 7 8 rlc2wfiveinch -x3 7 8 9 10 rlc2wfiveinch -x4 9 10 3 4 rlc2wfiveinch -.ends rlc2wtwentyinch - -.subckt rlc2wetcmodel 1 2 3 4 -x1 1 5 rlctwoinch -x2 5 2 6 4 rlc2wtwentyinch -x3 6 3 rlctwoinch -.ends rlc2wetcmodel - -* Subcircuit conv2wtwentyinch -* conv2wtwentyinch is a subcircuit that models a 2-conductor transmission line with -* the following parameters: l=9.13e-09, c=3.65e-12, r=0.2, g=0, -* inductive_coeff_of_coupling k=0.482, inter-line capacitance cm=1.8e-12, -* length=20. Derived parameters are: lm=4.40066e-09, ctot=5.45e-12. -* -* It is important to note that the model is a simplified one - the -* following assumptions are made: 1. The self-inductance l, the -* self-capacitance ctot (note: not c), the series resistance r and the -* parallel capacitance g are the same for all lines, and 2. Each line -* is coupled only to the two lines adjacent to it, with the same -* coupling parameters cm and lm. The first assumption imply that edge -* effects have to be neglected. The utility of these assumptions is -* that they make the sL+R and sC+G matrices symmetric, tridiagonal and -* Toeplitz, with useful consequences. -* -* It may be noted that a symmetric two-conductor line will be -* accurately represented by this model. - -* Lossy line models -.model mod1_conv2wtwentyinch ltra rel=1.2 nocontrol r=0.2 l=4.72933999088e-09 g=0 c=7.25000000373e-12 len=20 -.model mod2_conv2wtwentyinch ltra rel=1.2 nocontrol r=0.2 l=1.35306599818e-08 g=0 c=3.65000000746e-12 len=20 - -* subcircuit m_conv2wtwentyinch - modal transformation network for conv2wtwentyinch -.subckt m_conv2wtwentyinch 1 2 3 4 -v1 5 0 0v -v2 6 0 0v -f1 0 3 v1 0.707106779721 -f2 0 3 v2 -0.707106782652 -f3 0 4 v1 0.707106781919 -f4 0 4 v2 0.707106780454 -e1 7 5 3 0 0.707106780454 -e2 1 7 4 0 0.707106782652 -e3 8 6 3 0 -0.707106781919 -e4 2 8 4 0 0.707106779721 -.ends m_conv2wtwentyinch - -* Subckt conv2wtwentyinch -.subckt conv2wtwentyinch 1 2 3 4 -x1 1 2 5 6 m_conv2wtwentyinch -o1 5 0 7 0 mod1_conv2wtwentyinch -o2 6 0 8 0 mod2_conv2wtwentyinch -x2 3 4 7 8 m_conv2wtwentyinch -.ends conv2wtwentyinch - -.model convtwoinch ltra r=0.2 l=9.13e-9 c=3.65e-12 len=2.0 rel=1.2 nocontrol -.subckt conv2wetcmodel 1 2 3 4 -o1 1 0 5 0 convtwoinch -x1 5 2 6 4 conv2wtwentyinch -o2 6 0 3 0 convtwoinch -.ends conv2wetcmodel - -.end diff --git a/Windows/spice/examples/TransmissionLines/ltra7_4_line.sp b/Windows/spice/examples/TransmissionLines/ltra7_4_line.sp deleted file mode 100644 index 7be4615a..00000000 --- a/Windows/spice/examples/TransmissionLines/ltra7_4_line.sp +++ /dev/null @@ -1,113 +0,0 @@ -6.3inch 4 lossy lines LTRA model -- R load - -Ra 1 2 1K -Rb 0 3 1K -Rc 0 4 1K -Rd 0 5 1K -Re 6 0 1Meg -Rf 7 0 1Meg -Rg 8 0 1Meg -Rh 