nvisser,
You seem to have a line missing in between the bottom bank and negative Sziklay?


But it is "IT", it should work "about" same.

To consider:
FVD (Forward Voltage Drop)
It's a function of amperes passing a BJT:
You will have higher FVD on Your two Sziklay's filling the banks than I have on my four , as I "branch out" the flow over twice BJTs than You
Thus I fill "higher" the banks (less FVD).
Besides that, (higher FVD) You have an additional Diode FVD in series to each Bank (~0.4V for Shotky, 0,7V for Si, 0.2V even GaAs ). Even less voltage left for the caps?


Anyhow, worthy exploring, for the elegance and lesser cost of BOM?
I might be mistaken? (been wrong before )

Thank you
I repaired the diagram.
I will try this one.
I was under the impression that with two switches I will have less voltage drop than on four?

Well, I would think it would be a good thing from the perspective of the solar panel, I mean you can buffer the output of the solar panel this way and a cap can release it's energy pretty darn fast, so the dead time would charge up the cap, releasing a gush of potential onto the inner capacitors, equalizing and at the same time...while charging the inner banks, pull even more in from the solar panel, almost like sucking juice out of the solar panel.

Well, if I hadn't read your WHOLE post, I'd say no difference, but below you say...It seems to be desired. So, I'd have to hazard a guess that it did matter and for the worse.

When I did some scalar testing with PNPs only, I noticed that the two capacitors were not charged to the same level and did not discharge equally either, perhaps what you are saying about that serial device wanting them more = on top and bottom. That serial device gets twice the potential across it as compared to the others.


Might have told me that!

Stevan,
Back at ya

Thank you for your observations and reply and, of course, the hug.

Lero

Energy from TS

For anyone who gives a crap, I'm measuring about 6 times the power out of a TS vs. 4 batteries in parallel. Now, these batteries are old, can only produce power at C40 for about 6 hours and they are agms, not flooded. The are about 3 years old and have run SSGs, and other things and I haven't done much with them in terms of attempting to conditioning them, but 600% gain in power is pretty awesome. I think "good" batteries would put some interesting numbers up.

Leroy

on..

I wonder if the panel likes more to "swing" or to be depleted at a constant rate?
Is there a resonance of most advantage?

The loss of equilibrium, seems to impose some stress to the middle BJT and I seem to not know the device enough to draw a decent conclusion yet.
Its only 2V of "not equal" and the spike is lost?
I think i have the caps sort of equalized and matched by using a mix of two batches each bank?
Worst thing is cheap "just works", for it can have low repeatability.
The middle serial BJT, what do You picture it see? ("bring it on" )
I still can't say all
The hug should have wavy stars of sheer power applied


pondering on now...

Stevan C.

"this close"

Ben and me

"Amos, speak to me. Was it electricity?"
Ben and Me (1953)

That is amazing!!
I wanted to do that test a while ago but had to install one of my batteries into my gate motor. It's battery is 7 years old and was completely useless. I am busy conditioning it and it is getting better every day. So i think soon I will have my other battery back for experimentation.

[QUOTE=StevanC;91640]I wonder if the panel likes more to "swing" or to be depleted at a constant rate?
Is there a resonance of most advantage?

[\QUOTE]
I don't know, but I'd think that the more "potential" on the cap, the better when filling up the internal banks. The use of the cap on the solar panel is to get a "good" impedance for use in the TS...JB had one in his video (a big one).

[QUOTE]
The loss of equilibrium, seems to impose some stress to the middle BJT and I seem to not know the device enough to draw a decent conclusion yet.
Its only 2V of "not equal" and the spike is lost?

I think i have the caps sort of equalized and matched by using a mix of two batches each bank?
Worst thing is cheap "just works", for it can have low repeatability.
The middle serial BJT, what do You picture it see? ("bring it on" )
[\QUOTE]
I don't see, that is why I ask questions. Understanding is the key to knowledge.

