The circuit was taken from one of the old elektor electronics magazine and it is indeed a very cute little circuit which may be used for creating high intensity lighting effects during festivals, parties and fun gatherings.
The circuit may be understood by referring to the diagram and with the following explanations:
Diodes D1 and D2 along with the capacitors C1 and C2 form a voltage doubler circuit which creates a voltage level twice the value of the input voltage (across C1/C2).
Resistors R4 along with R5 and P1 provides the gate current to the triac so that it can fire for the required actions.
However the triac is unable to fire until the voltage reaches above the diac firing voltage which is around 60 volts (due to D3/D4).
Once this happens the triac triggers, inducing a momentary pulse inside the primary winding of the pulse transformer via C3.
This in turn jumps a high voltage pulse into the secondary of the transformer which is connected to the trigger wire of the xenon bulb.
The xenon bulb triggers due to the above actions passing the entire voltage across C1/C2 through it.
This generates a blinding arc light inside the tube, producing the required high intensity flash.
However once the tube fires C1/C2 completely discharges making the gate voltage of the triac fall to zero switching OFF the xenon bulb instantly
The whole circuit returns to its original condition until C1/C2 charges up again and repeats the cycle.
Thus the flashing keeps repeating as long as mains power stays connected at the input.
As the name suggests, it's a tube filled with inert xenon gas. A metal ring is attached toward the anode side of the tube which becomes the gate trigger point of the device. This ring is terminated with a wire so that it can be connected with s pulse source.
When a high voltage is set across the anode/cathode pins of the tube and a pulse applied across the trigger gate wire and cathode, the tube gets charged up and allows the whole voltage across its Anode.cathode to pass through creating an intense arc lighting inside the tube due to the passage of the high speed electrons through the xenon gas.
Any standard xenon tube can be used here, preferably the ones which are used in electronic cameras.
The transformer may be built by winding 100 turns of 36 SWG wire over a tiny ferrite core. This becomes the secondary winding (A to B)
And about 10 turns of 22 SWG over the above winding. This becomes the primary winding of the transformer (A to C)