*TUBE LIBRARY * This library was developed by Norman Koren. * * For details, refer to the article, "Improved Vacuum-Tube Models * for SPICE simulations," Glass Audio, Vol. 8, No. 5, 1996, * available from Audio Amateur Corporation, 305 Union St., * PO Box 176, Peterborough, NH 03458 USA. Phone 603-924-9464. * * All the usual legal disclaimers apply. The author has made * every effort to provide correct information, but assumes no * liabilities for errors, misuse of the models, * or inevitable changes made by users. * * The author welcomes your comments, stories, and questions * (if they don't require too much effort to answer). For really * BIG stuff, he will consider consulting for a fee. * Please contact Norman Koren by Email at kormar@cts.com. * * Some models are commented out because the evaluation version of * Pspice has a maximum of twenty. * ****************** * * 1. modified pentode model to work with native LTspice Tetrode symbols. * 2. added the two new pentode models * 3. updated the triode model to include the VCT variable (contact potential) * 4. modified to use sub circuits to save space. * 5. Added loads more valves. * 6. JJ valves have their own section * 7. Svetlana valves have their own section * 8. US and european valves are now in sections of similar types * 9. Original Koren models retained with _OLD appended * 10. All new data samples from the data sheets where available. * 11. WW2 Luftwafe valves in there own section * 12. Added various rectifiers and signl diodes. All new * samples where data sheets still exist parts 5V4 data * Charles Rydel. 5y4 data Stefano Perugini. 2012/05/07 * 13. 28 November 2013 * NEW: a Hexode / Heptode model. It is not fantastically accurate but * it is as far as I know the only Hexode / Heptode model out there and * it does work. * Added: * Hexode: EH900S, 5915, EH90, E91H, EH960 models. * 14. 20 April 2014 * Written separate MatLab solver for thermionic diodes. * Added: * Triodes: 30, 31, 814, 6N7, RL12T1, RL12T2, RL12T15, RL12T75, RL2_4T1 * RL2_4T4, LD1, LD2, LD5, RD12Tf * Pentodes: RV12P2000, RV12P2001, RV12P3000, RV12P4000 * Diodes: RG2_4D1, RG2_4D10, RG12D2, RG12D3, RG12D60, RG12D300 * Fixed: Bug in Pentode2 Model * Error in EH90 model * * Suusi Malcolm-Brown May 2008 - 20 April 2014 * * All the newer models are generated via a modified version of Norman Koren's * matlab solver. * * NOTE Just because AKA does not mean that they are exact replacements. In * this case AKA is refering to electrically the same as. As in the Valve * charicteristic is the same. No Guarantees, totally at the user's own risk. * ****************** ******************** * Rectifier Diodes * ******************** ****************** .SUBCKT 5AR4 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA GZ34 * Philips / Mullard Data Book 1970 12-May-2008 X1 1 2 3 DULEREC G=3.961806m .ENDS 5AR4 ****************** .SUBCKT 5U4GB 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * GE Data Sheet 13-May-2008 X1 1 2 3 DULEREC G=0.783455m .ENDS 5U4GB ****************** .SUBCKT 5V3 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * GE Data Sheet 12-May-2008 X1 1 2 3 DULEREC G=1.092358m .ENDS 5V3 ****************** .SUBCKT 5V3A 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * TUNG-SOL Data sheet 14-May-2008 X1 1 2 3 DULEREC G=1.285855m .ENDS 5V3A ****************** .SUBCKT 5V4 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Charles Rydel - ; original data retained as no 5V4 data sheet can be found X1 1 2 3 DULEREC G=1.76m .ENDS 5V4 ****************** .SUBCKT 5V4G 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA GZ31 * TUNG-SOL Data Sheet 12-May-2008 X1 1 2 3 DULEREC G=1.480822m .ENDS 5V4G ****************** .SUBCKT 5V4GA 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * GE Data Sheet 12-May-2008 X1 1 2 3 DULEREC G=1.397165m .ENDS 5V4GA ****************** .SUBCKT 5V4GB 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA GZ32 * La Radotechnique 12-May-2008 X1 1 2 3 DULEREC G=1.659731m .ENDS 5V4GB ****************** .SUBCKT 5Y3GT 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * GE Data Sheet 12-May-2008 X1 1 2 3 DULEREC G=0.352292m .ENDS 5Y3GT ****************** .SUBCKT 5Y4G 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Stefano Perugini X1 1 2 3 DULEREC G=0.27567876m .ENDS 5Y4G ****************** .SUBCKT 5Y4GA 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Stefano Perugini X1 1 2 3 DULEREC G=0.27567876m .ENDS 5Y4GA ****************** .SUBCKT 5Y4GT 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Stefano Perugini X1 1 2 3 DULEREC G=0.27567876m .ENDS 5Y4GT ****************** .SUBCKT 6AL5 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * GE Data Sheet 12-May-2008 X1 1 2 3 DULEREC G=1.961727m .ENDS 6AL5 ****************** .SUBCKT 6V4 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA EZ80 * Philips data book 12-May-2008 X1 1 2 3 DULEREC G=0.730451m .ENDS 6V4 ****************** .SUBCKT 6X4 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA EZ90 * Universal Electronic VadeMecum 14-May-2008 X1 1 2 3 DULEREC G=0.702260m .ENDS 6X4 ****************** .SUBCKT 6X5 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA EZ90 (electrically identical to 6X4 and 12X4 ) * Universal Electronic VadeMecum 14-May-2008 X1 1 2 3 DULEREC G=0.702260m .ENDS 6X5 ****************** .SUBCKT 12X4 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 14-May-2008 X1 1 2 3 DULEREC G=0.702260m .ENDS 12X4 ************************** * Triode Output Pentodes * ************************** ****************** .SUBCKT 6AB8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL80 X1 1 2 3 ECL80T ; same as ECL80T .ENDS 6AB8T ****************** .SUBCKT 6AB8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL80 X1 1 2 3 4 ECL80P ; same as ECL80P .ENDS 6AB8P ****************** .SUBCKT 6BM8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL82 X1 1 2 3 ECL82T ; same as ECL82T .ENDS 6BM8T ****************** .SUBCKT 6BM8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL82 X1 1 2 3 4 ECL82P ; same as ECL82P .ENDS 6BM8P ****************** .SUBCKT 6DX8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL84 X1 1 2 3 ECL84T ; same as ECL84T .ENDS 6DX8T ****************** .SUBCKT 6DX8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL84 X1 1 2 3 4 ECL84P ; same as ECL84P .ENDS 6DX8P ****************** .SUBCKT 6GV8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 ECL85T ; same as ECL85T .ENDS 6GV8T ****************** .SUBCKT 6GV8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 4 ECL85P ; same as ECL85P .ENDS 6GV8P ****************** .SUBCKT 6GW8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL86 X1 1 2 3 ECL86T ; same as ECL86T .ENDS 6GW8T ****************** .SUBCKT 6GW8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL86 X1 1 2 3 4 ECL86P ; same as ECL86P .ENDS 6GW8P ******************************** * Triode small signal Pentodes * ******************************** ****************** .SUBCKT 7199T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * RCA * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=32.71 EX=1.284 KG1=534.8 KP=52.95 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.0p CGP=2.5p CCP=1.0p ; .ENDS 7199T ****************** .SUBCKT 7199P_ 1 2 3 4 ; A G2 G1 C (PENTODE) * RCA * library format: LTSpice 17-Apr-2010 X1 1 2 3 4 PENTODE1 MU=71.79 EX=1.350 KG1=455.5 KG2=329 KP=85.38 KVB=1.0 K4=2.19 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.6p CCP=2.5p ; .ENDS 7199P_ ****************** .SUBCKT 7199P 1 2 3 4 ; A G2 G1 C (PENTODE) * Sylvania * library format: LTSpice 24-Nov-2013 X1 1 2 3 4 PENTODE1 MU=95.39 EX=0.920 KG1=222.5 KG2=119 KP=860 KVB=19.1 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.560p CCP=2.5p ; .ENDS 7199P ****************** .SUBCKT 6AN8T_OLD 1 2 3 ; A G C (Triode) ; TRIODE SECTION * Original Koren Lib X1 1 2 3 TRIODE MU=21.2 EX=1.36 KG1=945 KP=84 KVB=300 RGI=2000 CCG=2.7P CGP=2.2P CCP=1.0P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 6AN8T ****************** .SUBCKT 6AN8P_OLD 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Original Koren Lib X1 1 2 3 4 PENTODE MU=45 EX=1.35 KG1=520 KG2=120 KP=120 KVB=18 CCG=8P CPG1=.8P CCP=3P RGI=2K .ENDS 6AN8P ****************** .SUBCKT 6AN8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Sylvania Data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=25.23 EX=1.350 KG1=772.2 KP=65.20 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.7p CGP=2.2p CCP=0.8p ; .ENDS 6AN8T ****************** .SUBCKT 6AN8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Sylvania Data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 4 PENTODE1 MU=47.04 EX=1.350 KG1=487.2 KG2=4500 KP=113.02 KVB=17.0 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.6p CCP=2.5p ; .ENDS 6AN8P ****************** .SUBCKT 6AX8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent X1 1 2 3 ECF80T ; same as ECF 80 .ENDS 6AX8T ****************** .SUBCKT 6AX8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent X1 1 2 3 4 ECF80P ; same as ECF 80 .ENDS 6AX8P ****************** .SUBCKT 6BL8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent X1 1 2 3 ECF80T ; same as ECF 80 .ENDS 6BL8T ****************** .SUBCKT 6BL8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent X1 1 2 3 4 ECF80P ; same as ECF 80 .ENDS 6BL8P ****************** .SUBCKT 6U8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent X1 1 2 3 ECF82T ; same as ECF 82 .ENDS 6U8T ****************** .SUBCKT 6U8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent X1 1 2 3 4 ECF82P ; same as ECF 82 .ENDS 6U8P ****************** .SUBCKT 6HG8T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent X1 1 2 3 ECF86T ; same as ECF 86 .ENDS 6HG8T ****************** .SUBCKT 6HG8P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent X1 1 2 3 4 ECF86P ; same as ECF 86 .ENDS 6HG8P ************************ * Small Signal Triodes * ************************ ****************** .SUBCKT 30 1 2 3 ; P G C (Triode) * TUNG-SOL Data sheet * library format: LTSpice 20-Apr-2014 X1 1 2 3 TRIODE MU=9.08 EX=1.779 KG1=16126.7 KP=192.81 KVB=300.0 VCT=0.00 RGI=2000 CCG=17.0p CGP=8.2p CCP=6.0p ; .ENDS 30 ****************** .SUBCKT 31 1 2 3 ; P G C (Triode) * RCA Data sheet * library format: LTSpice 20-Apr-2014 X1 1 2 3 TRIODE MU=3.76 EX=1.511 KG1=12765.0 KP=49.02 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.5p CGP=5.7p CCP=2.7p ; .ENDS 31 ****************** .SUBCKT 76 1 2 3 ; P G C (Triode) * TUNG SOL + RCA data sheet * library format: LTSpice 18-Nov-2009 X1 1 2 3 TRIODE MU=14.04 EX=1.269 KG1=2501.1 KP=202.50 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS 76 ****************** .SUBCKT 6N7 1 2 3 ; P G C (Triode) * GE 6N7 * library format: LTSpice 30-Mar-2014 X1 1 2 3 TRIODE MU=35.96 EX=1.248 KG1=1611.4 KP=235.00 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS 6N7 ****************** .SUBCKT 6R4 2 3 ; P G C (Triode) * Mullard data book 1968 AKA EC81 * library format: LTSpice 18-Sep-2011 * Call Equiverlent X1 1 2 3 4 EC81 ; same as EC 81 .ENDS 6R4 ****************** .SUBCKT 5670 1 2 3 ; P G C (Triode) * RCA Data Sheet * library format: LTSpice 02-May-2012 X1 1 2 3 TRIODE MU=32.76 EX=1.619 KG1=1359.4 KP=211.19 KVB=47.0 VCT=0.40 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS 5670 ****************** .SUBCKT 5751 1 2 3 ; P G C (Triode) * GE Data Sheet * library format: LTSpice 18-Nov-2009 X1 1 2 3 TRIODE MU=84.75 EX=1.291 KG1=1137.3 KP=415.40 KVB=1515.2 VCT=0.40 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS 5751 ****************** .SUBCKT 5965 1 2 3 ; P G C (Triode) * Tung Sol Data Sheet AKA 12AV7 * library format: LTSpice 08-Apr-2012 X1 1 2 3 4 12AV7 ; same as 12AV7 .ENDS 5965 ****************** .SUBCKT 6072 1 2 3 ; P G C (Triode) * Tung Sol Data Sheet AKA 12AY7 * library format: LTSpice 08-Apr-2012 X1 1 2 3 4 12AY7 ; same as 12AY7 .ENDS 6072 ****************** .SUBCKT 6922 1 2 3 ; A G C (Triode) AKA E88CC * Mullard X1 1 2 3 TRIODE MU=31.75 EX=1.177 KG1=233.1 KP=288.17 KVB=83.4 VCT=0.00 RGI=2000 CCG=2.3P CGP=2.4P CCP=.9P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 6922 ****************** .SUBCKT 7025 1 2 3 ; P G C (Triode) * Sylvania Technical Manual * library format: LTSpice 02-Jun-2008 X1 1 2 3 TRIODE MU=102.50 EX=1.409 KG1=1598.8 KP=813.82 KVB=44.9 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS 7025 ****************** .SUBCKT 6CG7 1 2 3 ; P G C (Triode) * GE Data Sheet 1963 * library format: LTSpice 02-Jun-2008 X1 1 2 3 TRIODE MU=21.86 EX=1.319 KG1=1248.5 KP=140.12 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.9p CGP=4.7p CCP=2.7p ; .ENDS 6CG7 ****************** .SUBCKT 6DJ8_OLD 1 2 3 ; A G C (Triode) ; * Original Koren Lib X1 1 2 3 TRIODE MU=28 EX=1.3 KG1=330 KP=320 KVB=300 RGI=2000 CCG=2.3P CGP=2.1P CCP=.7P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 6DJ8_OLD ****************** .SUBCKT 6DJ8 1 2 3 ; A G C (Triode) ; * Tom Mitchell X1 1 2 3 TRIODE MU=30.51 EX=1.532 KG1=453.9 KP=233.17 KVB=190.9 VCT=0.50 RGI=2000 CCG=2.3P CGP=2.1P CCP=.7P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 6DJ8 ****************** .SUBCKT 6SL7GT 1 2 3 ; P G C (Triode) * GE * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=75.89 EX=1.233 KG1=1735.2 KP=1725.27 KVB=7.0 VCT=0.50 RGI=2000 CCG=2.9p CGP=4.1p CCP=1.5p ; .ENDS 6SL7GT ****************** .SUBCKT 6SN7 1 2 3 ; P G C (Triode) * Sylvania Technical Manual * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=21.07 EX=1.341 KG1=1446.2 KP=157.81 KVB=179.4 VCT=0.00 RGI=2000 CCG=3.1p CGP=4.7p CCP=1.4p ; .ENDS 6SN7 ****************** .SUBCKT 6SN7GTA 1 2 3 ; P G C (Triode) * Sylvania data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=21.54 EX=1.316 KG1=1261.1 KP=156.78 KVB=296.4 VCT=0.00 RGI=2000 CCG=3.1p CGP=4.7p CCP=1.4p ; .ENDS 6SN7GTA ****************** .SUBCKT 6SN7GTB 1 2 3 ; P G C (Triode) * Sylvania * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=21.54 EX=1.316 KG1=1261.1 KP=156.78 KVB=296.4 VCT=0.00 RGI=2000 CCG=3.1p CGP=4.7p CCP=1.4p ; .ENDS 6SN7GTB ****************** .SUBCKT 12AT7_OLD 1 2 3 ; A G C (Triode) AKA ECC81 * Original Koren Model X1 1 2 3 TRIODE MU=60 EX=1.35 KG1=460 KP=300 KVB=300 VCT=0.00 RGI=2000 CCG=2.3P CGP=2.2P CCP=1.0P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 12AT7_OLD ****************** .SUBCKT 12AT7 1 2 3 ; A G C (Triode) AKA ECC81 * Tom Mitchell X1 1 2 3 TRIODE MU=67.49 EX=1.234 KG1=419.1 KP=213.96 KVB= 300.0 VCT=0.00 RGI=2000 CCG=2.3P CGP=2.2P CCP=1.0P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 12AT7 ****************** .SUBCKT 12AT7WA 1 2 3 ; P G C (Triode) * MAZDA BELVU Data Sheet AKA ECC81 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=72.80 EX=1.167 KG1=341.8 KP=233.21 KVB=267.8 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS 12AT7WA ****************** .SUBCKT 12AU7_OLD 1 2 3 ; A G C (Triode) AKA ECC82 * Original Koren Model X1 1 2 3 TRIODE MU=21.5 EX=1.3 KG1=1180 KP=84 KVB=300 VCT=0.00 RGI=2000 CCG=2.3P CGP=2.2P CCP=1.0P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 12AU7_OLD ****************** .SUBCKT 12AU7 1 2 3 ; P G C (Triode) * Sylvania Technical Manual AKA ECC82 ECC802 5814 6067 6189 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=20.21 EX=1.230 KG1=1108.7 KP=84.96 KVB=551.3 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS 12AU7 ****************** .SUBCKT 12AU7A 1 2 3 ; P G C (Triode) * MAZDA BELVU Data sheet AKA ECC82 ECC802 5814 6067 6189 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=19.41 EX=1.226 KG1=1233.8 KP=104.87 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS 12AU7A ****************** .SUBCKT 12AV7 1 2 3 ; P G C (Triode) * Tung Sol Data Sheet AKA 5965 * library format: LTSpice 08-Apr-2012 X1 1 2 3 TRIODE MU=39.40 EX=1.265 KG1=484.0 KP=142.49 KVB=363.7 VCT=0.40 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS 12AV7 ****************** .SUBCKT 12AX7_OLD 1 2 3 ; A G C (Triode) OLD MODEL AKA ECC83 * Original Koren Model, Use OLD temporarily for article. X1 1 2 3 TRIODE MU=93 EX=1.5 KG1=1360 KP=10000 KVB=0 VCT=0.00 RGI=2000 CCG=2.3P CGP=2.4P CCP=.9P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 12AX7_OLD ****************** .SUBCKT 12AX7 1 2 3 ; A G C (Triode) OLD MODEL AKA ECC83 * Original Koren Model X1 1 2 3 TRIODE MU=100 EX=1.4 KG1=1060 KP=600 KVB=300 VCT=0.00 RGI=2000 CCG=2.3P CGP=2.4P CCP=.9P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 12AX7 ****************** .SUBCKT 12AX7ASYL 1 2 3 ; P G C (Triode) * Sylvania Technical Manual 1955 AKA ECC83 12AX7A 7025 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=105.78 EX=1.474 KG1=1618.2 KP=432.76 KVB=35.6 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS 12AX7ASYL ****************** .SUBCKT 12AX7A 1 2 3 ; P G C (Triode) * RCA data sheet AKA ECC83 7025 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=100.26 EX=1.394 KG1=1651.8 KP=17950.75 KVB=524.4 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS 12AX7A ****************** .SUBCKT 12AY7 1 2 3 ; P G C (Triode) * GE data book June 1955 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=44.16 EX=1.113 KG1=1192.4 KP=409.96 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.0p CGP=2.0p CCP=1.0p ; .ENDS 12AY7 ****************** .SUBCKT 12AZ7 1 2 3 ; P G C (Triode) * RCA data sheet AKA 12AT7 ECC81 ECC801 6060 6201 6679 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=74.08 EX=1.371 KG1=382.0 KP=190.11 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS 12AZ7 ****************** .SUBCKT 12BH7A 1 2 3 ; P G C (Triode) * GE Data sheet * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=24.59 EX=1.343 KG1=594.4 KP=73.01 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.9p CGP=3.2p CCP=1.1p ; .ENDS 12BH7A ************************************* * Small Signal and Vary Mu Pentodes * ************************************* ****************** .SUBCKT 5654 2 3 ; P G C (Triode) * Tung Sol Data Sheet AKA EF95 6AK5 * library format: LTSpice 14-Apr-2012 X1 1 2 3 4 EF95 ; same as EF95 .ENDS 5654 ****************** .SUBCKT 5879 1 2 3 4 ; A G2 G1 C (Pentode) * RCA data sheet * library format: LTSpice 14-Nov-2009 X1 1 2 3 4 PENTODE1 MU=22.01 EX=1.395 KG1=3488.1 KG2=4500 KP=117.73 KVB=15.1 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS 5879 ****************** .SUBCKT 6267 1 2 3 4 ; A G2 G1 C (Pentode) * same as EF86 X1 1 2 3 4 EF86 .ENDS 6267 ****************** .SUBCKT 6AK5 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet AKA 5654, EF95 * library format: LTSpice 17-Apr-2010 X1 1 2 3 4 EF95 ; .ENDS 6AK5 ****************** .SUBCKT 6AU6 1 2 3 4 ; A G2 G1 C (Pentode) * GE data sheet AKA EF94 6AU6A * library format: LTSpice 17-Apr-2010 X1 1 2 3 4 PENTODE1 MU=36.65 EX=1.376 KG1=1129.4 KG2=1059 KP=215.42 KVB=15.0 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS 6AU6 ****************** .SUBCKT 6AU6A 1 2 3 4 ; A G2 G1 C (Pentode) * GE data sheet AKA EF94 6AU6 * library format: LTSpice 17-Apr-2010 X1 1 2 3 4 6AU6 .ENDS 6AU6A ****************** .SUBCKT 6CF8 1 2 3 4 ; A G2 G1 C (Pentode) * same as EF86 X1 1 2 3 4 EF86 .ENDS 6CF8 ****************** .SUBCKT 6BK8 1 2 3 4 ; A G2 G1 C (Pentode) * same as EF86 X1 1 2 3 4 EF86 .ENDS 6BK8 ****************** .SUBCKT 6BY7 1 2 3 4 ; A G2 G1 C (Pentode) * same as EF85 X1 1 2 3 4 EF85 .ENDS 6BY7 ****************** .SUBCKT 6DA6 1 2 3 4 ; A G2 G1 C (Pentode) * same as EF89 X1 1 2 3 4 EF89 .ENDS 6DA6 ***************** * Power Triodes * ***************** ****************** .SUBCKT 300B_OLD 1 2 3 ; A G C (Triode) * Original Koren Lib X1 1 2 3 TRIODE MU=3.95 EX=1.4 KG1=1550 KP=65 KVB=300 VCT=0.00 RGI=1000 CCG=17P CGP=11P CCP=7.5P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 300B ****************** .SUBCKT 300B 1 2 3 ; P G C (Triode) * Western Electric Data sheet 1950 * library format: LTSpice 02-Jun-2008 X1 1 2 3 TRIODE MU=3.92 EX=1.504 KG1=2140.3 KP=64.28 KVB=300.0 VCT=0.00 RGI=1000 CCG=17.0p CGP=11.0p CCP=7.5p ; .ENDS 300B ****************** .SUBCKT 2A3_OLD 1 2 3 ; A G C (Triode) * Original Koren Lib X1 1 2 3 TRIODE MU=4.2 EX=1.4 KG1=1500 KP=60 KVB=300 RGI=2000 CCG=2.3P CGP=2.2P CCP=1.0P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 2A3 ****************** .SUBCKT 2A3 1 2 3 ; P G C (Triode) * TUNG-SOL Data sheet * library format: LTSpice 02-Jun-2008 X1 1 2 3 TRIODE MU=4.05 EX=1.634 KG1=3652.2 KP=58.47 KVB=300.0 VCT=0.00 RGI=1000 CCG=17.0p CGP=8.2p CCP=6.0p ; .ENDS 2A3 ************************************ * Power Pentodes and Beam Tetrodes * ************************************ ****************** .SUBCKT 814 1 2 3 4 ; A G2 G1 C (Pentode) * RCA * library format: LTSpice 20-Apr-2014 X1 1 2 3 4 PENTODE1 MU=9.52 EX=1.350 KG1=2981.5 KG2=9293 KP=421.77 KVB=84.3 VCT=0.00 RGI=1000 CCG=13.5p CPG1=0.150p CCP=13.5p ; .ENDS 814 ****************** .SUBCKT 5881 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Tung-Sol Data Book * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 PENTODE1 MU=8.35 EX=1.484 KG1=2507.1 KG2=4500 KP=53.86 KVB=14.4 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=6.5p ; .ENDS 5881 ****************** .SUBCKT 6550_OLD 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Original Koren Model X1 1 2 3 4 PENTODE MU=7.9 EX=1.35 KG1=890 KG2=4200 KP=60 KVB=24 CCG=14P CPG1=.85P CCP=12P RGI=1K .ENDS 6550_OLD ****************** .SUBCKT 6550 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Tung-Sol Data Book 1963 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 PENTODE1 MU=8.61 EX=1.435 KG1=1066.6 KG2=4500 KP=39.55 KVB=20.5 VCT=0.00 RGI=1000 CCG=15.0p CPG1=0.8p CCP=10.0p ; .ENDS 6550 ****************** .SUBCKT 6550A 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * GE Data sheet 1973 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 PENTODE1 MU=10.81 EX=1.397 KG1=703.2 KG2=4500 KP=27.68 KVB=19.1 VCT=0.00 RGI=1000 CCG=15.0p CPG1=0.8p CCP=10.0p ; .ENDS 6550A ****************** .SUBCKT 6686 1 2 3 4 ; A G2 G1 C (Pentode) AKA E81L, EL861 * Philips data sheet * library format: LTSpice 15-Nov-2009 X1 1 2 3 4 E81L ; CALL E81L .ENDS 6686 ****************** .SUBCKT 6973 1 2 3 4 ; A G2 G1 C (Pentode) * RCA data sheet * library format: LTSpice 14-Nov-2009 X1 1 2 3 4 PENTODE1 MU=13.58 EX=1.350 KG1=1142.2 KG2=4500 KP=27.70 KVB=18.4 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS 6973 ****************** .SUBCKT 7027 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * RCA same as 6L6GC Higher Anode power X1 1 2 3 4 6L6GC .ENDS 7027 ****************** .SUBCKT 7027A 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * RCA same as 6L6GC Higher Anode power X1 1 2 3 4 6L6GC .ENDS 7027A ****************** .SUBCKT 7189 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard Data Sheet AKA 6BQ5 EL84 N709 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 6BQ5 ; call 6BQ5 .ENDS 7189 ****************** .SUBCKT 7581 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Tung-Sol same as 6L6GC Higher Anode power X1 1 2 3 4 6L6GC .ENDS 7581 ****************** .SUBCKT 7581A 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Tung-Sol same as 6L6GC Higher Anode power X1 1 2 3 4 6L6GC .ENDS 7581A ****************** .SUBCKT 7591A 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Tung-Sol same as 6L6GC Higher Anode power X1 1 2 3 4 7868 ; call 7898 .ENDS 7581A ****************** .SUBCKT 7868 1 2 3 4 ; A G2 G1 C (Pentode) * RCA data sheet * library format: LTSpice 24-Nov-2009 X1 1 2 3 4 PENTODE1 MU=25.18 EX=1.350 KG1=401.2 KG2=4500 KP=55.60 KVB=24.9 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS 7868 ****************** .SUBCKT 6BQ5 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard Data Sheet AKA 7189 EL84 N709 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 PENTODE1 MU=21.29 EX=1.240 KG1=401.7 KG2=4500 KP=111.04 KVB=17.9 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=5.1p ; .ENDS 6BQ5 ****************** .SUBCKT 6CA7_OLD 1 2 3 4 ; A G2 G1 C (Pentode) AKA EL34 * Original Original Koren Model X1 1 2 3 4 PENTODE MU=11 EX=1.35 KG1=650 KG2=4200 KP=60 KVB=24 CCG=15P CPG1=1P CCP=8P RGI=1K .ENDS 6CA7_OLD ****************** .SUBCKT 6CA7 1 2 3 4 ; A G2 G1 C (Pentode) AKA EL34 * Mullard X1 1 2 3 4 EL34 ; call the el34 .ENDS 6CA7 ****************** .SUBCKT 6CK5 1 2 3 4 ; A G2 G1 C (Pentode) AKA EL41 BF61 N150 6CK5 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 EL80 ; Call EL80 .ENDS 6CK5 ****************** .SUBCKT 6CL6 1 2 3 4 ; A G2 G1 C (PENTODE) * RCA * library format: LTSpice 12-Oct-2011 X1 1 2 3 4 PENTODE1 MU=20.64 EX=1.351 KG1=469.3 KG2=812 KP=159.49 KVB=67.9 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.560p CCP=2.5p ; .ENDS 6CL6 ****************** .SUBCKT 6EH5 1 2 3 4 ; A G2 G1 C (Pentode) * GE data sheet * library format: LTSpice 14-Nov-2009 X1 1 2 3 4 PENTODE1 MU=16.46 EX=1.350 KG1=415.4 KG2=4500 KP=85.16 KVB=13.4 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS 6EH5 ****************** .SUBCKT 6L6GB 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Sylvania X1 1 2 3 4 PENTODE MU=8.77 EX=1.265 KG1=1210.3 KP=47.50 KG2=4500 KVB=11.6 VCT=0.00 CCG=14P CPG1=.85P CCP=12P RGI=1K .ENDS 6L6GB ****************** .SUBCKT 6L6GC_OLD 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Original Koren Model X1 1 2 3 4 PENTODE MU=8.7 EX=1.35 KG1=1460 KG2=4500 KP=48 KVB=12 CCG=14P CPG1=.85P CCP=12P RGI=1K .ENDS 6L6GC_OLD ****************** .SUBCKT 6L6GC 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * GE Data sheet * library format: LTSpice 02-May-2012 X1 1 2 3 4 PENTODE1 MU=9.96 EX=1.275 KG1=933.0 KG2=3023 KP=37.10 KVB=26.9 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.600p CCP=6.5p ; .ENDS 6L6GC ****************** .SUBCKT 6L6WGT 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * same as 6L6GB X1 1 2 3 4 PENTODE MU=8.77 EX=1.265 KG1=1210.3 KP=47.50 KG2=4500 KVB=11.6 VCT=0.00 CCG=14P CPG1=.85P CCP=12P RGI=1K .ENDS 6L6WGT ****************** .SUBCKT 6V6 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * GE data sheet * library format: LTSpice 17-Nov-2009 X1 1 2 3 4 6V6-GTA ; call 6V6GTA .ENDS 6V6 ****************** .SUBCKT 6V6-GT 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * GE data sheet * library format: LTSpice 17-Nov-2009 X1 1 2 3 4 6V6-GTA ; call 6V6GTA .ENDS 6V6-GT ****************** .SUBCKT 6V6-GTA 1 2 3 4 ; A G2 G1 C (Beam Tetrode) AKA 6V6 6V6-GT EL90 * GE data sheet * library format: LTSpice 17-Nov-2009 X1 1 2 3 4 PENTODE1 MU=10.70 EX=1.310 KG1=1672.0 KG2=4500 KP=41.16 KVB=12.7 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS 6V6-GTA ************************** ** European Valve Types ** ************************** ***************** * Output Triode * ***************** ****************** .SUBCKT 6C33C_OLD 1 2 3 ; A G C (Triode) ; TWO CATHODES FROM BORBELY, GA 5/96. * Original Koren Lib X1 1 2 3 TRIODE MU=3.1 EX=1.4 KG1=163 KP=15 KVB=300 VCT=0.00 RGI=1000 CCG=30.0P CGP=31.0P CCP=10.5P ; ADD .7PF TO ADJACENT PINS; .5 TO OTHERS. .ENDS 6C33C ****************** .SUBCKT 6C33C 1 2 3 ; P G C (Triode) * Soviet (1970) Using both cathodes ie both heaters working * library format: