| * SPICE models for varactors xcnwvc and xcnwvc2 |
| * |
| .subckt xcnwvc c0 c1 b w=5 l=0.5 vm=1 |
| + wc='w*1' lc='l*1' |
| |
| ** Corner Parameters |
| *.param cnwvc_tox=41.6503 |
| *.param cnwvc_cdepmult=1 |
| *.param cnwvc_cintmult=1 |
| *.param cnwvc_vt1=0.3333 |
| *.param cnwvc_vt2=0.2380952 |
| *.param cnwvc_vtr=0.16 |
| *.param cnwvc_dwc=0.0 $ in microns each side |
| *.param cnwvc_dlc=0.0 $ in microns each side |
| *.param cnwvc_dld=0.0 $ in microns each side |
| |
| *Geometry Parameters |
| .param |
| +cnwvc_ldiff=0.15 |
| +wd='wc+2*cnwvc_dwc' |
| +ld='lc+2*cnwvc_dlc' |
| +ldd='0.018+2*cnwvc_dld' |
| +dwr=-0.02 |
| +dwp=-0.5 |
| +dlr=0.02 |
| +wl='(wd-2*dwr)/(ld-2*dlr)' |
| +wlwdiff='((0.5*(ld-2*dlr))+cnwvc_ldiff)/(2*(wd-2*dwr))' |
| |
| *Mismatch Parameters |
| +xcnwvc_cmin_slope_l=1.1e-16 |
| +xcnwvc_cmin_slope_w=1.5e-16 |
| +xcnwvc_cmin_slope_wl=3.5e-16 |
| +xcnwvc_cmax_slope_l=7.0e-16 |
| +xcnwvc_cmax_slope_w=7.0e-16 |
| +xcnwvc_cmax_slope_wl=1.5e-15 |
| |
| ** Capacitance Model Parameters |
| .param cnwvc_slope1=0.21875 |
| .param cnwvc_slope2=0.125 |
| .param |
| +cm0='5.571e-16*cnwvc_cintmult' |
| +cm1='4.775e-16' dev/gauss='xcnwvc_cmin_slope_l/sqrt(2*ld*vm)' |
| +cm2='2.019e-16' dev/gauss='xcnwvc_cmin_slope_w/sqrt(2*wd*vm)' |
| +cm3='6.529e-16*cnwvc_cdepmult' dev/gauss='xcnwvc_cmin_slope_wl*cnwvc_cdepmult/sqrt(2*ld*wd*vm)' |
| +cx0=6.261e-16 |
| +cx1='5.75e-16' dev/gauss='xcnwvc_cmax_slope_l/sqrt(2*ld*vm)' |
| +cx2='1.712e-16' dev/gauss='xcnwvc_cmax_slope_w/sqrt(2*wd*vm)' |
| +cx3='8.854e-14*3.9/cnwvc_tox' dev/gauss='xcnwvc_cmax_slope_wl/sqrt(2*wd*ld*vm)' |
| |
| ******************************* |
| *SOA Model |
| +xcnwvc_vgs_min_1 = '-2.071' |
| +xcnwvc_vgs_max_1 = '-1*-2.071' |
| +xcnwvc_tmax_vgs_1 = '100.001n' |
| +xcnwvc_vgs_min_2 = '-2.161' |
| +xcnwvc_vgs_max_2 = '-1*-2.161' |
| +xcnwvc_tmax_vgs_2 = '20.001n' |
| +xcnwvc_vgs_min = '-2.301' |
| +xcnwvc_vgs_max = '-1*-2.301' |
| ***** xcnwvc VG CHECKS *****NOTE: this device is a subcircuit |
| .SETSOA LABEL="MODEL_OOB_VG_1: xcnwvc Vg for Varactor" E v(c0, c1) =(xcnwvc_vgs_min_1, xcnwvc_vgs_max_1, xcnwvc_tmax_vgs_1 ) |
| .SETSOA LABEL="MODEL_OOB_VG_2: xcnwvc Vg for Varactor" E v(c0, c1) =(xcnwvc_vgs_min_2, xcnwvc_vgs_max_2, xcnwvc_tmax_vgs_2 ) |
