Hi Fabio, I will show you a sample spice netlist i have. .SUBCKT pc3b01_p PAD I OEN CIN .. .. .. .ENDS .SUBCKT pc3b01d_p PAD I OEN CIN .. .. .. .ENDS With this example, suppose if i want to model only pc3b01_p, then how can i give this in the setup file. Since the pins are common to both the models how S2IBIS distinguishes between 2 models and how it will select the correct one. ? As per the tools and scripts i have written, i will always search for the particular spice netlist with .SUBCKT option and then use that model . But i am not sure how S2IBIS is doing it . Can you explain me ? Regards Sudarshan On Nov 16, 2007 2:37 PM, Fabio BRINA <fabio.brina@st.com> wrote: > Hello Sudarshan, > > I don't studied the java script. But I send you a .spi file > generated by S2ibis3, where you can see how work the > tool: > > from this file it extract Power Clamp (typical). > > firstly you can see the netlist (.subckt INVBH2, CLPDPTT, ESDINTT etc.) > secondly the models (.model DPPNWR etc : these are Eldo models) > finally you find the NET added from the tool, voltage source VOUTS2I, > VCLMPS2I etc, > connected to the pin you are considering ( OEIN in this case ) > > If you have many .subckts inside the same file, I think you > have also a top netlist were you can identify univocally the Pins. > > > Regards, > Fabio Brina > > > > > Sudarshan H N wrote: > > Hi Fabio, > > Regarding the first question, my doubt was , if we have many IO pad > netlists in a single file, how to give the names of those pads which we want > to model it. Normally the spice netlists start with .SUBCKT structure. So i > expected S2IBIS to search for this keyword and select the appropriate spice > model. But i didnt find any such statement in the java scripts which will > search for the netlists. How does S2IBIS identify different pad names ? > > Regards > Sudarshan > > On Nov 14, 2007 8:02 PM, Fabio BRINA <fabio.brina@st.com> wrote: > > > > > Hi Sudarshan, > > > > 1. The only pads that will be modeled are those included in the [Pin] > > section: > > > > [Pin] > > > > VDD VDD VDD POWER > > VGND VGND VGND GND > > EN1 EN1 EN1 mod_en > > IN1 IN1 IN1 mod_in > > OUT OUT OUT mod_out > > -> IN1 EN1 > > > > In this case only OUT , EN1 and IN1 will be modeled; > > obviously the other pad have to be fixed in the right level, with > > specific voltage source inside the netlist. > > > > 2. You have to separate the corners in three files, and insert them in > > the following specification: > > > > [Model file] corners_typ corners_min corners_max > > > > > > 3. You can consider each pin for time. Or you can fix the [Voltage > > Range ] under the [model] > > associated to your pad pin. as you can read in s2ibis3.txt file. > > > > > > I hope this helpful for your work. > > > > Regards, > > > > Fabio Brina > > > > > > > > > > Sudarshan H N wrote: > > > > Hello, > > > > I downloaded new s2ibis3 from the site > > http://www.ece.ncsu.edu/erl/ibis/s2ibis3/s2ibis3.htm and tried using it. > > > > I was able generate IBIS models with the example given in that link. But > > i am not able to generate separate IBIS models for the spice models . While > > providing input to *.s2i file i have the following queries. > > > > > > 1. If the IO spice netlist contains all the IO pad netlists in a > > single file , how to give the only those IO pad names that i wish to model > > it. > > 2. In the process model file, if all the typical, min and max > > corner definitions are present in a single file, how do we separately > > mention process models for each corner. > > > > eg: .lib '/home/sudarshann/ibis/S2IBIS/new/tsl018.lib' > > ff_hv for fast corner > > .lib '/home/sudarshann/ibis/S2IBIS/new/tsl018.lib' > > ss_hv for slow corner > > > > How can i achieve such kind of constructs in S2IBIS setup > > file . > > 3. How can i mention the separate voltage levels for each pin. For > > example how can i specify , say 1.2V on Input and enable pins and 3.3Von PAD pins. > > > > Let me know your answers. > > > > Regards > > Sudarshan > > > > -- > > This message has been scanned for viruses and > > dangerous content by *MailScanner* <http://www.mailscanner.info/>, and > > is > > believed to be clean. > > > > > > > > > *Typ power clamp curve for model mod_dir > *Spice Deck created by S2IBIS3 Version 1.1 > *North Carolina State University > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > ****** The NETLIST ******* > *-------------------------- > .GLOBAL GNDE > + GND > + VDD > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > *[?param] > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > .OPTION XA = 9.750000e-07 > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > .SUBCKT INVBH2 A Y > MM10 Y A GND GND EN3 W=3.5u L=5u AD=3.4125e-12 AS=3.4125e-12 > +PD=5.45e-06 PS=5.45e-06 M=1 > MM19 Y VDD NET24 NET24 EP3 W=10u L=0.45u AD=3.51e-10 AS=3.51e-10 > +PD=0.00036195 PS=0.00036195 M=1 > MM11 Y A NET24 NET24 EP3 W=5u L=1u AD=5.85e-12 AS=5.85e-12 PD=7.95e-06 > +PS=7.95e-06 M=1 > MM9 NET24 Y VDD NET24 EP3 W=310u L=0.35u AD=3.51e-10 AS=3.51e-10 > +PD=0.00036195 PS=0.00036195 M=1 > .ENDS INVBH2 > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > .SUBCKT CLPDPTT INOUT > MM41 INOUT NET64 GNDE GNDE EN3 W=74.6u L=0.4u AD=7.2735e-11 > +AS=7.2735e-11 PD=7.655e-05 PS=7.655e-05 M=1 > MM28 INOUT NET68 GNDE GNDE EN3 W=74.6u L=0.4u AD=7.2735e-11 > +AS=7.2735e-11 PD=7.655e-05 PS=7.655e-05 M=1 > MM42 INOUT NET64 GNDE GNDE EN3 W=74.6u L=0.4u AD=7.2735e-11 > +AS=7.2735e-11 PD=7.655e-05 PS=7.655e-05 M=1 > MM34 INOUT NET68 GNDE GNDE EN3 W=74.6u L=0.4u AD=7.2735e-11 > +AS=7.2735e-11 PD=7.655e-05 PS=7.655e-05 M=1 > DD37 NET64 INOUT DPPNW AREA=3.3p > DD29 NET68 INOUT DPPNW AREA=3.3p > DD32 NET68 INOUT DPPNW AREA=3.3p > DD38 NET64 INOUT DPPNW AREA=3.3p > XR36 GNDE NET64 GND RPO1M1 r=3560 w=0.35e-06 nc=1 > XR30 GNDE NET68 GND RPO1M1 r=3560 w=0.35e-06 nc=1 > XR35 GNDE NET64 GND RPO1M1 r=3560 w=0.35e-06 nc=1 > XR31 GNDE NET68 GND RPO1M1 r=3560 w=0.35e-06 nc=1 > .ENDS CLPDPTT > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > .SUBCKT ESDINTT A RECIN > XR40 NET11 RECIN GND RPO1M1 r=163 w=1.9e-06 nc=2 > XR34 A NET17 GND RPO1M1 r=87 w=4.5e-06 nc=5 > XR38 NET17 NET11 GND RNDIFFM1 r=196 w=1.9e-06 nc=2 > DD4 GND NET17 DNPPSR AREA=308p PERI=36.8u > .ENDS