转换由FU81分享的NI MULTISIM电子管库到14版

mld

会飞的鱼lkl 发表于 2019-4-25 14:14
借楼主宝地问下m大，ltspice如何模拟频响曲线和傅里叶

1、AC扫描分析(AC Analysis):
命令 .ac <oct, dec, lin>
参数1：扫描方式（oct 八倍频 dec 十倍频 lin 线性扫描）
参数2： 扫描数
参数3： 起始频率
参数4： 终止频率

示例:    .ac dec 100 1 100K



2、FFT波形查看：
  在瞬态分析(Transient)状态下——在xxxx.RAW窗口，右键，在View下面点击FFT，根据提示选择要分析的网络。 

闭关锁国

naturey2000 发表于 2019-4-25 10:58
都是相同的一段代码，理论上是可行的，除非你的引脚没有对好或者用的封装不对。

所以说paint_kit形成的模型不是拿来就可以在NI MULTISIM中使用的，封装定义等等要从新做。

会飞的鱼lkl

mld 发表于 2019-4-25 15:06
1、AC扫描分析(AC Analysis):
命令 .ac  
参数1：扫描方式（oct 八倍频 dec 十倍频 lin 线性扫描）

多谢m大

mld

会飞的鱼lkl 发表于 2019-4-25 14:12
这个好像不能做四级/五极管？

这个是用于三极管的，另再下载一个五极管的.jar包即可 、、、

FU81

晚上我把这个自己写的启动脚分享出来。

FU81

自己编辑了一个小小启动脚本，方便大家直接使用，省得敲击键盘记命令，效果如下图所示：



下载地址： 建模工具.part1.rar (299 KB, 下载次数: 316)

2019-4-25 23:41 上传

点击文件名下载附件 建模工具.part2.rar (299 KB, 下载次数: 531)

2019-4-25 23:42 上传

点击文件名下载附件 建模工具.part3.rar (97.16 KB, 下载次数: 358)

2019-4-25 23:42 上传

点击文件名下载附件
注：请将以上3个附件下载到同一文件夹下进行解压。

longji98

FU81 发表于 2019-4-25 23:43
自己编辑了一个小小启动脚本，方便大家直接使用，省得敲击键盘记命令，效果如下图所示：

下载了，谢谢 。。 。。就想要个807的。。。老眼昏花。。。。不好弄呀，

naturey2000

FU81 发表于 2019-4-25 23:43
自己编辑了一个小小启动脚本，方便大家直接使用，省得敲击键盘记命令，效果如下图所示：

太好了！又有更进一步的分享！

FU81

naturey2000 发表于 2019-4-26 08:58
太好了！又有更进一步的分享！

楼主辛苦了！论坛需要您这样默默奉献热心烧友

mld

longji98 发表于 2019-4-26 01:16
下载了，谢谢 。。 。。就想要个807的。。。老眼昏花。。。。不好弄呀，

807的原始档就貌似残缺哈！只能得个大概参考了，但愿对你有帮助、、、


手册截图：



仿真截图：



模型文件：
FU_7.rar (1.47 KB, 下载次数: 293)

2019-4-26 13:29 上传

点击文件名下载附件

naturey2000

又找到几个：

* SPICE tube models for TINA simulator generated by Ayumi's method.
* 100TH*2SK79*4E27(Triode Strapped)*6H3/6N3*6H6/6N6
* 6H30/6N30*6J4P (Russian 6AC7)*6J4PT (Triode Strapped)
* C3g*C3g (Triode Strapped)*E92CC*6688 (E180F)*6688 (Triode Strapped)
* 805*814*814(Triode Strapped)*GU50(Russia)/FU50(China) Triode Strapped
* GU50/FU50
* **************************************
* Generic triode model: 100TH
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Fri Nov 26 13:06:10 2010
*             Plate
*             | Grid
*             | | Cathode
*             | | |
.SUBCKT 100TH A G K
.PARAM X1=-0.99906964 X2=0.0014094818 X3=-0.083738904
PARAM X4=0.94712581 X5=37.513209 X6=1.5837389
.PARAM X7=0.00034469629 X8=39.607419 X9=0.00027070609
.PARAM Y1=0.00017234814 Y2=0.00018548443
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 2p
CGK G K 2.9p
CAK A K 0.3p
.ENDS



