High voltage oscillators
I've been thinking in how interesting it is that exceptional people like Tesla [1] envisioned things like oscillators using very simple technology and without using active components like tubes, transistors or diodes. One of the common tools they used to build commuting systems was
the understanding of the behavior of dielectrics before and after the rupture tension. When
a dielectric is inside an electric potential it redistributes its electric charge. If this
potential is high enough, the dielectric gets completely ionized and then starts conducting electricity with a comparatively small resistivity. Without being ionized, the conductivity of
air is between 0.3x10^-14S/m[2]. However, after the rupture voltage( around 33kV/cm ),
the air starts conducting, allowing the formation of electric arcs.
Using this simple principle, a very simple kind of oscillator can be built. A capacitor can be charged using a voltage source and a resistor. If a spark gap is placed
in parallel with the capacitor, then an arc is formed when the capacitor potential is high
enough. Once this happens the capacitor discharges through the arc until its charge is too
small to deliver the necessary current. When this happens, the arc is interrupted and the capacitor starts to get charged through the resistor. This produces a continuous oscillation.
The stability of this kind of oscillator greatly depends on the dielectric used in the spark gap. In the case of air, its variability renders oscillations very variable.
Tesla coils and pulsed lasers have been built using this simple principle. One of the advantages of using capacitors is that they can discharge very quickly hence producing large currents during brief periods of time. This enables them to release great amounts of "instantaneous" power.
[1] http://en.wikipedia.org/wiki/Nikola_Tesla
[2] http://en.wikipedia.org/wiki/Electrical_conductivity
the understanding of the behavior of dielectrics before and after the rupture tension. When
a dielectric is inside an electric potential it redistributes its electric charge. If this
potential is high enough, the dielectric gets completely ionized and then starts conducting electricity with a comparatively small resistivity. Without being ionized, the conductivity of
air is between 0.3x10^-14S/m[2]. However, after the rupture voltage( around 33kV/cm ),
the air starts conducting, allowing the formation of electric arcs.
Using this simple principle, a very simple kind of oscillator can be built. A capacitor can be charged using a voltage source and a resistor. If a spark gap is placed
in parallel with the capacitor, then an arc is formed when the capacitor potential is high
enough. Once this happens the capacitor discharges through the arc until its charge is too
small to deliver the necessary current. When this happens, the arc is interrupted and the capacitor starts to get charged through the resistor. This produces a continuous oscillation.
The stability of this kind of oscillator greatly depends on the dielectric used in the spark gap. In the case of air, its variability renders oscillations very variable.
Tesla coils and pulsed lasers have been built using this simple principle. One of the advantages of using capacitors is that they can discharge very quickly hence producing large currents during brief periods of time. This enables them to release great amounts of "instantaneous" power.
[1] http://en.wikipedia.org/wiki/Nikola_Tesla
[2] http://en.wikipedia.org/wiki/Electrical_conductivity
posted by Gralfca at 10:01 PM
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