Here’s a
design circuit that is intended for carrying out
harmless experiments with high-voltage pulses and functions in a similar way as
an electrified fence generator. The p.r.f. (pulse repetition frequency) is
determined by the time constant of network R1-C3 in the feedback loop of op amp
IC1a: with values as specified, it is about 0.5 Hz. The stage following the op
amp, IC1b, converts the rectangular signal into narrow pulses. Differentiating
network R2-C4, in conjunction with the switching threshold of the Schmitt
trigger inputs of IC1b, determines the pulse period, which here is about 1.5
ms. The output of IC1b is linked directly to the gate of thyristor THR1, so
that this device is triggered by the pulses. Here’s the figure of the schematic
diagram;
The
requisite high voltage is generated with the aid of a small mains transformer,
whose secondary winding is here used as the primary. This winding, in
conjunction with C2, forms a resonant circuit. Capacitor C3 is charged to the
supply voltage (12 V) via R3.When a pulse output by IC1b triggers the
thyristor, the capacitor is discharged via the secondary winding. The energy
stored in the capacitor is, however, not lost, but is stored in the magnetic
field produced by the transformer when current flows through it. When the
capacitor is discharged, the current ceases, whereupon the magnetic field
collapses. This induces a counter e.m.f. in the transformer winding which
opposes the voltage earlier applied to the transformer. This means that the
direction of the current remains the same. However, capacitor C2 is now charged
in the opposite sense, so that the potential across it is negative. When the
magnetic field of the transformer has returned the stored energy to the capacitor,
the direction of the current reverses, and the negatively charged capacitor is
discharged via D1 and the secondary winding of the transformer. As soon as the
capacitor begins to be discharged, there is no current through the thyristor,
which therefore switches off. When C2 is discharged further, diode D1 is
reverse-biased, so that the current loop to the transformer is broken,
whereupon the capacitor is charged to 12 V again via R3. At the next pulse from
IC1b, this process repeats itself.
0 comments:
Post a Comment