RU2367124C2 - Radioelctronic unit - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to radio electronic units, meant for use in high-performance onboard electronic mainly used in space vacuum conditions. The proposed radioelectronic unit has a base, a set of printed circuit boards, mechanically connected to each other in parallel into a packet and electrically connected to each other in their interface planes using detachable connectors, crossing the plane of the boards each in a separate electrically conducting opening in the board. The bodies of the connectors rest on one side of the printed circuit board. In contrast to existing radioelectronic units, each printed circuit board is put into a frame made from heat and electrically conducting material, resting on it along the perimetre, and is attached to the frame using fastening elements and docking elements in form of a bushing, mounting part, threaded part and a pin-arrester. In the bushing there is a socket under the pin-arrester of an adjacent printed circuit board. The mounting part is fitted into a metal coated electrically conducting opening on the printed circuit board. The threaded part is put into the lug of the frame, and each frame is mounted on a base by the butt end and is attached to the base using fastening elements.

EFFECT: provision for good thermal coupling between printed circuit boards and frames, frames and the base (for example, over 40 cm²) and, consequently, good heat removal from radio components, as well as possibility of using equipment to put the printed circuit boards into the frame and, consequently, accurately guide an electrical connector, previously mounted on the printed circuit board, for its subsequent docking (undocking) with the electrical connector of the adjacent printed circuit board, thereby preventing damage to contacts.

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Description

The invention relates to electronic blocks, is intended for use in high-performance electronic devices on-board performance mainly in space vacuum.

Known electronic blocks (EW), consisting of a set of flat boards having detachable electrical connectors mounted on the surface of the board. The most famous EW cartridge design [1], in which detachable connectors are located locally along one edge of a rectangular board. Such devices have high maintainability, however, they have long electrical connections between the boards, and the boards that slide along the rails into the case (usually collapsible) have a poor thermal contact with the rails due to the small contact area - along the line or at the points . To ensure the thermal regime of electro-radio elements of such devices, a convective method of heat removal is used, and, accordingly, the presence of a gas medium is required. In electronic warfare with layout of printed circuit boards according to the book design, as well as in blocks with the layout of printed circuit boards according to the batch design [1], printed circuit boards are mounted on brackets or on frames and have larger thermal contact with them (contact spots at the attachment points) compared with the thermal contact of the boards with the guides in the electronic warfare of the cassette design, however, this is not enough to fully ensure the thermal regime of the radio electronic elements, and additional structural measures, such as the use of radiators or forced ventilation ventilation. As in the previous case, such devices have long electrical connections between the printed circuit boards, made by wires, flexible printed cables, etc. In addition, for mounting brackets or frames with printed circuit boards, a housing or cover is required, and for wiring, a panel with electrical connectors, which complicates and increases the cost of construction.

Closest to the claimed EW is EW [2], consisting of a base, a set of parallel flat boards electrically connected to each other along the plane of their interface using detachable connectors that perform the function of a circuit bus, in the housings of which there are pins and socket contacts, each contact of which crosses the plane of the board through a separate conductive hole of the board and in which the first board is installed on the base, and the remaining boards are installed above the first board using racks and mounting screws, about brauzy package. This arrangement of boards allows you to perform the shortest connection between boards, while maintaining the maintainability of the device. The disadvantage of the prototype is the poor conductive connection of the upper circuit boards with the base (contact area less than 1.5 cm ² ), which leads to overheating of the radio electronic elements and requires the use of constructive measures in the form of using additional radiators for fuel electric radio elements or organizing forced ventilation, which complicates and increases the cost of the design. In the prototype, it is possible to use circuit boards with only insignificant heat dissipation (several watts), and it is impossible to use power electronics boards with heat dissipation of tens and hundreds of watts. In addition, multi-pin plug-in connectors are docked manually when installing printed circuit boards in a package by combining the pin pins of the connector of the upper printed circuit board with the contact sockets of the connector of the lower printed circuit board without the use of guides, which complicates the process of docking and undocking and does not exclude contact damage.

