I found this page:
http://www.tube-amps.net/Technical_Aspects.htm
and I'm interested to known what is write in this picture:
http://www.tube-amps.net/images/Technical_Aspects/Winding.jpg
some good Japanese mother tongue guy please can translate the picture ?
Best if wolud be possible to have an English abstract of the MJ article from where the picture has been taken ( MJ Feb 2002 Issue, Page 133)...
http://www.tube-amps.net/Technical_Aspects.htm
and I'm interested to known what is write in this picture:
http://www.tube-amps.net/images/Technical_Aspects/Winding.jpg
some good Japanese mother tongue guy please can translate the picture ?
Best if wolud be possible to have an English abstract of the MJ article from where the picture has been taken ( MJ Feb 2002 Issue, Page 133)...
A Chinese can read the chinese characters in the picture and it seems enough to catch the meaning.
Translation:
Figure 3, horizontal cut winding structure
Figure 4, vertical cut winding structure
(a)basic structure (b)characteristic trend
S1-S5, secondary windings
P1-P4, primary windings
the left side plot labels:
x axle, number of cuts
y axle, value of Lx, Cs
the right side plot labels:
x axle, combination of vertical cuts
y axle, value Lx, Cs
I can't read the Japanese characters in the plots but I guess they would be "leak inductance" and "interwinding capacitance". The two Japanese characters on the bottom might mean "iron core".
Translation:
Figure 3, horizontal cut winding structure
Figure 4, vertical cut winding structure
(a)basic structure (b)characteristic trend
S1-S5, secondary windings
P1-P4, primary windings
the left side plot labels:
x axle, number of cuts
y axle, value of Lx, Cs
the right side plot labels:
x axle, combination of vertical cuts
y axle, value Lx, Cs
I can't read the Japanese characters in the plots but I guess they would be "leak inductance" and "interwinding capacitance". The two Japanese characters on the bottom might mean "iron core".
Thank You.
Are You also able to understand what is the number of cuts (I suspect they means sections) where Lx = Cs in the two cases, that should be the best compromise for highest bandwidth?
Are You also able to understand what is the number of cuts (I suspect they means sections) where Lx = Cs in the two cases, that should be the best compromise for highest bandwidth?
You are welcome. There is no number on the two plots which only sketch the trend. There is no way to find the optimal point on this picture.
That's sad... maybe there was something in the full text of the article. It would be really VERY interesting...
Are there anybody out there 😀 who have read that article and can provide some more clue?
Are there anybody out there 😀 who have read that article and can provide some more clue?
Silly question polvait, but I assume you've started at the home page and read everything about Mr. Hashimoto's work?
www.tubes-amps.net
www.tubes-amps.net
Yes, I did, at least all is in the link You posted (the correct one is
www.tube-amps.net )
The only expanation realted to this issue is these statements:
"""
The ultimate goal of core winding technique is to determine the best scheme of minimizing the leakage inductance and the stray capacitance. The leakage inductance can be reduced by alternatively mixing the primary and the secondary windings in several layers; this is called the horizontal dividing method. However, too many horizontal layers will increase the stray capacitance. In order to reduce the stray capacitance, the secondary windings can be divided into sections in each layer; this is called the vertical dividing method. However, at this time, too many vertical dividing will increase the leakage inductance. Therefore, Hashimoto engineers have to determine the optimum point of mixing the horizontal and the vertical dividing methods. Especially for a high-primary-impedance transformer, too many horizontal dividing will increase undesirable stray capacitance; thus, the technique of vertical dividing becomes an essential factor to design a high quality high-primary-impedance transformer.
""""
I'd like to know more, and numbers too. Someone has the MJ article mentioned?
www.tube-amps.net )
The only expanation realted to this issue is these statements:
"""
The ultimate goal of core winding technique is to determine the best scheme of minimizing the leakage inductance and the stray capacitance. The leakage inductance can be reduced by alternatively mixing the primary and the secondary windings in several layers; this is called the horizontal dividing method. However, too many horizontal layers will increase the stray capacitance. In order to reduce the stray capacitance, the secondary windings can be divided into sections in each layer; this is called the vertical dividing method. However, at this time, too many vertical dividing will increase the leakage inductance. Therefore, Hashimoto engineers have to determine the optimum point of mixing the horizontal and the vertical dividing methods. Especially for a high-primary-impedance transformer, too many horizontal dividing will increase undesirable stray capacitance; thus, the technique of vertical dividing becomes an essential factor to design a high quality high-primary-impedance transformer.
""""
I'd like to know more, and numbers too. Someone has the MJ article mentioned?
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