There's a lot of conversion circuits, like in post #5 with a RC various different places. If we don't need multiple flashes right away- I saw a camera do a dummy flash to read back light intensity, then flash again to take the picture, then go to the next level?
For those interested (but not into photography
per se), the double-flash observed is indeed for metering (measuring the light levels). It is part of a metering scheme called TTL (
Transistor-Transistor Logic "Through-The-Lens") - it flashes twice - once with the mirror down to perform the metering, and then it flips the mirror up and flashes again to take the photo.
With the advent of adjustable flash output (I believe they do this by electrically quenching the flash tube to limit the flash duration, though I can envision a few other ways to get similar effects - such as limiting the discharge current) - some fancier cameras/flashes adjust the flash output on-the-fly between these two flashes to achieve a desired exposure.
Now, interestingly, I believe some cameras can sometimes do away with the first metering flash by performing the metering without the flash, and then making a reasonable estimate as to what flash output would be needed to achieve the desired exposure (or what settings would be required to achieve the desired exposure with a known but fixed flash output). Obviously, guesstimating the reflectivity (albedo? Can I call it albedo if I'm not doing astronomy? Does it work for things smaller than planets and moons?) isn't as accurate as actually measuring it with the flash firing - but for smaller cameras it's typically good enough - I would
assume that the pros would rather use the metering flash though, as it gives more accuracy and precision in the metering (as it takes the camera's guesswork out of the equation).
Back to business! In my case, the TZ7000 has a 3-5 second cycle time on full power, and about 0.5 seconds on low output (but you only get two flashes and then it's a full 3-5 second cycle time again) - either way, the recovery time in my isolation/sync circuit is negligible compared to the recharge time on the flash
I did use small TO-92 SCR's in a conveyer belt warning strobe design (flashing 24/7) and they didn't last on the trigger circuit.
Better to use a medium sized SCR like C106D (TO225AA screw you JEDEC it's TO-126) rated 400V 4A common in strobes. It handles the trigger transformer peak currents.
I'm not sure why everyone is putting the silly RC circuit delay in. Sometimes you need a burst of flashes and the RC delay ensures some will not happen. Leave it out.
Hrm - that might be a problem - it's a TO-92, 400V 1A, TRIAC I used in mine... hrm... that might die soon then =/
I modded in that diode bridge last night but space is now even tighter: could barely get it back in - assuming it's going to die eventually, I'll replace it with something beefier - though I'm not sure where it's going to go!)