The objective of the present invention is the creation of such electronic warfare, which would have kept short electrical connections between the boards, maintainability of the electronic warfare, but at the same time its manufacturability was improved, and the optimal thermal regime of the operation of the electrical elements and electronic warfare as a whole under conditions of space vacuum was ensured.

The technical result is to increase the reliability and manufacturability of electronic warfare and expand its functionality.

The technical result is achieved by the fact that in the claimed electronic warrant containing a base, a set of printed circuit boards mechanically connected in parallel to each other in a package and electrically connected to each other by their mating planes using detachable connectors, in the housings of which there are pins and socket contacts crossing the plane of the board each in a separate conductive hole of the board, and the housing of the connectors are supported on one of the sides of the printed circuit board, in contrast to the previously known each printed circuit board is mounted in a frame from heat and electrically conductive material, leaning on it around the perimeter, and fixed in the frame by means of fasteners and docking elements in the form of a sleeve, a fitting part, a threaded part and a catcher pin, and a socket for a catcher pin of an adjacent printed circuit board is made in the sleeve, the landing part is installed in the metallized electrically non-conductive hole of the printed circuit board to fit, the threaded part is installed in the boss of the frame, and each frame is installed with an end on the base and fixed to it by means of fasteners. This design of electronic warfare provides good thermal communication between printed circuit boards and frames, frames and the base (for example, more than 40 cm ² ) and, accordingly, good heat removal from radio electronic elements. For an on-board electronic warfare operating in space vacuum, conductive heat removal from radio electronic elements (not counting thermal radiation, which accounts for no more than 8% of the released thermal energy) is the only heat removal method that ensures their thermal operation. With the multifunctionality of the tasks performed by EWs, where the heat dissipation of each printed circuit board can vary from minimum to maximum, the flat base of the EW, which has good thermal connection with all printed circuit boards, acts as a heat bus, constantly redistributing the heat fluxes going from the printed circuit boards to base, providing, thus, the optimum possible thermal mode of operation of electro-radio elements, which increases the reliability of electronic warfare. Frames of printed circuit boards in contact with each other in an area smaller than with the base, also, but to a lesser extent, perform the function of a thermal volumetric bus and together with the base create the optimal thermal circuit of the electronic warfare. In addition, fixing the printed circuit board (finished assembly unit) in the frame with docking elements allows several assembly and technological tasks to be realized at once - fixing the printed circuit board in the frame instead of part of the fasteners, installing the landing part of the docking elements in the metallized electrically conductive holes of the printed circuit board for mounting and fixing the threaded their parts in the frame allows you to accurately, without the use of technological devices to install the printed circuit board in the frame and, accordingly, precisely orient To connect the electrical connector, previously mounted on the printed circuit board, for its subsequent docking with the electrical connector of the adjacent printed circuit board, the pins of the docking elements enter the sockets of the docking elements of the adjacent circuit board and provide the subsequent docking of the electrical connectors, as well as their disconnection, eliminating contact damage. The frame design combines the supporting structure for the installation of the printed circuit board, the panel with external electrical connectors and together with the covers forms a casing, and the construction of the frame of the ledge along the perimeter of the frame on one side and the protrusion along the perimeter of the frame on the other side eliminates the frame between the frames between formation of cracks, which creates uniform protection of electronic warfare against cosmic radiation. The frames are made of one standard size on progressive equipment (CNC machine). The above signs make the design of electronic warfare technological.

The essence of the invention is illustrated in figures 1-3, figure 1 shows the construction of the base frame and the installation of the printed circuit board in the frame; figure 2 shows the advantage of the claimed electronic warfare compared with the prototype; figure 3 shows the claimed electronic warfare.

