Thanks jazbo8 for the heads up. I didn't know about the copyright stipulation. I wish I could remember where I found that model posted out there on the web.
If an Admin wants to delete the post with the offending code, please go right ahead. I believe it's this one:
http://www.diyaudio.com/forums/tubes-valves/243950-vacuum-tube-spice-models-92.html#post4348634
If an Admin wants to delete the post with the offending code, please go right ahead. I believe it's this one:
http://www.diyaudio.com/forums/tubes-valves/243950-vacuum-tube-spice-models-92.html#post4348634
Hello jazbo8, I wonder do you have time to create a LTspice model for 6KY8a. I have the triode-connected curve for 6KY8a beam power section as shown below.
Your 6DS5 model worked great, I used it simulating a SE amp (using 6j6 as Voltage amp). I am going to build it as part of my Summer project. Thank you again!
Your 6DS5 model worked great, I used it simulating a SE amp (using 6j6 as Voltage amp). I am going to build it as part of my Summer project. Thank you again!
Attachments
6KY8A Pentode Section SPICE Model
Please be aware that this model was built using the triode-connected data that you provided, and it unfortunately did not match the pentode characteristic shown in the RCA datasheet, so bear that in mind when you use it.
Hello jazbo8, I wonder do you have time to create a LTspice model for 6KY8a. I have the triode-connected curve for 6KY8a beam power section as shown below.
Please be aware that this model was built using the triode-connected data that you provided, and it unfortunately did not match the pentode characteristic shown in the RCA datasheet, so bear that in mind when you use it.
Code:
*
* Generic pentode model: 6KY8_P_AN
* Copyright 2003--2008 by Ayumi Nakabayashi, All rights reserved.
* Version 3.10, Generated on Sat Jun 20 06:53:43 2015
* Plate
* | Screen Grid
* | | Control Grid
* | | | Cathode
* | | | |
.SUBCKT 6KY8_P_AN A G2 G1 K
BGG GG 0 V=V(G1,K)+1
BM1 M1 0 V=(0.095313333*(URAMP(V(G2,K))+1e-10))**-1.0989454
BM2 M2 0 V=(0.57715719*(URAMP(V(GG)+URAMP(V(G2,K))/4.4363448)))**2.5989454
BP P 0 V=0.0031004553*(URAMP(V(GG)+URAMP(V(G2,K))/7.6865452))**1.5
BIK IK 0 V=U(V(GG))*V(P)+(1-U(V(GG)))*0.0022026287*V(M1)*V(M2)
BIG IG 0 V=0.0015502276*URAMP(V(G1,K))**1.5*(URAMP(V(G1,K))/(URAMP(V(A,K))+URAMP(V(G1,K)))*1.2+0.4)
BIK2 IK2 0 V=V(IK,IG)*(1-0.4*(EXP(-URAMP(V(A,K))/URAMP(V(G2,K))*15)-EXP(-15)))
BIG2T IG2T 0 V=V(IK2)*(0.85149976*(1-URAMP(V(A,K))/(URAMP(V(A,K))+10))**1.5+0.14850024)
BIK3 IK3 0 V=V(IK2)*(URAMP(V(A,K))+1500)/(URAMP(V(G2,K))+1500)
BIK4 IK4 0 V=V(IK3)-URAMP(V(IK3)-(0.0021745412*(URAMP(V(A,K))+URAMP(URAMP(V(G2,K))-URAMP(V(A,K))))**1.5))
BIP IP 0 V=URAMP(V(IK4,IG2T)-URAMP(V(IK4,IG2T)-(0.0021745412*URAMP(V(A,K))**1.5)))
BIAK A K I=V(IP)+1e-10*V(A,K)
BIG2 G2 K I=URAMP(V(IK4,IP))
BIGK G1 K I=V(IG)
* CAPS
CGA G1 A 0.048p
CGK G1 K 1.6p
C12 G1 G2 1p
CAK A K 0.3p
.ENDS
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Please be aware that this model was built using the triode-connected data that you provided, and it unfortunately did not match the pentode characteristic shown in the RCA datasheet, so bear that in mind when you use it.
Hi jazbo8, thank you!
I have three sets of the triode-connected data here, would you please to check out which one can get better match with the RCA datasheet?
Thanks again!
Attachments
Unfortunately, none of them is close to the datasheet, the mis-matches are the greatest at higher bias voltages (Eg1 > -10V), the datasheet shows lower current than the samples. In any case, the tubes can work over a wide operating range, so the model that I provided should suffice for now until a better sample comes along.would you please to check out which one can get better match with the RCA datasheet?
Hello jazbo8, thank your so much for your helps!Unfortunately, none of them is close to the datasheet, the mis-matches are the greatest at higher bias voltages (Eg1 > -10V), the datasheet shows lower current than the samples. In any case, the tubes can work over a wide operating range, so the model that I provided should suffice for now until a better sample comes along.
I got the curves from this website "http://homepage2.nifty.com/Kame/6KY8Asyu.htm",
I simulated your model using "DC sweep" in LTspice, the results matched well with their Ip vs Vp curves (@Vsc=120V). Please see the attachments.
I also attached the curve of 6ky8 triode section, is the triode section the same as 12AT7 or similar?
Thanks again!
Attachments
Good to see that the model matches up with the pentode characteristic on the Japanese site, since that was the sample used to build it in the first place (or close to it). Also the triode section appears to be very different from the 12AT7, not sure of what the closest equivalent might be...the results matched well with their Ip vs Vp curves (@Vsc=120V). Please see the attachments. I also attached the curve of 6ky8 triode section, is the triode section the same as 12AT7 or similar?
No, it's very different from 12AT7. A 6SL7 would appear to be the closest match with a slightly lower mu and Rp. Remember, you must take into consideration Rp and transconductance along with mu.I also attached the curve of 6ky8 triode section, is the triode section the same as 12AT7 or similar?
6KY8A triode section LTspice model
6KY8A triode section model for LTspice.
6KY8A triode section model for LTspice.
Code:
* 6KY8AT LTSpice model
* Rydel model (5 parameters): mean fit error 0.150746mA
* Traced by Wayne Clay on 6/22/2015 using Engauge Digitizer and
* Curve Captor v0.9.1 from RCA datasheet.
.subckt 6KY8AT P G K
Bp P K I=
+ ((0.00144469087m)+(-0.0001050179892m)*V(G,K))*uramp((71.84993107)*
+ V(G,K)+V(P,K)+(62.44961062))**1.5 * V(P,K)/(V(P,K)+(3.613380107))
Cgk G K 15.2p ; 0.2p added (15p, K+H)
Cpk P K 7.2p ; 0.2p added (7.0p, K+H)
Cgp G P 1.14p ; 0.7p added (0.44p)
Rpk P K 1G ; to avoid floating nodes
d3 G K dx1
.model dx1 d(is=1n rs=2k cjo=1pf N=1.5 tt=1n)
.ends 6KY8AT
You'll need the symbol (6d22s.asy) included in the zip file below. Extract the folder to your working directory.Hello all,
Has anyone models of the tube rectifiers 6DL3 or 6D22s?
I only found one PSpice model from the 6D22S on duncan-amps. But i can not implement it in LTSpice..
Thank you all
Dieter
Attachments
Sorry,
it does not work. The Symbol Need the tube.lib file. This is not in my System. Is there another model out?
Thanks for Help
Dieter
.model 6D22S D(Is=1e-2 RS=22 Cjo=12p vj=2 N=30 bv=5000 mfg=Svetlana type=vacuum )
copy this in: lib-cmp-D standard. Will work fine with SS diode symbol
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