Experimental investigations of the currents collected by metal shields in high-current vacuum arcs

Abstract

This paper presents experimental results of currents collected on the three-element condensation shield connected to the cathode potential in high-current vacuum arcs. The arc current had 900 Hz, 150 Hz, or 50 Hz half-cycle sinusoidal shapes and was conducted between the CuCr40 contacts with a diameter of 50 mm (cathode) and 30 mm (anode) spaced 10 mm apart. Most of the measurements were made for the current of 900 Hz with peak values up to 9 kA. Arc voltage, floating shield potential, and distribution of shield currents were measured. It was found that the current collected by the shield and also the arc voltage and floating shield potential are greater for higher frequency currents, and that they are affected by the arc mode. Considerable shield current is observed during a high-amplitude (HA) oscillation sequence of arc voltage while its mean value is increased. For 900-Hz arcs at the 9-kA peak value (I/sub am/), the ratio of shield current (i/sub s/) to an instantaneous value of arc current (i/sub a/) reaches even 40% near I/sub am/ value. In the initial half-cycle period (before the initiation of high-voltage oscillation), the ratio of i/sub s//i/sub a/ increases with i/sub a/ and current frequency. A close relationship was found between arc voltage and current distribution on a three-element shield.