| **.subckt bandgap_core_test_mc |
| x1 vdd ptat ctat cas GND en ctl_ptat[4] ctl_ptat[3] ctl_ptat[2] ctl_ptat[1] ctl_ptat[0] ctl_ctat[4] |
| + ctl_ctat[3] ctl_ctat[2] ctl_ctat[1] ctl_ctat[0] bandgap_core |
| Vdd vdd GND {vdd} |
| .save v( vref ) |
| viout net1 vref 0 |
| x12 vdd ptat cas net2 bandgap_cascurr_cell m=4 |
| x13 vdd ctat cas net3 bandgap_cascurr_cell m=4 |
| XR3 GND vref GND sky130_fd_pr__res_xhigh_po W=1 L=20 m=1 |
| vptat net2 net1 0 |
| vctat net3 net1 0 |
| Vctl_ptat4 ctl_ptat[4] GND {ctl_ptat4} |
| Vctl_ptat3 ctl_ptat[3] GND {ctl_ptat3} |
| Vctl_ptat2 ctl_ptat[2] GND {ctl_ptat2} |
| Vctl_ptat1 ctl_ptat[1] GND {ctl_ptat1} |
| Vctl_ptat0 ctl_ptat[0] GND {ctl_ptat0} |
| Vctl_ctat4 ctl_ctat[4] GND {ctl_ctat4} |
| Vctl_ctat3 ctl_ctat[3] GND {ctl_ctat3} |
| Vctl_ctat2 ctl_ctat[2] GND {ctl_ctat2} |
| Vctl_ctat1 ctl_ctat[1] GND {ctl_ctat1} |
| Vctl_ctat0 ctl_ctat[0] GND {ctl_ctat0} |
| Ven en GND {en} |
| **** begin user architecture code |
| |
| |
| .temp 27 |
| |
| .lib sky130_fd_pr/models/sky130.lib.spice mc |
| .include sky130_fd_pr/models/sky130_fd_pr__model__pnp.model.spice |
| |
| .param vdd=1.8 |
| |
| .param en=1.8 |
| |
| .param ctl_ctat4=1.8 |
| .param ctl_ctat3=0 |
| .param ctl_ctat2=0 |
| .param ctl_ctat1=0 |
| .param ctl_ctat0=0 |
| |
| .param ctl_ptat4=1.8 |
| .param ctl_ptat3=0 |
| .param ctl_ptat2=0 |
| .param ctl_ptat1=0 |
| .param ctl_ptat0=0 |
| |
| .save all |
| .options savecurrents |
| |
| .dc temp -40 125 1.65 |
| |
| |
| |
| **** end user architecture code |
| **.ends |
| |
| * expanding symbol: ..//bandgap_core.sym # of pins=8 |
| |
| .subckt bandgap_core vdd ptat ctat cas gnd en ctl_ptat[4] ctl_ptat[3] ctl_ptat[2] ctl_ptat[1] |
| + ctl_ptat[0] ctl_ctat[4] ctl_ctat[3] ctl_ctat[2] ctl_ctat[1] ctl_ctat[0] |
| *.iopin vdd |
| *.iopin gnd |
| *.opin ptat |
| *.opin ctat |
| *.opin cas |
| *.ipin en |
| *.ipin ctl_ptat[4],ctl_ptat[3],ctl_ptat[2],ctl_ptat[1],ctl_ptat[0] |
| *.ipin ctl_ctat[4],ctl_ctat[3],ctl_ctat[2],ctl_ctat[1],ctl_ctat[0] |
| x1 vdd ptat net2 net1 net14 gnd bandgap_opamp |
| x2 vdd ctat net4 net1 net13 gnd bandgap_opamp |
| XM8 cas cas vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XM3 net5 net5 gnd gnd sky130_fd_pr__nfet_01v8_lvt W=7 L=8 ad=2.03 pd=14.58 as=2.03 ps=14.58 |
| + nrd=0.041428571428571426 nrs=0.041428571428571426 sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| XM1 cas net5 gnd gnd sky130_fd_pr__nfet_01v8_lvt W=7 L=8 ad=2.03 pd=14.58 as=2.03 ps=14.58 |
| + nrd=0.041428571428571426 nrs=0.041428571428571426 sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| .save v( net2 ) |
| .save v( net1 ) |
| .save v( net4 ) |
| .save v( cas ) |
| v2 net9 net14 0 |
| x5 vdd ptat cas net6 bandgap_cascurr_cell m=8 |
| x6 vdd ptat cas net7 bandgap_cascurr_cell m=8 |
| x7 vdd ctat cas net8 bandgap_cascurr_cell m=8 |
| x10 vdd ptat cas net5 bandgap_cascurr_cell m=4 |
| x11 vdd ctat cas net5 bandgap_cascurr_cell m=4 |
| XQ1 gnd gnd net3 gnd sky130_fd_pr__pnp_05v5_W3p40L3p40 m=8 |
| XQ2 gnd gnd net1 gnd sky130_fd_pr__pnp_05v5_W3p40L3p40 m=1 |
| v3 net6 net2 0 |
| v5 net7 net1 0 |
| v6 net8 net4 0 |
| XR1 net3 net2 gnd sky130_fd_pr__res_xhigh_po W=1 L=4.25 m=1 |
| XR2 gnd net4 gnd sky130_fd_pr__res_xhigh_po W=1 L=38.2 m=1 |
| .save v( net9 ) |
| .save v( ctat ) |
| x8 vdd en bmr_biasv gnd bandgap_bmr |
| XMcurr net9 bmr_biasv vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMcurr1 net13 bmr_biasv vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' |
| + as='W * 0.29' ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMcurr2 vdd ptat vdd vdd sky130_fd_pr__pfet_01v8_lvt W=7 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=16 m=16 |