| .SETSOA LABEL="MODEL_OOB_VG: xcnwvc Vg for Varactor" E v(c0, c1) =(xcnwvc_vgs_min, xcnwvc_vgs_max ) |
| ******************************* |
| |
| .param |
| +tref=30.0 |
| +cmin='cm0+cm1*ld+cm2*wd+cm3*wd*(ld-ldd)+cx3*wd*ldd' |
| +cmax='cx0+cx1*ld+cx2*wd+cx3*wd*ld' |
| |
| cg c0 p2 q='cmin*vm*(v(c0)-v(p2))+((0.5*(cmax+cmin)-cmin)*(v(c0)-v(p2))+0.5*(cmax-cmin)*(1/1.9)*(cnwvc_slope1*log(cosh((v(c0)-v(p2)-cnwvc_vt1)/cnwvc_slope1))+0.9*cnwvc_slope2*log(cosh((v(c0)-v(p2)-cnwvc_vt2)/cnwvc_slope2))))*vm' |
| |
| *c3 and c4 are the tuning capacitors |
| c3 c0 b c=0.15e-15 |
| c4 c1 b c=0.15e-15 |
| |
| ** Resistance Model Parameters |
| .param con_sp=0.17 |
| .param cnwvc_k=12 $ contacts on both sides |
| .param cnwvc_n1=0.1 $ fitting parameter for r |
| .param cnwvc_n2=0.28 $ fitting parameter for r |
| .param apoly=1.15 |
| .param apolyc=1 |
| .param acon=1 |
| .param anwell=1 |
| .param bnwell=0.6 |
| .param cnwell=2 |
| .param n_pocon='max((lc-0.14)/(2*con_sp),1)' $ numbers of poly contact |
| .param n_con='(wc-2*0.06+con_sp)/(2*con_sp)' $ numbers of contacts |
| .param rg_tc1=3e-3 |
| .param rg_tc2=0.0 |
| .param rg_tcmult='1+(temper-tref)*rg_tc1+(temper-tref)*(temper-tref)*rg_tc2' |
| |
| .param cnwvc_a='apoly*rp1*wl/cnwvc_k+apolyc*rcp1/n_pocon+acon*rcn/n_con+anwell*rnw*wlwdiff' |
| .param cnwvc_b1='bnwell*rnw*wlwdiff' |
| .param cnwvc_c='cnwell*rnw*((0.5*(ld-2*dlr))+cnwvc_ldiff)/(2*(wd-2*dwp))' |
| |
| rg p2 c1 r='(cnwvc_a+cnwvc_b1*(0.5*tanh((v(c0)-v(p2)-cnwvc_vtr)/cnwvc_n1)+0.5)+20*cnwvc_c*(0.5*tanh((v(c0)-v(p2)-cnwvc_vtr)/cnwvc_n1)+0.5)*exp(-abs((v(c0)-v(p2)-cnwvc_vtr)/cnwvc_n2)))/vm*rg_tcmult' |
| |
| |
| .ends xcnwvc |
| *************************************************************************************** |
| .subckt xcnwvc2 c0 c1 b w=5 l=0.5 vm=1 |
| + wc='w*1' lc='l*1' |
| |
| ** Corner Parameters |
| *.param cnwvc2_tox=41.7642 |
| *.param cnwvc2_cdepmult=1 |
| *.param cnwvc2_cintmult=1 |
| *.param cnwvc2_vt1=0.2 |
| *.param cnwvc2_vt2=0.33 |
| *.param cnwvc2_vtr=0.14 |
| *.param cnwvc2_dwc=0.0 $ in microns each side |
| *.param cnwvc2_dlc=0.0 $ in microns each side |
| *.param cnwvc2_dld=0.0 $ in microns each side |