9 0 1Meg - - -* -* Subcircuit test -* test is a subcircuit that models a 4-conductor transmission line with -* the following parameters: l=9e-09, c=2.9e-13, r=0.3, g=0, -* inductive_coeff_of_coupling k=0.6, inter-line capacitance cm=3e-14, -* length=6.3. Derived parameters are: lm=5.4e-09, ctot=3.5e-13. -* -* It is important to note that the model is a simplified one - the -* following assumptions are made: 1. The self-inductance l, the -* self-capacitance ctot (note: not c), the series resistance r and the -* parallel capacitance g are the same for all lines, and 2. Each line -* is coupled only to the two lines adjacent to it, with the same -* coupling parameters cm and lm. The first assumption implies that edge -* effects have to be neglected. The utility of these assumptions is -* that they make the sL+R and sC+G matrices symmetric, tridiagonal and -* Toeplitz, with useful consequences (see "Efficient Transient -* Simulation of Lossy Interconnect", by J.S. Roychowdhury and -* D.O Pederson, Proc. DAC 91). - -* It may be noted that a symmetric two-conductor line is -* represented accurately by this model. - -* Subckt node convention: -* -* |--------------------------| -* 1-----| |-----n+1 -* 2-----| |-----n+2 -* : | n-wire multiconductor | : -* : | line | : -* n-1-----|(node 0=common gnd plane) |-----2n-1 -* n-----| |-----2n -* |--------------------------| - - -* Lossy line models -.model mod1_test ltra rel=1.2 nocontrol r=0.3 l=2.62616456193e-10 g=0 c=3.98541019688e-13 len=6.3 -.model mod2_test ltra rel=1.2 nocontrol r=0.3 l=5.662616446e-09 g=0 c=3.68541019744e-13 len=6.3 -.model mod3_test ltra rel=1.2 nocontrol r=0.3 l=1.23373835171e-08 g=0 c=3.3145898046e-13 len=6.3 -.model mod4_test ltra rel=1.2 nocontrol r=0.3 l=1.7737383521e-08 g=0 c=3.01458980439e-13 len=6.3 - -* subcircuit m_test - modal transformation network for test -.subckt m_test 1 2 3 4 5 6 7 8 -v1 9 0 0v -v2 10 0 0v -v3 11 0 0v -v4 12 0 0v -f1 0 5 v1 0.371748033738 -f2 0 5 v2 -0.601500954587 -f3 0 5 v3 0.601500954587 -f4 0 5 v4 -0.371748036544 -f5 0 6 v1 0.60150095443 -f6 0 6 v2 -0.371748035044 -f7 0 6 v3 -0.371748030937 -f8 0 6 v4 0.601500957402 -f9 0 7 v1 0.601500954079 -f10 0 7 v2 0.37174803072 -f11 0 7 v3 -0.371748038935 -f12 0 7 v4 -0.601500955482 -f13 0 8 v1 0.371748035626 -f14 0 8 v2 0.601500956073 -f15 0 8 v3 0.601500954504 -f16 0 8 v4 0.371748032386 -e1 13 9 5 0 0.371748033909 -e2 14 13 6 0 0.601500954587 -e3 15 14 7 0 0.601500955639 -e4 1 15 8 0 0.371748036664 -e5 16 10 5 0 -0.60150095443 -e6 17 16 6 0 -0.371748035843 -e7 18 17 7 0 0.371748032386 -e8 2 18 8 0 0.601500957319 -e9 19 11 5 0 0.601500955131 -e10 20 19 6 0 -0.371748032169 -e11 21 20 7 0 -0.371748037896 -e12 3 21 8 0 0.601500954513 -e13 22 12 5 0 -0.371748035746 -e14 23 22 6 0 0.60150095599 -e15 24 23 7 0 -0.601500953534 -e16 4 24 8 0 0.371748029317 -.ends m_test - -* Subckt test -.subckt test 1 2 3 4 5 6 7 8 -x1 1 2 3 4 9 10 11 12 m_test -o1 9 0 13 0 mod1_test -o2 10 0 14 0 mod2_test -o3 11 0 15 0 mod3_test -o4 12 0 16 0 mod4_test -x2 5 6 7 8 13 14 15 16 m_test -.ends test -* -x1 2 3 4 5 6 7 8 9 test -* -* -VS1 1 0 PWL(15.9NS 0.0 16.1Ns 5.0 31.9Ns 5.0 32.1Ns 0.0) - -.control -TRAN 0.2NS 50NS -plot v(1) v(2) v(6) v(7) v(8) v(9) -.endc -* -.END diff --git a/Windows/spice/examples/TransmissionLines/txl1_1_line.sp b/Windows/spice/examples/TransmissionLines/txl1_1_line.sp deleted file mode 100644 index fdbec1ae..00000000 --- a/Windows/spice/examples/TransmissionLines/txl1_1_line.sp +++ /dev/null @@ -1,18 +0,0 @@ -MOSdriver -- lossy line TXL model -- C load -m5 0 168 2 0 mn0p9 w = 18.0u l=0.9u -m6 1 168 2 1 mp1p0 w = 36.0u l=1.0u -CN2 2 0 0.025398e-12 -CN3 3 0 0.007398e-12 -y1 2 0 3 0 ymod -vdd 1 0 dc 5.0 -VS 168 0 PULSE (0 5 15.9NS 0.2NS 0.2NS 15.8NS 32NS ) -.control -TRAN 0.2N 47N 0 0.1N -plot v(2) v(3) ylimit -0.5 5 -.endc -.MODEL mn0p9 NMOS VTO=0.8 KP=48U GAMMA=0.30 PHI=0.55 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL mp1p0 PMOS VTO=-0.8 KP=21U GAMMA=0.45 PHI=0.61 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL ymod txl R=12.45 L=8.972e-9 G=0 C=0.468e-12 length=16 -.end diff --git a/Windows/spice/examples/TransmissionLines/txl2_3_line.sp b/Windows/spice/examples/TransmissionLines/txl2_3_line.sp deleted file mode 100644 index 41b54996..00000000 --- a/Windows/spice/examples/TransmissionLines/txl2_3_line.sp +++ /dev/null @@ -1,26 +0,0 @@ -MOSdriver -- 3 lossy lines TXL model -- C load -m5 0 168 2 0 mn0p9 w = 18.0u l=0.9u -m6 1 168 2 1 mp1p0 w = 36.0u l=1.0u -m1 0 3 4 0 mn0p9 w = 18.0u l=0.9u -m2 1 3 4 1 mp1p0 w = 36.0u l=1.0u -CN2 2 0 0.025398e-12 -CN3 3 0 0.007398e-12 -CN4 4 0 0.025398e-12 -CN5 5 0 0.007398e-12 -CN6 6 0 0.007398e-12 -CN7 168 0 0.007398e-12 -y1 2 0 3 0 ymod -y2 4 0 5 0 ymod -y3 6 0 168 0 ymod -vdd 1 0 dc 5.0 -VS 168 0 PULSE (0 5 15.9NS 0.2NS 0.2NS 15.8NS 32NS ) -.control -TRAN 0.2N 47N 0 0.1N -plot v(2) v(3) v(4) v(5) v(6) -.endc -.MODEL mn0p9 NMOS VTO=0.8 KP=48U GAMMA=0.30 PHI=0.55 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL mp1p0 PMOS VTO=-0.8 KP=21U GAMMA=0.45 PHI=0.61 -+LAMBDA=0.00 CGSO=0 CGDO=0 CJ=0 CJSW=0 TOX=18000N LD=0.0U -.MODEL ymod txl R=12.45 L=8.972e-9 G=0 C=0.468e-12 length=16 -.end diff --git a/Windows/spice/examples/TransmissionLines/txl3_1_line.sp b/Windows/spice/examples/TransmissionLines/txl3_1_line.sp deleted file mode 100644 index 466c2591..00000000 --- a/Windows/spice/examples/TransmissionLines/txl3_1_line.sp +++ /dev/null @@ -1,236 +0,0 @@ - BJTdriver -- 24inch lossy line TXL model -- DiodeCircuit - -* This unclassified circuit is from Raytheon, courtesy Gerry Marino. -* It consists of a BJT driver connected by a 24 inch lossy line to a -* passive load consisting mostly of diodes. Each inch -* of the lossy line is modelled by 10 LRC lumps in the Raytheon -* model. - -* The line parameters (derived from the Raytheon input file) are: -* L = 9.13nH per inch -* C = 3.65pF per inch -* R = 0.2 ohms per inch - -* the circuit -v1 1 0 0v pulse(0 4 1ns 1ns 1ns 20ns 40ns) -vcc 10 0 5v -*rseries 1 2 5 -x1 1 2 10 bjtdrvr -*t1 2 0 3 0 z0=50.0136 td=4.38119ns rel=10 -y2 2 0 3 0 ymod1 -*x2 2 3 oneinch -*x2 100 101 twentyfourinch -*x2 100 101 xtwentyfourinch -vtest1 2 100 0 -vtest2 101 3 0 -x3 3 4 10 dioload -*rl 3 0 5 -*dl 0 3 diod2 - -.model ymod1 txl r=0.2 g=0 l=9.13e-9 c=3.65e-12 length=24 - -.model qmodn npn(bf=100 rb=100 cje=0.09375pF cjc=0.28125pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpd npn(bf=100 rb=100 cje=0.08187pF cjc=0.2525pF is=1e-12 -+pe=0.5 pc=0.5) -.model qmodpdmine npn(bf=100 rb=100 cje=0.08187pF cjc=0.05pF is=1e-12 -+pe=0.5 pc=0.5) - -.model dmod1 d(n=2.25 is=1.6399e-4 bv=10) - -.model dmod2 d - -.model dmod d(vj=0.3v) - -.model diod1 d(tt=0.75ns vj=0.6 rs=909 bv=10) - -.model diod2 d(tt=0.5ns vj=0.3 rs=100 bv=10) - -.options acct -+reltol=1e-3 abstol=1e-14 -.control -tran 0.1ns 60ns 0 0.5ns -plot v(1) v(2) v(3) -.endc - -* bjt driver - 19=input, 268=output, 20=vcc; wierd node numbers from -* the Raytheon file - -.subckt bjtdrvr 19 268 20 -q1 22 18 13 qmodn -q2 18 16 13 qmodn -qd2 21 9 0 qmodn -q4 14 14 0 qmodn -q3 16 15 14 qmodpd -q5 8 13 17 qmodn -q6 25 12 0 qmodn -q7 6 17 0 qmodpd -qd1 26 10 0 qmodn -q8 7 11 10 qmodn -q10 268 17 0 qmodpdmine -*q10 268 17 0 qmodpd -q9 7 10 268 qmodn - -d1 0 19 dmod1 -d2 18 19 dmod2 -d3 13 19 dmod -dq1 18 22 dmod -dq2 16 18 dmod -d502 9 21 dmod -dq3 15 16 dmod -d10 24 8 dmod -d4 15 6 dmod -dq6 12 25 dmod -dq7 17 6 dmod -dd1 17 10 dmod -d7 11 6 dmod -dd2 17 26 dmod -d9 23 6 dmod -dq8 11 7 dmod -d501 17 268 dmod -dq9 10 7 dmod -d14 20 27 dmod -d8 0 268 dmod - -r1 18 20 6k -r2 22 20 2.2k -r4 0 13 7k -rd1 9 13 2k -rd2 21 13 3k -r3 16 20 10k -r5 15 20 15k -r9 0 17 4k -r6 24 20 750 -r10 12 17 2k -r12 24 11 1.5k -r11 25 17 3k -r15 23 20 10k -r13 0 10 15k -r14 7 27 12 - -.ends bjtdrvr - -* subckt dioload - diode load: input=28, output=4, vcc=5 - -.subckt dioload 28 4 5 -*comment out everything in dioload except d5 and r503, and watch -* the difference in results obtained between a tran 0.1ns 20ns and -* a tran 0.01ns 20ns -c1 28 0 5pF -r503 0 4 5.55 -r4 0 28 120k -r5 1 5 7.5k - -d5 4 28 diod2 -d1 1 28 diod1 -d4 2 0 diod1 -d3 3 2 diod1 -d2 1 3 diod1 -.ends dioload - -* subckt lump - one RLC lump of the lossy line - -*10 segments per inch -.subckt lump 1 2 -*r1 1 3 0.02 -*c1 3 0 0.365pF -*l1 3 2 0.913nH - -l1 1 3 0.913nH -c1 2 0 0.365pF -r1 3 2 0.02 - -*r1 1 3 0.01 -*c1 3 0 0.1825pF -*l1 3 4 0.4565nH -*r2 4 5 0.01 -*c2 5 0 0.1825pF -*l2 5 2 0.4565nH - -*c1 1 0 0.365pF -*l1 1 2 0.913nH -.ends lump - -.subckt oneinch 1 2 -x1 1 3 lump -x2 3 4 lump -x3 4 5 lump -x4 5 6 lump -x5 6 7 lump -x6 7 8 lump -x7 8 9 lump -x8 9 10 lump -x9 10 11 lump -x10 11 2 lump -.ends oneinch - -.subckt fourinch 1 2 -x1 1 3 oneinch -x2 3 4 oneinch -x3 4 5 oneinch -x4 5 2 oneinch -.ends fourinch - -.subckt fiveinch 1 2 -x1 1 3 oneinch -x2 3 4 oneinch -x3 4 5 oneinch -x4 5 6 oneinch -x5 6 2 oneinch -.ends fiveinch - -.subckt twentyfourinch 1 2 -x1 1 3 fiveinch -x2 3 4 fiveinch -x3 4 5 fiveinch -x4 5 6 fiveinch -x5 6 2 fourinch -.ends twentyfourinch - -*modelling using R and lossless lines -*5 segments per inch -.model ymod2 txl r=0 g=0 l=9.13e-9 c=3.65e-12 length=0.2 -.subckt xlump 1 2 -y1 1 0 3 0 ymod2 -r1 2 3 0.04 -.ends xlump - -.subckt xoneinch 1 2 -x1 1 3 xlump -x2 3 4 xlump -x3 4 5 xlump -x4 5 6 xlump -x5 6 2 xlump -*x5 6 7 xlump -*x6 7 8 xlump -*x7 8 9 xlump -*x8 9 10 xlump -*x9 10 11 xlump -*x10 11 2 xlump -.ends xoneinch - -.subckt xfourinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 2 xoneinch -.ends xfourinch - -.subckt xfiveinch 1 2 -x1 1 3 xoneinch -x2 3 4 xoneinch -x3 4 5 xoneinch -x4 5 6 xoneinch -x5 6 2 xoneinch -.ends xfiveinch - -.subckt xtwentyfourinch 1 2 -x1 1 3 xfiveinch -x2 3 4 xfiveinch -x3 4 5 xfiveinch -x4 5 6 xfiveinch -x5 6 2 xfourinch -.ends xtwentyfourinch - -.end diff --git a/Windows/spice/examples/TransmissionLines/txl4_1_line.sp b/Windows/spice/examples/TransmissionLines/txl4_1_line.sp deleted file mode 100644 index 91586479..00000000 --- a/Windows/spice/examples/TransmissionLines/txl4_1_line.sp +++ /dev/null @@ -1,523 +0,0 @@ - Example 3 for interconnect simulation - -* From neug1, Mosaic aluminum lines. 2um thick, 11um wide. Assuming -* 10um above the ground. -* Material: aluminum; resistivity (sigma) = 2.74uohm-cm = 2.74e-8 ohm-m -* Dielectric: SiO2, dielectric constant (epsilon) =3.7 -* epsilon0 = 8.85e-12 MKS units -* mu0 = 4e-7*PI -* speed of light in free space = 1/sqrt(mu0*epsilon0) = 2.9986e8 MKS units -* -* Line parameter calculations: -* capacitance: parallel plate -* C = epsilon*epsilon0 * A / l -* C = 3.7*8.85e-12 * 11e-6 * 1(metre) / 10e-6 = 36.02e-12 F/m -* + 30% = 46.8e-12 F/m = 0.468pF/cm -* -* C_freespace = 46.8e-12/epsilon = 12.65e-12 F/m -* speed of light in free space v0 = 2.9986e8 = 1/sqrt(L0*C0) -* => L0 = 1/C0*v0^2 -* L0 = 1/(12.65e-12 * 8.9916e16) = 1/113.74e4 = 0.008792e-4 H/m -* = 0.8792 uH/m = 8.792nH/cm -* -* R = rho * l / A = 2.74e-8 * 1 / (11e-6*2e-6) = 1245.45 ohms/m -* = 12.45ohms/cm -* -* transmission line parameters: -* nominal z0 = sqrt(L/C) = 137 ohms -* td = sqrt(LC) = 64.14e-12 secs/cm = 0.064ns/cm -* -* - - -vcc vcc 0 5 -v1 1 0 0v pulse(0 5 0.1ns 0.1ns 0.1ns 1ns 100ns) -rs 1 2 10 -xdrv 1 2 vcc bjtdrvr -xrcv 3 4 vcc bjtdrvr -xrcv 3 4 vcc dioload -d1 3 vcc diod -d2 0 3 diod -cl 3 0 1pF -y1 2 0 3 0 yline -*x1 2 3 sixteencm -x1 2 3 xonecm - -.model diod d -.model yline txl r=12.45 g=0 l=8.792e-9 c=0.468e-12 length=16 - -.control -* 1cm -* 2cm -* 4cm -* 6cm -* 8cm -* 10cm -* 12cm -*tran 0.001ns 15ns 0 0.1ns -* 24cm -tran 0.001ns 10ns 0 0.1ns -* onecm10 -*tran 0.001ns 10ns 0 0.01ns -plot v(1) v(2) v(3) -.endc - - -* 1. define the subckt r10 to be one tenth of the resistance per cm. -* 2. define the subckt onecm to be one of onecm10 (modelled using -* 10 segments), onecm8, onecm4, onecm2 and lump1. Then use -* the subckts onecm, fourcm, fivecm, tencm, twelvecm, -* twentyfourcm in the circuit. The line is modelled as rlc segments. -* 3. define the subckt xonecm to be one of xonecm10, xonecm8, -* xonecm4, xonecm2 and xlump1. Use the subckts xonecm, -* xfourcm, xfivecm, xtencm, xtwelvecm, xtwentyfourcm in the -* circuit. The line will be modelled as r-lossless lumps. - -.subckt xonecm 1 2 -*x1 1 2 xlump1 -x1 1 2 xonecm4 -.ends xonecm - -.subckt onecm 1 2 -*x1 1 2 lump1 -x1 1 2 onecm4 -.ends onecm - -.subckt r10 1 2 -r1 1 2 1.245 -.ends r10 - -* ECL driver and diode receiver models - from Raytheon - -.model qmodn npn(bf=100 rb=100 cje=0.09375pF cjc=0.28125pF is=1e-12 -+pe=0.5 pc=0.5) - -.model qmodpd npn(bf=100 rb=100 cje=0.08187pF cjc=0.2525pF is=1e-12 -+pe=0.5 pc=0.5) -.model qmodpdmine npn(bf=100 rb=100 cje=0.08187pF cjc=0.05pF is=1e-12 -+pe=0.5 pc=0.5) - -.model dmod1 d(n=2.25 is=1.6399e-4 bv=10) - -.model dmod2 d - -.model dmod d(vj=0.3v) - -.model diod1 d(tt=0.75ns vj=0.6 rs=909 bv=10) - -.model diod2 d(tt=0.5ns vj=0.3 rs=100 bv=10) - -* bjt driver - 19=input, 268=output, 20=vcc; wierd node numbers from -* the Raytheon file - -.subckt bjtdrvr 19 268 20 -q1 22 18 13 qmodn -q2 18 16 13 qmodn -qd2 21 9 0 qmodn -q4 14 14 0 qmodn -q3 16 15 14 qmodpd -q5 8 13 17 qmodn -q6 25 12 0 qmodn -q7 6 17 0 qmodpd -qd1 26 10 0 qmodn -q8 7 11 10 qmodn -q10 268 17 0 qmodpdmine -*q10 268 17 0 qmodpd -q9 7 10 268 qmodn - -d1 0 19 dmod1 -d2 18 19 dmod2 -d3 13 19 dmod -dq1 18 22 dmod -dq2 16 18 dmod -d502 9 21 dmod -dq3 15 16 dmod -d10 24 8 dmod -d4 15 6 dmod -dq6 12 25 dmod -dq7 17 6 dmod -dd1 17 10 dmod -d7 11 6 dmod -dd2 17 26 dmod -d9 23 6 dmod -dq8 11 7 dmod -d501 17 268 dmod -dq9 10 7 dmod -d14 20 27 dmod -d8 0 268 dmod - -r1 18 20 6k -r2 22 20 