| XMcurr3 vdd ctat vdd vdd sky130_fd_pr__pfet_01v8_lvt W=7 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=48 m=48 |
| x3 ctl_ptat[4] ctl_ptat[3] ctl_ptat[2] ctl_ptat[1] ctl_ptat[0] net2 net10 gnd bandgap_trim |
| x4 ctl_ptat[4] ctl_ptat[3] ctl_ptat[2] ctl_ptat[1] ctl_ptat[0] net1 net11 gnd bandgap_trim |
| x9 vdd ptat cas net10 bandgap_cascurr_cell m=2 |
| x12 vdd ptat cas net11 bandgap_cascurr_cell m=2 |
| x13 ctl_ctat[4] ctl_ctat[3] ctl_ctat[2] ctl_ctat[1] ctl_ctat[0] net4 net12 gnd bandgap_trim |
| x14 vdd ctat cas net12 bandgap_cascurr_cell m=2 |
| .ends |
| |
| |
| * expanding symbol: bandgap_cascurr_cell/bandgap_cascurr_cell.sym # of pins=4 |
| |
| .subckt bandgap_cascurr_cell vdd curr cas out |
| *.iopin vdd |
| *.ipin curr |
| *.ipin cas |
| *.opin out |
| XMcurr net1 curr vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMcas out cas net1 vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=0.5 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| .ends |
| |
| |
| * expanding symbol: bandgap_opamp/bandgap_opamp.sym # of pins=6 |
| |
| .subckt bandgap_opamp vdd out inp inn bias gnd |
| *.ipin inp |
| *.ipin inn |
| *.ipin bias |
| *.opin out |
| *.iopin vdd |
| *.iopin gnd |
| XMdiffcurr net10 net2 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=8 m=8 |
| XM1 net2 net2 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM3 bias bias gnd gnd sky130_fd_pr__nfet_01v8_lvt W=1 L=4 ad=0.29 pd=2.58 as=0.29 ps=2.58 nrd=0.29 |
| + nrs=0.29 sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| XM4 net2 bias gnd gnd sky130_fd_pr__nfet_01v8_lvt W=1 L=4 ad=0.29 pd=2.58 as=0.29 ps=2.58 nrd=0.29 |
| + nrs=0.29 sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| XM9 net12 net5 gnd gnd sky130_fd_pr__nfet_01v8_lvt W=1 L=4 ad=0.29 pd=2.58 as=0.29 ps=2.58 nrd=0.29 |
| + nrs=0.29 sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XM14 net11 net2 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMdiffcurr1 net1 net9 net10 vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=0.5 ad='W * 0.29' pd='2 * (W + 0.29)' |
| + as='W * 0.29' ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=8 m=8 |
| XM2 net9 bias gnd gnd sky130_fd_pr__nfet_01v8_lvt W=1 L=4 ad=0.29 pd=2.58 as=0.29 ps=2.58 nrd=0.29 |
| + nrs=0.29 sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| XM8 net9 net9 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMdiffcurr4 net5 net9 net11 vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=0.5 ad='W * 0.29' pd='2 * (W + 0.29)' |
| + as='W * 0.29' ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM6 net5 net5 net12 gnd sky130_fd_pr__nfet_01v8_lvt W=5 L=2 ad=1.45 pd=10.58 as=1.45 ps=10.58 |
| + nrd=0.057999999999999996 nrs=0.057999999999999996 sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| .save v( net3 ) |
| XM5 out net5 net4 gnd sky130_fd_pr__nfet_01v8_lvt W=5 L=2 ad=1.45 pd=10.58 as=1.45 ps=10.58 |
| + nrd=0.057999999999999996 nrs=0.057999999999999996 sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM7 net6 net5 net3 gnd sky130_fd_pr__nfet_01v8_lvt W=5 L=2 ad=1.45 pd=10.58 as=1.45 ps=10.58 |
| + nrd=0.057999999999999996 nrs=0.057999999999999996 sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM10 net7 net6 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM11 net8 net6 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMdiffcurr2 out net9 net8 vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=0.5 ad='W * 0.29' pd='2 * (W + 0.29)' |
| + as='W * 0.29' ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMdiffcurr3 net6 net9 net7 vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=0.5 ad='W * 0.29' pd='2 * (W + 0.29)' |
