* * * * *12AX7 * * Plate * | Grid * | | Cathode * | | | .SUBCKT 12AX7 A G K BGG GG 0 V=V(G,K)+0.59836683 BM1 M1 0 V=(0.0017172334*(URAMP(V(A,K))+1e-10))**-0.2685074 BM2 M2 0 V=(0.84817287*(URAMP(V(GG)+URAMP(V(A,K))/88.413802)+1e-10))**1.7685074 BP P 0 V=0.001130216*(URAMP(V(GG)+URAMP(V(A,K))/104.24031)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00071211506*V(M1)*V(M2) BIG IG 0 V=0.000565108*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.00058141055*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 1.7p CGK G K 1.6p CAK A K 0.5p .ENDS * * * * * * *12AT7 * Plate * | Grid * | | Cathode * | | | .SUBCKT 12AT7 A G K BGG GG 0 V=V(G,K)+0.67585931 BM1 M1 0 V=(0.015420581*(URAMP(V(A,K))+1e-10))**-1.768756 BM2 M2 0 V=(0.45889017*(URAMP(V(GG)+URAMP(V(A,K))/35.090106)+1e-10))**3.268756 BP P 0 V=0.0031809222*(URAMP(V(GG)+URAMP(V(A,K))/76.46733)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.0042575005*V(M1)*V(M2) BIG IG 0 V=0.0015904611*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.0016530623*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 1.5p CGK G K 2.2p CAK A K 0.5p .ENDS * * * * * * *12AU7 * Plate * | Grid * | | Cathode * | | | .SUBCKT 12AU7 A G K BGG GG 0 V=V(G,K)+0.89005722 BM1 M1 0 V=(0.028826571*(URAMP(V(A,K))+1e-10))**-0.90897681 BM2 M2 0 V=(0.622671*(URAMP(V(GG)+URAMP(V(A,K))/13.089625)+1e-10))**2.4089768 BP P 0 V=0.00087237591*(URAMP(V(GG)+URAMP(V(A,K))/21.021735)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00055330711*V(M1)*V(M2) BIG IG 0 V=0.00043618795*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.00049917061*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 1.5p CGK G K 1.6p CAK A K 0.4p .ENDS * * * * * *ECC88 * Plate * | Grid * | | Cathode * | | | .SUBCKT ECC88 A G K BGG GG 0 V=V(G,K)+0.34001426 BM1 M1 0 V=(0.009343174*(URAMP(V(A,K))+1e-10))**-0.49661195 BM2 M2 0 V=(0.75127268*(URAMP(V(GG)+URAMP(V(A,K))/26.621288)+1e-10))**1.9966119 BP P 0 V=0.007130155*(URAMP(V(GG)+URAMP(V(A,K))/35.434921)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.0041180199*V(M1)*V(M2) BIG IG 0 V=0.0035650775*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.0038690245*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 1.4p CGK G K 3.3p CAK A K 1.8p .ENDS * * * * * *6SL7 * Plate * | Grid * | | Cathode * | | | .SUBCKT 6SL7 A G K BGG GG 0 V=V(G,K)+0.34892993 BM1 M1 0 V=(0.00093777395*(URAMP(V(A,K))+1e-10))**-0.098159943 BM2 M2 0 V=(0.9385794*(URAMP(V(GG)+URAMP(V(A,K))/65.496168)+1e-10))**1.5981599 BP P 0 V=0.00080166786*(URAMP(V(GG)+URAMP(V(A,K))/69.782235)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00061341966*V(M1)*V(M2) BIG IG 0 V=0.00040083393*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.00041812772*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 2.8p CGK G K 3.4p CAK A K 3.8p .ENDS * * * * * *6SN7 * Plate * | Grid * | | Cathode * | | | .SUBCKT 6SN7 A G K BGG GG 0 V=V(G,K)+0.54900933 BM1 M1 0 V=(0.020494606*(URAMP(V(A,K))+1e-10))**-0.76277031 BM2 M2 0 V=(0.66290422*(URAMP(V(GG)+URAMP(V(A,K))/16.448024)+1e-10))**2.2627703 BP P 0 V=0.0012465111*(URAMP(V(GG)+URAMP(V(A,K))/24.812067)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00074417047*V(M1)*V(M2) BIG IG 0 V=0.0003834058*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.0006816103*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 4p CGK G K 3p CAK A K 1.2p .ENDS * * * * * *6SJ7 * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6SJ7 A G2 G1 K BGG GG 0 V=V(G1,K)+0.40161932 BM1 M1 0 V=(0.02462593*(URAMP(V(G2,K))+1e-10))**-0.84287662 BM2 M2 0 V=(0.64023858*(URAMP(V(GG)+URAMP(V(G2,K))/14.609049)))**2.3428766 BP P 0 V=0.0011655656*(URAMP(V(GG)+URAMP(V(G2,K))/22.818133))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00071703729*V(M1)*V(M2) BIG IG 0 