LTSpice 02-Jun-2008 X1 1 2 3 TRIODE MU=3.27 EX=1.397 KG1=150.9 KP=13.94 KVB=300.0 VCT=0.00 RGI=1000 CCG=30.0p CGP=31.0p CCP=10.5p ; .ENDS 6C33C ******************** * Rectifier Diodes * ******************** ****************** .SUBCKT EZ40 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA 6V4 * Philips data book 12-May-2008 X1 1 2 3 DULEREC G=0.730451m .ENDS EZ40 ****************** .SUBCKT EZ80 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Philips data book 06-Apr-2014 X1 1 2 3 DULEREC G=0.728923m .ENDS EZ80 ****************** .SUBCKT EZ81 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Philips Data Sheet 06-Apr-2014 X1 1 2 3 DULEREC G=1.708538m .ENDS EZ81 ****************** .SUBCKT EZ90 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 06-Apr-2014 X1 1 2 3 DULEREC G=0.702260m .ENDS EZ90 ****************** .SUBCKT GZ30 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 12-May-2008 X1 1 2 3 DULEREC G=1.563635m .ENDS GZ30 ****************** .SUBCKT GZ31 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) AKA 5V4G * Universal Electronic VadeMecum 12-May-2008 X1 1 2 3 DULEREC G=1.428012m .ENDS GZ31 ****************** .SUBCKT GZ32 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * La Radotechnique 12-May-2008 X1 1 2 3 DULEREC G=1.659731m .ENDS GZ32 ****************** .SUBCKT GZ33 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 12-May-2008 X1 1 2 3 DULEREC G=3.432322m .ENDS GZ33 ****************** .SUBCKT GZ34 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Philips / Mullard Data Book 1970 12-May-2008 X1 1 2 3 DULEREC G=3.961806m .ENDS GZ34 ****************** .SUBCKT GZ37 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 12-May-2008 X1 1 2 3 DULEREC G=0.7634m .ENDS GZ37 ****************** .SUBCKT GZ40 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 13-May-2008 X1 1 2 3 DULEREC G=0.516249m .ENDS GZ40 ****************** .SUBCKT GZ41 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 14-May-2008 X1 1 2 3 DULEREC G=0.712983m .ENDS GZ41 ***************** * Signal Diodes * ***************** ****************** .SUBCKT EAA91 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Philips 1970 06-Apr-2014 X1 1 2 3 DULEREC G=2.167491m .ENDS EAA91 ****************** .SUBCKT EAA901 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 06-May-2012 X1 1 2 3 DULEREC G=2.167491m .ENDS EAA901 ****************** .SUBCKT EB91 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Universal Electronic VadeMecum 06-May-2012 X1 1 2 3 DULEREC G=2.167491m .ENDS EB91 **************** * Triode Diode * **************** ****************** .SUBCKT EAC91D A C ; A C (Diode Child-Langmuirs Law) * Mullard Data sheet 06-May-2012 X1 A C REC2 G=0.227656m Vb=2.456321 .ENDS EAC91D ****************** .SUBCKT EAC91T 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 * library format: LTSpice 07-May-2012 X1 1 2 3 TRIODE MU=40.15 EX=1.262 KG1=889.6 KP=123.41 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS EAC91T ************************** * Triode Output Pentodes * ************************** ****************** .SUBCKT ECL80P 1 2 3 4 ; A G2 G1 C (Pentode) * Philips Data book 1951 AKA 6AB8 * library format: LTSpice 05-Feb-2009 X1 1 2 3 4 PENTODE1 MU=39.01 EX=0.925 KG1=228.9 KG2=4500 KP=50.26 KVB=21.2 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL80P ****************** .SUBCKT ECL80T 1 2 3 ; P G C (Triode) * Philips Data book 1951 AKA 6AB8 * library format: LTSpice 05-Feb-2009 X1 1 2 3 TRIODE MU=29.30 EX=1.332 KG1=1443.9 KP=45.50 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL80T ****************** .SUBCKT ECL81P 1 2 3 4 ; A G2 G1 C (Pentode) * universal vademecum (1960) * library format: LTSpice 05-Feb-2009 X1 1 2 3 4 PENTODE1 MU=17.51 EX=1.350 KG1=590.8 KG2=4500 KP=209.03 KVB=32.5 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL81P ****************** .SUBCKT ECL81T 1 2 3 ; P G C (Triode) * universal vademecum (1960) * library format: LTSpice 05-Feb-2009 X1 1 2 3 TRIODE MU=66.31 EX=1.390 KG1=1400.2 KP=369.30 KVB=2.5 VCT=0.50 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL81T ****************** .SUBCKT ECL82P 1 2 3 4 ; A G2 G1 C (Pentode) * Philips Data Book 17-02-1956 AKA 6BM8 * library format: LTSpice 04-Feb-2009 X1 1 2 3 4 PENTODE1 MU=12.19 EX=1.350 KG1=522.0 KG2=4500 KP=38.60 KVB=25.8 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL82P ****************** .SUBCKT ECL82T 1 2 3 ; P G C (Triode) * Philips Data Book 17-02-1956 AKA 6BM8 * library format: LTSpice 04-Feb-2009 X1 1 2 3 TRIODE MU=71.97 EX=1.480 KG1=1481.3 KP=500.37 KVB=0.7 VCT=0.50 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL82T ****************** .SUBCKT ECL83P 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard Data Book 1960 * library format: LTSpice 04-Feb-2009 X1 1 2 3 4 PENTODE1 MU=10.96 EX=1.350 KG1=1249.7 KG2=4500 KP=54.82 KVB=14.5 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL83P ****************** .SUBCKT ECL83T 1 2 3 ; P G C (Triode) * universal vademecum (1960) * library format: LTSpice 04-Feb-2009 X1 1 2 3 TRIODE MU=119.15 EX=1.321 KG1=732.5 KP=305.21 KVB=1.8 VCT=0.50 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL83T ****************** .SUBCKT ECL84P 1 2 3 4 ; A G2 G1 C (Pentode) * Philips Data Book sept 1968 AKA 6DX8 * library format: LTSpice 04-Feb-2009 X1 1 2 3 4 PENTODE1 MU=43.66 EX=1.350 KG1=344.3 KG2=4500 KP=201.06 KVB=26.0 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL84P ****************** .SUBCKT ECL84T 1 2 3 ; P G C (Triode) * Philips Data Book sept 1968 AKA 6DX8 * library format: LTSpice 03-Feb-2009 X1 1 2 3 TRIODE MU=87.85 EX=1.507 KG1=473.2 KP=343.45 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL84T ****************** .SUBCKT ECL85P 1 2 3 4 ; A G2 G1 C (Pentode) * Philips Data Book Jan 1960 AKA 6GV8 * library format: LTSpice 03-Feb-2009 X1 1 2 3 4 PENTODE1 MU=9.35 EX=1.350 KG1=556.4 KG2=4500 KP=35.28 KVB=21.3 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL85P ****************** .SUBCKT ECL85T 1 2 3 ; P G C (Triode) * Philips Data Book Jan 1960 AKA 6GV8 * library format: LTSpice 03-Feb-2009 X1 1 2 3 TRIODE MU=56.54 EX=1.608 KG1=719.6 KP=247.12 KVB=3.0 VCT=0.50 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL85T ****************** .SUBCKT ECL86P 1 2 3 4 ; A G2 G1 C (Pentode) * Philips Data Book Jan 1970 AKA 6GW8 * library format: LTSpice 03-Feb-2009 X1 1 2 3 4 PENTODE1 MU=23.15 EX=1.350 KG1=479.1 KG2=4500 KP=128.94 KVB=36.0 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECL86P ****************** .SUBCKT ECL86T 1 2 3 ; P G C (Triode) * Philips Data Book Jan 1970 AKA 6GW8 * library format: LTSpice 03-Feb-2009 X1 1 2 3 TRIODE MU=102.92 EX=1.425 KG1=1754.6 KP=1098.83 KVB=0.5 VCT=0.50 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECL86T ****************** .SUBCKT ECL802T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 ECL85T ; same as ECL85T .ENDS ECL802T ****************** .SUBCKT ECL802P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 4 ECL85P ; same as ECL85P .ENDS ECL802P ****************** .SUBCKT ECL802T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 ECL85T ; same as ECL85T .ENDS ECL802T ****************** .SUBCKT ECL805P 1 2 3 4 ; A G2 G1 C (Pentode) ; PENTODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 4 ECL85P ; same as ECL85P .ENDS ECL805P ****************** .SUBCKT ECL805T 1 2 3 ; P G C (Triode) ; TRIODE SECTION * Call Equiverlent AKA ECL85 X1 1 2 3 ECL85T ; same as ECL85T .ENDS ECL805T ******************************** * Triode small signal Pentodes * ******************************** ****************** .SUBCKT ECF80P 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet AKA 6BL8 * library format: LTSpice 31-May-2008 X1 1 2 3 4 PENTODE1 MU=46.13 EX=1.350 KG1=688.5 KG2=4500 KP=149.94 KVB=8.0 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.6p CCP=4.1p ; .ENDS ECF80P ****************** .SUBCKT ECF80T 1 2 3 ; P G C (Triode) * Philips data sheet AKA 6AX8 6BL8 P * library format: LTSpice 29-Apr-2012 X1 1 2 3 TRIODE MU=22.63 EX=1.318 KG1=624.8 KP=72.36 KVB=578.3 VCT=0.50 RGI=2000 CCG=3.0p CGP=2.2p CCP=2.3p ; .ENDS ECF80T ****************** .SUBCKT ECF82P 1 2 3 4 ; A G2 G1 C (Pentode) * Universal Vademecum (1960) AKA 6U8 * library format: LTSpice 31-May-2008 X1 1 2 3 4 PENTODE1 MU=37.97 EX=1.350 KG1=849.8 KG2=4500 KP=90.97 KVB=20.1 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.6p CCP=4.1p ; .ENDS ECF82P ****************** .SUBCKT ECF82T 1 2 3 ; P G C (Triode) * WF data sheet AKA 6U8 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=49.87 EX=1.255 KG1=323.2 KP=106.38 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.0p CGP=2.2p CCP=2.3p ; .ENDS ECF82T ****************** .SUBCKT ECF83P 1 2 3 4 ; A G2 G1 C (Pentode) * Universal Vademecum (1960) * library format: LTSpice 31-May-2008 X1 1 2 3 4 PENTODE1 MU=12.24 EX=1.350 KG1=2401.0 KG2=4500 KP=27.36 KVB=23.5 VCT=0.00 RGI=2000 CCG=5.7p CPG1=0.6p CCP=4.1p ; .ENDS ECF83P ****************** .SUBCKT ECF83T 1 2 3 ; P G C (Triode) * Universal Vademecum (1960) * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=11.83 EX=1.052 KG1=521.1 KP=69.30 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.2p CGP=3.5p CCP=3.1p ; .ENDS ECF83T ****************** .SUBCKT ECF86P 1 2 3 4 ; A G2 G1 C (Pentode) * Sylvania Technical Manual AKA 6HG8 * library format: LTSpice 31-May-2008 X1 1 2 3 4 PENTODE1 MU=64.17 EX=1.350 KG1=328.7 KG2=4500 KP=394.31 KVB=26.0 VCT=0.00 RGI=2000 CCG=6.7p CPG1=0.6p CCP=4.1p ; .ENDS ECF86P ****************** .SUBCKT ECF86T 1 2 3 ; P G C (Triode) * Mazda Belvu Data Book AKA 6HG8 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=16.08 EX=1.162 KG1=601.4 KP=79.68 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.2p CGP=2.7p CCP=1.8p ; .ENDS ECF86T ************************ * Small Signal Triodes * ************************ ****************** .SUBCKT EC41 1 2 3 ; P G C (Triode) * Mullard data book 1968 AKA 6R4 * library format: LTSpice 18-Sep-2011 X1 1 2 3 TRIODE MU=16.26 EX=1.295 KG1=868.4 KP=80.50 KVB=1009.9 VCT=0.00 RGI=2000 CCG=1.8p CGP=1.6p CCP=0.7p ; .ENDS EC41 ****************** .SUBCKT EC80 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 * library format: LTSpice 08-May-2012 X1 1 2 3 TRIODE MU=122.22 EX=2.043 KG1=317.3 KP=141.52 KVB=300.0 VCT=0.00 RGI=2000 CCG=5.1p CGP=3.4p CCP=0.1p ; .ENDS EC80 ****************** .SUBCKT EC81 1 2 3 ; P G C (Triode) * Mullard data book 1968 AKA 6R4 * library format: LTSpice 18-Sep-2011 X1 1 2 3 TRIODE MU=16.26 EX=1.295 KG1=868.4 KP=80.50 KVB=1009.9 VCT=0.00 RGI=2000 CCG=1.8p CGP=1.6p CCP=0.7p ; .ENDS EC81 ****************** .SUBCKT E80CC 1 2 3 ; P G C (Triode) * Philips data sheet Dec 1968 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=32.74 EX=1.468 KG1=2447.9 KP=235.61 KVB=2119.4 VCT=0.50 RGI=2000 CCG=3.0p CGP=2.2p CCP=2.3p ; .ENDS E80CC ****************** .SUBCKT ECC81 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 12AT7 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=77.09 EX=1.077 KG1=320.1 KP=231.05 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS ECC81 ****************** .SUBCKT ECC82 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 AKA 12AU7A 12AU7 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=19.98 EX=1.291 KG1=1359.0 KP=87.34 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS ECC82 ****************** .SUBCKT ECC83 1 2 3 ; P G C (Triode) * Mullard data sheet 1970 AKA 12AX7A 7025 * library format: LTSpice 07-May-2012 X1 1 2 3 TRIODE MU=99.95 EX=1.431 KG1=1659.3 KP=688.57 KVB=284.1 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS ECC83 ****************** .SUBCKT ECC84 1 2 3 ; P G C (Triode) * Philips data book 1955 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=27.76 EX=1.309 KG1=492.0 KP=95.80 KVB=379.2 VCT=0.50 RGI=2000 CCG=2.8p CGP=1.9p CCP=1.0p ; .ENDS ECC84 ****************** .SUBCKT ECC85 1 2 3 ; P G C (Triode) * Philips data book 1954 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=69.50 EX=1.481 KG1=551.4 KP=224.40 KVB=2689.3 VCT=0.50 RGI=2000 CCG=2.8p CGP=3.7p CCP=1.0p ; .ENDS ECC85 ****************** .SUBCKT ECC86 1 2 3 ; P G C (Triode) * Philips data book 1959 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=29.91 EX=1.596 KG1=294.6 KP=48.11 KVB=210.6 VCT=0.50 RGI=2000 CCG=3.7p CGP=1.8p CCP=2.3p ; .ENDS ECC86 ****************** .SUBCKT ECC87 1 2 3 ; P G C (Triode) * Same as E80CC * library format: LTSpice 31-May-2008 X1 1 2 3 E80CC .ENDS ECC87 ****************** .SUBCKT ECC88 1 2 3 ; P G C (Triode) * Philips Data sheet March 1957 AKA 6DJ8 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=31.04 EX=1.069 KG1=210.9 KP=369.74 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.7p CGP=2.3p CCP=2.2p ; .ENDS ECC88 ****************** .SUBCKT E88CC 1 2 3 ; P G C (Triode) * Mullard Data sheet December 1968 AKA 6DJ8, ECC88, 6922 * library format: LTSpice 31-May-2008 X1 1 2 3 TRIODE MU=35.56 EX=1.134 KG1=196.7 KP=278.19 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.7p CGP=2.3p CCP=2.2p ; .ENDS E88CC ****************** .SUBCKT ECC801S 1 2 3 ; P G C (Triode) * Telefunken Data Sheet AKA 6201 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=77.15 EX=1.078 KG1=320.0 KP=230.75 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS ECC801S ****************** .SUBCKT ECC802S 1 2 3 ; P G C (Triode) * Telefunken Data sheet AKA 6189 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=24.10 EX=1.254 KG1=1023.1 KP=65.28 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS ECC802S ****************** .SUBCKT ECC803S 1 2 3 ; P G C (Triode) * Telefunken Data sheet AKA 6057 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=98.32 EX=1.456 KG1=1722.8 KP=749.41 KVB=131.2 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=1.1p ; .ENDS ECC803S ****************** .SUBCKT EC90 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 * library format: LTSpice 07-May-2012 X1 1 2 3 TRIODE MU=20.98 EX=1.289 KG1=1292.4 KP=80.59 KVB=300.0 VCT=0.00 RGI=2000 CCG=1.5p CGP=1.4p CCP=1.5p ; .ENDS EC90 ****************** .SUBCKT EC91 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 * library format: LTSpice 07-May-2012 X1 1 2 3 TRIODE MU=103.54 EX=1.170 KG1=215.0 KP=385.80 KVB=300.0 VCT=0.00 RGI=2000 CCG=8.5p CGP=2.5p CCP=0.2p ; .ENDS EC91 ****************** .SUBCKT EC92 1 2 3 ; P G C (Triode) * Mullard data book Jan 1969 * library format: LTSpice 07-May-2012 X1 1 2 3 ECC81 .ENDS EC92 ************************************* * Small Signal and Vary Mu Pentodes * ************************************* ****************** .SUBCKT EF80 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet * library format: LTSpice 18-Apr-2010 X1 1 2 3 4 PENTODE1 MU=54.65 EX=1.105 KG1=271.7 KG2=449 KP=268.91 KVB=58.0 VCT=0.00 RGI=2000 CCG=6.9p CPG1=0.007p CCP=3.1p ; .ENDS EF80 ****************** .SUBCKT EF83 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet * library format: LTSpice 30-May-2008 X1 1 2 3 4 PENTODE1 MU=12.01 EX=1.350 KG1=2830.0 KG2=3895 KP=35.24 KVB=39.1 VCT=0.00 RGI=2000 CCG=4.5p CPG1=0.050p CCP=5.5p ; .ENDS EF83 ****************** .SUBCKT EF85 1 2 3 4 ; A G2 G1 C (Pentode) * La RadioTechique * library format: LTSpice 30-May-2008 X1 1 2 3 4 PENTODE2 MU=22.39 EX=1.350 KG1=974.2 KG2=1570 KP=160.84 KVB=40.9 VCT=0.00 RGI=2000 CCG=4.5p CPG1=0.6p CCP=5.6p ; .ENDS EF85 ****************** .SUBCKT EF86 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet AKA 6CF8 and 6267 Z729 EF806 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 PENTODE1 MU=34.90 EX=1.350 KG1=2648.1 KG2=4627 KP=222.06 KVB=4.7 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS EF86 ****************** .SUBCKT EF89 1 2 3 4 ; A G2 G1 C (Pentode) * La Radiotechnique AKA 6DA6 * library format: LTSpice 30-May-2008 X1 1 2 3 4 PENTODE1 MU=30.52 EX=1.350 KG1=926.7 KG2=4500 KP=39.49 KVB=23.6 VCT=0.00 RGI=2000 CCG=5.5p CPG1=0.0p CCP=5.1p ; .ENDS EF89 ****************** .SUBCKT EF806 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet AKA 6CF8 and 6267 Z729 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 EF86 ; .ENDS EF806 ****************** .SUBCKT Z719 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet AKA EF80 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 EF80 ; .ENDS Z719 ****************** .SUBCKT Z729 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet AKA 6CF8 and 6267 Z729 EF806 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 EF86 ; .ENDS Z729 ****************** .SUBCKT EF91 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard * library format: LTSpice 18-Apr-2010 X1 1 2 3 4 PENTODE1 MU=59.59 EX=1.557 KG1=875.9 KG2=1344 K4=1 KP=556.07 KVB=22.1 VCT=0.00 RGI=2000 CCG=5.5p CPG1=0.0p CCP=5.1p ; .ENDS EF91 ****************** .SUBCKT EF92 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard data sheet AKA 6CQ6 W77 * library format: LTSpice 31-Oct-2010 X1 1 2 3 4 PENTODE1 MU=42.49 EX=1.557 KG1=2981.3 KG2=2455 KP=55.85 KVB=9.0 VCT=0.00 RGI=2000 CCG=5.5p CPG1=0.002p CCP=5.1p ; .ENDS EF92 ****************** .SUBCKT EF94 1 2 3 4 ; A G2 G1 C (Pentode) * GE data sheet AKA 6AU6 6AU6A * library format: LTSpice 17-Apr-2010 X1 1 2 3 4 6AU6 ; .ENDS EF94 ****************** .SUBCKT EF95 1 2 3 4 ; A G2 G1 C (Pentode) * Lorenz Data Sheet AKA 5654 6AK5 * library format: LTSpice 14-Apr-2012 X1 1 2 3 4 PENTODE1 MU=43.98 EX=0.873 KG1=335.2 KG2=539 KP=183.17 KVB=8.8 VCT=0.00 RGI=2000 CCG=4.0p CPG1=0.020p CCP=2.2p ; .ENDS EF95 ****************** .SUBCKT EF96 1 2 3 4 ; A G2 G1 C (Pentode) * Tung Sol Data Sheet 1957 * library format: LTSpice 30-Apr-2013 X1 1 2 3 4 PENTODE1 MU=61.69 EX=0.714 KG1=311.7 KG2=425 KP=280.32 KVB=28.9 VCT=0.00 RGI=2000 CCG=6.6p CPG1=0.020p CCP=3.1p ; .ENDS EF96 ****************** .SUBCKT EF905 1 2 3 4 ; A G2 G1 C (Pentode) * Lorenz Data Sheet AKA 5654 6AK5 * library format: LTSpice 14-Apr-2012 X1 1 2 3 4 PENTODE1 MU=43.98 EX=0.873 KG1=335.2 KG2=539 KP=183.17 KVB=8.8 VCT=0.00 RGI=2000 CCG=4.0p CPG1=0.020p CCP=2.2p ; .ENDS EF905 ************************************ * Power Pentodes and Beam Tetrodes * ************************************ ****************** .SUBCKT E81L 1 2 3 4 ; A G2 G1 C (Pentode) AKA 6686, EL861 * Philips data sheet * library format: LTSpice 15-Nov-2009 X1 1 2 3 4 PENTODE1 MU=41.43 EX=1.154 KG1=314.9 KG2=4500 KP=271.62 KVB=17.1 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS E81L ****************** .SUBCKT EL34_OLD 1 2 3 4 ; A G2 G1 C (Pentode) AKA 6CA7 * Original Koren Model X1 1 2 3 4 PENTODE MU=11 EX=1.35 KG1=650 KG2=4200 KP=60 KVB=24 CCG=15P CPG1=1P CCP=8P RGI=1K .ENDS EL34_OLD ****************** .SUBCKT EL34 1 2 3 4 ; A G2 G1 C (PENTODE) * Mullard Data Book Jan 1969 * library format: LTSpice 20-Apr-2012 X1 1 2 3 4 PENTODE1 MU=14.18 EX=1.175 KG1=282.3 KG2=1147 KP=47.01 KVB=34.6 VCT=0.00 RGI=1000 CCG=15.0p CPG1=1.000p CCP=8.0p ; .ENDS EL34 ****************** .SUBCKT EL41 1 2 3 4 ; A G2 G1 C (Pentode) AKA BF61 N150 6CK5 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 EL80 ; Call EL80 .ENDS EL41 ****************** .SUBCKT EL42 1 2 3 4 ; A G2 G1 C (Pentode) AKA BF62 N151 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 EL85 ; Call EL85 .ENDS EL42 ****************** .SUBCKT EL80 1 2 3 4 ; A G2 G1 C (Pentode) * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 PENTODE1 MU=24.38 EX=1.084 KG1=292.0 KG2=4500 KP=153.56 KVB=26.2 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS EL80 ****************** .SUBCKT EL81 1 2 3 4 ; A G2 G1 C (Pentode) AKA 6CJ6 6DR6 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 PENTODE1 MU=6.38 EX=1.461 KG1=887.2 KG2=4500 KP=305.97 KVB=18.0 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS EL81 ****************** .SUBCKT EL84 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard Data Sheet AKA 7189 6BQ5 N709 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 PENTODE1 MU=21.29 EX=1.240 KG1=401.7 KG2=4500 KP=111.04 KVB=17.9 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=5.1p ; .ENDS EL84 ****************** .SUBCKT EL85 1 2 3 4 ; A G2 G1 C (Pentode) AKA 6BN5 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 PENTODE1 MU=15.00 EX=1.350 KG1=1599.0 KG2=4500 KP=38.28 KVB=18.8 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS EL85 ****************** .SUBCKT EL90 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * GE data sheet * library format: LTSpice 17-Nov-2009 X1 1 2 3 4 6V6-GTA ; call 6V6GTA .ENDS EL90 ****************** .SUBCKT EL861 1 2 3 4 ; A G2 G1 C (Pentode) AKA 6686, EL861 * Philips data sheet * Library format: LTSpice 15-Nov-2009 X1 1 2 3 4 E81L ; CALL E81L .ENDS EL861 ****************** .SUBCKT GU39 1 2 3 4 ; A G2 G1 C (PENTODE) * RCA * library format: LTSpice 19-Oct-2011 X1 1 2 3 4 PENTODE1 MU=7.76 EX=1.049 KG1=132.1 KG2=632 KP=58.34 KVB=578.4 VCT=0.00 RGI=200 CCG=80p CPG1=0.7p CCP=29p ; .ENDS GU39 ****************** .SUBCKT N150 1 2 3 4 ; A G2 G1 C (Pentode) AKA BF61 EL41 6CK5 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 EL80 ; Call EL80 .ENDS N150 ****************** .SUBCKT N151 1 2 3 4 ; A G2 G1 C (Pentode) AKA BF62 EL42 * Philips data sheet * library format: LTSpice 16-Nov-2009 X1 1 2 3 4 EL85 ; Call EL85 .ENDS N51 ****************** .SUBCKT N709 1 2 3 4 ; A G2 G1 C (Pentode) * Mullard Data Sheet AKA 6BQ5 EL84 7189 * library format: LTSpice 02-Jun-2008 X1 1 2 3 4 EL84 ; call EL84 .ENDS N709 ****************** .SUBCKT KT66 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * M-O Valve Co AKA Genalex * library format: LTSpice 21-Sep-2008 X1 1 2 3 4 PENTODE1 MU=11.68 EX=1.197 KG1=510.9 KG2=4500 KP=34.89 KVB=22.3 VCT=0.00 RGI=1000 CCG=16.0p CPG1=2.3p CCP=10.0p ; .ENDS KT66 ****************** .SUBCKT KT77 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * The M-O Valve Co AKA Genalex * library format: LTSpice 19-Sep-2008 X1 1 2 3 4 PENTODE1 MU=12.49 EX=1.487 KG1=1058.5 KG2=4500 KP=56.64 KVB=19.4 VCT=0.00 RGI=1000 CCG=16.5p CPG1=1.0p CCP=9.0p ; .ENDS KT77 ****************** .SUBCKT KT88_OLD 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Original Koren Model X1 1 2 3 4 PENTODE MU=8.8 EX=1.35 KG1=730 KG2=4800 KP=32 KVB=16 VCT=0.00 CCG=14P CPG1=.85P CCP=12P RGI=1K .ENDS KT88_OLD ****************** .SUBCKT KT88 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * The M-O Valve Co AKA Genalex * library format: LTSpice 19-Sep-2008 X1 1 2 3 4 PENTODE1 MU=12.38 EX=1.246 KG1=340.4 KG2=4500 KP=26.48 KVB=36.5 VCT=0.00 RGI=1000 CCG=14.0p CPG1=0.8p CCP=12.0p ; .ENDS KT88 ****************** * JJ Tubes * ****************** ****************** .SUBCKT JJECC81 1 2 3 ; P G C (Triode) * JJ Data Sheet AKA 12AT7 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=77.15 EX=1.078 KG1=320.0 KP=230.75 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS JJECC81 ****************** .SUBCKT JJECC82 1 2 3 ; P G C (Triode) * JJ Data sheet AKA 12AU7 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=24.10 EX=1.254 KG1=1023.1 KP=65.28 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS JJECC82 ****************** .SUBCKT JJECC83S 1 2 3 ; P G C (Triode) * JJ Data sheet AKA 12AX7A 7025 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=98.32 EX=1.456 KG1=1722.8 KP=749.41 KVB=131.2 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=0.9p ; .ENDS JJECC83S ****************** .SUBCKT JJECC802S 1 2 3 ; P G C (Triode) * JJ Data sheet AKA 6189 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=24.10 EX=1.254 KG1=1023.1 KP=65.28 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS JJECC802S ****************** .SUBCKT JJECC803S 1 2 3 ; P G C (Triode) * JJ Data sheet AKA 6057 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=98.32 EX=1.456 KG1=1722.8 KP=749.41 KVB=131.2 VCT=0.50 RGI=2000 CCG=2.3p CGP=2.4p CCP=1.1p ; .ENDS JJECC803S ****************** .SUBCKT JJE88CC 1 2 3 ; P G C (Triode) * JJ Data sheet AKA 6DJ8, ECC88, 6922 * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=35.56 EX=1.134 KG1=196.7 KP=278.19 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.7p CGP=2.3p CCP=2.2p ; .ENDS JJE88CC ****************** .SUBCKT JJECC99 1 2 3 ; P G C (Triode) * JJ Data sheet * library format: LTSpice 07-Nov-2009 X1 1 2 3 TRIODE MU=23.21 EX=1.482 KG1=460.3 KP=178.32 KVB=300.0 VCT=0.00 RGI=2000 CCG=2.3p CGP=2.2p CCP=1.0p ; .ENDS JJECC99 ****************** .SUBCKT JJEF806S 1 2 3 4 ; A G2 G1 C (Pentode) * JJ Data sheet * library format: LTSpice 30-May-2008 X1 1 2 3 4 PENTODE1 MU=35.04 EX=1.350 KG1=2242.2 KG2=4500 KP=221.86 KVB=7.1 VCT=0.00 RGI=2000 CCG=4.3p CPG1=0.6p CCP=5.1p ; .ENDS JJEF806S ****************** .SUBCKT JJ7591S 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data Sheet * library format: LTSpice 29-May-2008 X1 1 2 3 4 PENTODE1 MU=14.21 EX=1.350 KG1=1124.3 KG2=4500 KP=182.66 KVB=48.8 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.3p CCP=5.0p ; .ENDS JJ7591S ****************** .SUBCKT JJEL84 1 2 3 4 ; A G2 G1 C (Pentode) * JJ Data Sheet AKA 6BQ5 * library format: LTSpice 29-May-2008 X1 1 2 3 4 PENTODE1 MU=19.56 EX=1.350 KG1=593.0 KG2=4500 KP=131.34 KVB=17.5 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=5.1p ; .ENDS JJEL84 ****************** .SUBCKT JJEL509 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data sheet - Warning Non standard valve - check data sheet * library format: LTSpice 29-May-2008 X1 1 2 3 4 PENTODE1 MU=8.32 EX=1.350 KG1=130.6 KG2=4500 KP=11.62 KVB=24.4 VCT=0.00 RGI=1000 CCG=10.0p CPG1=3.0p CCP=6.5p ; .ENDS JJEL509 ****************** .SUBCKT JJ2A3 1 2 3 ; P G C (Triode) * JJ Data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=4.30 EX=1.868 KG1=7214.4 KP=23.90 KVB=300.0 VCT=0.00 RGI=1000 CCG=17.0p CGP=11.0p CCP=7.5p ; .ENDS JJ2A3 ****************** .SUBCKT JJ300B 1 2 3 ; P G C (Triode) * JJ Data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=3.92 EX=1.504 KG1=2140.3 KP=64.28 KVB=300.0 VCT=0.00 RGI=1000 CCG=17.0p CGP=11.0p CCP=7.5p ; .ENDS JJ300B ****************** .SUBCKT JJ7027 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data sheet * library format: LTSpice 18-Sep-2008 X1 1 2 3 4 PENTODE1 MU=13.94 EX=1.063 KG1=320.2 KG2=4500 KP=33.20 KVB=29.6 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=6.5p ; .ENDS JJ7027 ****************** .SUBCKT JJ6L6GC 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data sheet * library format: LTSpice 18-Sep-2008 X1 1 2 3 4 PENTODE1 MU=13.94 EX=1.063 KG1=320.2 KG2=4500 KP=33.20 KVB=29.6 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=6.5p ; .ENDS JJ6L6GC ****************** .SUBCKT JJEL34 1 2 3 4 ; A G2 G1 C (PENTODE) * JJ Data Sheet * library format: LTSpice 07-Oct-2008 X1 1 2 3 4 PENTODE1 MU=11.55 EX=1.350 KG1=650.2 KG2=6000 KP=51.85 KVB=25.4 VCT=0.00 RGI=1000 CCG=15.0p CPG1=1.0p CCP=8.0p ; .ENDS JJEL34 ****************** .SUBCKT JJKT66 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data Sheet * library format: LTSpice 07-Oct-2008 X1 1 2 3 4 PENTODE1 MU=10.50 EX=1.314 KG1=866.5 KG2=4500 KP=36.12 KVB=25.3 VCT=0.00 RGI=1000 CCG=16.0p CPG1=2.3p CCP=10.0p ; .ENDS JJKT66 ****************** .SUBCKT JJKT77 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data Sheet * library format: LTSpice 