| + as='W * 0.29' ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM12 net4 bias gnd gnd sky130_fd_pr__nfet_01v8_lvt W=1 L=4 ad=0.29 pd=2.58 as=0.29 ps=2.58 nrd=0.29 |
| + nrs=0.29 sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM13 net3 bias gnd gnd sky130_fd_pr__nfet_01v8_lvt W=1 L=4 ad=0.29 pd=2.58 as=0.29 ps=2.58 nrd=0.29 |
| + nrs=0.29 sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMdiffn net4 inn net1 net1 sky130_fd_pr__pfet_01v8_lvt W=7 L=0.35 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMdiffp net3 inp net1 net1 sky130_fd_pr__pfet_01v8_lvt W=7 L=0.35 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| .save v( net5 ) |
| .save v( net1 ) |
| .ends |
| |
| |
| * expanding symbol: bandgap_bmr/bandgap_bmr.sym # of pins=4 |
| |
| .subckt bandgap_bmr vdd en biasv vss |
| *.iopin vdd |
| *.iopin vss |
| *.opin biasv |
| *.ipin en |
| XM2 biasv net1 net2 vss sky130_fd_pr__nfet_01v8 W=5 L=1 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=16 m=16 |
| XR1 vss net2 vss sky130_fd_pr__res_xhigh_po W=1 L=3.2 m=1 |
| XM3 net1 net1 vss vss sky130_fd_pr__nfet_01v8 W=5 L=1 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMcurr biasv biasv vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMcurr1 net1 biasv vdd vdd sky130_fd_pr__pfet_01v8_lvt W=5 L=8 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XM1 biasv net3 net1 vss sky130_fd_pr__nfet_01v8 W=5 L=1 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XM4 net3 net1 vss vss sky130_fd_pr__nfet_01v8 W=5 L=1 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XMcurr2 net3 net3 vdd vdd sky130_fd_pr__pfet_01v8_lvt W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMcurr3 biasv en vdd vdd sky130_fd_pr__pfet_01v8_lvt W=1 L=0.35 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XMcurr4 net3 en vdd vdd sky130_fd_pr__pfet_01v8_lvt W=1 L=0.35 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XC1 biasv net1 sky130_fd_pr__cap_mim_m3_1 W=10 L=10 MF=1 |
| .ends |
| |
| |
| * expanding symbol: bandgap_trim/bandgap_trim.sym # of pins=4 |
| |
| .subckt bandgap_trim ctl[4] ctl[3] ctl[2] ctl[1] ctl[0] out in gnd |
| *.ipin ctl[4],ctl[3],ctl[2],ctl[1],ctl[0] |
| *.ipin gnd |
| *.ipin in |
| *.opin out |
| XM2 net2 in gnd gnd sky130_fd_pr__nfet_01v8 W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=8 m=8 |
| XM4 net3 in gnd gnd sky130_fd_pr__nfet_01v8 W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM5 net4 in gnd gnd sky130_fd_pr__nfet_01v8 W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| XM6 net5 in gnd gnd sky130_fd_pr__nfet_01v8 W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XM7 out ctl[3] net2 gnd sky130_fd_pr__nfet_01v8 W=0.42 L=0.15 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=8 m=8 |
| XM9 out ctl[2] net3 gnd sky130_fd_pr__nfet_01v8 W=0.42 L=0.15 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=4 m=4 |
| XM10 out ctl[1] net4 gnd sky130_fd_pr__nfet_01v8 W=0.42 L=0.15 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=2 m=2 |
| XM11 out ctl[0] net5 gnd sky130_fd_pr__nfet_01v8 W=0.42 L=0.15 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=1 m=1 |
| XM12 net1 in gnd gnd sky130_fd_pr__nfet_01v8 W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=16 m=16 |
| XM13 out ctl[4] net1 gnd sky130_fd_pr__nfet_01v8 W=0.42 L=0.15 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=16 m=16 |
| XM1 in in gnd gnd sky130_fd_pr__nfet_01v8 W=0.42 L=20 ad='W * 0.29' pd='2 * (W + 0.29)' as='W * 0.29' |
| + ps='2 * (W + 0.29)' nrd='0.29 / W' nrs='0.29 / W' sa=0 sb=0 sd=0 nf=1 mult=16 m=16 |
| .ends |
| |
| .GLOBAL GND |
| .end |