Declared EW consists of a base 1 made of metal, a set of printed circuit boards 2 (usually multilayer flat printed circuit boards) mechanically connected in parallel to each other in a package and electrically connected to each other along the planes of their interface using detachable connectors, in the cases 3 of which there are pins 4 and sockets 5 of contacts crossing the plane of the printed circuit board 2 each in a separate metallized conductive hole 6 of the printed circuit board, and the housing 3 of the connectors are supported on one side of the printed circuit board 2. At the same time, each printed circuit board 2 is made with metallization along the ends and around the perimeter and can have heat-conducting metal layers (copper) with galvanic and thermal connection with the ends, installed in frame 7 from heat and electrically conductive material (for example, metal, all the frames are the same), resting on it around the perimeter, and fixed in it by means of fasteners and connecting elements made of multi-stage, one of the steps of which is made in the form of a sleeve 8, the second - of the landing part 9, the third - of the threaded part 10, and even The framed one is made in the form of a pin-catcher 11, while in the sleeve there is a socket 12 for a pin-catcher 11 of an adjacent printed circuit board, the landing part 9 is installed in a metallized electrically conductive hole 13 of the printed circuit board 2, the threaded part 10 is installed in the boss 14 of the frame 7. All metallized holes on the circuit board 2: electrically conductive holes 6 for the pins 4 of the plug connector, electrically conductive holes 13 for the pin catchers 11, as well as other holes for the electronic components are performed in a single operation with high precision Stu at admission not less than 0.03 mm. Each frame 7 is fitted with an end face on the base 1 and is fixed thereto by means of fasteners 15. Between each other, the frames are pulled together with covers 16 by pins 17. External electrical connectors 18 are mounted on the frames.

The device operates as follows. When mounting in a frame 7 made of heat and conductive material, a printed circuit board 2 is installed in the form of an assembly unit with electronic components and standard detachable connectors 3 (as an option, with one connector). The frame 7 with the printed circuit board 2 installed in this way is mounted on a flat metal base, at the extreme installation location and is attached to the base 1 using fasteners 15, forming good thermal contact with the base 1 and, at the same time, the housing contact, providing the frame 7 is grounded through the base 1. The second frame 7 is sequentially mounted on the base 1 and slides into the first frame 7. In this case, the catcher pins 11 of the second printed circuit board 2 enter the slots 12 of the sleeve 8 of the first printed circuit board 2, providing the next ykovku releasable connector and frames with each other, as well as their undocking without skewing and jamming. Technological devices are not required for this assembly operation. The remaining frames 7 are installed similarly to the second one, are attached together with the covers 16 to the base 1 and are pulled together with pins 17, eliminating gaps and providing thermal contact between the frames 7, forming a body together with the covers 16, thus creating uniform protection of the REB from cosmic radiation. Dismantling is carried out in the reverse order. When the device is functioning (in vacuum), heat fluxes are redistributed in accordance with figure 2, creating the optimum possible thermal mode of operation of radio electronic elements, which increases the reliability of electronic warfare and allows the use of electronic warfare in space vacuum.

Thus, in comparison with the prototype, the declared electronic warfare allows you to save short electrical connections between the boards, maintainability, and at the same time ensures the optimal thermal mode of operation of radio electronic elements and electronic warfare in general in space vacuum, which increases the reliability and manufacturability of electronic warfare and expands its functionality.

LITERATURE

1 Aksenova I.K., Melnikov A.A. Fundamentals of the design of electronic devices. - M .: Higher. school 1986.

2. “The RS / 104 Consortium is discussing the RS / 104 Express standard”, article dated 07/14/06, http://www.ixbt.com/news/all/index.shtml?06/46/92 - prototype.

Claims (1)

An electronic block containing a base, a set of printed circuit boards mechanically connected in parallel to each other in a package and electrically connected to each other by their mating planes using detachable connectors, in the housings of which there are pins and contact sockets intersecting the plane of the board each in a separate electrically conductive hole of the board, and connector housings are supported on one side of the printed circuit board, characterized in that each printed circuit board is mounted in a frame of heat and electrically conductive material, opio perimeter and fixed in the frame by means of fasteners and docking elements in the form of a sleeve, a fitting part of a threaded part and a catcher pin, while a socket for a catcher pin of an adjacent printed circuit board is made in the sleeve, the landing part is installed in a metallized electrically conductive hole a printed circuit board for planting, the threaded part is installed in the boss of the frame, and each frame is installed with an end face on the base and fixed to it by means of fasteners.

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