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High voltage non bouncing relay
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Cloud:
After spending quite some time with Schaffner 438 it has broken (finally  ;D) and because for repair they want almost what we paid for used one I figured that ESD Simulator would be a nice project for a final year of university. I figured out that 15kV would be maximum voltage that we need but I am having hard time finding relays that have enough voltage rating and are non-bouncing. Currently my only candidate is gigavac G15 but it costs 800+$  |O
Are there any cheaper alternatives. Somewhere I read that you can use relays from defibrillator...
MagicSmoker:

--- Quote from: Cloud on December 17, 2019, 11:05:03 am ---After spending quite some time with Schaffner 438 it has broken (finally  ;D) and because for repair they want almost what we paid for used one I figured that ESD Simulator would be a nice project for a final year of university. I figured out that 15kV would be maximum voltage that we need but I am having hard time finding relays that have enough voltage rating and are non-bouncing. Currently my only candidate is gigavac G15 but it costs 800+$  |O
Are there any cheaper alternatives. Somewhere I read that you can use relays from defibrillator...

--- End quote ---

Relays with mechanical contacts bounce. The only exception are mercury-wetted types, but those aren't available in HV ratings. In fact, at this voltage you are mostly going to find vacuum relays and they are breathtakingly expensive if purchased new.

Defibrillators operate at 5kV or less, so a single relay from one isn't going to cut the proverbial mustard, and while it is possible - if not entirely kosher - to stack relays in series to increase the voltage rating, you would still need to add RC networks across each one to improve dynamic voltage balancing (that is, to reduce the voltage overstress seen by the first relay to open or the last one to close).

Probably a better approach to producing low-energy 30kV pulses is dumping charge from a capacitor into a small flyback or xenon strobe trigger transformer (or, if you have the available space, an old automotive ignition coil - which is just a flyback transformer).

Berni:
Ah hey there fellow Slovenian forum member.

At these sort of voltages you could think about making your own in the form of a trigerrable spark gap.

All you need to do is build a mechanism that brings a set of rounded contacts together very quickly, but not close enough that they touch. With a millimeter of space you can get a few kV to jump across it fairly reliably. This won't bounce since they are not touching and once the arc strikes lots of current will flow from your capacitor so the hot arc will continue conducting well under 1kV until it cools off enough to disappear.

I seen this switching mechanism also used for discharging big capacitor banks with >1kJ of energy since if the contacts are big and chunky they can handle massive amounts of power, and because they don't touch means that they wont weld together. Also the highest spot on the contact is most likely to arc and vaporize it away so the contacts also "self level" with use.
Cloud:

--- Quote from: MagicSmoker on December 17, 2019, 11:50:37 am ---Defibrillators operate at 5kV or less, so a single relay from one isn't going to cut the proverbial mustard, and while it is possible - if not entirely kosher - to stack relays in series to increase the voltage rating, you would still need to add RC networks across each one to improve dynamic voltage balancing (that is, to reduce the voltage overstress seen by the first relay to open or the last one to close).

Probably a better approach to producing low-energy 30kV pulses is dumping charge from a capacitor into a small flyback or xenon strobe trigger transformer (or, if you have the available space, an old automotive ignition coil - which is just a flyback transformer).

--- End quote ---

I was thinking about stacking wet relays but since you can get them to 2kV that would mean 8 relays.

I am afraid that with coil or transformer the shape of signal wouldn't be according to HBM.


--- Quote from: Berni on December 17, 2019, 12:15:05 pm ---Ah hey there fellow Slovenian forum member.

At these sort of voltages you could think about making your own in the form of a trigerrable spark gap.

All you need to do is build a mechanism that brings a set of rounded contacts together very quickly, but not close enough that they touch. With a millimeter of space you can get a few kV to jump across it fairly reliably. This won't bounce since they are not touching and once the arc strikes lots of current will flow from your capacitor so the hot arc will continue conducting well under 1kV until it cools off enough to disappear.

I seen this switching mechanism also used for discharging big capacitor banks with >1kJ of energy since if the contacts are big and chunky they can handle massive amounts of power, and because they don't touch means that they wont weld together. Also the highest spot on the contact is most likely to arc and vaporize it away so the contacts also "self level" with use.

--- End quote ---

That would be a solution but I need it to trigger from 250V to 15kV.
Gyro:
You could always try a surplus mercury displacement relay (used for heavy surge loads like tungsten lighting). eg. https://www.ebay.co.uk/sch/i.html?_osacat=0&_odkw=mercury+relay&_from=R40&_trksid=m570.l1313&_nkw=mercury+displacement+relay

They're normally rated up to 600V AC/DC but I bet they would stand off a good few kV in practice. No bounce.

Alternatively, check out former Soviet Vacuum relays (some bounce) but high voltage standoff. eg. https://www.ebay.co.uk/sch/i.html?LH_PrefLoc=2&_sop=15&_osacat=0&_odkw=vacuum+relay&_from=R40&_trksid=m570.l1313&_nkw=soviet+vacuum+relay&_sacat=0

Maybe cheap enough to try, given the cost of the alternative.
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