*
** Generic triode model: 2SK79
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Sun Feb 28 23:48:12 2010
*               Plate
*               | Grid
*               | | Cathode
*               | | |
.SUBCKT 2SK79 A G K
.PARAM X1=0.10157886 X2=0.005502006 X3=-0.28096081
.PARAM X4=0.84224201 X5=28.672814 X6=1.7809608
.PARAM X7=0.019995035 X8=34.043439 X9=0.012489311
.PARAM Y1=0.0099975173 Y2=0.010884964
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 15p
CGK G K 16p
CAK A K 4p
.ENDS




*
* Generic triode model: 4E27(T)
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Thu Jun 04 17:35:18 2009
*               Plate
*               | Grid
*               | | Cathode
*               | | |
.SUBCKT 4E27(T) A G K.
.PARAM X1=0.99999999 X2=0.038865244 X3=-0.2993371.
.PARAM X4=0.83364034 X5=4.2804222 X6=1.7993371
.PARAM X7=0.00048970507 X8=5.134615 X9=0.00030228693
.PARAM Y1=0.00024485253 Y2=0.00039466689
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 5p
CGK G K 8p
CAK A K 6.5p
.ENDS




*
* Generic triode model: 6N3P
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Thu Jun 11 18:27:43 2009
*            Plate
*            | Grid
*            | | Cathode
*            | | |
.SUBCKT 6N3P A G K
.PARAM X1=-0.069189567 X2=0.019068965 X3=-1.2621392
.PARAM X4=0.54305736 X5=23.962635 X6=2.7621392
.PARAM X7=0.0034531579 X8=44.125422 X9=0.0027770019
.PARAM Y1=0.001726579 Y2=0.0018446282
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 1.6p
CGK G K 2.8p
CAK A K 1.4p
.ENDS




*
* Generic triode model: 6N6
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Fri Sep 27 17:21:24 2013
*           Plate
*           | Grid
*           | | Cathode
*           | | |
.SUBCKT 6N6 A G K
.PARAM X1=-0.12412617 X2=0.017099117 X3=-0.49413473
.PARAM X4=0.75220594 X5=14.491629 X6=1.9941347
.PARAM X7=0.0034675681 X8=19.265507 X9=0.0020032288
.PARAM Y1=0.001733784 Y2=0.0020072404
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 3.5p
CGK G K 4.4p
CAK A K 1.8p
.ENDS




*
* Generic triode model: 6H30
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Tue Aug 10 23:01:40 2010
*            Plate
*            | Grid
*            | | Cathode
*            | | |
.SUBCKT 6H30 A G K
.PARAM X1=1 X2=0.0016665882 X3=-0.038461562
.PARAM X4=0.97499998 X5=15.000715 X6=1.5384616
.PARAM X7=0.0038313265 X8=15.385349 X9=0.003327778
.PARAM Y1=0.0019156633 Y2=0.0022952053
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V

(A,K))+URAMP(V(G,K)))*1.2+.4)))+1E-10*V(A,K)BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 5p
CGK G K 6.3p
CAK A K 2.4p
.ENDS




*
* Generic pentode model: 6J4PP
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved
* Version 3.10, Generated on Mon Oct 05 17:00:49 2009
*             Plate
*             | Screen Grid
*             | | Control Grid
*             | | | Cathode
*             | | | |
.SUBCKT 6J4PP A S G K
.PARAM X1=0.35903154 X2=0.0051230024 X3=-0.3031279.
.PARAM X4=0.83188775 X5=32.815182 X6=1.8031279
.PARAM X7=0.0040192654 X8=39.446647 X9=0.00247534
.PARAM Y1=0.0020096327 Y2=0.7737796 Y3=0.2262204
.PARAM Y4=0.002163434 EA=14848.5
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(S,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(S,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(S,K))/X5))^X6
BL IL 0 V=(V(IK)-Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4))*(1-.4*(EXP(-URAMP(V(A,K))/URAMP(V(S,K))

*15)-EXP(-15)))
BM IM 0 V=V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-URAMP(V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-(Y4*(URAMP(V(A,K))+URAMP

(URAMP(V(S,K))-URAMP(V(A,K))))^1.5))
BA A K I=URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))^1.5+Y3)))+1E-10*V

(A,K)
BS S K I=URAMP(V(IM)-URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))

^1.5+Y3))))
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.015p
CGK G K 6.6p
CGS G S 4.4p
CAK A K 6p
.ENDS