It is in there in a reverse from normal direction. The collector is more positive than the emitter which is hooked to the negative. So, when it is queued, it should be seeing a drop across the collector emitter of roughly 2V-4V. But I think some magic might happen when it is dequeued. As in able to "go negative". When I had my scope in good condition and not packed up, I saw some very interesting things, like switching at roughly a few nano (or micro, can't remember off the top of my head) seconds for a short period of time after the queue ended (or dequeued). This was a very interesting waveform. It was one of the most interesting things I saw while working on this TS device. I didn't do it, the system did it.

Maybe it isn't in what it sees when it is on, but when it is off?

Lero

The middle math (BJT magic)

Do You envy me how easy i crack this QOUTE stuff open and then it's broken to all others?


I know I hate me

So, on to magic now

Let us asume the 1st Que is the PV "sucking" one.
Let us Just concentrate on the middle series BJT ("middleBJT"), okay?

1. The "top" bank is "grounded" ("middleBJT's emitter") with a "top-bank grounding"BJT Qued
2. The "lower" bank's positive is "pulled" high by the "low-bank hi-pullingBJT. The node is on "middleBJT's collector"

Those two bank X-BJTs are the ones "heating up" the "middleBJT" if replaced with diodes (or shunted short).
Those two we need to Que to keep good efficiency.

There are two more BJTs i"in Que" with them:
The "top-bank hi-pulling BJT" and the "low-bank grounding BJT"
This two can be replaced by Diodes or short shunts, allowing the banks 2V more potential and providing quite some more ponder to the switch. But never mind them.

Look up the middle BJT while this "quartet" is in "QUE"?
It is "normal"
It's collector is positive
It's emitter is tied to ground.


This is exactly the moment stop the QUE, and current stops (dries out) of our "quartet"

Yet, still potential (uAmps) traces bias out middleBJT "right" so current can start flow (it can begin "que")

As it goes to saturation, ti does not filp! ever ( ?! )

It adds up _negative_ to the series chain:

Battery sees=-BJThi+topCAP-BJTmid+lowCAP-BJTlow

= -4V+17.5V-4V+17.5V-4V = 35V-12V =23V
But the FVD is actually up to 8V at times
= -8V+17.5V-8V+17.5V-8V = 35V-24V =11V dumping to a depleted battery.

How many amperes needs a MJL21194 to develop 8V FVD?

If base current is 1A it has 25A on collector, and if base is 2,5A (which BD140 could provide) it is just over 30A


So just build and slow it down and watch the polarity in slow motion (I was all "wow- what could You know??" )

So, In my (newbie) oppinion, the middle BJT is upside down, not knowing it and does Que just right,
or in other terms,
we draw it "wrong way", it should have it's emitter "downwards".

Does this add up in Your opinion?
Stevan C.

I will have to digest these words a little before I can make ANY kind of intelligent response...intelligent ha. Anyway, you speak of that which you work on, me what I work on. We are in different worlds on the same "sort" of thing, give me a little time to correlate your words with your diagram.

Lero

P.S. I do not hate you! I do not hug those whom I hate...although, I hate no one, not even my enemies.

The diode on the PNP BD140 base circuit helped me to "see the light".
Maybe because it was a LED diode I used ?
Stevan C,

The totally awesome complete howto with color plans

This is how i did it (PUBLIC DOMAIN)

"https://docs.google.com/leaf?id=0B8Bd_xdCEfDkOTgyMTM5OWEtMjgyYy00OWE3LTg4N TMtODllYTc4MDYxNzAw&hl=en"

I'm not swearing, it's google docs.
report problems if any?

This is PUBLIC and is GPLv3 (not allowed to be closed any more)

The link didn't work..

Matt

Please, can you put somewhere where you don't have to sign up with Google or anyone else to get the file? I just tried creating an account with Google to see the file but they want a phone number with text messaging capabilities before they'll give you one. Sorry, but that's a little too personal for my taste. :P

Do you mean to say that there should be a diode on the base for the circuit to function correctly?