SU1387210A1 - Radioelectronic printed board assembly - Google Patents

Abstract

The invention can be used to create small-sized high-voltage nodes with plastic sealing. An electronic unit (REU) contains a metal-oxide printed circuit board (PP) 1 with mounted, electrical radio elements 2, sealed with adhesive active polymer mass 5, a pallet 3 forming a closed cavity 4 filled with dielectric fluid, while the distance between the printed conductors of PP 1 is not less than five times its thickness. RED is reliable at high voltages. 2 Il.

Description

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The invention relates to a radio-electronic technique and can be used by P}) 11 cij.i.uiHHn of small-sized high-voltage nodes with plastic sealing.

The purpose of the invention is to increase reliability at elevated voltages.

The goal is achieved by the fact that the insulating structure is given the ability to restore its dielectric properties by introducing a liquid component, which, in addition, provides for a spoon washed by the liquid. Since the maximum thermal mode is. The breakdown channel 8 in the substrate represents the subsequent normal operation of the node determined by the newly acquired dielectric properties of the liquid due to the neutralization of its ionized particles, the dissolution of gaseous decomposition products, and random mixing. The sludge formed during the breakdown is deposited on the bottom of the pallet 3 and does not adversely affect the dielectric properties of the surface of FIG. 1 shows the structure of the radio-electronic node with a partial cut-out, general view; in fig. 2 - isolation gap between the printed conductors with the channel of the sample, section.

The assembly consists of a printed circuit board 1, the substrate of which is made of a metal-oxide electrically durable material (for example, glass, glass, ceramics), mounted high-voltage electrical radio elements 2, installed on the board on one side of it. On the other hand, the board is fixed, in particular, by means of an adhesive joint, a tray 3, which forms a closed cavity 4 filled with a liquid dielectric. The unit is filled with adhesive active polymer mass 5, forming a hermetic monolithic structure.

The insulating distance between the prints is a rather narrow capillary, the penetration of liquid into it is excluded as a result of the action of surface tension forces. Therefore, direct contact of high-voltage radio-electronic elements 2 and printed conductors 6 with liquid is completely eliminated, due to which the latter is exposed to the undesirable influence of possible ionization processes (partial discharges) occurring in the area of the radio-electronic elements, i.e., retains its original dielectric properties.

Thus, the performance of the site is almost independent of the duration

25 operation of the fluid, which is selected on the basis of the exclusion of the sample in the normal operation mode of the unit.

The reliable depth of the channel 8 of the discharge in the thickness of the substrate and its exit in the liquid conductors 6 are selected from the ulo, the Q bone is made subject to

The VIY is the absence of a breakdown at a given operating mode and must be at least five times as thick as the substrate d. In order to increase the efficiency of heat removal during long-term operation of a node with a high level of heat generation, forced regeneration of a liquid dielectric circulating through pipelines 7 through the cooling system is possible. FIG. 2 shows a possible breakdown channel 8.

a given ratio of the gap between the printed conductors 6 and the thickness of the substrate. Otherwise, the through breakdown of the substrate is poorly implied, i.e., the discharge is predominantly distributed in the thickness of the substrate, forming a channel filled with gas, which has a low electrical strength, which prevents further operation of the assembly.

Claims (1)

Invention Formula In the initial state, the operability of the assembly 40 is ensured by the high adhesion strength of the interface between the sealant and the substrate and the dielectric properties of the latter. If the intensity of the field in the interval t between the printed conductors An electronic unit containing a metal-oxide printed circuit board with mounted electrical radio elements located on one side of the board and sealed with adhesively active polymer Kami for one reason or another exceeds - mass, characterized in that, with the aim of spoon washed with liquid. Since the breakdown channel 8 in the substrate is represented in a subsequent normal mode, the operation of the node is determined by the newly acquired dielectric properties of the liquid due to the neutralization of its ionized particles, the dissolution of gaseous decomposition products, and the chaotic mixing. The sludge formed during the breakdown settles to the bottom of the pallet 3 and does not adversely affect the dielectric properties of the substrate surface washed by the liquid. Since the breakdown channel 8 in the substrate is a rather narrow capillary, the penetration of liquid into it is excluded as a result of the action of surface tension forces. Therefore, direct contact of high-voltage radio-electronic elements 2 and printed conductors 6 with liquid is completely eliminated, due to which the latter is exposed to the undesirable influence of possible ionization processes (partial discharges) occurring in the area of electro-radio elements, i.e., retains its original dielectric properties . Thus, the performance of the site is almost independent of the duration operation of the fluid, which is selected on the basis of the exclusion of the sample in the normal operation of the node. Reliable depth of the 8th discharge channel in the thickness of the substrate and its exit into the liquid are carried out with the observance of a given ratio of the gap between the printed conductors 6 and the thickness of the substrate. Otherwise, the through breakdown of the substrate is poorly implied, i.e., the discharge is predominantly distributed in the thickness of the substrate, forming a channel filled with gas, which has a low electrical strength, which prevents further operation of the assembly. Invention Formula An electronic unit containing a metal-oxide printed circuit board with mounted electrical radio elements located on one side of the board and sealed with adhesively active polymer mass, characterized in that, for the purpose of the electric strength of the substrate material, having a thickness of .2 /, occurs through its thickness breakdown and the discharge channel 8 is released into the liquid (Fig. 2). At the moment the discharge current passes, the voltage from the node is removed by one of the known methods due to the operation of the overload protection device. increase in reliability with increased voltages, it is equipped with a pallet mounted on the other side of the board and forming with it a closed cavity filled with dielectric fluid, and the distance between the printed conductors of the printed circuit board is at least five times its thickness. Fi.2