*
* Generic triode model: 6J4PT
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Mon Oct 05 16:34:25 2009
*             Plate
*             | Grid
*             | | Cathode
*             | | |
.SUBCKT 6J4PT A G K
.PARAM X1=0.35903154 X2=0.0051230024 X3=-0.3031279
.PARAM X4=0.83188775 X5=32.815182 X6=1.8031279
.PARAM X7=0.0040192654 X8=39.446647 X9=0.00247534
.PARAM Y1=0.0020096327 Y2=0.002163434
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.015p
CGK G K 11p
CAK A K 6p
.ENDS




*
* Generic pentode model: C3G
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved
* Version 3.10, Generated on Tue Jun 23 00:59:12 2009
*           Plate
*           | Screen Grid
*           | | Control Grid
*           | | | Cathode
*           | | | |
.SUBCKT C3G A S G K
.PARAM X1=-0.16053394 X2=0.0043084008 X3=-0.28973288.
.PARAM X4=0.8381139 X5=37.574522 X6=1.7897329
.PARAM X7=0.0098836949 X8=44.832238 X9=0.0061379447
.PARAM Y1=0.0049418474 Y2=0.79240682 Y3=0.20759318
.PARAM Y4=0.005274374 EA=7975
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(S,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(S,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(S,K))/X5))^X6
BL IL 0 V=(V(IK)-Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4))*(1-.4*(EXP(-URAMP(V(A,K))/URAMP(V(S,K))

*15)-EXP(-15)))
BM IM 0 V=V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-URAMP(V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-(Y4*(URAMP(V(A,K))+URAMP

(URAMP(V(S,K))-URAMP(V(A,K))))^1.5))
BA A K I=URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))^1.5+Y3)))+1E-10*V

(A,K)
BS S K I=URAMP(V(IM)-URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))

^1.5+Y3))))
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.012p
CGK G K 4.9p
CGS G S 3.3p
CAK A K 3.5p
.ENDS




*
* Generic triode model: C3GT
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved
* Version 3.10, Generated on Tue Jun 23 00:43:12 2009
*            Plate
*            | Grid
*            | | Cathode
*            | | |
.SUBCKT C3GT A G K
.PARAM X1=-0.16053394 X2=0.0043084008 X3=-0.28973288
.PARAM X4=0.8381139 X5=37.574522 X6=1.7897329
.PARAM X7=0.0098836949 X8=44.832238 X9=0.0061379447
.PARAM Y1=0.0049418474 Y2=0.005274374
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 3.3p
CGK G K 4.9p
CAK A K 3.5p
.ENDS





*
* Generic triode model: E92CC
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Sun Sep 01 19:47:13 2013
*             Plate
*             | Grid
*             | | Cathode
*             | | |
.SUBCKT E92CC A G K
.PARAM X1=0.55400106 X2=0.014847333 X3=-1.2515442
.PARAM X4=0.54514842 X5=30.635239 X6=2.7515442
.PARAM X7=0.0039106914 X8=56.196144 X9=0.0031176387
.PARAM Y1=0.0019553457 Y2=0.0020601937
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 2.2p
CGK G K 3.1p
CAK A K 0.3p
.ENDS




*
* Generic pentode model: 6688
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Wed Jun 24 22:54:24 2009
*            Plate
*            | Screen Grid
*            | | Control Grid
*            | | | Cathode
*            | | | |
.SUBCKT 6688 A S G K
.PARAM X1=-0.59576533 X2=0.0094827837 X3=-0.8531559
.PARAM X4=0.63744183 X5=38.233306 X6=2.3531559
.PARAM X7=0.01902963 X8=59.979286 X9=0.011758543
.PARAM Y1=0.0095148149 Y2=0.80517343 Y3=0.19482657
.PARAM Y4=0.009992698 EA=2523.93
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(S,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(S,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(S,K))/X5))^X6
BL IL 0 V=(V(IK)-Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4))*(1-.4*(EXP(-URAMP(V(A,K))/URAMP(V(S,K))

*15)-EXP(-15)))
BM IM 0 V=V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-URAMP(V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-(Y4*(URAMP(V(A,K))+URAMP

(URAMP(V(S,K))-URAMP(V(A,K))))^1.5))
BA A K I=URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))^1.5+Y3)))+1E-10*V

(A,K)
BS S K I=URAMP(V(IM)-URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))