| * |
| *Geometry Parameters |
| .param |
| +cnwvc_ldiff=0.15 |
| +wd='wc+2*cnwvc2_dwc' |
| +ld='lc+2*cnwvc2_dlc' |
| +ldd='0.015+2*cnwvc2_dld' |
| +dwr=0.00 |
| +dwp=0.0 |
| +dlr=0.03 |
| +wl='(wd-2*dwr)/(ld-2*dlr)' |
| +wlwdiff='((0.5*(ld-2*dlr))+cnwvc_ldiff)/(2*(wd-2*dwr))' |
| |
| *Mismatch Parameters |
| +xcnwvc2_cmin_slope_l=2.4e-16 |
| +xcnwvc2_cmin_slope_w=1.0e-16 |
| +xcnwvc2_cmin_slope_wl=4.0e-16 |
| +xcnwvc2_cmax_slope_l=3.0e-16 |
| +xcnwvc2_cmax_slope_w=7.0e-16 |
| +xcnwvc2_cmax_slope_wl=1.0e-15 |
| |
| ** Capacitance Model Parameters |
| .param cnwvc_slope1=0.15 |
| .param cnwvc_slope2=0.35 |
| .param |
| +cm0='5.828e-16*cnwvc2_cintmult' |
| +cm1=4.596e-16 dev/gauss='xcnwvc2_cmin_slope_l/sqrt(2*ld*vm)' |
| +cm2=1.614e-16 dev/gauss='xcnwvc2_cmin_slope_w/sqrt(2*wd*vm)' |
| +cm3='1.541e-15*cnwvc2_cdepmult' dev/gauss='xcnwvc2_cmin_slope_wl*cnwvc2_cdepmult/sqrt(2*ld*wd*vm)' |
| +cx0=6.778e-16 |
| +cx1=6.461e-16 dev/gauss='xcnwvc2_cmax_slope_l/sqrt(2*ld*vm)' |
| +cx2=1.517e-16 dev/gauss='xcnwvc2_cmax_slope_w/sqrt(2*wd*vm)' |
| +cx3='8.854e-14*3.9/cnwvc2_tox' dev/gauss='xcnwvc2_cmax_slope_wl/sqrt(2*ld*wd*vm)' |
| |
| ******************************* |
| *SOA Model |
| +xcnwvc2_vgs_min_1 = '-2.071' |
| +xcnwvc2_vgs_max_1 = '-1*-2.071' |
| +xcnwvc2_tmax_vgs_1 = '100.001n' |
| +xcnwvc2_vgs_min_2 = '-2.161' |
| +xcnwvc2_vgs_max_2 = '-1*-2.161' |
| +xcnwvc2_tmax_vgs_2 = '20.001n' |
| +xcnwvc2_vgs_min = '-2.301' |
| +xcnwvc2_vgs_max = '-1*-2.301' |
| ***** xcnwvc2 VG CHECKS *****NOTE: this device is a subcircuit |
| .SETSOA LABEL="MODEL_OOB_VG_1: xcnwvc2 Vg for Varactor" E v(c0, c1) =(xcnwvc2_vgs_min_1, xcnwvc2_vgs_max_1, xcnwvc2_tmax_vgs_1 ) |
| .SETSOA LABEL="MODEL_OOB_VG_2: xcnwvc2 Vg for Varactor" E v(c0, c1) =(xcnwvc2_vgs_min_2, xcnwvc2_vgs_max_2, xcnwvc2_tmax_vgs_2 ) |
| .SETSOA LABEL="MODEL_OOB_VG: xcnwvc2 Vg for Varactor" E v(c0, c1) =(xcnwvc2_vgs_min, xcnwvc2_vgs_max ) |
| ******************************* |
| |
| .param |
| +tref=30.0 |
| +cmin='cm0+cm1*ld+cm2*wd+cm3*wd*(ld-ldd)+cx3*wd*ldd' |
| +cmax='cx0+cx1*ld+cx2*wd+cx3*wd*ld' |
| +slope_0=1.808e-17 |
| +slope_0_tc1=7.2181e-20 |
| +slope_0_tc2=-1.9745e-21 |
| +cmin_slope_0='slope_0+(temper-tref)*slope_0_tc1+(temper-tref)*(temper-tref)*slope_0_tc2' |
