SU527786A1 - Managed Bit - Google Patents

Description

(54) CONTROLLED DISTRIBUTOR

ziynuyu durability and correspondingly high bandwidth of the arrester.

The mechanization of the formation of a sliding discharge over the surface of a solid dielectric includes the proposed discharge at any voltage on the main electrodes (from O to C,). .

FIG. Figure 1 shows the proposed multi-channel sliding discharge across the surface of a dielectric, which is a continuation of the insulation of the bus conductor; in fig. 2 arrester, in which the electrodes are located on an additional replaceable insulation layer; Fig. 3 is a discharge bit, in which a non-return current conductor is used as a conductive surface providing fordating the glide discharge, and a conductive sheet 1 is drawn to one of the two electrode sections of FIG. 1-3 depicts the designs of flat discharges made on a dielectric sheet and have main and control electrodes in a long-band forgg,),

The controllable bit contains two main electrodes 1 and 2 and control 3 electrodes in the form of strips, a return conductor 4 isolator and one conductor bus and a channel (cable) 5 initiating; (firing) nmgulsa spr. Items 6 and 7 denote, respectively, the power source and the load of the energy storage device. Position 8 denotes a sub-polar removable insulation layer.

The controlled bit operates as follows. MNDiyjibc initiation: Scheur zheshsh having a steep edge, falls on the discharge schshk for controlling yuschel-gu channel, npHcoe iHeHHorviy directly to the control zlektrodu iuchastku current conductor located on the other side of the dielectric meiedu main electrodes 1 and 2, from T ravl yu1tsego electrode 3 in both directions, toward the main electrodes 1 and 2, sparks of sliding discharges develop. Rars are formed in a multiple grid because of the small thickness of the dielectric (Miioro less than the distance between the electrodes) and the high voltages of the electric field achieved in the heads of the sparks. After completion of the sliding discharge breakdown from the electrode 3 to the main electrodes .1 and 2, the latter appear

closed, and in a multichannel way, which in some cases (with an appropriate choice of pressure and type of gas) turns into a continuous plasma layer, the discharge current of the main circuit of the storage device flows.

Since the Sliding discharge Id develops from both sides of the electrode 3 at the same time, the discharge is turned on when the voltage between the main electrodes is equal (0), and the switch-on time and delay spread remain minimal over the entire range of operating voltages. arrester, since they are determined by the conditions under which the discharge develops from the initiating voltage pulse.

The development of a multichannel discharge evenly distributed along flat, x flat or

annular electrodes, due to reduced erosion of the electrodes and gives it the opportunity to increase the throughput of arresters, bringing it up to how many megaamperes.

The surface of the D 1 electric over which the discharge develops, interacting with the plasma, evaporates and self-cleans from the products of the discharge. Moreover, with current loads up to 30–40 ka per cm of the perimeter of the electrode and durations up to 100–200 microseconds, the destruction of the dielectric is insignificant, which ensures that the discharge is operated many times without changing the dielectric.

Claims (1)

Invention Formula A controlled discharge containing a busbar 1 e bus, two main electrodes and one poisonous located between the main, dielectric and the initiating pulse channel, for example, a cable connected by one pole to the control electrode, different in that H1o, in order to reduce its inductance expanding the range of controllability and increasing throughput to current, the discharge electrodes are placed on one side of the dielectric with a thickness less than the minimum distance between the ground electrodes, and the other side of the dielectric The electrician is equipped with a conductor electrically connected to one of the main electrodes and the other pole of the output pulse.  - four