2.2k -r4 0 13 7k -rd1 9 13 2k -rd2 21 13 3k -r3 16 20 10k -r5 15 20 15k -r9 0 17 4k -r6 24 20 750 -r10 12 17 2k -r12 24 11 1.5k -r11 25 17 3k -r15 23 20 10k -r13 0 10 15k -r14 7 27 12 - -.ends bjtdrvr - -* subckt dioload - diode load: input=28, output=4, vcc=5 - -.subckt dioload 28 4 5 -c1 28 0 5pF -r503 0 4 5.55 -r400 0 28 120k -r500 1 5 7.5k - -d5 4 28 diod2 -d1 1 28 diod1 -d4 2 0 diod1 -d3 3 2 diod1 -d2 1 3 diod1 -.ends dioload - -* End ECL driver and Diode receiver models from Raytheon - -*10 segments per cm -.subckt lump10 1 2 -l1 1 3 0.0.8792nH -c1 2 0 0.0468pF -x1 3 2 r10 -.ends lump10 - -*1 segment per cm -.subckt lump1 1 2 -l1 1 3 8.792nH -c1 2 0 0.468pF -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 8 r10 -x6 8 9 r10 -x7 9 10 r10 -x8 10 11 r10 -x9 11 12 r10 -x10 12 2 r10 -.ends lump1 - -*2 segments per cm -.subckt lump2 1 2 -l1 1 3 4.396nH -c1 2 0 0.234pF -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 2 r10 -.ends lump2 - -*4 segments per cm -.subckt lump4 1 2 -l1 1 3 2.198nH -c1 2 0 0.117pF -x1 3 4 r10 -x2 4 5 r10 -x3 5 2 r10 -x4 5 2 r10 -.ends lump4 - -*8 segments per cm -.subckt lump8 1 2 -l1 1 3 1.099nH -c1 2 0 0.0585pF -x1 3 4 r10 -x2 4 2 r10 -x3 4 2 r10 -x4 4 2 r10 -x5 4 2 r10 -.ends lump8 - -.subckt onecm10 1 2 -x1 1 3 lump10 -x2 3 4 lump10 -x3 4 5 lump10 -x4 5 6 lump10 -x5 6 7 lump10 -x6 7 8 lump10 -x7 8 9 lump10 -x8 9 10 lump10 -x9 10 11 lump10 -x10 11 2 lump10 -.ends onecm10 - -.subckt onecm8 1 2 -x1 1 3 lump8 -x2 3 4 lump8 -x3 4 5 lump8 -x4 5 6 lump8 -x5 6 7 lump8 -x6 7 8 lump8 -x7 8 9 lump8 -x8 9 2 lump8 -.ends onecm8 - -.subckt onecm4 1 2 -x1 1 3 lump4 -x2 3 4 lump4 -x3 4 5 lump4 -x4 5 2 lump4 -.ends onecm4 - -.subckt onecm2 1 2 -x1 1 3 lump2 -x2 3 2 lump2 -.ends onecm2 - -.subckt twocm 1 2 -x1 1 3 onecm -x2 3 2 onecm -.ends twocm - -.subckt threecm 1 2 -x1 1 3 onecm -x2 3 4 onecm -x3 4 2 onecm -.ends threecm - -.subckt fourcm 1 2 -x1 1 3 onecm -x2 3 4 onecm -x3 4 5 onecm -x4 5 2 onecm -.ends fourcm - -.subckt fivecm 1 2 -x1 1 3 onecm -x2 3 4 onecm -x3 4 5 onecm -x4 5 6 onecm -x5 6 2 onecm -.ends fivecm - -.subckt sixcm 1 2 -x1 1 3 fivecm -x2 3 2 onecm -.ends sixcm - -.subckt sevencm 1 2 -x1 1 3 sixcm -x2 3 2 onecm -.ends sevencm - -.subckt eightcm 1 2 -x1 1 3 sevencm -x2 3 2 onecm -.ends eightcm - -.subckt ninecm 1 2 -x1 1 3 eightcm -x2 3 2 onecm -.ends ninecm - -.subckt tencm 1 2 -x1 1 3 fivecm -x2 3 2 fivecm -.ends tencm - -.subckt elevencm 1 2 -x1 1 3 tencm -x2 3 2 onecm -.ends elevencm - -.subckt twelvecm 1 2 -x1 1 3 tencm -x2 3 4 onecm -x3 4 2 onecm -.ends twelvecm - -.subckt sixteencm 1 2 -x1 1 3 eightcm -x2 3 2 eightcm -.ends sixteencm - -.subckt twentyfourcm 1 2 -x1 1 3 twelvecm -x2 3 2 twelvecm -.ends twentyfourcm - - -*modelling using R and lossless lines -* 10 segments per cm -.model yless10 txl r=0 g=0 l=8.792e-9 c=0.468e-12 length=0.1 - -* 8 segments per cm -.model yless8 txl r=0 g=0 l=8.792e-9 c=0.468e-12 length=0.125 - -* 4 segments per cm -.model yless4 txl r=0 g=0 l=8.792e-9 c=0.468e-12 length=0.25 - -* 2 segments per cm -.model yless2 txl r=0 g=0 l=8.792e-9 c=0.468e-12 length=0.5 - -* 1 segment per cm -.model yless1 txl r=0 g=0 l=8.792e-9 c=0.468e-12 length=1 - -*10 segments per cm -.subckt xlump10 1 2 -y1 1 0 3 0 yless10 -x1 3 2 r10 -.ends xlump10 - -*1 segment per cm -.subckt xlump1 1 2 -y1 1 0 3 0 yless1 -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 8 r10 -x6 8 9 r10 -x7 9 10 r10 -x8 10 11 r10 -x9 11 12 r10 -x10 12 2 r10 -.ends xlump1 - -*2 segments per cm -.subckt xlump2 1 2 -y1 1 0 3 0 yless2 -x1 3 4 r10 -x2 4 5 r10 -x3 5 6 r10 -x4 6 7 r10 -x5 7 2 r10 -.ends xlump2 - -*4 segments per cm -.subckt xlump4 1 2 -y1 1 0 3 0 yless4 -x1 3 4 r10 -x2 4 5 r10 -x3 5 2 r10 -x4 5 2 r10 -.ends xlump4 - -*8 segments per cm -.subckt xlump8 1 2 -y1 1 0 3 0 yless8 -x1 3 4 r10 -x2 4 2 r10 -x3 4 2 r10 -x4 4 2 r10 -x5 4 2 r10 -.ends xlump8 - -.subckt xonecm10 1 2 -x1 1 3 xlump10 -x2 3 4 xlump10 -x3 4 5 xlump10 -x4 5 6 xlump10 -x5 6 7 xlump10 -x6 7 8 xlump10 -x7 8 9 xlump10 -x8 9 10 xlump10 -x9 10 11 xlump10 -x10 11 2 xlump10 -.ends xonecm10 - -.subckt xonecm8 1 2 -x1 1 3 xlump8 -x2 3 4 xlump8 -x3 4 5 xlump8 -x4 5 6 xlump8 -x5 6 7 xlump8 -x6 7 8 xlump8 -x7 8 9 xlump8 -x8 9 2 xlump8 -.ends xonecm8 - -.subckt xonecm4 1 2 -x1 1 3 xlump4 -x2 3 4 xlump4 -x3 4 5 xlump4 -x4 5 2 xlump4 -.ends xonecm4 - -.subckt xonecm2 1 2 -x1 1 3 xlump2 -x2 3 2 xlump2 -.ends xonecm2 - - -.subckt xtwocm 1 2 -x1 1 3 xonecm -x2 3 2 xonecm -.ends xtwocm - -.subckt xthreecm 1 2 -x1 1 3 xonecm -x2 3 4 xonecm -x3 4 2 xonecm -.ends xthreecm - -.subckt xfourcm 1 2 -x1 1 3 xonecm -x2 3 4 xonecm -x3 4 5 xonecm -x4 5 2 xonecm -.ends xfourcm - -.subckt xfivecm 1 2 -x1 1 3 xonecm -x2 3 4 xonecm -x3 4 5 xonecm -x4 5 6 xonecm -x5 6 2 xonecm -.ends xfivecm - -.subckt xsixcm 1 2 -x1 1 3 xfivecm -x2 3 2 xonecm -.ends xsixcm - -.subckt xsevencm 1 2 -x1 1 3 xsixcm -x2 3 2 xonecm -.ends xsevencm - -.subckt xeightcm 1 2 -x1 1 3 xsevencm -x2 3 2 xonecm -.ends xeightcm - -.subckt xninecm 1 2 -x1 1 3 xeightcm -x2 3 2 xonecm -.ends xninecm - -.subckt xtencm 1 2 -x1 1 3 xfivecm -x2 3 2 xfivecm -.ends xtencm - -.subckt xelevencm 1 2 -x1 1 3 xtencm -x2 3 2 xonecm -.ends xelevencm - -.subckt xtwelvecm 1 2 -x1 1 3 xtencm -x2 3 4 xonecm -x3 4 2 xonecm -.ends xtwelvecm - -.subckt xsixteencm 1 2 -x1 1 3 xeightcm -x2 3 2 xeightcm -.ends xsixteencm - -.subckt xtwentyfourcm 1 2 -x1 1 3 xtwelvecm -x2 3 2 xtwelvecm -.ends xtwentyfourcm - -.end |