^1.5+Y3))))
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.03p
CGK G K 5.1p
CGS G S 3.4p
CAK A K 3.5p
.ENDS




*
* Generic pentode model: 6688
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Wed Jun 24 22:54:24 2009
*            Plate
*            | Screen Grid
*            | | Control Grid
*            | | | Cathode
*            | | | |
.SUBCKT 6688 A S G K
.PARAM X1=-0.59576533 X2=0.0094827837 X3=-0.8531559
.PARAM X4=0.63744183 X5=38.233306 X6=2.3531559
.PARAM X7=0.01902963 X8=59.979286 X9=0.011758543
.PARAM Y1=0.0095148149 Y2=0.80517343 Y3=0.19482657
.PARAM Y4=0.009992698 EA=2523.93
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(S,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(S,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(S,K))/X5))^X6
BL IL 0 V=(V(IK)-Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4))*(1-.4*(EXP(-URAMP(V(A,K))/URAMP(V(S,K))

*15)-EXP(-15)))
BM IM 0 V=V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-URAMP(V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-(Y4*(URAMP(V(A,K))+URAMP

(URAMP(V(S,K))-URAMP(V(A,K))))^1.5))
BA A K I=URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))^1.5+Y3)))+1E-10*V

(A,K)
BS S K I=URAMP(V(IM)-URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))

^1.5+Y3))))
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.03p
CGK G K 5.1p
CGS G S 3.4p
CAK A K 3.5p
.ENDS




** Generic triode model: 6688T
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Wed Jun 24 22:55:42 2009
*             Plate
*             | Grid
*             | | Cathode
*             | | |
.SUBCKT 6688T A G K
.PARAM X1=-0.59576533 X2=0.0094827837 X3=-0.8531559.
.PARAM X4=0.63744183 X5=38.233306 X6=2.3531559
.PARAM X7=0.01902963 X8=59.979286 X9=0.011758543
.PARAM Y1=0.0095148149 Y2=0.009992698
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 3.43p
CGK G K 5.1p
CAK A K 3.5p
.ENDS




*
* Generic triode model: 805
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Sat Aug 01 11:40:19 2009
*           Plate
*           | Grid
*           | | Cathode
*           | | |
.SUBCKT 805 A G K
.PARAM X1=-1 X2=0.19254103 X3=-16.929908
.PARAM X4=0.081389445 X5=4.7709859 X6=18.429908
.PARAM X7=0.00078806053 X8=58.619221 X9=5.2042766e+14
.PARAM Y1=0.00039403026 Y2=0.00041428161
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 8p
CGK G K 6.5p
CAK A K 5p
.ENDS




*
* Generic pentode model: 814P
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Sun Nov 21 21:43:33 2010
*            Plate
*            | Screen Grid
*            | | Control Grid
*            | | | Cathode
*            | | | |
.SUBCKT 814P A S G K
.PARAM X1=0.99997793 X2=0.0050824018 X3=-0.057991999
.PARAM X4=0.96277773 X5=7.3237559 X6=1.557992
.PARAM X7=0.00052636102 X8=7.6069021 X9=0.0004358701
.PARAM Y1=0.00026318051 Y2=0.905244734 Y3=0.094755266
.PARAM Y4=0.00037031315 EA=2400
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(S,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(S,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(S,K))/X5))^X6
BL IL 0 V=(V(IK)-Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4))*(1-.4*(EXP(-URAMP(V(A,K))/URAMP(V(S,K))

*15)-EXP(-15)))
BM IM 0 V=V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-URAMP(V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-(Y4*(URAMP(V(A,K))+URAMP

(URAMP(V(S,K))-URAMP(V(A,K))))^1.5))BA A K I=URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/

(URAMP(V(A,K))+10))^1.5+Y3)))+1E-10*V(A,K)
BS S K I=URAMP(V(IM)-URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))

^1.5+Y3))))
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.15p
CGK G K 8.1p
CGS G S 5.4p
CAK A K 13.5p
.ENDS




*
* Generic triode model: 814T
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Sun Nov 21 21:29:55 2010
*            Plate
*            | Grid
*            | | Cathode
*            | | |
.SUBCKT 814T A G K.
PARAM X1=0.99997793 X2=0.0050824018 X3=-0.057991999
PARAM X4=0.96277773 X5=7.3237559 X6=1.557992
.PARAM X7=0.00052636102 X8=7.6069021 X9=0.0004358701
.PARAM Y1=0.00026318051 Y2=0.00037031315
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K  I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 4p
CGK G K 10p
CAK A K 13.5p
.ENDS




