Cookies help us to bring you our services at . If you use this website and our services you declare yourself okay with using cookies .More Infos here:
If you do not agree with storing cookies, please leave this website now. Many thanks for your understanding.
Amazon Warehouse Deals ! Now even more Deep Discounts ! Check out these great prices on slightly used or just opened once only items.I always buy my gadgets via these great Warehouse deals ! Highly recommended ! Many thanks for supporting this way.

DC2DC converter

Micro JouleThief







Magpi Magazine

Magpi Magazine Free Rasberry Pi Magazine

Battery Recondition

Battery Recondition



YT Subscribe

Gravity Machines


Magnet Secrets

Lindemann Video




  • *Total Members: 82304
  • *Latest: Ubuntunc

  • *Total Posts: 498104
  • *Total Topics: 14643
  • *Online Today: 44
  • *Most Online: 103
(December 19, 2006, 11:27:19 PM)
  • *Users: 6
  • *Guests: 206
  • *Total: 212


Author Topic: Ordinary thyristors as 0,5 nanosecond switches?  (Read 225 times)

Offline Sergh

  • Jr. Member
  • **
  • Posts: 62
Ordinary thyristors as 0,5 nanosecond switches?
« on: March 13, 2018, 01:58:19 PM »
This can be interesting for obtaining of free energy through:
-   nonthermal effects in electrochemistry, in electrolysis, for effective cold ionization and ultrafast heating of conductors wires.

Semiconductor switches on the basis of dynistor structures with a time of transition into a conducting state of <1 ns were developed at the Ioffe Physical Technical Institute [1-2]. Such switches – deep-level dynistors (DLDs) – are able to switch a current of several kiloamperes of a capacitive energy storage at a current rise rate of up to 200 kA/μs

Ordinary commercial 50-Hz thyristors, which, as dynistors, have a four-layer semiconductor  structure,  can  operate  in  such  a  mode.

With this thyristors in  Yekaterinburg the following discharge parameters were realized: the discharge current amplitude of 200 kA, the maximum current-rise rate of 58 kA/μs, the current rise time (0.1-0.9 level) of 5.5 μs, the pulse duration (FWHM) of ~25 μs, and the switching efficiency of 0.97. During the performed  tests,  thyristors  were  enabled  over  100  times.  After each  5  shots,  the  leakage  current through the thyristors was measured. At a nominal DC voltage of 2.4 kV per thyristor, it was around 4 μA and did not change during the tests:

Free Energy | searching for free energy and discussing free energy


Share this topic to your favourite Social and Bookmark site

Please SHARE this topic at: