*----------------------------------------------------------------------- * Filename: 6N1P.inc V1 25/10/97 * Simulator: PSpice * Device type: Triode * Device model: Svetlana 6N1P * * Author: Duncan Munro * Date: 25/10/97 * Copyright: (C)1997-2000 Duncan Amplification * * Please note that this model is provided "as is" and * no warranty is provided in respect of its suitability * for any application. * * This model is provided for educational and non-profit use. * * Email queries to postmaster@duncanamps.com * * Pins A Anode * G Grid * K Cathode * *----------------------------------------------------------------------- .SUBCKT 6N1P A G K ************************************************************************ * * Anode model * * Models reduction in mu at large negative grid voltages * Models change in Ra with negative grid voltages * Models limit in Ia with high +Vg and low Va * * PARAMETERS * * LIP Conduction limit exponent * LIF Conduction limit factor * RAF Anode resistance factor for neg grid voltages * RAP Anode resistance factor for positive grid voltages * MU0 Mu between grid and anode at Vg=0 * MUR Mu reduction factor for large negative grid voltages * EMC Emission coefficient * GCF Grid current scale factor * ************************************************************************ .PARAM LIP 1 .PARAM LIF 1E-3 .PARAM RAF 9E-3 .PARAM RAP 4E-3 .PARAM MU0 38 .PARAM MUR 19E-3 .PARAM EMC 9.6E-6 .PARAM GCF 213E-6 Elim LI 0 VALUE {PWR(LIMIT{V(A,K),0,1E6},{LIP})*{LIF}} Erpf RP 0 VALUE {1+LIMIT{V(G,K),0,-1E6}*{RAF}+LIMIT{V(G,K),0,1E6}*{RAP}} Egr GR 0 VALUE {LIMIT{V(G,K),0,1E6}+LIMIT{V(G,K)*(1+V(G,K)*{MUR}),0,-1E6}} Eem EM 0 VALUE {LIMIT{V(A,K)*V(RP)+V(GR)*{MU0},0,1E6}} Eep EP 0 VALUE {PWR(V(EM),1.5)*{EMC}} Eel EL 0 VALUE {LIMIT{V(EP),0,V(LI)}} Eld LD 0 VALUE {LIMIT{V(EP)-V(LI),0,1E6}} Ga A K VALUE {V(EL)} ************************************************************************ * * Grid current model * * Models grid current, along with rise in grid current at low Va * ************************************************************************ Egf GF 0 VALUE {PWR(LIMIT{V(G,K),0,1E6},1.5)*{GCF}} Gg G K VALUE {(V(GF)+V(LD))} * * Capacitances * Cgk G K 2.4p Cga A G 3.9p Cak A K 0.7p .ENDS