ESDINTT > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > .SUBCKT INV A Y > MM10 Y A GND GND EN3 W=wn L=ln M=1 > MM9 Y A VDD VDD EP3 W=wp L=lp M=1 > .ENDS INV > *-------------------------------------------------------------------- > *-------------------------------------------------------------------- > .CONNECT GND GNDE > XI11 NET23 NET9 INVBH2 > XI9 OEIN CLPDPTT > XI8 OEIN NET9 ESDINTT > XI17 OEOUT NET23 INV ln=2u lp=2u wn=7u wp=13u > XI10 NET23 OEOUT INV ln=0.35u lp=0.35u wn=44u wp=90u > XI18 NET9 NET23 INV ln=0.35u lp=0.35u wn=20u wp=55u > *--------------------------------------------------------------- > * Spice Model : DPPNWR > *--------------------------------------------------------------- > *********** THE MODELS ************* > *---------------------------------------------------------------------- > * Simulator: #ELDO 4.5 > *---------------------------------------------------------------------- > * > .model DPPNWR d > + level=8 diolev=9 tnom=27 > + vr=0 cjbr=0.001329 cjsr=3.146e-10 > + cjgr=1.864e-10 jsdbr=1.9e-07 jsdsr=4.572e-14 > + jsdgr=1e-20 jsgbr=4.057e-06 jsgsr=2.782e-11 > + jsggr=4.751e-11 vdbr=0.8 vdsr=0.8 > + vdgr=0.8 pb=0.43 ps=0.33 > + pg=0.43 > *.endl DPPNWJU_typ > > *--------------------------------------------------------------- > * Spice Model : EPMM9JU > *--------------------------------------------------------------- > * > *---------------------------------------------------------------------- > * PMOS : EP (Model : MM9JU - subckt Juncap) typ > *---------------------------------------------------------------------- > * Simulator: #ELDO 4.5 > *---------------------------------------------------------------------- > .SUBCKT EPMM9JU D G S B > + param: W=10e-6 L=10e-6 nfing=1 > + wfing={w/nfing+0} > + fd={nfing-2*trunc(nfing/2)} > + fs={2-fd} > + AD={wfing*(nfing*(1.15e-06)/2+fd*(1.15e-06)/2)} > + AS={wfing*(nfing*(1.15e-06)/2+fs*(1.15e-06)/2)} > + PD={nfing*2*(1.15e-06)/2+fd*(wfing+1.15e-06)} > + PS={nfing*2*(1.15e-06)/2+fs*(wfing+1.15e-06)} > M1 D G S B EPMM9JU W=W L=L AS=AS AD=AD PS=PS PD=PD > .ENDS > > > .MODEL EPMM9JU > + pmos > + level=59 > + tox=8.2e-09 tr=27 ler=9.954e-06 > + lvar=0 lap=2.2994e-08 wer=9.8871e-06 > + wvar=0 wot=5.6447e-08 vtor=0.605 > + slvto=2.4157e-08 sl2vto=-8.8158e-15 swvto=-2.4478e-09 > + stvto=-0.00093097 betsq=4.6238e-05 etabet=1.1695 > + the1r=0.21277 slthe1r=6.6646e-08 swthe1=-1.19e-09 > + stthe1r=-0.00045468 stlthe1=-1.8179e-10 the2r=0.33738 > + slthe2r=-3.7174e-08 swthe2=1.9299e-08 stthe2r=-0.0004339 > + stlthe2=7.9686e-11 kor=0.65138 slko=-5.6962e-08 > + swko=2.1928e-08 kr=0.65138 slk=-5.6962e-08 > + swk=2.1928e-08 vsbxr=100 slvsbx=0 > + swvsbx=0 phibr=0.84764 zet1r=1.8722 > + slzet1=-1.6842e-07 etazet=1 mor=0.30905 > + slmo=8.3171e-06 stmo=0.00010119 etamr=1 > + gamoor=0.0001689 slgamoo=1.1391e-15 etagamr=1 > + vsbtr=100 slvsbt=0 gam1r=-0.0015083 > + slgam1=1.4997e-08 swgam1=8.7524e-10 etadsr=0.6 > + vpr=10.86 alpr=0.022451 slalp=8.2822e-09 > + swalp=-1.2618e-08 etaalp=1 the3r=-0.014429 > + stlthe3=-6.7464e-11 swthe3=1.9606e-09 stthe3r=2.4982e-05 > + slthe3r=7.3895e-09 a1r=3.844 sla1=2.9719e-07 > + swa1=-9.356e-09 