********** * Littelfuse,WX * TVS Diode SPICE Models * TPSMF4L-E * * Justin Li * Product Engineering * * v1 12/30/2025 * ********** ********** .SUBCKT TPSMF4L5.0A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.005meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0490 N=1.5 IBV=10m BV=6.74 CJO=1200p) .ENDS .SUBCKT TPSMF4L6.0A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.006meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0755 N=1.5 IBV=10m BV=7.02 CJO=1120p) .ENDS .SUBCKT TPSMF4L6.5A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.013meg .MODEL Dtvs D (IS=1.0e-5 RS=0.0902 N=1.5 IBV=10m BV=7.60 CJO=1060p) .ENDS .SUBCKT TPSMF4L7.0A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.035meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1021 N=1.5 IBV=10m BV=8.19 CJO=1000p) .ENDS .SUBCKT TPSMF4L7.5A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.075meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1190 N=1.5 IBV=1m BV=8.77 CJO=940p) .ENDS .SUBCKT TPSMF4L8.0A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.16meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1282 N=1.5 IBV=1m BV=9.36 CJO=860p) .ENDS .SUBCKT TPSMF4L8.5A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.425meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1439 N=1.5 IBV=1m BV=9.92 CJO=800p) .ENDS .SUBCKT TPSMF4L9.0A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 0.9meg .MODEL Dtvs D (IS=1.0e-5 RS=0.1654 N=1.5 IBV=1m BV=10.55 CJO=730p) .ENDS .SUBCKT TPSMF4L10A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 2meg .MODEL Dtvs D (IS=1.0e-5 RS=0.2 N=1.5 IBV=1m BV=11.70 CJO=660p) .ENDS .SUBCKT TPSMF4L11A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 2.2meg .MODEL Dtvs D (IS=1.0e-5 RS=0.2136 N=1.5 IBV=1m BV=12.85 CJO=600p) .ENDS .SUBCKT TPSMF4L12A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 2.4meg .MODEL Dtvs D (IS=1.0e-5 RS=0.2587 N=1.5 IBV=1m BV=14 CJO=570p) .ENDS .SUBCKT TPSMF4L13A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 13meg .MODEL Dtvs D (IS=1.0e-5 RS=0.3011 N=1.5 IBV=1m BV=15.15 CJO=530p) .ENDS .SUBCKT TPSMF4L14A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 14meg .MODEL Dtvs D (IS=1.0e-5 RS=0.3489 N=1.5 IBV=1m BV=16.4 CJO=500p) .ENDS .SUBCKT TPSMF4L15A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 15meg .MODEL Dtvs D (IS=1.0e-5 RS=0.3598 N=1.5 IBV=1m BV=17.6 CJO=470p) .ENDS .SUBCKT TPSMF4L16A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 16meg .MODEL Dtvs D (IS=1.0e-5 RS=0.4091 N=1.5 IBV=1m BV=18.75 CJO=430p) .ENDS .SUBCKT TPSMF4L17A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 17meg .MODEL Dtvs D (IS=1.0e-5 RS=0.4621 N=1.5 IBV=1m BV=19.9 CJO=400p) .ENDS .SUBCKT TPSMF4L18A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 18meg .MODEL Dtvs D (IS=1.0e-5 RS=0.5183 N=1.5 IBV=1m BV=21.05 CJO=375p) .ENDS .SUBCKT TPSMF4L20A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 20meg .MODEL Dtvs D (IS=1.0e-5 RS=0.6423 N=1.5 IBV=1m BV=23.35 CJO=350p) .ENDS .SUBCKT TPSMF4L22A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 22meg .MODEL Dtvs D (IS=1.0e-5 RS=0.7819 N=1.5 IBV=1m BV=25.65 CJO=325p) .ENDS .SUBCKT TPSMF4L24A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 24meg .MODEL Dtvs D (IS=1.0e-5 RS=0.9127 N=1.5 IBV=1m BV=28.1 CJO=300p) .ENDS .SUBCKT TPSMF4L26A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 26meg .MODEL Dtvs D (IS=1.0e-5 RS=1.0738 N=1.5 IBV=1m BV=30.4 CJO=280p) .ENDS .SUBCKT TPSMF4L28A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 28meg .MODEL Dtvs D (IS=1.0e-5 RS=1.0738 N=1.5 IBV=1m BV=32.75 CJO=260p) .ENDS .SUBCKT TPSMF4L30A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 28meg .MODEL Dtvs D (IS=1.0e-5 RS=1.0738 N=1.5 IBV=1m BV=32.75 CJO=240p) .ENDS .SUBCKT TPSMF4L33A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 33meg .MODEL Dtvs D (IS=1.0e-5 RS=1.6936 N=1.5 IBV=1m BV=38.65 CJO=220p) .ENDS .SUBCKT TPSMF4L36A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 36meg .MODEL Dtvs D (IS=1.0e-5 RS=2.0148 N=1.5 IBV=1m BV=42.1 CJO=200p) .ENDS .SUBCKT TPSMF4L40A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 40meg .MODEL Dtvs D (IS=1.0e-5 RS=2.4843 N=1.5 IBV=1m BV=46.75 CJO=192p) .ENDS .SUBCKT TPSMF4L43A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 43meg .MODEL Dtvs D (IS=1.0e-5 RS=2.8626 N=1.5 IBV=1m BV=50.3 CJO=184p) .ENDS .SUBCKT TPSMF4L45A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 45meg .MODEL Dtvs D (IS=1.0e-5 RS=3.1642 N=1.5 IBV=1m BV=52.65 CJO=176p) .ENDS .SUBCKT TPSMF4L48A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 48meg .MODEL Dtvs D (IS=1.0e-5 RS=3.5584 N=1.5 IBV=1m BV=56.1 CJO=168p) .ENDS .SUBCKT TPSMF4L51A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 51meg .MODEL Dtvs D (IS=1.0e-5 RS=4.0212 N=1.5 IBV=1m BV=59.7 CJO=160p) .ENDS .SUBCKT TPSMF4L54A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 54meg .MODEL Dtvs D (IS=1.0e-5 RS=4.5227 N=1.5 IBV=1m BV=63.15 CJO=150p) .ENDS .SUBCKT TPSMF4L58A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 58meg .MODEL Dtvs D (IS=1.0e-5 RS=5.2105 N=1.5 IBV=1m BV=67.8 CJO=140p) .ENDS .SUBCKT TPSMF4L60A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 60meg .MODEL Dtvs D (IS=1.0e-5 RS=5.6355 N=1.5 IBV=1m BV=70.2 CJO=130p) .ENDS .SUBCKT TPSMF4L64A-E 1 2 * TERMINALS: A K Done 1 2 Dtvs Rleak 1 2 64meg .MODEL Dtvs D (IS=1.0e-5 RS=6.2580 N=1.5 IBV=1m BV=74.85 CJO=120p) .ENDS