27-May-2008 X1 1 2 3 4 PENTODE1 MU=13.27 EX=1.350 KG1=460.2 KG2=4500 KP=31.98 KVB=55.7 VCT=0.00 RGI=1000 CCG=16.5p CPG1=1.0p CCP=9.0p ; .ENDS JJKT77 ****************** .SUBCKT JJKT88 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * JJ Data Sheet * library format: LTSpice 19-Sep-2008 X1 1 2 3 4 PENTODE1 MU=12.43 EX=1.218 KG1=315.7 KG2=4500 KP=26.72 KVB=36.1 VCT=0.00 RGI=1000 CCG=14.0p CPG1=0.8p CCP=12.0p ; .ENDS JJKT88 ****************** * Svetlana Tubes * ****************** ****************** .SUBCKT SV300B 1 2 3 ; P G C (Triode) * Svetlana's Data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=3.91 EX=1.301 KG1=943.5 KP=229.85 KVB=300.0 VCT=0.00 RGI=1000 CCG=9.0p CGP=15.0p CCP=7.5p ; .ENDS SV300B ****************** .SUBCKT SV6N1P 1 2 3 ; P G C (Triode) * Svetlana's Data sheet * library format: LTSpice 01-Jun-2008 X1 1 2 3 TRIODE MU=36.65 EX=1.537 KG1=1020.2 KP=193.29 KVB=300.0 VCT=-0.50 RGI=2000 CCG=3.7p CGP=2.3p CCP=2.2p ; .ENDS SV6N1P ****************** .SUBCKT SVEL509 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Svetlana's Data sheet AKA 6KG6 * library format: LTSpice 29-May-2008 X1 1 2 3 4 PENTODE1 MU=8.08 EX=1.350 KG1=263.9 KG2=4500 KP=11.68 KVB=42.1 VCT=0.00 RGI=1000 CCG=10.0p CPG1=3.0p CCP=6.5p ; .ENDS SVEL509 ****************** .SUBCKT SV6L6GC 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Svetlana's website * library format: LTSpice 27-May-2008 X1 1 2 3 4 PENTODE1 MU=11.76 EX=1.350 KG1=996.4 KG2=4500 KP=26.88 KVB=22.1 VCT=0.00 RGI=1000 CCG=10.0p CPG1=0.6p CCP=6.5p ; .ENDS SV6L6GC ****************** .SUBCKT SV6550C 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Svetlana's website * library format: LTSpice 27-May-2008 X1 1 2 3 4 PENTODE1 MU=8.33 EX=1.350 KG1=789.8 KG2=4500 KP=44.65 KVB=30.5 VCT=0.00 RGI=1000 CCG=14.0p CPG1=0.8p CCP=12.0p ; .ENDS SV6550C ****************** .SUBCKT SVEL34 1 2 3 4 ; A G2 G1 C (Pentode) * Svetlana's website * library format: LTSpice 07-Oct-2008 X1 1 2 3 4 PENTODE1 MU=11.52 EX=1.350 KG1=608.9 KG2=4500 KP=41.16 KVB=30.1 VCT=0.00 RGI=1000 CCG=15.0p CPG1=1.0p CCP=8.0p ; .ENDS SVEL34 ****************** .SUBCKT SVKT88 1 2 3 4 ; A G2 G1 C (Beam Tetrode) * Svetlana's website * library format: LTSpice 19-Sep-2008 X1 1 2 3 4 PENTODE1 MU=9.98 EX=0.944 KG1=165.6 KG2=4500 KP=38.07 KVB=35.4 VCT=0.00 RGI=1000 CCG=14.0p CPG1=0.8p CCP=12.0p ; .ENDS SVKT88 * * *************************** ** WW2 Luftwafe MODELS ** *************************** * ****************** .SUBCKT LD1 1 2 3 ; P G C (Triode) * Telefunken * library format: LTSpice 04-Apr-2014 X1 1 2 3 TRIODE MU=13.37 EX=1.496 KG1=2049.8 KP=31.01 KVB=647.3 VCT=0.00 RGI=1000 CCG=1.6p CGP=1.1p CCP=0.7p ; .ENDS LD1 ****************** .SUBCKT LD2 1 2 3 ; P G C (Triode) * Telefunken * library format: LTSpice 04-Apr-2014 X1 1 2 3 TRIODE MU=24.48 EX=1.241 KG1=399.1 KP=270.21 KVB=2936.4 VCT=0.00 RGI=1000 CCG=4.0p CGP=1.5p CCP=3.5p ; .ENDS LD2 ****************** .SUBCKT LD5 1 2 3 ; P G C (Triode) * Telefunken * library format: LTSpice 04-Apr-2014 X1 1 2 3 TRIODE MU=23.32 EX=1.125 KG1=192.2 KP=140.54 KVB=5289.3 VCT=0.00 RGI=1000 CCG=3.8p CGP=2.3p CCP=2.2p ; .ENDS LD5 ****************** .SUBCKT RD12Tf 1 2 3 ; P G C (Triode) * Lorenz * library format: LTSpice 29-Dec-2013 X1 1 2 3 TRIODE MU=51.96 EX=1.400 KG1=420.1 KP=7807.13 KVB=15216.0 VCT=0.00 RGI=2000 CCG=7.7p CGP=4.7p CCP=1.6p ; .ENDS RD12Tf ****************** .SUBCKT RG2_4D1 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Telefunken (1943) 07-Apr-2014 X1 1 2 3 DULEREC G=0.134612m .ENDS RG2_4D1 ****************** .SUBCKT RG2_4D10 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Telefunken (1942) 07-Apr-2014 X1 1 2 3 DULEREC G=0.270928m .ENDS RG2_4D10 ****************** .SUBCKT RG12D2 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Telefunken (1941) 06-Apr-2014 X1 1 2 3 DULEREC G=0.326915m .ENDS RG12D2 ****************** .SUBCKT RG12D3 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Telefunken (1944) 06-Apr-2014 X1 1 2 3 DULEREC G=0.546973m .ENDS RG12D3 ****************** .SUBCKT RG12D60 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Telefunken (1940) 06-Apr-2014 X1 1 2 3 DULEREC G=0.529735m .ENDS RG12D60 ****************** .SUBCKT RG12D300 1 2 3 ; A1 A2 C (Diode Child-Langmuirs Law) * Telefunken (1943) 06-Apr-2014 X1 1 2 3 DULEREC G=0.993706m .ENDS RG12D300 ****************** .SUBCKT RL12P10 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 12-Apr-2012 X1 1 2 3 4 PENTODE1 MU=23.22 EX=1.215 KG1=496.2 KG2=1212 KP=2597.55 KVB=35.0 VCT=0.00 RGI=1000 CCG=16.5p CPG1=0.050p CCP=10.4p ; .ENDS RL12P10 ****************** .SUBCKT RL12P35 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 22-Sep-2010 X1 1 2 3 4 PENTODE1 MU=5.54 EX=1.215 KG1=1210.7 KG2=2149 KP=13.52 KVB=20.4 VCT=0.00 RGI=1000 CCG=10.5p CPG1=0.05p CCP=16.5p ; .ENDS RL12P35 ****************** .SUBCKT RL12P50 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 11-Apr-2012 X1 1 2 3 4 PENTODE1 MU=6.12 EX=1.215 KG1=757.1 KG2=3917 KP=25.10 KVB=35.3 VCT=0.00 RGI=1000 CCG=14.5p CPG1=0.080p CCP=9.0p ; .ENDS RL12P50 ****************** .SUBCKT RV2P700 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 13-Apr-2012 X1 1 2 3 4 PENTODE1 MU=21.80 EX=1.051 KG1=3035.0 KG2=3847 KP=91.71 KVB=12.9 VCT=0.00 RGI=2000 CCG=3.1p CPG1=0.010p CCP=3.0p ; .ENDS RV2P700 ****************** .SUBCKT RV2P800 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 13-Apr-2012 X1 1 2 3 4 PENTODE1 MU=19.71 EX=1.051 KG1=2475.7 KG2=3973 KP=56.69 KVB=9.8 VCT=0.00 RGI=2000 CCG=13.8p CPG1=0.010p CCP=5.7p ; .ENDS RV2P800 ****************** .SUBCKT RV2_4P700 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 13-Apr-2012 X1 1 2 3 4 PENTODE1 MU=28.57 EX=1.051 KG1=2521.1 KG2=3124 KP=70.73 KVB=9.1 VCT=0.00 RGI=2000 CCG=3.1p CPG1=0.010p CCP=3.0p ; .ENDS RV2_4P700 ****************** .SUBCKT RV2_4P701 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 14-Apr-2012 X1 1 2 3 4 PENTODE1 MU=11.87 EX=1.898 KG1=31293.9 KG2=26444 KP=21.87 KVB=7.9 VCT=0.00 RGI=2000 CCG=3.1p CPG1=0.010p CCP=3.0p ; .ENDS RV2_4P701 ****************** .SUBCKT RV2_4P1400 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken * library format: LTSpice 14-Apr-2012 X1 1 2 3 4 PENTODE1 MU=35.95 EX=1.350 KG1=1514.0 KG2=4042 KP=168.04 KVB=17.7 VCT=0.00 RGI=2000 CCG=5.0p CPG1=0.030p CCP=6.0p ; .ENDS RV2_4P1400 ****************** .SUBCKT RV12P2000 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 24-Feb-2014 X1 1 2 3 4 PENTODE1 MU=18.59 EX=1.450 KG1=3111.7 KG2=4583 KP=91.92 KVB=11.9 VCT=0.00 RGI=2000 CCG=3.6p CPG1=0.005p CCP=3.4p ; .ENDS RV12P2000 ****************** .SUBCKT RV12P2001 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 24-Feb-2014 X1 1 2 3 4 PENTODE1 MU=25.79 EX=1.051 KG1=1320.1 KG2=1722 KP=47.42 KVB=11.8 VCT=0.00 RGI=2000 CCG=3.6p CPG1=0.005p CCP=3.7p ; .ENDS RV12P2001 ****************** .SUBCKT RV12P3000 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken data sheet * library format: LTSpice 24-Feb-2014 X1 1 2 3 4 PENTODE1 MU=39.40 EX=1.450 KG1=615.8 KG2=1132 KP=312.92 KVB=19.7 VCT=0.00 RGI=2000 CCG=9.5p CPG1=0.045p CCP=8.0p ; .ENDS RV12P3000 ****************** .SUBCKT RV12P4000 1 2 3 4 ; A G2 G1 C (Pentode) * Telefunken * library format: LTSpice 14-Apr-2012 X1 1 2 3 4 PENTODE1 MU=38.46 EX=1.167 KG1=946.7 KG2=1341 KP=98.10 KVB=5.2 VCT=0.00 RGI=2000 CCG=8.7p CPG1=0.003p CCP=9.9p ; .ENDS RV12P4000 ****************** .SUBCKT RL12T1 1 2 3 ; P G C (Triode) * Telefunken 194? * library format: LTSpice 07-Apr-2014 X1 1 2 3 TRIODE MU=16.28 EX=1.288 KG1=924.9 KP=1578.18 KVB=424.4 VCT=0.00 RGI=2000 CCG=1.7p CGP=1.4p CCP=0.5p ; .ENDS RL12T1 ****************** .SUBCKT RL12T2 1 2 3 ; P G C (Triode) * Telefunken 194? * library format: LTSpice 07-Apr-2014 X1 1 2 3 TRIODE MU=11.72 EX=1.193 KG1=1327.0 KP=79.46 KVB=300.0 VCT=0.00 RGI=2000 CCG=3.2p CGP=3.2p CCP=0.8p ; .ENDS RL12T2 ****************** .SUBCKT RL12T15 1 2 3 ; P G C (Triode) * Telefunken 194? * library format: LTSpice 07-Apr-2014 X1 1 2 3 TRIODE MU=15.22 EX=1.338 KG1=1177.1 KP=136.72 KVB=6020.1 VCT=0.00 RGI=1000 CCG=7.0p CGP=5.0p CCP=5.5p ; .ENDS RL12T15 ****************** .SUBCKT RL12T75 1 2 3 ; P G C (Triode) * Telefunken 194? * library format: LTSpice 07-Apr-2014 X1 1 2 3 TRIODE MU=15.58 EX=1.125 KG1=113.7 KP=129.71 KVB=2492.6 VCT=0.00 RGI=1000 CCG=23.0p CGP=17.0p CCP=14.0p ; .ENDS RL12T75 ****************** .SUBCKT RL2_4T1 1 2 3 ; P G C (Triode) * Telefunken 194? * library format: LTSpice 07-Apr-2014 X1 1 2 3 TRIODE MU=13.89 EX=1.516 KG1=3383.7 KP=63.50 KVB=300.0 VCT=0.00 RGI=2000 CCG=1.6p CGP=1.6p CCP=0.8p ; .ENDS RL2_4T1 ****************** .SUBCKT RL2_4T4 1 2 3 ; P G C (Triode) * Telefunken 194? * library format: LTSpice 07-Apr-2014 X1 1 2 3 TRIODE MU=17.25 EX=1.349 KG1=2700.8 KP=527.50 KVB=977.2 VCT=0.00 RGI=2000 CCG=1.6p CGP=1.6p CCP=0.8p ; .ENDS RL2_4T4 * *************************** ** Hexode and Heptodes ** *************************** * ****************** .SUBCKT EH90 1 2 3 4 5 ; Anode Screen Control1 Cathode Control2 (Hexode) * Philips data sheet AKA 6CS6 * library format: LTSpice 