| +slope_w=-3.169e-17 |
| +slope_w_tc1=-1.4465e-19 |
| +slope_w_tc2=3.5187e-21 |
| +cmin_slope_w='slope_w+(temper-tref)*slope_w_tc1+(temper-tref)*(temper-tref)*slope_w_tc2' |
| +slope_l=-7.435e-17 |
| +slope_l_tc1=-4.4474e-19 |
| +slope_l_tc2=7.3824e-21 |
| +cmin_slope_l='slope_l+(temper-tref)*slope_l_tc1+(temper-tref)*(temper-tref)*slope_l_tc2' |
| +slope_wl=2.509e-16 |
| +slope_wl_tc1=-1.0793e-18 |
| +slope_wl_tc2=-2.2625e-20 |
| +cmin_slope_wl='slope_wl+(temper-tref)*slope_wl_tc1+(temper-tref)*(temper-tref)*slope_wl_tc2' |
| +cmin_slope='cmin_slope_0+cmin_slope_w*wd+cmin_slope_l*ld+cmin_slope_wl*wd*ld' |
| |
| cg c0 p2 q='cmin*vm*(v(c0)-v(p2))+0.5*cmin_slope*vm*min((v(c0)-v(p2)+0.8),0)*min((v(c0)-v(p2)+0.8),0)+((0.5*(cmax+cmin)-cmin)*(v(c0)-v(p2))+0.5*(cmax-cmin)*(1/1.9)*(cnwvc_slope1*log(cosh((v(c0)-v(p2)-cnwvc2_vt1)/cnwvc_slope1))+0.9*cnwvc_slope2*log(cosh((v(c0)-v(p2)-cnwvc2_vt2)/cnwvc_slope2))))*vm' |
| |
| *c3 and c4 are the tuning capacitors |
| c3 c0 b c=0.15e-15 |
| c4 c1 b c=0.15e-15 |
| |
| ** Resistance Model Parameters |
| .param con_sp=0.17 |
| .param cnwvc_k=12 $ contacts on both sides |
| .param cnwvc_n1=0.2 $ fitting parameter for r |
| .param cnwvc_n2=0.35 $ fitting parameter for r |
| .param apoly=1.1 |
| .param apolyc=1.1 |
| .param acon=1 |
| .param anwell=1 |
| .param bnwell=0.5 |
| .param cnwell=0.3 |
| .param n_pocon='max((lc-0.14)/(2*con_sp),1)' $ numbers of poly contact |
| .param n_con='(wc-2*0.06+con_sp)/(2*con_sp)' $ numbers of contacts |
| .param rg_tc1=9.611e-4 |
| .param rg_tc2=5.523e-6 |
| .param rg_tcmult='1+(temper-tref)*rg_tc1+(temper-tref)*(temper-tref)*rg_tc2' |
| |
| .param cnwvc_a='apoly*rp1*wl/cnwvc_k+apolyc*rcp1/n_pocon+acon*rcn/n_con+anwell*rnw*wlwdiff' |
| .param cnwvc_b1='bnwell*rnw*cnwvc_ldiff/(2*(wd-2*dwr))' |
| .param cnwvc_c='cnwell*rnw*cnwvc_ldiff/(2*(wd-2*dwp))' |
| |
| rg p2 c1 r='(cnwvc_a+cnwvc_b1*(0.5*tanh((v(c0)-v(p2)-cnwvc2_vtr)/cnwvc_n1)+0.5)+20*cnwvc_c*(0.5*tanh((v(c0)-v(p2)-cnwvc2_vtr)/cnwvc_n1)+0.5)*exp(-abs((v(c0)-v(p2)-cnwvc2_vtr)/cnwvc_n2)))/vm*rg_tcmult' |
| |
| .ends xcnwvc2 |
| *************************************************************************************** |
