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Re: SSTC, Modes and soft switching
Original poster: "Antonio Carlos M. de Queiroz" <acmdq-at-uol-dot-com.br>
Tesla list wrote:
>
> Original poster: "Steve Conner" <steve.conner-at-optosci-dot-com>
> I guess the corollary of this is, that if you force soft switching, the
> output waveform must grow without limit :) I have observed this in
> simulations and experiments. And it makes sense in theory too- if the
> inverter voltage is held in phase with the primary current, then real power
> must be leaving the inverter at all times- the flow can't reverse.
Certainly. Only losses can limit the output voltage (and the input
current) in this case. Equivalent to excite a fixed system at one
of its resonances.
> I set the PLL up so its unlocked frequency is equal to the resonant
> frequency of the primary alone. So it is practically in lock to start with.
> I found experimentally that this setting gave the cleanest switching
> overall. As the burst progresses I can see the frequency fall until it
> reaches the lower split frequency. This is accompanied by a slight phase
> error since the PLL needs an error signal to perform a frequency change.
>
> Because of the loose coupling and small tank capacitance I have been using
> bursts of around 50 cycles to get enough bang energy. I'm going to try
> tighter coupled coils next and will report on how it goes.
Ok. Why not to use a simple comparator sensing the sign of the input
current? Noise, I imagine?
> The problem then is how to deliver a large amount of energy in such a short
> time- it leads to immense peak currents in the transistors. The DRSSTCs
> built so far use 10 to 30 cycles and peak currents of 200 to 1500A.
I don't have yet current comparisons for the several possible modes.
In the capacitor discharge system, the 1:2:3 mode is the one that
requires the smallest maximum input current for a given output energy.
I would not be surprised by something similar in the forced response
system, but didn't verify yet.
Antonio Carlos M. de Queiroz