//* (C) Copyright Efficient Power Conversion Corporation. All rights reserved. //***************************************************************************** //* Version History: //* 1.00: 07/10/2015 - Initial Model Creation //* 1.01: 07/25/2017 - Updated the Model from the Preliminary Version //* 1.02: 05/28/2019 - Fixed a typo simulator lang=spectre subckt EPC2108Q1 (gatein drainin sourcein) parameters aWg=37 A1=1.1037 k2=2.6 k3=0.15 rpara=0.08208 rpara_s_factor=0.29 + aITc=0.003 arTc=-0.006 k2Tc=0.0005 x0_0=1.3063 x0_1=-0.05 x0_0_TC=-0.0025 x0_1_TC=0 + dgs1=4.3e-07 dgs2=2.6e-13 dgs3=0.8 dgs4=0.23 + ags1=2.5798e-11 ags2=1.4187e-11 ags3=2.0567 ags4=0.18779 + ags5=-1.9577e-14 ags6=-0.25304 ags7=0.081694 + agd1=9.4181e-17 agd2=6.9299e-13 agd3=-0.49478 agd4=27.782 + agd5=4.5953e-12 agd6=-6.2284 agd7=4.9363 + agd8=1.7238e-13 agd9=-148.9 agd10=1.2905 + asd1=7.3307e-12 asd2=1.746e-11 asd3=-0.15576 asd4=21.261 + asd5=1.2638e-11 asd6=-21.015 asd7=3.1237 rg_value=0.6 rd (drainin drain) resistor r=((1-rpara_s_factor)*rpara*(1-arTc*(temp-25))) rs (sourcein source) resistor r=(rpara_s_factor*rpara*(1-arTc*(temp-25))) rg (gatein gate) resistor r=(rg_value) rcsdconv (drain source) resistor r=(1E9/aWg) rcgsconv (gate source) resistor r=(1E9/aWg) rcgdconv (gate drain) resistor r=(1E9/aWg) gswitch drain source bsource i=( (v(drain,source)>0) ? + (A1*(1-aITc*(temp-25))*log(1.0+exp((v(gate,source)-(k2*(1-k2Tc*(temp-25))))/k3))* + v(drain,source)/(1 + (x0_0*(1-x0_0_TC*(temp-25))+x0_1*(1-x0_1_TC*(temp-25))*v(gate,source))*v(drain,source)) ) : + (-A1*(1-aITc*(temp-25))*log(1.0+exp((v(gate,drain)-(k2*(1-k2Tc*(temp-25))))/k3))* + v(source,drain)/(1 + (x0_0*(1-x0_0_TC*(temp-25))+x0_1*(1-x0_1_TC*(temp-25))*v(gate,drain))*v(source,drain)) ) ) ggsdiode gate source bsource i=( (v(gate,source)>10) ? + (0.125*aWg/1077*(dgs1*(exp((10.0)/dgs3)-1)+dgs2*(exp((10.0)/dgs4)-1))) : + (0.125*aWg/1077*(dgs1*(exp((v(gate,source))/dgs3)-1)+dgs2*(exp((v(gate,source))/dgs4)-1))) ) ggddiode gate drain bsource i=( (v(gate,drain)>10) ? + (0.125*aWg/1077*(dgs1*(exp((10.0)/dgs3)-1)+dgs2*(exp((10.0)/dgs4)-1))) : + (0.125*aWg/1077*(dgs1*(exp((v(gate,drain))/dgs3)-1)+dgs2*(exp((v(gate,drain))/dgs4)-1))) ) C_GS (gate source) bsource c=(ags1) G_CGS1 (gate source) bsource q=(0.5*ags2*ags4*log(1+exp((v(gate,source)-ags3)/ags4))+ + ags5*ags7*log(1+exp((v(source,drain)-ags6)/ags7)) ) C_GD (gate drain) bsource c=(agd1) G_CGD1 (gate drain) bsource q=(0.5*ags2*ags4*log(1+exp((v(gate,drain)-ags3)/ags4))+ + agd2*agd4*log(1+exp((v(gate,drain)-agd3)/agd4))+ + agd5*agd7*log(1+exp((v(gate,drain)-agd6)/agd7))+ + agd8*agd10*log(1+exp((v(gate,drain)-agd9)/agd10)) ) C_SD (source drain) bsource