sta1=0.015722 a2r=29.335 > + sla2=4.8732e-10 swa2=-3.0085e-10 a3r=1.1664 > + sla3=-1.0574e-07 swa3=-3.3629e-09 col=6.1e-11 > + ntr=2.2e-20 nfr=4.182e-12 > * Parameters file : diode.dds,v 1.2 1999/01/06 10:27:17 > * -- JUNCAP Electrical Parameters for S/D regions (Simulator specific) > + diolev=9 tnom=27 vr=0 > + cjbr=0.001329 cjsr=3.146e-10 cjgr=1.864e-10 > + jsdbr=1.9e-07 jsdsr=4.572e-14 jsdgr=1e-20 > + jsgbr=4.057e-06 jsgsr=2.782e-11 jsggr=4.751e-11 > + vdbr=0.8 vdsr=0.8 vdgr=0.8 > + pb=0.43 ps=0.33 pg=0.43 > + dcaplev=0 rlev=1 alev=3 > > *(1)+rsh=2.4 rs=70 rd=70 > + ldif=0 hdif=4.875e-07 > > *--------------------------------------------------------------- > * Spice Model : ENMM9JU > *--------------------------------------------------------------- > * > *.LIB ENMM9JU_typ > *---------------------------------------------------------------------- > * NMOS : EN (Model : MM9JU - subckt Juncap) typ > *---------------------------------------------------------------------- > * Simulator: #ELDO 4.5 > *---------------------------------------------------------------------- > .SUBCKT ENMM9JU D G S B > + param: W=10e-6 L=10e-6 nfing=1 > + wfing={w/nfing+0} > + fd={nfing-2*trunc(nfing/2)} > + fs={2-fd} > + AD={wfing*(nfing*(1.15e-06)/2+fd*(1.15e-06)/2)} > + AS={wfing*(nfing*(1.15e-06)/2+fs*(1.15e-06)/2)} > + PD={nfing*2*(1.15e-06)/2+fd*(wfing+1.15e-06)} > + PS={nfing*2*(1.15e-06)/2+fs*(wfing+1.15e-06)} > M1 D G S B ENMM9JU W=W L=L AS=AS AD=AD PS=PS PD=PD > .ENDS > > > .MODEL ENMM9JU > + nmos > + level=59 > + tox=7.6e-09 tr=27 ler=9.9839e-06 > + lvar=0 lap=8.045e-09 wer=9.7552e-06 > + wvar=0 wot=1.224e-07 vtor=0.635 > + slvto=7.0216e-08 sl2vto=-2.4754e-14 swvto=2.3042e-08 > + stvto=-0.00087141 betsq=0.0002259 etabet=1.6336 > + the1r=0.2364 slthe1r=1.3077e-07 swthe1=-8.2823e-08 > + stthe1r=-6.6798e-06 stlthe1=-5.1702e-10 the2r=0.15491 > + slthe2r=-2.1137e-08 swthe2=9.6765e-08 stthe2r=0.0003788 > + stlthe2=-2.1968e-11 kor=0.536 slko=-7.6164e-08 > + swko=2.7463e-08 kr=0.536 slk=-7.3164e-08 > + swk=2.7463e-08 vsbxr=100 slvsbx=0 > + swvsbx=0 phibr=0.84764 zet1r=2.5785 > + slzet1=-0.00012272 etazet=0.5 mor=0.31129 > + slmo=-1.3606e-06 stmo=-0.00082026 etamr=1 > + gamoor=0.00096059 slgamoo=2.9931e-15 etagamr=1 > + vsbtr=100 slvsbt=0 gam1r=0.00063636 > + slgam1=1.2818e-08 swgam1=-4.7172e-10 etadsr=0.6 > + vpr=17.25 alpr=0.01 slalp=0 > + swalp=0 etaalp=1 the3r=-0.025862 > + stlthe3=-2.8694e-10 swthe3=-2.4e-08 stthe3r=-4.1862e-05 > + slthe3r=1.014e-07 a1r=5.5559 sla1=5.4355e-07 > + swa1=-3.3508e-07 sta1=0.0084971 a2r=20 > + sla2=0 swa2=0 a3r=1.1206 > + sla3=-1.4134e-07 swa3=-1.0882e-08 col=6.1e-11 > + ntr=2.2e-20 nfr=6.085e-12 > * Parameters file : diode.dds,v 1.2 1999/01/06 10:27:17 > * -- JUNCAP Electrical Parameters for S/D regions (Simulator specific) > + diolev=9 tnom=27 vr=0 > + cjbr=0.000933 cjsr=2.994e-10 cjgr=2.085e-10 > + jsdbr=1.295e-08 jsdsr=1e-20 jsdgr=9.999e-16 > + jsgbr=4.86e-07 jsgsr=2.4e-11 jsggr=1.8e-12 > + vdbr=0.8 vdsr=0.8 vdgr=0.8 > + pb=0.37 ps=0.21 pg=0.37 > + dcaplev=0 rlev=1 alev=3 > > *(1)+rsh=2.7 rs=48 rd=48 > + ldif=0 hdif=4.875e-07 > > *--------------------------------------------------------------- > * Spice Model : DNPPSR > *--------------------------------------------------------------- > *.model DNPPSR *BIB:HC6XXX_ELDO.DNPPSR_TYP > *{DNPPSJU_TYP} > *---------------------------------------------------------------------- > * DIODE : DNPPS (Model : Juncap) typ > *---------------------------------------------------------------------- > * Simulator: #ELDO 4.5 > *---------------------------------------------------------------------- > * > .model DNPPSR d > + level=8 diolev=9 tnom=27 > + vr=0 cjbr=0.000933 cjsr=2.994e-10 > + cjgr=2.085e-10 jsdbr=1.295e-08 jsdsr=1e-20 > + jsdgr=9.999e-16 jsgbr=4.86e-07 jsgsr=2.4e-11 > + jsggr=1.8e-12 vdbr=0.8 vdsr=0.8 > + vdgr=0.8 pb=0.37 ps=0.21 > + pg=0.37 > *.endl DNPPSJU_typ > > *--------------------------------------------------------------- > * Spice Model : RNDIFFM1 > *--------------------------------------------------------------- > *.subckt RNDIFFM1 *BIB:HC6XXX_ELDO.RNDIFFM1_TYP > *{RNDIFFM1_TYP} > *---------------------------------------------------------------------- > * RESISTOR : RNDIFF (Model : M1) typ > *---------------------------------------------------------------------- > *.lib RNDIFFM1_typ > .subckt RNDIFFM1 > + PLUS MINUS SUB param: r=0.0 w=0.8e-6 nc=1 > *---------------------------------------------------------------------- > .param rt_typ={4.5/nc+(4.5945e-05)/(w-(-0.17e-6))} > .param l={0.0e-6+(r-2*rt_typ)*(w-(-0.17e-6))/48.0} > *---------------------------------------------------------------------- > .param rt={4.5/nc+4.5945e-05/(w-(-0.17e-6))} > RES PLUS MINUS {48.0*(l-(0.0e-6))/(w-(-0.17e-6)) + 2*rt } tc=1.533e-3, > 2.023e-7 > *---------------------------------------------------------------------- > * Parameters file : diode.dds,v 1.2 1999/01/06 10:27:17 > .model DNPPS d level=8 diolev=9 tnom=27 > + vr=0 cjbr=0.000933 cjsr=2.994e-10 > + cjgr=2.085e-10 jsdbr=1.295e-08 jsdsr=1e-20 > + jsdgr=9.999e-16 jsgbr=4.86e-07 jsgsr=2.4e-11 > + jsggr=1.8e-12 vdbr=0.8 vdsr=0.8 > + vdgr=0.8 pb=0.37 ps=0.21 > + pg=0.37 > > .param lr={l+2*0.35e-6+2*0.0e-6+2*2.0e-7+2*0.4e-6} > D1 SUB PLUS DNPPS area={0.5*(w-(-0.17e-6))*lr} peri={w-(-0.17e-6)+lr} > D2 SUB MINUS DNPPS area={0.5*(w-(-0.17e-6))*lr} peri={w-(-0.17e-6)+lr} > .ends RNDIFFM1 > *.endl RNDIFFM1_typ > > *--------------------------------------------------------------- > * Spice Model : RPO1M1 > *--------------------------------------------------------------- > *.subckt RPO1M1 *BIB:HC6XXX_ELDO.RPO1M1_TYP > *{RPO1M1_TYP} > *---------------------------------------------------------------------- > * RESISTOR : RPO1 (Model : M1) typ > *---------------------------------------------------------------------- > .subckt RPO1M1 > + PLUS MINUS SUB param: r=0.0 w=0.8e-6 nc=1 > *---------------------------------------------------------------------- > .param rt_typ={5.5/nc+(5.577e-05)/(w-(0.02e-6))} > .param l={0.0e-6+(r-2*rt_typ)*(w-(0.02e-6))/133.0} > *---------------------------------------------------------------------- > .param rt={5.5/nc+5.577e-05/(w-(0.02e-6))} > Rres PLUS MINUS {133.0*(l-(0.0e-6))/(w-(0.02e-6)) + 2*rt } tc=-4.50e-4, > 1.450e-6 > *---------------------------------------------------------------------- > .param lr={l+2*0.35e-6+2*0.0e-6+2*2.0e-7+2*0.4e-6} > C1 PLUS SUB {8.21e-5*0.5*(w-(0.02e-6))*lr+2.26e-11*(w-(0.02e-6)+lr)} > C2 MINUS SUB {8.21e-5*0.5*(w-(0.02e-6))*lr+2.26e-11*(w-(0.02e-6)+lr)} > .ends RPO1M1 > *.endl RPO1M1_typ > > *--------------------------------------------------------------- > * Spice Model : DPPNW > *--------------------------------------------------------------- > *.model DPPNW *BIB:HC6XXX_ELDO.DPPNW_TYP > *{DPPNWJU_TYP} > *---------------------------------------------------------------------- > * DIODE : DPPNW (Model : Juncap) typ > *---------------------------------------------------------------------- > * Simulator: #ELDO 4.5 > *---------------------------------------------------------------------- > * > .model DPPNW d > + level=8 diolev=9 tnom=27 > + vr=0 cjbr=0.001329 cjsr=3.146e-10 > + cjgr=1.864e-10 jsdbr=1.9e-07 jsdsr=4.572e-14 > + jsdgr=1e-20 jsgbr=4.057e-06 jsgsr=2.782e-11 > + jsggr=4.751e-11 vdbr=0.8 vdsr=0.8 > + vdgr=0.8 pb=0.43 ps=0.33 > + pg=0.43 > *.endl DPPNWJU_typ > > *--------------------------------------------------------------- > * Spice Model : EP3 > *--------------------------------------------------------------- > *{EPMM9_TYP} > * > .MODEL EP3 pmos > *---------------------------------------------------------------------- > * Family pmos Model EP mm9 typ > *---------------------------------------------------------------------- > + level=59 > + tox=8.2e-09 tr=27 ler=9.954e-06 > + lvar=0 lap=2.2994e-08 wer=9.8871e-06 > + wvar=0 wot=5.6447e-08 vtor=0.605 > + slvto=2.4157e-08 sl2vto=-8.8158e-15 swvto=-2.4478e-09 > + stvto=-0.00093097 betsq=4.6238e-05 etabet=1.1695 > + the1r=0.21277 slthe1r=6.6646e-08 swthe1=-1.19e-09 > + stthe1r=-0.00045468 stlthe1=-1.8179e-10 the2r=0.33738 > + slthe2r=-3.7174e-08 swthe2=1.9299e-08 stthe2r=-0.0004339 > + stlthe2=7.9686e-11 kor=0.65138 slko=-5.6962e-08 > + swko=2.1928e-08 kr=0.65138 slk=-5.6962e-08 > + swk=2.1928e-08 vsbxr=100 slvsbx=0 > + swvsbx=0 phibr=0.84764 zet1r=1.8722 > + slzet1=-1.6842e-07 etazet=1 mor=0.30905 > + slmo=8.3171e-06 stmo=0.00010119 etamr=1 > + gamoor=0.0001689 slgamoo=1.1391e-15 etagamr=1 > + vsbtr=100 slvsbt=0 gam1r=-0.0015083 > + slgam1=1.4997e-08 swgam1=8.7524e-10 etadsr=0.6 > + vpr=10.86 alpr=0.022451 slalp=8.2822e-09 > + swalp=-1.2618e-08 etaalp=1 the3r=-0.014429 > + stlthe3=-6.7464e-11 swthe3=1.9606e-09 stthe3r=2.4982e-05 > + slthe3r=7.3895e-09 a1r=3.844 sla1=2.9719e-07 > + swa1=-9.356e-09 sta1=0.015722 a2r=29.335 > + sla2=4.8732e-10 swa2=-3.0085e-10 a3r=1.1664 > + sla3=-1.0574e-07 swa3=-3.3629e-09 col=6.1e-11 > + ntr=2.2e-20 nfr=4.182e-12 > * Parameters file : diode.dds,v 1.2 1999/01/06 10:27:17 > * -- JUNCAP Diode Electrical Parameters for S/D regions (Simulator > specific) > + diolev=9 tnom=27 vr=0 > + cjbr=0.001329 cjsr=3.146e-10 cjgr=1.864e-10 > + jsdbr=1.9e-07 jsdsr=4.572e-14 jsdgr=1e-20 > + jsgbr=4.057e-06 jsgsr=2.782e-11 jsggr=4.751e-11 > + vdbr=0.8 vdsr=0.8 vdgr=0.8 > + pb=0.43 ps=0.33 pg=0.43 > + dcaplev=0 rlev=1 alev=3 > > *(1)+rsh=2.4 rs=70 rd=70 > + ldif=0 hdif=4.875e-07 > *.ENDL > > *--------------------------------------------------------------- > * Spice Model : EN3 > *--------------------------------------------------------------- > *.model EN3 *BIB:HC6XXX_ELDO.EN3_TYP > *{ENMM9_TYP} > .MODEL EN3 nmos > *---------------------------------------------------------------------- > * Family nmos Model EN mm9 typ > *---------------------------------------------------------------------- > + level=59 > + tox=7.6e-09 tr=27 ler=9.9839e-06 > + lvar=0 lap=8.045e-09 wer=9.7552e-06 > + wvar=0 wot=1.224e-07 vtor=0.635 > + slvto=7.0216e-08 sl2vto=-2.4754e-14 swvto=2.3042e-08 > + stvto=-0.00087141 betsq=0.0002259 etabet=1.6336 > + the1r=0.2364 slthe1r=1.3077e-07 swthe1=-8.2823e-08 > + stthe1r=-6.6798e-06 stlthe1=-5.1702e-10 the2r=0.15491 > + slthe2r=-2.1137e-08 swthe2=9.6765e-08 stthe2r=0.0003788 > + stlthe2=-2.1968e-11 kor=0.536 slko=-7.6164e-08 > + swko=2.7463e-08 kr=0.536 slk=-7.3164e-08 > + swk=2.7463e-08 vsbxr=100 slvsbx=0 > + swvsbx=0 phibr=0.84764 zet1r=2.5785 > + slzet1=-0.00012272 etazet=0.5 mor=0.31129 > + slmo=-1.3606e-06 stmo=-0.00082026 etamr=1 > + gamoor=0.00096059 slgamoo=2.9931e-15 etagamr=1 > + vsbtr=100 slvsbt=0 gam1r=0.00063636 > + slgam1=1.2818e-08 swgam1=-4.7172e-10 etadsr=0.6 > + vpr=17.25 alpr=0.01 slalp=0 > + swalp=0 etaalp=1 the3r=-0.025862 > + stlthe3=-2.8694e-10 swthe3=-2.4e-08 stthe3r=-4.1862e-05 > + slthe3r=1.014e-07 a1r=5.5559 sla1=5.4355e-07 > + swa1=-3.3508e-07 sta1=0.0084971 a2r=20 > + sla2=0 swa2=0 a3r=1.1206 > + sla3=-1.4134e-07 swa3=-1.0882e-08 col=6.1e-11 > + ntr=2.2e-20 nfr=6.085e-12 > * Parameters file : diode.dds,v 1.2 1999/01/06 10:27:17 > * -- JUNCAP Diode Electrical Parameters for S/D regions (Simulator > specific) > + diolev=9 tnom=27 vr=0 > + cjbr=0.000933 cjsr=2.994e-10 cjgr=2.085e-10 > + jsdbr=1.295e-08 jsdsr=1e-20 jsdgr=9.999e-16 > + jsgbr=4.86e-07 jsgsr=2.4e-11 jsggr=1.8e-12 > + vdbr=0.8 vdsr=0.8 vdgr=0.8 > + pb=0.37 ps=0.21 pg=0.37 > + dcaplev=0 rlev=1 alev=3 > > *(1)+rsh=2.7 rs=48 rd=48 > + ldif=0 hdif=4.875e-07 > *.ENDL > > *** > *** ADDING NET (from S2ibis3) > *** > > VOUTS2I OEIN 0 DC 0.0 > > VCLMPS2I VDDE 0 DC 3.0 > VGCLMPS2I GNDE 0 DC 0.0 > > > .TEMP 27.0 > > > .DC VOUTS2I 3.0 6.0 0.04 > .PRINT DC I(VOUTS2I) > > .END > > > -- This message has been scanned for viruses and dangerous content by MailScanner, and is believed to be clean. -------------------------------------------------------------------- |For help or to subscribe/unsubscribe, e-mail majordomo@eda-stds.org |with the appropriate command message(s) in the body: | | help | subscribe ibis <optional e-mail address, if different> | subscribe ibis-users <optional e-mail address, if different> | unsubscribe ibis <optional e-mail address, if different> | unsubscribe ibis-users <optional e-mail address, if different> | |or e-mail a request to ibis-request@eda-stds.org. | |IBIS reflector archives exist under: | | http://www.eda-stds.org/pub/ibis/email_archive/ Recent | http://www.eda-stds.org/pub/ibis/users_archive/ Recent | http://www.eda-stds.org/pub/ibis/email/ E-mail since 1993Received on Sun Nov 18 21:23:59 2007
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