28-Nov-2013 X1 1 2 3 4 5 HEXODE MU=22.32 EX=1.350 KG1=2196.7 KG2=787 KP=48.74 KVB=1.9 VCT=0.00 RGI=2000 CCG1=5.2p CCG2=6.8p CPG1=0.07p CPG2=0.35p CCP=8.3p ; .ENDS EH90 ****************** .SUBCKT E91H 1 2 3 4 5 ; Anode Screen Control1 Cathode Control2 (Hexode) * AKA 5915 EH900S EH960 * library format: LTSpice 28-Nov-2013 X1 1 2 3 4 5 EH900S ; .ENDS E91H ****************** .SUBCKT 5915 1 2 3 4 5 ; Anode Screen Control1 Cathode Control2 (Hexode) * AKA E91H EH900 EH960 * library format: LTSpice 28-Nov-2013 X1 1 2 3 4 5 EH900S ; .ENDS 5915 ****************** .SUBCKT EH960 1 2 3 4 5 ; Anode Screen Control1 Cathode Control2 (Hexode) * AKA 5915 E91H EH900S EH960 * library format: LTSpice 28-Nov-2013 X1 1 2 3 4 5 EH900S ; .ENDS EH960 ****************** .SUBCKT EH900S 1 2 3 4 5 ; Anode Screen Control1 Cathode Control2 (Hexode) * TELEFUNKEN data sheet AKA 5915 E91H EH960 * library format: LTSpice 28-Nov-2013 X1 1 2 3 4 5 HEXODE MU=16.34 EX=1.350 KG1=2706.2 KG2=849 KP=84.14 KVB=7.1 VCT=0.00 RGI=2000 CCG1=5.2p CCG2=6.8p CPG1=0.07p CPG2=0.35p CCP=8.3p ; .ENDS EH900S *********************** **MATHAMATICAL MODELS** *********************** ****************** .SUBCKT TRIODE 1 2 3 ; A G C E1 7 0 VALUE={V(1,3)/KP*LOG(1+EXP(KP*(1/MU+(V(2,3)+VCT)/SQRT(KVB+V(1,3)*V(1,3)))))} RE1 7 0 1G G1 1 3 VALUE={(PWR(V(7,0),EX)+PWRS(V(7,0),EX))/KG1} RCP 1 3 1G ; TO AVOID FLOATING NODES IN MU-FOLLOWER C1 2 3 {CCG} ; CATHODE-GRID C2 2 1 {CGP} ; GRID=PLATE C3 1 3 {CCP} ; CATHODE-PLATE D3 5 3 DX ; FOR GRID CURRENT R1 2 5 {RGI} ; FOR GRID CURRENT .MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N) ; .ENDS TRIODE ****************** .SUBCKT PENTODE 1 2 3 4 ; A G2 G1 C RE1 7 0 1MEG ; DUMMY SO NODE 7 HAS 2 CONNECTIONS E1 7 0 VALUE={V(2,4)/KP*LOG(1+EXP((1/MU+V(3,4)/V(2,4))*KP))} ; E1 BREAKS UP LONG EQUATION FOR G1. G1 1 4 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*ATAN(V(1,4)/KVB)} G2 2 4 VALUE={(EXP(EX*(LOG((V(2,4)/MU)+V(3,4)))))/KG2} *G2 2 4 VALUE={PWR((V(2,4)/MU)+V(3,4), EX )/KG2} RCP 1 4 1G ; FOR CONVERGENCE A - C C1 3 4 {CCG} ; CATHODE-GRID 1 C - G1 C2 1 3 {CPG1} ; GRID 1-PLATE G1 - A C3 1 4 {CCP} ; CATHODE-PLATE A - C R1 3 5 {RGI} ; FOR GRID CURRENT G1 - 5 D3 5 4 DX ; FOR GRID CURRENT 5 - C .MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N) ; .ENDS PENTODE ****************** .SUBCKT PENTODE1 1 2 3 4 ; A G2 G1 C RE1 7 0 1MEG ; DUMMY SO NODE 7 HAS 2 CONNECTIONS E1 7 0 VALUE={V(2,4)/KP*LOG(1+EXP((1/MU+V(3,4)/V(2,4))*KP))} ; E1 BREAKS UP LONG EQUATION FOR G1. G1 1 4 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*ATAN(V(1,4)/KVB)} G2 2 4 VALUE={(EXP(EX*(LOG((V(2,4)/MU)+V(3,4)))))/KG2} *G2 2 4 VALUE={PWR(if( V(2,4)/MU+V(3,4) < 0 , V(2,4)/MU+V(3,4), 0 ) ,EX )/KG2} RCP 1 4 1G ; FOR CONVERGENCE A - C C1 3 4 {CCG} ; CATHODE-GRID 1 C - G1 C2 1 3 {CPG1} ; GRID 1-PLATE G1 - A C3 1 4 {CCP} ; CATHODE-PLATE A - C R1 3 5 {RGI} ; FOR GRID CURRENT G1 - 5 D3 5 4 DX ; FOR GRID CURRENT 5 - C .MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N) ; .ENDS PENTODE1 ****************** .SUBCKT PENTODE2 1 2 3 4 ; A G2 G1 C RE1 7 0 1MEG ; DUMMY SO NODE 7 HAS 2 CONNECTIONS E1 7 0 VALUE={V(2,4)/KP*LOG(1+EXP((1/MU+V(3,4)/V(2,4))*KP))} ; E1 BREAKS UP LONG EQUATION FOR G1. * G1 1 4 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*ATAN(V(1,4)/KVB)} G1 1 4 VALUE={pi/2*(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*(1-exp(-2*V(1,4)/(pi*KVB)))} G2 2 4 VALUE={(EXP(EX*(LOG((V(2,4)/MU)+V(3,4)))))/KG2} *G2 2 4 VALUE={PWR(V(2,4)/MU+V(3,4),EX)/KG2} RCP 1 4 1G ; FOR CONVERGENCE A - C C1 3 4 {CCG} ; CATHODE-GRID 1 C - G1 C2 1 3 {CPG1} ; GRID 1-PLATE G1 - A C3 1 4 {CCP} ; CATHODE-PLATE A - C R1 3 5 {RGI} ; FOR GRID CURRENT G1 - 5 D3 5 4 DX ; FOR GRID CURRENT 5 - C .MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N) ; .ENDS PENTODE2 ****************** .SUBCKT PENTODE3 1 2 3 4 ; A G2 G1 C RE1 7 0 1MEG ; DUMMY SO NODE 7 HAS 2 CONNECTIONS E1 7 0 VALUE={V(2,4)/KP*LOG(1+EXP((1/MU+V(3,4)/V(2,4))*KP))} ; E1 BREAKS UP LONG EQUATION FOR G1. * G1 1 4 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*ATAN(V(1,4)/KVB)} G1 1 4 VALUE={pi/2*(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*tanh(2*V(1,4)/(pi*KVB))} G2 2 4 VALUE={(EXP(EX*(LOG((V(2,4)/MU)+V(3,4)))))/KG2} * G2 2 4 VALUE={PWR(V(2,4)/MU+V(3,4),EX)/KG2} RCP 1 4 1G ; FOR CONVERGENCE A - C C1 3 4 {CCG} ; CATHODE-GRID 1 C - G1 C2 1 3 {CPG1} ; GRID 1-PLATE G1 - A C3 1 4 {CCP} ; CATHODE-PLATE A - C R1 3 5 {RGI} ; FOR GRID CURRENT G1 - 5 D3 5 4 DX ; FOR GRID CURRENT 5 - C .MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N) ; .ENDS PENTODE3 ****************** .SUBCKT HEXODE 1 2 3 4 5 ; A G3 G1 C G2 RE1 7 0 1MEG ; DUMMY SO NODE 7 HAS 2 CONNECTIONS E1 7 0 VALUE={V(2,4)/KP*LOG(1+EXP((1/MU+(V(3,4)+V(5,4))/V(2,4))*KP))} ; E1 BREAKS UP LONG G1 1 4 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1*ATAN(V(1,4)/KVB)} G2 2 4 VALUE={(EXP(EX*(LOG((V(2,4)/MU)+(V(3,4)+V(5,4))))))/KG2} *G2 2 4 VALUE={PWR((V(2,4)/MU)+(V(3,4)+V(5,4)), EX )/KG2} RCP 1 4 1G ; FOR CONVERGENCE A - C C1 3 4 {CCG1} ; CATHODE-GRID 1 C - G1 C2 5 4 {CCG2} ; CATHODE-GRID 2 C - G2 C3 1 3 {CPG1} ; GRID 1-PLATE G1 - A C4 1 5 {CPG2} ; GRID 2-PLATE G2 - A C5 1 4 {CCP} ; CATHODE-PLATE A - C RG1 3 8 {RGI} ; FOR GRID CURRENT G1 - 8 DG1 8 4 DX ; FOR GRID CURRENT 8 - C RG2 5 9 {RGI} ; FOR GRID CURRENT G2 - 9 DG2 9 4 DX ; FOR GRID CURRENT 9 - C .MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N) ; .ENDS HEXODE ****************** * ****************** * (Diode - Child-Langmuirs Law) * anode 1 * | anode 2 * | | cathode * | | | .SUBCKT DULEREC 1 2 3 B1 1 3 I=if( V(1,3)>0, {G}*(V(1,3)**1.5), 0) B2 2 3 I=if( V(2,3)>0, {G}*(V(2,3)**1.5), 0) .ENDS DULEREC ****************** * (Diode - Child-Langmuirs Law) * anode * | cathode * | | .SUBCKT REC 1 2 B1 1 2 I=if( V(1,2)>0, {G}*(V(1,2)**1.5), 0) .ENDS REC ****************** * (Diode - Child-Langmuirs Law + contact potential) * anode * | cathode * | | .SUBCKT REC2 A C RE 7 0 1MEG ; DUMMY SO NODE 7 HAS 2 CONNECTIONS E1 7 0 VALUE={g}*POW(V(a,c)+{Vb},1.5) G1 a c VALUE={if(V(a,c)+{Vb}>0, V(7), 0)} R1 A C 1T .ENDS ****************** ** Transformers ** ****************** ****************** .SUBCKT PAT-4006-CFB 1 2 3 4 5 6 7 8 9 10 11 * PLITRON PAT-4006-CFB OUTPUT TRANSFORMER 2KOHM UL PRIMARY * OL NUMBERS CORRESPOND TO TRANSFORMER SCHEMATIC. .PARAM PRIML=392.5 ; TOTAL PRIMARY L (FROM SPECS). .PARAM LRATIO={5/2000} ; INDUCTANCE RATIO: (5 OHMS)/(PRIMARY). .PARAM QFCTR=400000 ; Q-FACTOR: PRIMARY SHUNT L/LEAKAGE L. LP1 1 2 {PRIML*.09} ; PRIMARY LP2 2 3 {PRIML*.04} LP3 3 4 {PRIML*.04} LP4 4 5 {PRIML*.09} CP1 1 5 .342NF ; CAPACITANCE FROM SPECS LP5 8 7 {PRIML*LRATIO/4} ; 1/2 SPEAKER SECONDARY LP6 7 6 {PRIML*LRATIO/4} ; " " LP7 11 10 {PRIML*LRATIO} ; 1/2 FBK WINDING LP8 10 9 {PRIML*LRATIO} ; " " KALL LP1 LP2 LP3 LP4 LP5 LP6 LP7 LP8 .9999987 ; 1-1/(2*403600) AWESOME! .ENDS PAT-4006-CFB ****************** .SUBCKT DYNA_OUTPUT_XFRMR 1 2 3 4 5 6 7 8 9 ; PARAMETERS FOR MARK 3: +PARAMS: LPRIM=60 LLKG=.040 RPRIM=125 CPRIM=1.04NF LRATIO={4/4300} * ERIC BARBOUR ARTICLE: ~233H TOTAL PRIMARY L FOR MARK 3. * MARK 3: LPRIM=60 LLKG=.040 RPRIM=125 CPRIM=1.04NF LRATIO={4/4300} * LPRIM IS THE TOTAL PRIMARY L (VARIES WITH MEASUREMENT). * LLKG IS THE LEAKAGE L (MEASURABLE: CONSISTENT). * RPRIM IS THE TOTAL PRIMARY R. * CPRIM IS THE MEASURED PRIMARY CAPACITANCE. * LRATIO IS THE INDUCTANCE RATIO: (4 OHMS)/(PRIMARY Z). .PARAM QFCTR={LPRIM/LLKG} ; Q-FACTOR. CS1 1 5 {CPRIM} ; PRIMARY CAPACITANCE RS1 1 5 300K ; SHUNT R FOR HIGH FREQUENCY EFFECTS. LP1 1 12 {LPRIM*.09} ; .7164H ; PRIMARY RP1 12 2 {RPRIM*.5} LP2 2 3 {LPRIM*.04} ; .3184H LP3 3 4 {LPRIM*.04} LP4 4 45 {LPRIM*.09} RP4 45 5 {RPRIM*.5} LP5 7 6 {.34315*LPRIM*LRATIO} ; 8-16 OHM WINDING: (2-SQRT(2))^2 LP6 8 7 {.17157*LPRIM*LRATIO} ; 4-8 OHM WINDING: (SQRT(2)-1)^2 LP7 9 8 {LPRIM*LRATIO} ; COM-4 OHM WINDING KALL LP1 LP2 LP3 LP4 LP5 LP6 LP7 {1-1/(2*QFCTR)} ; COUPLING .ENDS DYNA_OUTPUT_XFRMR *model D1N5292 anode * | cathode * | | .subckt D1N5292 1 2 j1 1 2 2 jx .model jx NJF(Beta=134u Betatce=-.5 Rd=1 Rs=0 Lambda=366.1u Vto=-2.149 + Vtotc=-2.5m N=2 Xti=3 Cgd=3p Is=10f M=.5 Pb=1 Fc=.5 Af=1) * Motorola pid=NKL case=DO7 * 88-07-25 bam POVmax=100 * 88-12-16 pwt .ends *model D1N5295 anode * | cathode * | | .subckt D1N5295 1 2 j1 1 2 2 jx .model jx NJF(Beta=277.5u Betatce=-.5 Rd=1 Rs=0 Lambda=203.3u Vto=-1.721 + Vtotc=-2.5m N=2 Xti=3 Cgd=4.5p Is=10f M=.5 Pb=1 Fc=.5 Af=1) * Motorola pid=NKM case=DO7 * 88-07-25 bam POVmax=100 * 88-12-16 pwt .ends D1N5295 * .PARAM statements: The parameter to be stepped * in the PSPICE schematic is PAR1. (PAR1 is a global variable set in * Analysis... Setup... Parametric... in the PSPICE schematic program.) * .PARAM PAR1=1. ; NORMAL SETTING IF NOT STEPPED. * .PARAM PARM={1-PAR1} * .STEP PARAM PFRAC 0 1 .25 ; -1 1 1 ; 0 1 .25 * .PARAM PARP={ .5*(PAR1+ABS(PAR1))} ; = PAR1 IF PAR1 >= 0 * .PARAM PARN={-.5*(PAR1-ABS(PAR1))} ; = |PAR1| IF PAR1 <= 0 * PARTX IS FOR THE PAS TREBLE CONTROL. * .PARAM PAR2={.5*(1-COS(3.141593*PAR1))} * .PARAM PARTX={(EXP(4.60517*PAR1)-1)/99}