c=(asd1) G_CSD1 (source drain) bsource q=(asd2*asd4*log(1+exp((v(source,drain)-asd3)/asd4))+ + asd5*asd7*log(1+exp((v(source,drain)-asd6)/asd7)) ) ends EPC2108Q1 //***************************************************************************** subckt EPC2108Q2 (gatein drainin sourcein) parameters aWg=37 A1=1.1037 k2=2.6 k3=0.15 rpara=0.08208 rpara_s_factor=0.29 + aITc=0.003 arTc=-0.006 k2Tc=0.0005 x0_0=1.3063 x0_1=-0.05 x0_0_TC=-0.0025 x0_1_TC=0 + dgs1=4.3e-07 dgs2=2.6e-13 dgs3=0.8 dgs4=0.23 + ags1=2.5798e-11 ags2=1.4187e-11 ags3=2.0567 ags4=0.18779 + ags5=-1.9577e-14 ags6=-0.25304 ags7=0.081694 + agd1=9.4181e-17 agd2=6.9299e-13 agd3=-0.49478 agd4=27.782 + agd5=4.5953e-12 agd6=-6.2284 agd7=4.9363 + agd8=1.7238e-13 agd9=-148.9 agd10=1.2905 + asd1=7.3307e-12 asd2=1.746e-11 asd3=-0.15576 asd4=21.261 + asd5=1.2638e-11 asd6=-21.015 asd7=3.1237 asd8=3.9016e-11 + asd9=-0.05866 asd10=3.0116 asd11=1.0087e-11 asd12=-0.035185 + asd13=92.999 rg_value=0.6 rd (drainin drain) resistor r=((1-rpara_s_factor)*rpara*(1-arTc*(temp-25))) rs (sourcein source) resistor r=(rpara_s_factor*rpara*(1-arTc*(temp-25))) rg (gatein gate) resistor r=(rg_value) rcsdconv (drain source) resistor r=(1E9/aWg) rcgsconv (gate source) resistor r=(1E9/aWg) rcgdconv (gate drain) resistor r=(1E9/aWg) gswitch drain source bsource i=( (v(drain,source)>0) ? + (A1*(1-aITc*(temp-25))*log(1.0+exp((v(gate,source)-(k2*(1-k2Tc*(temp-25))))/k3))* + v(drain,source)/(1 + (x0_0*(1-x0_0_TC*(temp-25))+x0_1*(1-x0_1_TC*(temp-25))*v(gate,source))*v(drain,source)) ) : + (-A1*(1-aITc*(temp-25))*log(1.0+exp((v(gate,drain)-(k2*(1-k2Tc*(temp-25))))/k3))* + v(source,drain)/(1 + (x0_0*(1-x0_0_TC*(temp-25))+x0_1*(1-x0_1_TC*(temp-25))*v(gate,drain))*v(source,drain)) ) ) ggsdiode gate source bsource i=( (v(gate,source)>10) ? + (0.125*aWg/1077*(dgs1*(exp((10.0)/dgs3)-1)+dgs2*(exp((10.0)/dgs4)-1))) : + (0.125*aWg/1077*(dgs1*(exp((v(gate,source))/dgs3)-1)+dgs2*(exp((v(gate,source))/dgs4)-1))) ) ggddiode gate drain bsource i=( (v(gate,drain)>10) ? + (0.125*aWg/1077*(dgs1*(exp((10.0)/dgs3)-1)+dgs2*(exp((10.0)/dgs4)-1))) : + (0.125*aWg/1077*(dgs1*(exp((v(gate,drain))/dgs3)-1)+dgs2*(exp((v(gate,drain))/dgs4)-1))) ) C_GS (gate source) bsource c=(ags1) G_CGS1 (gate source) bsource q=(0.5*ags2*ags4*log(1+exp((v(gate,source)-ags3)/ags4))+ + ags5*ags7*log(1+exp((v(source,drain)-ags6)/ags7)) ) C_GD (gate drain) bsource c=(agd1) G_CGD1 (gate drain) bsource q=(0.5*ags2*ags4*log(1+exp((v(gate,drain)-ags3)/ags4))+ + agd2*agd4*log(1+exp((v(gate,drain)-agd3)/agd4))+ + agd5*agd7*log(1+exp((v(gate,drain)-agd6)/agd7))+ + agd8*agd10*log(1+exp((v(gate,drain)-agd9)/agd10)) ) C_SD (source drain) bsource c=(asd1) G_CSD1 (source