*
* Generic triode model: GU50TT
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Mon Oct 07 14:44:14 2013
*              Plate
*              | Grid
*              | | Cathode
*              | | |
.SUBCKT GU50TT A G K
.PARAM X1=0.99999999 X2=0.095744324 X3=-0.93076058
.PARAM X4=0.61709081 X5=3.9992887 X6=2.4307606
.PARAM X7=0.001292662 X8=6.4808755 X9=0.00082905208
.PARAM Y1=0.00064633102 Y2=0.00095677822
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(A,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(A,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(A,K))/X5))^X6
BA A K I=URAMP((Y2*URAMP(V(A,K))^1.5)-URAMP((Y2*URAMP(V(A,K))^1.5)-V(IK)+Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V

(G,K)))*1.2+.4)))+1E-10*V(A,K)
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.1p
CGK G K 1p
CAK A K 10p
.ENDS




*
* Generic pentode model: GU50PP
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Mon Oct 07 15:38:35 2013
*              Plate
*              | Screen Grid
*              | | Control Grid
*              | | | Cathode
*              | | | |
.SUBCKT GU50PP A S G K
.PARAM X1=0.99999999 X2=0.095744324 X3=-0.93076058
.PARAM X4=0.61709081 X5=3.9992887 X6=2.4307606
.PARAM X7=0.001292662 X8=6.4808755 X9=0.00082905208
.PARAM Y1=0.00064633102 Y2=0.957887127 Y3=0.042112873
.PARAM Y4=0.00095677822 EA=4395.2
BK IK 0 V=U(V(G,K)+X1)*X7*URAMP(V(G,K)+X1+URAMP(V(S,K))/X8)^1.5+(1-U(V(G,K)+X1))*X9*(X2*URAMP(V(S,K)))^X3*(X4*URAMP(V(G,K)+X1+URAMP(V

(S,K))/X5))^X6
BL IL 0 V=(V(IK)-Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4))*(1-.4*(EXP(-URAMP(V(A,K))/URAMP(V(S,K))

*15)-EXP(-15)))
BM IM 0 V=V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-URAMP(V(IL)*(URAMP(V(A,K))+EA)/(URAMP(V(S,K))+EA)-(Y4*(URAMP(V(A,K))+URAMP

(URAMP(V(S,K))-URAMP(V(A,K))))^1.5))
BA A K I=URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))^1.5+Y3)))+1E-10*V

(A,K)
BS S K I=URAMP(V(IM)-URAMP(Y4*URAMP(V(A,K))^1.5-URAMP(Y4*URAMP(V(A,K))^1.5-V(IM)+V(IL)*(Y2*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))

^1.5+Y3))))
BG G K I=Y1*URAMP(V(G,K))^1.5*(URAMP(V(G,K))/(URAMP(V(A,K))+URAMP(V(G,K)))*1.2+.4)
* CAPS
CGA G A 0.1p
CGK G K 0.6p
CGS G S 0.4p
CAK A K 10p
.ENDS*
*