V=0.00068041382*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.78466568*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.21533432) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+12950)/(URAMP(V(G2,K))+12950) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.00044226898*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.00044226898*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.005p CGK G1 K 3.6p C12 G1 G2 2.4p CAK A K 7p .ENDS * * * * * *6K7 (NEEDS TO BE FIXED!!!) * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6K7 A G2 G1 K BGG GG 0 V=V(G1,K)+-1 BM1 M1 0 V=(2.3738651*(URAMP(V(G2,K))+1e-10))**-38.694622 BM2 M2 0 V=(0.037318425*(URAMP(V(GG)+URAMP(V(G2,K))/0.40553339)))**40.194622 BP P 0 V=0.00060436625*(URAMP(V(GG)+URAMP(V(G2,K))/10.866841))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*2.5180035e+51*V(M1)*V(M2) BIG IG 0 V=0.00030218313*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.7990634*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.199366) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+5600)/(URAMP(V(G2,K))+5600) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.00038749733*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.00038749733*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.005p CGK G1 K 4p C12 G1 G2 3p CAK A K 15p .ENDS * * * * * * *6F6 * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6F6 A G2 G1 K BGG GG 0 V=V(G1,K)+0.99999999 BM1 M1 0 V=(0.043621772*(URAMP(V(G2,K))+1e-10))**-0.51782633 BM2 M2 0 V=(0.74337419*(URAMP(V(GG)+URAMP(V(G2,K))/5.8829755)))**2.0178263 BP P 0 V=0.00053269576*(URAMP(V(GG)+URAMP(V(G2,K))/7.9138819))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00030710831*V(M1)*V(M2) BIG IG 0 V=0.00019764236*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.84588664*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.15411336) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+3830)/(URAMP(V(G2,K))+3830) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.00037552047*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.00037552047*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.7p CGK G1 K 5p C12 G1 G2 3.3p CAK A K 6.9p .ENDS * * * * * *6V6 * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6V6 A G2 G1 K BGG GG 0 V=V(G1,K)+0.99999998 BM1 M1 0 V=(0.048335289*(URAMP(V(G2,K))+1e-10))**-0.77023894 BM2 M2 0 V=(0.6607234*(URAMP(V(GG)+URAMP(V(G2,K))/7.0192317)))**2.2702389 BP P 0 V=0.0010053341*(URAMP(V(GG)+URAMP(V(G2,K))/10.623555))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.00060166202*V(M1)*V(M2) BIG IG 0 V=0.00051429562*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.916000233*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.083999767) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+3125)/(URAMP(V(G2,K))+3125) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.00061491868*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.00061491868*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.7p CGK G1 K 5p C12 G1 G2 3.3p CAK A K 6.9p .ENDS * * * * * *EL34 * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT EL34 A G2 G1 K BGG GG 0 V=V(G1,K)+0.29360503 BM1 M1 0 V=(0.040003405*(URAMP(V(G2,K))+1e-10))**-0.73308055 BM2 M2 0 V=(0.67171782*(URAMP(V(GG)+URAMP(V(G2,K))/8.2063559)))**2.2330806 BP P 0 V=0.0033402929*(URAMP(V(GG)+URAMP(V(G2,K))/12.216969))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.0019762451*V(M1)*V(M2) BIG IG 0 V=0.0016701465*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.87617414*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.12382586) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+1250)/(URAMP(V(G2,K))+1250) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.0020885491*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.0020885491*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 1.1p CGK G1 K 9.1p C12 G1 G2 6.1p CAK A K 8.4p .ENDS * * * * * * *6550A * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6550A A G2 G1 K BGG GG 0 V=V(G1,K)+0.1919366 BM1 M1 0 V=(0.064698506*(URAMP(V(G2,K))+1e-10))**-0.90961742 BM2 M2 0 V=(0.62250546*(URAMP(V(GG)+URAMP(V(G2,K))/5.8346717)))**2.4096174 BP P 0 V=0.0027588474*(URAMP(V(GG)+URAMP(V(G2,K))/9.3728844))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.0017503674*V(M1)*V(M2) BIG IG 0 V=0.0013794237*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.928052868*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.071947132) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+2900)/(URAMP(V(G2,K))+2900) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.0018325138*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.0018325138*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.8p CGK G1 K 8.6p C12 G1 G2 5.7p CAK A K 9.2p .ENDS * * * * * * * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6L6 A G2 G1 K BGG GG 0 V=V(G1,K)+0.91804059 BM1 M1 0 V=(0.10751078*(URAMP(V(G2,K))+1e-10))**-1.743575 BM2 M2 0 V=(0.4624527*(URAMP(V(GG)+URAMP(V(G2,K))/4.9999386)))**3.243575 BP P 0 V=0.0016883841*(URAMP(V(GG)+URAMP(V(G2,K))/10.811784))**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.0021948901*V(M1)*V(M2) BIG IG 0 V=0.0022135943*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.942171668*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.057828332) BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+2180)/(URAMP(V(G2,K))+2180) BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.00056920996*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5)) BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.00056920996*URAMP(V(A,K))**1.5))) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=URAMP(V(IK4,IP)) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.6p CGK G1 K 5.7p C12 G1 G2 3.8p CAK A K 5.9p .ENDS * * * * * Plate * | Grid * | | Cathode * | | | .SUBCKT 6386 A G K BGG GG 0 V=V(G,K)+1 BM1 M1 0 V=(1.0416187*(URAMP(V(A,K))+1e-10))**-30.188951 BM2 M2 0 V=(0.04733511*(URAMP(V(GG)+URAMP(V(A,K))/0.91460038)+1e-10))**31.688951 BP P 0 V=0.0012421239*(URAMP(V(GG)+URAMP(V(A,K))/19.321818)+1e-10)**1.5 BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*2.839322e+36*V(M1)*V(M2) BIG IG 0 V=0.00062106195*URAMP(V(G,K))**1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+0.4) BIAK A K I=URAMP(V(IK,IG)-URAMP(V(IK,IG)-(0.00071872818*URAMP(V(A,K))**1.5)))+1e-10*V(A,K) BIGK G K I=V(IG) * CAPS CGA G A 1.2p CGK G K 2p CAK A K 1.1p .ENDS * * Generic pentode model: 6267 * Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved. * Version 3.10, Generated on Sat Mar 8 22:42:16 2008 * Plate * | Screen Grid * | | Control Grid * | | | Cathode * | | | | .SUBCKT 6267_AN A G2 G1 K BGG GG 0 V=V(G1,K)+0.59868749 BM1 M1 0 V=(0.010782364*(LIMIT(V(G2,K),0,1e16)+1e-10))**-0.70765893 BM2 M2 0 V=(0.67945278*(LIMIT((V(GG)+LIMIT(V(G2,K),0,1e16)/29.728844),0,1e16)))**2.2076589 BP P 0 V=0.0013378994*(LIMIT((V(GG)+LIMIT(V(G2,K),0,1e16)/43.754099),0,1e16))**1.5 BIK IK 0 V=STP(V(GG))*V(P)+(1-STP(V(GG)))*0.00078620809*V(M1)*V(M2) BIG IG 0 V=0.00066894969*LIMIT(V(G1,K),0,1e16)**1.5*(LIMIT(V(G1,K),0,1e16)/(LIMIT(V(A,K),0,1e16)+LIMIT(V(G1,K),0,1e16))*1.2+0.4) BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-LIMIT(V(A,K),0,1e16)/LIMIT(V(G2,K),0,1e16)*15)-EXP(-15))) BIG2T IG2T 0 V=V(IK2)*(0.83966688*(1-LIMIT(V(A,K),0,1e16)/(LIMIT(V(A,K),0,1e16)+10))**1.5+0.16033312) BIK3 IK3 0 V=V(IK2)*(LIMIT(V(A,K),0,1e16)+7510)/(LIMIT(V(G2,K),0,1e16)+7510) BIK4 IK4 0 V=V(IK3)-LIMIT(V(IK3)-(0.00071507731*(LIMIT(V(A,K),0,1e16)+LIMIT(LIMIT(V(G2,K),0,1e16)-LIMIT(V(A,K),0,1e16),0,1e16))**1.5),0,1e16) BIP IP 0 V=LIMIT(V(IK4,IG2T)-LIMIT(V(IK4,IG2T)-(0.00071507731*LIMIT(V(A,K),0,1e16)**1.5),0,1e16),0,1e16) BIAK A K I=V(IP)+1e-10*V(A,K) BIG2 G2 K I=LIMIT(V(IK4,IP),0,1e16) BIGK G1 K I=V(IG) * CAPS CGA G1 A 0.05p CGK G1 K 2.3p C12 G1 G2 1.5p CAK A K 5.3p .ENDS