drain) bsource q=(asd2*asd4*log(1+exp((v(source,drain)-asd3)/asd4))+ + asd5*asd7*log(1+exp((v(source,drain)-asd6)/asd7))+ + asd8*asd10*log(1+exp((v(source,drain)-asd9)/asd10))+ + asd11*asd13*log(1+exp((v(source,drain)-asd12)/asd13)) ) ends EPC2108Q2 //***************************************************************************** subckt EPC2108Q3 (gatein drainin sourcein) parameters aWg=3 A1=0.12 k2=2.6 k3=0.13375 rpara=1.6157 rpara_s_factor=0.21 + aITc=0.00441 arTc=-0.0063 k2Tc=0.0006 x0_0=1.4954 x0_1=0 x0_1_TC=0 + dgs1=4.3e-07 dgs2=2.6e-13 dgs3=0.8 dgs4=0.23 dgs5=2.5e-3 + dgs6=-1.985 dgs7=8e-2 + ags1=6.8435e-12 ags2=1.0152e-12 ags3=2.0494 ags4=0.14922 + ags5=1.946e-14 ags6=-2.1782 ags7=0.026257 + agd1=5.4952e-15 agd2=6.5996e-14 agd3=-0.038873 agd4=0.67311 + agd5=5.3028e-13 agd6=-1.9623 agd7=5.7917 + agd8=4.5932e-14 agd9=-6.0586 agd10=39.324 + asd1=1.0863e-12 asd2=1.6683e-12 asd3=-22.288 asd4=4.8329 + asd5=2.2545e-12 asd6=-0.084303 asd7=36.279 rg_value=4.8 rd (drainin drain) resistor r=((1-rpara_s_factor)*rpara*(1-arTc*(temp-25))) rs (sourcein source) resistor r=(rpara_s_factor*rpara*(1-arTc*(temp-25))) rg (gatein gate) resistor r=(rg_value) rcsdconv (drain source) resistor r=(1E9/aWg) rcgsconv (gate source) resistor r=(1E9/aWg) rcgdconv (gate drain) resistor r=(1E9/aWg) gswitch drain source bsource i=( (v(drain,source)>0) ? + (A1*(1-aITc*(temp-25))*log(1.0+exp((v(gate,source)-(k2*(1-k2Tc*(temp-25))))/k3))* + v(drain,source)/(1 + x0_0*v(drain,source)) ) : + (-A1*(1-aITc*(temp-25))*log(1.0+exp((v(gate,drain)-(k2*(1-k2Tc*(temp-25))))/k3))* + v(source,drain)/(1 + x0_0*v(source,drain)) ) ) ggsdiode gate source bsource i=( (v(gate,source)>0) ? + (0.125*aWg/1077*(dgs1*(exp((v(gate,source))/dgs3)-1)+dgs2*(exp((v(gate,source))/dgs4)-1))) : + (-dgs5*log(1+exp((-v(gate,source)+dgs6)/dgs7)))) ggddiode gate drain bsource i=( (v(gate,drain)>10) ? + (0.125*aWg/1077*(dgs1*(exp((10.0)/dgs3)-1)+dgs2*(exp((10.0)/dgs4)-1))) : + (0.125*aWg/1077*(dgs1*(exp((v(gate,drain))/dgs3)-1)+dgs2*(exp((v(gate,drain))/dgs4)-1))) ) C_GS (gate source) bsource c=(ags1) G_CGS1 (gate source) bsource q=(0.5*ags2*ags4*log(1+exp((v(gate,source)-ags3)/ags4))+ + ags5*ags7*log(1+exp((v(source,drain)-ags6)/ags7)) ) C_GD (gate drain) bsource c=(agd1) G_CGD1 (gate drain) bsource q=(0.5*ags2*ags4*log(1+exp((v(gate,drain)-ags3)/ags4))+ + agd2*agd4*log(1+exp((v(gate,drain)-agd3)/agd4))+ + agd5*agd7*log(1+exp((v(gate,drain)-agd6)/agd7))+ + agd8*agd10*log(1+exp((v(gate,drain)-agd9)/agd10)) ) C_SD (source drain) bsource c=(asd1) G_CSD1 (source drain) bsource q=(asd2*asd4*log(1+exp((v(source,drain)-asd3)/asd4))+ + asd5*asd7*log(1+exp((v(source,drain)-asd6)/asd7)) ) ends EPC2107Q3