longji98

mld 发表于 2019-4-26 13:30
807的原始档就貌似残缺哈！只能得个大概参考了，但愿对你有帮助、、、

谢谢 老哥出手相助。。。。 谢谢。。

ftzs

谢谢楼主，同时也谢谢FU81老师，终于可以对一些冷门管做仿真了

ftzs

对了下3A5的曲线，下面是数据，怎么转成模型？
**** 3A5 ******************************************
* Created on 04/27/2019 01:53 using paint_kit.jar 3.1
* www.dmitrynizh.com/tubeparams_image.htm
* Plate Curves image file: 3A5.jpg
* Data source link:
*----------------------------------------------------------------------------------
.SUBCKT TRIODE_3A5 1 2 3 ; Plate Grid Cathode
+ PARAMS: CCG=9P  CGP=3.2P CCP=1P RGI=2000
+ MU=14.11 KG1=5880 KP=5984 KVB=0.4219 VCT=0.233 EX=1.68
* Vp_MAX=240 Ip_MAX=80 Vg_step=2.5 Vg_start=0 Vg_count=6
* Rp=4000 Vg_ac=55 P_max=1 Vg_qui=-48 Vp_qui=300
* X_MIN=147 Y_MIN=32 X_SIZE=1510 Y_SIZE=1010 FSZ_X=2569 FSZ_Y=1200 XYGrid=false
* showLoadLine=n showIp=y isDHT=n isPP=n isAsymPP=n showDissipLimit=y
* showIg1=n gridLevel2=n isInputSnapped=n  
* XYProjections=n harmonicPlot=n dissipPlot=n
*----------------------------------------------------------------------------------
E1 7 0 VALUE={V(1,3)/KP*LN(1+EXP(KP*(1/MU+(VCT+V(2,3))/SQRT(KVB+V(1,3)*V(1,3)))))}
RE1 7 0 1G  ; TO AVOID FLOATING NODES
G1 1 3 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1}
RCP 1 3 1G   ; TO AVOID FLOATING NODES
C1 2 3 {CCG} ; CATHODE-GRID
C2 2 1 {CGP} ; GRID=PLATE
C3 1 3 {CCP} ; CATHODE-PLATE
D3 5 3 DX ; POSITIVE GRID CURRENT
R1 2 5 {RGI} ; POSITIVE GRID CURRENT
.MODEL DX D(IS=1N RS=1 CJO=10PF TT=1N)
.ENDS
*$

naturey2000

ftzs 发表于 2019-4-27 02:18
对了下3A5的曲线，下面是数据，怎么转成模型？
**** 3A5 ******************************************
*  ...

在工具——元器件向导那里，一步一步做就可以了，只做仿真模型。 3A5.rar (87.51 KB, 下载次数: 196)

2019-4-27 09:01 上传

点击文件名下载附件

ftzs

naturey2000 发表于 2019-4-27 08:56
在工具——元器件向导那里，一步一步做就可以了，只做仿真模型。

谢谢，原件向导里的8个步骤吗？其实这个数据我以前网上找到过，也在向导里尝试导入过，这8步步骤后面几步就是搞不明白怎么填，劳烦兄弟以后有空来个详细说明就好了

ftzs

刚才用昨天晚上对的曲线数据确实可以导入，但这个以前网上看见的3A5数据导入了无数次就是不成功，下面是以前网上看见的3A5
* Created on Sat Jan 19 15:50:19 GMT 2013 using tube.model.finder.PaintKIT
* model URL: http://www.bartola.co.uk/valves/
* Created by Ale Moglia 2013 valves@bartola.co.uk
*————————————————–
.SUBCKT TRIODE_3A5-2 SMALL 1 2 3 ; P G K ;
+ PARAMS: CCG=.9P CGP=3.2P CCP=1.0P RGI=2000
+ MU=12.46 EX=1.3857 KG1=1965.0 KP=132.0 KVB=1.875 VCT=-1.6 ; Vp_MAX=200.0 Ip_MAX=0.032 Vg_step=2.0
*————————————————–
E1 7 0 VALUE={V(1,3)/KP*LOG(1+EXP(KP*(1/MU+(VCT+V(2,3))/SQRT(KVB+V(1,3)*V(1,3)))))}
RE1 7 0 1G
G1 1 3 VALUE={(PWR(V(7),EX)+PWRS(V(7),EX))/KG1}
RCP 1 3 1G ; TO AVOID FLOATING NODES
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
*$

mld

ftzs 发表于 2019-4-27 10:30
刚才用昨天晚上对的曲线数据确实可以导入，但这个以前网上看见的3A5数据导入了无数次就是不成功，下面是以 ...

没试过用Multisim导入，我用LTspice IV就很方便、、、

建议(供参考)要注意胆管的名称不能有错，要与模型数据里的名称相对应。

象下面两图中的胆管名称是不相同的，而且在第二图里是要把模型数据里的语句 SMALL 删除了才运行正常、、、

ftzs

谢谢楼上老兄，初玩仿真，看见Multisim比较容易入门，操作简单，LTspice IV没用过，感觉更专业点也难入门点

mld

ftzs 发表于 2019-4-27 12:54
谢谢楼上老兄，初玩仿真，看见Multisim比较容易入门，操作简单，LTspice IV没用过，感觉更专业点也难入门点

    LTspice IV虽然免费正版无须破解、但英文版也是一个坎哈！、、、Multisim比较直观，葱花韭菜吧、喜欢就好，能达到目的即可、用啥都一样的。